Catalog_Photoelectric 102821 Catalog
2014-07-05
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PHOTOELECTRIC
SENSORS
Banner Headquarters
Minneapolis, MN
Banner Manufacturing Plant
Minneapolis, MN
Banner Manufacturing Plant
Huron, SD
Banner Manufacturing Plant
Aberdeen, SD
Banner Manufacturing Plant
Fergus Falls, MN
15,000 Different Ways to Solve Your Applications.
With more than 15,000 products, Banner offers the industry’s most complete and integrated
line of photoelectric and ultrasonic sensors, machine safety products, and measurement/
inspection products—a solution for every possible application. We ship thousands per day;
a Banner sensor is installed every 3 1/2 seconds! Whatever part or material you need to
sense or inspect, Banner has the solution.
Advanced Manufacturing Capabilities.
Automation is the backbone of Banner’s world-class manufacturing capabilities. Banner’s
surface-mount components and extremely fast pick-and-place technology populate boards
at speeds of nearly 30,000 components per hour. This is only one reason Banner has the
manufacturing capacity to meet market demands and handle any size order. We can typically
deliver any of more than 15,000 products in just three days; most can ship within hours!
Industry’s Most Preferred Sensors.
More engineers prefer to purchase Banner sensors than any other brand, by a wide margin.
Why? Because Banner is the largest, most capable sensor manufacturer, with the broadest
line of products and solutions in the world. Banner application engineers can solve more of
your applications, with the best field representatives and distributors to back them up.
Sensors for All Industries, Worldwide.
Banner makes sensors for every manufacturing and process industry. Whatever industry you’re in and whatever product you
manufacture, Banner has the right sensors to automate your plants and to improve your overall efficiency, quality and safety.
Important Safety Warning...Please Read!
Sensors described in this catalog do NOT include the self-checking redundant circuitry necessary to allow their use in personnel safety applications. A
sensor failure or malfunction can result in either an energized or a de-energized output condition.
Never use these products as sensing devices for personnel protection. Their use as safety devices may create an unsafe condition which could lead
to serious bodily injury or death.
Only MINI-SCREEN,® MULTI-SCREEN,® MICRO-SCREEN,® MACHINE-GUARD,™ and PERIMETER-GUARD™ Systems, and other systems so designated,
are designed to meet OSHA and ANSI machine safety standards for point-of-operation guarding devices. No other Banner sensors or controls are
designed to meet these standards, and they must NOT be used as sensing devices for personnel
protection. See the Banner Machine Safety Products catalog for information on point-of-operation guarding devices.
Banner Engineering Corporation
9714 10th Avenue North • Minneapolis, MN 55441
Phone: (763) 544-3164 • Fax: (763) 544-3213 • TOLL FREE 1-888-3-SENSOR • (1-888-373-6767)
www.bannerengineering.com • email: sensors@bannerengineering.com
Visit Banner On-Line at
www.bannerengineering.com
• Complete product information for:
– Photoelectric sensors
– Measurement and inspection sensors
– Machine safety products
• Up-to-date “What’s New” page.
• Complete descriptions for each product, with links to
product data sheets, dimension drawings and AutoCAD
.DXF files.
• Product catalogs, specifier’s guides, and product brochures
available for immediate download or email request.
Buy Banner products online!
Company information:
• Facilities and capabilities
• Business units
• Sales and support network
• Career opportunities
Product information:
• Complete product specifications
• Download data sheets and user manuals
• Download product tutorials
• Download AutoCAD drawings
Current “What’s New” information:
• New products
• New literature
• Upcoming trade shows
• Company news
Application notes grouped by:
• Product type:
- Photoelectric sensors
- Measurement & inspection sensors
- Machine safety products
• Industry type
• Application type
• Product family
Literature and resource information:
• Product catalogs and specifier’s guides
• Product data sheets, manuals, and
product software
• Application tutorials and FAQs
• Banner BEAM newsletter
• International product literature
Contact information:
• Find local support, worldwide
• Request factory applications
assistance
• Request literature
• Purchase products online
• Subscribe to online newsletter
Table of Contents
GENERAL INFORMATION
PHOTOELECTRIC SENSORS
About Banner Engineering . . . . . . . . . . . . . . . 2
MINI-BEAM® Sensors
. . . . . . . . . . 115
What’s New . . . . . . . . . . . . . . . . . . . . . . . . . . . 8
ECONO-BEAM™ Sensors . . . . . . . . . . . . . . . . 159
Selection Guide . . . . . . . . . . . . . . . . . . . . . . . 14
300 mm
Emitter #1
R eeiver #1
Rec
12 in
8 in
200 mm
100 mm
4 in
Emitter #2
R eeiver #2
Rec
100 mm
0
4 in
200 mm
Emitter #3
R eeiver #3
Rec
8 in
12 in
300 mm
0.6 m
2 ft
1.2 m
4 ft
1.8 m
6 ft
2.4 m
8 ft
Introduction to Sensing Concepts . . . . . . . . 23
M12 (Class 1 & 2) Laser Emitters . . . . . . . 169
3.0 m
10 ft
Product Applications. . . . . . . . . . . . . . . . . . . 50
EZ-BEAM® Sensors . . . . . . . . . . . . . . . . . . . 175
PHOTOELECTRIC SENSORS
QM42 & QMT42 Sensors . . . . . . . . . . . . . . . 239
VS1 Sensors . . . . . . . . . . . . . . . . . . . . . . . . . 60
PicoDot® Sensors
VS2 Sensors
VS3 Sensors
. . . . . . . . . . . . . 253
. . . . . . . . . . . . . . . . . . 64
Q50 Sensors
. . . . . . . . . . . . . . . . . . 261
Q60 Sensors
. . . . . . . . . . . . . . . . . . 267
. . . . . . . . . . . . . . . . . . 70
Q08 Sensors . . . . . . . . . . . . . . . . . . . . . . . . . 74
SM512 Sensors . . . . . . . . . . . . . . . . . . .273
Q10 Sensors . . . . . . . . . . . . . . . . . . . . . . . . . 80
SM30 Sensors . . . . . . . . . . . . . . . . . . .283
Q14 Sensors . . . . . . . . . . . . . . . . . . . . . . . . . 84
MINI-BEAM®2 Sensors
R55 Sensors
. . . . . . . . . . . . . . . .297
Slot Sensors
. . . . . . . . . . . . . . . . . . 313
. . . . . . . . . . . 90
Q23 & QH23 Sensors . . . . . . . . . . . . . . . . . . . 96
VALU-BEAM® Sensors . . . . . . . . . . . . . . .327
WORLD-BEAM™ Sensors
. . . . . . . . . 106
Q85 Sensors . . . . . . . . . . . . . . . . . . . . .371
4
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
Table of Contents
PHOTOELECTRIC SENSORS
D12 Sensors . . . . . . . . . . . . . . . . . . . . .617
Q45 Sensors . . . . . . . . . . . . . . . . . . . . .379
PC44 Sensors . . . . . . . . . . . . . . . . . . . .635
Standard OMNI-BEAM® Sensors . . . . . . . .427
FIBER OPTICS
Analog OMNI-BEAM® Sensors . . . . . . . . .444
Plastic Fiber Optics
. . . . . . . . . . . . 640
MAXI-BEAM® Sensors . . . . . . . . . . . . . .455
Glass Fiber Optics
. . . . . . . . . . . . . 678
MULTI-BEAM® Sensors . . . . . . . . . . . . . .475
PART SENSING LIGHT SCREENS
SENSOR ACCESSORIES
Retroreflectors
. . . . . . . . . . . . . . . . 722
PVA Sensors . . . . . . . . . . . . . . . . . . . . . . . . 520
Cables
LS Series Light Screens . . . . . . . . . . . . . . . . 526
Brackets . . . . . . . . . . . . . . . . . . . . . . . . . . . 740
. . . . . . . . . . . . . . . . . . . . . . 732
OPTICAL TOUCH BUTTONS
BEAM-TRACKER™ Alignment Device . . . . . . 755
OPTO-TOUCH™ Touch Buttons . . . . . . . . . 531
LAT-1 Laser Alignment Tool . . . . . . . . . . . . . 756
REMOTE SENSORS & COMPONENT SYSTEMS
PICO-AMP™, MICRO-AMP® and
MAXI-AMP™ Systems . . . . . . . . . . . . . . . . . .539
DBQ5 Demo Box . . . . . . . . . . . . . . . . . . . . . . 757
FIBER OPTIC SENSORS
SPS100 DC Power Supply
D10 Sensors
. . . . . . .758
. . . . . . . . . . . . . . .595
SUPPLEMENTAL INFORMATION
Understanding Sensing Terms . . . . . . . . . . . . . . . . . . . . . . 764
D11 Sensors . . . . . . . . . . . . . . . . . . . . .603
Data Reference Tables . . . . . . . . . . . . . . . . . . . . . . . . . . . 769
Other Banner Products . . . . . . . . . . . . . . . . . . . . . . .780
International Distributor List . . . . . . . . . . . . . . . . . . . . . . .792
Product Index By Model Number . . . . . . . . . . . . . . . . . . . .795
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
5
About Banner Engineering
Banner also offers Machine Safety Products . . .
Miniature Light Screens
Light screen systems for smaller machinery have big, ultra-bright
diagnostic indicators, and a choice of metal box or DIN-rail module
controllers. Banner systems are the easiest to set up, using their
built-in diagnostic LED indicators.
Perimeter-Guarding Systems
Complete systems monitor the boundary
around machines, robots and assembly
systems. Control two, three, or four sides
with the use of corner mirrors.
Two-Hand-Control Systems
These safety devices require both of the
operator’s hands to operate two inputs
simultaneously to safely start and maintain a
normal machine cycle. Redundant design
meets EN574 standards.
Safety Interlock Switches
Switches and controls fit all types of
guard doors and covers, and feature
“positive-opening” contacts as required
by international safety standards.
Dual-Light-Screen Systems
Safety Modules
Banner offers three types of safety
modules: two-hand-control modules,
emergency stop safety modules, and
safety extension modules.
Operate two light screens with one controller, saving wiring and
panel space and eliminating the cost of additional controllers.
Dual systems allow simultaneous guarding of two areas on one
machine.
Magnetic Safety Switches
Sealed switches with triple-coded
magnets are extremely resistant to
defeat, and are tolerant of dirt buildup,
liquids, and poor alignment.
EZ-GUARD ™
A two-part non-contact safety system
for perimeter or access guarding.
Easy and economical to install.
Models available with 1, 2, 3, or 4
beams.
Fieldbus-Compatible Light Screens
Light screen control modules offer complete system monitoring
on DeviceNet™ fieldbus networks for non-safety monitoring of
system status. They offer convenience, simplified troubleshooting
and use, and low operating costs.
For an overview of Banner Machine Safety Products, see information starting on page 780
6
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
About Banner Engineering
AND
Precision Measurement & Inspection Systems.
High-Resolution Measurement Light Screens
For precise product profiling and on-the-fly sizing,
measuring light screens offer true 2.5 mm (0.1")
resolution and incredible flexibility, including three
scanning modes and eight measurement modes,
using Windows® software.
Sensors for Microelectronic Manufacturing
Photoelectric and laser technologies solve difficult
applications such as flat finding, wafer mapping,
part presence, lead frame hole sensing, IC orientation, pin counting, small parts detection and leak
detection. PicoDot® shown has a convergent point
size of only 0.25 mm (0.01").
Advanced Inspection Sensors
Camera-based sensors provide
advanced vision functions at lower
cost than high-end vision systems.
Extremely easy to set up and
simple to use.
Measuring Light Screens
A-GAGE® Measuring light screens perform
advanced measuring applications, including
on-the-fly product sizing, object profiling,
product inspection, package measurement
and web guiding. Choose from several controllers.
LT3 Time-of-Flight Sensor
LT3 sensors can measure the distance to
objects up to 3.3 m (10') away using
advanced time-of-flight technology.
Measurement resolution is 1 mm for white
targets. Simple pushbutton set-up allows for
fast configuration of analog and discrete outputs. Response speed is adjustable to
1, 10, or 100 ms. For measuring even longer
distances, choose a retroreflective model.
Remote Ultrasonic Sensors
Remote ultrasonic sensors for small
and/or hard-to-access spaces detect
object presence within ±0.5 mm
(0.02") with an exceptional sensing
repeatability of ±0.15%. Analog versions feature accurate 0.075 to
0.375 mm (0.003" to 0.015")
resolution.
L-GAGE ® Laser Measurement Sensors
Ultrasonic Gauging Sensors
LG Series sensors are much less expensive and easier to use than others
currently available. They feature an outstanding maximum resolution of 3 µm
(0.0001").
Patented U-GAGE® T30U ultrasonic
sensors for precise measurement
have both switched and analog outputs in one sensor, performing both
measurement and on-off switching
simultaneously.
For an overview of Banner Measurement & Inspection products, see information starting on page 786
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
7
What’s New
D10 Expert™ Sensors
• Advanced photoelectric sensor for plastic
fiber optics
• Sleek, ultra-slim 10 mm housing; DIN rail
mount
• High-performance sensing with easy-to
set Expert-style TEACH mode adjustments*
• 4-digit display of settings and signal
strength
• Models with dual discrete or analog (plus
discrete) outputs
• See page 595
*U.S. Patent #5,808,296
WORLD-BEAM ™ Sensors
• Innovative universal housing design* fits
almost any sensor mounting situation
• Available in six sensing modes:
- Opposed (through-beam)
- Retroreflective
- Convergent beam
- Diffuse
- Adjustable-field
- Plastic fiber optic
• Advanced diagnostics with highly visible
status indicators
• Rugged, sealed housing is rated IEC IP67;
NEMA 6
• See page 106
*U.S. Design Patent pending
8
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
What’s New
MINI-BEAM ®2 Sensors
• A new level of sensor miniaturization:
less than 1/3 the size of the original
MINI-BEAM
• Available in opposed, retroreflective, diffuse, and convergent sensing modes
• Digital push-button gain adjustment
• Rugged, sealed housing is rated IEC
IP67; NEMA 6
• Available with integral cable or pico-style
quick-disconnect
• See page 90
VS3 Sensors
• Extremely compact self-contained miniature dc sensors
• Available for opposed and polarized
retroreflective mode sensing
• Retroreflective models use coaxial optics
to eliminate “blind” area at close range
• Opposed mode range up to 1.2 m
• Choice of integral cable or pico-style
quick-disconnect
• See page 70
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
9
What’s New
C-GAGE ®
SLC1 Label Sensors
• Reliably detects the presence of most
types of labels on web backing, including
clear labels on opaque backing
• No user adjustments - Adaptive Digital
Logic (ADL)* provides revolutionary selflearning capability
• Continuous automatic internal drift compensation for sensing threshold
• Perfect for label registering and label
counting applications
• See page 322
*U.S. Patent pending
SL10 Slot Sensors
• One-piece opposed mode sensors provide
easy installation, requiring no sensor
alignment
• Ideal for gear tooth counting, edge detection, and label detection
• High-power visible red sensing beam
• SL10 features 4-turn, clutched sensitivity
adjustment
• SLE10 Expert ™ models have single-button
TEACH mode sensitivity setting, and can
also be programmed remotely
• See page 318
10
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
What’s New
WORLD-BEAM ™
Adjustable-Field Sensors
• Multi-turn adjustment of sensing field
cutoff point from 20 to 100 mm
• Innovative universal housing design fits
almost any sensor mounting situation
• Advanced diagnostics with highly visible
status indicators
• Rugged, sealed housing is rated IEC
IP67; NEMA 6
• Available with integral cable or pico-style
pigtail quick-disconnect
• See page 109
Q60
Adjustable-Field Sensors
• Long-range adjustable-field sensor
• Two-turn logarithmic adjustment of sensing
field cutoff point from 0.2 to 2 m; easy to set
at long range
• Rolling pointer indicates relative cutoff
point setting
• Easy push-button or remote programming
of light/dark operate and output timing
• Available with integral cable or rotating
euro-style quick-disconnect fitting
• Powered by 10 to 30V dc; 24 to 250V
ac/dc universal voltage models available
Summer of 2001
• See page 267
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
11
What’s New
R55 Fiber Optic Sensors
• Color registration mark sensors for use with
fiber optics; models available for glass or
plastic fiber assemblies
• Outstanding color contrast sensitivity:
detects 16 levels of gray scale
• Easy-to-use push-button or remote TEACH
mode settings; non-volatile memory
• Bipolar (NPN/PNP) outputs; fast,
50 microsecond response
• Choose from five beam colors: infrared, plus
visible red, blue, green, and white
• See page 306
R55 Expert ™ Sensors
• Color registration mark sensors with easy
push-button or remote TEACH mode settings; non-volatile memory
• Outstanding color contrast sensitivity:
detects 16 levels of gray scale
• Fast, 50 microsecond response; bipolar discrete outputs plus one analog output
• LED light bar clearly displays signal strength
• Rugged zinc alloy housing with high-quality
acrylic lens; rated IEC IP67; NEMA 6
• See page 298
12
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
What’s New
L-GAGE ® Q50 Linear
Displacement Sensors
• LED-based linear displacement sensor;
range up to 400 mm
• Fast, easy-to-use push-button or remote
TEACH mode programming of sensing
window size and position
• Analog and discrete output models available
• Rugged construction rated IEC IP67; NEMA 6P
• Available with integral cable or rotating
euro-style quick-disconnect fitting
• See page 261
Ruggedized PicoDot®
Sensors
• Popular PicoDot laser sensors were originally designed to minimize weight, for use
on robotic end effectors; they are now
available in a ruggedized housing for use
in more challenging sensing environments
• Differences in housing design include:
- Tough ABS/polycarbonate alloy
housing with thicker walls
- Welded lens and indicator windows
- O-ring sealed cable entrance and
gain adjustment
• Rated IEC IP67; NEMA 6; suitable for
many food processing applications
• See page 254
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
13
Selection Guide
Photoelectric Sensors
Photoelectric
Sensors
EZ-BEAM sensors
require no adjustment
Series
Catalog Page
Opposed mode
VS1
60
VS2
64
VS3
70
Q08
74
1.2 m
1.2 m
0.5 m
Retroreflective modes
0.25 m
Diffuse proximity modes
60 mm
Convergent proximity mode
10 or 20 mm
focus
15 or 30 mm
focus
26 x 8.3 x 12 mm
25 x 12 x 4.3 mm
26 x 9 x 16 mm
32 x 20 x 8 mm
Housing material
ABS
ABS
ABS
Zinc alloy
Protection rating
IP67; NEMA 6
IP67; NEMA 6
IP67; NEMA 6
IP67; NEMA 6
Operating temperature
-20° to +55°C
-20° to +55°C
-20° to +55°C
0° to +50°C
12 to 24
12 to 24
10 to 30
10 to 30
NPN (sinking)
50 mA
50 mA
50 mA
150 mA
PNP (sourcing)
50 mA
50 mA
50 mA
150 mA
Cable
✓
✓
✓
✓
Quick-disconnect (QD)
✓
✓
✓
✓
Fixed-/Adjustable-field proximity mode
Fiber optic modes
Dimensions (h x w x d)
Power supply:
V dc
V ac
(50/60 Hz)
V ac/dc
Output:
NPN + PNP
SCR or FET
E/M relay
Analog
Output timing option
Connections:
Wiring chamber
I.S./NAMUR models
Low-contrast models
Self-diagnostics + alarm
14
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
Selection Guide
Photoelectric Sensors
Q10
80
Q14
84
MINI-BEAM®2
90
Q23 & QH23
96
WORLD-BEAM™
106
1.8 m
1.8 m
4m
8m
20 m (long range)
3 m (short range)
2 m (non-polarized)
1 m (polarized)
2 m (polarized)
6.5 m (non-polarized)
3.5 m (polarized)
200 mm (diffuse)
50 mm (divergent)
0.5 m
10 mm or 20 mm
focus
800 mm (long range)
450 mm (diffuse)
200 mm (short range) 100 mm (divergent)
50 mm focus
16 mm or 43 mm
focus
20 to 100 mm
Plastic
Plastic
35 x 20 x 10 mm
31 x 7.5 x 14 mm
20 x 8 x 37 mm
34 x 12 x 23 mm
35 x 15 x 31 mm
ABS
ABS
ABS
ABS
ABS
IP67; NEMA 6
IP54; NEMA 4
IP67; NEMA 6
IP67; NEMA 6
IP67; NEMA 6
-40° to +70°C
-20° to +55°C
-20° to +55°C
-20° to +55°C
-20° to +70°C
10 to 30
10 to 30
10 to 30
10 to 30
10 to 30
150 mA
150 mA
150 mA
150 mA
100 mA
150 mA
150 mA
150 mA
150 mA
100 mA
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
15
Selection Guide
Photoelectric Sensors
Photoelectric
Sensors
EZ-BEAM sensors
require no adjustment
Series
Catalog Page
Opposed mode
Retroreflective modes
Diffuse proximity modes
MINI-BEAM®
115
ECONO-BEAM®
159
S12
176
S18 & M18
178 & 186
30 m (long range)
3 m (short range)
1.8 m
15 m
20 m
4.5 m (non-polarized)
2 m (polarized)
4.5 m (non-polarized)
2 m (polarized)
2 m (non-polarized)
0.38 m (long range)
0.13 m (short range)
0.20 m (long range)
0.08 m (short range)
0.3 m (long range)
0.1 m (short range)
16 or 43 mm focus
12 or 16 mm focus
Convergent proximity mode
Fixed-/Adjustable-field proximity mode
25, 50 or 100 mm
Fiber optic modes
Glass or plastic
Glass or plastic
(see specs)
38 x 32 x 30 mm
M12 x 1 x 64 mm
M18 x 1 x 59 mm
Housing material
PBT polyester
PBT or LEXAN®
PBT polyester
S18: PBT; M18: stainless steel
Protection rating
IP67; NEMA 4X
IP66; NEMA 4X
IP67; NEMA 6P
IP67; NEMA 6P
-20° to +70°C
10 to 30 or
5 to 15 (NAMUR)
0° to +50°C
-40° to +70°C
-40° to +70°C
10 to 30
10 to 30
10 to 30
V ac
(50/60 Hz)
24 to 240
105 to 130
V ac/dc
24 to 240
Dimensions (h x w x d)
Operating temperature
Power supply:
Output:
V dc
20 to 250
NPN (sinking)
150 mA
150 mA
PNP (sourcing)
150 mA
150 mA
NPN + PNP
Bipolar, 150 mA
Bipolar, 150 mA
SCR or FET
300 mA
300 mA
E/M relay
300 mA
3A
Analog
Output timing option
Cable
✓
Quick-disconnect (QD)
✓
Connections:
✓
✓
✓
✓
✓
✓
✓
Wiring chamber
I.S./NAMUR models
✓ (MIAD9)
Low-contrast models
✓
Self-diagnostics + alarm
16
✓ (Expert)
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
Selection Guide
Photoelectric Sensors
S30
190
Q25
194
Q40
196
T18
200
T30
206
60 m
20 m
60 m
20 m
60 m
6 m (polarized)
2 m (polarized)
6 m (polarized)
2 m (polarized)
2 m (non-polarized)
6 m (polarized)
0.5 m (dc models)
0.3 m (ac models)
200, 400, or 600 mm
25, 50 or 100 mm
200, 400, or 600 mm
25, 50 or 100 mm
200, 400,
or 600 mm
M30 x 1.5 x 69 mm
50 x 25 x 30 mm
70 x 40 x 46 mm
42 x 30 x 30 mm
52 x 40 x 45 mm
PBT polyester
PBT polyester
PBT polyester
PBT polyester
PBT polyester
IP67; NEMA 6P
IP67; NEMA 6P
IP67; NEMA 6P
IP67; NEMA 6P
IP67; NEMA 6P
-40° to +70°C
-40° to +70°C
-40° to +70°C
-40° to +70°C
-40° to +70°C
10 to 30
10 to 30
10 to 30
10 to 30
10 to 30
20 to 250
20 to 250
20 to 250
20 to 250
20 to 250
150 mA
150 mA
150 mA
150 mA
150 mA
150 mA
150 mA
150 mA
150 mA
150 mA
300 mA
300 mA
300 mA
300 mA
300 mA
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
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17
Selection Guide
Photoelectric Sensors
Photoelectric
Sensors
EZ-BEAM sensors
require no adjustment
Series
Catalog Page
Opposed mode
QM42
239
PicoDot®
253
Q50
261
Q60
267
Adjustable field:
Max. 300 or 400 mm
Adjustable field:
Max. 2 m
10 m
Retroreflective modes
3 m (polarized)
Diffuse proximity modes
40 m
0.4 m (short range)
6 m (long range)
Convergent proximity mode
102 mm or
203 mm focus
Fixed-/Adjustable-field proximity mode
Adjustable field:
Max. 150 or 400 mm
Fixed-field:
0.5, 0.75, 1,
1.5, or 2 m
Fiber optic modes
Plastic
Dimensions (h x w x d)
42 x 13 x 42 mm
41 x 13 x 46 mm
60 x 20 x 50 mm
75 x 25 x 60 mm
Housing material
Zinc alloy
ABS
ABS/Polycarbonate
ABS/Polycarbonate
Protection rating
IP67; NEMA 6P
IP54; NEMA 3
IP67; NEMA 6P
IP67; NEMA 6
-20° to +70°C
-10° to +45°C
-10° to +55°C
-20° to +55°C
10 to 30
10 to 30
15 to 30
10 to 30
NPN (sinking)
100 mA
150 mA
PNP (sourcing)
100 mA
150 mA
Operating temperature
Power supply:
V dc
V ac
(50/60 Hz)
V ac/dc
Output:
150 mA
NPN + PNP
SCR or FET
E/M relay
Analog
4 to 20 mA or 0 to 10V sourcing
✓
Output timing option
Cable
✓
✓
✓
✓
Quick-disconnect (QD)
✓
✓
✓
✓
Connections:
Wiring chamber
I.S./NAMUR models
Low-contrast models
Self-diagnostics + alarm
18
✓
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Selection Guide
Photoelectric Sensors
SM512
273
30 m (long range)
8 m (short range)
SM30
283
60 m (EZ-BEAM)
200 m (standard)
140 m (SMI30)
R55
297
SL Series
313
VALU-BEAM®
327
Q85
371
10 mm (SL10)
30 mm (SL30)
60 m (long range)
3 m (short range)
23 m
9 m (non-polarized)
4.5 m (polarized)
4.5 m (polarized)
4.5 m (infrared)
2 m (visible red)
0.38 m (long range)
0.20 m (short range)
0.15 m (divergent)
0.76 m (long range) 1.0 m (long range)
0.38 m (short range) 0.25 m (short range)
32 or 4.3 mm
10 mm
38 mm focus
Glass
Glass or plastic
R55F
(see page 306)
Glass or plastic
64 x 13 x 80 mm
M30 x 1.5 x 102 mm
92 x 30 x 56 mm
72 x 52 x 19 mm
64 x 37 x 36 mm
67 x 25 x 85 mm
Zinc alloy
PBT or stainless steel
Zinc alloy
ABS
PBT polyester
ABS
IP66; NEMA 4
IP67; NEMA 6P
IP67; NEMA 6
IP67; NEMA 6
IP66; NEMA 4X
IP67; NEMA 6P
-40° to +70°C
-40° to +70°C
-10° to +55°C
-40° to +70°C
(see specs)
-25° to +55°C
10 to 30 or
12 to 18
10 to 30
10 to 30
10 to 30
(see specs)
10 to 48
24 to 240 (standard)
20 to 250 (EZ-BEAM)
250 mA
(see specs)
(see specs)
12 to 240 (ss output)
24 to 240 (e/m relay)
Bipolar, 250 mA
Bipolar, 150 mA
750 mA
300 mA
5A
3A
150 mA (EZ-BEAM)
150 mA (EZ-BEAM)
Bi-Modal; 250 mA (std)
Bipolar, 150 mA
Bipolar, 150 mA
500 mA; 300 mA (EZ)
0 to 10 mA
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
w/optional accessory
✓
✓ (SMI30)
✓ (SMI912)
✓
✓
✓ (EZ-BEAM)
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19
Selection Guide
Photoelectric Sensors
Photoelectric
Sensors
Series
Catalog Page
Opposed mode
Retroreflective modes
Diffuse proximity modes
Convergent proximity mode
Q45
379
OMNI-BEAM™
425
MAXI-BEAM®
455
MULTI-BEAM®
475
60 m
45 m
90 m (long range)
4.5 m (short range)
Several ranges
to 200 m
70 m (laser)
9 m (non-polarized)
6 m (polarized)
9 m (non-polarized)
4.5 m (polarized)
9 m (non-polarized)
4.5 m (polarized)
23 m (infrared)
9 m (non-polarized)
4.5 m (polarized)
3 m (long range)
1.8 m (medium range)
0.5 m (short range)
1.8 m (long range)
0.3 m (short range)
1.5 m (long range)
0.76 m (short range)
2 m (long range)
0.6 m (medium range)
0.3 m (short range)
38 or 100 mm
focus
38 mm focus
38 mm focus
38, 100, or
150 mm focus
Fixed-/Adjustable-field proximity mode
50 or 100 mm
Fiber optic modes
Glass or plastic
Glass or plastic
Glass or plastic
Glass
88 x 45 x 55 mm
76 x 45 x 55 mm
114 x 40 x 48 mm
114 x 40 x 53 mm
Housing material
PBT polyester
PBT polyester
PBT polyester
PBT polyester
Protection rating
IP67; NEMA 6P
IP66; NEMA 4
IP66; NEMA 4
IP54; NEMA 3
-40° to +70°C
-40° to +70°C
-40° to +70°C
-40° to +70°C
10 to 30 or
5 to 15 (NAMUR)
10 to 30
10 to 30
10 to 30; or 48
90 to 250
105 to 130 or
210 to 250
105 to 130 or
210 to 250
12 to 30V dc or
12 to 250V ac
12, 24; 105 to 130;
210 to 250
Dimensions (h x w x d)
Operating temperature
Power supply:
V dc
V ac
(50/60 Hz)
V ac/dc
Output:
12 to 250V dc or
24 to 250V ac
NPN (sinking)
250 mA
PNP (sourcing)
250 mA
NPN + PNP
Bipolar, 250 mA
Bi-Modal , 100 mA
Bipolar, 250 mA
SCR or FET
300 mA
500 mA
750 mA
750 mA
5A
5A
✓
✓
w/optional accessory
w/optional accessory
✓
✓
E/M relay
™
5A
Analog
0 to 10V sourcing
✓
✓
Cable
✓
✓
Quick-disconnect (QD)
✓
✓
Output timing option
Connections:
Wiring chamber
I.S./NAMUR models
20
✓ (Q45AD9)
Low-contrast models
✓
Self-diagnostics + alarm
✓
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Selection Guide
Part-Sensing Light Screens
PVA
520
2m
LS Series
526
LS4: 2.3 m
LS10: 1.2 m
LS10SR: 0.2 m
Height x 30 x 15 mm
116 x 40 x 49 mm
Black anodized aluminum
PBT polyester
IP62; NEMA 2
IP54; NEMA 12
0° to +50°C
0° to +50°C
12 to 30
12 to 30
150 mA
125 mA
150 mA
125 mA
✓
✓
✓
✓
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21
Selection Guide
Fiber Optic Sensors
Fiber Optic
Sensors
(Fiber optic cables are
purchased separately)
Series
Catalog Page
Opposed Mode Fiber Optics
D10
595
D11
603
D12
617
PC44
635
Plastic
Plastic
Plastic & Glass
Plastic
Plastic
Plastic
Plastic & Glass
Plastic
36 x 10 x 68 mm
35 x 11 x 64 mm
30 x 12 x 70 mm
22 x 15 x 43 mm
Sensor Housing material
ABS
ABS
ABS
Polypropylene
Sensor Protection rating
IP50; NEMA 1
IP54; NEMA 2
IP66; NEMA 4
IP54; NEMA 2
Sensor
Operating temperature*
-20° to +55°C
-20° to +55°C
-20° to +70°C
-20° to +50°C
12 to 24 (discrete)
15 to 24 (analog)
10 to 30
10 to 30
10 to 30
NPN (sinking)
150 mA
150 mA
150 mA
100 mA
PNP (sourcing)
150 mA
150 mA
150 mA
100 mA
Diffuse Mode Fiber Optics
Sensor Dimensions (h x w x d)
Power supply:
Output:
V dc
Analog
0 to 10V dc or
4 to 20 mA
Cable
✓
✓
✓
Quick-disconnect (QD)
✓
✓
✓
Connections:
✓
Printed circuit board
Teach-mode programming
✓
Low-contrast models
✓
Self-diagnostics + alarm
✓
(Expert Series)
✓
(Expert Series)
✓
(Except Expert Series)
✓
(Expert Series)
✓ (AC-coupled &
Expert Series)
✓ (Except
AC-coupled Series)
✓
* Operating temperature range for plastic fiber optic assemblies is typically -30°C to +70°C, and -140° to +250°C for metalsheathed glass fiber optic assemblies. See the fiber optics section (beginning on p. 639) for specific fiber optic temperature information.
22
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Introduction to Sensing Concepts and Terminology
An Introduction to Sensing Concepts and Terminology
Introduction
Like nearly any other technology, photoelectric and ultrasonic sensing have their own “buzz words”; this article
explains many of them. Some terms are not universal, and
a few definitions have developed several names, often due
to inconsistent use of sensing terminology among sensor
manufacturers.
For those familiar with sensing, this article provides a
quick reference. A glossary of sensing terminology is
located at the back of this catalog.
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23
Introduction to Sensing Concepts and Terminology
Photoelectric Sensor
photoelectric sensor is an electrical device that
responds to a change in the intensity of light
falling upon it. Early photoelectric devices used for
industrial presence- and absence-sensing applications were small metal barrels, with a collimating
lens on one end to focus the beam toward the
receiver, and a cable exiting the opposite end
which connected the device to an external vacuum
tube amplifier (see Figure 1). A small incandescent
bulb, protected inside a matching metal barrel,
provided the opposing light source. These small,
rugged incandescent sensors were the forerunners
of today’s industrial photoelectric sensors.
A
1975. While ideal for security detection and film
processing applications, this invisible light initially
was poorly received by those accustomed to visually aligning and checking incandescent emitters.
10Å
1 nm
X-RAYS
3 µm
400 nm
ULTRA-VIOLET
VISIBLE
500 nm
100 nm
300 nm
Visible Blue LEDs
700 nm
600 nm
30 µm
NEAR-INFRARED MID-INFRARED
800 nm
FAR INFRARED
1000 nm
1µm
900 nm
Visible Red LEDs
Infrared LEDs
Visible Green LEDs
Figure 2. The light spectrum
Figure 1.
Early photoelectric
sensors used an incandescent light bulb;
advanced technology has
resulted in ever-smaller
LED-based sensors
LED (Light-Emitting Diode)
Light-emitting diodes (LEDs) first appeared in the
1960s, and are now seen daily as status indicators
on many electrical and electronic appliances. An
LED is a solid-state semiconductor, similar electrically to a diode, except that it emits a small
amount of light when current flows forward
through it.
Because they are solid state, LEDs can outlast the
useful life of a sensor. Therefore, LED sensors can
be totally encapsulated and sealed — making
them smaller, yet more reliable than their incandescent counterparts. Unlike incandescent lights,
LEDs withstand vibration and shock, and have no
filaments to sag. The down side: LEDs produce
only a fraction of the light generated by an incandescent bulb of the same size. (Laser diodes are
an exception to this, however. Similar to LEDs,
laser diodes can produce many times the light
intensity and sensing range.)
Phototransistors
s the 1960s ushered in the silicon era, photojunction devices (photodiodes, phototransistors, and photodarlingtons) were introduced. Of
these, the phototransistor has prevailed as the
most widely used for industrial photoelectric sensing (see Figure 3), offering the best trade off
between light sensitivity and response speed.
A
Figure 3.
A typical photocell (left)
and a phototransistor
(right)
Photocells are used when high sensitivity to visible
wavelengths is required, as in some color-registration or ambient-light-detection applications.
Photodiodes are useful when either extremely fast
response or linear response over widely varying
light levels is required.
LEDs can emit infrared light, which is invisible to
the human eye, or visible green, yellow, red, blue,
blue-green, or white light (see Figure 2). The most
efficient of the LED light generators, only infrared
LEDs were used in photoelectric sensors until
24
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Introduction to Sensing Concepts and Terminology
Modulated LED Sensors
y 1970, LEDs were discovered to have a benefit
much more profound than their long life.
Unlike incandescent bulbs, LEDs can be turned on
and off (modulated) at extremely high speeds — a
frequency typically measured in kilohertz (see
Figure 4). When a phototransistor receiver amplifier is modulated, it can be “tuned” to the emitter’s
modulation frequency, and amplify only those light
signals that pulse at that frequency.
B
“confuse” other sensors. If a material emits more
light than the surrounding light level, it may be
detected reliably by an ambient light receiver (see
Figure 6). Ambient light receivers are also used for
outdoor lighting control.
Figure 4.
A modulated
(pulsed) light source
Pu
lse
Modulation can
be compared to
the transmission
and reception of
a radio wave. A
EMITTER
radio receiver
tuned to one station (frequency) ignores the presence of other radio signals. The modulated LED
emitter is functionally similar to the radio transmitter, and the tuned photoelectric receiver corresponds to the radio receiver.
RECEIVER
Mo
du
lat
e
dL
igh
t
It is a common misconception that because an
infrared LED system is invisible, it must be powerful. A modulated photoelectric sensor’s apparent
high power has little to do with the LED’s wavelength. An LED emits only a small amount of light
energy; the modulation accounts for its power. A
non-modulated sensor is powerful only if its receiver can “see” only the light from its emitter, achieved
using long-focal-length lenses and/or mechanical
shielding. In contrast, a modulated receiver ignores
ambient light, responding only to its own — or
similarly modulated — light sources.
Non-modulated sensors are still used to sense
ambient light or large amounts of infrared radiation, such as red-hot bottles emerging from a
furnace — applications that would saturate and
Figure 6. An ambient light receiver senses infrared energy
radiated from red-hot glass or metal
Modulated sensors are not totally immune to
ambient light, however: extremely bright lights
pose a problem. For example, no modulated photoelectric receiver can function normally when
pointed directly into sunlight. Anyone who has
focused sunlight through a magnifying glass onto
a piece of paper knows that enough energy can
easily be focused to light the paper on fire.
Substitute the magnifying glass with a sensor lens
and the paper with a phototransistor, and it
becomes easy to understand why a receiver shuts
down when pointed directly into the sun. This is
ambient light saturation.
Modulated LEDs revolutionized photoelectric sensor design. Sensing ranges increased, and beam
angles widened. Users of modulated devices gradually began to trust this dependable, easy-to-align
light beam. By 1980, non-modulated photoelectric
sensors were nearly just a memory. New automated processes could not tolerate the interruptions
caused by the incandescent
bulb burnout common in
non-modulated systems.
Figure 5. A modulated photoelectric control
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Infrared LEDs are the most
efficient, and also the best
spectral match to phototransistors (see Figure 7).
However, photoelectric sensors used to detect color differences (as in color registration mark sensing) require a
25
Introduction to Sensing Concepts and Terminology
visible light source. As a result, color sensors continued to use photocell receivers and incandescent
lamps until more efficient visible LEDs were developed. Today, most color registration sensors are
modulated, with visible-beam LED emitters in a
variety of colors.
Self-Contained Photoelectric Sensors
hotoelectric sensors are divided into three
functional categories: self-contained, remote
and fiber optic. Self-contained photoelectric sensors contain the optics along with the electronics;
they require only a power source. The sensor performs its own modulation, demodulation, amplification, and output switching. Some self-contained
sensors provide such options as built-in control
timers or counters. As technology progresses,
self-contained photoelectric sensors have become
increasingly smaller (see Figure 9).
P
Figure 7. Comparison of spectral response: photocell vs.
phototransistor
Modulated sensors usually sacrifice response speed
for sensing distance. Because distance is often the
dominant sensing application criteria, non-modulated emitter use continued for sensing small parts or
fast-moving targets, applications where response
speed was critical. However, today’s very-highspeed modulated sensors now offer respectable
ranges and satisfy most response requirements.
Ultrasonic Sensors
ltrasonic sensors emit and receive sound at frequencies above the range of human hearing
(about 20 kHz). They sense objects by measuring
the time it takes to reflect the ultrasound waves
from the object’s surface and back to the receiver
transducer, or by detecting an object’s presence
when it interrupts the transmission of sound from
the emitter to an opposed receiver. Unlike photoelectric sensing, which is based on an object’s
opacity or reflectivity to light, ultrasonic sensing
depends upon an object’s density — its ability to
reflect or block sound. This makes ultrasonic sensing practical for applications unsuited to photoelectric methods.
See Figure 8.
U
Figure 8.
Ultrasonic proximity
sensors measure
distance by “bouncing” a sound wave
to a target surface
and back to the
sensor
Pump In
26
Figure 9. New design technology has produced self-contained
sensors that can function in the smallest areas
Remote Photoelectric Sensors
emote photoelectric sensors contain only the
optical components of a sensor. The circuitry
for power input, amplification, and output switching
are located elsewhere, typically in a control panel.
Because they contain no circuitry,
remote sensors
are usually smaller
and more tolerant
of hostile sensing
environments than
self-contained
sensors.
R
Figure 10.
Remote sensors
Fiber Optics
hen space is too restricted or the environment
too hostile even for remote sensors, fiber
optics (transparent strands of glass or plastic) may
be used. Fiber optic “light pipes,” used with either
remote or self-contained sensors, are passive
mechanical sensing components. They have no electrical circuitry and no moving parts, and can safely
pipe light into and out of hostile environments.
W
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Introduction to Sensing Concepts and Terminology
Moreover, they are immune to all forms of electrical
“noise,” and can isolate a sensor’s electronics from
electrical interference.
The cable’s end tip, available in many sizes and
designs, is partially filled with rigid clear epoxy. The
sensing face is optically polished so that the end of
each fiber is perfectly flat. Care taken in the polishing process dramatically improves the light-coupling efficiency of the fiber bundle (see Figure 13).
Figure 11. Glass and plastic optical fibers take many forms
An optical fiber has a glass or plastic core, surrounded by a layer of cladding material. The cladding
is less dense than the core, and consequently has a
lower index of refraction. A light ray hitting the
boundary between these two materials (provided
that the angle of incidence is within certain limits –
“ø”; see Figure 12) will be reflected totally, sending
all of the light through the fiber, according to the
optical principle of total internal reflection.
Light Ray Outside Acceptance
Angle is Lost in Cladding
Cladding
ø
CORE
Acceptance
Angle
Exit Angle
Figure 12. Acceptance angle and exit angle of a single fiber
Figure 12 illustrates two light rays (within the
angle of acceptance) that reflect repeatedly along
the fiber’s length and exit the opposite end at approximately the entry angle. Another light ray (outside the angle of acceptance) is lost into the cladding. The acceptance angle is slightly larger than
twice ø, because the rays bend slightly as they pass
from the air into the denser fiber material. The principle of total internal reflection applies, regardless
of whether the fiber is straight or bent (up to a minimum bend radius). Most fiber optic cables are
flexible and route easily through tight areas.
Glass Fiber Optics
Glass fiber optic assemblies are a bundle of very
small (usually about 50 micron diameter) glass
fiber strands. A typical cable contains several hundred individually cladded glass fibers, protected by
an outer sheathing (often flexible armored cable).
Figure 13. Construction of a glass optical fiber bundle
Glass fiber optic bundles may be coherent or randomized. Coherent-bundle fiber optic assemblies
are used in medical instruments and borescopes;
each fiber is carefully positioned from one end to
the other – an image at one end is clear at the
opposite end. Because they are expensive to
manufacture and most fiber optic sensing applications do not require such a clear image, most
glass fiber optic assemblies used for sensing have
randomized bundles with randomly positioned
fiber ends, which are much less costly. The resulting “image” is simply a quantity of light.
The outer sheath is usually stainless steel flexible
conduit, but also may be PVC or other flexible
plastic tubing. Even when a non-armored outer
covering is used, a protective steel coil is usually
included under the sheath to protect the fibers.
Special assemblies can be created for a specific
space or sensing environment fairly easily; the
bundle may be shaped at the sensing end to
“match” the profile of the object to be sensed
(Figure 14) or have special armoring.
Figure 14.
The bundle may be
shaped at the sensing
end to match the target
object’s profile
Glass fiber optic
assemblies are very
rugged and perform reliably in
extreme temperatures and amid harsh chemicals.
They work well with all visible and infrared light
sources. Their most common problem is breakage
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27
Introduction to Sensing Concepts and Terminology
of the strands resulting from sharp bending or
continued flexing, as on reciprocating mechanisms. For such uses, plastic fiber assemblies are
recommended.
Individual fiber optic assembly
or
To Emitter
or Receiver
Plastic Fiber Optics
Plastic fiber optics are single strands of fiber optic
material (typically 0.25 to 1.5 mm diameter), usually with a PVC coating. They can be routed into
extremely tight areas and bend to a tight radius.
Most plastic fiber optic assemblies are terminated
at the sensing end with a probe and/or a threaded
mounting tip. The opposite end is unterminated, to
be easily cut to length by the user and installed
into the sensor. Banner plastic fibers are shipped
with a cutting device for this purpose.
Unlike glass fibers, plastic fibers survive repeated
flexing; pre-coiled plastic fiber assemblies are
available for mounting on reciprocating mechanisms. However, plastic absorbs certain light
wavelengths, including light from most infrared
LEDs (see Figure 16). Consequently, plastic fiber
optics require a visible light source. Compared
with glass, plastic fibers are more sensitive to
temperature extremes, chemicals and solvents.
Sensing
End Tip
Bifurcated fiber optic assembly
To Emitter
and
Sensing
End Tip
To Receiver
Figure 16. Individual and bifurcated fiber optic assemblies
Emitter and receiver fibers in a bifurcated glass
fiber optic assembly usually are randomly mixed
in the sensing end tip. Bifurcated plastic fiber
strands are joined side-by-side along the cable’s
length, in effect, two individual fibers joined at
their sensing ends.
Special Uses for Fiber Optics
Because they resist harsh environments and electrical noise, fibers can solve some tricky applications, for example: vacuum feedthrough fiber optic
assemblies (VFTs) for vacuum environments and
volatile environments. In both cases, specially
made fibers inside the hostile environment are
routed through a flange to couple with a photoelectric sensor on the outside. Fibers and
feedthrough flanges are available in various sizes
and designs; see Figure 17. Intrinsically safe sensors, such as NAMUR models, also are designed
for use in hostile or explosive environments.
Ambient
Vacuum Atmosphere
Vacuum
Feedthrough
Glass Fibers - suffix "MVF"
(Individual or Bifurcated)
Figure 15. Spectral transmission efficiency of glass and
plastic optical fibers
Individual and Bifurcated Fiber Optics
Glass and plastic fiber optic assemblies may be
either “individual” or “bifurcated” (Figure 16).
Individual fibers guide light either from an emitter
to a sensing location, or from the sensing location
back to a receiver. Bifurcated fibers have two distinct fiber branches to conduct both emitted and
received light, allowing a sensor to both illuminate
and view an object through one fiber optic assembly. Light from one branch reflects off an object in
front of the fiber’s tip, and back to the receiver
through the other branch.
28
Glass Fiber Optic
Sensor
Vacuum Chamber Wall
Bulkhead
Flange
Figure 17. Fiber optic use in a hostile environment
Figure 18.
NAMUR sensors are
safely used in explosive
environments
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Introduction to Sensing Concepts and Terminology
Sensing Modes
ach photoelectric sensor is designed for one of
several basic sensing modes: opposed, retroreflective, polarized retroreflective, diffuse, divergent,
convergent, fixed-field and adjustable-field.
Diffuse, divergent, convergent, fixed-field and
adjustable-field modes are sometimes grouped
into the “photoelectric proximity mode” category
(not to be confused with capacitive proximity or
inductive proximity sensors). Fiber optic sensors
may be configured in the opposed mode (using
single fibers) or any of the photoelectric proximity
modes (using bifurcated fibers). Ultrasonic sensors are designed for either opposed- or
proximity-mode sensing.
E
Opposed Mode
pposed-mode sensing may also be called
“direct-scanning,” “beam-break” or “throughbeam” mode. Opposed-mode emitters and
receivers are positioned opposite each other, with
the emitter’s light aimed directly at the receiver. An
object is detected when it interrupts the sensing
path between the two components, “breaking” the
beam; see Figure 19.
O
For simple alignment when using a visible LED
emitter, place a retroreflective target directly in
front of the receiver lens. Align the emitter by
sighting the visible beam on the target. Remove
the retro target and “fine-tune” the emitter-receiver
orientation using the sensor’s excess gain indicator for optimal alignment.
Sensing Range — Opposed Mode
Sensing range is an important sensor specification, used for comparison. For opposed sensors,
range is the maximum operating distance between
the emitter and the receiver. A sensor’s effective
beam is the “working” part of the beam: the portion of the beam that must be completely interrupted in order for an object to be reliably sensed.
The effective beam of an opposed-mode sensor
pair may be pictured as a rod connecting the emitter lens (or ultrasonic transducer) to the receiver
lens (or transducer); see Figure 20. The “rod” will
taper if the two lenses (or transducers) are of different sizes. The effective beam is not the same as
the emitter’s radiation pattern, or the receiver’s
field of view.
Receiver
Field of
View
Emitter
Radiation
Pattern
Effective Beam
Receiver
Emitter
Object
Figure 19. Opposed mode senses a target object when it
breaks the beam
Opposed mode was the first photoelectric sensing
mode used. In the early days of non-modulated
sensors, problems with difficult emitter-receiver
alignment gave this mode a bad reputation.
Today’s high-powered modulated photoelectric
sensors, however, are easy to align.
Alignment — Opposed Mode
Sensor alignment means positioning the sensor(s)
so that maximum emitted light reaches the receiver element. In opposed sensing, the emitter’s light
is centered on the receiver’s field of view.
EMITTER
RECEIVER
Figure 20. The effective beam of an opposed emitter/
receiver pair extends from the edges of the
emitter to the edges of the receiver element
The effective beam size of an opposed-mode photoelectric sensor pair may be too large to detect
small parts, to inspect small profiles, or for very
precise position sensing. In such cases, the sensor lenses (emitter and/or receiver) can be apertured to reduce the effective beam size (Figure
21). Some sensors have accessory apertures that
attach to the sensor lens; creating an aperture can
be as easy as drilling a hole or milling a slot in a
thin metal plate, and locating it directly in front of
the lens, with the opening on the lens centerline.
(When selecting an aperture material, remember
that the powerful beam of modulated opposedmode sensors can penetrate some non-metallic
materials.)
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Introduction to Sensing Concepts and Terminology
Apertures reduce the light energy passing through
a lens by an amount equal to the lens area reduction (the smaller the aperture, the less light can
pass). For example, if a 20 mm diameter lens is
apertured down to 5 mm diameter, the amount of
optical energy passing through the apertured lens
is equal to (1/4)2 or 1/16th of the energy allowed
through the 20 mm lens. The energy loss doubles
if apertures are used on both the emitter and the
receiver.
A rectangular aperture of any width restricts much
less light-gathering lens area than does a round
aperture of the same diameter. For this reason,
rectangular “slit” apertures should be used if the
target objects travel past the beam with a predictable orientation (as in edge detection). When
small objects move more randomly through the
beam, round apertures are required.
If the object to be detected will always pass very
close to either the emitter or the receiver, an aperture may be required on only one lens. In such
cases, the effective beam size is equal to that of
the aperture on one side, uniformly expanding to
the size of the unapertured lens; it is therefore
“cone-shaped.”
Figure 21.
An aperture reduces
the size of the emitted
beam
The goal for any
opposed-beam
application to
detect small parts
is to size the effective beam to be smaller than the smallest target
profile, while retaining as much lens area as possible. An easy way to match a part profile to a beam
is to use a fiber optic assembly with a sensing end
terminated in the target object’s shape and/or size;
see Figure 14.
The very high power (especially at close range) of
some modulated LED opposed sensor pairs can
create a “flooding” (or halo) effect of light energy
around an object that is larger than the effective
beam. This is another reason for the size of the
effective beam to be smaller than the profile of the
target object.
It is possible to shape an opposed ultrasonic wave
pattern by using waveguides. Waveguides attach
30
to the receiver transducer (and sometimes to the
emitter). With waveguides attached, the receiver is
less likely to respond to sound echoes approaching from the side, providing more reliable detection of small objects.
Retroreflective Mode
n retroreflective (also called “reflex” or “retro”)
mode, one sensor contains both emitter and
receiver circuitry (Figure 22). Its emitter sends a
light beam to a retroreflective target, which
reflects the light back to the receiver. As in
opposed-mode sensing, an object is sensed when
it interrupts the beam.
I
Retro Target
Object
Figure 22. The retroreflective target reflects the emitted
beam back to the receiver
Retroreflective
Targett
Radia
Radiation
Pattern
F
and Field
of View
Effective Beam
Effective Beam
Retroreflective
Sensor
Figure 23. The effective beam forms a cone from the
sensor lens to the edges of a retroreflective target
Retroreflective range is the distance from the sensor to its retroreflective target. The effective beam
is usually cone-shaped, connecting the rim of the
sensor lens (or lens pair) to the retroreflective target’s rim. Exceptions to this are at close range,
where the size of the retro beam can not expand
enough to fill the target, or when very precise
laser beams are used. The effective beam never
exceeds the size of the reflector.
Retroreflective targets (“retroreflectors” or “retro
targets”) are usually a matrix of tiny corner-cube
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Introduction to Sensing Concepts and Terminology
prisms, each with three mutually perpendicular
surfaces and a hypotenuse face. A light beam
entering a corner-cube prism through its hypotenuse face is reflected from the three surfaces and
emerges back through the hypotenuse face, parallel to the entering beam (Figure 24). In this way,
the retroreflective target returns the light beam to
its source.
Figure 25. Corner-cube retroreflective targets are available in
many shapes and sizes, including reflective tape
Top View
Corner-Cube Reflection
Emitted
and
received
beams are
parallel
Receiver
Emitter
Top View
Specular Reflection
(Mirrored Surface)
A
A
Emitter
A mirrored surface also may be used as a retroreflector. Light striking a flat mirrored surface, however, reflects at an angle equal and opposite to the
angle of incidence (“specular reflection”; see
Figure 24). In order for a retroreflective sensor to
“see” its light reflected from a mirrored surface,
the emitted beam must be positioned exactly perpendicular to the surface. A retroreflector, on the
other hand, can return incident light back to its
source at angles up to about 20° from perpendicular. This simplifies the alignment of retroreflective
sensors to their retro targets.
Receiver
Figure 24. Corner-cube retroreflective targets reflect the
emitted beam back to its source
Most corner-cube retroreflectors are molded of
transparent acrylic plastic, in many sizes, shapes,
and colors. Corner-cube plastic retroreflectors
often are used for vehicle safety reflectors, appearing brightly illuminated to a driver when the vehicle’s headlights are returned by the array of corner
cubes. Highway markers may be wrapped in
retroreflective tape, which is coated with microscopic molded corner-cube reflectors or microscopic glass beads. (A clear glass sphere also
returns a light beam to its source, but a coating of
glass beads is a less efficient reflector than are
molded corner cubes.)
Horizontal Skew Angle
A good retroreflector returns about 3,000 times as
much light to its sensor as does a piece of white
paper. For this reason, it is easy for a retroreflective sensor to recognize only the light returned
from its retroreflector. However, if the target object
interrupting the beam is itself highly reflective, it
may reflect light back to the sensor and slip
through the beam without being detected. This
problem is called “proxing”, and relatively simple
methods exist to deal with it.
If a flat, shiny object passes through a retroreflective
beam with a predictable orientation, the cure for
proxing is to orient the beam so that the object’s flat
surface reflects the beam away from the sensor
(“scanning at a skew angle”). The angle usually
need be skewed only 10° to 15° to be effective
(Figure 26). This becomes more complicated, howVertical and Horizontal Skew Angles
Figure 26.
Using a skew
angle to eliminate
proxing
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Introduction to Sensing Concepts and Terminology
ever, if the shiny object has a rounded surface or if
it encounters the beam at unpredictable angles. In
such cases, position the beam to strike the object at
both a vertical and a horizontal skew angle. The
skew-angle approach is often the best insurance
against proxing. When this is not possible, consider
polarization or opposed-mode sensing.
Polarizing filters effectively eliminate proxing but,
like a pair of sunglasses, they also reduce the
beam’s available optical power by 50 percent or
more. This is important if the sensing environment
is dirty or if the sensing range is long. Polarized
retro sensors work only with corner-cube-type
retroreflectors.
Polarization
Polarizing (or “anti-glare”) filters may be used with
visible retroreflective sensors to significantly reduce the potential for proxing. The filters are
placed in front of both the emitter and receiver
lenses, oriented with their planes of polarization at
90° to one another.
Alignment — Retroreflective Mode
With recent improvements in LED technology, the
use of visible-light LED emitters has increased.
When equipped with a visible emitter, a retro sensor may be aimed like a flashlight at its retroreflective target. When the beam’s reflection is visible
on the retroreflector, correct alignment is assured.
When light is emitted, it is polarized “vertically”
(Figure 27). This vertically-polarized emitted light
is de-polarized when it travels through the plastic
lens of a typical retroreflector. The horizontal component of the de-polarized light is allowed to pass
through a horizontal polarizer, which is placed in
front of the sensor’s receiver element.
However, when the vertically-polarized emitted light
is reflected from a shiny surface, it remains vertically-polarized. This light is blocked from reaching
the sensor’s receiver by the horizontal polarizer.
Figure 28. Retroreflective sensors with visible
light emitters make alignment easy
Retro
Sensor
Retroreflector
Retroreflected light is de-polarized, and the
horizontally-polarized components pass through
the receiver filter.
Emitted light is
vertically polarized
Retro
Sensor
Shiny object
Light waves that are reflected by a shiny surface are
in phase with the emitted light and are blocked by
the receiver filter.
Figure 27. Polarization of the emitted light helps
reduce “proxing” from shiny objects
32
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Introduction to Sensing Concepts and Terminology
Proximity Modes
Diffuse Mode
hotoelectric or ultrasonic proximity-mode
sensing detects an object directly in front of the
sensor by detecting the sensor’s own transmitted
energy reflected back from the object’s surface
(Figure 29). For example, an object is sensed when
its surface reflects a sound wave back to an ultrasonic proximity sensor. Both the emitter and receiver are on the same side of the object, usually in one
housing. In proximity sensing modes, an object
“makes” (establishes) the beam when it is present,
rather than interrupting it, as in opposed-mode
sensing. Photoelectric proximity sensors have a
variety of optical arrangements: diffuse, divergent,
convergent, fixed-field, and adjustable-field.
P
Diffuse sensing mode
iffuse-mode sensors are a popular type of photoelectric proximity sensor. In diffuse mode,
the emitted light strikes the surface of an object at
some arbitrary angle. The light diffuses from that
surface at many angles, some small portion of
which reaches the receiver.
D
Diffuse sensing is relatively inefficient, because the
receiver looks for a small amount of returned light.
And like other proximity sensing modes, diffuse
mode is dramatically influenced by the reflectivity
of the surface being sensed. A bright white surface will be sensed at a longer range than will a
dull black surface.
Divergent-Diffuse sensing mode
Convergent beam sensing mode
Sensing
Depth-of-Field
Object
Emitted
Light
Object
Received
Light
Focus
Object
Figure 29. Proximity modes take several forms, but all
require reflecting light or sound from the target
object back to the receiver
Diffuse Mode
Proximity Sensor
Diffuse Mode
Proximity Sensor
Most diffuse-mode sensors use lenses to collimate (make parallel) the emitted light rays and
gather in more received light. While lenses help to
extend diffuse sensing range, they also make the
sensing angle to a shiny or glossy surface more
critical. (Because shiny surfaces are somewhat
mirror-like, the beams reflecting off them tend to
reflect away from the sensor, rather than back to
the diffuse receiver.)
Most diffuse sensors can rely on a returned light
signal only if the surface of a shiny target is perfectly parallel to the sensor lens (Figure 30). This
may be impossible with radiused parts, such as
shiny cans, and presents a concern when detecting webs of metal foil or poly film where web
“flutter” may occur.
Most light is lost to specular
reflection with shiny surface
at an angle to sensor lens
Shiny Surface
Shiny Surface
Figure 30. In diffuse sensing, the sensor lens must remain
parallel to a shiny surface for reliable detection
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Introduction to Sensing Concepts and Terminology
Divergent (Wide-Angle) Diffuse Mode
o avoid the effects of signal loss from shiny
objects, special short-range, unlensed divergent-mode sensors should be considered. Eliminating the collimating lens shortens the sensing
range, but also lessens the sensor’s dependence
upon the angle of incidence of its light to a shiny
surface within its range. See Figure 29.
T
The range of any proximity mode sensor also is
affected by the size and profile of the target to be
detected. A large object that fills the sensor’s beam
area will return more energy to the receiver than
will a small object that only partially fills the beam.
A divergent sensor responds better to objects
within about 2.5 mm than does a diffuse-mode
sensor. As a result, divergent-diffuse sensors can
successfully sense such small profiles as yarn or
wire, if they can be positioned near the sensing
lenses.
other stationary or moving objects in the background. One advantage of convergent sensing is
that objects beyond the depth of field are ignored.
Remember, however, that the near and far limits of
the depth of field depend upon the reflectivity of
objects in the scan path. (Reflective backgrounds
will be sensed at a greater distance than will less
reflective objects in front of them.)
Color mark sensing (or register mark sensing) is a
specialized convergent sensing application, in
which a precise-focus convergent sensor detects
register marks, usually for positioning products or
materials. LED color is important in determining
the color contrasts that can be sensed. While several beam colors are available to distinguish
between virtually any combination of colors, bluegreen LEDs have been found useful for a wide
variety of color-sensing applications, including
20% yellow on white.
Convergent Mode
nother photoelectric proximity mode effective
for sensing small objects is convergent-beam
mode. Most convergent sensors use a lens system
to focus the emitted light to an exact point in front
of the sensor, and focus the receiver element at
the same point. This produces a small, intense,
well-defined sensing area at a fixed distance from
the sensor lens (Figure 29).
A
Convergent mode uses reflective sensing energy
efficiently. It reliably senses small objects, and
also materials of very low reflectivity that cannot
be sensed with diffuse- or divergent-mode sensors.
Sensing Range — Convergent Mode
The range of a convergent-beam sensor is its
focus point, which is fixed. This means that the
distance from a convergent-beam device to the
sensing surface must be rather closely controlled.
A convergent sensor will detect an object at its
focus point, plus-or-minus a certain distance; this
sensing area, centered on the focus point, is the
sensor’s depth of field. The depth of field size
depends upon the sensor design and the target
object’s reflectivity. The depth of field of precisefocus convergent-beam sensors is very small;
they may be used for precise position sensing or
profile inspection.
Figure 31. The narrow, sharply defined sensing beam of a
PicoDot laser diode sensor detects the edge of
a semiconductor wafer in a wafer cassette mapping application
Laser diode convergent sensors produce a tiny,
concentrated focus point, perhaps 0.25 mm dia. at
100 mm. They are ideal for detecting small parts
and as robotic end effector sensors. With their
high sensing power, they often can detect objects
that are not reflective enough to be sensed with
conventional LEDs.
It often is necessary to detect objects passing the
sensor within a specified range while ignoring
34
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Introduction to Sensing Concepts and Terminology
Fixed-Field Mode
Fiber-Optic Modes
ixed-field sensing is a photoelectric proximity
mode that has a definite limit to its sensing
range. Fixed-field sensors (Figure 32) ignore
objects beyond their sensing ranges, regardless of
the object’s surface reflectivity.
F
Cutoff
Distance
Object
A
Lenses
Object
B
ot actually a sensing mode, fiber-optic sensors
can function in any of the photoelectric modes.
Individual fibers may be configured for opposedmode sensing, and bifurcated fibers may be configured for retroreflective or proximity sensing.
Specialized fibers are available; the fibers shown in
Figure 34 are mechanically configured inside the
molded sensing tip for convergent-mode sensing.
N
Figure 34.
This plastic fiber is
specially designed for
short-range convergent
sensing
Emitter
Background
Receiver
R1
R2
Minimum
Sensing
Distance
Fixed
Sensing
Field
Maximum
Sensing
Distance
Figure 32. In fixed-field mode sensing, a target object is
sensed if the amount of light at R2 is equal to or
greater than that at R1
Fixed-field sensors compare the amount of reflected light seen by two differently-aimed receiver elements. A target is recognized as long as the
amount of light reaching receiver R2 is equal to or
greater than that “seen” by R1.
Adjustable-Field Mode
ike fixed-field models, adjustable-field sensors
have the ability to distinguish between objects
placed at various distances from the sensor; in
this case, the distances are adjustable. An
adjustable-field sensor receiver produces two currents: I1 and I2 (Figure 33). The ratio of the currents changes as the received light signal moves
along the length of the receiver element. The sensing cutoff distance relates directly to this ratio,
which is set using an electronic or mechanical
adjustment. Even reflective objects located beyond
the cutoff distance (for example, object “B”) are
ignored.
L
Ultrasonic Proximity Mode
ltrasonic transducers vibrate when ac voltage is
applied. The vibration alternately compresses
and expands air molecules to send “waves” of ultrasonic sound outward from the transducer’s face.
The transducer also receives “echoes” of ultrasonic
waves located within its response pattern.
U
Ultrasonic sensors are categorized by transducer
type: electrostatic or piezoelectric (Figure 35).
Electrostatic sensors are used for very-long-range
proximity detection; often up to 6 or 7 meters.
These long-range sensors are often used to monitor levels in large bins or tanks. Piezoelectric sensors usually have a much shorter sensing range,
typically up to 1 meter, but can be sealed for protection from harsh operating conditions.
Cutoff
Distance
R
I1
Receiver
Element
I2
Lenses
Object
A
Object
B
Background
Emitter
Minimum Adjustable
Sensing
Sensing
Distance
Field
Figure 33. In adjustable-field sensing, objects beyond the
cutoff distance are ignored, while nearer
objects are sensed
Figure 35. Ultrasonic sensors: eletrostatic (center) and
piezoelectric
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Introduction to Sensing Concepts and Terminology
In general, ultrasonic proximity sensors are affected less by target surface characteristics than are
diffuse-mode photoelectrics. However, the transducer face must be within 3° of parallel to smooth,
flat target objects. (This angle becomes less critical when sensing the sound-scattering surfaces of
irregular materials.) Sound-absorbing materials,
such as cloth or foam, are poor targets for ultrasonic proximity sensors. Also, because small
objects return less sound energy, target size is an
important consideration in sensor selection.
Ultrasonic proximity sensors offer excellent sensing repeatability when target objects move perpendicular to the sensing face. Consequently, they are
used frequently to measure distances. Some have
adjustable sensing window limits and/or analog
outputs which produce a voltage or current proportional to the object’s position within the sensing window. Digital filtering can provide immunity
to electrical and/or acoustical noise. Analog
outputs can be highly linear, and temperaturecompensated models are available for environments with wide ambient temperature shifts.
Ultrasonic proximity-mode sensors are also
available as controllers, to be paired with remote
transducers. These small remote transducers can
operate in tight locations, while the full-sized controller provides full-featured sensing and output
capabilities. Opposed-mode ultrasonic sensors,
with separate emitter and receiver housings, are
ideal for sensing transparent materials.
Figure 36.
An ultrasonic
sensor detects the
fill level in a tank
clean sensing conditions, optimal sensor alignment, and the proper sensor sensitivity (gain) setting for the specified range. Maximum light energy
occurs along the sensor’s optical axis, decreasing
as it moves toward the edges of the beam pattern.
Beam pattern dimensions are typical for the
described sensor in each sensing mode, but
should not be considered exact.
Opposed-Mode Beam Patterns
or opposed sensors, the beam pattern is the
area within which the receiver will effectively
“see” the emitted beam. The horizontal scale is the
distance between the emitter and receiver; the vertical scale is the width of the active beam, measured on either side of the optical axis between the
emitter and receiver lenses.
F
It is assumed that the emitter and receiver are perfectly aligned, that is, the optical axis of the emitter lens is kept exactly parallel to the optical axis
of the receiver lens when the pattern is plotted.
Even slight misalignment significantly affects the
sensing area size of most opposed sensor pairs,
except at close range.
Opposed-mode beam patterns predict how closely
multiple parallel sensor pairs may be mounted,
without generating optical crosstalk between the
pairs. A typical pattern is shown in Figure 37. It
predicts that, at an opposed sensing distance of
1.2 meters, a receiver kept perfectly parallel to its
emitter will “see” enough light to operate at up to
just under 200 mm in any direction from the emitter’s optical axis. This means that adjacent emitter/receiver pairs may be placed parallel to each
other as close as about 250 mm apart (200 mm
plus a slight “safety factor”) without creating
crosstalk from an emitter to the wrong receiver.
300 mm
12 in
200 mm
8 in
100 mm
Figure 37.
Typical opposedmode beam
pattern
4 in
Emitter
Parallel sensor
pairs may be
300 mm
12 in
be located
0
0.6 m
1.2 m
1.8 m
2.4 m
3.0 m
2 ft
4 ft
6 ft
8 ft
10 ft
twice as close
by alternating
the emitter/receiver location on each side of the
sensing area, as shown in Figures 38 and 39. If
only two opposed beams are used, they may be
placed in this manner as closely together as the
sensor dimensions permit, without causing direct
optical crosstalk. However, if emitters and receivers
Receiver
Beam Patterns
beam pattern is an important tool for predicting how a photoelectric sensor will perform in
an application. Beam patterns are drawn in two
dimensions; symmetry around the optical axis is
assumed, and the pattern’s shape is assumed to
be the same in all sensing planes (but this is not
always true). Beam patterns assume perfectly
A
36
100 mm
4 in
200 mm
8 in
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Introduction to Sensing Concepts and Terminology
on one side of the sensing area are located close
together (typically 50 mm or less) the potential for
reflective crosstalk (“proxing”) increases. Because
opposed-mode receivers are “looking” for “dark”
(blocked beam) for object detection, light detected
by a receiver due to reflective crosstalk may allow an
object to slip through the sensing area undetected.
300 mm
Emitter #1
R e
Rec
eiver #1
12 in
8 in
200 mm
100 mm
4 in
Emitter #2
R e
Rec
eiver #2
100 mm
0
4 in
200 mm
Emitter #3
R e
Rec
eiver #3
8 in
Another method to minimize optical crosstalk
between adjacent opposed sensor pairs is to angle
the emitter or receiver mounting slightly, to intentionally misalign the outermost sensor pair(s). As
shown in Figure 40, emitters #1 and #3 are rotated
to direct their beams slightly away from the view
of receiver #2.
Separating adjacent emitter/receiver pairs both
horizontally and vertically (diagonally) also
reduces crosstalk; the beam pattern determines
the required separation distance. In this way, adjacent beams may be located closer – in one dimension. This approach is possible if the object to be
sensed is large, and when available sensor mounting space permits.
12 in
300 mm
0.6 m
2 ft
1.2 m
4 ft
1.8 m
6 ft
2.4 m
8 ft
3.0 m
10 ft
Figure 38. Overlapping beam patterns for three opposed
emitter/receiver pairs indicate the minimum
separation required to avoid crosstalk between
adjacent pairs
300 mm
12 in
200 mm
8 in
Emitter #1
Reccceiver #1
Receiver #2
Em
mitter #2
m
Emitter #3
Reccceiver #3
R
If adjacent opposed beams must be placed very
closely in an array, optical crosstalk can be eliminated by using a multiplexed light screen. A light
screen incorporates multiple individual photoelectric sensors into two compact housings, enabling
(turning on) each modulated emitter in sequence,
only when its associated receiver is “looking” for
the beam. This eliminates the chance of false
response by any receiver to the wrong light
source. Light screens are used for on-the-fly
object profiling, part ejection verification, parts
counting and similar applications.
4 in
Figure 41.
The MINIARRAY is an
example of a
multiplexed
light screen
0
4 in
8 in
3300 mm
12 in
0.6 m
2 ft
1.2 m
4 ft
1.8 m
6 ft
2.4 m
8 ft
3.0 m
10 ft
Figure 39. Position adjacent opposed emitter/
receiver pairs in opposite directions to
reduce crosstalk
300 mm
12 in
Emitter #1
Receiver
R
c
#1
100 mm
8 in
4 in
Emitter #2
Reccceiver #2
100 mm
0
4 in
Emitter #3
Receiver
R
c i
#3
300 mm
Opposedmode beam
patterns
also help to
predict the
area within
which an emitter and receiver will align when one
sensor moves relative to the other, as with automatic vehicle guidance systems. The beam pattern
represents the largest typical sensing area when
sensor sensitivity is adjusted to match range
specifications. The beam pattern boundary will
shrink as sensitivity decreases, and may expand
as sensitivity increases.
8 in
12 in
0.6 m
2 ft
1.22 m
4 ft
1.8 m
6 ft
2.4 m
8 ft
3.0 m
10 ft
Figure 40. Emitters #1 and #3 are intentionally misaligned
to avoid crosstalk with receiver #2
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Introduction to Sensing Concepts and Terminology
Retroreflective-Mode Beam Patterns
anner’s retroreflective-mode beam patterns
usually are plotted using a 150 mm-diameter
plastic corner-cube retroreflective target positioned perpendicular to the sensor’s optical axis
(unless otherwise noted). The pattern represents
the boundary within which the sensor will respond
to the target (Figure 42).
B
60 mm
2.4 in
40 mm
Figure 42.
Typical retroreflectivemode beam pattern
1.6 in
20 mm
The beam pattern’s
horizontal scale represents the distance
from the retro sensor
to the retroreflector.
DISTANCE
The vertical scale is
the farthest distance
on either side of the sensor’s optical axis where
the reflector can establish a retroreflective beam
with the sensor.
0
0
20 mm
0.8 in
40 mm
1.6 in
60 mm
2.4 in
.6 m
2 ft
1.2 m
4 ft
1.8 m
6 ft
The pattern’s horizontal scale is the distance from
the sensor to the reflective surface. The vertical
scale is the width of the active beam, measured on
either side of the optical axis (Figure 43). The
beam pattern for any diffuse, convergent, divergent, fixed-field, or adjustable-field sensor is
equivalent to the sensor’s effective beam.
0.8 in
With BRT-3 Reflector
0
ly smaller objects are sensed at long ranges, the
beam pattern’s size may decrease. And when a
shiny surface is sensed at an angle, the size and
shape of the beam pattern changes dramatically.
2.4 m
8 ft
3.0 m
10 ft
DISTANCE TO REFLECTOR
The retroreflective beam pattern predicts how one
150 mm target will interact with multiple parallel
retroreflective sensors mounted closely together. It
also predicts whether a 150 mm reflector will be
detected if it is traveling (parallel) past the sensor
at a given distance.
Most important, the pattern accurately depicts the
size of the active beam at longer distances (a
meter or more) from the sensor. It is best to capture the entire emitted beam on the retroreflective
target; the pattern indicates how large a reflector is
needed at any distance where the beam expands
to larger than 150 mm across.
Figure 43.
Typical beam pattern
for a diffuse-mode
photoelectric sensor
18 mm
0.75 in
12 mm
0.50 in
6 mm
0.25 in
0
0
6 mm
0.25 in
12 mm
0.50 in
The beam pattern
(more commonly
called the response
DISTANCE
pattern) for an ultrasonic proximity
sensor is drawn for
a square, solid, flat surface (Figure 44); the target
size is specified for each type of sensor. The size
of the real-world response pattern is affected by
the size, shape, texture, and density of the material
being sensed.
0.75 in
18 mm
0
75 mm 150 mm 225 mm 300 mm 375 mm
3 in
6 in
9 in
12 in
15 in
DISTANCE TO 90% WHITE TEST CARD
Ultrasonic proximity response
1.8 m
6 ft
1.2 m
4 ft
0.6 m
2 ft
0
Figure 44.
Typical response pattern for an ultrasonic
proximity-mode sensor
0
0.6 m
2 ft
1.2 m
4 ft
1.8 m
6 ft
0
1.5 m
5.0 ft
3m
10 ft
4.5 m
15 ft
6m
20 ft
7.5 m
25 ft
DISTANCE
Proximity-Mode Beam Patterns
The beam pattern for photoelectric proximitymode sensors represents the area within which
the edge of a light-colored diffuse surface will be
detected as it moves past the sensor. Beam patterns for diffuse-, convergent-, divergent-, fixedfield- and adjustable-field-mode sensors are developed using a Kodak 90% reflectance white test
card (which is about 10% more reflective than
white copy paper). The beam pattern is smaller for
less reflective materials, and may be larger for
more reflective surfaces.
The test card used to plot the pattern measures
200 mm by 250 mm; beam patterns using this
standard target are not necessarily identical to
real-world sensing applications. When substantial38
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Introduction to Sensing Concepts and Terminology
Excess Gain
xcess gain (E.G.) is an important specification,
used to predict the reliability of a photoelectric
sensing system. As its name suggests, it is a
measurement of light energy falling on the receiver, over and above the minimum required to operate the sensor’s amplifier.
E
Minimum Excess
Gain Required
To determine excess gain for an application, use
the formula:
light energy falling on the receiver element
Excess Gain =
the sensor’s amplifier threshold
The sensor’s amplifier threshold is the level of
sensing energy required by the amplifier to change
its output state (to switch on or off). In a modulated photoelectric sensor, excess gain is measured
as a voltage (typically in millivolts), often at the
first stage of receiver amplification. This voltage,
compared to the amplifier’s threshold voltage
level, determines the excess gain. An excess gain
of one (expressed “1x” or “one times”) occurs
when the measured voltage is at the amplifier
threshold level.
If 50% of the emitted light energy becomes attenuated, a minimum of 2x (two times) excess
gain is required to overcome the light loss.
Similarly, if 80% of a sensor’s light is lost to attenuation (only 20% is left), then an available excess
gain of at least 5x is required.
If the sensing conditions are known, the excess
gain levels listed in Table 1 may be used as a
guideline to assure that the sensor’s light energy
will not be entirely lost to attenuation.
The table lists an excess gain of 1.5x (50% more
energy than required for minimum operation) for a
perfectly clean environment. This includes a “safety” factor for subtle sensing variables such as
gradual sensor misalignment and small changes in
the sensing environment. At excess gains above
50x, opposed-mode sensors will begin to burn
through (“see” through) paper and other materials
of similar optical density.
Clean air: no dirt buildup on lenses or
reflectors
1.5x
Once a signal is established between an emitter
and receiver, attenuation (reduction) of that signal
may result due to dirt, dust, smoke, moisture, or
other environmental contaminants. The sensor’s
excess gain may be described as the extra sensing
energy available to overcome this attenuation.
Operating Environment
5x
Slightly dirty: slight buildup of dust, dirt, oil,
moisture, etc. on lenses or reflectors.
Lenses are cleaned on a regular schedule.
10x
Moderately dirty: obvious contamination of
lenses or reflectors (but not obscured). Lenses
cleaned occasionally or when necessary.
50x
Very dirty: heavy contamination of lenses.
Heavy fog, mist, dust, smoke, or oil film.
Minimal cleaning of lenses.
Table 1. Guidelines for excess gain values
Excess gain may be plotted as a function of sensing distance (Figure 45). Excess gain curves for
Banner sensors represent the lowest guaranteed
excess gain available from each model, plotted for
perfectly clean conditions and maximum receiver
gain. Most sensors are factory-calibrated to the
excess gain curve. Some have a gain adjustment
(or “sensitivity” control) that can be field-adjusted
to exceed the excess gain specifications (however,
this is not always possible).
Figure 45.
Typical opposedmode excess gain
curve
1000
E
X
C
E
S
S
100
The excess gain
curve in Figure 45
suggests that
operation of this
DISTANCE
opposed sensor
pair is possible in
a perfectly clean environment (excess gain ≥ 1.5x)
at distances up to 3 meters apart, or in a moderately dirty area (excess gain ≥ 10x) up to 1.2 meters
apart. At distances inside 0.3 meters, these sensors
will operate in nearly any environment.
G
A
I
N
10
1
.01 m
.033 ft
.10 m
.33 ft
1.0 m
3.3 ft
10 m
33 ft
Sensors indicate excess gain in several ways,
often a system of blinking or solid LEDs. Signal
strength indicators provide a visual indication of
marginal signal strength; some displays flash a
warning LED and/or energize an alarm output signal whenever excess gain approaches 1x.
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39
Introduction to Sensing Concepts and Terminology
Excess Gain — Opposed-Mode Sensing
he relationship between excess gain and sensing distance is unique for each photoelectric
sensing mode. For example, the excess gain of an
opposed-mode sensor pair is directly related to
sensing distance by the inverse square law. If the
sensing distance doubles, excess gain reduces by
a factor of (1/2)2 = 1/4. Similarly, if the sensing distance triples, excess gain reduces by a factor of
(1/3)2 = 1/9, and so on. As a result, the excess gain
curve for opposed-mode sensors, plotted on a
log-log scale, is always a straight line.
T
As a result, two-lens retroreflective sensors tend
to have a “blind spot” at close range, evident on
excess gain curves (see Figure 48). For this reason, special single-lens sensors are used for
close-in retro sensing. Some models with coaxial
optics can sense retro material in contact with the
lens itself.
Because the emitted light goes directly to the
receiver, opposed-mode sensing makes the most
efficient use of sensing energy. Therefore, the
excess gain available from opposed-mode sensors
is much greater than from any other photoelectric
sensing mode.
Excess Gain — Retroreflective-Mode Sensing
he shapes of excess gain curves for other
sensing modes are less predictable.
Retroreflective excess gain curves are plotted
using a 150 mm dia. retroreflector, except where
noted; the shape of the excess gain curve is affected by the size of the retroreflective target. Several
targets, clustered together, usually result in longer
sensing range and higher excess gain (Figure 46).
A small corner-cube reflector yields a smaller
curve. The type of retroreflective target material
used also affects excess gain. Generally speaking,
reflectors with a higher reflectivity factor (as listed
in this catalog) provide higher excess gain.
T
Beam Size
Figure 47. Retroreflective “blind spot”
Figure 48.
Typical excess gain
curve for a retroreflective-mode sensor
(using a 150 mm
reflective target)
1000
E
X
C
E
S
S
G
A
I
N
100
With BRT-3 Reflector
10
Figure 48 illustrates an important consideraDISTANCE
tion, especially
when retroreflective sensors are used in dirty locations. Because the light energy passes through
two lens surfaces on each direction of the sensing
path (the sensor and the reflector), attenuation
doubles in both directions. Therefore, in a dirty
sensing environment, excess gain drops off twice
as fast in a retroreflective system than in an
opposed system.
1
.01 m
.033 ft
.10 m
.33 ft
1.0 m
3.3 ft
10 m
33 ft
Blind Spot
Excess Gain — Proximity-Mode Sensing
Cluster of 150 mm
Retroreflectors
Figure 46. Extending retroreflective range
hotoelectric proximity modes tend to be less
efficient sensing modes. The receiver must
“look” for a relatively small amount of light reflected from the surface of a target object. As a result,
the excess gain available from a proximity-mode
sensor usually is lower than that of other photoelectric sensing modes.
Designed for long-range performance, most
retroreflective sensors have separate emitter and
receiver lenses. A good retro target returns most
of the incoming light directly back to the sensor;
at close range, most of the returning light comes
directly back into the emitter lens (see Figure 47).
Curves for diffuse, convergent, divergent, fixedfield, and adjustable-field sensors are plotted
using a Kodak 90% reflectance white test card for
reference. Diffuse-mode excess gain performance
varies dramatically, depending on the reflectivity of
the surface being sensed.
P
The range of most retroreflective sensors
may be extended by using additional
retroreflective target area.
Retroreflective
Sensor
40
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Introduction to Sensing Concepts and Terminology
Any surface may be ranked for reflectivity, compared to the Kodak reference card (Table 2). The
“Excess Gain Required” column indicates the minimum excess gain required to sense each material.
For example, the diffuse sensor described in
Figure 49 will “see” opaque black plastic targets
(6.4x excess gain required), up to 40 mm away,
under perfect sensing conditions.
Material
Reflectivity
Kodak white test card
White paper
Newspaper (with print)
Tissue paper: 2 ply
1 ply
Masking tape
Kraft paper, cardboard
Dimension lumber (pine, dry, clean)
Rough wood pallet (clean)
Beer foam
Clear plastic bottle*
Translucent brown plastic bottle*
Opaque white plastic*
Opaque black plastic (nylon)*
Black neoprene
Black foam carpet backing
Black rubber tire wall
Natural aluminum, unfinished*
Natural aluminum, straightlined*
Black anodized aluminum, unfinished*
Black anodized aluminum, straightlined*
Stainless steel, microfinish*
Stainless steel, brushed*
90%
80%
55%
47%
35%
75%
70%
75%
20%
70%
40%
60%
87%
14%
4%
2%
1.5%
140%
105%
115%
50%
400%
120%
Excess Gain
Required
1
1.1
1.6
1.9
2.6
1.2
1.3
1.2
4.5
1.3
2.3
1.5
1.0
6.4
22.5
45
60
0.6
0.9
0.8
1.8
0.2
0.8
The size and profile of the object being detected
also affects the excess gain of diffuse-mode sensors. Excess gain curves assume a white test card
that fills the entire area of the sensor’s effective
beam. If the object fills only a portion of the effective beam, proportionately less light energy will be
returned to the receiver.
Like diffuse-mode sensing, the excess gain of
divergent-mode sensors is affected by the reflectivity and size of the target object. However, these
variables are less noticeable with divergent sensing, because divergent-mode sensors have such a
short operating range.
* For shiny materials, the reflectivity figure represents the maximum light return, with the sensor beam exactly perpendicular to
the surface.
Table 2. Relative reflectivity of commonly sensed materials
Figure 49.
Typical excess gain curve
for a diffuse-mode sensor
Under these conditions, the diffuse sensor
described in Figure 49 will reliably sense the black
plastic from 12 to 100 mm, even with a slight
build-up of dirt on the lens.
Because most of a convergent-beam sensor’s
energy is concentrated at its focus, its maximum
available excess gain is much higher than for other
proximity modes. This relatively high excess gain
allows the detection of materials of very low
reflectivity, where diffuse-, divergent-, fixed-field-,
and adjustable-field-mode sensors would fail. The
effect of an object’s relative reflectivity is most
noticeable in the size of the resulting depth of
field. And because the effective beam is so small,
even objects with narrow profiles can return a relatively high percentage of the incident light.
Excess Gain and Sensor Alignment
he most common mistake made when
installing infrared (invisible light) LED sensors
is failing to center the light beam on its receiver or
target. An installer often will adjust a sensor’s
position just until the alignment indicator LED
lights or until the output load switches. This
method likely results in only marginal alignment,
with little excess gain available to overcome dirt
build-up or other sensing variables. And while
most photoelectric sensor lenses are accurately
placed, it is not safe to assume that perfect
mechanical alignment is exactly equivalent to the
best optical alignment.
T
1000
E
X
C
E
S
S
Range based on
90% reflectance
white test card
100
To find the required
excess gain for difG
A
fuse sensing of any
I
N
material in any environment, multiply the
DISTANCE
material’s reflectivity
factor by the excess
gain level required for the sensing conditions
(from Table 1). For example, to sense black
opaque plastic in a slightly dirty environment, the
minimum required excess gain is:
10
1
1 mm
0.04 in
10 mm
0.4 in
100 mm
4 in
1000 mm
40 in
6.4
x
5
= 32 (Excess gain required)
(reflectivity (min’m req’d
factor)
excess gain)
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41
Introduction to Sensing Concepts and Terminology
The excess gain indicator provides the easiest and
best way to optimize sensor alignment and to
monitor sensor performance on most sensors.
Depending on the sensor, excess gain can be
decreased in one of several ways to make the
alignment status more apparent. In most opposed
and retroreflective sensing applications, more
accurate alignment can be accomplished using
one of two simple methods.
If the sensor has a sensitivity (gain) control, temporarily adjust the receiver gain downward so that
improved alignment registers a discernible difference on the signal strength indicator.
If the sensor has no sensitivity control, temporarily mask the lens(es) with layers of paper or paper
tape to attenuate the signal strength. (If totally
covering the lens yields too much attenuation,
then unmask the very center of the lens. In
retroreflective sensing, the retro target may be
masked with only a small amount of the center
area exposed.) Lens masking may be used in conjunction with temporary sensitivity reduction for
accurate alignment in short-range opposed sensing where excess gain is very high.
Contrast
ther than analog measurement applications,
photoelectric sensing involves differentiating
between two levels of received light. Contrast is
the “light-to-dark ratio” of the amount of light
falling on the receiver in the “light” state, compared with the “dark” state. Contrast may be
expressed by the equation:
O
Contrast =
Light level at the receiver in the light condition
Light level at the receiver in the dark condition
It is always important to choose a sensor/lensing
option that will optimize contrast for the particular
sensing situation. Many applications, such as a
cardboard box breaking a retroreflective beam,
have extremely high contrast ratios. In such highcontrast applications, sensor selection simply involves verifying the existence of enough available
excess gain for reliable operation under the sensing conditions.
Figure 50.
All photoelectric
sensing applications involve differentiating between
two received light
levels
However, many
of today’s
industrial photoelectric sensing
applications are
not so straightforward. Most
problems with
contrast in opposed and retroreflective applications occur when:
1) the beam must be blocked by a translucent or
transparent material, or
2) only a portion of the effective beam is blocked.
For proximity-mode sensors, low-contrast problems
occur when a close-in background object is directly
in the scanning path. This is compounded when the
background object’s reflectivity is greater than the
target object’s reflectivity. Fixed-field, adjustablefield, or ultrasonic proximity mode sensors often
can solve this problem.
As a general rule, a contrast of 3 is the minimum
for any sensing situation. This is usually just
enough to overcome the effect of subtle variables
that cause light level changes, such as small
amounts of dirt build-up on the lenses or inconsistencies in the product being sensed. Table 3 suggests guidelines for contrast values.
Contrast
1.2 or less
1.2 to 2
2 to 3
Recommendation
Unreliable: evaluate alternative sensing
schemes.
Poor contrast: consider sensors with
Expert programming
Low contrast: sensing environment must
remain clean and all other sensing variables
must remain stable.
3 to 10
Good contrast: minor sensing system variables will not affect sensing reliability.
10 or greater
Excellent contrast: sensing should remain
reliable as long as the sensing system has
enough excess gain for operation.
Table 3. Contrast values and corresponding guidelines
42
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Introduction to Sensing Concepts and Terminology
Close-Differential Sensing
Measuring Contrast
Some applications offer a contrast of less than 3,
regardless of the sensing method used. These
low-contrast situations fall into the category of
close-differential sensing. Most color-registration
applications qualify as close-differential sensing.
Another common close-differential situation involves breaking a relatively large effective beam
with a small part, as in ejected small-part detection or thread-break detection.
Color Registration Mark Sensing
Color registration mark applications require the
sensor to differentiate between two colors which
may be similar in hue and reflectivity. The most
modern sensors tackle this challenge in two ways:
with programmed sensor setup technology and by
offering a choice of light beam colors to optimize
the sensing contrast.
ensors today fall into three main categories,
with respect to sensitivity adjustment:
S
• those with no sensitivity control,
• sensors with mechanical sensitivity
adjustment, and
• sensors with microcontrollers.
Sensors without sensitivity controls are popular for
OEM use. They should be used only in stable situations where high contrast is assured, and when the
sensor is known to offer enough excess gain to easily survive the operating conditions. Sensors with
mechanical adjustment may be used in a much
wider variety of applications, and those with microcontrollers (Expert sensors) can be adjusted to
sense in situations where contrast is quite low, if
other sensing variables remain constant.
Figure 52.
Sensors without
sensitivity controls
should be used only
in high-contrast
applications
Figure 51.
Beam color is
an important
consideration
for color-mark
sensing
Beam color
can be
important: a
red LED
does not
see red marks on white, but sees blue and green. A
blue LED sees green and red, but not blue. A green
LED sees red and blue, but not green. Visible white
LEDs solve a wide variety of sensing applications.
When the proper light source color is selected for
an application, even very small color differences can
be detected.
Figure 53.
Marginal contrast may be
verified by noting the
differential between
sensitivity settings for
light and dark thresholds
Expert™ Sensors
Some new sensors can be programmed easily to
differentiate between slight levels of contrast for
demanding applications. Using “TEACH-mode”
setup, the sensors can be taught to “look for” a
window of acceptable conditions, or a set-point
threshold (the light condition on one side of the
threshold, and the dark condition on the other).
TEACH mode is a step-by-step sequence in which
two sensing reference points (light and dark) are
taught to the sensor, often using a push button.
The sensor circuitry then automatically sets its
sensitivity (expanding its low-end range, if necessary) to an optimal level.
Figure 54.
Teachable sensors with
microprocessors are
useful when contrast
is low
Contrast may be calculated if excess gain values are
known for both the light and the dark conditions:
Contrast =
Excess gain (light condition)
Excess gain (dark condition)
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43
Introduction to Sensing Concepts and Terminology
The most reliable sensor configuration will register
maximum excess gain for the light condition, and
no excess gain in the dark condition. In such highcontrast situations, it is important to select a sensor that provides this configuration. In the best
circumstances, the gain can be adjusted to its
maximum setting while the dark condition results
in no indicator response. A contrast of 3 is typically represented by approximately one-third of an
adjustable sensor’s sensitivity control.
Some sensors are programmable for hysteresis.
Switching hysteresis is an electronic design
parameter that requires the signal level (the
amount of received light) at the operate (turn-on)
point of an amplifier to be different from the signal
level at the release (turn-off) point. This differential
prevents the sensor’s output from “buzzing” or
“chattering” when the received signal is at or near
the amplifier threshold.
Most sensing is done using a normal hysteresis setting. A low hysteresis setting allows a sensor to be
used for some poor-contrast (1.2 to 2) sensing applications. Sensing conditions must remain perfectly
stable for such small contrasts to be reliably sensed.
Sensor Outputs
sensor’s output may be either discrete or analog. A discrete (or “switched” or “digital”) output has only two states: on and off, based on the
status of the load being controlled (Figure 55). The
load might be an indicator light, an audible alarm, a
clutch mechanism, a solenoid valve, or a switching
relay; or it might provide input to a timer, a counter,
or a programmable logic controller. Some sensors
offer output logic as an optional feature, in the form
of a plug-in module or timing board. Typical logic
functions offered are ON-delay, OFF-delay, ON/OFF
delay, one-shot and delayed one-shot.
A
A discrete sensor output
exists in only one of two states:
"ON" or "OFF"
"ON"
"OFF"
ON-Delay
ON-Delay
OUTPUT
SIGNAL
OFF-Delay
OFF-Delay
OUTPUT
SIGNAL
Contrast should always be considered when
choosing a sensor, and should be maximized via
alignment and gain adjustment during sensor
installation. Optimizing the contrast of any photoelectric sensing application will always increase
the sensing reliability.
However, it is possible for excess gain to be too
high. A common example is a paper-web-detection
application. While opposed sensors provide the
best sensing contrast, they may offer so much
excess gain (10,000x, or more!) that they “see”
right through the paper. In such cases, it may be
necessary to mechanically attentuate the light
energy by intentionally misaligning the sensors or
by adding apertures to one or both lenses. It is
always best to attenuate the light energy so that
the operating sensitivity setting is near the midpoint of the gain adjustment range.
ONE-SHOT
PULSE
PULSE
OUTPUT
SIGNAL
Figure 55. Discrete sensor output options
An analog output (Figure 56) varies over a range
of voltage or current and is proportional to the
strength of the received signal. An analog ultrasonic proximity sensor’s output is proportional to
the distance between the sensor and the object
returning a sound echo, based on the time
required for the echo to return to the sensor.
Increasing Current or Voltage
Sensor Output
Some sensors have an alarm that warns of low
contrast. Flashing LEDs or displays may indicate
whether gain is too high or too low, or if the contrast is too low. A dedicated alarm output in some
sensors will further warn of inadequate contrast.
Sensing Variable:
Increase (or decrease) in photoelectric received light level
- or Movement of object toward (or away from) ultrasonic sensor
Figure 56. Analog sensor output
44
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Introduction to Sensing Concepts and Terminology
Analog outputs are useful in many process-control
applications, where an object’s position, size, or
translucency is being monitored. Analog outputs
also can provide a continuously variable control
signal for another analog device, such as a motor
speed control.
Light and Dark Operate
In photoelectrics, the sensing event (input) and the
switched output state may be configured for light
operate or dark operate. Some sensors can function
only in light operate or in dark operate mode,
depending on the sensor model. Others have a
light/dark operate select switch. A sensor set for light
operate will energize its output when the receiver
“sees” more than a set amount of light; in dark oper-
ate it will energize its output when its receiver is sufficiently dark.
In opposed-mode sensing (Figure 57), dark operate means that the output energizes when an
object is present (breaking the beam). In light
operate, the output energizes when the object is
absent. In retroreflective sensing, the conditions
are the same (the dark condition occurs when the
object is present, and the receiver sees light when
the object is absent).
In proximity sensing modes, these conditions are
reversed (Figure 58). The light condition occurs
when the object is present and “making” (establishing) the beam. When the object is absent, no
light is returned to the receiver.
Figure 57.
Light- and dark-operate for
opposed and retroreflective mode
Figure 58.
Light- and dark-operate for photoelectric proximity modes
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45
Introduction to Sensing Concepts and Terminology
Response Time
Each packet accounts for:
very sensor has a specified response time, the
maximum time required for it to respond to a
change in the input signal (such as a sensing event).
It is the time between the leading (or trailing) edge of
the sensing event and the output’s change of state.
E
With a switched output, the response time is the
time required for the output to switch (off-to-on or
on-to-off); these two times are not always equal.
With an analog output, the response time is the
maximum time required for the output to swing
from minimum-to-maximum or from maximumto-minimum. Again, these two times are not necessarily equal.
Response time is not always an important specification. For example, sensors that detect boxes
passing on a conveyor do not require fast
response. In fact, time delays are sometimes
added to extend sensing response to avoid
nuisance trips or to add simple timing logic for
flow-control applications.
75 mm (packet width) + 25 mm (space) = 100 mm of linear travel
Packet speed = 100 mm/packet x 10 packets/sec. = 1 m/sec.
The time during which the sensor “sees” a packet is:
Time in light condition = object width (75 mm)
= 0.075 sec. (or 75 ms)
object speed (1 m/sec.)
(time of each packet
passing the sensor)
In this application, the time between adjacent
packets is much less than the time during which
the sensor “sees” a packet. As a result, the dark
(or “off”) time between packets is most important
to consider:
Time in dark condition = space width (25 mm)
= 0.025 sec. (or 25 ms)
object speed (1 m/sec.)
(time of each space
passing the sensor)
A sensor with a response time of less than
25 milliseconds will work in this counting application.
However, it is wise to choose a sensor with a somewhat faster response time, as a safety factor.
Response time becomes critical when detecting
high-speed events, and especially when detecting
small objects moving at high speed. Narrow gaps
between objects or brief intervals between sensing
events also must be considered when determining
the required response speed.
75 mm
25 mm
(typical)
Required Sensor Response Time
The required sensor response time may be calculated for an application when the size, speed, and
spacing of the objects to be detected are known:
Required Sensor Response =
Apparent object width as it passes the sensor
Object speed as it passes the sensor
600/minute
For example, consider an application in which seed
packets on a conveyor are counted by a convergent
beam sensor (Figure 59). The following is known:
Figure 59. A convergent-beam sensor counts seed packets
on a conveyor
1) The packets are processed at a rate of
600/minute.
2) The packets are 75 mm wide.
3) The packets are equally spaced with about
25 mm separation between adjacent packets.
To compute the required sensor response time, the
processing rate is first converted to packet speed:
600 packets/minute = 10 packets/second
46
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Introduction to Sensing Concepts and Terminology
Response Requirements for Rotating Objects
When sensing a rotating object, the calculation for
the required sensor response time is the same.
The only additional calculation is conversion of
rotational speed to linear speed. For example, calculate the required sensor response time for sensing a retroreflective target on a rotating shaft,
given the following information:
1) The target is a 25 x 25 mm square piece of
retroreflective tape on a 160 mm diameter shaft.
2) Maximum shaft speed is 600 revolutions/
minute (10 revolutions per second).
Response Time Requirements for Small Objects
A safe assumption to make when calculating
required response time for an object with a small
cross section is that the object must fill all of the
sensor’s effective beam to be detected. Whenever
the size of a small object begins to approach the
size of the effective beam, the apparent size of the
object as “seen” by the sensor becomes less than
the actual width of the object. In these situations,
reduce the apparent size of the object by an
amount equal to the diameter of the effective
beam at the sensing location. As a result, the
required response time decreases:
To convert rotational speed to linear velocity:
Required response time =
Shaft circumference = π x diameter = π x 160 mm = 0.5 m
Linear velocity = 0.5 m/revolution x 10 revolutions/sec. = 5 m/sec.
The required sensor response time is:
Time in light condition = target length (25 mm)
linear speed (5 m/sec.)
= 0.005 sec. (or 5 ms)
(time sensor “sees”
retro tape)
Five milliseconds is the fastest response required
for this application, because the untaped portion
of the circumference is 19 times longer. A retroreflective sensor with a small effective beam and a
response time faster than 5 milliseconds (such as
a MINI-BEAM®) will reliably sense the tape at the
maximum shaft speed. To ease the response time
requirement in applications that require only one
pulse per revolution (or per cycle), the target
should cover half of the shaft circumference so
that half the revolution is “light time” and the other
half is “dark time.”
Width of object - Diameter of effective beam
Speed of the object through the beam
To illustrate the effect of small target objects on
required response time, consider the example of a
small pin that breaks the beam of an opposed sensor pair (Figure 61):
1) 8 mm diameter pins pass through the beam of
an opposed emitter/receiver pair with a 4 mm
diameter effective beam.
2) Maximum speed of the pins is 250 mm per
second.
Figure 61. An 8 mm diameter pin is sensed in a 4 mm diameter
effective beam
Computing the required sensor response time:
Time of dark condition =
=
Pin dia. (8 mm) – Effective beam dia. (4 mm)
Speed of the pin through the beam (250 mm/second )
4 mm
250 mm/sec.
= 0.016 sec. (16 ms)
Adding apertures to the emitter and receiver lenses
(Figure 62) eases the response time requirement
(the pin will block the smaller effective beam for a
longer time). If 1 mm diameter apertures are used:
Figure 60. Calculating response time for a rotating
component
Time of dark condition =
8 mm - 1 mm
250 mm/second
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
=
7 mm
= 0.028 sec. (28 ms)
250 mm/sec.
47
Introduction to Sensing Concepts and Terminology
Due to resulting low excess gain, it is usually
impractical to aperture an opposed beam to less
than 0.5 mm. Cross sections smaller than 1 mm
usually are sensed most reliably using a proximity
sensing mode; the wider the beam, the longer a
small part will be sensed, easing the sensor
response requirement. Divergent-beam sensors,
bifurcated fiber-optic sensors, or laser sensors are
preferred for sensing very small profiles.
Response Time of a Load
he response time of a load (the device switched
by the sensor’s output) is the maximum time
required to energize and/or de-energize the load; it
is one of the load’s specifications. In general,
solid-state loads (counters and solid-state relays)
have faster response times than electromechanical
devices (solenoids and contactors).
T
Figure 62. Required sensor response time is eased by the
use of apertures
To sense narrow gaps, opposed-mode sensors
should have a wide beam so that light is seen
through the gap as long as possible. Individual
fiber optics with a rectangular sensing tip can
shape the effective beam, also easing sensor
response requirements. When sensing narrow
gaps with a proximity sensor, the small effective
beam of a convergent mode sensor is preferred.
48
Figure 63. The response time of any load is included in its
specifications
The response speed characteristics of any load to
be controlled should be checked to be sure that
the duration of the sensor’s output signal and the
time between adjacent outputs are sufficient to
allow the load to react properly. If the load is too
slow to react, a delay timer may be required
between the sensor output and the load to extend
the duration of the sensor’s output signal. A better
solution involves changing the sensing geometry,
if possible, to equalize the durations of the light
and the dark (on and off) times.
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
Introduction to Sensing Concepts and Terminology
Repeatability of Response
The sensor repeatability specification is multiplied
by the velocity of the sensed object to determine the
mechanical repeatability (the amount of mechanical
error) due to the sensor response. For example,
assume that the sensor shown in Figure 59 is triggering an ink-jet printer to imprint a date code on
the seed packets. The variation in placement of the
printing along the direction of travel is calculated:
ensor repeatability becomes important whenever a sensing event is used to trigger an action,
especially in high-speed, cyclical operations.
Examples include sensors that trigger glue striping
(on box flaps or envelopes), ink-jet printing (product date code imprinting), and label registration. In
these examples, the sensor’s response repeatability helps provide consistent product appearance.
S
• Velocity of seed packets = 1 m/second
• Sensor repeatability = 0.3 ms = 0.0003 seconds (typical value)
Repeatability of response is easily defined for most
modulated photoelectric sensors. Today’s digital
modulation schemes count a defined number of
received light pulses before responding to any light
signal. This helps the sensor discriminate between
its emitter’s light and other interfering signals.
• Mech. repeatability = 1 m/sec. x 0.0003 sec. = 0.3 mm (due to
sensor)
The date code placement error factor for each seed
packet does not take into account the repeatability
of the other control elements. (Here, the control circuits for the ink-jet printer head and for the printer
mechansim itself each will contribute to the total
variation in the location of the imprint.)
Typically, the sensor’s output is allowed to switch
only after three or four modulated light pulses are
counted. The response time before a modulated
sensor turns on is equal to the time required for
the sensor to count (demodulate) that number of
pulses, and the sensor output changes state as
soon as the sensor counts enough light pulses of
the correct frequency. However, since the sensing
event can occur at any time during a modulation
cycle, the actual time between the sensing event
and the sensor’s output change can vary by up to
one modulation cycle (see Figure 64). This sensing response variation is the sensor’s repeatability.
The sensor’s repeatability specification is based on
the transition from dark to light. Counting of modulated light pulses is not considered for each lightto-dark transition. Repeatability for dark-operated
outputs is not specified; however, it is a much
briefer time than the repeatability specification for
dark-to-light (typically less than 10% of the specified “off” response time). The sensor repeatability
specified is a “worst case” value, which can be
relied upon when evaluating high-speed applications where repeat accuracy is important.
Tf
Modulated
Light
Pulses
TRA
Sensing event "A"
Tf
Figure 64.
The repeatability of a modulated
photoelectric sensor is equal to
the period of one light pulse
= Period of one light pulse
Output changes state
T RA = Response time for event "A"
TRB
Sensing event "B"
Sensor response varies by up to one pulse period
T RB = Response time for event "B"
Output changes state
Tf = the sensor repeatability specification.
NOTE: In this example, the received light is demodulated in four pulses.
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
49
Applications for Photoelectric Sensors
Crooked
Cap Sensor
Fixed-field
Sensors
Missing
Cap Sensor
Can Present
Sensor (Gate)
To Packaging
SPRAY CAN INSPECTION
SENSING BAKED GOODS ON A CONVEYOR
Application: Inspect spray cans with crooked or missing caps.
Application: Sense baked goods on adjacent, parallel flat conveyors.
Sensor Models: Two pairs of MINI-BEAM SM31E and SM31R
opposed mode sensors, and one MINI-BEAM SM312CV convergent
mode sensor.
Sensor Models: Two EZ-BEAM T18SP6FF50 fixed-field sensors.
Application Notes: The convergent sensor provides a gate signal
for one of the two opposed mode receivers which checks for a
missing cap. The other opposed mode pair is fitted with rectangular
apertures to sense any excess can height caused by a crooked cap.
Application Notes: Fixed-field technology permits reliable
proximity-mode sensing of irregularly shaped objects,
while ignoring background surfaces such as the conveyor.
3.
2.
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Receiver
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Press and hold Teach button until the
Teach light turns on (RED)
To Set NEAR and FAR Limits.
Adjust target to 1st limit position.
Press Teach button. (Teach flashes)
Adjust target to 2nd limit position.
T
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Fixed-field
Sensor
O AT
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FILL LEVEL INSPECTION
MEAL
MEAL
FILL LEVEL CONTROL
Application: Inspect for proper fill level of coffee in cans, before
sealing.
Application: Monitor and control fill level of dry cereal in a packaging operation.
Sensor Models: EZ-BEAM S18SN6FF50 fixed-field mode sensor;
MINI-BEAM SM31E and SM31R opposed mode sensor pair.
Sensor Models: L-GAGE® model Q50BU.
Application Notes: The MINI-BEAM opposed mode pair is used to
gate the EZ-BEAM fixed-field sensor when the leading edge of a can
blocks the opposed beam. The EZ-BEAM fixed-field sensor offers
enough excess gain inside of its 50 mm cutoff point to sense dark
materials, such as coffee, which have low reflectivity.
50
MEAL
Application Notes: Many food processing lines now fill by level,
instead of by weight. Infrared analog Q50 sensors are the best
choice for fill level monitoring of irregular surfaces, such as dry
cereals.
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
Applications for Photoelectric Sensors
PRODUCT ORIENTATION
INK JET PRINTING REGISTRATION
Application: Position bottle so that the top label (already applied as
a foil wrap) consistently lines up with the bottom label.
Application: Sense the leading edge of bottles and provide the trigger signal to an ink jet printer.
Sensor Model: R55CG1 color mark sensor.
Sensor Model: QS12VN6CV10
Application Notes: Each bottle is indexed into position and rotated
until the color mark on the foil wrap is sensed. The bottle is then
moved to the label applicator.
Application Notes: Bottles are channeled through guide rails to
control the distance to both the sensor and the ink jet printer. The
convergent beam sensor consistently triggers the printer at the
same point on the circumference of each bottle to provide accurate
printing registration.
TAMPER PROOF SEAL APPLICATION
Application: Accurately sense the leading or trailing edge of clear
safety seals for application of the seals over bottle caps.
Sensor Model: C-GAGE® model SLC1BB6.
Application Notes: The SLC1 Label Sensor reliably detects the
presence of most label types, including clear labels on either
opaque or clear backing. Registration accuracy of ±0.3 mm (0.012")
is typical at label web speeds of up to 1.5 m (60") per second. The
sensor’s Adaptive Digital Logic* (ADL™) provides self-learning capability. The SLC1 also provides continuous automatic internal adjustment of sensing threshold and drift compensation.
* U.S. Patent Pending
SMALL PARTS COUNTING
Application: Count small parts fed by a vibratory feeder to fill bags.
Sensor Models: OMNI-BEAM model OSBFAC sensor head with
model OPBT2 power block and OLM8M1 one-shot timing logic
module; two IR2.53S rectangular glass fiber optic assemblies.
Application Notes: The two fiber optics are positioned across the end
of the feeder track to count parts as they fall into a bag, below. The
sensing window measures 75 mm (1.5") wide by the distance of separation between the fiber sensing ends. The OMNI-BEAM sensor’s accoupled amplifier reliably senses the very small change in light signal
produced by a falling part. The sensor’s one-shot output pulse is supplied to the input of the counting logic used in the process.
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
51
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Applications for Photoelectric Sensors
600/minute
PRODUCT COUNTING
Application: Accurately count products in a packaging operation.
Sensor Model: MINI-BEAM model SM312C.
Sensor Models: PICO-AMP™ SP8ER1 opposed mode remote sensors and MD14BB6 amplifier module.
Application Notes: This MINI-BEAM convergent mode sensor produces a powerful infrared beam which registers one “clean” count
from each passing seed packet. Dark and light printed areas are
sensed equally. The small convergent spot produced by this sensor
reliably responds to the narrow spaces between adjacent packets.
CLEAR BOTTLE COUNTING
Application Notes: Count accuracy is one benefit of the opposed
sensing mode. PICO-AMP sensors can often fit into tight locations
which otherwise are too cramped for a pair of opposed mode sensors.
GEAR TOOTH SENSING
Application: Accurately count clear bottles.
Application: Sense teeth of timing gear.
Sensor Model: MINI-BEAM Expert ™ model SME312LPC Clear
Object Sensor.
Sensor Model: SL30VB6V slot sensor.
Application Notes: The polarized retroreflective optics of
MINI-BEAM Expert clear object detection sensors are optimized for
reliable sensing of clear glass or plastic materials. The sensor generates one solid count from each bottle moving through the beam.
52
BOTTLE COUNTING
Application: Accurately count seed packets for order fulfillment.
Application Notes: SL Series slot sensors provide an economical
way to reliably produce pulses from timing gears used in automated
production machinery.
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
Applications for Photoelectric Sensors
Packaging Film
15°
Register Mark
Light to Sensor
Light from Sensor
CLEAR FILM REGISTER MARK SENSING
Application: Detect a color mark printed along one edge of a continuous web of clear or translucent material to accurately control
downstream cutoff.
Sensor Models: D11EN6FPG with plastic fiber optic assembly
model PDIS46UM12.
Application Notes: This special plastic fiber optic assembly is terminated in a U-shaped slot sensor which straddles the web edge.
This D11 Expert ™ TEACH mode sensor model uses a visible green
light source, which excels at opposed mode detection of lightlyprinted registration marks on clear films. The opposed mode has
the added advantage of being relatively insensitive to the color of
the mark, and also to web “flutter”.
WEB CUTOFF REGISTRATION
Application: Detect a color mark printed along one edge of a continuous web to accurately control downstream cutoff.
Sensor Model: MINI-BEAM model SM312CV2B convergent blue
color mark sensor.
Application Notes: This MINI-BEAM blue-LED convergent mode
sensor reliably detects many difficult color mark contrasts, including yellow against off-white (shown here). The sensor is located
near the printing drum where web “flutter” is not a factor. A 15°
“skew” angle from perpendicular is used to avoid strong direct
reflections from shiny materials.
Bag Seal & Perforation
CLEAR BAG SEPARATION
ANALOG EDGEGUIDING AND WEB BREAK DETECTION
Application: Sense the perforations in a continuous clear web to
trigger a separation mechanism.
Application: Provide an analog signal for edgeguiding of an opaque or
semi-transparent web material, and provide an alarm for a web break.
Sensor Models: D12EN6FP Expert ™ with a pair of PIL46U plastic
fiber optics.
Sensor Model: D10DNFP (with one analog and one discrete output).
Application Notes: The low contrast capability of the Expert sensor, combined with the lensed plastic fiber optics, can detect perforations in clear materials.
Fiber Optic Model: One pair of model PIRS1X166UMPMAL
16-beam linear array individual plastic fiber optics.
Application Notes: The analog output of the D10 sensor provides a
voltage which is proportional to the number of beams broken in the
linear array by the web material. This analog signal is used for edge
position control. The discrete output of the D10 is programmed to
energize an alarm if no beams are blocked (indicating a web break).
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
53
Applications for Photoelectric Sensors
Fixed-field
Sensors
CD STACK HEIGHT CONTROL
Application: Detect the height of a CD stack at two levels.
Sensor Model: D10DNFP
Application Notes: A CD duplication process “burns” 25 CDs per
cycle. The two discrete outputs of the D10 sensor are programmed
to output for half-stack and full-stack conditions (i.e., Output #1
energizes at 50% and Output #2 energizes at 100% beam blockage).
When a half-stack (of 25 CDs) is sensed, the duplication machine is
re-loaded and cycled. When a full stack of 50 CDs is sensed, the CDs
are removed and packaged, and the process cycle restarts.
PARCEL SENSING
Sensor Model: QS12VN6CV20 (several sensors mounted across
width of conveyor).
Application Notes: MINI-BEAM 2 sensors fit easily between conveyor rollers. The convergent optics are more forgiving than diffuse
optics to the build-up of dust and dirt on the lenses.
54
Sensor Model: Five EZ-BEAM model S18SP6FF100 fixed-field sensors.
Application Notes: The optics of this fixed-field sensor are ideal
whenever sensing must be accomplished from underneath a conveyor. Excess gain is very high at the optimum sensing distance of
about 25 mm (1"). Also, excess gain is low right at the lens of the
sensor (at 0 mm or 0"). Therefore, sensor performance is not
affected by moderate amounts of dirt and dust falling on the lens.
LABEL ON BOX DETECTION
Application: Sense random-sized parcels on a roller conveyor.
®
BOX SENSING
Application: Sense boxes anywhere across a roller conveyor, where
sensing is possible only from under the conveyor.
Application: Detect the presence or absence of a white label on a
corrugated kraft cardboard box.
Sensor Models: OMNI-BEAM model OSBCVB sensor head with
OPBT power block; OMNI-BEAM model OSBFP with OPBT power block
and a pair of PIL46U opposed mode plastic fiber optic assemblies.
Application Notes: OMNI-BEAM model OSBCVB converges the light
from a blue LED source at 38 mm (1.5") to reliably sense a white
label on a kraft cardboard box. A model OSBFP uses individual plastic
fiber optics in the opposed sensing mode to gate the label sensor to
check for the label when the leading edge of a box is sensed.
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
MODE
Applications for Photoelectric Sensors
WAREHOUSE ORDER PICKING
COLOR SORTING
Application: Sort cartons by color-coded labels.
Application: Indicate which bin to pick from, and verify that an item
was removed.
Sensor Models:
Color Sensor: D10DNFP (with dual discrete outputs).
Interrogate Sensor: VS2AN5CV30 convergent beam.
Fiber Optic: Bifurcated model PBCT46U.
Sensor Model: PVA Series emitter/receiver pairs–any of four lengths.
Application Notes: The system controller (typically a computer)
issues an instruction to pick an item from a particular location. The
controller turns ON the PVA’s “job lights” at the specified location.
The job lights go OFF when an item from that location is removed.
If multiple items are required from one location, the job light stays
ON until the correct number of items are removed.
Application Notes: Three colored labels (red, blue and green) are
used to sort cartons on a packaging line. The two outputs of the
D10 are programmed as follows: red = both outputs ON,
blue = both outputs OFF, and green = one output ON and other OFF.
The outputs of the D10 are gated using a VS2 Series convergent
mode sensor.
WORLD-BEAM
Emitters #2, 3, 4
Take off conveyor for airletters
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Receivers #2, 3, 4
Route to profile and
weight inspection
AIR LETTER SORTING
Application: Separate air mail letters from other parcels in an automated airfreight operation.
Sensor Models: (4) WORLD-BEAM QS186E and QS18VN6R opposed mode emitter and receiver pairs.
Application Notes: Three vertical opposed beams are equally spaced across the width of the powered roller conveyor, so that one or more of
the beams is interrupted by any passing parcel. The fourth opposed beam is positioned horizontally across the width of the conveyor, at a
height of 50 mm (2") above the rollers to inspect each parcel for height. If a parcel slips under the height inspection beam, the diverter mechanism is energized. The diverter blocks remain energized until a parcel exceeding 2" in height is detected.
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
55
Applications for Photoelectric Sensors
Circuit Boards
LEAK DETECTION
CIRCUIT BOARD DETECTION
Application: Detect a plumbing leak inside a valve box.
Sensor Models: Q23SN6FP; PBT46U plastic fiber optic assembly
with TGR3/8MPFMQ liquid level probe.
Application Notes: Leak detection is required in a process which
uses hazardous chemicals. A fiber optic liquid level probe immediately senses liquid present on the end of the probe tip. The Q23
sensor responds by triggering a warning alarm.
Tape Reel
Tab Film
Application: Detect the leading edge of a printed circuit board on
an indexing conveyor to stop circuit board movement.
Sensor Model: VS1AN5CV10
Application Notes: The VS1 Series convergent mode sensor is
positioned under the conveying surface to sense the bottom of the
printed circuit boards. The high excess gain at the sensor’s convergent point makes the VS1 forgiving to any reflectivity variations of
the circuit boards.
Electronic Chip
Component
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LOOP CONTROL
MISSING PART DETECTION
Application: Control the speed of a reel of surface mount circuit
components, using loop control.
Application: Detect missing surface-mount integrated circuits in
plastic tape reels.
Sensor Models: Three pairs of opposed mode SP8ER1 emitters
and receivers are used with three PICO-AMP model MD14BB6
amplifiers. NOTE: Only one amplifier is shown, but three are
required (one per sensor pair).
Sensor Models: D12SN6FP with a pair of PIT46U plastic fiber optic
assemblies.
Application Notes: The loop position is monitored by three
opposed beams. Speed of the reel is regulated, relative to the number of beams interrupted by the loop. The MD14 amplifier offers
different modulation frequencies to prevent optical crosstalk
between closely spaced adjacent sensor pairs.
56
Application Notes: Surface mount integrated circuits are packaged
in pockets on a plastic tape web. Holes in the base of each pocket
are covered when a component is present. The fiber optic sensing
ends are aligned with the holes. A missing part is detected when a
light beam is established through the hole in the pocket.
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
Applications for Photoelectric Sensors
INVERTED IC CHIP SENSING
IC LEAD COUNTING
Application: Determine if an IC is improperly placed in a plastic
pocket.
Sensor Model: D12EN6FP
Application: Count the leads on an integrated circuit.
Sensor Model: Two D12SN6FPY
Fiber Optic Model: Two pair PIPSM26U
Fiber Optic Model: PBEFP26U
Application Notes: Integrated circuits have identification information printed on their top surface; Expert sensors have the ability to
“see” this printed side as a “light” condition. The bottom of the
component reflects less light, allowing inverted components to be
sensed.
Application Notes: Leaded integrated circuits are mounted on a
circuit board. Before the leads are trimmed, the boards are inspected to ensure proper insertion of the IC into the board. Miniature
“side view,” opposed mode fibers are used to count the leads. Two
pairs are used to sense both rows of leads simultaneously.
D
11
E
L4C6 Lens
IC PRINT VERIFICATION
LEAD FRAME DETECTION – DIVERGENT DIFFUSE MODE
Application: Detect the presence or absence of information printed
on a small object.
Application: To detect the presence of an integrated circuit lead
frame.
Sensor Model: R55FPG and D11EN6FP
Sensor Model: QS12VN6W
Fiber Optic Model: PBCT26U and PIA26U (pair)
Application Notes: The wide beam of the divergent optics senses
the lead frame, even in areas where most of the metal is removed.
Application Notes: An R55F Series sensor is used with model
PBCT26U plastic fiber optic cable and model L4C6 lens to inspect for
small white printing on integrated circuits. The R55F is a “TEACH
mode” sensor that “learns” the difference between the presence and
absence of the printing, using push-button programming. The convergent lens is located 6 mm (0.24") away from the surface of the IC.
The D11E uses individual plastic fibers in the opposed sensing mode
to gate the R55F when the leading edge of the IC is sensed.
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
57
Applications for Photoelectric Sensors
LEAD FRAME DETECTION – OPPOSED MODE
WAFER POSITIONING
Application: Sense the presence of an integrated circuit lead frame.
Application: Position semiconductor wafers by locating the “flat”.
Sensor Model: D10DNFP
Sensor Models: Two D12SN6FPY sensors and two pairs of PIF26U
individual fiber optics.
Fiber Optic Model: One pair of model PIF26UMLS individual plastic fiber optics.
Application Notes: An integrated circuit lead frame moves in a
U-shaped channel, and must be sensed using the opposed mode.
Diffuse sensing is not possible, due to large differences in reflectivity of frame materials, plus a reflective background. The thickness of
the lead frame material is 0.1 mm and the diameter of the beam is
0.5 mm. The D10 sensor is able to differentiate this low contrast.
Application Notes: A semiconductor wafer is rotated in a positioning fixture. Rotation stops when the light beams of both opposed
mode fiber optic sensors are established across the face of the
wafer flat. High response speed (50 microseconds) D12 sensors are
used to optimize stopping repeatability.
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PicoDot
WAFER CASSETTE SENSING
WAFER CASSETTE MAPPING
Application: Sense the presence of a wafer cassette on a conveyor
submerged in de-ionized water.
Application: Locate each wafer in a cassette by detecting wafer edges.
Sensor Models: D12SN6FP with a pair of PIE46UT plastic fiber
optic assemblies.
Application Notes: Silicon wafers are transported from one process
to another in a cassette, via a conveyor which is submerged in deionized water. Teflon-encapsulated opposed mode plastic fiber optics
are located on opposite sides of the conveyor. The end tips of the
fiber optic cables may be fully immersed in the water. The opposed
mode beam is broken by the cassette, when it is present.
58
Sensor Model: PicoDot® model PD45VN6C100.
Application Notes: PicoDot model PD45VN6C100 focuses a precise laser beam at 100 mm (4") from the sensor lens. However, to
sense the very thin profile of a semiconductor wafer edge, the optimum sensing distance is about 50 mm (2"), where the beam spot
size is larger and excess gain is higher.
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
Miniature Sensors
Miniature Sensors
VS1 Sensors . . . . . . . . . . . . . . . . . . . . . . . . . . . . 60
VS2 Sensors . . . . . . . . . . . . . . . . . . . . . . . . . . . . 64
VS3 Sensors . . . . . . . . . . . . . . . . . . . . . . . . . . . . 70
Q08 Sensors . . . . . . . . . . . . . . . . . . . . . . . . . . . . 74
Q10 Sensors . . . . . . . . . . . . . . . . . . . . . . . . . . . . 80
Q14 Sensors . . . . . . . . . . . . . . . . . . . . . . . . . . . . 84
MINI-BEAM®2 Sensors . . . . . . . . . . . . . . . . . . . . . 90
Q23 & QH23 Sensors . . . . . . . . . . . . . . . . . . . . . . 96
WORLD-BEAM™ Sensors . . . . . . . . . . . . . . . . . . . 106
!
Miniature sensors are not suitable for use in
personnel safety applications! See WARNING on
inside front cover of catalog.
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
59
VS1 Sensors
VS1 Sensors
Miniature Convergent Mode Self-Contained Sensors
•
Totally self-contained miniature sensors
•
10 to 30V dc operation
•
High-quality, low-cost replacement for competitive miniature sensors
•
Choose visible red or infrared sensing beam
•
Choose models with 10 mm (0.4") or 20 mm (0.8") convergent point
•
Choose dark or light operate models
•
Choose models with NPN (sinking) or PNP (sourcing) output
•
3-wire hookup; output load capacity to 50 mA
•
Choice of integral cable or pigtail quick-disconnect connector
VS1 Sensing Mode Options
Convergent
Visible red, 630 nm
VS1 Series Convergent Mode - Visible Red
Models
VS1AN5CV10
Range*
Cable
2 m (6.5') 3-wire
VS1AN5CV10Q
3-Pin Pico-style Pigtail QD
VS1RN5CV10
2 m (6.5') 3-wire
VS1RN5CV10Q
VS1AP5CV10
VS1AP5CV10Q
VS1RP5CV10
VS1RP5CV10Q
VS1AN5CV20
VS1AN5CV20Q
VS1RN5CV20
VS1RN5CV20Q
VS1AP5CV20
VS1AP5CV20Q
VS1RP5CV20
VS1RP5CV20Q
Supply
Voltage
NPN/
LO
NPN/
DO
10 mm 3-Pin Pico-style Pigtail QD
(0.4")
2 m (6.5') 3-wire
±5 mm
3-Pin Pico-style Pigtail QD
2 m (6.5') 3-wire
3-Pin Pico-style Pigtail QD
2 m (6.5') 3-wire
20 mm
3-Pin
Pico-style Pigtail QD
(0.8")
±10 mm
2 m (6.5') 3-wire
3-Pin Pico-style Pigtail QD
2 m (6.5') 3-wire
3-Pin Pico-style Pigtail QD
Excess Gain
Beam Pattern
Performance based on 90% reflectance white test card
1000
E
X
C
E
S
S
VS1..CV20 Series
10 mm Convergent Mode
VS1..CV10 Series
3 mm
100
0.12 in
10 mm Convergent Mode
2 mm
0.08 in
1 mm
0.04 in
0
PNP/
LO
2 m (6.5') 3-wire
3-Pin Pico-style Pigtail QD
Output
Type
10-30V dc
G
A
I
N
0.04in
2 mm
0.08 in
10 mm
.4 in
100 mm
4 in
0.12 in
0
1000 mm
40 in
4 mm
0.16 in
DISTANCE
8 mm
0.31 in
12 mm
0.47 in
16 mm
0.63 in
20 mm
0.79 in
DISTANCE
1000
NPN/
DO
E
X
C
E
S
S
PNP/
LO
G
A
I
N
PNP/
DO
0
1 mm
3 mm
1
1 mm
0.04 in
PNP/
DO
NPN/
LO
10
VS1..CV20 Series
VS1..CV10 Series
20 mm Convergent Mode
20 mm Convergent Mode
6 mm
100
0.24 in
4 mm
0.16 in
2 mm
0.08 in
0
0
10
2 mm
0.08in
4 mm
0.16 in
0.24 in
6 mm
1
1 mm
0.04 in
10 mm
.4 in
100 mm
4 in
DISTANCE
1000 mm
40 in
0
10 mm
0.40 in
20 mm
0.80 in
30 mm
1.20 in
40 mm
1.60 in
50 mm
2.00 in
DISTANCE
For VS1 Sensors:
i) 9 m (30') cables are available by adding suffix “W/30” to the model number of any cabled sensor (e.g. - VS1AN5CV10 W/30)
ii) A model with a QD connector requires an accessory mating cable. See page 62 and the Accessories section for more information.
*Performance based on 90% reflectance white test card
60
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
VS1 Sensors
Infrared, 865 nm
VS1 Series Convergent Mode Sensors - Infrared
Models
Range*
VS1AN5C10
Supply
Voltage
Cable
2 m (6.5') 3-wire
VS1AN5C10Q
NPN/
LO
3-Pin Pico-style Pigtail QD
2 m (6.5') 3-wire
VS1RN5C10
10 mm
(0.4")
±5 mm
VS1RN5C10Q
VS1AP5C10
NPN/
DO
3-Pin Pico-style Pigtail QD
3-Pin Pico-style Pigtail QD
VS1RP5C10
2 m (6.5') 3-wire
NPN/
LO
3-Pin Pico-style Pigtail QD
VS1RP5C10Q
VS1AN5C20
10-30V dc
2 m (6.5') 3-wire
VS1AN5C20Q
3-Pin Pico-style Pigtail QD
VS1RN5C20
2 m (6.5') 3-wire
VS1RN5C20Q
VS1AP5C20
3-Pin Pico-style Pigtail QD
VS1RP5C20
VS1RP5C20Q
2 m (6.5') 3-wire
3-Pin Pico-style Pigtail QD
Beam Pattern
Performance based on 90% reflectance white test card
1000
E
X
C
E
S
S
G
A
I
N
VS1..C10 Series
VS1..C10 Series
Convergent Mode
3 mm
Convergent Mode
100
0.12 in
2 mm
0.08 in
1 mm
0.04 in
0
1 mm
0.04 in
2 mm
0.08 in
3 mm
10 mm
.4 in
100 mm
4 in
0.12 in
0
1000 mm
40 in
4 mm
0.16 in
8 mm
0.31 in
DISTANCE
12 mm
0.47 in
16 mm
0.63 in
20 mm
0.79 in
DISTANCE
1000
NPN/
DO
E
X
C
E
S
S
NPN/
LO
G
A
I
N
NPN/
DO
10
1
1 mm
0.04 in
NPN/
DO
NPN/
LO
20 mm
(0.8") 3-Pin Pico-style Pigtail QD
±10 mm
2 m (6.5') 3-wire
VS1AP5C20Q
Excess Gain
0
2 m (6.5') 3-wire
VS1AP5C10Q
Output
Type
VS1..C20 Series
VS1..C20 Series
Convergent Mode
6 mm
Convergent Mode
100
0.24 in
4 mm
0.16 in
2 mm
0.08 in
0
10
0
2 mm
0.08 in
4 mm
0.16 in
6 mm
1
1 mm
0.04 in
10 mm
.4 in
100 mm
4 in
1000 mm
40 in
0.24 in
0
10 mm
0.40 in
20 mm
0.80 in
30 mm
1.20 in
40 mm
1.60 in
50 mm
2.00 in
DISTANCE
DISTANCE
VS1 Series Dimensions
25.7 mm
(1.01")
15 mm
(0.59")
13.5 mm
(0.53")
150 mm (6") Pigtail
8.3 mm
(0.33")
4.1 mm
(0.16")
9.2 mm
(0.36") 11.6 mm
(0.46")
Ø2.2 mm
(0.09")
VS1 Series Hookup Diagrams
Sensors with NPN Outputs
Cabled Hookup
bu
–
10 to 30 dc
+
bn
bk
Quick-Disconnect Hookup
–
10-30V dc
+
bn
bk
Load
bn
+
10-30V dc
–
bu
bk
Load
bu
Sensors with PNP Outputs
Cabled Hookup
3-Pin Pico-Style Pin-out
(Cable Connector Shown)
Black Wire
Blue Wire
Load
Brown Wire
Quick-Disconnect Hookup
bn
+
10-30V dc
–
bu
bk
Load
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
61
VS1 Sensors
VS1 Series Specifications
Supply Voltage and Current
10 to 30V dc (10% maximum ripple) at less than 25 mA (exclusive of load)
Supply Protection Circuitry
Protected against reverse polarity and transient voltages
Output Configuration
SPST solid-state switch
Choose NPN (current sinking) or PNP (current sourcing) models
Choose light operate (N.O.) or dark operate (N.C.) models
Output Rating
50 mA maximum
Off-state leakage current: < 1 microamp at 24V dc
On-state saturation voltage: < 0.25V at 10 mA dc; < 0.5V at 50 mA dc
Output Protection Circuitry
Protected against false pulse on power-up and continuous overload or short circuit of outputs
Overload trip point ≥100 mA
Output Response Time
1 millisecond ON and OFF
Repeatability
250 microseconds
Indicators
Two LEDs: Green and Yellow
GREEN ON steadily
GREEN flashing
YELLOW ON steadily
YELLOW flashing
=
=
=
=
power to sensor is ON
output overload
light is sensed
marginal excess gain (1-1.5x) in light condition
Construction
Black ABS/polycarbonate housing with clear acrylic lens
Environmental Rating
IP67; NEMA 6
Connections
2 m (6.5') attached cable: three #28 ga stranded conductors with PE insulation; PVC outer cable jacket;
or 3-pin Pico-style pigtail quick-disconnect fitting. QD cables are ordered separately.
Operating Conditions
Temperature:
-20° to +55°C (-4° to +131°F)
Maximum Relative Humidity: 80% at 50°C (non-condensing)
Application Notes
M2 stainless steel mounting hardware included (see “VS1 Mounting”). Optional mounting brackets are
available. See page 63.
Certifications
Accessories
Quick-Disconnect (QD) Cables
Following is the selection of cables available for VS1 QD models. See the Accessories section at back of catalog for more cable information.
62
Style
Model
Length
Connector
Used with:
3-Pin Pico
PKG3M-2
PKG3M-9
2 m (6.5')
9 m (30')
Straight
VS1 with QD fitting
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
VS1 Accessories
Mounting Brackets
Model
Description
Dimensions
1.7 mm
(0.7")
SMBVS1S
4x R1.1 mm
(0.44")
2x R5.6 mm
(0.22")
6.5 mm
(0.26")
• Short bracket
• Stainless steel
12.5 mm
(0.50")
2x 7.4 mm
(0.29")
8x R1.6 mm
(0.06")
2x R6.4 mm
22.0 mm
(0.25")
(0.87")
2x 1 mm
(0.04")
2x 4.6 mm
(0.18")
10.0 mm
(0.40")
12.5 mm
(0.49")
12.0 mm
(0.47")
0.9 mm
(0.04")
4x R4 mm (0.15")
25.0 mm
(0.98")
SMBVS1SC
2 x ø2.8 mm (0.11")
4.7 mm
(0.19")
• Short compact bracket
• Stainless steel
11.0 mm
(0.43")
10.0 mm
(0.39")
13.5 mm
(0.53")
4.5 mm
3.0 mm
(0.18")
(0.12")
0.9 mm
(0.04")
2.0 mm
(0.08")
5.5 mm
(0.22")
2.3 mm (0.9")
9.0 mm
(0.35")
SMBVS1T
12.5 mm
(0.49")
8x R1.6 mm
(0.06")
2x R6.4 mm
(0.25")
2x 7.6 mm
(0.29")
• Tall bracket
• Stainless steel
19.5 mm
(0.77")
10.2 mm
(0.40")
4.6 mm
(0.18")
25.0 mm
(0.98")
22.0 mm
(0.87")
13.5 mm
(0.53")
4x R5.6 mm
(0.22")
8x R1.1 mm
(0.44")
10.8 mm
(0.43")
13.5 mm
(0.53")
32.0 mm
(1.26")
0.9 mm
(0.04")
5.6 mm
(0.23")
SMBVS1TC
4.5 mm
(0.18")
• Tall compact bracket
• Stainless steel
31.0 mm
(1.22")
2x ø2.8mm (0.11)
5.5 mm
(0.22")
3.0 mm
(0.12")
2.3 mm
3.0 mm
(0.09")
(0.12")
2.3 mm
(0.9")
13.5 mm
(0.53")
0.9 mm
(0.04")
9.0 mm
(0.35")
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
10.0 mm
(0.39")
63
VS2 Sensors
VS2 Sensors
Miniature Self-Contained Sensors
•
Totally self-contained miniature sensors
•
10 to 30V dc operation
•
High-quality, low-cost replacement for competitive miniature sensors
•
Visible red sensing beam
•
Choose opposed or convergent-mode sensing
•
Choose dark or light operate models
•
Choose models with NPN (sinking) or PNP (sourcing) output
•
3-wire hookup; output load capacity to 50 mA
•
Choice of integral cable or pigtail quick-disconnect connector
VS2 Sensing Mode Options
Opposed
ER
NN
BA
2
VS
Convergent
R
N5
2A
VS
Visible red, 660 nm
VS2 Series Opposed Mode Emitter (E) and Receiver (R)
Models*
VS2KAN5V Sensor Pair
VS25EV Emitter
VS2AN5R Receiver
VS2KAN5VQ Sensor Pair
VS25EVQ Emitter
VS2AN5RQ Receiver
VS2KRN5V Sensor Pair
VS25EV Emitter
VS2RN5R Receiver
VS2KRN5VQ Sensor Pair
VS25EVQ Emitter
VS2RN5RQ Receiver
VS2KAP5V Sensor Pair
VS25EV Emitter
VS2AP5R Receiver
VS2KAP5VQ Sensor Pair
VS25EVQ Emitter
VS2AP5RQ Receiver
VS2KRP5V Sensor Pair
VS25EV Emitter
VS2RP5R Receiver
VS2KRP5VQ Sensor Pair
VS25EVQ Emitter
VS2RP5RQ Receiver
Range
Cable
Supply
Voltage
Output
Type
10 to
30V dc
NPN/
Light
Operate
NPN/
Light
Operate
NPN/
Dark
Operate
NPN/
Dark
Operate
PNP/
Light
Operate
PNP/
Light
Operate
PNP/
Dark
Operate
PNP/
Dark
Operate
2 m (6.5')
2 wires
3 wires
3-Pin Pico-Style
Pigtail QD
Optimum
up to
600 mm
(24"),
1.2 m
(48")
max.
2 m (6.5')
2 wires
3 wires
3-Pin Pico-Style
Pigtail QD
2 m (6.5')
2 wires
3 wires
3-Pin Pico-Style
Pigtail QD
2 m (6.5')
2 wires
3 wires
3-Pin Pico-Style
Pigtail QD
Excess Gain
Beam Pattern
Effective Beam: 3 mm
1000
E
X
C
E
S
S
VS2 Series
VS2 Series
300 mm
Opposed Mode
100
1.2 in
Opposed Mode
200 mm
0.8 in
100 mm
0.4 in
0
G
A
I
N
10
0
100 mm
0.4 in
200 mm
0.8 in
300 mm
1
0.01 m
0.4 in
0.10 m
4 in
1.0 m
40 in
DISTANCE
10.0 m
400 in
1.2 in
0
0.3 m
12 in
0.6 m
24 in
0.9 m
36 in
1.2 m
48 in
1.5 m
60 in
DISTANCE
*NOTE: Sensors may be purchased in pairs, or individually.
64
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
VS2 Sensors
Visible red, 660 nm
VS2 Series Convergent Mode Sensors
Models*
Range
VS2AN5CV15
VS2AN5CV15Q
VS2RN5CV15
VS2RN5CV15Q
VS2AP5CV15
VS2AP5CV15Q
Cable
15 mm
(0.6")
±5 mm
2 m (6.5')
3-Pin Pico QD
VS2AN5CV30
VS2AN5CV30Q
2 m (6.5')
3-Pin Pico QD
VS2RP5CV30
VS2RP5CV30Q
10 to
30V dc
NPN
Light
Operate
NPN
Dark
Operate
PNP
Light
Operate
PNP
Dark
Operate
NPN
Light
Operate
NPN
Dark
Operate
PNP
Light
Operate
PNP
Dark
Operate
2 m (6.5')
3-Pin Pico QD
2 m (6.5')
3-Pin Pico QD
VS2AP5CV30
VS2AP5CV30Q
Output
Type
2 m (6.5')
3-Pin Pico QD
VS2RP5CV15
VS2RP5CV15Q
VS2RN5CV30
VS2RN5CV30Q
Supply
Voltage
30 mm
(1.2")
±10 mm
2 m (6.5')
3-Pin Pico QD
2 m (6.5')
3-Pin Pico QD
2 m (6.5')
3-Pin Pico QD
Excess Gain
Beam Pattern
Performance based on 90% reflectance white test card
1000
E
X
C
E
S
S
G
A
I
N
VS2CV15
VS2CV15
6 mm
0.24 in
Convergent Mode
100
4 mm
0.16 in
Convergent Mode
2 mm
0.08 in
0
10
0
2 mm
0.08 in
4 mm
0.16 in
6 mm
1
1 mm
0.04 in
10 mm
0.4 in
100 mm
4 in
0.24 in
0
1000 mm
40 in
20 mm
.8 in
40 mm
1.6 in
60 mm
2.4 in
80 mm 100 mm
3.2 in
4.0 in
DISTANCE
DISTANCE
1000
E
X
C
E
S
S
G
A
I
N
VS2CV30
100
VS2CV30
9 mm
Convergent Mode
0.36 in
6 mm
0.24 in
Convergent Mode
3 mm
0
10
1
1 mm
0.04 in
10 mm
0.4 in
100 mm
4 in
DISTANCE
1000 mm
40 in
0.12 in
0
3 mm
0.12 in
6 mm
0.24 in
9 mm
0.36 in
0
40 mm
1.6 in
80 mm 120 mm 160 mm 200 mm
3.2 in
4.8 in
6.4 in
8.0 in
DISTANCE
For VS2 Sensors:
i) 9 m (30') cables are available by adding suffix “W/30” to the model number of any cabled sensor (e.g. - VS2AN5CV15 W/30)
ii) A model with a QD connector requires an accessory mating cable. See page 68 and the Accessories section for more information.
*Performance based on 90% reflectance white test card
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
65
VS2 Sensors
VS2 Series Specifications
Supply Voltage and Current
10 to 30V dc (10% maximum ripple) at less than 25 mA (exclusive of load)
Supply Protection Circuitry
Protected against reverse polarity and transient voltages
Output Configuration
SPST solid-state switch
Choose NPN (current sinking) or PNP (current sourcing) models
Choose light operate (N.O.) or dark operate (N.C.) models
Output Rating
50 mA maximum
Off-state leakage current: < 1 microamp at 24V dc
On-state saturation voltage: < 0.25V at 10 mA dc; < 0.5V at 50 mA dc
Output Protection Circuitry
Protected against false pulse on power-up and continuous overload or short circuit of outputs
Opposed Mode: Overload trip point ≥ 100 mA
Convergent: Overload trip point ≥ 160 mA
Output Response Time
Opposed: 1 millisecond ON and 0.5 millisecond OFF; Convergent: 1 millisecond ON and OFF
(NOTE: 100 millisecond (opposed mode) and 150 millisecond (convergent) delay maximum on power-up:
output does not conduct during this time)
Repeatability
Opposed Mode: 100 microseconds
Convergent: 160 microseconds
Indicators
Two LEDs: Green and Yellow
GREEN ON steadily
GREEN flashing
YELLOW ON steadily
YELLOW flashing
=
=
=
=
power to sensor is ON
output overload
light is sensed
marginal excess gain (1-1.5x) in light condition (opposed mode only)
Construction
Opposed : Black ABS housing with clear MABS lens
Convergent: Black ABS housing with acrylic lens
Environmental Rating
IEC IP67; NEMA 6
Connections
2 m (6.5') attached cable: #28 ga stranded conductors with PE insulation; PVC outer cable jacket;
or 3-pin Pico-style pigtail quick-disconnect fitting. QD cables are ordered separately.
Operating Conditions
Temperature: -20° to +55°C (-4° to +131°F)
Maximum Relative Humidity: 80% at 50°C (non-condensing)
Vibration and
Mechanical Shock
Vibration: All models meet IEC 60068-2-6, IEC 60947-5-2, UL491 Section 40, MIL-STD-202F Method
201A; 10 to 60 Hz, 0.5 mm peak to peak
Shock: All models meet IEC 60068-2-27, IEC 60947-5-2; 30g peak acceleration, 11 millisecond pulse
duration, half-sine wave pulse shape
Application Notes
M2 stainless steel mounting hardware included. Optional mounting brackets are available (page 68).
Certifications
66
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
VS2 Sensors
VS2 Series Hookup Diagrams
bu
bn
–
10 to 30 dc
+
bn
bk
bk
bk
bu
bn
–
10-30V dc
+
bn
bk
Quick-Disconnect hookup
bu
+
10-30V dc
–
bu
Load
–
10-30V dc
+
Load
Quick-Disconnect hookup
Quick-Disconnect hookup
bn
+
10-30V dc
–
bu
Load
bu
Emitters
Cabled hookup
Sensors with PNP Outputs
Cabled hookup
Sensors with NPN Outputs
Cabled hookup
bn
–
10-30V dc
+
bk
Load
VS2 Series Opposed Mode Sensor Dimensions
12.0 mm
(0.47")
8.0 mm
(0.31")
CL
Green Power
Indicator
4.3 mm
(0.17")
2.0 mm
(0.08")
3.6 mm
(0.14")
16.7 mm
25.1 mm
(0.66")
(0.99")
150 mm (6") Pigtail
Yellow
Signal Indicator
(Receiver only)
VS2
2x ø2.2 mm
(0.09")
4.8 mm
(0.19")
VS2 Series Convergent Mode Sensor Dimensions
12.0 mm
(0.47")
Green Power
Indicator
VS2CV30 VS2CV15
21.2 mm 20.6 mm
(0.84") (0.81")
4.8 mm
(0.19")
10.9 mm
(0.43")
CL
8.0 mm
(0.31")
4.7 mm
(0.19")
2.0 mm
(0.08")
Yellow
Signal Indicator
(Receiver only)
3.6 mm
(0.14")
25.1 mm
(0.99")
2x ø2.2 mm
(0.09")
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
67
VS2 Accessories
Quick-Disconnect (QD) Cables
Following is the selection of cables available for VS2 QD models. See the Accessories section at back of catalog for more cable information.
Style
Model
Length
Connector
Used with:
3-Pin Pico
PKG3M-2
PKG3M-9
2 m (6.5')
9 m (30')
Straight
VS2 with QD fitting
Mounting Brackets
Model
Description
Dimensions
SMBVS2RA
8.0 mm
(0.32")
2x 3.2 mm
(0.13")
3.0 mm
(0.12")
• Right-angle bracket
• Stainless steel
7.0 mm
(0.28")
5.5 mm
(0.22")
8.0 mm
(0.32")
3.0 mm
(0.12")
8.0 mm
(0.32")
0.9 mm
(0.04")
20.0 mm
(0.79")
9.0 mm
(0.35")
20.0 mm
(0.79")
68
14.0 mm
(0.55")
4 x ø2.3 mm
(0.09")
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
VS2 Accessories
Apertures for Use on Opposed Mode Models
Model
Description
Dimensions
22.8 mm
(0.90")
APVS2-0204
16.7 mm
(0.66")
ø0.5 mm
(0.02")
• 0.5 mm and 1.0 mm apertures
• 0.1 mm stainless steel
• Includes two apertures
4x ø2.1 mm (0.8")
4.6 mm
(0.18")
8.0 mm
(0.31")
12.4 mm
(0.49")
ø1.0 mm
(0.04")
CL
2.5 mm
(0.10")
16.7 mm
(0.66")
2.5 mm
(0.10")
22.8 mm
(0.90")
APVS2-02R
• 0.5 mm wide aperture - horizontal and
vertical
• 0.1 mm stainless steel
• Includes two apertures
2x 3.3 mm
(0.13")
4x ø2.1 mm (0.8")
16.7 mm
(0.66")
2x 0.5 mm
(0.02")
4.6 mm
(0.18")
8.0 mm
(0.31")
12.4 mm
(0.49")
2.5 mm
(0.10")
16.7 mm
(0.66")
APVS2-04R
CL
2.5 mm
(0.10")
22.8 mm
(0.90")
• 1 mm wide aperture - horizontal and
vertical
• 0.1 mm stainless steel
• Includes two apertures
2x 3.3 mm
(0.13")
4x ø2.1 mm (0.8")
16.7 mm
(0.66")
2x 1 mm
(0.04")
4.6 mm
(0.18")
12.4 mm
(0.49")
8.0 mm
(0.31")
CL
2.5 mm
(0.10")
16.7 mm
(0.66")
2.5 mm
(0.10")
22.8 mm
(0.90")
APVS2-0608
• 1.5 mm and 2.0 mm apertures
• 0.1 mm stainless steel
• Includes two apertures
16.7 mm
(0.66")
ø1.5 mm
(0.06")
4x ø2.1 mm (0.8")
4.6 mm
(0.18")
12.4 mm
(0.49")
ø2.0
(0.08")
16.7 mm
(0.66")
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
8.0 mm
(0.31")
2.5 mm
(0.10")
CL
2.5 mm
(0.10")
69
VS3 Sensors
VS3 Sensors
Miniature Self-Contained Sensors
• Extremely compact self-contained miniature sensor
• 10 to 30V dc operation
• Visible red sensing beam
• Choose opposed or retroreflective mode models
• Choose dark- or light-operate models
• Choose models with NPN (sinking) or PNP (sourcing) output
• 3-wire hookup; output load capacity to 50 mA
• Choice of integral cable or quick-disconnect connector
VS3 Sensing Mode Options
Opposed
Retroreflective
Visible red, 660 nm
VS3 Series Opposed Mode Emitter (E) and Receiver (R)
Models*
VS3KAN5V Sensor Pair
VS35EV Emitter
VS3AN5R Receiver
VS3KAN5VQ Sensor Pair
VS35EVQ Emitter
VS3AN5RQ Receiver
VS3KRN5V Sensor Pair
VS35EV Emitter
VS3RN5R Receiver
VS3KRN5VQ Sensor Pair
VS35EVQ Emitter
VS3RN5RQ Receiver
VS3KAP5V Sensor Pair
VS35EV Emitter
VS3AP5R Receiver
VS3KAP5VQ Sensor Pair
VS35EVQ Emitter
VS3AP5RQ Receiver
VS3KRP5V Sensor Pair
VS35EV Emitter
VS3RP5R Receiver
VS3KRP5VQ Sensor Pair
VS35EVQ Emitter
VS3RP5RQ Receiver
Range
Cable
Supply
Voltage
Output
Type
10 to
30V dc
NPN/
Light
Operate
NPN/
Light
Operate
NPN/
Dark
Operate
NPN/
Dark
Operate
PNP/
Light
Operate
PNP/
Light
Operate
PNP/
Dark
Operate
PNP/
Dark
Operate
2 m (6.5')
2 wires
3 wires
3-Pin Pico QD
2 m (6.5')
2 wires
3 wires
3-Pin Pico QD
1.2 m
(3.96')
2 m (6.5')
2 wires
3 wires
3-Pin Pico QD
2 m (6.5')
2 wires
3 wires
3-Pin Pico QD
Excess Gain
Beam Pattern
Effective Beam: 3 mm
1000
E
X
C
E
S
S
G
A
I
N
VS3 Series
VS3 Series
60 mm
2.40 in
Opposed Mode
100
40 mm
1.60 in
Opposed
Mode
20 mm
0
10
1
10 mm
0.4 in
100 mm
4 in
1000 mm
40 in
DISTANCE
10000 mm
400 in
0.80 in
0
20 mm
0.80 in
40 mm
1.60 in
60 mm
2.40 in
0
300 mm 600 mm 900 mm 1200 mm 1500 mm
12.0 in 24.0 in 36.0 in 48.0 in 60.0 in
DISTANCE
*NOTE: Sensors may be purchased in pairs, or individually.
70
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
VS3 Sensors
P
Coaxial optics eliminate “blind” area at close range.
Visible red, 680 nm
VS3 Series Retroreflective Mode Sensors
Models
Cable
Supply
Voltage
Output
Type
Excess Gain
Beam Pattern
Non-Polarized
1000
VS3AN5XLV
VS3AN5XLVQ
VS3RN5XLV
VS3RN5XLVQ
VS3AP5XLV
VS3AP5XLVQ
2 m (6.5')
3-Pin Pico QD
250 mm (10")
using
BRT32X20AM
retro target
(supplied)
2 m (6.5')
3-Pin Pico QD
2 m (6.5')
3-Pin Pico QD
VS3RP5XLV
VS3RP5XLVQ
NPN
Light Operate
10 to
30V dc
2 m (6.5')
3-Pin Pico QD
NPN
Dark Operate
PNP
Light Operate
E
X
C
E
S
S
VS3XLV
100
VS3XLV
15 mm
Retroreflective Mode
0.60 in
0.40 in
10 mm
Retroreflective
Mode
5 mm
0.20 in
0
0
G
A
I
N
10
5 mm
with BRT32X20AM
Reflector
1
1 mm
0.04 in
PNP
Dark Operate
10 mm
0.4 in
with BRT32X20AM
Reflector
10 mm
0
1000 mm
40 in
0.40 in
0.60 in
15 mm
100 mm
4 in
0.20 in
50 mm 100 mm 150 mm 200 mm 250 mm
2.0 in
4.0 in
6.0 in
8.0 in 10.0 in
DISTANCE
DISTANCE
Polarized
1000
VS3AN5XLP
VS3AN5XLPQ
VS3RN5XLP
VS3RN5XLPQ
VS3AP5XLP
VS3AP5XLPQ
2 m (6.5')
3-Pin Pico QD
250 mm (10")
using
BRT32X20AM
retro target
(supplied)
VS3RP5XLP
VS3RP5XLPQ
2 m (6.5')
3-Pin Pico QD
2 m (6.5')
3-Pin Pico QD
NPN
Light Operate
10 to
30V dc
NPN
Dark Operate
PNP
Light Operate
PNP
Dark Operate
2 m (6.5')
3-Pin Pico QD
E
X
C
E
S
S
G
A
I
N
VS3XLP
VS3XLP
15 mm
Polarized
Retroreflective
Mode
100
0.60 in
10 mm
0.40 in
Retroreflective
Mode
5 mm
0.20 in
0
0
5 mm
10
10 mm
with BRT32X20AM
Reflector
1
1 mm
0.04 in
10 mm
0.4 in
with BRT32X20AM
Reflector
15 mm
100 mm
4 in
0.40 in
0.60 in
0
1000 mm
40 in
0.20 in
50 mm 100 mm 150 mm 200 mm 250 mm
2.0 in
4.0 in
6.0 in
8.0 in 10.0 in
DISTANCE
DISTANCE
VS3 Series Sensor Dimensions
Opposed and Non-Polarized Retroreflective Modes
(model suffix R, EV and XLV)
Cabled Models
Quick-Disconnect Models
4.5 mm
(0.18")
16.4 mm
(0.65")
9 mm
(0.35")
15.6 mm
(0.61")
12.6 mm
(0.50")
With
Integral
Cable
ø3.2 mm
(0.13")
14.2 mm
(0.56")
25.4 mm
(1.00")
Cable Options
30 mm
(1.2")
35.2 mm
(1.39")
With
Right-angle
QD Cable
With
Straight
QD Cable
7.3 mm
(0.29")
Polarized Retroreflective Modes
(model suffix XLP)
4.5 mm
(0.18")
16.4 mm
(0.65")
9 mm
(0.35")
16.6 mm
(0.65")
13.6 mm
(0.54")
25.4 mm
(1.00")
ø3.2 mm
(0.13")
47 mm
(1.9")
14.2 mm
(0.56")
35.2 mm
(1.39")
75 mm
(3.0")
7.3 mm
(0.29")
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71
VS3 Sensors
VS3 Series Specifications
Supply Voltage and Current
10 to 30V dc (10% maximum ripple) at less than 25 mA (exclusive of load)
Supply Protection Circuitry
Protected against reverse polarity and transient voltages
Output Configuration
SPST solid-state switch
Choose NPN (current sinking) or PNP (current sourcing) models
Choose light operate (N.O.) or dark operate (N.C.) models
Output Rating
50 mA maximum
Off-state leakage current: < 1 microamp at 24V dc
On-state saturation voltage: < 0.25V at 10 mA dc; < 0.5V at 50 mA dc
Output Protection Circuitry
Protected against false pulse on power-up and continuous overload or short circuit of outputs
Overload trip point ≥ 100 mA
Output Response Time
Opposed: 1 millisecond ON and 0.5 millisecond OFF; Retroreflective: 1 millisecond ON and OFF
(NOTE: 100 microseconds (opposed mode) and 150 millisecond (convergent) delay maximum on powerup: output does not conduct during this time)
Repeatability
Opposed Mode: 100 microseconds
Retroreflective: 160 microseconds
Indicators
Two LEDs: Green and Yellow
GREEN ON steady
GREEN flashing
YELLOW ON steady
YELLOW flashing
=
=
=
=
power to sensor is ON
output overload
light is sensed
marginal excess gain (1-1.5x) in light condition (opposed mode only)
Construction
Opposed and Non-polarized Retroreflective Models: Black ABS housing with acrylic lens
Polarized Retroreflective Models: Black ABS housing with glass lens and acrylic cover
Environmental Rating
IEC IP67; NEMA 6
Connections
2 m (6.5') attached cable: #28 ga stranded conductors with PE insulation; PVC outer cable jacket; or 3-pin
Pico-style threaded quick-disconnect fitting. QD cables are ordered separately.
Operating Conditions
Temperature: -20° to +55°C (-4° to +131°F)
Maximum Relative Humidity: 80% at 50°C (non-condensing)
Vibration and
Mechanical Shock
Vibration: All models meet IEC 60068-2-6, IEC 60947-5-2, UL491 Section 40, MIL-STD-202F Method
201A; 10 to 60 Hz, 0.5 mm peak to peak
Shock: All models meet IEC 60068-2-27, IEC 60947-5-2; 30g peak acceleration, 11 millisecond pulse
duration, half-sine wave pulse shape
Application Notes
M3 stainless steel mounting hardware included. Optional mounting brackets are available (page 73).
Certifications
VS3 Series Sensor Hookups
Emitters
Cabled hookup
Sensors with NPN Outputs
Cabled hookup
bu
bu
–
10-30V dc
+
bn
Quick-Disconnect hookup
bu
bn
bk
72
–
10-30V dc
+
–
10 to 30 dc
+
bn
bk
Quick-Disconnect hookup
–
10-30V dc
+
bn
bk
Load
bn
+
10-30V dc
–
bu
bk
Load
bu
Sensors with PNP Outputs
Cabled hookup
Load
Quick-Disconnect hookup
bn
+
10-30V dc
–
bu
bk
Load
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
VS3 Accessories
Quick-Disconnect (QD) Cables
Following is the selection of cables available for VS3 QD models. See the Accessories section at back of catalog for more cable information.
Style
Model
Length
Connector
Used with:
3-Pin Pico
PKG3M-2
PKG3M-9
PKW3M-2
PKW3M-9
2 m (6.5')
9 m (30')
2 m (6.5')
9 m (30')
Straight
Straight
Right-angle
Right-angle
VS3 with QD fitting
Mounting Brackets
Model
Description
Dimensions
SMBVS3S
40°
• Right-angle bracket
• 300 series stainless steel
11.8 mm
(0.46")
13.5 mm
(0.53")
Ø13.5mm
(0.53")
4x 3.30 mm
(0.13")
5.0 mm
(0.20")
16.0 mm
(0.63")
.9 mm
(0.04")
16.0 mm
(0.63")
5.0 mm
(0.20")
23.5 mm
(0.93")
2x 3.2 mm
(0.13")
SMBVS3T
Ø13.5 mm
(0.53")
40°
6.0 mm
(0.24")
• Right-angle tall bracket
• 300 series stainless steel
7.0 mm
(0.28")
13.5 mm
(0.53")
3x 3.3 mm
(0.13")
51.6 mm
(2.03")
0.9 mm
(0.04")
13.5 mm
(0.53")
20.5 mm
(0.81")
18.0 mm
(0.71")
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
73
Q08 Sensors
Q08 Sensors
Low-Profile Infrared Sensors with Metal Housings
Q08 Diffuse Mode shown
•
Miniature right-angle dc photoelectric sensors in rugged diecast metal housings
•
Totally self-contained; 10 to 30V dc operation
•
Circuitry is completely sealed and epoxy-encapsulated; rated
IP67 and NEMA 6
•
Choose opposed or diffuse mode models
•
Choose models with NPN (sinking) or PNP (sourcing) output
•
Choose light operate or dark operate models
•
3-wire hookup; output load capacity to 150 milliamps
•
LED indicators for Power ON and Output ON; Output indicator
may be used for alignment
•
2 m (6.5') is standard integral cable length; 9 m (30') cable is
also available
•
Diffuse mode models with quick-disconnect have Pico-style
connector; mating cables are ordered separately
Q08 Sensing Mode Options
Opposed
Diffuse
Infrared, 880 nm
Q08 Opposed Mode Emitter (S) and Receiver (E)
Models
Range
Cable
Supply
Voltage
NPN/LO
EO60-Q08-AN6X
EO60-Q08-AP6X
Excess Gain
–
SO60-Q08
EO60-Q08-RN6X
Output
Type
510 mm
2 m (6.5')
(20")
10-30V dc
NPN/DO
PNP/LO
74
PNP/DO
Effective Beam: 6.4 mm
1000
E
X
C
E
S
S
Q08
Opposed Mode
Q08
150 mm
100
6"
Opposed Mode
100 mm
4"
50 mm
2"
0
G
A
I
N
10
0
50 mm
2"
100 mm
4"
150 mm
1
1 mm
0.04 in
EO60-Q08-RP6X
Beam Pattern
10 mm
0.4 in
100 mm
4.0 in
DISTANCE
1000 mm
40 in
6"
0
125 mm 250 mm 375 mm 500 mm 625 mm
5"
10"
15"
20"
25"
DISTANCE
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
Q08 Sensors
Infrared, 880 nm
Q08 Diffuse Mode
Models
Range
NO5-Q08-AN7
NO5-Q08-AN7-V1131
NO5-Q08-RN7
NO5-Q08-RN7-V1131
NO5-Q08-AP7
NO5-Q08-AP7-V1131
NO5-Q08-RP7
NO5-Q08-RP7-V1131
Cable
Supply
Voltage
2 m (6.5')
3-Pin Pico QD
2.5 mm
to
60 mm
(0.1"
to
2.4")
Output
Type
NPN/LO
2 m (6.5')
3-Pin Pico QD
NPN/DO
10-30V dc
2 m (6.5')
3-Pin Pico QD
2 m (6.5')
3-Pin Pico QD
Excess Gain
Beam Pattern
Performance based on 90% reflectance white test card
1000
E
X
C
E
S
S
Q08
Diffuse Mode
Q08
7.5 mm
100
.2 in
2.5 mm
.1 in
0
PNP/LO
PNP/DO
G
A
I
N
10
0
2.5 mm
.1 in
5.0 mm
.2 in
7.5 mm
1
1 mm
0.04 in
.3 in
Diffuse Mode
5.0 mm
10 mm
0.4 in
100 mm
4.0 in
DISTANCE
1000 mm
40 in
.3 in
0
12.5 mm 25.0 mm 37.5 mm 40.0 mm 52.5 mm
0.5 in
1.0 in
1.5 in
2.0 in
2.5 in
DISTANCE
For Q08 Sensors:
i) 9 m (30') cables are available by adding suffix “W/30” to the model number of any cabled sensor (e.g. - SO60-Q08 W/30)
ii) A model with a QD connector requires an accessory mating cable. See page 79 and the Accessories section for more information.
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
75
Q08 Sensors
Q08 Specifications
Supply Voltage and Current
Opposed: 10 to 30V dc at 50 mA total maximum; 30 mA for emitter, 20 mA for receiver (exclusive of load);
Diffuse: 10 to 30V dc at 25 mA
Both modes at 10% maximum ripple
Supply Protection Circuitry
Protected against reverse polarity and continuous overload or short circuit
Output Configuration
Solid-state dc output, with four output types available:
NPN sinking/light operate
PNP sourcing/light operate
NPN sinking/dark operate
PNP sourcing/dark operate
Opposed: Light operate outputs conduct when the receiver sees the emitter’s pulse-synchronized light source;
Dark operate outputs conduct when the receiver does not see the emitter’s pulse-synchronized source
Diffuse: Light operate outputs conduct when the sensor sees the reflection of its own modulated light source;
Dark operate outputs conduct when the sensor sees dark
Output Rating
150mA maximum, continuous
Off-state leakage current is 100 microamps at 30V dc
On-state saturation voltage is <200 millivolts at 10 mA dc and <1 volt at 150 mA dc
Output Protection Circuitry
Protected against false pulse on power-up
Output Response Time
1 millisecond ON and OFF independent of signal strength
Repeatability
200 microseconds (0.2 milliseconds), independent of signal strength
Indicators
Two LED indicators:
GREEN LED lights to indicate dc power “ON”
YELLOW LED (except opposed emitters) lights when sensor output is conducting (in “light” condition for
light operate models; in “dark” condition for dark operate models)
Construction
Black epoxy-painted die-cast zinc housing, polysulfone thermoplastic lens with two through-mounting holes
to accommodate M3 (#4) hardware
Environmental Rating
Meets NEMA standards 1, 2, 4, 6, 12 and 13; IEC IP67
Connections
PVC-jacketed 2 m (6.5') or 9 m (30') cable or 3-pin pico-style quick-disconnect (QD) fitting (diffuse
models) available. See page 79 and Accessories section. Cable is 4.0 mm (0.16") in diameter.
Operating Conditions
Temperature:
0° to 50° C (32° to +122°F)
Maximum relative humidity: 90% at 50°C (non-condensing)
Application Notes
Be aware that optimum mechanical alignment of Q08 emitter/receiver pairs may not always result in
optimum optical alignment. This may be a factor at longer sensing ranges. Once optimum mechanical
alignment has been achieved, optical alignment can often be optimized by tilting one unit (emitter or
receiver) up/down and right/left. Look for the center of the “movement zone” within which the receiver’s
output remains in the desired output state: “ON” for light operate units, and “OFF” for dark operate units.
Certifications
Quick-Disconnect (QD) Option
Q08 sensors are sold with either a 2 m (6.5') or a 9 m (30') attached PVC-covered cable. Q08 Diffuse mode sensors are also
available with a 3-pin pico-style QD cable fitting.
Q08 QD Diffuse sensors are identified by the letters “V1131” in their model number suffix. Mating cables for Q08 QD Diffuse sensors are
model PKG3-2 and PKW3-2. Cables are supplied in a standard length of 2 m (6.5'). For more information on QD cables, see page 79 and
the Accessories section.
76
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
Q08 Sensors
Q08 Hookup Diagrams
Opposed Mode NPN (Sinking) Receiver
Receiver
Emitter
bu
–
–
10-30V dc
+
+
bn
wh
bu
bn
Load
bk
bk
Tie black wires
together
Opposed Mode PNP (Sourcing) Receiver
Receiver
Emitter
bn
+
+
10-30V dc
–
–
bu
wh
bn
bu
Load
bk
bk
Tie black wires
together
Diffuse Mode Cabled Models NPN (Sinking)
bu
Diffuse Mode Cabled Models PNP (Sourcing)
bn
–
10 to 30 dc
+
bn
bk
bk
Load
Diffuse Mode QD Models NPN (Sinking)
(3-Pin Pico-Style)
bu
bk
Load
Diffuse Mode QD Models PNP (Sourcing)
(3-Pin Pico-Style)
bn
–
10-30V dc
+
bn
+
10-30V dc
–
bu
+
10-30V dc
–
bu
bk
Load
Load
3-Pin Pico-Style Pin-out
Black Wire
Blue Wire
Brown Wire
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77
Q08 Sensors
Q08 Dimensions
Q08 Opposed Mode Sensor with Attached Cable
8.0 mm (0.32")
9.0 mm
(0.35")
Beam emits
from mechanical center
of lens
32.0 mm
(1.26")
20.0 mm (0.79")
Output "ON" Indicator
(Yellow LED, receivers only)
Power "ON" Indicator
(Green LED)
3.00 mm (0.12")
ø 3.40 mm (0.134")
(2 Holes)
#4 (M3) Screw Clearance
2 m (6.5') Cable
13.00 mm (0.512")
Q08 Diffuse Mode Sensor with Attached Cable
Q08 Diffuse Mode Sensor with Quick-Disconnect
39.1 mm
(1.54")
3 pin Pico-Style
Quick-Disconnect
Q08 Diffuse Mode Sensor Optical Center
9.7 mm
(0.38")
7.7 mm
(0.30")
78
Optical
Center of
Beam
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
Q08 Accessories
Modifications
Example of Model
Number
Model Suffix
Modification
Description
W/30
9 m (30') cable
All Q08 sensors may be ordered with an integral 9 m (30') cable in
place of the standard 2 m (6.5') cable
S060-Q08 W/30
Quick-Disconnect (QD) Cables
Following is the selection of cables available for Q10 QD models. See the Accessories section at back of catalog for more cable information.
Style
Model
Length
Connector
Used with:
3-Pin Pico
PKG3-2
PKW3-2
2 m (6.5')
2 m (6.5')
Straight
Right-angle
Q08 with QD fitting
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79
Q10 Sensors
Q10 Sensors
Miniature Self-Contained dc Photoelectric Sensors
•
Self-contained dc sensors in miniature right-angle housings; only 10 mm
(0.4") thick
•
10 to 30V dc operation
•
Epoxy-encapsulated circuitry; leakproof IP67 (NEMA 6P) construction;
hermetically-sealed optics
•
1.8 m (70") opposed range or 0.5 m (20") diffuse range; diffuse models
have sensitivity adjustment
•
Choose models for light operate or dark operate; choose either NPN
(sinking) or PNP (sourcing) output models
•
Choice of integral cable or quick-disconnect connector
Q10 Sensing Mode Options
Opposed
Diffuse
Infrared, 880 nm
Q10 Opposed Mode Emitter (E) and Receiver (R)
Models
Range
Supply
Voltage
Cable
Q106E
Q106EQ
2 m (6.5')
3-Pin Pico QD
Q10AN6R
Q10AN6RQ
2 m (6.5')
3-Pin Pico QD
NPN/
PNP
L.O./
D.O.
–
–
1.8 m
(70")
2 m (6.5')
3-Pin Pico QD
Q10AP6R
Q10AP6RQ
2 m (6.5')
3-Pin Pico QD
Q10RP6R
Q10RP6RQ
2 m (6.5')
3-Pin Pico QD
Beam Pattern
Effective Beam: 5 mm
1000
Q10 Series
L.O.
NPN
Q10RN6R
Q10RN6RQ
Excess Gain
10-30V dc
D.O.
L.O.
PNP
E
X
C
E
S
S
Q10 Series
300 mm
Opposed Mode
100
12 in
Opposed Mode
200 mm
8 in
100 mm
4 in
0
0
G
A
I
N
10
100 mm
4 in
200 mm
8 in
12 in
300 mm
1
.01 m
.033 ft
.1 m
.33 ft
1m
3.3 ft
DISTANCE
10 m
33 ft
0
.5 m
20 in
1.0 m
40 in
1.5 m
60 in
2.0 m
80 in
2.5 m
100 in
DISTANCE
D.O.
For Q10 Sensors:
i) 9 m (30') cables are available by adding suffix “w/30” to the model number of any cabled sensor (e.g. Q10AN6R W/30).
ii) A model with a QD connector requires an accessory mating cable. See page 83 and the Accessories section for more information.
80
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
Q10 Sensors
Infrared, 880 nm
Q10 Diffuse Mode
Models
Range
Q10AN6D
Q10AN6DQ
Cable
Supply
Voltage
NPN/
PNP
2 m (6.5')
3-Pin Pico QD
L.O./
D.O.
L.O.
NPN
Q10RN6D
Q10RN6DQ
Q10AP6D
Q10AP6DQ
0.5 m
(20")
2 m (6.5')
3-Pin Pico QD
D.O.
10-30V dc
2 m (6.5')
3-Pin Pico QD
L.O.
2 m (6.5')
3-Pin Pico QD
Beam Pattern
Performance based on 90% reflectance white test card
1000
E
X
C
E
S
S
Q10 Series
Diffuse mode
Q10 Series
60 mm
100
2.4 in
Diffuse Mode
40 mm
1.6 in
20 mm
0.8 in
0
PNP
Q10RP6D
Q10RP6DQ
Excess Gain
G
A
I
N
10
1
1 mm
.04 in
D.O.
10 mm
.4 in
100 mm
4 in
1000 mm
40 in
0
20 mm
0.8 in
40 mm
1.6 in
60 mm
2.4 in
0
125 mm 250 mm 375 mm 500 mm 625 mm
5 in
10 in
15 in
20 in
25 in
DISTANCE
DISTANCE
Q10 Dimensions
Q10 Opposed Mode with Attached Cable
10.0 mm
(0.39")
Yellow LED
Signal Indicator
(Receiver, Only)
21.6 mm
(0.85")
Green LED
Power Indicator
Gain
(Sensitivity)
Adjustment
2X Clearance
for M2.5 Screw
14.5 mm
(0.57")
Yellow LED
Signal Indicator
35.0 mm
(1.38")
22.0mm
(0.87")
2.8 mm
(0.11")
15.2 mm
(0.60")
10.0 mm
(0.39")
Q10 Diffuse Mode with Attached Cable
2.8 mm
(0.11")
20.0 mm
(0.79")
Q10 Opposed Mode with Quick-Disconnect
Q10 Diffuse Mode with Quick-Disconnect
42.4 mm
(1.67")
28.9 mm
(1.14")
NOTE: M2.5 mounting hardware is supplied with all models
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81
Q10 Sensors
Q10 Specifications
Supply Voltage and Current
10 to 30V dc (10% maximum ripple); Emitter or receiver: 15 mA; Diffuse models: 20 mA
(exclusive of load)
Supply Protection Circuitry
Protected against reverse polarity
Output Configuration
SPST solid-state dc switch;
Choose NPN (current sinking) or PNP (current sourcing) models
Choose light operate (N.O.) or dark operate (N.C.) models
Output Rating
150 mA maximum
Off-state leakage current: <10 microamps at 30V dc;
On-state saturation voltage: <0.5V at 10 mA dc; <1.0V at 150 mA dc
Output Protection Circuitry
Protected against false pulse on power-up and continuous overload or short circuit of outputs
Overload trip point ≥220 mA, typical, at 20ºC
Output Response Time
Opposed mode: 8 ms "ON", 4 ms “OFF”; Diffuse mode: 3 ms “ON” and “OFF”
Repeatability
Opposed mode: 1.0 ms; Diffuse mode: 0.75 ms
Adjustments
Diffuse models (only); single-turn, top-mounted SENSITIVITY control for adjustment of system gain
(turn clockwise to increase)
Indicators
Two LEDs: Green and Yellow
GREEN glowing steadily = power to sensor is “ON”
GREEN flashing
= output is overloaded
YELLOW glowing steadily = light is sensed
YELLOW flashing
= marginal excess gain (1-1.5x) in light condition
Emitter: One GREED LED indicates power to sensor is “ON”
Construction
Housings are black ABS; Rated UL 94V0
Lenses are hermetically-sealed glass
Circuitry is epoxy-encapsulated and completely sealed
Stainless steel M2.5 mounting hardware is included
Environmental Rating
IP67 (NEMA 6P)
Connections
2 m (6.5') or 9 m (30') attached cable, or 3-pin pico-style quick-disconnect fitting. QD cables are ordered
separately. See page 83 and Accessories section.
Operating Conditions
Temperature:
-40° to +70°C (-40° to 158°F)
Maximum Relative Humidity: 90% at 50°C (non-condensing)
Certifications
Q10 Hookup Diagrams
Cabled Emitters
bn
bu
Quick-Disconnect Emitters
+
10-30V dc
-
bn
bu
bk
+
10-30V dc
–
Quick-Disconnect (QD) Option
Q10 sensors are sold with either a 2 m (6.5') or a 9 m (30') attached PVC-covered cable or with a 3-pin pico-style QD cable fitting.
Q10 QD sensors are identified by the letter “Q” in their model number suffix. Mating cables for QD Q10 sensors are models PKG3-2
(straight connector) and PKW3-2 (right-angle connector). Cables are supplied in a standard length of 2 m (6.5'). For more information on
QD cables, see page 83 and the Accessories section.
82
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
Q10 Sensors
Q10 DC Hookup Diagrams
Sensors with NPN Outputs
Cabled Hookup
bu
bn
bk
Sensors with PNP Outputs
Cabled Hookup
–
10-30V dc
+
+
10-30V dc
–
bn
bu
bk
Load
Load
Quick-Disconnect Hookup
Quick-Disconnect Hookup
+
bn
10-30V dc
bu
–
bk Load
bu
–
10-30V dc
bn
+
bk Load
3-Pin Pico-Style Pin-out
(Cable Connector Shown)
Black Wire
Blue Wire
Brown Wire
Accessories
Modifications
Model Suffix
Modification
W/30
9 m (30') cable
Description
Q10 sensors may be ordered with an integral 9 m (30') cable in
place of the standard 2 m (6.5') cable
Example of Model
Number
Q10AN6R W/30
Quick-Disconnect (QD) Cables
Following is the selection of cables available for Q10 QD models. See the Accessories section at back of catalog for more cable information.
Style
Model
Length
Connector
Used with:
3-Pin Pico
PKG3-2
PKW3-2
2 m (6.5')
2 m (6.5')
Straight
Right-angle
Q10 with QD fitting
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83
Q14 Sensors
Q14 Sensors
Miniature Right-Angle Self-Contained dc Sensors
•
Self-contained dc sensors in miniature right-angle housings
•
10 to 30V dc operation
•
IP54; NEMA 4 construction; hermetically-sealed optics
•
1.8 m (70") opposed range
•
Choose models for light operate or dark operate; choose
either NPN (sinking) or PNP (sourcing) output models
•
Choice of integral cable or pigtail quick-disconnect connector
•
Mounting bracket is included
Q14 Sensing Mode Options
Opposed
Infrared, 880 nm
Q14 Opposed Mode Emitter (E) and Receiver (R)
Model
Q146E
Q146EQ
Range
Supply
Voltage
Cable
2 m (6.5')
3-Pin Pigtail Pico QD
NPN/ L.O./
PNP D.O.
—
Excess Gain
Beam Pattern
—
Effective Beam: 5 mm
1000
Q14 Series
Q14AN6R
Q14AN6RQ
Q14RN6R
Q14RN6RQ
Q14AP6R
Q14AP6RQ
Q14RP6R
Q14RP6RQ
2 m (6.5')
3-Pin Pigtail Pico QD
1.8 m
2 m (6.5')
10-30V dc
(70") 3-Pin Pigtail Pico QD
2 m (6.5')
3-Pin Pigtail Pico QD
2 m (6.5')
3-Pin Pigtail Pico QD
L.O.
NPN
D.O.
L.O.
E
X
C
E
S
S
D.O.
12 in
Opposed Mode
200 mm
8 in
100 mm
4 in
0
G
A
I
N
10
0
100 mm
4 in
200 mm
8 in
300 mm
1
.01 m
.033 ft
PNP
Q14 Series
300 mm
Opposed Mode
100
.1 m
.33 ft
1m
3.3 ft
DISTANCE
10 m
33 ft
12 in
0
.5 m
20 in
1.0 m
40 in
1.5 m
60 in
2.0 m
80 in
2.5 m
100 in
DISTANCE
For Q14 Sensors:
i) 9 m (30') cables are available by adding suffix “w/30” to the model number of any cabled sensor (e.g. Q14AN6R W/30).
ii) A model with a QD connector requires an accessory mating cable. See page 88 and the Accessories section for more information.
84
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
Q14 Sensors
Q14 Specifications
Supply Voltage and Current
10 to 30V dc (10% maximum ripple); Emitter: 15 mA; Receiver: 15 mA (exclusive of load)
Supply Protection Circuitry
Protected against reverse polarity
Output Configuration
SPST solid-state dc switch;
Choose NPN (current sinking) or PNP (current sourcing) models
Choose light operate (N.O.) or dark operate (N.C.) models
Output Rating
150 mA maximum
Off-state leakage current: <10 microamps at 30V dc;
On-state saturation voltage: <0.5V at 10 mA dc; <1.0V at 150 mA dc
Output Protection Circuitry
Protected against false pulse on power-up and continuous overload or short circuit of outputs
Overload trip point ≥220 mA, typical, at 20ºC
Output Response Time
8 ms “ON”, 4 ms “OFF”
Repeatability
1.0 ms
Indicators
Receiver has two LEDs: Green and Yellow
GREEN glowing steadily = power to sensor is “ON”
GREEN flashing
= output is overloaded
YELLOW glowing steadily = light is sensed
YELLOW flashing
= marginal excess gain (1-1.5x) in light condition
Emitter: One GREEN LED indicates power to sensor is “on”
Construction
Housings are black ABS; Rated UL 94V0
Lenses are hermetically-sealed glass
Stainless steel M3 mounting hardware is included; Stainless steel mounting bracket is included
Environmental Rating
IP54; NEMA 4
Connections
2 m (6.5') or 9 m (30') attached cable, or 3-pin pigtail pico-style quick-disconnect fitting. QD cables are
ordered separately. See page 88 and the Accessories section.
Operating Conditions
Temperature:
-20° to +55°C (-5° to 131°F)
Maximum Relative Humidity: 90% at 50ºC (non-condensing)
Certifications
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85
Q14 Sensors
Q14 Hookup Diagrams
Sensors with NPN Outputs
Cabled Hookup
bu
bn
bk
Sensors with PNP Outputs
Cabled Hookup
Load
bu
–
10-30V dc
bn
+
bk Load
+
bn
10-30V dc
bu
–
bk Load
Cabled Emitters
bu
Load
Quick-Disconnect Hookup
Quick-Disconnect Hookup
bn
+
10-30V dc
–
bn
bu
bk
–
10-30V dc
+
Quick-Disconnect Emitters
bn
bu
bk
+
10-30V dc
-
+
10-30V dc
–
3-Pin Pico-Style Pin-out
(Cable Connector Shown)
Black Wire
Blue Wire
Brown Wire
Quick-Disconnect (QD) Option
Q14 sensors are sold with either a 2 m (6.5') or 9 m (30') attached PVC-covered cable or a 3-pin pico-style QD cable fitting.
Q14 QD sensors are identified by the letter “Q” in their model number suffix. Mating cables for QD Q14 sensors are models PKG3-2
(straight connector) and PKW3-2 (right-angle connector). Cables are supplied in a standard length of 2 m (6.5'). For more information
on QD cables, see page 88 and the Accessories section.
86
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Q14 Sensors
Q14 Dimensions
Cabled Models
1.0 mm
(0.04")
Quick-Disconnect Models
7.5 mm
(0.30")
2 x M3 (#4)
Screw Clearance
30.0 mm
(1.18")
23.0 mm
(0.91")
21.2 mm
(0.84")
3.0 mm
(0.12")
14.0 mm
(0.55")
3.0 mm
(0.12")
150.0 mm (6.0") Pigtail
Mounting Bracket (included)
2 x R 1.7 mm (0.07")
Mounting Orientation
30.0 mm
(1.18")
3.5 mm
(0.14")
5.6 mm (0.22")
R 20.0 mm (0.79")
Screws are:
M3 x 0.5 x 20 mm
Hardware (Included)
4.1 mm (0.16")
10.0 mm(0.39")
6.0 mm
(0.24")
18.0 mm
(0.71")
R 3.0 mm (0.12")
(4 Places)
1.0 mm (0.04")
4 x R 23.0 mm
(0.91")
4 x ø 3.2 mm
(0.126")
10 x R 1.60 mm
(0.63")
2 x 3.5 mm
(0.14")
19.5 mm
(0.77")
27.6 mm
(1.09")
35.1 mm
(1.3 8")
38.6 mm
(1.52")
9.1 mm (0.36")
2 x 2.0 mm (0.08")
2 x 4.1 mm (0.16")
14.0 mm
(0.55")
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87
Q14 Accessories
Modifications
Example of Model
Number
Model Suffix
Modification
Description
W/30
9 m (30') cable
All Q14 sensors may be ordered with an integral 9 m (30') cable in
place of the standard 2 m (6.5') cable
Q14AN6R W/30
Quick-Disconnect (QD) Cables
Following is the selection of cables available for Q10 QD models. See the Accessories section at back of catalog for more cable information.
Style
Model
Length
Connector
Used with:
3-Pin Pico
PKG3-2
2 m (6.5')
Straight
Q14 with QD fitting
Mounting Brackets
Model
Description
Dimensions
CL
SMB46L
6 mm
(0.2")
6 mm
(0.2")
5 mm (0.2")
(2x)
15 mm
(0.6")
8 mm
(0.3")
ø 36 mm (1.4")
ø 6.5 mm (0.26") (6x)
16 mm
(0.6")
• “L” bracket
• 14-gauge 316 stainless steel
65 mm
(2.6")
54 mm
(2.1")
88
2 mm
(.1")
27 mm
(1.1")
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Q14 Accessories
Mounting Brackets
Model
Description
Dimensions
SMB46S
10 mm
(0.4")
34 mm
(1.3")
CL
17 mm
(0.7")
3.5 mm
(0.14")
6 mm
(0.2")
6 mm
(0.2")
5 mm (0.2")
(4x)
• “S” bracket
• 14-gauge 316 stainless steel
15 mm
(0.6")
8 mm
(0.3") 16 mm
(0.6")
ø36 mm (1.4")
ø6.5 mm (0.26") (6x)
65 mm
(2.6")
2 mm
(.1")
54 mm
(2.1")
SMB46U
27 mm
(1.1")
16 mm
(0.6")
34 mm
(1.3")
CL
17 mm
(0.7")
13 mm
(0.5")
3.5 mm
(0.14")
6 mm
(0.2")
• “U” bracket
• 14-gauge 316 stainless steel
6 mm
(0.2")
5 mm (0.2")
(4x)
15 mm
(0.6")
8 mm
(0.3") 16 mm
(0.6")
ø 36 mm (1.4")
ø 6.5 mm (0.26") (6x)
16 mm
(0.6")
65 mm
(2.6")
54 mm
(2.1")
2 mm
(.1")
27 mm
(1.1")
70 mm
(2.8")
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89
MINI-BEAM®2 Sensors
MINI-BEAM® 2 Sensors
Miniature Photoelectric Sensors
•
Designed after the popular MINI-BEAM®, but only onethird the size of the original†.
• 12 mm threaded barrel on most models.
• Uses advanced miniaturized microprocessor-based
circuitry.
• Simple setup, using digital push-button sensitivity
adjustment.
• Available for opposed, retroreflective, diffuse, and
convergent sensing modes.
• 10 to 30V dc operation.
• Complementary outputs (one normally open and one
normally closed), each with 150 mA switching capacity.
• IP67 and NEMA 6 environmental ratings.
• Wraparound status indicators.
• Models with either integral, unterminated cable or
150 mm (6") pigtail with 4-pin Pico-style connector.
†
Patents issued and pending
MINI-BEAM2 Sensing Mode Options
Opposed
Retroreflective
Convergent
Diffuse
Visible red, 660 nm
MINI-BEAM2 Opposed Mode Emitter (E) and Receiver (R)
Models
Range
QS126E
QS12VN6R
Cable*
Supply
Voltage
Output
Type
QS126EQ
QS12VN6RQ
Effective Beam: 5 mm
4-pin Pico-style
Pigtail QD
4m
(13')
10-30V dc
1000
E
X
C
E
S
S
G
A
I
N
2 m (6.5')
QS12
QS12
Opposed Mode
100
Opposed Mode
120 mm
4.5 in
80 mm
3.0 in
40 mm
1.5 in
0
10
0
40 mm
1.5 in
80 mm
3.0 in
120 mm
4.5 in
0
1
PNP
(sourcing)
QS126EQ
QS12VP6RQ
Beam Pattern
2 m (6.5')
NPN
(sinking)
QS126E
QS12VP6R
Excess Gain
0.01 m
0.033 ft
0.1 m
0.33 ft
1m
3.3 ft
10 m
33 ft
1m
3.3 ft
2m
6.6 ft
3m
9.9 ft
4m
13.2 ft
5m
16.5 ft
DISTANCE
DISTANCE
4-pin Pico-style
Pigtail QD
* 9 m (30') cables are available by adding suffix “W/30” to the model number of any cabled sensor (e.g., QS12VP6R W/30). A model with
a pigtail QD requires a mating cable (see page 94).
90
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MINI-BEAM®2 Sensors
P
LV: Visible red, 660 nm
LP: Visible red, 680 nm
MINI-BEAM2 Retroreflective Mode Sensors
Models
Range**
Supply
Voltage
Cable*
Excess Gain
Output
Type
Performance based on BRT-50 retroreflector
Retroreflective
QS12VN6LV
QS12VN6LVQ
QS12VP6LV
1000
2 m (6.5')
2m
(6.5')
4-pin Pico-style
Pigtail QD
NPN
(sinking)
2 m (6.5')
QS12VN6LPQ
QS12VP6LP
1m
(3')
NPN
(sinking)
10-30V dc
2 m (6.5')
PNP
(sourcing)
4-pin Pico-style
Pigtail QD
QS12VP6LPQ
100
QS12
Non-Polarized Retro
60 mm
2.25 in
40 mm
1.50 in
20 mm
0.75 in
0
0
10
20 mm
0.75 in
40 mm
1.50 in
2.25 in
60 mm
1
0.01 m
0.033 ft
0.1 m
0.33 ft
1m
3.3 ft
0
10 m
33 ft
0.5 m
1.7 ft
1.0 m
3.3 ft
1.5 m
5.0 ft
2.0 m
6.6 ft
2.5 m
8.3 ft
DISTANCE
DISTANCE
1000
2 m (6.5')
4-pin Pico-style
Pigtail QD
Non-Polarized
Retroreflective Mode
PNP
(sourcing)
Polarized Retroreflective
QS12VN6LP
QS12
E
X
C
E
S
S
G
A
I
N
10-30V dc
4-pin Pico-style
Pigtail QD
QS12VP6LVQ
Beam Pattern
E
X
C
E
S
S
G
A
I
N
QS12
QS12
Polarized
Retroreflective Mode
100
Polarized Retro
60 mm
2.25 in
40 mm
1.50 in
20 mm
0.75 in
0
10
0
20 mm
0.75 in
40 mm
1.50 in
60 mm
1
2.25 in
0
0.01 m
0.033 ft
0.1 m
0.33 ft
1m
3.3 ft
10 m
33 ft
0.5 m
1.7 ft
1.0 m
3.3 ft
1.5 m
5.0 ft
2.0 m
6.6 ft
2.5 m
8.3 ft
DISTANCE
DISTANCE
** Range specifications for retroreflective sensors are largely dependent on target size and design. See Accessories section for more
information on reflectors.
Visible red, 660 nm
MINI-BEAM2 Convergent Mode Sensors
Models
Focus
QS12VN6CV10
QS12VN6CV10Q
QS12VP6CV10
Cable*
Supply
Voltage
Spot Size
at Focus:
1 mm
(0.04")
NPN
(sinking)
4-pin Pico-style
Pigtail QD
10-30V dc
2 m (6.5')
QS12VP6CV10Q
4-pin Pico-style
Pigtail QD
QS12VN6CV20
2 m (6.5')
Beam Pattern
Convergent-mode performance based on 90% reflectance white test card
1000
2 m (6.5')
10 mm
(0.4")
Excess Gain
Output
Type
PNP
(sourcing)
E
X
C
E
S
S
G
A
I
N
QS12CV10
QS12CV10
Convergent Mode
Convergent Mode
3 mm
100
0.12 in
2 mm
0.08 in
1 mm
0.04 in
0
10
0
1 mm
0.04 in
2 mm
0.08 in
3 mm
0.12 in
1
1 mm
0.04 in
10 mm
0.40 in
100 mm
4.0 in
0
1000 mm
40.0 in
5 mm
0.2 in
10 mm
0.4 in
15 mm
.06 in
20 mm
.08 in
25 mm
1.0 in
DISTANCE
DISTANCE
1000
QS12VN6CV20Q
QS12VP6CV20
QS12VP6CV20Q
20 mm
(0.8")
4-pin Pico-style
Pigtail QD
Spot Size
at Focus:
2 m (6.5')
1.75 mm
(0.07")
4-pin Pico-style
Pigtail QD
NPN
(sinking)
10-30V dc
PNP
(sourcing)
E
X
C
E
S
S
G
A
I
N
QS12CV20
QS12CV20
Convergent Mode
Convergent Mode
30 mm
100
1.2 in
20 mm
0.8 in
10 mm
0.4 in
0
10
0
10 mm
0.4 in
20 mm
0.8 in
30 mm
1.2 in
1
1 mm
0.04 in
10 mm
0.40 in
100 mm
4.0 in
DISTANCE
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
1000 mm
40.0 in
0
10 mm
0.4 in
20 mm
0.8 in
30 mm
1.2 in
40 mm
1.6 in
50 mm
2.0 in
DISTANCE
91
MINI-BEAM®2 Sensors
D Models
D, DBZ: Visible red, 680 nm
W: Visible red, 660 nm
DBZ & W Models
MINI-BEAM2 Diffuse Mode Sensors
Models
Range
Supply
Voltage
Cable*
Output
Type
Excess Gain
Diffuse
QS12VN6D
QS12VN6DQ
QS12VP6D
1000
2 m (6.5')
200 mm
(8")
4-pin Pico-style
Pigtail QD
NPN
(sinking)
2 m (6.5')
E
X
C
E
S
S
G
A
I
N
10-30V dc
PNP
(sourcing)
4-pin Pico-style
Pigtail QD
QS12VP6DQ
QS12VN6DBZQ
QS12VP6DBZ
200 mm
(8")
10-30V dc
2 m (6.5')
PNP
(sourcing)
QS12VN6WQ
QS12VP6W
QS12VP6WQ
50 mm
(2")
2 m (6.5')
4-pin Pico-style
Pigtail QD
0.4 in
10
0
10 mm
0.4 in
20 mm
0.8 in
30 mm
1.2 in
10 mm
0.40 in
100 mm
4.0 in
0
1000 mm
40.0 in
50 mm 100 mm 150 mm 200 mm 250 mm
2 in
4 in
6 in
8 in
10 in
DISTANCE
E
X
C
E
S
S
G
A
I
N
QS12DBZ
QS12DBZ
Diffuse Mode
Diffuse Mode
30 mm
100
1.2 in
20 mm
0.8 in
10 mm
0.4 in
0
10
0
10 mm
0.4 in
20 mm
0.8 in
30 mm
1.2 in
1
1 mm
0.04 in
10 mm
0.40 in
100 mm
4.0 in
0
1000 mm
40.0 in
50 mm 100 mm 150 mm 200 mm 250 mm
2 in
4 in
6 in
8 in
10 in
DISTANCE
DISTANCE
2 m (6.5')
4-pin Pico-style
Pigtail QD
0.8 in
10 mm
0
1 mm
0.04 in
Divergent (Wide-Angle) Diffuse
QS12VN6W
1.2 in
20 mm
1000
NPN
(sinking)
4-pin Pico-style
Pigtail QD
QS12VP6DBZQ
100
QS12D
Diffuse Mode
30 mm
DISTANCE
2 m (6.5')
4-pin Pico-style
Pigtail QD
QS12D
Diffuse Mode
1
Diffuse (Flush-Front Profile)
QS12VN6DBZ
Beam Pattern
Diffuse mode performance based on 90% reflectance white test card
1000
NPN
(sinking)
10-30V dc
PNP
(sourcing)
E
X
C
E
S
S
G
A
I
N
QS12W
Divergent
Diffuse Mode
100
QS12W
Divergent
Diffuse Mode
30 mm
1.2 in
20 mm
0.8 in
10 mm
0.4 in
0
10
0
10 mm
0.4 in
20 mm
0.8 in
30 mm
1.2 in
1
1 mm
0.04 in
10 mm
0.40 in
100 mm
4.0 in
DISTANCE
1000 mm
40.0 in
0
20 mm
0.8 in
40 mm
1.6 in
60 mm
2.4 in
80 mm 100 mm
3.2 in
4.0 in
DISTANCE
* 9 m (30') cables are available by adding suffix “W/30” to the model number of any cabled sensor (e.g., QS12VN6W W/30). A model with
a pigtail QD requires a mating cable (see page 94).
92
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
MINI-BEAM®2 Sensors
MINI-BEAM2 Specifications
Supply Voltage
10 to 30V dc (10% maximum ripple) at less than 25 mA, exclusive of load
Supply Protection Circuitry
Protected against reverse polarity and transient voltages
Output Configuration
Solid state complementary (SPDT): NPN or PNP (current sinking or sourcing) output models available
Output Rating
150 mA maximum each output at 25°C
OFF-state leakage current: less than 10 µA @ 30V dc
ON-state saturation voltage: less than 1V @ 10 mA; less than 2.0V @ 150 mA
Output Protection Circuitry
Protected against false pulse on power-up and continuous overload or short circuit of outputs
Output Response
Opposed Mode: 8 milliseconds ON, 4 milliseconds OFF
All others: 1.5 milliseconds
NOTE: 500 millisecond delay on power-up, outputs do not conduct during this time
Repeatability
Opposed Mode: 1 millisecond
All others: 175 microseconds
Adjustments
One rubber-sealed push button
Hold: Maximum gain
Click: Reduce gain one increment
Indicators
2 LEDs, visible from back and sides of sensor: 1 green, 1 amber
Green steady: Power ON
Amber steady: Light sensed
Green flashing rapidly 5 times: Maximum gain
Single green flash: Click registered, gain reduced by one increment
Amber/Green alternating: Minimum gain (can not reduce further)
Construction
Black polycarbonate/ABS alloy housing; totally encapsulated circuitry
Environmental Rating
IEC IP67; NEMA 6
Connections
2 m (6.5') 4-wire PVC cable, 9 m (30') PVC cable, or 4-pin Pico-style 150 mm (6") pigtail QD
Operating Conditions
Temperature: -20° to +55° C (-4° to +131° F)
Relative Humidity: 90% @ 50° C (non-condensing)
Certifications
MINI-BEAM2 Hookups
Sensors with
NPN (Sinking) Outputs
bu
bn
bk
wh
Sensors with
PNP (Sourcing) Outputs
bn
bu
bk
wh
-
10-30V dc
+
Load
Load
4-Pin Pico-Style Pin-out
(Cable Connector Shown)
+
10-30V dc
Black Wire
White Wire
Blue Wire
Brown Wire
-
Load
Load
NOTE: Hookups are the same for either an integral or QD cable.
DC Emitters with Attached Cable
DC Emitters with Quick-Disconnect
(4 Pin Pico-Style)
bn
bn
bu
+
10-30V dc
–
bu
+
10-30V dc
–
wh
bk
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
93
MINI-BEAM®2 Sensors
MINI-BEAM2 Dimensions
Retroreflective and Diffuse Modes
(Model suffix D, LV and LP)
8.0 mm
(0.31")
Divergent Diffuse Modes
(Model suffix DBZ and W)
Emitter, Receiver, Convergent
(Model suffix E, R, and CV)
25.0 mm
(0.98")
35.0 mm
22.0 mm (1.38")
(0.87")
36.8 mm
(1.45")
M12 x 1 Thread
Hex Nut Supplied
3 mm
(0.12")
3 mm
(0.12")
3.0 mm
(0.12")
20.0 mm
(0.79")
2x ø3.2 mm
(0.13")
3 mm
(0.12")
14.0 mm
(0.55")
14.8 mm
(0.58")
14.0 mm
(0.55")
13.0 mm
(0.51")
Accessories
Quick-Disconnect (QD) Cables
Style
4-Pin Pico
Model
PKG4-2
Length
2 m (6.5')
Connector
Straight
For use with
All MINI-BEAM2 sensors with pigtail QD
Retroreflective Targets
Banner offers a wide selection of high-quality retroreflective targets. See Accessories section for complete information.
94
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
MINI-BEAM®2 Accessories
Mounting Brackets
Model
Description
SMBQS12PD
Dimensions
R14.0 (0.55")
30.0°
• Right-angle bracket, 12 mm
nose-mount
• 300 series stainless steel,
16 ga.
ø3.5 mm
(0.14")
23.0 mm
(0.91")
ø13 mm
(0.51")
Full R
27.0 mm
(1.06")
1.5 mm
(0.06")
16.0 mm
(0.63")
11.0 mm
(0.43")
27.0 mm
(1.06")
22.0 mm
(0.87")
SMBQS12S
R14.0 (0.55")
30.0°
• Right-angle bracket, sidemount
• 300 series stainless steel,
16 ga.
ø3.5 mm
(0.14")
23.0 mm
(0.91")
7.0 mm
(0.28")
4 x R1.75
(0.07")
1.5 mm
(0.06")
16.0 mm
(0.63")
27.0 mm
(1.06")
30.0°
11.0 mm
(0.43")
ø14.0 mm
(0.55")
22.0 mm
(0.87")
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
95
Q23 Sensors
Q23 & QH23 Sensors
Miniature Photoelectric Sensors
•
10 to 30V dc operation
•
Choose NPN (sinking) or PNP (sourcing) models; outputs
are short circuit protected and rated for up to 150 milliamp
load
•
LED indications for Power ON, Output Status (including
overload condition), Alignment and Marginal Signal
•
2 m (6.5') integral cable length is standard; 9 m (30')
cable is also available
•
Models with quick-disconnect have 150 mm (6") picostyle pigtail connector; mating cables are ordered
separately
•
Stainless steel right-angle mounting bracket and hardware
are included (see pages 102 and 103)
Q23 & QH23 Sensing Mode Options
P
Opposed
Q23
Retroreflective
Polarized
Diffuse
Convergent
Plastic Fiber Optic
QH23
Visible red, 680 nm
Q23 & QH23 Opposed Mode Emitter (E) and Receiver (R)
Models
Range
Q236E
QH236E
Q236EQ
QH236EQ
Q23SN6R
QH23SN6R
Q23SN6RQ
QH23SN6RQ
Q23SP6R
QH23SP6R
Q23SP6RQ
QH23SP6RQ
96
Supply
Voltage
Cable
2 m (6.5')
2 m (6.5')
4-Pin Pico Pigtail QD
4-Pin Pico Pigtail QD
8m
(26')
Output
Type
Beam Pattern
Effective Beam: 5.3 mm
–
1000
Comple2 m (6.5')
mentary
2 m (6.5')
4-Pin Pico Pigtail QD 10-30V dc Solid-state
NPN
4-Pin Pico Pigtail QD
2 m (6.5')
2 m (6.5')
4-Pin Pico Pigtail QD
4-Pin Pico Pigtail QD
Excess Gain
Complementary
Solid-state
PNP
E
X
C
E
S
S
Q23/QH23
Q23/QH23
Opposed Mode
600 mm
24 in
Opposed Mode
100
400 mm
16 in
200 mm
8 in
0
G
A
I
N
10
0
200 mm
8 in
400 mm
16 in
600 mm
1
0.1 m
0.33 ft
1.0 m
3.3 ft
10 m
33 ft
DISTANCE
100 m
330 ft
24 in
0
2m
6.5 ft
4m
13 ft
6m
19.5 ft
8m
26 ft
10 m
32.5 ft
DISTANCE
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
Q23 Sensors
P
Visible red, 680 nm
NOTE: Retroreflective range is specified using one model BRT-3 retroreflector
(3" diameter). Actual sensing range may be more or less than specified,
depending upon the efficiency and reflective area of the retroreflector(s) in use.
See page 722 for more information.
QH23
Q23
Q23 & QH23 Polarized Retroreflective Mode
Models
Q23SN6LP
QH23SN6LP
Q23SN6LPQ
QH23SN6LPQ
Q23SP6LP
QH23SP6LP
Q23SP6LPQ
QH23SP6LPQ
Range
Cable
Supply
Voltage
Output
Type
Comple2 m (6.5')
mentary
2 m (6.5')
Solid-state
100 mm 4-Pin Pico Pigtail QD
NPN
4-Pin Pico Pigtail QD
to
2m
10-30V dc
(4 to
Comple2 m (6.5')
80")
mentary
2 m (6.5')
Solid-state
4-Pin Pico Pigtail QD
PNP
4-Pin Pico Pigtail QD
Excess Gain
Beam Pattern
1000
E
X
C
E
S
S
Q23/QH23LP
Retroreflective Mode
Q23/QH23
75 mm
100
2 in
1 in
25 mm
with BRT-3 Reflector
0
G
A
I
N
3 in
Retroreflective Mode
50 mm
10
1
0.01 m
0.033 ft
0.1 m
0.33 ft
1m
3.3 ft
10 m
33 ft
0
with BRT-3 Reflector
25 mm
1 in
50 mm
2 in
75 mm
3 in
0
.5 m
1.6 ft
1m
3.3 ft
1.5 m
4.9 ft
2m
6.5 ft
2.5 m
8.2 ft
DISTANCE
DISTANCE
QH23
Visible red, 680 nm
Q23
Q23 & QH23 Diffuse Mode
Models
Range
Cable
Supply
Voltage
Output
Type
Excess Gain
Short Range
Q23SN6D
QH23SN6D
Q23SN6DQ
QH23SN6DQ
1000
2 m (6.5')
Optimum:
2 m (6.5')
2 - 50 mm 4-Pin Pico Pigtail QD
(.1 - 2") 4-Pin Pico Pigtail QD
Complementary
Solid-state
NPN
10-30V dc
Q23SP6D
QH23SP6D
Q23SP6DQ
QH23SP6DQ
2 m (6.5')
Maximum:
2 m (6.5')
200 mm
4-Pin Pico Pigtail QD
(8")
4-Pin Pico Pigtail QD
Complementary
Solid-state
PNP
E
X
C
E
S
S
Q23SP6DL
QH23SP6DL
Q23SP6DLQ
QH23SP6DLQ
Optimum:
2 m (6.5')
Comple30 to
2 m (6.5')
mentary
300 mm 4-Pin Pico Pigtail QD
Solid-state
(1.2 to 4-Pin Pico Pigtail QD
NPN
10-30V dc
12")
2 m (6.5')
Comple2 m (6.5')
mentary
Maximum:
Solid-state
800 mm 4-Pin Pico Pigtail QD
4-Pin Pico Pigtail QD
PNP
(32")
Q23/QH23
Short Range
Diffuse Mode
Q23/QH23
30 mm
100
Short Range Diffuse Mode
G
A
I
N
10
1
1.0 mm
0.04 in
10 mm
0.4 in
100 mm
4.0 in
1.2 in
20 mm
0.8 in
10 mm
0.4 in
0
0
10 mm
0.4 in
20 mm
0.8 in
30 mm
1.2 in
0
1000 mm
40 in
50 mm 100 mm 150 mm 200mm 250 mm
2 in
4 in
6 in
8 in
10 in
DISTANCE
DISTANCE
Long Range
Q23SN6DL
QH23SN6DL
Q23SN6DLQ
QH23SN6DLQ
Beam Pattern
Performance based on 90% reflectance white test card
1000
E
X
C
E
S
S
G
A
I
N
Q23/QH23
Long Range
Diffuse Mode
Q23/QH23
30 mm
100
10 mm
0.4 in
100 mm
4.0 in
1000 mm
40 in
DISTANCE
1.2 in
0.8 in
10 mm
0.4 in
0
10
1
1.0 mm
0.04 in
Long Range Diffuse Mode
20 mm
0
10 mm
0.4 in
20 mm
0.8 in
30 mm
1.2 in
0
200 mm 400 mm 600 mm 800mm 1000 mm
8 in
16 in
24 in
32 in
40 in
DISTANCE
For All Q23 & QH23 Sensors:
i) 9 m (30') cables are available by adding suffix “W/30” to the model number of any cabled sensor (e.g. - Q23SN6LP W/30)
ii) All Q23 QD models have a 4-pin pico-style connector on a 150 mm (6") cable pigtail.
iii) A model with a QD connector requires an accessory mating cable. See Accessories for more information.
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97
Q23 Sensors
Q23
QH23
Visible red, 680 nm
Q23 & QH23 Convergent
Models
Focus
Q23SN6CV50
QH23SN6CV50
Q23SN6CV50Q
QH23SN6CV50Q
Supply
Voltage
Cable
Q23SP6CV50
QH23SP6CV50
Q23SP6CV50Q
QH23SP6CV50Q
Complementary
Solid-state
NPN
2 m (6.5')
2 m (6.5')
4-Pin Pico Pigtail QD
4-Pin Pico Pigtail QD
50 mm
(2 in)
Output
Type
10-30V dc
2 m (6.5')
2 m (6.5')
4-Pin Pico Pigtail QD
4-Pin Pico Pigtail QD
Excess Gain
Beam Pattern
1000
E
X
C
E
S
S
Q23/QH23
Converent Mode
Q23/QH23
3 mm
100
0.12 in
Convergent Mode
2 mm
0.08 in
1 mm
0.04 in
0
Complementary
Solid-state
PNP
G
A
I
N
10
0
1 mm
0.04 in
2 mm
0.08 in
3 mm
1
1.0 mm
0.04 in
10 mm
0.4 in
100 mm
4.0 in
DISTANCE
1000 mm
40 in
0.12 in
0
20 mm
.8 in
40 mm
1.6 in
60 mm
2.4 in
80mm
3.2 in
100 mm
4.0 in
DISTANCE
For ALL Q23 & QH23 Sensors:
i) 9 m (30') cables are available by adding suffix “W/30” to the model number of any cabled sensor (e.g. - Q23SN6CV50 W/30)
ii)
All Q23 QD models have a 4-pin pico-style connector on a 150 mm (6") cable pigtail.
iii)
A model with a QD connector requires an accessory mating cable. See page 103 and the Accessories section for more information.
98
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
Q23 Sensors
Visible red, 680 nm
QH23
Q23
Q23 & QH23 Plastic Fiber Optic
Models
Range
Supply
Voltage
Cable
Output
Type
Excess Gain
Standard Speed: 1 ms Response
Q23SN6FP
QH23SN6FP
Q23SN6FPQ
QH23SN6FPQ
Q23SP6FP
QH23SP6FP
Q23SP6FPQ
QH23SP6FPQ
2 m (6.5')
2 m (6.5')
4-Pin Pico Pigtail QD
4-Pin Pico Pigtail QD
Range
varies by
sensing
mode
and fiber
optics
used
Beam Pattern
Diffuse mode performance based on 90% reflectance white test card
1000
Complementary
Solid-state
NPN
E
X
C
E
S
S
Q23/QH23FP
Opposed Mode
Q23/QH23FP
Opposed Mode
37.5 mm
100
1.0 in
0.5 in
12.5 mm
PIT46U Fibers
no lenses
0
G
A
I
N
1.5 in
25 mm
10
PIT46U Fibers
no lenses
12.5 mm
1.0 in
1.5 in
37.5 mm
10 mm
0.4 in
100 mm
4.0 in
1000 mm
40 in
0
50 mm 100 mm 150 mm 200mm 250 mm
2 in
4 in
6 in
8 in
10 in
DISTANCE
2 m (6.5')
2 m (6.5')
4-Pin Pico Pigtail QD
4-Pin Pico Pigtail QD
0.5 in
25 mm
1
1.0 mm
0.04 in
10-30V dc
0
DISTANCE
1000
Complementary
Solid-state
PNP
E
X
C
E
S
S
Q23/QH23FP
Diffuse Mode
Q23/QH23FP
Diffuse Mode
7.5 mm
5.0 mm
0.2 in
2.5 mm
0.1 in
0
G
A
I
N
0.3 in
100
10
PBT46U Fiber
0
with PBT46U Fiber
2.5 mm
0.1 in
5.0 mm
0.2 in
7.5 mm
1
0.1 mm
0.004 in
1.0 mm
0.04 in
10 mm
0.4 in
0.3 in
0
100 mm
4.0 in
12.5 mm 25 mm 37.5 mm 50 mm 62.5 mm
0.5 in
1.0 in
1.5 in
2.0 in
2.5 in
DISTANCE
DISTANCE
High Speed: 100 µs Response
1000
Q23SN6FPY
QH23SN6FPY
Q23SN6FPYQ
QH23SN6FPYQ
Q23SP6FPY
QH23SP6FPY
Q23SP6FPYQ
QH23SP6FPYQ
2 m (6.5')
2 m (6.5')
4-Pin Pico Pigtail QD
4-Pin Pico Pigtail QD
Range
varies by
sensing
mode
and fiber
optics
used
Complementary
Solid-state
NPN
E
X
C
E
S
S
Q23/QH23FPY
Opposed Mode
Q23/QH23FPY
PIT46U Fibers
with L2 lenses
100
Opposed Mode
37.5 mm
1.0 in
12.5 mm
0.5 in
0
G
A
I
N
10
0.5 in
25.0 mm
PIT46U Fibers
no lenses
10 mm
0.4 in
1.0 in
37.5 mm
100 mm
4.0 in
1.5 in
0
1000 mm
40 in
125 mm 250 mm 375 mm 500 mm 625 mm
5 in
10 in
15 in
20 in
25 in
DISTANCE
2 m (6.5')
2 m (6.5')
4-Pin Pico Pigtail QD
4-Pin Pico Pigtail QD
0
with PIT46U Fibers
and L2 Lenses
12.5 mm
1
1.0 mm
0.04 in
10-30V dc
1.5 in
25.0 mm
DISTANCE
1000
Complementary
Solid-state
PNP
E
X
C
E
S
S
G
A
I
N
Q23/QH23FPY
Q23/QH23FPY
Opposed Mode
Opposed Mode
150 mm
6.0 in
100 mm
100
4.0 in
50 mm
2.0 in
with PIT46U Fibers
and L08FP Lenses
0
10
PIT46U Fibers
with L08FP lenses
0
50 mm
2.0 in
100 mm
4.0 in
150 mm
1
0.01 m
0.033 ft
6.0 in
0
0.1 m
0.33 ft
1m
3.3 ft
10 m
33 ft
0.4 m
1.3 ft
0.8 m
2.6 ft
1.2 m
3.9 ft
1.6 m
5.2 ft
2.0 m
6.5 ft
DISTANCE
DISTANCE
For Q23 & QH23 Plastic Fiber Sensing Mode:
i) The opposed range of Q23FP sensors using 1mm (0.4") plastic fibers may be extended using optional lens pairs. A pair of model L2 lenses extends the
opposed range to 2 m (80"). A pair of model L08FP lenses extends opposed range to 3 m (10'). See page 673 for lens details.
ii) Diffuse mode sensing with Q23FPY models is generally not recommended due to low excess gain. If in doubt about sensing performance, contact
the factory Application Engineering Department or your local Banner Sales Engineer to discuss diffuse mode applications.
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99
Q23 Sensors
Q23 & QH23 Specifications
Supply Voltage and Current
10 to 30V dc (10% maximum ripple) at less than 25 mA for diffuse, retro, and fiber optic models (exclusive of load)
Opposed emitters and receivers draw 20 mA each
Supply Protection Circuitry
Protected against reverse polarity and transient voltages
Output Configuration
Solid-state dc complementary outputs:
Q(H)23SN6xx models = NPN sinking, N.O. (normally open) & N.C. (normally closed) complementary
Q(H)23SP6xx models = PNP sourcing, N.O. & N.C. complementary
Light operate: N.O. output conducts when the sensor sees its own modulated light source
Dark operate: N.C. output conducts when the sensing beam is blocked
The N.C. output may be used as an alarm output, depending upon hookup to the power supply (see
hookup diagrams)
Output Rating
150 mA maximum each in standard hookup; when wired for alarm output, the total load may not exceed 150 mA
Off-state leakage current less than 1 microamp at 30V dc
Output saturation voltage less than 1 volt at 10mA dc; less than 1.5V at 150 mA dc
Output Protection Circuitry
Protected against false pulse on power-up, transient voltages, and continuous overload or short-circuit of outputs
Output Response Time
1 millisecond “ON” and “OFF” (except for Q23FPY high-speed sensors which have 100 microsecond
response time); no false pulse on power-up
(NOTE: 100 millisecond delay on power-up: outputs are non-conducting during this time.)
Repeatability
All Opposed Modes: 0.13 ms; Retro and Diffuse: 0.25 ms; FPY High speed Plastic Fiber Optic:
25 microseconds. Response time and repeatability specifications are independent of signal strength.
Adjustments
SENSITIVITY control (single-turn, o-ring sealed potentiometer)
Indicators
Sensors except opposed mode emitters have two LEDs:
GREEN glowing steadily = dc power “ON”
GREEN flashing = output overload
YELLOW glowing steadily = normally open output is conducting
YELLOW flashing = marginal excess gain (1 - 1.5x), light condition; flashing YELLOW corresponds to
“ON” state of alarm output
Emitters have green power “ON” indicator
Construction
Yellow and black ABS housing, with acrylic lenses, completely sealed. Stainless steel mounting bracket and
M3 mounting hardware are supplied
Environmental Rating
Meets NEMA standards 1, 2, 3, 3S, 4, 4X, 6, 12, and 13; IEC IP67. Housing materials rated UL 94 V-0
Connections
PVC-jacketed 4-conductor 2 m (6.5') or 9 m (30') cables, or 6" pigtail with 4-pin pico-style quick-disconnect
(QD) fitting are available. Mating QD cables are ordered separately. See Accessories.
Operating Conditions
Temperature:
Maximum relative humidity:
Application Note
To avoid damage to the sensor caused by static discharge (ESD), use the plastic screwdriver supplied with each
sensor (included in the hardware packet) to adjust the SENSITIVITY control. Otherwise, use a screwdriver with
an insulated handle.
-20° to +55°C (-5° to +131°F)
90% at 50°C (non-condensing)
Certifications
Quick-Disconnect (QD) Option
Q23 & QH23 sensors are sold either with a 2 m (6.5') or 9 m (30') attached PVC-covered cable or with a 4-pin pico-style QD
connector on a 150 mm (6") cable pigtail.
Q23 & QH23 QD sensors are identified by the letter “Q” in their model number suffix. Mating cables for QD sensors are model
PKG4-2 (straight connector) or PKW4-2 (right-angled connector). Cables are supplied in a standard length of 2 m (6.5'). For
more information on QD cable, see page 103 and the Accessories section.
100
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Q23 Sensors
Q23 & QH23 Hookup Diagrams
Emitters
Sensors with NPN (Sinking) Outputs Sensors with PNP (Sourcing) Outputs
Standard Hookup
Standard Hookup
bu
bn
bk
wh
bn
bu
bk
wh
-
10-30V dc
+
Load
+
10-30V dc
bn
+
10-30V dc
-
Load
bu
-
Load
Load
Note: No connection to bk and wh wires
of QD cable.
Alarm Hookup
bn
bu
bk
wh
4-Pin Pico-Style Pin-out
(Connector on Cable Shown)
Alarm Hookup
bu
bn
bk
wh
-
10-30V dc
+
Load
Alarm
+
10-30V dc
-
Load
Alarm
Black Wire
White Wire
Blue Wire
Brown Wire
NOTE: Hookups are the same for either an integral or QD cable.
Q23 Pigtail Quick-Disconnect
QH23 Pigtail Quick-Disconnect
150.0 mm (6.0") Pigtail
150.0 mm (6.0") Pigtail
Q23 Dimensions
Q23 Sensor - Opposed, Diffuse, Convergent, and Retroreflective Modes
(model suffix E, R, D, DL & LP)
Yellow LED
(N.O. Output “ON” Indicator)
Sensitivity
Control
12.0 mm
(0.47")
Green LED
Power “ON”
Indicator
Q23 Sensor - Convergent Mode
(model suffix CV)
23 mm
(0.91")
2.8 mm
(0.11')
23 mm
(0.91")
3.8 mm
(0.15')
25.4 mm
(1.00")
34 mm
(1.34")
34.0 mm
(1.34")
Through-mounting
holes (2)
Clearance for
M3 Hardware
23.0 mm
(0.91")
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25.5 mm
(1.01")
101
Q23 Sensors
Q23 Dimensions
Q23 Sensor - Plastic Fiber Optic
(model suffix FP & FPY)
Q23 Mounting Bracket
(included with sensor)
2 x R 1.7 mm (0.07")
30.0 mm
(1.18")
Nut Strap
3.5 mm
(0.14")
5.6 mm (0.22")
R 20.0 mm (0.79")
27.1 mm
(1.07")
4.1 mm (0.16")
Stainless Steel
M3 x 0.5 x 20 mm
Hardware (Included)
10.0 mm(0.39")
6.0 mm
(0.24")
18.0 mm
(0.71 in)
R 3.0 mm (0.12")
(4 Places)
1.0 mm (0.04")
4 x R 23.0 mm
(0.91")
27.6 mm
19.5 mm (1.09")
(0.77")
4 x ø 3.2 mm
(0.126")
10 x R 1.60 mm
(0.63")
35.1 mm
(1.38")
38.6 mm
(1.52")
9.1 mm (0.36")
2 x 3.5 mm
(0.14")
2 x 2.0 mm (0.08")
2 x 4.1 mm (0.16")
14.0 mm
(0.55")
QH23 Dimensions
QH23 Sensor - Opposed, Diffuse, Convergent, and Retroreflective Modes
(model suffix E, R, D, DL & LP)
QH23 Sensor - Convergent Mode
(model suffix CV)
Yellow LED
(N.O. Output “ON” Indicator)
12.0 mm
(0.47")
34 mm
(1.34")
Sensitivity
Control
Green LED
Power “ON” Indicator
23.0 mm
(0.91")
23 mm
(0.91")
34.0 mm
(1.34")
Through-mounting
holes (2) Clearance for
M3 Hardware
25.4 mm
(1.00")
27.7 mm
(1.09")
2.8 mm
(0.11")
36.5 mm
(1.44")
3.8 mm
(0.15")
QH23 Sensor - Plastic Fiber Optic
(model suffix FP & FPY)
38.1 mm
(1.50")
102
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Q23 Sensors
QH23 Dimensions
QH23 Mounting Bracket
(included with sensor)
6.0 mm
(0.24")
6.0 mm
(0.24")
36 mm
(1.4 in)
4.7 mm
(0.19")
12.0 mm
(0.47"")
3.5 mm
(0.14")
R23.6 mm (0.93")
10.0 mm
(0.39")
12.0 mm
(0.47")
7.5 mm
(0.30")
2 x R1.90 mm
(0.075")
Hex Nut
7 x R1.75 mm
(0.069")
8.0 mm
(0.32")
Split Lockwasher
6.4 mm (0.25")
3.5 mm
(0.14")
1.0 mm
(0.04")
6.4 mm (0.25")
CL
23 mm
(0.9")
Stainless Steel
M3 x 0.5 x 20 mm
Hardware (Included)
14 mm
(0.6")
Accessories
Modifications
Example of Model
Number
Model Suffix
Modification
Description
W/30
9 m (30') cable
All Q23 sensors may be ordered with an integral 9 m (30') cable in
place of the standard 2 m (6.5') cable
Q23SP6D W/30
Quick-Disconnect (QD) Cables
Style
4-Pin Pico
Model
PKG4-2
Length
Connector
2 m (6.5')
Straight
For use with
All Q23 & QH23 sensors with pigtail QD
Apertures
Q23 opposed mode sensors may be fitted with apertures which narrow or shape the effective beam of the sensor to more closely match the
size or profile of the object to be sensed. This will reduce the sensing range of the particular sensors. Q23 apertures use M3 hardware which
is provided with the SMB23 mounting bracket and with all Q23 models. Slotted apertures have a vertical and horizontal slot of equal width.
Round apertures have two circular holes of different diameters.
Model
AP19-00
AP23-04S
AP23-06S
AP23-10S
AP23-12S
AP23-0203
AP23-0404
AP23-0406
AP23-1012
Aperture
Shape
Aperture Size
Blank
Blank
Slot
1.0 mm (0.04")
1.5 mm (0.06")
2.5 mm (0.10")
3.0 mm (0.12")
Round
ø 0.5 mm (0.02") & 0.8 mm (0.03")
ø 1.0 mm (0.04") & 1.0 mm (0.04")
ø 1.0 mm (0.04") & 1.5 mm (0.06")
ø 2.5 mm (0.10") & 3.0 mm (0.12")
Dimensions
Beam is at
this position
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Beam is at
this position
103
Q23 Sensors
Mounting Brackets
Model
Description
Dimensions
SMB3018SC
• For use with Q23 Series
• 18 mm swivel barrel or side
mount bracket
• Black reinforced thermoplastic
polyester
• Includes stainless steel swivel
locking hardware
50.8 mm
(2.00")
66.5 mm
(2.62")
M18 x 1
internal
thread
56.7 mm
(2.31")
Assembled
68.0 mm
(2.68")
29.0 mm
(1.14")
SMB30SK
• For use with Q23 or QH23
Series
• Flat-mount swivel bracket with
extended range
of motion
• Black reinforced thermoplastic
polyester and 316 stainless
steel
• Includes stainless steel swivel
locking hardware
50.8 mm
(2.00")
78.0 mm
(3.07")
66.5 mm
(2.62")
56.7 mm
(2.31")
Assembled
2 x Hole for
#6 Machine Screw
68.0 mm
(2.68")
29.0 mm
(1.14")
SMB30SUS
• For use with Q23 Series
• Side mount swivel bracket –
extended range of motion
• Black reinforced thermoplastic
polyester
• Includes stainless steel swivel
locking hardware
50.8 mm
(2.00")
66.5 mm
(2.62")
56.7 mm
(2.31")
Assembled
2 x Hole for
#6 Machine Screw
68.0 mm
(2.68")
SMB46L
CL
6 mm
(0.2")
6 mm
(0.2")
5 mm (0.2")
(2x)
• For use with Q23 or QH23
Series
• “L” bracket
• 14-gauge 316 stainless steel
15 mm
(0.6")
8 mm
(0.3")
ø 36 mm (1.4")
ø 6.5 mm (0.26") (6x)
16 mm
(0.6")
65 mm
(2.6")
54 mm
(2.1")
104
29.0 mm
(1.14")
2 mm
(.1")
27 mm
(1.1")
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Q23 Accessories
Mounting Brackets
Model
Description
Dimensions
SMB46S
10 mm
(0.4")
34 mm
(1.3")
CL
17 mm
(0.7")
3.5 mm
(0.14")
6 mm
(0.2")
• For use with Q23 or QH23
Series
• “S” bracket
• 14-gauge 316 stainless steel
6 mm
(0.2")
5 mm (0.2")
(4x)
15 mm
(0.6")
8 mm
(0.3") 16 mm
(0.6")
ø36 mm (1.4")
ø6.5 mm (0.26") (6x)
65 mm
(2.6")
2 mm
(.1")
54 mm
(2.1")
27 mm
(1.1")
16 mm
(0.6")
34 mm
(1.3")
CL
17 mm
(0.7")
SMB46U
13 mm
(0.5")
3.5 mm
(0.14")
6 mm
(0.2")
• For use with Q23 or QH23
Series
• “U” bracket
• 14-gauge 316 stainless steel
6 mm
(0.2")
5 mm (0.2")
(4x)
15 mm
(0.6")
8 mm
(0.3") 16 mm
(0.6")
ø 36 mm (1.4")
ø 6.5 mm (0.26") (6x)
16 mm
(0.6")
65 mm
(2.6")
54 mm
(2.1")
2 mm
(.1")
27 mm
(1.1")
70 mm
(2.8")
SMB46U
30.0 mm
(1.18")
1.5 mm
(0.06")
• For use with Q23 Series
• Nut Strap replaces two M3
mounting nuts and washers
• 16-gauge stainless steel
24.0 mm
(0.95")
2x M3 x 0.5
6.0 mm
(0.24")
2x Full Radius
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105
WORLD-BEAM™ Sensors
WORLD-BEAM™ Sensors
Miniature Self-Contained Photoelectric Sensors in Universal Housing
•
•
•
•
•
•
•
•
Easily fits (or retrofits) almost any mounting situation
Exceptional optical performance, comparable to larger “mini-style” or barrel
sensors
10 to 30V dc operation, with complementary (SPDT) NPN or PNP outputs,
depending on model
Bright LED operating status indicators are visible from 360°
Rugged sealed housing, protected circuitry
Models available with or without 18 mm threaded “nose”
All models less than 1 millisecond output response for excellent sensing
repeatability
Integral Euro- or Pico-style quick-disconnect models plus Euro- or Pico-style
pigtail models, are available (see page 112)
Diffuse
WORLD-BEAM Sensing Mode Options
Opposed
Retroreflective
Convergent
Diffuse
Adjustable Field
Plastic Fiber Optic
Infrared, 940 nm
WORLD-BEAM Opposed Mode Emitter (E) and Receiver (R)
Models
Range
QS186E
Supply
Voltage
Cable*
Output
Type
2 m (6.5') 2-wire
Excess Gain
Effective Beam: 13 mm (0.5")
1000
QS186E and
QS18...R
N/A
QS186EQ
Beam Pattern
4-pin Pico Pigtail QD
QS18VN6R
QS18VN6RQ
20 m
(66’)
QS18VP6R
2 m (6.5') 4-wire
NPN
4-pin Pico Pigtail QD
PNP
4-pin Pico Pigtail QD
10
1
0.1 m
0.3 ft
QS18VN6RBQ
QS18VP6RB
4-pin Pico Pigtail QD
3m
(10’)
2 m (6.5') 4-wire
NPN
4-pin Pico Pigtail QD
2 m (6.5') 4-wire
PNP
QS18VP6RBQ
4-pin Pico Pigtail QD
1m
3.3 ft
10 m
33 ft
0
250 mm
10 in
500 mm
20 in
30 in
0
100 m
330 ft
4m
12 ft
8m
26 ft
E
X
C
E
S
S
G
A
I
N
12 m
40 ft
16 m
52 ft
Effective Beam: 13 mm (0.5")
QS186EB and
QS18...RB
QS186EB and QS18...RB
450 mm
Opposed Mode
100
18 in
Opposed Mode
300 mm
12 in
150 mm
6 in
0
10
0
150 mm
6 in
300 mm
12 in
450 mm
1
0.01 m
0.03 ft
0.1 m
0.33 ft
20 m
66 ft
DISTANCE
1000
N/A
QS18VN6RB
10 in
DISTANCE
2 m (6.5') 2-wire
QS186EBQ
20 in
250 mm
0
10 to 30V dc
QS186EB
30 in
Opposed Mode
500 mm
750 mm
2 m (6.5') 4-wire
QS18VP6RQ
QS186E and QS18...R
750 mm
Opposed Mode
100
1m
3.3 ft
DISTANCE
10 m
33 ft
18 in
0
.75 m
2.5 ft
1.5 m
5 ft
2.25 m
7.5 ft
3.0 m
10 ft
3.75 m
12.5 ft
DISTANCE
* Note: QS18 sensors (except model suffix AF100) are available with the following quick-disconnect variations (see page 112 for information):
model suffix Q5: 4-pin pigtail Euro QD; model suffix Q7: 4-pin integral Pico QD; and model suffix Q8: 4-pin integral Euro QD.
A model with a QD connector requires an accessory mating cable. See page 112 and the Accessories section for more information.
106
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WORLD-BEAM™ Sensors
P
LV: Visible red, 660 nm LP: Visible red, 660 nm
NOTE: Retroreflective range is specified using one model BRT-84 retroreflector
(3" diameter). Actual sensing range may be more or less than specified,
depending upon the efficiency and reflective area of the retroreflector(s) in use.
See page 722 for more information.
WORLD-BEAM Retroreflective Mode
Models
Range
Supply
Voltage
Cable*
Output
Type
Excess Gain
Retroreflective
QS18VN6LV
QS18VN6LVQ
QS18VP6LV
1000
2 m (6.5') 4-wire
6.5 m
(21')
NPN
4-pin Pico
Pigtail QD
2 m (6.5') 4-wire
QS18VN6LPQ
QS18VP6LP
3.5 m
(12')
6 in
Retroreflective Mode
100 mm
4 in
50 mm
2 in
with BRT-84 Reflector
0
10
with BRT-84 Reflector
1
0.01 m
0.03 ft
0.1 m
0.33 ft
1m
3.3 ft
0
50 mm
2 in
100 mm
4 in
150 mm
6 in
0
10 m
33 ft
1.5 m
5 ft
3.0 m
10 ft
4.5 m
15 ft
6.0 m
20 ft
7.5 m
25 ft
DISTANCE
1000
NPN
QS18...LP
E
X
C
E
S
S
Retroreflective Mode
QS18...LP
30 mm
100
20 mm
10 mm
with BRT-84 Reflector
1.2 in
0.8 in
Retroreflective Mode
0.4 in
with BRT-84 Reflector
0
10
G
A
I
N
10 to 30V dc
2 m (6.5') 4-wire
1
0.01 m
0.03 ft
PNP
4-pin Pico
Pigtail QD
QS18VP6LPQ
QS18...LV
150 mm
100
DISTANCE
2 m (6.5') 4-wire
4-pin Pico
Pigtail QD
Retroreflective Mode
PNP
Polarized Retroreflective
QS18VN6LP
QS18...LV
E
X
C
E
S
S
G
A
I
N
10 to 30V dc
4-pin Pico
Pigtail QD
QS18VP6LVQ
Beam Pattern
0.1 m
0.33 ft
1m
3.3 ft
0
10 mm
0.4 in
20 mm
0.8 in
30 mm
1.2 in
0
10 m
33 ft
.75 m
2.5 ft
DISTANCE
1.5 m
5 ft
2.25 m
7.5 ft
3.0 m
10 ft
3.75 m
12.5 ft
DISTANCE
Visible red, 660 nm
WORLD-BEAM Convergent Mode
Models
Range
QS18VN6CV15
QS18VN6CV15Q
QS18VP6CV15
Cable*
Supply
Voltage
Output
Type
16 mm
(0.63")
NPN
10 to 30V dc
2 m (6.5') 4-wire
PNP
4-pin Pico
Pigtail QD
QS18VP6CV15Q
Beam Pattern
Performance based on 90% reflectance white test card
1000
2 m (6.5') 4-wire
4-pin Pico
Pigtail QD
Excess Gain
E
X
C
E
S
S
G
A
I
N
QS18...CV15
Convergent Mode
QS18...CV15
6 mm
.24 in
Convergent Mode
100
4 mm
.16 in
2 mm
.08 in
0
10
0
2 mm
.08 in
4 mm
.16 in
6 mm
1
1 mm
0.04 in
10 mm
0.4 in
100 mm
4.0 in
.24 in
0
1000 mm
40.0 in
10 mm
0.4 in
20 mm
0.8 in
30 mm
1.2 in
40 mm
1.6 in
50 mm
2.0 in
DISTANCE
DISTANCE
1000
QS18VN6CV45
QS18VN6CV45Q
QS18VP6CV45
QS18VP6CV45Q
2 m (6.5') 4-wire
43 mm
(1.7")
4-pin Pico
Pigtail QD
NPN
10 to 30V dc
2 m (6.5') 4-wire
4-pin Pico
Pigtail QD
PNP
E
X
C
E
S
S
G
A
I
N
QS18...CV45
Convergent Mode
QS18...CV45
6 mm
.24 in
Convergent Mode
100
4 mm
.16 in
2 mm
.08 in
0
10
1
1 mm
0.04 in
10 mm
0.4 in
100 mm
4.0 in
DISTANCE
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
1000 mm
40.0 in
0
2 mm
.08 in
4 mm
.16 in
6 mm
.24 in
0
15 mm
0.6 in
30 mm
1.2 in
45 mm
1.8 in
60 mm
2.4 in
75 mm
3.0 in
DISTANCE
107
WORLD-BEAM™ Sensors
Infrared, 940 nm
WORLD-BEAM Diffuse Mode
Models
Range
QS18VN6D
4-pin Pico
Pigtail QD
QS18VP6D
QS18VN6DB
Supply
Voltage
Output
Type
NPN
10 to 30V dc
2 m (6.5') 4-wire
450 mm
(18")
QS18VN6DBQ
QS18VP6DB
PNP
4-pin Pico
Pigtail QD
Performance based on 90% reflectance white test card
E
X
C
E
S
S
G
A
I
N
QS18...D
Diffuse Mode
QS18...D
6 mm
.24 in
Diffuse Mode
100
4 mm
.16 in
2 mm
.08 in
0
0
10
2 mm
.08 in
4 mm
.16 in
.24 in
6 mm
1
1 mm
0.04 in
10 mm
0.4 in
100 mm
4.0 in
0
1000 mm
40.0 in
100 mm 200 mm 300 mm 400mm 500 mm
4.0 in
8.0 in 12.0 in 16.0 in 20.0 in
DISTANCE
1000
NPN
10 to 30V dc
2 m (6.5') 4-wire
PNP
4-pin Pico
Pigtail QD
QS18VP6DBQ
Beam Pattern
DISTANCE
2 m (6.5') 4-wire
4-pin Pico
Pigtail QD
Excess Gain
1000
2 m (6.5') 4-wire
QS18VN6DQ
QS18VP6DQ
Cable*
E
X
C
E
S
S
G
A
I
N
QS18...DB
Diffuse Mode
QS18...DB
30 mm
1.2 in
Diffuse Mode
100
20 mm
0.8 in
10 mm
0.4 in
0
10
0
10 mm
0.4 in
20 mm
0.8 in
30 mm
1
1 mm
0.04 in
10 mm
0.4 in
100 mm
4.0 in
1.2 in
0
1000 mm
40.0 in
100 mm 200 mm 300 mm 400mm 500 mm
4.0 in
8.0 in 12.0 in 16.0 in 20.0 in
DISTANCE
DISTANCE
Divergent Diffuse
1000
QS18VN6W
QS18VN6WQ
QS18VP6W
QS18VP6WQ
2 m (6.5') 4-wire
100 mm
(4")
4-pin Pico
Pigtail QD
NPN
QS18...W
Divergent
Diffuse Mode
100
QS18...W
30 mm
1.2 in
Divergent
Diffuse Mode
20 mm
0.8 in
0.4 in
10 mm
0
0
10 to 30V dc
G
A
I
N
2 m (6.5') 4-wire
4-pin Pico
Pigtail QD
E
X
C
E
S
S
PNP
10
1
1 mm
0.04 in
10 mm
0.4 in
100 mm
4.0 in
DISTANCE
1000 mm
40.0 in
10 mm
0.4 in
20 mm
0.8 in
30 mm
1.2 in
0
20 mm
0.8 in
40 mm
1.6 in
60 mm
2.4 in
80 mm 100 mm
3.2 in
4.0 in
DISTANCE
* Note: QS18 sensors (except model suffix AF100) are available with the following quick-disconnect variations (see page 112 for information):
model suffix Q5: 4-pin pigtail Euro QD; model suffix Q7: 4-pin integral Pico QD; and model suffix Q8: 4-pin integral Euro QD.
A model with a QD connector requires an accessory mating cable. See page 112 and the Accessories section for more information.
108
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WORLD-BEAM™ Sensors
Visible red, 660 nm
WORLD-BEAM Adjustable Field Mode
Models
Range
Supply
Voltage
Cable
Output
Type
Excess Gain at
20 mm Cutoff
Excess Gain at
100 mm Cutoff
Performance based on 90% reflectance white test card
1000
QS18VN6AF100
NPN
QS18VN6AF100Q
10
1
.1 mm
.004 in
1 mm
.04 in
10 mm
.4 in
1
.1 mm
.004 in
100 mm
4 in
1 mm
.04 in
10 mm
.4 in
100 mm
4 in
DISTANCE
Cutoff Point Deviation
QS18AF Cutoff Point Deviation
2 m (6.5') 4-wire
PNP
QS18VP6AF100Q
10
DISTANCE
Percent Deviation
QS18VP6AF100
100
G
A
I
N
10 to 30V dc
(cutoff point
adjustable
between
20-100 mm)
QS18..AF100
E
X
C
E
S
S
100
G
A
I
N
1 mm
4-pin Pico Pigtail QD
(0.04")
to
cutoff point
1000
QS18..AF100
E
X
C
E
S
S
2 m (6.5') 4-wire
4-pin Pico Pigtail QD
10
8
6
4
2
0
-2
-4
-6
-8
18% Gray Card
6% Black Card
-10
20
35
50
100
75
Cutoff Setting (90% White Card)
Visible red, 660 nm
WORLD-BEAM Plastic Fiber Optic Mode
Models
Range
Cable*
Supply
Voltage
Output
Type
Excess Gain
Beam Pattern
Diffuse mode performance based on 90% reflectance white test card
1000
QS18VN6FP
2 m (6.5') 4-wire
NPN
QS18VN6FPQ
QS18VP6FP
4-pin Pico
Range
Pigtail QD
varies by
sensing
mode
and fiber
optics
2 m (6.5') 4-wire
used
QS18VP6FPQ
QS18..FP
QS18..FP
2.4 in
PIT66U
40 mm
1.6 in
20 mm
0.8 in
PIT46U
0
PIT66U Fiber
G
A
I
N
QS18..FP
QS18..FP
60 mm
Opposed Mode
Plastic Fibers
100
0
20 mm
10
PIT46U Fiber
0.8 in
40 mm
1.6 in
Opposed Mode
Plastic Fibers
60 mm
1
1 mm
.04 in
10 mm
.40 in
100 mm
4.0 in
0
1000 mm
40 in
2.4 in
50 mm 100 mm 150 mm 200 mm 250 mm
2 in
4 in
6 in
8 in
10 in
DISTANCE
DISTANCE
10 to 30V dc
1000
E
X
C
E
S
S
PNP
4-pin Pico
Pigtail QD
E
X
C
E
S
S
QS18..FP
QS18..FP
Diffuse Mode
Plastic Fibers
100
PBT66U Fiber
30 mm
QS18..FP
QS18..FP
20 mm
Diffuse Mode
Plastic Fibers
1.2 in
0.8 in
PBT66U
10 mm
0
G
A
I
N
10
0
10 mm
0.4 in
PBT46U
20 mm
PBT46U Fiber
1
.1 mm
.004 in
1 mm
.04 in
0.8 in
30 mm
10 mm
.4 in
DISTANCE
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
100 mm
4 in
0.4 in
1.2 in
0
20 mm
0.8 in
40 mm
1.6 in
60 mm
2.4 in
80 mm 100 mm
3.2 in
4.8 in
DISTANCE
109
WORLD-BEAM™ Sensors
WORLD-BEAM Specifications
Supply Voltage
10 to 30V dc (10% maximum ripple) at less than 25 mA, exclusive of load;
Protected against reverse polarity and transient voltages
Output Configuration
Solid-state complementary (SPDT); NPN or PNP (current sinking or sourcing), depending on model;
Rating: 100 mA maximum each output at 25°C
Off-state leakage current: less than 50 µA @ 30V dc
ON-state saturation voltage: less than 1V @ 10 mA; less than 1.5V @ 100 mA
Protected against false pulse on power-up and continuous overload or short circuit of outputs
Output Response
Opposed Mode: 750 microseconds ON; 375 microseconds OFF
Adjustable Field Mode: 700 microseconds ON/OFF
All others: 600 microseconds ON/OFF
NOTE: 100 millisecond delay on power-up; outputs do not conduct during this time
Repeatability
Opposed Mode: 100 microseconds
Adjustable Field Mode: 175 microseconds
All others: 150 microseconds
Adjustments
Convergent, diffuse, and retroreflective mode models (only): Single-turn sensitivity (GAIN)
adjustment potentiometer
Adjustable Field models (only): multi-turn adjustment screw sets cutoff distance between 20 and 100 mm
Indicators
2 LED indicators:
Green steady: Power ON Green flashing: Output overloaded
Red steady: Light sensed Red flashing: Marginal excess gain
Construction
Polycarbonate/ABS alloy housing, rated IEC IP67; NEMA 6
3 mm mounting hardware included
Connections
2 m (6.5') 4-wire PVC cable, 9 m (30') PVC cable, or 4-pin integral Euro-style Pigtail QD, or 4-in Pico-style
150 mm (6") pigtail QD, depending on model
Operating Conditions
Temperature for Adjustable Field Mode: 0° to +55°C (+32° to +131°F)
Temperature for All Other Modes: -20° to +70° C (-4° to + 158° F)
Relative Humidity: 90% @ 50° C (non-condensing)
WORLD-BEAM Hookups
QS18 Sensors with
NPN (Sinking) Outputs
bu
bn
bk
wh
110
-
10-30V dc
+
Load
Load
QS18 Sensors with
PNP (Sourcing) Outputs
bn
bu
bk
wh
+
10-30V dc
QS18 Emitters
bn
-
Load
Load
bu
4-Pin Pico-Style Pin-out
(Cable Connector Shown)
+
10-30V dc
–
Black Wire
White Wire
Blue Wire
Brown Wire
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
WORLD-BEAM™ Sensors
WORLD-BEAM Dimensions and Features
Opposed Mode
(model suffix E & R)
Opposed Mode
(model suffix EB & RB)
31.0 mm
(1.22")
17.1 mm
(0.67")
15.0 mm
(0.59")
21.1 mm
(0.82")
6.7 mm
(0.26")
6.6 mm
(0.26")
24.1 mm
(0.95")
Ø 3.3 mm Thru
(0.13")
Convergent, Diffuse and Retroreflective Modes
(model suffix CV15, CV45, D, LV & LP)
Diffuse and Divergent Diffuse Modes
(model suffix DB & W)
31.0 mm*
(1.22")
21.1 mm
(0.82")
2.9 mm
(0.12")
Single-turn
Sensitivity
Adjustment
2.9 mm
(0.12")
* CV Models:
33.2 mm (1.31")
Features
Adjustable Field Mode
(model suffix AF)
RED: Light
Sensed Indicator
(Flashes for low
gain condition)
5.5 mm (0.22")
7.5 mm (0.30")
15.0 mm
(0.59")
21 mm (0.83")
3.8 mm
(0.15")
GREEN:
Power Indicator
9.0 mm (0.35")
M18 x 1 Jam Nut
3.0 mm (0.12")
5.2 mm (0.20")
34.5 mm
(1.36")
24.1 mm
(0.95")
12.0 mm
(0.47")
35.0 mm
(1.38")
24.2 mm
(0.95")
8.0 mm
(0.32")
3.8 mm
(0.15")
150 mm
(6") Pigtail
13.4 mm
(0.53")
Plastic Fiber Optic Mode
(model suffix FP)
7.5 mm
(0.30")
15.0 mm
(0.59")
17.1 mm
(0.67")
13.4 mm
(0.53")
27.5 mm
(1.09")
5.2 mm
(0.21")
24.1 mm 34.5 mm
(0.95") (1.36")
7.6 mm
(0.30")
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111
WORLD-BEAM™ Accessories
Modifications
Model Suffix
Modification
Example of
Model Number
Description
Used With:
4-pin Euro-style Pin-out
QS18VN6RQ5
All QS18 models
except AF100
models
QS18VN6RQ7
All QS18 models
except AF100
models
QS18VN6RQ8
All QS18 models
except AF100
models
White Wire
Q5
4-Pin Euro Pigtail QD
Brown Wire
Blue Wire
Black Wire
4-pin Pico-style Pin-out
Q7
4-Pin Pico Integral
41.5 mm
(1.64")
Black Wire
White Wire
Blue Wire
Brown Wire
4-pin Euro-style Pin-out
White Wire
Q8
Brown Wire
4-Pin Euro Integral
Blue Wire
49.0 mm
(1.93")
Black Wire
Quick-Disconnect (QD) Cables
Following is the selection of cables available for WORLD-BEAM QD models. See the Accessories section at back of catalog for more cable information.
Style
Model
Length
Connector
Used with:
4-Pin Pico
PKG4-2
PKW4-2
2 m (6.5')
2 m (6.5')
Straight
Right-Angle
WORLD-BEAM with Q or Q7 suffix
4-Pin Euro
MQDC-406
MQDC-415
MQDC-430
MQDC-406RA
MQDC-415RA
MQDC-430RA
2 m (6.5')
5 m (15')
9 m (30')
2 m (6.5')
5 m (15')
9 m (30')
Straight
Straight
Straight
Right-Angle
Right-Angle
Right-Angle
WORLD-BEAM with Q5 or Q8 suffix
112
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WORLD-BEAM™ Accessories
Apertures
WORLD-BEAM opposed mode sensors may be fitted with stainless steel apertures which narrow or shape the effective beam of the sensor to
more closely match the size or profile of the object to be sensed. This will reduce the sensing range of the particular sensors. A common
example is the use of “line” or “slit” type aperture when wire or thread is be sensed. Each model contains 6 apertures.
Model
Description
APQS18-020
APQS18-040
APQS18-100
0.5 mm (0.02") diameter, circular
1.0 mm (0.04") diameter, circular
2.5 mm (0.10") diameter, circular
APQS18-020H
APQS18-040H
APQS18-100H
0.5 x 6.4 mm (0.02 x 0.25"), horizontal slotted
1.0 x 6.4 mm (0.04 x 0.25"), horizontal slotted
2.5 x 6.4 mm (0.10 x 0.25"), horizontal slotted
APQS18-020V
APQS18-040V
APQS18-100V
0.5 x 12.7 mm (0.02 x 0.50"), vertical slotted
1.0 x 12.7 mm (0.04 x 0.50"), vertical slotted
2.5 x 12.7 mm (0.10 x 0.50"), vertical slotted
APQS18-DVHX2
Kit containing two of each aperture
Mounting Brackets
Model
Description
Dimensions
SMB18A
* Use 4 mm (#8) screws
to mount bracket.
Drill screw holes
24.2 mm (0.95") apart.
18.5 mm
(0.73")
25.4 mm
(1.00")
30°
• 12-gauge, stainless steel
• Right-angle mounting bracket
• Used with QS18 models with
18 mm threaded nose
30 mm
(1.2")
41 mm
(1.6")
R 24.2 mm
(0.95")
46 mm
(1.8")
4.6 mm*
(0.18")
ø 4.6 mm*
(0.18")
7.6 mm
(0.30")
SMB312S
R 24.1 mm
(0.95")
R 5.1 mm
(0.20")
15°
(2)
CL 31.8 mm
(1.25")
• Stainless steel 2-axis, side
mounting bracket
• Used with all QS18 models
except for QS18 Adjustable
Field
20°
ø 3.05 mm Slot
(0.120")
ø 3.05 mm
(0.120")
R 3.1 mm
(0.12") (2)
90°
2.5 mm
(0.10")
45.5 mm
(1.79")
20.1 mm
(0.79")
10° (TYP)
20.3 mm
(0.80")
4.32 mm
(0.170") Slot (2)
Retroreflective Targets
Banner offers a wide selection of high-quality retroreflective targets. See Accessories section for complete information.
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113
WORLD-BEAM™ Sensors
NOTES:
114
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MINI-BEAM® Sensors
MINI-BEAM® Sensors
MINI-BEAM Expert ™ Series . . . . . . . . . . . . . . . . . 116
MINI-BEAM Standard Series . . . . . . . . . . . . . . . . 126
Clear Plastic Detection System. . . . . . . . . . . . . . . 127
MINI-BEAM Universal Voltage Series. . . . . . . . . . . 140
MINI-BEAM NAMUR Series . . . . . . . . . . . . . . . . . 146
MINI-BEAM Accessories . . . . . . . . . . . . . . . . . . . 152
!
MINI-BEAM sensors are not suitable for use in
personnel safety applications! See WARNING on
inside front cover of catalog.
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115
MINI-BEAM® Expert™ Sensors
MINI-BEAM Expert ™ Sensors
• TEACH-mode sensors in the popular MINI-BEAM package
•
Easy push-button programming automatically adjusts
sensitivity to optimal setting*
•
Fast, 500 microsecond (0.5 millisecond) output response
•
Bipolar NPN (sinking) / PNP (sourcing) outputs
•
Easy output programming eliminates the need for Light or
Dark Operate selection
•
Separate TEACH input allows remote programming by an
external device, such as a switch or a process controller
•
Green Stability indicator flashes when received signal level
approaches the switching threshold, also indicates Power ON
•
Choose models with integral 2 m (6.5') cable or 5-pin Eurostyle quick-disconnect (QD) connector; 9 m (30') cables are
also available
* U.S. Patent no. 5808296
MINI-BEAM Expert Sensing Mode Options
P
Retroreflective
Polarized
Diffuse
Convergent
Glass and Plastic Fiber Optic
P
Polarized, Visible red, 650 nm
MINI-BEAM Expert Series Polarized Retroreflective Mode
Models
Range*
Supply
Voltage
Cable
Output
Type
Excess Gain
Polarized
SME312LP
SME312LPQD
10 mm
to
3m
(0.4"
to 10')
Beam Pattern
1000
SME312LP
E
X
C
E
S
S
5-wire 2 m (6.5')
10-30V dc
5-Pin Euro-style QD
Bipolar
NPN/PNP
G
A
I
N
Retroreflective Mode
100
SME312LP
60 mm
2.4 in
Retroreflective Mode
40 mm
1.6 in
20 mm
0.8 in
0
0
20 mm
10
0.8 in
40 mm
With BRT-3 Reflector
1
.01 m
0.03 ft
0.1 m
0.3 ft
1m
3 ft
DISTANCE
1.6 in
60 mm
10 m
30 ft
With BRT-3 Reflector
0
.6 m
2 ft
1.2 m
4 ft
1.8 m
6 ft
2.4 m
8 ft
2.4 in
3.0 m
10 ft
DISTANCE
NOTE: Retroreflective range is specified using one model BRT-3 retroreflector (3" diameter). Actual sensing range may be more or less than
specified, depending upon the efficiency and reflective area of the retroreflector(s) used. See Accessories section for more information.
116
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MINI-BEAM® Expert™ Sensors
P
Visible red, 650 nm
MINI-BEAM Expert Series Polarized Retroreflective Clear Object Detection
Models
Range*
Supply
Voltage
Cable
Output
Type
Excess Gain
Beam Pattern
1000
SME312LPC
SME312LPC
SME312LPCQD
1m
5-wire 2 m (6.5')
(3.3') with
supplied
5-Pin Euro-style QD
reflector
10-30V dc
Bipolar
NPN/PNP
E
X
C
E
S
S
G
A
I
N
100
with BRT-77X77
Reflector
Retroreflective
Mode
SME312LPC
150 mm
6 in
Retroreflective Mode
100 mm
4 in
50 mm
10
2 in
with BRT-2X2
Reflector
0
with BRT-2X2
Reflector
with BRT-77X77
Reflector
0
50 mm
2 in
100 mm
4 in
150 mm
1
.01 m
.033 ft
.1 m
.33 ft
1.0 m
3.3 ft
6 in
0
10 .0 m
33 ft
.5 m
1.7 ft
1m
3.3 ft
1.5 m
5 ft
2m
6.6 ft
2.5 m
8.3 ft
DISTANCE
DISTANCE
*NOTE: Sensing range will vary, according to the efficiency and reflective area of the retroreflector(s) used. For these low-contrast
applications, the model BRT-2X2 (2" x 2") reflector is recommended, and one is bundled with each SME312LPC(QD) sensor.
• For applications that involve high levels of vibration, the model BRT-36x40BM, with its micro-prism geometry, is recommended.
• For long-range applications, the BRT-77X77C reflector provides a range up to 2 m (6.5').
• SME312LPC(QD) are for use with corner cube type reflectors only; reflective tape is not recommended.
See the Accessories section for more information.
Infrared, 880 nm
†
Note: Divergent diffuse models recommended for sensing clear materials.
D Models
W Models
MINI-BEAM Expert Series Diffuse Mode
Models
Range
Cable
Supply
Voltage
Output
Type
Excess Gain
Beam Pattern
Performance based on 90% reflectance white test card
1000
SME312D
SME312D
SME312DQD
380 mm
(15")
5-wire 2 m (6.5')
10-30V dc
5-Pin Euro-style QD
Bipolar
NPN/PNP
E
X
C
E
S
S
Diffuse Mode
100
SME312D
15 mm
0.4 in
5 mm
0.2 in
0
G
A
I
N
10
0
5 mm
0.2 in
10 mm
0.4 in
15 mm
1
1 mm
.04 in
10 mm
.4 in
100 mm
4 in
0.6 in
0
1000 mm
40 in
75 mm 150 mm 225 mm 300 mm 375 mm
3.0 in
6.0 in
9.0 in 12.0 in 15.0 in
DISTANCE
Divergent Diffuse†
SME312W
SME312WQD
130 mm
(5")
DISTANCE
1000
SME312W
E
X
C
E
S
S
5-wire 2 m (6.5')
10-30V dc
5-Pin Euro-style QD
0.6 in
Diffuse Mode
10 mm
Bipolar
NPN/PNP
G
A
I
N
Diffuse Mode
100
SME312W
22.5 mm
0.9 in
Diffuse Mode
15.0 mm
0.6 in
7.5 mm
0.3 in
0
10
0
7.5 mm
0.3 in
15.0 mm
0.6 in
22.5 mm
1
1 mm
.04 in
10 mm
.4 in
100 mm
4 in
DISTANCE
1000 mm
40 in
0.9 in
0
25 mm
1.0 in
50 mm
2.0 in
75 mm 100 mm 125 mm
3.0 in
4.0 in
5.0 in
DISTANCE
NOTES: i) 9 m (30') cables are available by adding suffix “W/30” to the model number of any cabled sensor (e.g., SME312D W/30)
ii) A model with a QD connector requires a mating cable. See page 152 and the Accessories section for more information.
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117
MINI-BEAM® Expert™ Sensors
The SME312DV sensors are effective for sensing specular surfaces such as semi-conductor
wafers, disk drive media, glass and machined surfaces. The collimated optics of the SME312DV
also permits the sensor to be mounted against clear container walls, view ports and other types of
optical “feed-throughs.”
Visible red, 650 nm
MINI-BEAM Expert Series Diffuse Mode
Models
Range
Supply
Voltage
Cable
Output
Type
Excess Gain
Beam Pattern
Performance based on 90% reflectance white test card
1000
SME312DV
SME312DVQD
1100 mm
(43")
5-wire 2 m (6.5')
10-30V dc
5-Pin Euro-style QD
Bipolar
NPN/PNP
E
X
C
E
S
S
G
A
I
N
SME312DV
SME312DV
30 mm
Diffuse Mode
100
1.20 in
Diffuse
Mode
20 mm
0.80 in
10 mm
0.40 in
0
10
0
10 mm
0.40 in
20 mm
0.80 in
30 mm
1
10 mm
0.4 in
100 mm
4 in
1000 mm
40 in
DISTANCE
10000 mm
400 in
1.20 in
0
300 mm 600 mm 900 mm 1200 mm 1500 mm
12.0 in 24.0 in 36.0 in 48.0 in 60.0 in
DISTANCE
NOTES: i) 9 m (30') cables are available by adding suffix “W/30” to the model number of any cabled sensor (e.g., SME312DV W/30)
ii) A model with a QD connector requires a mating cable. See page 152 and the Accessories section for more information.
118
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MINI-BEAM® Expert™ Sensors
See Sensing Beam Information Below
MINI-BEAM Expert Series Convergent Mode
Models
Focus
Supply
Voltage
Cable
Output
Type
Excess Gain
Performance based on 90% reflectance white test card
Visible Red 650 nm
1000
SME312CV
E
X
C
E
S
S
16 mm
(0.65")
SME312CV
SME312CVQD
5-wire 2 m (6.5')
Spot Size
at Focus: 5-Pin Euro-style QD
1.3 mm
(0.05")
Beam Pattern
10-30V dc
Bipolar
NPN/PNP
G
A
I
N
Convergent Mode
SME312CV
3.0 mm
0.12 in
Convergent Mode
100
2.0 mm
0.08 in
1.0 mm
0.04 in
0
10
0
1.0 mm
0.04 in
2.0 mm
0.08 in
3.0 mm
1
1 mm
.04 in
10 mm
.4 in
100 mm
4 in
0.12 in
0
1000 mm
40 in
7.5 mm
0.3 in
15 mm 22.5 mm 30 mm 37.5 mm
0.6 in
0.9 in
1.2 in
1.5 in
DISTANCE
DISTANCE
1000
SME312CV2
43 mm
(1.7")
SME312CV2
SME312CV2QD
5-wire 2 m (6.5')
Spot Size
at Focus: 5-Pin Euro-style QD
3.0 mm
(0.12")
10-30V dc
Bipolar
NPN/PNP
E
X
C
E
S
S
G
A
I
N
Convergent Mode
SME312CV2
3.0 mm
0.12 in
Convergent Mode
100
2.0 mm
0.08 in
1.0 mm
0.04 in
0
10
1
1 mm
.04 in
10 mm
.4 in
100 mm
4 in
0
1.0 mm
0.04 in
2.0 mm
0.08 in
3.0 mm
0.12 in
0
1000 mm
40 in
25 mm
1 in
50 mm
2 in
75 mm 100 mm 125 mm
3 in
4 in
5 in
DISTANCE
DISTANCE
Visible Green 525 nm*
16 mm
(0.65")
SME312CVG
SME312CVGQD
5-wire 2 m (6.5')
Spot Size
at Focus: 5-Pin Euro-style QD
1.0 mm
(0.04")
10-30V dc
Bipolar
NPN/PNP
Visible Blue 475 nm*
1000
16 mm
(0.65")
SME312CVB
SME312CVBQD
5-wire 2 m (6.5')
Spot Size
at Focus: 5-Pin Euro-style QD
1.8 mm
(0.07")
10-30V dc
Bipolar
NPN/PNP
E
X
C
E
S
S
SME312CVG
SME312CVB
SME312CVW
100
Convergent Mode
1.0 mm
Convergent Mode
0.04 in
0.08 in
0
G
A
I
N
10
1
1 mm
.04 in
10 mm
.4 in
100 mm
4 in
DISTANCE
Visible White 450-650 nm*
SME312CVG
SME312CVB
SME312CVW
0.12 in
2.0 mm
3.0 mm
1000 mm
40 in
0
1.0 mm
0.04 in
2.0 mm
0.08 in
3.0 mm
0.12 in
0
7.5 mm
0.3 in
15 mm 22.5 mm 30 mm 37.5 mm
0.6 in
0.9 in
1.2 in
1.5 in
DISTANCE
16 mm
(0.65")
SME312CVW
SME312CVWQD
5-wire 2 m (6.5')
Spot Size
at Focus: 5-Pin Euro-style QD
1.8 mm
(0.07")
10-30V dc
Bipolar
NPN/PNP
*Note: Green, blue, and white LED models are recommended for color mark sensing applications. Consult your local or factory sales engineer for
model selection assistance.
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
119
MINI-BEAM® Expert™ Sensors
See Sensing Beam Information Below
MINI-BEAM Expert Series Glass Fiber Optic
Models
Range
Supply
Voltage
Cable
Output
Type
Excess Gain
Beam Pattern
Diffuse mode performance based on 90% reflectance white test card
OPPOSED MODE – INDIVIDUAL FIBERS
Infrared 880 nm
1000
E
X
C
E
S
S
G
A
I
N
Range
varies by
sensing 5-wire 2 m (6.5')
mode
and fiber 5-Pin Euro-style QD
optics
used
SME312F
SME312FQD
SME312F
Opposed Mode
Glass Fibers
100
SME312F
75 mm
3 in
Opposed Mode
50 mm
2 in
25 mm
IT23S Fibers
w/L9 lenses
10
IT13S
Fibers
1
.01 m
.033 ft
IT23S
Fibers
.1 m
.33 ft
1 in
0
IT13S
IT23S
1 in
50 mm
2 in
75 mm
1m
3.3 ft
3 in
0
10 m
33 ft
100 mm 200 mm 300 mm 400 mm 500 mm
4 in
8 in
12 in
16 in
20 in
DISTANCE
DISTANCE
10-30V dc
Bipolar
NPN/PNP
0
25 mm
DIFFUSE MODE – BIFURCATED FIBERS
1000
SME312F
E
X
C
E
S
S
G
A
I
N
1.9 mm
Diffuse Mode
Glass Fibers
100
0.075 in
SME312F
1.3 mm
0.050 in
Diffuse Mode
0.025 in
0.65 mm
0
BT23S Fiber
10
BT23S
10 mm
.4 in
100 mm
4 in
0
0.65 mm
0.025 in
1.3 mm
0.050 in
0.075 in
1.9 mm
BT13S Fiber
1
1 mm
.04 in
BT13S
0
1000 mm
40 in
7.5 mm
0.3 in
15 mm 22.5 mm 30 mm 37.5 mm
0.6 in
0.9 in
1.2 in
1.5 in
DISTANCE
DISTANCE
OPPOSED MODE – INDIVIDUAL FIBERS
Visible Red 650 nm
1000
E
X
C
E
S
S
G
A
I
N
SME312FV
SME312FVQD
Range
varies by
sensing 5-wire 2 m (6.5')
mode
and fiber 5-Pin Euro-style QD
optics
used
SME312FV
IT23S Fiber
10
Bipolar
NPN/PNP
1 in
0
IT13S
IT23S
0
25 mm
1 in
50 mm
2 in
75 mm
3 in
IT13S Fiber
0
10 mm
.40 in
100 mm
4.0 in
1000 mm
40 in
50 mm 100 mm 150 mm 200 mm 250 mm
2 in
4 in
6 in
8 in
10 in
DISTANCE
DIFFUSE MODE – BIFURCATED FIBERS
1000
SME312FV
E
X
C
E
S
S
SME312FV
1.95 mm
Diffuse Mode
100
0.075 in
Diffuse Mode
1.30 mm
0.050 in
0.65 mm
0.025 in
0
10
BT23S Fiber
1 mm
.04 in
BT13S
BT23S
10 mm
.40 in
DISTANCE
100 mm
4 in
0
0.65 mm
0.025 in
1.30mm
0.050 in
1.95 mm
BT13S Fiber
1
.1 mm
.004 in
120
2 in
25 mm
DISTANCE
10-30V dc
3 in
Opposed Mode
50 mm
100
1
1 mm
.04 in
G
A
I
N
NOTES:
SME312FV
75 mm
Opposed Mode
0.075 in
0
5 mm
0.2 in
10 mm
0.4 in
15 mm
0.6 in
20 mm
0.8 in
25 mm
1.0 in
DISTANCE
i)
9 m (30') cables are available by adding suffix “W/30” to the model number of any cabled sensor (e.g., SME312F W/30)
ii)
A model with a QD connector requires a mating cable. See page 152 and the Accessories section for more information.
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
MINI-BEAM® Expert™ Sensors
See Sensing Beam Information Below
MINI-BEAM Expert Series Glass Fiber Optic
Models
Range
Cable
Supply
Voltage
Output
Type
Excess Gain
DIFFUSE MODE – BIFURCATED FIBERS
Visible Green 525 nm
SME312FVG
SME312FVGQD
Range
varies by
sensing 5-wire 2 m (6.5')
mode
and fiber 5-Pin Euro-style QD
optics
used
Beam Pattern
Diffuse mode performance based on 90% reflectance white test card
10-30V dc
Bipolar
NPN/PNP
Visible Blue 475 nm
1000
SME312FVB
SME312FVBQD
Range
varies by
sensing 5-wire 2 m (6.5')
mode
and fiber 5-Pin Euro-style QD
optics
used
10-30V dc
Bipolar
NPN/PNP
E
X
C
E
S
S
G
A
I
N
SME312FVG
SME312FVB
SME312FVW
Diffuse Mode
100
BT23S Fiber
BT13S Fiber
1 mm
.04 in
10 mm
.40 in
DISTANCE
1.0 mm
Diffuse Mode
0.04 in
0
10
1
.1 mm
.004 in
SME312FVG
SME312FVB
SME312FVW
0.12 in
2.0 mm
3.0 mm
100 mm
4 in
BT13S
0.08 in
0
BT23S
1.0 mm
0.04 in
2.0 mm
0.08 in
3.0 mm
0.12 in
0
8 mm
0.3 in
16 mm
0.6 in
24 mm
0.9 in
32 mm
1.2 in
40 mm
1.5 in
DISTANCE
Visible White 450-650 nm
SME312FVW
SME312FVWQD
Range
varies by
sensing 5-wire 2 m (6.5')
mode
and fiber 5-Pin Euro-style QD
optics
used
10-30V dc
Bipolar
NPN/PNP
Note: Green, blue, and white LED models are recommended for color mark sensing applications. Consult your local or factory sales engineer for
model selection assistance.
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
121
MINI-BEAM® Expert™ Sensors
See Sensing Beam Information Below
MINI-BEAM Expert Series Plastic Fiber Optic
Models
Range
Supply
Voltage
Cable
Output
Type
Excess Gain
Beam Pattern
Diffuse mode performance based on 90% reflectance white test card
OPPOSED MODE – INDIVIDUAL FIBERS
Visible Red 650 nm
1000
SME312FP
E
X
C
E
S
S
SME312FP
45 mm
Opposed Mode
Plastic Fibers
100
1.2 in
15 mm
0.6 in
0
SME312FP
SME312FPQD
Range
varies by
sensing 5-wire 2 m (6.5')
mode
and fiber 5-Pin Euro-style QD
optics
used
10
PIT26U Fiber
15 mm
0.6 in
30 mm
1.2 in
45 mm
1
1 mm
.04 in
10 mm
.40 in
100 mm
4.0 in
1.8 in
0
1000 mm
40 in
25 mm
1 in
50 mm
2 in
Bipolar
NPN/PNP
DIFFUSE MODE – BIFURCATED FIBERS
1000
SME312FP
E
X
C
E
S
S
G
A
I
N
SME312FP
3.8 mm
Diffuse Mode
Plastic Fibers
100
0.10 in
1.2 mm
0.05 in
0
10
1.2 mm
0.05 in
2.5 mm
0.10 in
10 mm
.4 in
100 mm
4 in
0.15 in
0
7.5 mm
0.3 in
15 mm 22.5 mm 30 mm 37.5 mm
0.6 in
0.9 in
1.2 in
1.5 in
DISTANCE
DISTANCE
DIFFUSE MODE – BIFURCATED FIBERS
Visible Green 525 nm
SME312FPG
SME312FPGQD
10-30V dc
Bipolar
NPN/PNP
Visible Blue 475 nm
SME312FPB
SME312FPBQD
Range
varies by
sensing 5-wire 2 m (6.5')
mode
and fiber 5-Pin Euro-style QD
optics
used
1000
E
X
C
E
S
S
10-30V dc
Bipolar
NPN/PNP
SME312FPW
SME312FPWQD
NOTES:
122
G
A
I
N
SME312FPG
SME312FPB
SME312FPW
100
1 mm
.04 in
10 mm
.4 in
DISTANCE
10-30V dc
Diffuse Mode
Plastic Fiber
1.0 mm
PBT46U Fiber
10
SME312FPG
SME312FPB
SME312FPW
3.0 mm
2.0 mm
Diffuse Mode
Plastic Fiber
1
.1 mm
.004 in
Visible White 450-650 nm
Range
varies by
sensing 5-wire 2 m (6.5')
mode
and fiber 5-Pin Euro-style QD
optics
used
0
PBT46U
PBT26U
3.8 mm
PBT26U Fiber
1 mm
.04 in
0.15 in
Diffuse Mode
2.5 mm
PBT46U Fiber
1
.1 mm
.004 in
Range
varies by
sensing 5-wire 2 m (6.5')
mode
and fiber 5-Pin Euro-style QD
optics
used
75 mm 100 mm 125 mm
3 in
4 in
5 in
DISTANCE
DISTANCE
10-30V dc
0
PIT46U
PIT26U
PIT46U Fiber
G
A
I
N
1.8 in
Opposed Mode
30 mm
100 mm
4 in
0
0.12 in
0.08 in
0.04 in
0
PBT46U
1.0 mm
0.04 in
2.0 mm
0.08 in
3.0 mm
0.12 in
0
4 mm
0.15 in
8 mm
0.30 in
12 mm
0.45 in
16 mm
0.60 in
20 mm
0.75 in
DISTANCE
Bipolar
NPN/PNP
i)
9 m (30') cables are available by adding suffix “W/30” to the model number of any cabled sensor (e.g., SME312FPB W/30)
ii)
A model with a QD connector requires a mating cable. See page 152 and the Accessories section for more information.
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
MINI-BEAM® Expert™ Sensors
MINI-BEAM Expert Series Specifications
Supply Voltage and Current
10 to 30V dc (10% maximum ripple) at less than 45 mA, exclusive of load
Supply Protection Circuitry
Protected against reverse polarity and transient voltages
Output Configuration
Bipolar: One current sourcing (PNP) and one current sinking (NPN) open-collector transistor
Output Rating
150mA maximum each output at 25°C, derated to 100 mA at 70°C (derate ≈1 mA per °C)
Off-state leakage current: less than 5µA @ 30V dc
Output saturation voltage (PNP output) less than 1 volt at 10 mA and less than 2 volts at 150 mA
Output saturation voltage (NPN output) less than 200 millivolts at 10 mA and less than 1 volt at 150 mA
Output Protection Circuitry
Protected against false pulse on power-up and continuous overload or short-circuit of outputs
Output Response Time
Sensors will respond to either a “light” or a “dark” signal of 500 micro seconds or longer duration, 1 kHz max.
NOTE: 1 second delay on power-up; outputs are non-conducting during this time.
Repeatability
100 microseconds (all models)
Adjustments
Push-button TEACH mode sensitivity setting; remote TEACH mode input is provided (gray wire)
Indicators
Two LEDs: Yellow and Bi-color Green/Red
Green (RUN Mode):
ON when power is applied
Flashes when received light level approaches the switching threshold
Red (TEACH Mode):
OFF when no signal is received.
Pulses to indicate signal strength (received light level). Rate is proportional to
signal strength (the stronger the signal, the faster the pulse rate). This is a
function of Banner’s patented Alignment Indicating Device (AID™, US patent
4356393).
Yellow (TEACH Mode): ON to indicate sensor is ready to learn output ON condition
OFF to indicate sensor is ready to learn output OFF condition
Yellow (RUN Mode):
ON when outputs are conducting
Construction
Reinforced thermoplastic polyester housing, totally encapsulated, o-ring seal, acrylic lenses, and stainless
steel screws.
Environmental Rating
Meets NEMA standards 1, 2, 3, 3S, 4, 4X, 6, 12, and 13; IEC IP67
Connections
PVC-jacketed 5-conductor 2 m (6.5') or 9 m (30') unterminated cable, or 5-pin Euro-style
quick-disconnect (QD) fitting are available. QD cables are ordered separately; see page 152.
Operating Conditions
Temperature:
-20° to +70°C (-4° to +158°F)
Maximum relative humidity: 90% at 50°C (non-condensing)
Application Notes
The first condition presented during TEACH mode becomes the output ON condition.
Certifications
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
123
MINI-BEAM® Expert™ Sensors
MINI-BEAM Expert Hookup Diagrams
MINI-BEAM Expert Series Sensor
(Cabled models)
bn
bu
wh
bk
gy
124
+
10 - 30V dc
–
Load
Load
Remote
Teach
MINI-BEAM Expert Series Sensor
(Quick-disconnect models)
bn
bu
wh
Load
bk
Load
gy
+
10 - 30V dc
–
Remote
Teach
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
MINI-BEAM® Expert™ Sensors
MINI-BEAM Expert Dimensions
MINI-BEAM Expert Series Sensor
(models with suffix LP, LPC, D, DV, CV, CV2, CVG, CVB and CVW)
Cabled Models
Quick-Disconnect Models
3.2 mm
(0.13")
12.2 mm (0.48")
30.7 mm
(1.21")
ø 3 mm Clearance (2)
24.1 mm
(0.95")
M18 x 1 x 15 mm Thread
(Mounting Nut Supplied)
20.0 mm
(0.79")
2 m (6.5') Cable
Mounting Peg
(ø 6.3 mm x 2.5 mm)
12 mm Thread
Quick-disconnect
19.1 mm
(0.75")
66.0 mm
(2.60")
27.4 mm (1.08")
MINI-BEAM Expert Series Sensor
Divergent Diffuse Mode
(models with suffix W)
MINI-BEAM Expert Series Sensor
Glass Fiber Optic
(models with suffix F, FV, FVG, FVB and FVW)
Bezel
18.0 mm
(0.71")
51.8 mm
(2.04")
13.2 mm
(0.52")
MINI-BEAM Expert Series Sensor
Plastic Fiber Optic
(models with suffix FP, FPG, FPB and FPW)
69.9 mm
(2.75")
31.2 mm
(1.23")
MINI-BEAM Expert Sensor - Rear View
Fiber Optic Fitting
TE
54.8 mm
(2.16")
H
AC
16.2 mm (0.64")
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
125
MINI-BEAM® Sensors
MINI-BEAM Sensors
•
•
•
•
Select 4-wire dc or simple 2-wire ac models
DC models have bipolar outputs (one NPN and one PNP)
Rear-panel light/dark operate switch
DC models include patented Alignment Indicating Device (AID™)
signal strength monitoring indicator
475 nm visible blue and 525 nm green light sensors provide an
economical solution to a large percentage of mainstream color mark
applications; they reliably sense many difficult color combinations,
including yellow-against-white and pink-against-white
2 m (6.5') is standard integral cable length; 9 m (30') is also
available
Integral quick-disconnect (QD) fitting is standard;
150 mm (6 in) pigtail QD is also available
DC models may be ordered with 0.3 millisecond response (use model
suffix “MHS”)
•
•
MINI-BEAM Glass Fiber Optic sensors (left) and
MINI-BEAM with visible blue LED sensors (right) shown
•
•
MINI-BEAM Sensing Mode Options
Opposed
Diffuse
Retroreflective
Convergent
Glass and Plastic Fiber Optic
Infrared, 880 nm
MINI-BEAM Opposed Mode Emitter (E) and Receiver (R)
Models
SM31E
SM31R
SM31EQD
SM31RQD
SMA31E
SM2A31R
SMA31EQD
SM2A31RQD
SM31EL
SM31RL
SM31ELQD
SM31RLQD
SMA31EL
SM2A31RL
SMA31ELQD
SM2A31RLQD
126
Range
3m
(10')
30 m
(100')
Cable
2 m (6.5')
2 m (6.5')
4-Pin Euro QD
4-Pin Euro QD
Supply
Voltage
Output
Type
10-30V dc
Bipolar
NPN/PNP
Excess Gain
Beam Pattern
Effective Beam: 3.5 mm
1000
E
X
C
E
S
S
SM31E & SM31R,
SMA31E & SM2A31R
Opposed Mode
100
300 mm
SM31E & SM31R,
SMA31E & SM2A31R
12.0 in
200 mm
Opposed Mode
8.0 in
100 mm
4.0 in
0
2 m (6.5')
2 m (6.5')
3-Pin Micro QD
3-Pin Micro QD
2 m (6.5')
2 m (6.5')
4-Pin Euro QD
4-Pin Euro QD
2 m (6.5')
2 m (6.5')
3-Pin Micro QD
3-Pin Micro QD
24-240V ac
SPST
Solid-state
2-Wire
G
A
I
N
10
0
100 mm
4.0 in
200 mm
8.0 in
300 mm
1
.01 m
.033 ft
.10 m
.33 ft
1.0 m
3.3 ft
12.0 in
0
10 m
33 ft
.6 m
2 ft
1.2 m
4 ft
1000
10-30V dc
24-240V ac
SPST
Solid-state
2-Wire
E
X
C
E
S
S
G
A
I
N
2.4 m
8 ft
Effective Beam: 13 mm
SM31EL & SM31RL,
SMA31EL & SM2A31RL
Opposed Mode
100
750 mm
SM31EL & SM31RL,
SMA31EL & SM2A31RL
30.0 in
500 mm
Opposed Mode
20.0 in
250 mm
10.0 in
0
10
0
250 mm
10.0 in
500 mm
20.0 in
750 mm
1
.1 m
.33 ft
1.0 m
3.3 ft
10 m
33 ft
DISTANCE
3.0 m
10 ft
DISTANCE
DISTANCE
Bipolar
NPN/PNP
1.8 m
6 ft
100 m
330 ft
30.0 in
0
6m
20 ft
12 m
40 ft
18 m
60 ft
24 m
80 ft
30 m
100ft
DISTANCE
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
MINI-BEAM® Sensors
Visible red, 650 nm
•
•
•
•
Unique optical arrangement actively detects clear plastic in the beam
Clear plastic is reliably detected and differentiated from all other material
Commonly used for manufacture or processing of clear plastic bottles or webs
All MINI-BEAM Clear Plastic Detection System sensors include a mounting bracket
MINI-BEAM Opposed Mode Clear Plastic Detection System
Models
SM31EPD
SM31RPD
SM31EPDQD
SM31RPDQD
SMA31EPD
SM2A31RPD
SMA31EPDQD
SM2A31RPDQD
Range
0 - 0.3 m
(0 - 1')
Supply
Voltage
Output
Type
2 m (6.5')
2 m (6.5')
4-Pin Euro QD
4-Pin Euro QD
10-30V dc
Bipolar
NPN/PNP
2 m (6.5')
2 m (6.5')
3-Pin Micro QD
3-Pin Micro QD
24-240V ac
SPST
Solid-state
2-Wire
Cable
Application Information
Actual Range is dependent upon the light transmission
properties of the plastic material being sensed.
Some clear plastic materials may not be detected due to
their molecular structure. When in doubt, ask your
salesperson to evaluate material samples.
Infrared, 880 nm
D Models
DBZ and W Models
MINI-BEAM Diffuse Mode
Models
Range
Cable
Supply
Voltage
Output
Type
Excess Gain
Beam Pattern
Performance based on 90% reflectance white test card
1000
SM312D
SM312DQD
2 m (6.5')
4-Pin Euro QD
10-30V dc
Bipolar
NPN/PNP
380 mm
(15")
SM2A312D
SM2A312DQD
E
X
C
E
S
S
SM312D
SM2A312D
Diffuse Mode
SM312D, SM2A312D
15 mm
100
0.6 in
Diffuse Mode
10 mm
0.4 in
5 mm
0.2 in
0
0
2 m (6.5')
3-Pin Micro QD
24-240V ac
SPST
Solid-state
2-Wire
G
A
I
N
10
5 mm
0.2 in
10 mm
0.4 in
0.6 in
15 mm
1
1 mm
.04 in
10 mm
.4 in
100 mm
4 in
0
1000 mm
40 in
75 mm 150 mm 225 mm 300 mm 375 mm
3.0 in
6.0 in
9.0 in 12.0 in 15.0 in
DISTANCE
DISTANCE
1000
SM312DBZ
SM312DBZQD
2 m (6.5')
4-Pin Euro QD
10-30V dc
Bipolar
NPN/PNP
300 mm
(12")
SM2A312DBZ
SM2A312DBZQD
E
X
C
E
S
S
SM312DBZ
SM2A312DBZ
Diffuse Mode
SM312DBZ/SM2A312DBZ
15 mm
Diffuse Mode
100
0.4 in
5 mm
0.2 in
0
0
2 m (6.5')
3-Pin Micro QD
24-240V ac
SPST
Solid-state
2-Wire
G
A
I
N
10
5 mm
0.2 in
10 mm
0.4 in
0.6 in
15 mm
1
1 mm
.04 in
10 mm
.40 in
100 mm
4.0 in
1000 mm
40 in
0
75 mm 150 mm 225 mm 300 mm 375 mm
3.0 in
6.0 in
9.0 in 12.0 in 15.0 in
DISTANCE
DISTANCE
Divergent Diffuse*
SM312W
SM312WQD
2 m (6.5')
4-Pin Euro QD
1000
10-30V dc
Bipolar
NPN/PNP
E
X
C
E
S
S
SM312W
SM2A312W
Diffuse Mode
SM312W, SM2A312W
22.5 mm
100
Diffuse Mode
2 m (6.5')
3-Pin Micro QD
24-240V ac
SPDT
Solid-state
2-Wire
G
A
I
N
10
0.6 in
7.5 mm
0.3 in
0
7.5 mm
0.3 in
15.0 mm
0.6 in
22.5 mm
1
1 mm
.04 in
10 mm
.4 in
100 mm
4 in
DISTANCE
1000 mm
40 in
0.9 in
15.0 mm
0
130 mm
(5")
SM2A312W
SM2A312WQD
0.6 in
10 mm
0.9 in
0
25 mm
1.0 in
50 mm
2.0 in
75 mm 100 mm 125 mm
3.0 in
4.0 in
5.0 in
DISTANCE
*Note: Recommended for sensing clear materials.
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
127
MINI-BEAM® Sensors
Non-Polarized, Polarized
NOTE: Retroreflective range is specified using one model BRT-3
retroreflector (3-inch diameter). Actual sensing range may be more or
less than specified, depending upon the efficiency and reflective area
of the retroreflector(s) in use. See page 722 for more information.
P
Visible red, 650 nm
Non-Polarized
Polarized
MINI-BEAM Retroreflective Mode
Models
Range
Supply
Voltage
Cable
Output
Type
Excess Gain
Non-Polarized
SM312LV
SM312LVQD
1000
2 m (6.5')
4-Pin Euro QD
10-30V dc
Bipolar
NPN/PNP
E
X
C
E
S
S
2 m (6.5')
3-Pin Micro QD
24-240V ac
SPST
Solid-state
2-Wire
G
A
I
N
50 mm
to
2m
(2"
to
SM2A312LVAG
7')
SM2A312LVAGQD
SM2A312LP
SM2A312LPQD
10 mm
to
3m
(0.4"
to
10')
SM312LV, SM2A312LV
75 mm
3.0 in
50 mm
With BRT-3 Reflector
2.0 in
Retroreflective Mode
25 mm
10
1.0 in
0
25 mm
1.0 in
With BRT-3 Reflector
50 mm
75 mm
.10 m
.33 ft
1.0 m
3.3 ft
2.0 in
3.0 in
0
10 m
33 ft
1m
3 ft
2m
6 ft
3m
9 ft
4m
12 ft
5m
15 ft
DISTANCE
DISTANCE
1000
2 m (6.5')
4-Pin Euro QD
10-30V dc
Bipolar
NPN/PNP
E
X
C
E
S
S
SM312LVAG
SM2A312LVAG
Retroreflective Mode
100
With BRT-3 Reflector
SM312LVAG, SM2A312LVAG
75 mm
3.0 in
Retroreflective Mode
50 mm
2.0 in
25 mm
1.0 in
0
2 m (6.5')
3-Pin Micro QD
24-240V ac
SPST
Solid-state
2-Wire
G
A
I
N
2 m (6.5')
4-Pin Euro QD
0
10
25 mm
1.0 in
50 mm
2.0 in
With BRT-3 Reflector
75 mm
1
.01 m
.033 ft
.10 m
.33 ft
1.0 m
3.3 ft
10 m
33 ft
0
.6 m
2 ft
DISTANCE
Polarized Extended Range
SM312LP
SM312LPQD
Retroreflective Mode
100
1
.01 m
.033 ft
Polarized*
SM312LVAG
SM312LVAGQD
SM312LV
SM2A312LV
0
5m
(15')
SM2A312LV
SM2A312LVQD
Beam Pattern
1.2 m
4 ft
1.8 m
6 ft
2.4 m
8 ft
3.0 m
10 ft
DISTANCE
1000
SM312LPQD
10-30V dc
Bipolar
NPN/PNP
E
X
C
E
S
S
Retroreflective Mode
SM312LP/SM2A312LP
60 mm
100
2.4 in
Retroreflective Mode
40 mm
1.6 in
20 mm
0.8 in
0
2 m (6.5')
3-Pin Micro QD
3.0 in
24-240V ac
SPST
Solid-state
2-Wire
G
A
I
N
10
0
20 mm
0.8 in
40 mm
1.6 in
60 mm
1
.01 m
0.03 ft
0.1 m
0.3 ft
1m
3 ft
DISTANCE
10 m
30 ft
With BRT-3 Reflector
0
.6 m
2 ft
1.2 m
4 ft
1.8 m
6 ft
2.4 m
8 ft
2.4 in
3.0 m
10 ft
DISTANCE
*Use polarized models when shiny objects will be sensed.
For Standard MINI-BEAMs:
i) 9 m (30') cables are available by adding suffix “W/30” to the model number of any cabled sensor (e.g. - SM312LV W/30)
ii) A 150 mm (6") long pigtail cable with attached QD connector is available by adding suffix “QDP” to the model number of any
MINI-BEAM sensor (e.g. - SM312LVQDP). See page 152 for more information.
iii) A model with a QD connector requires an accessory mating cable. See pages 152 and the Accessories section for more information.
128
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
MINI-BEAM® Sensors
See Sensing Beam Information Below
MINI-BEAM Convergent Mode
Models
Focus
Cable
Supply
Voltage
Output
Type
2 m (6.5')
4-Pin Euro QD
10-30V dc
16 mm
(0.65")
SM2A312C
SM2A312CQD
2 m (6.5')
3-Pin Micro QD
Beam Pattern
Performance based on 90% reflectance white test card
1000
Infrared 880 nm
SM312C
SM312CQD
Excess Gain
24-240V ac
Bipolar
NPN/PNP
SPST
Solid-state
2-Wire
E
X
C
E
S
S
SM312C,
SM2A312C
Convergent Mode
SM312C, SM2A312C
3.8 mm
100
0.15 in
Convergent Mode
2.5 mm
0.10 in
1.2 mm
0.05 in
0
G
A
I
N
10
0
1.2 mm
0.05 in
2.5 mm
0.10 in
3.8 mm
1
1 mm
.04 in
10 mm
.4 in
100 mm
4 in
0.15 in
0
1000 mm
40 in
25 mm
1 in
DISTANCE
50 mm
2 in
75 mm 100 mm 125 mm
3 in
4 in
5 in
DISTANCE
1000
SM312C2
SM312C2QD
2 m (6.5')
4-Pin Euro QD
10-30V dc
Bipolar
NPN/PNP
43 mm
(1.7")
SM2A312C2
SM2A312C2QD
E
X
C
E
S
S
SM312C2
SM2A312C2
Convergent Mode
SM312C2, SM2A312C2
3.8 mm
100
Convergent Mode
0.10 in
1.2 mm
0.05 in
0
2 m (6.5')
3-Pin Micro QD
24-240V ac
SPST
Solid-state
2-Wire
G
A
I
N
0
10
1.2 mm
0.05 in
2.5 mm
0.10 in
3.8 mm
1
1 mm
.04 in
10 mm
.4 in
100 mm
4 in
1000 mm
40 in
0.15 in
0
25 mm
1 in
DISTANCE
Visible Red 650 nm
SM312CV
SM312CVQD
SM2A312CV
SM2A312CVQD
16 mm
(0.65")
Spot Size
at Focus:
1.3 mm
(0.05")
2 m (6.5')
4-Pin Euro QD
2 m (6.5')
3-Pin Micro QD
0.15 in
2.5 mm
50 mm
2 in
75 mm 100 mm 125 mm
3 in
4 in
5 in
DISTANCE
1000
10-30V dc
24-240V ac
Bipolar
NPN/PNP
SPST
Solid-state
2-Wire
E
X
C
E
S
S
SM312CV
SM2A312CV
Convergent Mode
100
SM312CV, SM2A312CV
3.0 mm
0.08 in
1.0 mm
0.04 in
0
G
A
I
N
10
0
1.0 mm
0.04 in
2.0 mm
0.08 in
3.0 mm
1
1 mm
.04 in
0.12 in
Convergent Mode
2.0 mm
10 mm
.4 in
100 mm
4 in
0.12 in
0
1000 mm
40 in
7.5 mm
0.3 in
15 mm 22.5 mm 30 mm 37.5 mm
0.6 in
0.9 in
1.2 in
1.5 in
DISTANCE
DISTANCE
1000
SM312CV2
SM312CV2QD
SM2A312CV2
SM2A312CV2QD
43 mm
(1.7")
Spot Size
at Focus:
3.0 mm
(0.12")
2 m (6.5')
4-Pin Euro QD
10-30V dc
Bipolar
NPN/PNP
E
X
C
E
S
S
SM312CV2
SM2A312CV2
Convergent Mode
SM312CV2, SM2A312CV2
3.0 mm
100
0.08 in
1.0 mm
0.04 in
0
2 m (6.5')
3-Pin Micro QD
24-240V ac
SPST
Solid-state
2-Wire
G
A
I
N
10
0
1.0 mm
0.04 in
2.0 mm
0.08 in
3.0 mm
1
1 mm
.04 in
0.12 in
Convergent Mode
2.0 mm
10 mm
.4 in
100 mm
4 in
DISTANCE
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
1000 mm
40 in
0.12 in
0
25 mm
1 in
50 mm
2 in
75 mm 100 mm 125 mm
3 in
4 in
5 in
DISTANCE
129
MINI-BEAM® Sensors
Green and blue LED models are recommended for color mark sensing applications.
Consult your local or factory sales engineer for model selection assistance.
See Sensing Beam Information Below
MINI-BEAM Convergent Mode
Models
Focus
Supply
Voltage
Cable
Output
Type
Visible Green 525 nm
SM312CVG
SM312CVGQD
SM2A312CVG
SM2A312CVGQD
16 mm
(0.65")
2 m (6.5')
4-Pin Euro QD
Spot Size
at Focus:
2 m (6.5')
1.0 mm
3-Pin Micro QD
(0.04")
Excess Gain
Beam Pattern
Performance based on 90% reflectance white test card
1000
10-30V dc
24-240V ac
Bipolar
NPN/PNP
SPST
Solid-state
2-Wire
E
X
C
E
S
S
G
A
I
N
SM312CVG,
SM2A312CVG
Convergent Mode
100
SM312CVG, SM2A312CVG
1.20 mm
Convergent Mode
0.030 in
0.40 mm
0.015 in
0
0
10
0.40 mm
0.015 in
0.80 mm
0.030 in
0.045 in
1.20 mm
1
1 mm
.04 in
10 mm
.4 in
100 mm
4 in
0.045 in
0.80 mm
0
1000 mm
40 in
7.5 mm
0.3 in
15 mm 22.5 mm 30 mm 37.5 mm
0.6 in
0.9 in
1.2 in
1.5 in
DISTANCE
DISTANCE
1000
SM312CV2G
SM312CV2G
49 mm
(1.9".)
SM312CV2GQD
2 m (6.5')
10-30V dc
4-Pin Euro QD
Bipolar
NPN/PNP
E
X
C
E
S
S
G
A
I
N
Convergent Mode
SM312CV2G
3.0 mm
2.0 mm
0.08 in
1.0 mm
0.04 in
0
10
0
1.0 mm
0.04 in
2.0 mm
0.08 in
3.0 mm
1
1 mm
.04 in
10 mm
.4 in
100 mm
4 in
0.12 in
0
1000 mm
40 in
25 mm
1 in
50 mm
2 in
1000
Visible Blue 475 nm
SM312CVB
E
X
C
E
S
S
16 mm
(0.65")
SM312CVBQD
2 m (6.5')
Spot Size
at Focus:
1.8 mm
(0.07")
75 mm 100 mm 125 mm
3 in
4 in
5 in
DISTANCE
DISTANCE
SM312CVB
0.12 in
Convergent Mode
100
10-30V dc
4-Pin Euro QD
Bipolar
NPN/PNP
G
A
I
N
Convergent Mode
100
SM312CVB
1.20 mm
Convergent Mode
0.030 in
0.40 mm
0.015 in
0
10
0
0.40 mm
0.015 in
0.80 mm
0.030 in
1.20 mm
1
1 mm
.04 in
10 mm
.4 in
100 mm
4 in
0.045 in
0.80 mm
0.045 in
0
1000 mm
40 in
7.5 mm
0.3 in
15 mm 22.5 mm 30 mm 37.5 mm
0.6 in
0.9 in
1.2 in
1.5 in
DISTANCE
DISTANCE
1000
SM312CV2B
SM312CV2B
SM312CV2BQD
49 mm
(1.9".)
2 m (6.5')
10-30V dc
4-Pin Euro QD
Bipolar
NPN/PNP
E
X
C
E
S
S
Convergent Mode
0.12 in
2.0 mm
0.08 in
1.0 mm
0.04 in
0
G
A
I
N
10
1
1 mm
.04 in
10 mm
.4 in
100 mm
4 in
DISTANCE
130
SM312CV2B
3.0 mm
Convergent Mode
100
1000 mm
40 in
0
1.0 mm
0.04 in
2.0 mm
0.08 in
3.0 mm
0.12 in
0
25 mm
1 in
50 mm
2 in
75 mm 100 mm 125 mm
3 in
4 in
5 in
DISTANCE
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
MINI-BEAM® Sensors
See Sensing Beam Information Below
MINI-BEAM Glass Fiber Optic
Models
Range
Cable
Supply
Voltage
Output
Type
2 m (6.5')
4-Pin Euro QD
E
X
C
E
S
S
10-30V dc
Bipolar
NPN/PNP
G
A
I
N
SM312F / SM2A312F
Opposed Mode
Glass Fibers
100
SM312F/SM2A312F
75 mm
2 in
1 in
25 mm
IT23S Fibers
w/L9 lenses
0
IT13S
10
IT13S
Fibers
IT23S
Fibers
.1 m
.33 ft
IT23S
1 in
50 mm
2 in
3 in
75 mm
1m
3.3 ft
10 m
33 ft
0
100 mm 200 mm 300 mm 400 mm 500 mm
4 in
8 in
12 in
16 in
20 in
DISTANCE
1000
24-240V ac
SPST
Solid-state
2-Wire
E
X
C
E
S
S
G
A
I
N
SM312F
SM2A312F
Diffuse Mode
Glass Fibers
100
1.9 mm
0.050 in
Diffuse Mode
0.65 mm
0.025 in
0
BT23S Fiber
10
BT13S Fiber
BT13S
0
BT23S
0.65 mm
0.025 in
1.3 mm
0.050 in
1.9 mm
10 mm
.4 in
100 mm
4 in
1000 mm
40 in
0.075 in
0
7.5 mm
0.3 in
15 mm 22.5 mm 30 mm 37.5 mm
0.6 in
0.9 in
1.2 in
1.5 in
DISTANCE
DISTANCE
1000
Visible Red 650 nm
2 m (6.5')
4-Pin Euro QD
0.075 in
SM312F/SM2A312F
1.3 mm
1
1 mm
.04 in
E
X
C
E
S
S
10-30V dc
Bipolar
NPN/PNP
G
A
I
N
SM312FV
SM2A312FV
Opposed Mode
100
SM312FV, SM2A312FV
75 mm
3 in
Opposed Mode
50 mm
2 in
25 mm
IT23S Fiber
10
1
1 mm
.04 in
Range
varies by
sensing
mode
and fiber
optics
used
SM2A312FV
SM2A312FVQD
0
25 mm
DISTANCE
2 m (6.5')
3-Pin Micro QD
SM312FV
SM312FVQD
3 in
Opposed Mode
50 mm
1
.01 m
.033 ft
Range
varies by
sensing
mode
and fiber
optics
used
SM2A312F
SM2A312FQD
Beam Pattern
1000
Infrared 880 nm
SM312F
SM312FQD
Excess Gain
Diffuse mode performance based on 90% reflectance white test card
IT13S Fiber
10 mm
.40 in
100 mm
4.0 in
1 in
0
IT13S
IT23S
0
25 mm
1 in
50 mm
2 in
75 mm
3 in
1000 mm
40 in
0
50 mm 100 mm 150 mm 200 mm 250 mm
2 in
4 in
6 in
8 in
10 in
DISTANCE
DISTANCE
1000
2 m (6.5')
3-Pin Micro QD
24-240V ac
SPST
Solid-state
2-Wire
E
X
C
E
S
S
SM312FV
SM2A312FV
SM312FV, SM2A312FV
Diffuse Mode
1.95 mm
100
0.050 in
1.30 mm
0.025 in
0.65 mm
0
G
A
I
N
0.075 in
Diffuse Mode
10
BT23S Fiber
BT13S Fiber
1
.1 mm
.004 in
1 mm
.04 in
BT13S
BT23S
0.025 in
1.30mm
0.050 in
0.075 in
1.95 mm
10 mm
.40 in
DISTANCE
100 mm
4 in
0
0.65 mm
0
5 mm
0.2 in
10 mm
0.4 in
15 mm
0.6 in
20 mm
0.8 in
25 mm
1.0 in
DISTANCE
For Standard MINI-BEAMs:
i) 9 m (30') cables are available by adding suffix “W/30” to the model number of any cabled sensor (e.g. - SM312FV W/30)
ii) A 150 mm (6") long pigtail cable with attached QD connector is available by adding suffix “QDP” to the model number of any
MINI-BEAM sensor (e.g. - SM312FVQDP). See page 152 for more information.
iii) A model with a QD connector requires an accessory mating cable. See pages 152 and the Accessories section for more information
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
131
MINI-BEAM® Sensors
Green and blue LED models are recommended for color mark sensing applications.
Consult your local or factory sales engineer for model selection assistance.
See Sensing Beam Information Below
MINI-BEAM Glass Fiber Optic
Models
Range
Supply
Voltage
Cable
Output
Type
Excess Gain
Visible Green 525 nm
SM312FVG
SM312FVGQD
Range
varies by
sensing
mode
and fiber
optics
used
1000
SM312FVG
E
X
C
E
S
S
2 m (6.5')
10-30V dc
4-Pin Euro QD
Bipolar
NPN/PNP
SM312FVB
SM312FVBQD
Diffuse Mode
SM312FVG
3.0 mm
0.12 in
Diffuse Mode
100
2.0 mm
0.08 in
0.04 in
1.0 mm
BT23S Fiber
0
10
G
A
I
N
BT13S Fiber
1
.1 mm
.004 in
1 mm
.04 in
0
BT23S
BT13S
1.0 mm
0.04 in
2.0 mm
0.08 in
3.0 mm
10 mm
.40 in
0.12 in
0
100 mm
4 in
8 mm
0.3 in
16 mm
0.6 in
DISTANCE
Visible Blue 475 nm
Range
varies by
sensing
mode
and fiber
optics
used
Beam Pattern
Diffuse mode performance based on 90% reflectance white test card
24 mm
0.9 in
32 mm
1.2 in
40 mm
1.5 in
DISTANCE
1000
SM312FVB
E
X
C
E
S
S
2 m (6.5')
10-30V dc
4-Pin Euro QD
Bipolar
NPN/PNP
Diffuse Mode
SM312FVB
3.0 mm
100
0.12 in
Diffuse Mode
2.0 mm
0.08 in
1.0 mm
BT23S Fiber
BT13S Fiber
1
.1 mm
.004 in
1 mm
.04 in
0.04 in
0
10
G
A
I
N
0
BT23S
BT13S
1.0 mm
0.04 in
2.0 mm
0.08 in
3.0 mm
10 mm
.40 in
0.12 in
0
100 mm
4 in
8 mm
0.3 in
16 mm
0.6 in
24 mm
0.9 in
32 mm
1.2 in
40 mm
1.5 in
DISTANCE
DISTANCE
See Sensing Beam Information Below
MINI-BEAM Plastic Fiber Optic
Models
Range
Supply
Voltage
Cable
Output
Type
Excess Gain
Visible Green 525 nm
SM312FPG
SM312FPGQD
Range
varies by
sensing
mode
and fiber
optics
used
1000
SM312FPG
E
X
C
E
S
S
2 m (6.5')
10-30V dc
4-Pin Euro QD
Bipolar
NPN/PNP
G
A
I
N
SM312FPB
SM312FPBQD
132
SM312FPG
Diffuse Mode
Plastic Fiber
100
3.0 mm
0.08 in
0.04 in
0
PBT46U Fiber
10
0
PBT46U
1.0 mm
0.04 in
2.0 mm
0.08 in
3.0 mm
1 mm
.04 in
10 mm
.4 in
0.12 in
0
100 mm
4 in
4 mm
0.15 in
8 mm
0.30 in
12 mm
0.45 in
16 mm
0.60 in
20 mm
0.75 in
DISTANCE
DISTANCE
1000
SM312FPB
E
X
C
E
S
S
2 m (6.5')
10-30V dc
4-Pin Euro QD
0.12 in
Diffuse Mode
2.0 mm
1.0 mm
1
.1 mm
.004 in
Visible Blue 475 nm
Range
varies by
sensing
mode
and fiber
optics
used
Beam Pattern
Diffuse mode performance based on 90% reflectance white test card
Bipolar
NPN/PNP
G
A
I
N
SM312FPB
Diffuse Mode
Plastic Fiber
100
3.0 mm
0.12 in
Diffuse Mode
0.08 in
2.0 mm
0.04 in
1.0 mm
0
10
1
.1 mm
.004 in
0
PBT46U
PBT46U Fiber
1 mm
.04 in
10 mm
.4 in
DISTANCE
100 mm
4 in
1.0 mm
0.04 in
2.0 mm
0.08 in
3.0 mm
0.12 in
0
4 mm
0.15 in
8 mm
0.30 in
12 mm
0.45 in
16 mm
0.60 in
20 mm
0.75 in
DISTANCE
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
MINI-BEAM® Sensors
Visible red, 650 nm
MINI-BEAM Plastic Fiber Optic
Models
Range
Cable
Supply
Voltage
Output
Type
Excess Gain
Beam Pattern
Diffuse mode performance based on 90% reflectance white test card
1000
SM312FP
SM312FPQD
2 m (6.5')
4-Pin Euro QD
10-30V dc
SM312FP
SM2A312FP
Opposed Mode
Plastic Fibers
100
PIT46U Fiber
G
A
I
N
SM312FP/SM2A312FP
45 mm
1.8 in
Opposed Mode
30 mm
1.2 in
15 mm
10
0.6 in
0
PIT26U Fiber
PIT46U
PIT26U
10 mm
.40 in
100 mm
4.0 in
0
15 mm
0.6 in
30 mm
1.2 in
45 mm
1
1 mm
.04 in
Range
varies by
sensing
mode and
fiber
optics
used
SM2A312FP
SM2A312FPQD
Bipolar
NPN/PNP
E
X
C
E
S
S
1.8 in
0
1000 mm
40 in
25 mm
1 in
DISTANCE
50 mm
2 in
75 mm 100 mm 125 mm
3 in
4 in
5 in
DISTANCE
1000
2 m (6.5')
3-Pin Micro QD
24-240V ac
SPST
Solid-state
2-Wire
E
X
C
E
S
S
SM312FP
SM2A312FP
Diffuse Mode
Plastic Fibers
100
SM312FP/SM2A312FP
3.8 mm
0.10 in
1.2 mm
0.05 in
0
G
A
I
N
0.15 in
Diffuse Mode
2.5 mm
PBT46U Fiber
10
PBT26U Fiber
1
.1 mm
.004 in
1 mm
.04 in
PBT26U
PBT46U
0.05 in
2.5 mm
0.01 in
3.8 mm
10 mm
.4 in
DISTANCE
100 mm
4 in
0
1.2 mm
0.015 in
0
7.5 mm
0.3 in
15 mm 22.5 mm 30 mm 37.5 mm
0.6 in
0.9 in
1.2 in
1.5 in
DISTANCE
For Standard MINI-BEAMs:
i) 9 m (30') cables are available by adding suffix “W/30” to the model number of any cabled sensor (e.g. - SM312FP W/30)
ii) A 150 mm (6") long pigtail cable with attached QD connector is available by adding suffix “QDP” to the model number of any
MINI-BEAM sensor (e.g. - SM312FPQDP). See page 152 for more information.
iii) A model with a QD connector requires an accessory mating cable. See pages 152 and the Accessories section for more information.
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
133
MINI-BEAM® Sensors
MINI-BEAM DC Specifications
Supply Voltage and Current
10 to 30V dc (10% maximum ripple) at less than 25 mA (exclusive of load)
Supply Protection Circuitry
Protected against reverse polarity and transient voltages
Output Configuration
Bipolar: One current sourcing (PNP) and one current sinking (NPN) open-collector transistor
Output Rating
150mA maximum each output at 25°C, derated to 100 mA at 70°C (derate ≈1 mA per °C)
Off-state leakage current less than 1 microamp
Output saturation voltage (PNP output) less than 1 volt at 10 mA and less than 2 volts at 150 mA
Output saturation voltage (NPN output) less than 200 millivolts at 10 mA and less than 1 volt at 150 mA
Output Protection Circuitry
Protected against false pulse on power-up and continuous overload or short-circuit of outputs
Output Response Time
Sensors will respond to either a "light" or a "dark" signal of 1 millisecond or longer duration, 500 Hz max.
0.3 millisecond response modification is available. See note below.
(NOTE: 100 millisecond delay on power-up: outputs are non-conducting during this time.)
Repeatability
Opposed: 0.14 milliseconds; Non-Polarized and Polarized Retro, Diffuse, Convergent, Glass and Plastic
Fiber Optic: 0.3 milliseconds. Response time and repeatability specifications are independent of signal strength.
Adjustments
LIGHT/DARK OPERATE select switch, and 15-turn slotted brass screw GAIN (sensitivity) adjustment potentiometer (clutched at both ends of travel). Both controls are located on rear panel of sensor and
protected by a gasketed, clear acrylic cover.
Indicators
Exclusive, patented Alignment Indicating Device system (AID™, US patent #4356393) lights a rear-panel
mounted red LED indicator whenever the sensor sees a "light" condition, with a superimposed pulse rate
proportional to the light signal strength (the stronger the signal, the faster the pulse rate).
Construction
Reinforced thermoplastic polyester housing, totally encapsulated, o-ring sealing, acrylic lenses, and
stainless steel screws.
Environmental Rating
Meets NEMA standards 1, 2, 3, 3S, 4, 4X, 6, 12, and 13; IEC IP67
Connections
PVC-jacketed 4-conductor 2 m (6.5') or 9 m (30') cables, or 4-pin euro-style quick-disconnect (QD) fitting
are available. QD cables are ordered separately. See page 152 and Accessories section.
Operating Conditions
Temperature:
-20° to +70°C (-4° to +158°F)
Maximum relative humidity: 90% at 50°C (non-condensing)
Application Notes
The NPN (current sinking) output of dc MINI-BEAM sensors is directly compatible as an input to Banner
logic modules, including all non-amplified MAXI-AMP and MICRO-AMP modules. MINI-BEAMs are
TTL compatible.
Certifications
Note: DC MINI-BEAMs may be ordered with 0.3 millisecond on/off response by adding suffix “MHS” to the model number
(e.g. - SM312LVMHS). This modification reduces sensing range (and excess gain).
134
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
MINI-BEAM® Sensors
MINI-BEAM DC Hookup Diagrams
DC Sensors with Attached Cable
bn
bk
bn
+
10-30V dc
–
bu
wh
DC Sensors with Quick-Disconnect
(4-Pin Euro-Style)
bu
wh
Load
bk
Load
DC Emitters with Attached Cable
bu
Load
Load
DC Emitters with Quick-Disconnect
(4-Pin Euro-Style)
bn
bn
+
10-30V dc
–
bu
+
10-30V dc
–
+
10-30V dc
–
wh
bk
4-Pin Euro-Style Pin-out
(Cable Connector Shown)
White Wire
Brown Wire
Blue Wire
Black Wire
Quick-Disconnect (QD) Option
DC MINI-BEAM sensors are sold with either a 2 m (6.5') or a 9 m (30') attached PVC-covered cable, or with a 4-pin euro-style
QD cable fitting.
DC QD sensors are identified by the letters “QD” in their model number suffix. Mating cables for QD MINI-BEAM sensors are
model MQDC-415 (straight connector) or MQDC-415RA (right-angled connector). Cables are supplied in a standard length of
5 m (15'). For more information on QD cables, see page 152 and the Accessories section.
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
135
MINI-BEAM® Sensors
MINI-BEAM AC Specifications
Supply Voltage and Current
24 to 240V ac (50/60 Hz), 250V ac max
Supply Protection Circuitry
Protected against transient voltages
Output Configuration
SPST SCR solid-state relay with either normally closed or normally open contact (light/dark operate
selectable); 2-wire hookup
Output Rating
Minimum load current 5 mA; maximum steady-state load capability 300 mA to 50°C ambient (122°F)
100 mA to 70°C ambient (158°F)
Inrush capability 3 amps for 1 second (non repetitive); 10 amps for 1 cycle (non repetitive)
Off-state leakage current less than 1.7 mA rms
On-state voltage drop ≤5 volts at 300 mA load, ≤10 volts at 15 mA load
Output Protection Circuitry
Protected against false pulse on power-up
Output Response Time
Opposed Mode: 2 millisecond on and 1 millisecond off; Non-Polarized and Polarized Retro, Convergent,
Plastic Fiber Optic: 4 milliseconds on and off; Diffuse and Glass Fiber Optic: 8 milliseconds on and off
“OFF” response time specification does not include load response of up to 1/2 ac cycle (8.3 milliseconds).
Response time specification of load should be considered when important.
(NOTE: 300 millisecond delay on power-up.)
Repeatability
Opposed: 0.3 milliseconds; Non-Polarized and Polarized Retro, and Convergent and Plastic Fiber Optic:
1.3 milliseconds; Diffuse and Glass Fiber Optics: 2.6 milliseconds
Response time and repeatability specifications are independent of signal strength.
Adjustments
LIGHT/DARK OPERATE select switch, and 15-turn slotted brass screw GAIN (sensitivity) adjustment potentiometer (clutched at both ends of travel). Both controls are located on rear panel of sensor and
protected by a gasketed, clear acrylic cover.
Indicators
Red indicator LED on rear of sensor is “ON” when the load is energized
Construction
Reinforced thermoplastic polyester housing, totally encapsulated, o-ring sealing, acrylic lenses, and
stainless steel screws
Environmental Rating
Meets NEMA standards 1, 2, 3, 3S, 4, 4X, 6, 12, and 13; IEC IP67
Connections
PVC-jacketed 2-conductor 2 m (6.5ft) or 9 m (30ft) cables, or 3-pin micro-style quick-disconnect (QD)
fitting are available. QD cables are ordered separately. See page 152 and Accessories section.
Operating Conditions
Temperature:
-20° to +70°C (-4° to +158°F)
Maximum Relative Humidity: 90% at 50°C (non-condensing)
Application Notes
i) ac MINI-BEAMs may be destroyed from overload conditions
ii) Use on low voltage requires careful analysis of the load to determine if the leakage current or on-state
voltage of the sensor will interfere with proper operation of the load
iii)The false-pulse protection feature may cause momentary drop-out of the load when the sensor is wired
in series or parallel with mechanical switch contacts
Certifications
136
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
MINI-BEAM® Sensors
MINI-BEAM AC Hookup Diagrams
AC Sensors with Attached Cable
AC Sensors with Quick-Disconnect
(3-Pin Micro-Style)
rd/bk
bn
rd/wh
24-240V ac
bu
24-240V ac
Load
gn
Load
AC Emitters with Quick-Disconnect
(3-Pin Micro-Style)
AC Emitters with Attached Cable
rd/bk
bn
rd/wh
24-240V ac
bu
24-240V ac
gn
3-Pin Micro-Style Pin-out
(Cable Connector Shown)
Green Wire
Red/White
Wire
Red/Black
Wire
Quick-Disconnect (QD) Option
AC MINI-BEAM sensors are sold with either a 2 m (6.5') or a 9 m (30') attached PVC-covered cable, or with a 3-pin micro-style
QD cable fitting.
AC QD sensors are identified by the letters “QD” in their model number suffix. Mating cables for QD MINI-BEAM sensors are
model MQDC-315 (straight connector) or MQDC-315RA (right-angled connector). Cables are supplied in a standard length of
5 m (15'). For more information on QD cables, see page 152 and the Accessories section.
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
137
MINI-BEAM® Sensors
MINI-BEAM Dimensions
MINI-BEAM DC Sensor
3.2 mm (0.13")
MINI-BEAM AC Sensor
12.2 mm (0.48")
30.7 mm
(1.21")
24.1 mm
(0.95")
3.2 mm
(0.13")
12.2 mm (0.48")
30.7 mm
(1.21")
ø 3 mm Clearance (2)
ø 3 mm Clearance (2)
M18 x 1 x 15 mm Thread
(Mounting Nut Supplied)
2 m (6.5') Cable
Mounting Peg
(ø 6.3 mm x 2.5 mm)
19.1 mm (0.75")
24.1 mm
(0.95")
M18 x 1 x 15 mm Thread
(Mounting Nut Supplied)
2 m (6.5') Cable
Mounting Peg
(ø 6.3 mm x 2.5 mm)
19.1 mm
(0.75")
27.4 mm (1.08")
53.3 mm (2.10")
66.0 mm
(2.60")
MINI-BEAM DC Sensor with Quick-Disconnect
27.4 mm (1.08")
MINI-BEAM AC Sensor with Quick-Disconnect
Euro-style
Quick-disconnect
Micro-style
Quick-disconnect
18.5 mm
(0.73")
18.5 mm
(0.73")
NOTE: The above four drawings apply to model suffix E, EL, EPD, R, RL, RPD, LV, LVAG, LP, D, C, C2, CV, CV2, CV2G, CVG, CVB and CV2B.
MINI-BEAM Sensor - Rear View
15 Turn
Sensitivity
Adjustment
and Light/Dark
Operate Switch
“AID” Indicator LED (dc models)
or output status indicator (ac models)
138
Gasketed
Acrylic Cover
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
MINI-BEAM® Sensors
MINI-BEAM Dimensions
MINI-BEAM DC Sensor - Diffuse Mode
(model suffix DBZ and W)
MINI-BEAM AC Sensor - Diffuse Mode
(model suffix DBZ and W)
Bezel
18.0 mm (0.71")
39.1 mm
(1.54")
13.2 mm (0.52")
MINI-BEAM DC Sensor - Glass Fiber Optic
(model suffix F, FV, FVB & FVG)
51.8 mm
(2.04")
MINI-BEAM AC Sensor - Glass Fiber Optic
(model suffix F & FV)
Fiber Optic Fitting
57.5 mm (2.27")
31.2 mm (1.23")
69.9 mm
(2.75")
MINI-BEAM DC Sensor - Plastic Fiber Optic
(model suffix FP, FPB & FPG)
31.2 mm
(1.23")
MINI-BEAM AC Sensor - Plastic Fiber Optic
(model suffix FP)
Fiber Optic Fitting
42.1 mm
(1.66")
16.2 mm
(0.64")
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
54.8 mm
(2.16")
139
MINI-BEAM® Universal Sensors
MINI-BEAM Universal Voltage Sensors
•
Universal supply voltage: 24 to 240V ac or 24 to 240V dc
•
Easy to install with few necessary adjustments
•
3-amp SPDT electromechanical relay
•
Exclusive* Alignment Indicating Device system (AID™) lights
a rear panel LED whenever sensing light is detected;
superimposed pulse rate indicates received light signal
strength
•
Wide array of mounting options
•
Integral, unterminated cables 2 m (6.5') or 9 m (30') long
*U.S. Patent no. 4356393
MINI-BEAM Universal Voltage Sensing Mode Options
Opposed
Retroreflective
Diffuse
Convergent
Glass and Plastic Fiber Optic
Infrared, 880 nm
Universal Voltage Opposed Mode Emitter (E) and Receiver (R)
Models
Range
Supply
Voltage
Cable
Output
Type
Excess Gain
Beam Pattern
1000
SMU31E & SMU31R
SMU31E
SMU31R
3m
(10')
E: 2-wire
2 m (6.5')
R: 5-wire
2 m (6.5')
Universal
SPDT
24 to 240V dc Electroor
mechanical
24 to 240V ac
Relay
E
X
C
E
S
S
G
A
I
N
SMU31E & SMU31R
300 mm
200 mm
4.0 in
0
10
.10 m
.33 ft
1.0 m
3.3 ft
0
100 mm
4.0 in
200 mm
8.0 in
300 mm
12.0 in
0
10 m
33 ft
.6 m
2 ft
1.2 m
4 ft
1000
SMU31RL
30 m
(100')
E: 2-wire
2 m (6.5')
R: 5-wire
2 m (6.5')
Universal
SPDT
24 to 240V dc Electroor
mechanical
24 to 240V ac
Relay
G
A
I
N
2.4 m
8 ft
3.0 m
10 ft
SMU31EL & SMU31RL
SMU31EL & SMU31RL
750 mm
Opposed Mode
100
500 mm
30.0 in
20.0 in
Opposed Mode
250 mm
10.0 in
0
10
1
.1 m
.33 ft
1.0 m
3.3 ft
10 m
33 ft
DISTANCE
140
1.8 m
6 ft
DISTANCE
DISTANCE
SMU31EL
8.0 in
Opposed Mode
100 mm
1
.01 m
.033 ft
E
X
C
E
S
S
12.0 in
Opposed Mode
100
100 m
330 ft
0
250 mm
10.0 in
500 mm
20.0 in
750 mm
30.0 in
0
6m
20 ft
12 m
40 ft
18 m
60 ft
24 m
80 ft
30 m
100ft
DISTANCE
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
MINI-BEAM® Universal Sensors
P
Visible red, 650 nm
Non-Polarized
Polarized
NOTE: Retroreflective range is specified using one model BRT-3
retroreflector (3" diameter). Actual sensing range may be more or less
than specified, depending upon the efficiency and reflective area of
the retroreflector(s) in use. See page 722 for more information.
MINI-BEAM Universal Voltage Series Retroreflective Mode
Models
Range
Supply
Voltage
Cable
Output
Type
Excess Gain
Non-Polarized
SMU315LV
5m
(15')
5-wire 2 m (6.5')
Beam Pattern
1000
SMU315LV
Universal
SPDT
24 to 240V dc Electroor
mechanical
24 to 240V ac
Relay
E
X
C
E
S
S
Retroreflective Mode
100
SMU315LV
75 mm
3.0 in
50 mm
2.0 in
Retroreflective Mode
With BRT-3 Reflector
25 mm
1.0 in
0
G
A
I
N
10
0
25 mm
1.0 in
With BRT-3 Reflector
50 mm
75 mm
1
.01 m
.033 ft
.10 m
.33 ft
1.0 m
3.3 ft
3.0 in
0
10 m
33 ft
1m
3 ft
2m
6 ft
DISTANCE
Polarized Extended Range
SMU315LP
10 mm
to
3m
(0.4"
to
10')
5-wire 2 m (6.5')
2.0 in
3m
9 ft
4m
12 ft
5m
15 ft
DISTANCE
1000
SMU315LP
Universal
SPDT
24 to 240V dc Electroor
mechanical
24 to 240V ac
Relay
E
X
C
E
S
S
Retroreflective Mode
SMU315LP
60 mm
2.4 in
Retroreflective Mode
100
40 mm
1.6 in
20 mm
0.8 in
0
G
A
I
N
10
0
20 mm
With BRT-3 Reflector
0.8 in
40 mm
1.6 in
60 mm
1
.01 m
0.03 ft
0.1 m
0.3 ft
1m
3 ft
10 m
30 ft
With BRT-3 Reflector
0
.6 m
2 ft
1.2 m
4 ft
1.8 m
6 ft
2.4 m
8 ft
2.4 in
3.0 m
10 ft
DISTANCE
DISTANCE
D Models
W Models
Infrared, 880 nm
MINI-BEAM Universal Voltage Series Diffuse Mode
Models
Range
Cable
Supply
Voltage
Output
Type
Excess Gain
Beam Pattern
Performance based on 90% reflectance white test card
1000
SMU315D
SMU315D
380 mm
(15")
5-wire 2 m (6.5')
Universal
SPDT
24 to 240V dc Electroor
mechanical
24 to 240V ac
Relay
E
X
C
E
S
S
G
A
I
N
Diffuse Mode
100
SMU315D
15 mm
0.4 in
5 mm
0.2 in
0
10
1
1 mm
.04 in
10 mm
.4 in
100 mm
4 in
0
5 mm
0.2 in
10 mm
0.4 in
15 mm
0.6 in
0
1000 mm
40 in
75 mm 150 mm 225 mm 300 mm 375 mm
3.0 in
6.0 in
9.0 in 12.0 in 15.0 in
DISTANCE
DISTANCE
Divergent Diffuse
SMU315W
130 mm
(5")
5-wire 2 m (6.5')
0.6 in
Diffuse Mode
10 mm
1000
SMU315W
Universal
SPDT
24 to 240V dc Electroor
mechanical
24 to 240V ac
Relay
E
X
C
E
S
S
G
A
I
N
Diffuse Mode
100
SMU315W
22.5 mm
0.9 in
Diffuse Mode
15.0 mm
0.6 in
7.5 mm
0.3 in
0
10
0
7.5 mm
0.3 in
15.0 mm
0.6 in
22.5 mm
1
1 mm
.04 in
10 mm
.4 in
100 mm
4 in
DISTANCE
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
1000 mm
40 in
0.9 in
0
25 mm
1.0 in
50 mm
2.0 in
75 mm 100 mm 125 mm
3.0 in
4.0 in
5.0 in
DISTANCE
141
MINI-BEAM® Universal Sensors
Visible red, 650 nm
MINI-BEAM Universal Voltage Series Convergent Mode
Models
Focus
Supply
Voltage
Cable
Output
Type
Excess Gain
Visible Red 650 nm
16 mm
(0.65")
SMU315CV
Spot Size
at Focus:
1.3 mm
(0.05")
5-wire 2 m (6.5')
Beam Pattern
Performance based on 90% reflectance white test card
1000
SMU315CV
E
X
C
E
S
S
Universal
SPDT
24 to 240V dc Electroor
mechanical
24 to 240V ac
Relay
G
A
I
N
Convergent Mode
SMU315CV
3.0 mm
0.12 in
Convergent Mode
100
2.0 mm
0.08 in
1.0 mm
0.04 in
0
10
0
1.0 mm
0.04 in
2.0 mm
0.08 in
3.0 mm
1
1 mm
.04 in
10 mm
.4 in
100 mm
4 in
0.12 in
0
1000 mm
40 in
7.5 mm
0.3 in
15 mm 22.5 mm 30 mm 37.5 mm
0.6 in
0.9 in
1.2 in
1.5 in
DISTANCE
DISTANCE
1000
SMU315CV2
43 mm
(1.7")
SMU315CV2
Spot Size
at Focus:
3.0 mm
(0.12")
5-wire 2 m (6.5')
E
X
C
E
S
S
Universal
SPDT
24 to 240V dc Electroor
mechanical
24 to 240V ac
Relay
Convergent Mode
SMU315CV2
3.0 mm
0.12 in
Convergent Mode
100
2.0 mm
0.08 in
1.0 mm
0.04 in
0
G
A
I
N
10
0
1.0 mm
0.04 in
2.0 mm
0.08 in
3.0 mm
1
1 mm
.04 in
10 mm
.4 in
100 mm
4 in
0.12 in
0
1000 mm
40 in
25 mm
1 in
50 mm
2 in
DISTANCE
75 mm 100 mm 125 mm
3 in
4 in
5 in
DISTANCE
Visible red, 650 nm
MINI-BEAM Universal Voltage Series Plastic Fiber Optic Sensors
Models
Range
Supply
Voltage
Cable
Output
Type
Excess Gain
Beam Pattern
Diffuse mode performance based on 90% reflectance white test card
OPPOSED MODE – INDIVIDUAL FIBERS
Visible Red 650 nm
1000
SMU315FP
E
X
C
E
S
S
SMU315FP
Range
varies by
sensing
5-wire 2 m (6.5')
mode
and fiber
optics
used
10
0.6 in
PIT46U
PIT26U
0.6 in
30 mm
1.2 in
45 mm
10 mm
.40 in
100 mm
4.0 in
0
15 mm
1.8 in
0
1000 mm
40 in
25 mm
1 in
50 mm
2 in
75 mm 100 mm 125 mm
3 in
4 in
5 in
DISTANCE
DISTANCE
DIFFUSE MODE – BIFURCATED FIBERS
1000
SMU315FP
E
X
C
E
S
S
G
A
I
N
Diffuse Mode
Plastic Fibers
100
SMU315FP
3.8 mm
0.15 in
Diffuse Mode
2.5 mm
PBT46U Fiber
0.10 in
1.2 mm
0.05 in
0
10
PBT26U Fiber
1
.1 mm
.004 in
1 mm
.04 in
PBT26U
PBT46U
10 mm
.4 in
100 mm
4 in
0
1.2 mm
0.05 in
2.5 mm
0.10 in
3.8 mm
DISTANCE
142
1.2 in
0
PIT26U Fiber
1
1 mm
.04 in
Universal
SPDT
24 to 240V dc
Electroor
mechanical
24 to 240V ac
Relay
1.8 in
Opposed Mode
30 mm
15 mm
PIT46U Fiber
G
A
I
N
SMU315FP
45 mm
Opposed Mode
Plastic Fibers
100
0.15 in
0
7.5 mm
0.3 in
15 mm 22.5 mm 30 mm 37.5 mm
0.6 in
0.9 in
1.2 in
1.5 in
DISTANCE
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
MINI-BEAM® Universal Sensors
See Sensing Beam Information Below
MINI-BEAM Universal Voltage Series Glass Fiber Optic Sensors
Models
Range
Cable
Supply
Voltage
Output
Type
Excess Gain
Beam Pattern
Diffuse mode performance based on 90% reflectance white test card
OPPOSED MODE – INDIVIDUAL FIBERS
Infrared 880 nm
1000
E
X
C
E
S
S
G
A
I
N
SMU315F
Range
varies by
sensing
5-wire 2 m (6.5')
mode
and fiber
optics
used
SMU315F
Opposed Mode
Glass Fibers
100
3 in
Opposed Mode
50 mm
2 in
25 mm
IT23S Fibers
w/L9 lenses
IT13S
Fibers
IT23S
Fibers
.1 m
.33 ft
1m
3.3 ft
1 in
0
10
1
.01 m
.033 ft
Universal
SPDT
24 to 240V dc Electroor
mechanical
24 to 240V ac
Relay
SMU315F
75 mm
IT13S
IT23S
0
25 mm
1 in
50 mm
2 in
75 mm
3 in
0
10 m
33 ft
100 mm 200 mm 300 mm 400 mm 500 mm
4 in
8 in
12 in
16 in
20 in
DISTANCE
DISTANCE
DIFFUSE MODE – BIFURCATED FIBERS
1000
SMU315F
E
X
C
E
S
S
G
A
I
N
Diffuse Mode
Glass Fibers
100
1.9 mm
0.075 in
SMU315F
1.3 mm
0.050 in
Diffuse Mode
0.65 mm
0.025 in
0
BT13S
BT23S Fiber
10
10 mm
.4 in
100 mm
4 in
0
0.65 mm
0.025 in
1.3 mm
0.050 in
1.9 mm
BT13S Fiber
1
1 mm
.04 in
BT23S
0.075 in
0
1000 mm
40 in
7.5 mm
0.3 in
15 mm 22.5 mm 30 mm 37.5 mm
0.6 in
0.9 in
1.2 in
1.5 in
DISTANCE
DISTANCE
OPPOSED MODE – INDIVIDUAL FIBERS
Visible Red 650 nm
1000
E
X
C
E
S
S
G
A
I
N
SMU315FV
Range
varies by
sensing
5-wire 2 m (6.5')
mode
and fiber
optics
used
SMU315FV
Opposed Mode
100
3 in
Opposed Mode
2 in
50 mm
1 in
25 mm
IT23S Fiber
10
1
1 mm
.04 in
Universal
SPDT
24 to 240V dc Electroor
mechanical
24 to 240V ac
Relay
SMU315FV
75 mm
IT13S Fiber
10 mm
.40 in
100 mm
4.0 in
0
IT13S
IT23S
0
25 mm
1 in
50 mm
2 in
75 mm
3 in
0
1000 mm
40 in
50 mm 100 mm 150 mm 200 mm 250 mm
2 in
4 in
6 in
8 in
10 in
DISTANCE
DISTANCE
DIFFUSE MODE – BIFURCATED FIBERS
1000
SMU315FV
E
X
C
E
S
S
G
A
I
N
SMU315FV
1.95 mm
Diffuse Mode
100
0.075 in
Diffuse Mode
0.050 in
1.30 mm
0.025 in
0.65 mm
0
10
BT23S Fiber
1 mm
.04 in
BT23S
10 mm
.40 in
DISTANCE
100 mm
4 in
0
0.65 mm
0.025 in
1.30mm
0.050 in
0.075 in
1.95 mm
BT13S Fiber
1
.1 mm
.004 in
BT13S
0
5 mm
0.2 in
10 mm
0.4 in
15 mm
0.6 in
20 mm
0.8 in
25 mm
1.0 in
DISTANCE
NOTE: i) 9 m (30') cables are available by adding suffix “W/30” to the model number of any cabled sensor (e.g., SMU315FV W/30)
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143
MINI-BEAM® Universal Sensors
MINI-BEAM Universal Voltage Series Specifications
Supply Voltage and Current
Universal voltage: 24 to 240V ac, 50/60Hz or
24 to 240V dc (1.5 watts or 2.5 VA maximum)
Supply Protection Circuitry
Protected against transient voltages. DC hookup is without regard to polarity.
Output Configuration
SPDT (Single-Pole, Double Throw) (form C) electromechanical relay, ON/OFF output.
Output Rating
Maximum switching power (resistive load): 90W, 250VA
Maximum switching voltage (resistive load): 250V ac or 30V dc
Maximum switching current (resistive load): 3A
Minimum voltage and current: 5V dc, 10 mA
Mechanical life: 20,000,000 operations
Electrical life at full resistive load: 100,000 operations
Output Protection Circuitry
Protected against false pulse on power-up.
Output Response Time
Closure time: 20 milliseconds max.
Release time: 20 milliseconds max.
Maximum switching speed: 25 operations per second
Repeatability
All sensing modes: 1 millisecond
Adjustments
Light/Dark Operate select switch, and 15-turn slotted brass screw Gain (sensitivity) adjustment
potentiometer (clutched at both ends of travel). Both controls are located on rear panel of sensor and are
protected by a gasketed, clear acrylic cover.
Indicators
Exclusive, patented Alignment Indicator Device system (AID™ US patent #4356393) lights a rear-panelmounted LED indicator whenever the sensor sees a “light” condition, with a superimposed pulse rate
proportional to the light signal strength (the stronger the signal, the faster the pulse rate).
Construction
Reinforced thermoplastic polyester housing, totally encapsulated, o-ring seal, acrylic lenses, and stainless
steel screws.
Environmental Rating
Meets NEMA standards 1, 2, 3, 3S, 4, 4X, 6, 12, and 13; IEC IP67.
Connections
PVC-jacketed 5-conductor 2 m (6.5') or 9 m (30') unterminated cable. Opposed mode emitter cables are
2-conductor.
Operating Conditions
Temperature:
-20° to +55°C (-4° to +131°F)
Maximum relative humidity: 90% at 50°C (non-condensing)
Application Notes
Install transient suppressor (MOV) across contacts switching inductive loads.
MINI-BEAM Universal Voltage Series Hookup Diagrams
All models except Emitters
Emitters
bn
bu
*Supply Voltage 24-240V ac/dc
wh
NC
ye
bk
bn
bu
C
+
*Supply Voltage 24-240V ac/dc
–
NO
NOTE: Install transient suppressor (MOV) across
contacts switching inductive loads.
* Connection of DC power is without regard to polarity
144
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
MINI-BEAM® Universal Sensors
MINI-BEAM Universal Voltage Series Dimensions
MINI-BEAM Universal Voltage Series Sensor
Opposed, Retroreflective, Diffuse, and Convergent Modes
(models with suffix E, EL, R, RL, LP, LV, D, CV, CV2)
3.2 mm
(0.13")
MINI-BEAM Universal Voltage Series Sensor
Divergent Diffuse Mode
(models with suffix W)
12.2 mm (0.48")
30.7 mm
(1.21")
ø 3 mm (ø 0.11")
Clearance (2)
24.1 mm
(0.95")
Bezel
M18 x 1 x 15 mm Thread
(Mounting Nut Supplied)
2 m (6.5') Cable
Mounting Peg
ø 6.3 mm x 2.5 mm
(ø 0.25" x 0.10")
2 m (6.5') Cable
18.0 mm
(0.71")
19.1 mm
(0.75")
81.0 mm
(3.19")
66.8 mm
(2.63")
13.2 mm (0.52")
27.4 mm (1.08")
MINI-BEAM Universal Voltage Series Sensor
Glass Fiber Optic
(models with suffix F and FV)
MINI-BEAM Universal Voltage Series Sensor
Plastic Fiber Optic
(models with suffix FP)
Fiber Optic Fitting
2 m (6.5') Cable
2 m (6.5') Cable
Fiber Optic
Fitting
85.3 mm
(3.36")
69.8 mm
(2.75")
31.2 mm
(1.23")
16.2 mm (0.64")
Universal Voltage Sensor - Rear View
15 Turn
Sensitivity
Adjustment
and Light/Dark
Operate Switch
Gasketed
Acrylic Cover
"AID" Indicator LED
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145
MINI-BEAM® NAMUR Sensors
NAMUR Intrinsically Safe DC Sensors
Model MIAD9CVQ shown with accessory model SMB312S bracket
and optional MQD9-415RA QD cable
•
Intrinsically safe sensors offering MINI-BEAM performance
and small size
•
Use with approved switching amplifiers which have
intrinsically safe input circuits
•
Output passes ≤ 1.2 mA in the “dark” condition
and ≥ 2.1 mA in the “light” condition
•
Choose models with integral cable or quick disconnect connector
NAMUR Sensing Mode Options
Opposed
Retroreflective
Diffuse
Convergent
Glass Fiber Optic
Opposed
Glass Fiber Optic
Diffuse
Infrared, 880 nm
NAMUR Opposed Mode Emitter (E) and Receiver (R)
Models
Range
Supply
Voltage
Cable
Output
Type
Excess Gain
Beam Pattern
1000
Effective Beam: 13 mm
MI9E/R
MI9E
MIAD9R
MI9EQ
MIAD9RQ
6m
(20')
2 m (6.5')
2 m (6.5')
4-Pin Euro QD
4-Pin Euro QD
5-15V dc
Constant
Current
≤1.2 mA dark
≥2.1 mA light
E
X
C
E
S
S
Opposed Mode
100
MI9E/R
150 mm
6 in
Opposed Mode
100 mm
4 in
50 mm
2 in
0
G
A
I
N
10
0
50 mm
2 in
100 mm
4 in
150 mm
1
.01 m
.033 ft
.10 m
.33 ft
1.0 m
3.3 ft
10 m
33 ft
6 in
0
1.2 m
4 ft
DISTANCE
2.4 m
8 ft
3.6 m
12 ft
4.8 m
16 ft
6m
20 ft
DISTANCE
For NAMUR MINI-BEAMs:
i) 9 m (30') cables are available by adding suffix “W/30” to the model number of any cabled sensor (e.g. - MIAD9R W/30)
ii) A model with a QD connector requires an accessory mating cable. See page 152 and the Accessories section for more information.
iii) The MINI-BEAM mounting bracket shown in the photographs is optional. See page 152 for bracket information.
146
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
MINI-BEAM® NAMUR Sensors
P
Visible red, 650 nm
Non-Polarized
Polarized
NOTE: Retroreflective range is specified using one model
BRT-3 retroreflector (3" diameter). Actual sensing range may
be more or less than specified, depending upon the efficiency
and reflective area of the retroreflector(s) in use. See page 722
for more information.
Non-Polarized, Polarized
NAMUR Retroreflective Mode
Models
Range
Cable
Supply
Voltage
Output
Type
Non-Polarized
MIAD9LV
MIAD9LVQ
5m
(15')
2 m (6.5')
4-Pin Euro QD
Excess Gain
Beam Pattern
1000
MIAD9LV
MIAD9LV
5-15V dc
Constant
Current
≤1.2 mA dark
≥2.1 mA light
E
X
C
E
S
S
100
Retroreflective Mode
Retroreflective Mode
75 mm
3.0 in
With BRT-3 Reflector
50 mm
2.0 in
25 mm
1.0 in
0
G
A
I
N
10
25 mm
1.0 in
50 mm
75 mm
1
.01 m
.033 ft
.10 m
.33 ft
1.0 m
3.3 ft
3.0 in
0
10 m
33 ft
1m
3 ft
MIAD9LVAG
MIAD9LVAGQ
50 mm to
2m
(2" to 7')
2 m (6.5')
4-Pin Euro QD
5-15V dc
Constant
Current
≤1.2 mA dark
≥2.1 mA light
G
A
I
N
3m
9 ft
4m
12 ft
Retroreflective Mode
Retroreflective Mode
75 mm
3.0 in
With BRT-3 Reflector
50 mm
2.0 in
25 mm
1.0 in
0
10
0
MIAD9LVAG
25 mm
1.0 in
50 mm
.10 m
.33 ft
With BRT-3 Reflector
75 mm
MIAD9LVAG
1
.01 m
.033 ft
5m
15 ft
MIAD9LVAG
MIAD9LVAG
100
2m
6 ft
DISTANCE
1000
E
X
C
E
S
S
2.0 in
With BRT-3 Reflector
DISTANCE
Polarized
0
MIAD9LV
1.0 m
3.3 ft
2.0 in
3.0 in
10 m
33 ft
0
1m
3 ft
DISTANCE
2m
6 ft
3m
9 ft
4m
12 ft
5m
15 ft
DISTANCE
Diffuse
Infrared, 880 nm
Divergent Diffuse
NAMUR Diffuse Mode
Models
Range
Cable
Supply
Voltage
Output
Type
380 mm
(15")
2 m (6.5')
4-Pin Euro QD
Beam Pattern
Performance based on 90% reflectance white test card
1000
Diffuse
MIAD9D
MIAD9DQ
Excess Gain
MIAD9DQ
5-15V dc
Constant
Current
≤1.2 mA dark
≥2.1 mA light
E
X
C
E
S
S
MIAD9D
Diffuse Mode
15 mm
100
0.6 in
Diffuse Mode
10 mm
0.4 in
5 mm
0.2 in
0
G
A
I
N
10
1
1 mm
.04 in
10 mm
.4 in
100 mm
4 in
0
5 mm
0.2 in
10mm
0.4 in
15 mm
0.6 in
0
1000 mm
40 in
75 mm 150 mm 225 mm 300 mm 375 mm
3 in
6 in
9 in
12 in
15 in
DISTANCE
DISTANCE
1000
Divergent Diffuse
MIAD9W
MIAD9WQ
75 mm
(3")
2 m (6.5')
4-Pin Euro QD
MIAD9DQ
5-15V dc
Constant
Current
≤1.2 mA dark
≥2.1 mA light
E
X
C
E
S
S
MIAD9W
Divergent
Diffuse Mode
100
15 mm
0.6 in
Divergent Mode
10 mm
0.4 in
5 mm
0.2 in
0
G
A
I
N
10
0
5 mm
0.2 in
10mm
0.4 in
15 mm
1
.01 mm
.004 in
1 mm
.04 in
10 mm
.4 in
DISTANCE
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
100 mm
4 in
0.6 in
0
25 mm
1 in
50 mm
2 in
75 mm 100 mm 125 mm
3 in
4 in
5 in
DISTANCE
147
MINI-BEAM® NAMUR Sensors
Visible red, 650 nm
NAMUR Convergent Mode
Models
Focus
Supply
Voltage
Cable
Output
Type
Excess Gain
Beam Pattern
Performance based on 90% reflectance white test card
1000
MIAD9CV
MIAD9CV
MIAD9CVQ
16 mm
(0.65")
2 m (6.5')
4-Pin Euro QD
5-15V dc
Constant
Current
≤1.2 mA dark
≥2.1 mA light
E
X
C
E
S
S
MIA9DCV
Convergent Mode
3 mm
100
1.2 in
Convergent Mode
2 mm
.08 in
1 mm
.04 in
0
G
A
I
N
10
0
1 mm
.04 in
2 mm
.08 in
3 mm
1
0.1 mm
.004 in
1 mm
.04 in
10 mm
.4 in
1.2 in
0
100 mm
4 in
25 mm
1 in
50 mm
2 in
DISTANCE
75 mm 100 mm 125 mm
3 in
4 in
5 in
DISTANCE
1000
MIAD9CV2
MIAD9CV2
MIAD9CV2Q
43 mm
(1.7")
2 m (6.5')
4-Pin Euro QD
5-15V dc
Constant
Current
≤1.2 mA dark
≥2.1 mA light
E
X
C
E
S
S
MIAD9CV2
Convergent Mode
3 mm
100
1.2 in
Convergent Mode
2 mm
.08 in
1 mm
.04 in
0
G
A
I
N
10
0
1 mm
.04 in
2 mm
.08 in
3 mm
1
1 mm
.04 in
10 mm
.4 in
100 mm
4 in
1.2 in
0
1000 mm
40 in
25 mm
1 in
50 mm
2 in
75 mm 100 mm 125 mm
3 in
4 in
5 in
DISTANCE
DISTANCE
Infrared, 880 nm
NAMUR Glass Fiber Optic
Models
Range
Supply
Voltage
Cable
Output
Type
Excess Gain
Beam Pattern
Diffuse mode performance based on 90% reflectance white test card
1000
E
X
C
E
S
S
MIAD9F
Opposed Mode
Glass Fibers
100
MIAD9F
75 mm
IT23S Fiber
2 in
25 mm
1 in
0
MIAD9F
MIAD9FQ
Range
varies by
sensing
mode
and fiber
optics
used
G
A
I
N
2 m (6.5')
4-Pin Euro QD
5-15V dc
Constant
Current
≤1.2 mA dark
≥2.1 mA light
10
IT13S Fiber
IT13S
IT23S
1
1 mm
.04 in
10 mm
.40 in
100 mm
4.0 in
0
25 mm
1 in
50 mm
2 in
75 mm
3 in
0
1000 mm
40 in
100 mm 200 mm 300 mm 400 mm 500 mm
4 in
8 in
12 in
16 in
20 in
DISTANCE
DISTANCE
1000
MIAD9F
E
X
C
E
S
S
Diffuse Mode
Glass Fibers
100
G
A
I
N
MIAD9F
1.8 mm
.075in
Diffuse Mode
1.2 mm
.050 in
.06 mm
10
1 mm
.04 in
BT13S
BT23S
10 mm
.40 in
DISTANCE
100 mm
4 in
0
.06 mm
.025 in
1.2 mm
.050 in
1.8 mm
BT13S Fiber
1
.1 mm
.004 in
.025 in
0
BT23S Fiber
148
3 in
Opposed Mode
50 mm
.075 in
0
7.5 mm
.3 in
15 mm 22.5 mm 30 mm 37.5 mm
.6 in
.9 in
1.2 in
1.5 in
DISTANCE
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
MINI-BEAM® NAMUR Sensors
NAMUR Specifications
Supply Voltage
5 to 15V dc (provided by the amplifier to which the sensor is connected)
Output
Constant current output: ≤1.2 mA in the “dark” condition and ≥2.1 mA in the “light” condition
Output Response Time
Opposed mode receiver: 2 milliseconds on/400 µs off; all other models: 5 milliseconds on/off (does not
include amplifier response)
Adjustment
15-turn slotted brass screw GAIN (sensitivity) adjustment potentiometer (clutched at both ends of travel);
located on rear panel and protected by a clear gasketed acrylic cover
Indicator
Red LED alignment indicator located on rear panel lights when the sensor sees a “light” condition
Construction
Reinforced thermoplastic polyester housing, totally encapsulated, o-ring sealing, acrylic lenses, and stainless
steel screws
Environmental Rating
Meets NEMA standards 1, 2, 3, 3S, 4, 4X, 6, 12 and 13; IEC IP67
Connections
PVC-jacketed 2-conductor 2 m (6.5') or 9 m (30') cables, or 4-pin euro-style quick-disconnect (QD) fitting
are available; QD cables are ordered separately (see page 152 and Accessories section)
Operating Conditions
Temperature:
-40° to +70°C (-40° to +158°F)
Maximum Relative Humidity: 90% at 50°C (non-condensing)
Design Standards
MIAD9 Series sensors comply with the following standards:
DIN 19 234, EN 50 014 Part 1. 1977, EN50 020 Part 7. 1977, Factory Mutual #3610 and 3611,
CSA 22.2 #157-92 and 22.2 #213-M1987
Exia
Certifications
LISTE D
107674
APPROVALS
CSA:
#LR 41887
Instrinsically Safe, with Entity for:
Class I, Groups A-D
Class I, Div. 2, Groups A-D
FM:
#J.I. 5Y3A4.AX
Intrinsically Safe, with Entity for:
Class I, II, III, Div. 1, Groups A-G
Class I, II, III, Div. 2, Groups A-D and G
KEMA:
#Ex-94.C.7937
EEx ia IIC T6
ETL:
#553868
For NAMUR MINI-BEAMs:
i) 9 m (30') cables are available by adding suffix “W/30” to the model number of any cabled sensor (e.g. - MIADCV W/30)
ii) A model with a QD connector requires an accessory MQD9-4xx mating cable. See pages 152 and the Accessories section for more
information.
iii) The MINI-BEAM mounting bracket shown in the photographs is optional. See page 155 for bracket information.
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149
MINI-BEAM® NAMUR Sensors
NAMUR Hookup Diagrams
Sensors with Attached Cable
Hazardous Area
Sensors with Quick-Disconnect
Non-hazardous Area
Hazardous Area
Associated Apparatus
NAMUR Sensor
NAMUR Sensor
br
bu
+ Sensor
– Input
–
Associated Apparatus
br
+
Power
Non-hazardous Area
≤ 15V dc
bu
Output
+ Sensor
– Input Power
+
–
≤ 15V dc
Output
Entity Parameters
Associated Apparatus
Sensor
Voc ≤ 15V dc
Vmax = 15V dc
Isc ≤ 60 mA
Imax = 60 mA
Ca ≤ *C(cable) + Ci
Ci = 0
La ≤ *L(cable) + Li
Li = 0
*C(cable) = 60 pF/ft
*L(cable) = 0.2 µH/ft
Application Notes
The “Associated Apparatus” may include intrinsically
safe amplifiers and barriers to monitor the sensor
supply current, which is the sensor’s output signal. The
associated apparatus must limit both supply voltage
and supply current in the event of failure.
Euro-Style Pin-out
(Cable Connector Shown)
Blue Wire
Brown Wire
Quick-Disconnect (QD) Option for NAMUR Sensors
MINI-BEAM series MIAD9 NAMUR sensors are sold with either a 2 m (6.5') or 9 m (30') attached PVC-covered 2-wire cable or
with a 4-pin QD cable fitting.
NAMUR QD sensors are identified by the “Q” in their model number suffix, and are provided with a 4-pin Euro type connector.
Mating cables for NAMUR QD sensors are models MQD9-415 (straight connector) or MQD9-415RA (right angled connector).
Mating QD cables are 5 m (15') long and must be ordered separately from the sensor. For more information on QD cables, see
page 152 and the Accessories section.
150
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MINI-BEAM® NAMUR Sensors
NAMUR Dimensions
NAMUR Opposed, Retro, Diffuse and Convergent Sensing Modes
(model suffix E, R, LV, LVAG, D, CV & CV2)
NAMUR Sensor with Attached Cable
NAMUR Sensor with Quick-Disconnect
Gasketed
Acrylic Cover
3.2 mm
(0.13")
12.2 mm (0.48")
30.7 mm
(1.21")
ø 3 mm Clearance (2)
24.1 mm
(0.95")
M18 x 1 x 15 mm Thread
(Mounting Nut Supplied)
Euro-style
Quick-disconnect
2 m (6.5') Cable
Mounting Peg
(ø 6.3 mm x 2.5 mm)
19.1 mm
(0.75")
18.5 mm
(0.73")
66.0 mm
(2.60")
27.4 mm (1.08")
NAMUR Glass Fiber Optic Sensing
(model suffix F)
NAMUR Divergent Diffuse Sensing Mode
(model suffix W)
Bezel
18.0 mm
(0.71")
Fiber Optic Fitting
51.8 mm
(2.04")
13.2 mm (0.52")
69.9 mm
(2.75")
31.2 mm (1.23")
NAMUR Sensor - Rear View
15 Turn
Sensitivity
Adjustment
and Light/Dark
Operate Switch
Gasketed
Acrylic Cover
Alignment Indicator LED
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151
MINI-BEAM® Accessories
Modifications
Model Suffix
Modification
W/30
9 m (30') cable
MHS
Modified for High
Speed
QDP
Pigtail QuickDisconnect
Example of Model
Number
Description
All MINI-BEAM sensors may be ordered with an integral
9 m (30') cable in place of the standard 2 m (6.5') cable
SM312LVW/30
Standard dc MINI-BEAM sensors with 1 millisecond output
response may be modified for 0.3 millisecond (300 µs) response.
NOTE: Faster response comes at the expense of lower excess gain.
SM312LVMHS
All MINI-BEAMs may be built
with a 150 mm (6") long
integral cable which is
terminated with the
appropriate QD connector.
See the Accessories section
for more information.
SM312LVQDP
Quick-Disconnect (QD) Cables
Following is the selection of cables available for MINI-BEAM QD models. See the Accessories section for more cable information.
Style
Model
Length
Connector
3-Pin Micro
MQDC-306
MQDC-315
MQDC-330
MQDC-306RA
MQDC-315RA
MQDC-330RA
2 m (6.5')
5 m (15')
9 m (30')
2 m (6.5')
5 m (15')
9 m (30')
Straight
Straight
Straight
Right-angle
Right-angle
Right-angle
Standard ac MINI-BEAMs with QD
connector
4-Pin Euro
MQDC-406
MQDC-415
MQDC-430
MQDC-406RA
MQDC-415RA
MQDC-430RA
2 m (6.5')
5 m (15')
9 m (30')
2 m (6.5')
5 m (15')
9 m (30')
Straight
Straight
Straight
Right-angle
Right-angle
Right-angle
Standard dc MINI-BEAMs with QD
connector
5-Pin Euro
MQDC1-506
MQDC1-515
MQDC1-530
MQDC1-506RA
MQDC1-515RA
MQDC1-530RA
2 m (6.5')
5 m (15')
9 m (30')
2 m (6.5')
5 m (15')
9 m (30')
Straight
Straight
Straight
Right-angle
Right-angle
Right-angle
MINI-BEAM Expert Series with QD
connector
4-Pin Euro
(NAMUR)
MQD9-406
MQD9-415
MQD9-406RA
MQD9-415RA
2 m (6.5')
5 m (15')
2 m (6.5')
5 m (15')
Straight
Straight
Right-angle
Right-angle
MIAD9 Series NAMUR sensors with QD
connector
152
Used with:
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MINI-BEAM® Accessories
Apertures
Opposed mode MINI-BEAM sensors may be fitted with apertures which narrow or shape the effective beam of the sensor to more closely match
the size or profile of the object to be sensed. A common example is the use of “line” or “slit” type aperture when wire or thread is be sensed.
Each model contains 20 apertures.
Model
Description
AP31-020
AP31-040
AP31-100
0.5 mm (0.02") diameter, circular
1.0 mm (0.04") diameter, circular
2.5 mm (0.10") diameter, circular
AP31-020H
AP31-040H
AP31-100H
AP31-200H
0.5 x 6.4 mm (0.02 x 0.25"), horizontal slotted
1.0 x 6.4 mm (0.04 x 0.25"), horizontal slotted
2.5 x 6.4 mm (0.10 x 0.25"), horizontal slotted
5.1 x 6.4 mm (0.20 x 0.25"), horizontal slotted
AP31-020V
AP31-040V
AP31-100V
AP31-200V
0.5 x 12.7 mm (0.02 x 0.50"), vertical slotted
1.0 x 12.7 mm (0.04 x 0.50"), vertical slotted
2.5 x 12.7 mm (0.10 x 0.50"), vertical slotted
5.1 x 12.7 mm (0.20 x 0.50"), vertical slotted
AP31-DVHX2
Kit containing two of each aperture
Range of MINI-BEAM Opposed Mode Sensor Pairs when used with Apertures
RANGE
Standard Group I and II Sensor Pairs
Emitter & Receiver
Receiver Only
Both Apertured
Apertured
Definitions
GROUP I Emitter/ Receiver
Pairs (see RANGE columns
at right):
SM31E/SM31R
SMA31E/SM2A31R
SM31EM/SM31R
GROUP II Emitter/ Receiver
Pairs (see RANGE columns
at right):
SM31EL/SM31RL
SMA31EL/SM2A31RL
SM31EML/SM31RL
Example:
The MINI-BEAM SM31E/
SM31R sensor pair is in
Group I. With an AP31-040
circular aperture on the
receiver only, range is
939.8 mm (37"). With AP31040 apertures on both emitter
and receiver, range is 330.2
mm (13"). Group I range with
AP31-040 apertures and UC300EL upper covers on both
units is 482.6 mm (19");
range with only receiver
apertures is 2032 mm (80").
Aperture(s)
Used
RANGE
Group I Sensor Pairs with
UC-300EL Upper Covers Substituted
Group I
Sensors
Group II
Sensors
Group I
Sensors
Group II
Sensors
AP31-020
89 mm
(3.5")
102 mm
(4.0")
457 mm
(18")
1.5 m
(60")
127 mm
(5.0")
914 mm
(36")
AP31-040
330 mm
(13")
457 mm
(18")
940 mm
(37")
3.2 m
(10.5')
483 mm
(19")
2.0 m
(80")
AP31-100
1.5 m
(60")
3.0 m
(10')
2.5 m
(100")
8.2 m
(27')
2.1 m
(84")
5.8 m
(19')
AP31-020H
406 mm
(16")
1.8 m
(70")
965 mm
(38")
9.1 m
(30')
864 mm
(34")
3.4 m
(11')
AP31-040H
914 mm
(36")
4.0 m
(13')
1.8 m
(72")
12.5 m
(41')
1.8 m
(72")
5.2 m
(17')
AP31-100H
2.3 m
(90")
10.4 m
(34')
2.9 m
(114")
20.7 m
(68')
5.2 m
(17')
8.5 mm
(28')
AP31-200H
2.8 m
(110")
21.3 m
(70')
3.0 m
(120")
24.4 m
(80')
8.2 m
(27')
11.0 m
(36')
AP31-020V
457 mm
(18")
1.7 m
(65")
1.0 m
(40")
8.2 m
(27')
1.0 m
(40")
3.4 m
(11')
AP31-040V
1.0 m
(40")
5.5 m
(18')
1.8 m
(70")
15.8 m
(52')
2.1 m
(84")
5.5 m
(18')
AP31-100V
2.3 m
(90")
10.7 m
(35')
2.9 m
(114")
22.9 m
(75')
6.1 m
(20')
8.5 m
(28')
AP31-200V
2.8 m
(110")
22.9 m
(75')
3.0 m
(120")
25.9 m
(85')
8.5 mm
(28')
11.0 m
(36')
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Emitter & Receiver Receiver Only
Both Apertured
Apertured
153
MINI-BEAM® Accessories
Bendable Bifurcated Plastic Fiber Optic Probes
The following plastic fiber optic probe assemblies are designed to bolt directly onto MINI-BEAM plastic fiber optic (FP) models. These are
bifurcated assemblies used in the diffuse sensing mode. Performance is estimated using the excess gain curves for diffuse mode plastic
fibers. Standard probe length is 94 mm (3.7"). Longer and shorter probe lengths may be quoted. Probes are annealed stainless steel, and
are bendable at the center of their length.
Model
Description
FPA20
• 0.5 mm (0.02") diameter bifurcated fiber
• Performance is equivalent to fiber model PBT26U
FPA40
• 1.0 mm (0.04") diameter bifurcated fiber
• Performance is equivalent to fiber model PBT46U
Right-Angle Reflectors
MINI-BEAM right-angle reflectors are useful for tight sensing locations. NOTE: These reflectors significantly decrease excess gain.
Model
Description
RAR300SM
• Side mount reflector that attaches to the MINI-BEAM with two
#4 screws (supplied)
• Creates a sensor which measures only 14 mm (0.56") in the direction of the
scan
• Use with sensor models 31E, EL, R, RL; 312D, DBZ, LV and W
RAR300FM
• Front mount reflector that attaches directly to the threaded barrel of most
MINI-BEAMs
• Creates a sensor profile dimension in the direction of the scan that is
34 mm (1.35")
• Use with sensor models 31E, EL, R, RL, 312D, and LV
Replacement Lens Assemblies
MINI-BEAM lens assemblies are field-replaceable. In addition, some lenses may be used to convert from one sensing mode to another, or
to change the sensing range of a particular sensor. The possible conversions are listed in the table below.
Model
UC-300AG
UC-300BZ
UC-300C.7
UC-300C2
UC-300E
UC-300EL
UC-300EPD
UC-300F
UC-300FP
UC-300FP2
UC-300L
UC-300LP
UC-300RPD
154
Description
Replacement lens for LVAG
Replacement lens for W and DBZ
Replacement lens for C, CV and CVG
Replacement lens for C2 and CV2
Replacement lens for E, & R
Replacement lens for EL, & RL
Replacement lens for EPD
Replacement lens for F and FV
Replacement lens for FP (Old style)
Replacement lens for FP
Replacement lens for LV and D
Replacement lens for LP
Replacement lens for RPD
Possible Sensing Mode or
Range Changes
Change LV to LVAG
Change D to DBZ and F to DBZ
Change CV2 to CV
Change CV to CV2
—
Extend range of E/R
—
Change D to F and DBZ to F
—
—
Change F to D, LVAG to LV and DBZ to D
—
—
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MINI-BEAM® Accessories
Extension Cables (without connectors)
The following cables are available for extending the length of existing sensor cable. These are 30 m (100') lengths of MINI-BEAM cable.
This cable may be spliced to existing cable. Connectors, if used, must be customer-supplied.
Model
Type
Used with:
EC312A-100
2-conductor
MINI-BEAM emitters, SM2A312 ac models
EC312-100
4-conductor
All MINI-BEAM SM312 dc models, except emitters
ECAD9-100
2-conductor
MINI-BEAM NAMUR models
Mounting Brackets
Model
Description
Dimensions
40.0 mm
(1.60")
SMB18C
• 18 mm split clamp bracket
• Black thermoplastic polyester
• Includes stainless steel
mounting hardware
13 mm
(0.5")
42.4 mm
(1.67")
21.1 mm
(0.83")
14.0 mm
(0.55")
2.5 mm
(0.10")
30.0 mm
(1.18")
Nut Plate
M5 x 0.8
x 60 mm
Screw (2)
SMB18SF
• 18 mm swivel bracket
• Black thermoplastic polyester
• Includes stainless steel swivel
locking hardware
36.0 mm
(1.42")
M18 x 1
internal
thread
10.6 mm
(0.42")
42.0 mm
(1.65")
22.9 mm
(0.9")
50.8 mm
(2.00")
25.4 mm
(1.00")
16.0 mm
(0.63 ")
SMB18UR
SMB18UR Top
ø18.3 mm
(0.72")
66.0 mm
(2.60")
45.2 mm
(1.78")
27.2 mm
(1.07")
50.8 mm
(2.0")
60º
R2.5 mm
(0.10")
24.6 mm
(0.97")
46.7 mm
(1.84")
25.4 mm
(1.00")
9.7 mm
(0.38")
SMB18UR Bottom
60º
4X 6.9 mm
(0.27")
41.7 mm
(1.64")
8.1 mm
(0.32")
41.7 mm
(1.64")
60º
ø20.3 mm
(0.80")
ø30.5 mm
(1.20")
• 2-part universal rotating
bracket
• Stainless steel
20.8 mm
(0.82")
2.7 mm
(0.10")
20.3 mm
(0.80")
20.3 mm
(0.80")
ø30.5 mm
(1.20")
6X #10-32 Thru
25.4 mm
(1.00")
20.8 mm
(0.82")
33.8 mm
(1.33")
63.5 mm
(2.50")
71.1 mm
(2.80")
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2.7 mm
(0.10")
155
MINI-BEAM® Accessories
Mounting Brackets
Model
Description
Dimensions
SMB3018SC
• 18 mm swivel barrel or side
mount bracket
• Black reinforced thermoplastic
polyester
• Includes stainless steel swivel
locking hardware
50.8 mm
(2.00")
66.5 mm
(2.62")
M18 x 1
internal
thread
56.7 mm
(2.31")
Assembled
68.0 mm
(2.68")
29.0 mm
(1.14")
SMB30SUS
50.8 mm
(2.00")
• Side mount swivel bracket –
extended range of motion
• Black thermoplastic polyester
66.5 mm
(2.62")
56.7 mm
(2.31")
Assembled
68.0 mm
(2.68")
2 x Hole for
#6 Machine Screw
29.0 mm
(1.14")
SMB30SK
• Flat-mount swivel bracket with
extended range
of motion
• Black reinforced thermoplastic
polyester and 316 stainless
steel
• Includes stainless steel swivel
locking hardware
50.8 mm
(2.00")
56.7 mm
(2.31")
Assembled
68.0 mm
(2.68")
156
78.0 mm
(3.07")
66.5 mm
(2.62")
2 x Hole for
#6 Machine Screw
29.0 mm
(1.14")
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MINI-BEAM® Accessories
Mounting Brackets
Model
Description
Dimensions
4.3 mm Slot (2)
(0.17")
SMB312B
10° (2)
9.1 mm
(0.36")
10° (2)
3.1 mm
Slot (2)
(0.12")
• Stainless steel 2-axis, bottom
mounting bracket
• Includes mounting foot
24.1 mm
(0.95")
8.6 mm (2)
(0.34")
17.3 mm (2)
ø 6.9 mm
(0.27")
(0.68")
23.4 mm
11.4 mm (0.92")
(0.45")
35.0 mm (2)
(1.38")
50.8 mm
(2.00")
SMB312PD
90°
2.5 mm
(0.10")
R 24.1 mm
(0.95")
R 5.1 mm
(0.20")
15°
(2)
CL 31.8 mm
(1.25")
20°
• Stainless steel 18 mm barrel
mounting bracket
ø 4.6 mm Slot
(0.18 in)
ø 4.6 mm
(0.18")
R 3.1 mm
(0.12") (2)
15.2 mm
(0.60")
2.5 mm
(0.10")
40.6 mm
(1.60")
90°
18.42 mm
(0.725")
45.5 mm
(1.79")
SMB312S
R 24.1 mm
(0.95")
R 5.1 mm
(0.20")
15°
(2)
CL 31.8 mm
(1.25")
20°
• Stainless steel 2-axis, side
mounting bracket
ø 3.05 mm Slot
(0.120")
ø 3.05 mm
(0.120")
R 3.1 mm
(0.12") (2)
90°
2.5 mm
(0.10")
20.1 mm
(0.79")
45.5 mm
(1.79")
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10° (TYP)
20.3 mm
(0.80")
4.32 mm
(0.170") Slot (2)
157
MINI-BEAM® Accessories
Mounting Brackets
Model
Description
Dimensions
CL
6 mm
(0.2")
SMB46L
15 mm
(0.6")
6 mm (0.2")
5 mm (0.2")
(2x)
ø 36 mm (1.4")
ø 6.5 mm (0.26") (6x)
8 mm
(0.3")
16 mm
(0.6")
• “L” bracket
• 14-gauge 316 stainless steel
65 mm
(2.6")
2 mm
(.1")
54 mm
(2.1")
SMB46S
34 mm
(1.3")
CL
10 mm
(0.4")
17 mm
(0.7")
6 mm
(0.2")
3.5 mm
(0.14")
15 mm
(0.6")
6 mm
(0.2")
• “S” bracket
• 14-gauge 316 stainless steel
27 mm
(1.1")
ø 36 mm (1.4")
ø 6.5 mm (0.26") (6x)
8 mm
(0.3")
5 mm
(0.2")
(4x)
16 mm
(0.6")
65 mm
(2.6")
2 mm
(.1")
54 mm
(2.1")
SMB46U
17 mm
(0.7")
13 mm
(0.5")
• “U” bracket
• 14-gauge 316 stainless steel
16 mm
(0.6")
34 mm
(1.3")
CL
3.5 mm
(0.14")
6 mm
(0.2")
6 mm
(0.2")
5 mm
(0.2")
(4x)
27 mm
(1.1")
15 mm
(0.6")
8 mm
(0.3")
16 mm
(0.6")
ø 36 mm (1.4")
ø 6.5 mm (0.26")
(6x)
16 mm
(0.6")
65 mm
(2.6")
54 mm
(2.1")
2 mm
(.1")
27 mm
(1.1")
70 mm
(2.8")
Retroreflective Targets
Banner offers a wide selection of high-quality retroreflective targets. See Accessories section for complete information.
158
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ECONO-BEAM® Sensors
ECONO-BEAM ® Sensors
ECONO-BEAM Sensors . . . . . . . . . . . . . . . . . . . . 160
ECONO-BEAM Accessories . . . . . . . . . . . . . . . . . . 167
!
ECONO-BEAM sensors are not suitable for use
in personnel safety applications! See WARNING
on inside front cover of catalog.
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159
ECONO-BEAM® Sensors
ECONO-BEAM Sensors
Miniature Self-Contained AC and DC Sensors
ECONO-BEAM ac sensors shown
•
Select 4-wire dc or 3-wire ac models
•
DC models have bipolar outputs (one NPN and one PNP);
each output rated at 150 milliamps
•
AC models have SPST solid-state (FET) output switch
rated at 300 milliamps
•
Choose models for light operate or dark operate
•
2 m (6.5’) is standard cable length; 9 m (30’) is also
available
ECONO-BEAM Sensing Mode Options
Opposed
DC Model
Retroreflective
Non-Polarized
Diffuse
Convergent
Glass and Plastic Fiber Optic
Infrared, 880 nm
AC Model
ECONO-BEAM Opposed Mode Emitter (E) and Receiver (R)
Models
Range
Supply
Voltage
Cable
SE61E
SE61R
2 m (6.5')
SE61E
SE61RNC
SE611E
SE61AW1R
1.8 m
(6')
2 m (6.5')
SE611E
SE61RW1R
10-30V dc
120V ac
Output
Type
Bipolar
NPN/PNP
LO
Bipolar
NPN/PNP
DO
SPST
Solid-state
LO
SPST
Solid-state
DO
Excess Gain
Beam Pattern
Effective Beam: 3 mm
1000
E
X
C
E
S
S
Opposed Mode
300 mm
12 in
Opposed Mode
100
200 mm
8 in
100 mm
4 in
0
G
A
I
N
10
0
100 mm
4 in
200 mm
8 in
300 mm
1
0.01 m
0.033 ft
0.1 m
0.33 ft
1m
3.3 ft
DISTANCE
10 m
33 ft
12 in
0
.6 m
2 ft
1.2 m
4 ft
1.8 m
6 ft
2.4 m
8 ft
3.0 m
10 ft
DISTANCE
For ECONO-BEAMS:
i) 9 m (30’) cables are available by adding suffix “W/30” to the model number of any cabled sensor (e.g. - SE61RNC W/30)
ii) For dc models, no suffix means light operate and suffix “NC” means dark operate. For ac models, “AW” indicates light operate and
“RW” means dark operate.
160
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ECONO-BEAM® Sensors
Visible red, 650 nm
NOTE: Retroreflective range is specified using one model BRT-3 retroreflector (3" diameter).
Actual sensing range may be more or less than specified, depending upon the efficiency and
reflective area of the retroreflector(s) in use. See page 722 for more information.
ECONO-BEAM Non-Polarized Retroreflective Mode
Models
Range
Cable
Supply
Voltage
SE612LV
2 m (6.5')
10-30V dc
SE612LVNC
4.5 m
(15')
Output
Type
Excess Gain
Bipolar
NPN/PNP
LO
Bipolar
NPN/PNP
DO
Beam Pattern
1000
E
X
C
E
S
S
Retroreflective Mode
With BRT-3 Reflector
100
150 mm
4in
50 mm
2 in
With BRT-3 Reflector
0
SE61AW1LV
2 m (6.5')
120V ac
SE61RW1LV
SPST
Solid-state
LO
G
A
I
N
10
0
50 mm
2 in
100 mm
4 in
150 mm
1
0.01 m
0.033 ft
SPST
Solid-state
DO
6 in
Retroreflective Mode
100 mm
0.1 m
0.33 ft
1m
3.3 ft
6 in
0
10 m
33 ft
.9 m
3 ft
1.8 m
6 ft
2.7 m
9 ft
3.6 m
12 ft
4.5 m
15 ft
DISTANCE
DISTANCE
Infrared, 880 nm
DC Model
AC Model
ECONO-BEAM Diffuse Mode
Models
Range
Cable
Supply
Voltage
SE612D
2 m (6.5')
10-30V dc
SE612DNC
200 mm
(8")
Output
Type
Bipolar
NPN/PNP
DO
2 m (6.5')
120V ac
SE61RW1D
Beam Pattern
Performance based on 90% reflectance white test card
Bipolar
NPN/PNP
LO
SPST
Solid-state
LO
SE61AW1D
Excess Gain
1000
E
X
C
E
S
S
Diffuse Mode
7.5 mm
100
0.3 in
Diffuse Mode
5.0 mm
0.2 in
2.5 mm
0.1 in
0
G
A
I
N
10
0.1 in
5.0 mm
0.2 in
7.5 mm
1
1.0 mm
0.04 in
SPST
Solid-state
DO
0
2.5 mm
10 mm
0.4 in
100 mm
4.0 in
0.3 in
0
1000 mm
40 in
50 mm 100 mm 150 mm 200 mm 250 mm
2.0 in
4.0 in
6.0 in
8.0 in 10.0 in
DISTANCE
DISTANCE
Divergent Diffuse*
1000
SE612W
Divergent Mode
22.5 mm
0.9 in
Divergent Mode
100
15 mm
0.6 in
7.5 mm
0.3 in
0
76 mm
(3")
SE612WNC
Bipolar
NPN/PNP
LO
2 m (6.5')
E
X
C
E
S
S
10-30V dc
2 m (6.5')
Bipolar
NPN/PNP
DO
G
A
I
N
10
0
7.5 mm
0.3 in
15 mm
0.6 in
22.5 mm
1
0.1 mm
0.004 in
1 mm
0.04 in
10 mm
0.4 in
DISTANCE
100 mm
4 in
0.9 in
0
25 mm
1.0 in
50 mm
2.0 in
75 mm 100 mm 125 mm
3.0 in
4.0 in
5.0 in
DISTANCE
*Note: Divergent diffuse models are recommended for sensing clear materials.
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
161
ECONO-BEAM® Sensors
See Sensing Beam Information Below
ECONO-BEAM Convergent Mode
Models
Focus
Supply
Voltage
Cable
Output
Type
Excess Gain
Infrared 940 nm
1000
Bipolar
NPN/PNP
LO
SE612C
12 mm
(0.5")
2 m (6.5')
10-30V dc
Bipolar
NPN/PNP
DO
SE612CNC
E
X
C
E
S
S
SE612CVNC
Bipolar
NPN/PNP
LO
2 m (6.5')
100
SE612C
15 mm
0.6 in
Convergent Mode
10 mm
0.4 in
5 mm
G
A
I
N
10
0.2 in
0
5 mm
0.2 in
10 mm
0.4 in
15 mm
1
0.1 mm
0.004 in
1 mm
0.04 in
10 mm
0.4 in
0.6 in
0
100 mm
4 in
15 mm
0.6 in
30 mm
1.2 in
45 mm
1.8 in
60 mm
2.4 in
75 mm
3.0 in
DISTANCE
DISTANCE
1000
16 mm
(0.65")
Spot Size
at Focus:
1.2 mm
(0.05")
SE612C
Convergent Mode
0
Visible Red 650 nm
SE612CV
Beam Pattern
Performance based on 90% reflectance white test card
10-30V dc
Bipolar
NPN/PNP
DO
E
X
C
E
S
S
G
A
I
N
SE612CV
Convergent Mode
100
SE612CV
3 mm
0.12 in
Convergent Mode
2 mm
0.08 in
1 mm
0.04 in
0
10
0
1 mm
0.04 in
2 mm
0.08 in
3 mm
1
0.1 mm
0.004 in
1 mm
0.04 in
10 mm
0.4 in
0.12 in
0
100 mm
4 in
7.5 mm
0.3 in
15 mm 22.5 mm 30 mm 37.5 mm
0.6 in
0.9 in
1.2 in
1.5 in
DISTANCE
DISTANCE
Infrared, 880 nm
ECONO-BEAM Glass Fiber Optic
Models
Range
Supply
Voltage
Cable
Output
Type
Excess Gain
Beam Pattern
Diffuse mode performance based on 90% reflectance white test card
1000
Bipolar
NPN/PNP
LO
SE612F
Range
varies by
sensing
mode
and fiber
optics
used
SE612FNC
E
X
C
E
S
S
SE612F
Opposed Mode
2 in
25 mm
10
IT13S Fibers
1 in
IT13S
IT23S
10 mm
0.4 in
100 mm
4 in
1 in
50 mm
2 in
3 in
0
1000 mm
40 in
100 mm 200 mm 300 mm 400 mm 500 mm
4 in
8 in
12 in
16 in
20 in
DISTANCE
DISTANCE
10-30V dc
0
25 mm
75 mm
1000
Bipolar
NPN/PNP
DO
E
X
C
E
S
S
G
A
I
N
SE612F
Diffuse Mode
Glass Fibers
100
1.9 mm
0.075 in
SE612F
1.3 mm
0.050 in
Diffuse Mode
0.65 mm
0.025 in
0
BT23S Fiber
10
BT13S Fiber
1
1 mm
.04 in
BT13S
BT23S
10 mm
.4 in
100 mm
4 in
1000 mm
40 in
0
0.65 mm
0.025 in
1.3 mm
0.050 in
1.9 mm
DISTANCE
162
50 mm
0
G
A
I
N
3 in
Opposed Mode
IT23S Fibers
1
1 mm
0.04 in
2 m (6.5')
SE612F
75 mm
100
0.075 in
0
7.5 mm
0.3 in
15 mm 22.5 mm 30 mm 37.5 mm
0.6 in
0.9 in
1.2 in
1.5 in
DISTANCE
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
ECONO-BEAM® Sensors
Visible red, 650 nm
ECONO-BEAM Plastic Fiber Optic
Models
Range
Cable
Supply
Voltage
Output
Type
Excess Gain
Beam Pattern
Diffuse mode performance based on 90% reflectance white test card
1000
Bipolar
NPN/PNP
LO
SE612FP
Range
varies by
sensing
mode and
fiber
optics
used
SE612FPNC
E
X
C
E
S
S
G
A
I
N
SE612FP
Opposed Mode
Plastic Fibers
100
1.8 in
Opposed Mode
Plastic Fibers
30 mm
1.2 in
15 mm
.6 in
0
PIT46U Fibers
10
PIT26U Fibers
PIT26U
PIT46U
10 mm
0.4 in
100 mm
4 in
.6 in
30 mm
1.2 in
1.8 in
0
1000 mm
40 in
25 mm
1 in
DISTANCE
10-30V dc
0
15 mm
45 mm
1
1 mm
0.04 in
2 m (6.5')
SE612FP
45 mm
50 mm
2 in
75 mm 100 mm 125 mm
3 in
4 in
5 in
DISTANCE
1000
Bipolar
NPN/PNP
DO
E
X
C
E
S
S
SE612FP
Diffuse Mode
Plastic Fibers
100
SE612FP
3.6 mm
Diffuse Mode
Plastic Fibers
2.4 mm
PBT46U Fiber
1.2 mm
10
1
0.1 mm
0.004 in
1 mm
0.04 in
10 mm
0.4 in
DISTANCE
PBT26U
PBT46U
100 mm
4 in
0
1.2 mm
.05 in
2.4 mm
.10 in
3.6 mm
PBT26U Fiber
.10 in
.05 in
0
G
A
I
N
.15 in
.15 in
0
7.5 mm
.3 in
15 mm 22.5 mm 30 mm 37.5 mm
.6 in
.9 in
1.2 in
1.5 in
DISTANCE
For ECONO-BEAMS:
i) 9 m (30’) cables are available by adding suffix “W/30” to the model number of any cabled sensor (e.g. - SE612FPNC W/30)
ii) For dc models, no suffix means light operate and suffix “NC” means dark operate.
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163
ECONO-BEAM® Sensors
ECONO-BEAM DC Specifications
Supply Voltage and Current
10 to 30V dc (10% maximum ripple) at less than 20 mA (exclusive of load)
Supply Protection Circuitry
Protected against reverse polarity and transient voltages
Output Configuration
Bipolar: One current sourcing (PNP) and one current sinking (NPN) open-collector transistor
Output Rating
150 mA maximum each output
Off-state leakage current less than 1 microamp
Output saturation voltage (PNP output) less than 1 volt at 10 mA and less than 2 volts at 150 mA
Output saturation voltage (NPN output) less than 200 millivolts at 10 mA and less than 1 volt at 150 mA
Output Protection Circuitry
Protected against false pulse on power-up
Output Response Time
Less than 10 milliseconds ON and OFF; independent of signal strength
(NOTE: 100 millisecond delay on power-up: outputs are non-conducting during this time.)
Repeatability
0.4 ms; MHS models 0.06 ms; independent of signal strength.
Indicators
All models except emitter-only units have a top-mounted LED indicator that lights whenever the receiver
“sees” its modulated light source.
Construction
Reinforced thermoplastic polyester (models LV, CV, F and FP) or polycarbonate (other models) housing,
totally encapsulated for protection against moisture, vibration and corrosion.
Environmental Rating
Meets NEMA standards 1, 3, 3S, 4, 4X, 12, and 13; IEC IP66
Connections
PVC-jacketed 4-wire 2 m (6.5') or 9 m (30') cables
Operating Conditions
Temperature:
0° to 50°C (32° to 122°F)
Maximum relative humidity: 90% at 50°C (non-condensing)
Certifications
ECONO-BEAM DC Hookup Diagrams
SE61E Emitters
DC Sensors
bn
+
10-30V dc
–
bu
wh
bk
164
Load
bn
bu
+
10-30V dc
–
Load
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
ECONO-BEAM® Sensors
ECONO-BEAM AC Specifications
Supply Voltage and Current
120V ac (±20%, 50-60 Hz)
Supply Protection Circuitry
Protected against transient voltages
Output Configuration
Solid-state (FET). SE61AW1 models are normally open (light operate): SE61RW1 models are normally
closed (dark operate).
Output Rating
Maximum steady-state load capability 300 mA to 50°C ambient (122°F)
Inrush capability 1 amp for 20 milliseconds (non repetitive)
Off-state leakage current less than 50 µA rms
On-state voltage drop ≤3 volts at 300 mA load, ≤2 volts at 15 mA load
Output Protection Circuitry
Protected against false pulse on power-up
Output Response Time
Opposed Mode: 10 milliseconds on and 5 milliseconds off; independent of signal strength;
All other modes: 10 milliseconds on and 10 milliseconds off
Response time specification of load should be considered when important.
(NOTE: 20 millisecond delay on power-up.)
Repeatability
Opposed mode receiver: 1 millisecond; All other modes: 2.3 milliseconds; independent of signal strength
Indicators
Red indicator LED on top of unit is “on” whenever the sensor is seeing its modulated light source (all
except emitters)
Construction
Reinforced thermoplastic polyester housing, totally encapsulated and acrylic lenses
Environmental Rating
Meets NEMA standards 1, 2, 3, 3S, 4, 4X, 12, and 13; IEC IP66
Connections
PVC-jacketed 3-wire 2 m (6.5') or 9 m (30') cables
Operating Conditions
Temperature:
0° to 50°C (32° to 122°F)
Maximum relative humidity: 90% at 50°C (non-condensing)
Certifications
ECONO-BEAM AC Hookup Diagrams
SE611E Emitters
AC Sensors
bn
120V ac (±20%)
bu
bk
bn
120V ac (±20%)
bu
Load
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165
ECONO-BEAM® Sensors
ECONO-BEAM Dimensions
ECONO-BEAM DC Sensor - Opposed Mode
(model suffix E & R)
ECONO-BEAM DC Sensor - Diffuse & Divergent Mode
(model suffix D & W)
LED Indicator (Receiver Only)
15.2 mm
(0.60")
13.7 mm
(0.54")
31.8 mm
(1.25")
6.4 mm
(0.25")
19.1 mm
(0.75")
38.1 mm
(1.50")
LED Indicator
10.2 mm
(0.40")
16.5 mm
(0.65")
9.7 mm
(0.38")
5.1 mm (0.20")
12.7 mm
(0.50")
3.1 mm (0.12")
12.7 mm
(0.50")
12.7 mm
(0.50")
M3.5 (#6) Screw Clearance (2)
2 m (6.5') Cable
ECONO-BEAM AC or DC Retro Sensor & DC Convergent Mode
(model suffix LV & CV)
ECONO-BEAM DC Sensor - Glass Fiber Optic
(model suffix F)
6.1 mm (0.24")
33.0 mm
(1.33")
30.0 mm
(1.18")
14.4 mm
(0.56")
14.4 mm
(0.56")
M18 x 1 x 15 mm Thread
(Mounting Nut Supplied)
ECONO-BEAM DC Sensor - Mech. Convergent Mode
(model suffix C)
ECONO-BEAM DC Sensor - Plastic Fiber Optic
(model suffix FP)
Fiber Mounting Port
0.187" Dia. (2)
6.4 mm (0.25")
13.0 mm (0.51")
38.6 mm
(1.52")
22.9 mm
(0.90")
24.9 mm
(0.98")
15.2 mm
(0.60")
166
11.9 mm (0.47")
14.4 mm
(0.56")
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
ECONO-BEAM® Sensors
ECONO-BEAM Dimensions
ECONO-BEAM AC Sensor - Opposed & Diffuse Mode
(model suffix E, R & D)
LED Indicator
(Receiver Only)
6.1 mm
(0.24")
140.4 mm
(0.56")
ECONO-BEAM Accessories
Modifications
Example of Model
Number
Model Suffix
Modification
Description
W/30
9 m (30') cable
All ECONO-BEAM sensors may be ordered with an integral 9 m (30')
cable in place of the standard 2 m (6.5') cable
SE61RNC W/30
MHS
Modified for High
Speed
Standard dc ECONO-BEAM sensors with 10 millisecond output
response may be modified for 1 millisecond response.
NOTE: Faster response comes at the expense of lower excess gain.
SE61RNCMHS
Extension Cables (without connectors)
The following cables are available for extending the length of existing sensor cable. These are 30 m (100') lengths of ECONO-BEAM cable.
This cable may be spliced to existing cable. Connectors, if used, must be customer-supplied.
Model
Type
Used with:
EC312A-100
2-conductor
All emitters
EC312-100
4-conductor
DC models (except emitters)
EC900A-100
3-conductor
AC models (except emitters)
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167
ECONO-BEAM® Sensors
NOTES:
168
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
M12 Laser Sensors
M12 Laser Sensors
M12 Laser Sensors . . . . . . . . . . . . . . . . . . . . . . 170
M12 Accessories . . . . . . . . . . . . . . . . . . . . . . . . 173
CAUTION . . .
!
Never stare directly into
the emitter lens. Laser
light can damage your eyes.
Avoid placing any mirror-like object in the
beam. Never use a mirror as a target.
!
M12 Laser sensors are not suitable for use in
personnel safety applications! See WARNING on
inside front cover of catalog.
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169
M12 Laser Sensors
M12 Laser Emitters
For Use with Banner Modulated Receivers
•
•
•
•
•
•
CAUTION . . .
•
!
Never stare directly into
the emitter lens. Laser
light can damage your eyes.
Avoid placing any mirror-like object in the
beam. Never use a mirror as a target.
•
•
•
M12 laser is a low-power device emitting a visible red beam
(670 nm wavelength)
Beam is bore-sighted to within 2 milliradians and 0.25 mm of
the housing centerline
Collimated, apertured beam is 2 mm diameter with divergence
of less than 1 milliradian
Compatible with a variety of Banner modulated photoelectric
receivers (see Excess Gain chart, page 171)
Useful for medium-range sensing, or for sensing very small
objects or profiles; excellent mechanical repeatability in
position-sensing applications
Smooth-barrel aluminum housing is suitable for a precision
mount
Available with unterminated, 2 m (6.5') cable or 150 mm (6")
pigtail, quick-disconnect cable
Modulated beam (33kHz, 25% duty cycle)
57 mm (2.25") long overall
10 to 30V dc operation
M12 Class 1* (IEC) Models
Effective Beam at Receiver
Models
M126E1LD
M126E1LDQ
Range
Cable
Range varies,
depending on
which receiver is
used (see Excess
Gain chart,
page 171).
2m (6.5')
Unterminated
Supply
Voltage
Excess Gain
Opposed
Distance
Beam
Width
at 25ºC
150 mm (6") Pigtail
with 3-pin
Pico-style QD
connector
10-30V dc
See chart on page 171.
1.5 m (5')
3 m (10')
6 m (20')
15 m (50')
30 m (100')
3.5 mm (0.14")
5.5 mm (0.2")
8.5 mm (0.3")
18 mm (0.7")
32 mm (1.3")
M12 Class 2* Models
Effective Beam at Receiver
Models
M126E2LD
M126E2LDQ
Range
Cable**
Range varies,
depending on
which receiver is
used (see Excess
Gain chart,
page 171).
2m (6.5')
Unterminated
150 mm (6") Pigtail
with 3-pin
Pico-style QD
connector
Supply
Voltage
Excess Gain
Opposed
Distance
Beam
Width
at 25ºC
10-30V dc
See chart on page 171.
1.5 m (5')
3 m (10')
6 m (20')
15 m (50')
30 m (100')
3.5 mm (0.14")
5.5 mm (0.2")
8.5 mm (0.3")
18 mm (0.7")
32 mm (1.3")
* • See M12 Specifications for complete information regarding classification
**• 9 m (30') cables are available by adding suffix “W/30” to the model number to the cabled version (e.g., M126E1LD W/30).
• A model with a QD connector requires an accessory mating cable. See page 173 and the Accessories section for more information.
170
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
M12 Laser Sensors
Excess Gain
Excess Gain of the M12 emitter is dependent on the particular receiver used. Following is a comparison of the excess gain for various
recommended receivers at 15 m (50').
Receiver
Class 1* (IEC)
Excess Gain
at 15 m (50')
Class 2*
Excess Gain
at 15 m (50')
Receiver
Class 2*
Excess Gain
at 15 m (50')
MINI-BEAM
MULTI-BEAM
SBRX1
Class 1* (IEC)
Excess Gain
at 15 m (50')
1,900
19,000
SM31R
250
2,500
1,700
17,000
SBR1
1,900
19,000
SM31RL
SBRXD1
1,900
19,000
SM31RMHS
180
1,800
SBRD1
1,900
19,000
SM31RLMHS
1,100
11,000
SE61R
60
600
SE61RMHS
50
500
ECONO-BEAM
MAXI-BEAM
RSBR
RSBRSR
1,400
14,000
150
1,500
Others
VALU-BEAM
SMW95R
3,400
34,000
SM51RB
120
1,200
SMI91RQD
1,800
18,000
Q23SN6R
40
400
Q10AN6R
25
250
Q45BB6R
900
9,000
EZ-BEAM
T18SN6R
750
7,500
T30SN6R
750
7,500
S12SN6R
750
7,500
For information on compatibility of the M12 emitter with other Banner photoelectric receivers contact the factory Applications Group at the
address or numbers listed on the back cover.
* See M12 Specifications for complete information regarding classification
CA
M12 Dimensions
Aperture/Caution Label
(Do not clamp only in this area)
See "Connections"
in Specifications
DO NOT ST
INTO BEA
LASER RADIA
Peak Power: 2.2mW, 66
33kHz 25% duty cycle
Green LED
Indicates power applied
Yellow LED
Indicates laser enabled
ø 12.7 mm
(0.50")
57 mm
(2.25")
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171
M12 Laser Sensors
M12 Specifications
Supply Voltage and Current
10 to 30V dc (10% maximum ripple) at less than 30 mA
Supply Protection Circuitry
Protected against electrostatic discharge (ESD) and transient voltages;
Protected against reverse polarity
Delay at Power-up
M126E1 models: less than 100 milliseconds
M126E2 models: less than 30 milliseconds
Sensing Beam
670 nm visible red laser (temperature coefficient 0.2 nm/°C);
Pulse Width: 7µs
Rep Rate: 30µs
Peak Output Power: M126E1 models: 0.36 milliwatts
M126E2 models: 2.8 milliwatts
Beam Diameter at Aperture
Approximately 2 mm (0.08") diameter
Beam Divergence
±0.5 milliradians typical at 25°C; ±1.0 milliradian at operating temperature extremes
Beam Placement
Within 0.25 mm (0.01") and ±2 milliradians of mechanical centerline axis of housing
Laser Control
Apply +10 to 30V dc to black wire to enable beam; Inhibit beam by applying 0V dc or by opening circuit;
Enable delay: M126E1 models: less than 100 milliseconds M126E2 models: less than 30 milliseconds
Inhibit delay less than 1 millisecond
Indicators
Indicators are visible through rear cover.
Green indicates power applied
Yellow indicates laser enabled
Construction
12.7 mm (0.50") diameter smooth aluminum barrel; Black hard-coat anodized finish, MIL-A-8625 Type III,
Class II
Environmental Rating
NEMA 6; IEC IP67
Connections
PVC-jacketed 3-conductor 2 m (6.5') or 9 m (30') high-flex cable (unterminated); or
150 mm (6") pigtail with 3-wire Pico-style connector
Operating Conditions
Temperature:
0° to 40°C (32° to 104°F)
Maximum relative humidity: 90% at 40° C (non-condensing)
Laser Classification
M126E1 models: Class 2 (CDRH), US Safety Standards 21 CFR 1040.10;
Class 1 (IEC), European Standards EN 60825-1 and IEC 60825-1
M126E2 models: Class 2 (CDRH), US Safety Standards 21 CFR 1040.10;
Class 2 (IEC), European Standards EN 60825-1 and IEC 60825-1
Certifications
M12 Hookup Diagrams
M12 Laser Diode Emitter
Unterminated Cable
bk
bn
bu
M12 Laser Diode Emitter
3-pin Pico-style Connector
Laser beam
enable
bk
+
10-30V dc
bn
bu
-
Laser beam
enable
+
10-30V dc
-
3-Pin Pico-Style Pin-out
Black Wire
Blue Wire
172
Brown Wire
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
M12 Accessories
Quick-Disconnect (QD) Cables
Style
Model
Length
3-Pin Pico
PKG3-2
2 m (6.5')
Connector
For use with
Straight
M12 Class 1 and 2 Laser sensors
Mounting Brackets
Model
Description
Dimensions
SMB127
Mounting Block
36 mm
(1.4")
12.9 mm
(0.508")
10.6 mm
(0.42")
21.1 mm
(0.83")
23.6 mm
(0.93")
3x #4-40 Thru
21.6 mm
(0.85")
• Mounting block
• Comes with: 3/64" hex wrench
and 4 set screws
10.6 mm
(0.42 ")
2x M3
or #4 Clearance
12.9 mm
(0.508")
12.9 mm
(0.508")
22.9 mm
(0.90")
26.9 mm
(1.06")
36 mm
(1.4")
17.8 mm
(0.70")
13.5 mm
(0.53")
6.4 mm
(0.25")
5.1 mm
(0.20")
18.5 mm
(0.73")
2x 11.4 mm
(0.45")
2x 7.1 mm
(0.28")
SMB46X3
14.0 mm
(0.55")
31.8 mm
(1.25")
• Assembly with mounting block
and adjustable bracket
• Includes:
- 2 mm hex key
- 3/64" hex wrench and
4 set screws
17.8 mm
(0.70")
21.6 mm
(0.85")
60º
8x M5 or #10 clearance
ø6.6mm
(0.26")
ø30.5mm
(1.20")
60º
64.5 mm
(2.54")
61 mm to 64 mm
(2.4" to 2.5")
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
61.0 mm
(2.40")
173
M12 Laser Sensors
NOTES:
174
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
EZ-BEAM® Sensors
EZ-BEAM® Sensors
S12 Series . . . . . . . . . . . . . . . . . . . . . . . . . . . . 176
S18 Series . . . . . . . . . . . . . . . . . . . . . . . . . . . . 178
S186ELD Series Laser Sensor . . . . . . . . . . . . . . . 182
M18 Series . . . . . . . . . . . . . . . . . . . . . . . . . . . . 186
S30 Series . . . . . . . . . . . . . . . . . . . . . . . . . . . . 190
Q25 Series . . . . . . . . . . . . . . . . . . . . . . . . . . . . 194
Q40 Series . . . . . . . . . . . . . . . . . . . . . . . . . . . . 196
T18 Series . . . . . . . . . . . . . . . . . . . . . . . . . . . . 200
T30 Series . . . . . . . . . . . . . . . . . . . . . . . . . . . . 206
SM30 EZ-BEAM Series . . . . . . . . . . . . . . . . . . . . 210
T18X Sensors for Bus Networks . . . . . . . . . . . . . . 216
S2 Sensors for Bus Networks . . . . . . . . . . . . . . . . 222
T18U Ultrasonic Sensors . . . . . . . . . . . . . . . . . . . 228
EZ-BEAM Accessories . . . . . . . . . . . . . . . . . . . . . 232
R
Exceptions noted
LISTED
Exceptions noted
!
EZ-BEAM sensors are not suitable for use in
personnel safety applications! See WARNING on
inside front cover of catalog.
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175
S12 Series Sensors
S12 Series Sensors
• 12 mm thermoplastic polyester threaded barrel sensor
• 10 to 30V dc; choose SPDT (complementary) NPN or PNP
outputs (100 mA max. ea.)
S12 Sensing Mode Options
Opposed
S12 Emitter and Receiver Shown
Visible red, 680 nm
S12 Opposed Mode Emitter (E) and Receiver (R)
Models
Range
S126E
S126EQP
S12SN6R
S12SN6RQP
S12SP6R
S12SP6RQP
Supply
Voltage
Cable
2 m (6.5')
4-Pin Pico QD
2 m (6.5')
4-Pin Pico QD
Excess Gain
Beam Pattern
Effective Beam: 8.1 mm
1000
2 m (6.5')
4-Pin Pico QD
15 m
(50')
Output
Type
—
10-30V dc
NPN
PNP
S12 Series
E
X
C
E
S
S
S12 Series
1500 mm
Opposed Mode
100
60 in
Opposed Mode
1000 mm
40 in
500 mm
20 in
0
G
A
I
N
10
1
.1 m
.33 ft
1m
3.3 ft
10 m
33 ft
DISTANCE
100 m
330 ft
0
500 mm
20 in
1000 mm
40 in
1500 mm
60 in
0
5m
16 ft
10 m
32 ft
15 m
49 ft
20 m
66 ft
25 m
82 ft
DISTANCE
For EZ-BEAM S12 Series Sensors:
i) 9 m (30') cables are available by adding suffix “W/30” to the model number of any cabled sensor (e.g. - S12SN6R W/30)
ii) A model with a QD connector requires an accessory mating cable. See pages 232 and the Accessories section for more information.
176
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
S12 Series Sensors
S12 Dimensions
S12 DC Sensor with Pico-Style QD
S12 DC Sensor
Green LED
Power Indicator
Yellow LED
Output Indicator
2m
(6.5') Cable
12 x 1 mm Thread
150 mm
(6") Pigtail
Jam Nuts
(Provided)
63.6 mm
(2.50")
40 mm
(1.6")
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177
S18 Series Sensors
S18 Series Sensors
S18 quick-disconnect (top) and
cabled (bottom) versions shown
•
18 mm thermoplastic polyester threaded barrel sensor
•
Advanced self-diagnostics with separate alarm output†; dual
LED system indicates sensor performance
•
Choice of integral cable or euro-style quick-disconnect
connector
•
10 to 30V dc; choose SPDT (complementary) NPN or PNP
outputs (150 mA max. ea.)
•
20 to 250V ac (3-wire hookup); SPST solid-state switch
output, maximum load 300 mA
S18 Sensing Mode Options
Opposed
Retroreflective
Diffuse
Fixed-Field
Infrared, 950 nm
S18 Opposed Mode Emitter (E) and Receiver (R)
Models
Range
Supply
Voltage
Cable
S186E
S186EQ
2 m (6.5')
4-Pin Euro QD
S18SN6R
S18SN6RQ
2 m (6.5')
4-Pin Euro QD
S18SP6R
S18SP6RQ
2 m (6.5')
4-Pin Euro QD
S183E
S183EQ1
20 m
(66')
Excess Gain
Beam Pattern
Effective Beam: 13 mm
—
10-30V dc
NPN
PNP
1000
S18 Series
E
X
C
E
S
S
S18 Series
1500 mm
Opposed Mode
100
60 in
Opposed Mode
1000 mm
40 in
500 mm
20 in
0
0
2 m (6.5')
4-Pin Micro QD
S18AW3R
S18AW3RQ1
2 m (6.5')
4-Pin Micro QD
S18RW3R
S18RW3RQ1
2 m (6.5')
4-Pin Micro QD
178
Output
Type
—
20-250V ac
LO
G
A
I
N
10
500 mm
20 in
1000 mm
40 in
60 in
1500 mm
1
.1 m
.33 ft
1m
3.3 ft
10 m
33 ft
DISTANCE
100 m
330 ft
0
5m
16 ft
10 m
32 ft
15 m
49 ft
20 m
66 ft
25 m
82 ft
DISTANCE
DO
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
S18 Series Sensors
NOTE: Retroreflective range is specified using one model BRT-3
retroreflector (3" diameter). Actual sensing range may be more or less
than specified, depending upon the efficiency and reflective area of the
retroreflector(s) in use. See page 722 for more information.
P
Non-Polarized, Polarized
S18 Retroreflective Mode
Models
Range
Cable
Supply
Voltage
Output
Type
Excess Gain
Beam Pattern
Non-Polarized (Infrared, 950 nm)
1000
S18SN6L
S18SN6LQ
S18 Series
2 m (6.5')
4-Pin Euro QD
NPN
10-30V dc
S18SP6L
S18SP6LQ
S18AW3L
S18AW3LQ1
2m
(79")
2 m (6.5')
4-Pin Euro QD
PNP
2 m (6.5')
4-Pin Micro QD
LO
E
X
C
E
S
S
2 m (6.5')
4-Pin Micro QD
S18 Series
120 mm
G
A
I
N
3.2 in
1.6 in
40 mm
with BRT-3 Reflector
10
1
.01 m
.033 ft
4.7 in
Non-Polarized Retro
80 mm
0
20-250V ac
S18RW3L
S18RW3LQ1
Non-Polarized Retro
100
.1 m
.33 ft
1m
3.3 ft
40 mm
1.6 in
80 mm
3.2 in
120 mm
4.7 in
0
10 m
33 ft
.5 m
1.6 ft
1.0 m
3.2 ft
1.5 m
4.8 ft
2.0 m
6.4 ft
2.5 m
8.0 ft
DISTANCE
DISTANCE
DO
0
with BRT-3 Reflector
Polarized (Visible red, 680 nm)
1000
S18SN6LP
S18SN6LPQ
S18 Series
2 m (6.5')
4-Pin Euro QD
PNP
E
X
C
E
S
S
LO
G
A
I
N
NPN
10-30V dc
S18SP6LP
S18SP6LPQ
S18AW3LP
S18AW3LPQ1
2m
(79")
2 m (6.5')
4-Pin Euro QD
2 m (6.5')
4-Pin Micro QD
2 m (6.5')
4-Pin Micro QD
DO
6 in
Polarized Retro
100 mm
4 in
50 mm
with BRT-3 Reflector
2 in
0
10
0
with BRT-3 Reflector
50 mm
2 in
100 mm
4 in
150 mm
1
.01 m
.033 ft
20-250V ac
S18RW3LP
S18RW3LPQ1
S18 Series
150 mm
Polarized Retro
100
.1 m
.33 ft
1m
3.3 ft
DISTANCE
10 m
33 ft
6 in
0
.5 m
1.6 ft
1.0 m
3.2 ft
1.5 m
4.8 ft
2.0 m
6.4 ft
2.5 m
8.0 ft
DISTANCE
For EZ-BEAM S18 Series Sensors:
i) 9 m (30') cables are available by adding suffix “W/30” to the model number of any cabled sensor (e.g. - S18RW3L W/30)
ii) A model with a QD connector requires an accessory mating cable. See pages 232 and the Accessories section for more information.
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179
S18 Series Sensors
Infrared, 880 nm
S18 Fixed-Field Mode
Models
Cutoff
Point
Supply
Voltage
Cable
Output
Type
Excess Gain
Performance based on 90% reflectance white test card
With 25 mm Far Limit Cutoff
1000
S18 Series
S18SN6FF25
S18SN6FF25Q
2 m (6.5')
4-Pin Euro QD
S18SP6FF25
S18SP6FF25Q
2 m (6.5')
4-Pin Euro QD
PNP
2 m (6.5')
4-Pin Micro QD
LO
NPN
10-30V dc
S18AW3FF25
S18AW3FF25Q1
25 mm
(1")
E
X
C
E
S
S
10
G
A
I
N
1
.1 mm
.004 in
20-250V ac
S18RW3FF25
S18RW3FF25Q1
2 m (6.5')
4-Pin Micro QD
Fixed-field mode
with 25 mm far
limit cutoff
100
1 mm
.04 in
10 mm
.4 in
100 mm
4 in
DISTANCE
DO
With 50 mm Far Limit Cutoff
1000
S18SN6FF50
S18SN6FF50Q
2 m (6.5')
4-Pin Euro QD
S18SP6FF50
S18SP6FF50Q
2 m (6.5')
4-Pin Euro QD
S18 Series
NPN
10-30V dc
S18AW3FF50
S18AW3FF50Q1
50 mm
(2")
PNP
2 m (6.5')
4-Pin Micro QD
LO
E
X
C
E
S
S
G
A
I
N
2 m (6.5')
4-Pin Micro QD
10
1
.1 mm
.004 in
20-250V ac
S18RW3FF50
S18RW3FF50Q1
Fixed-field mode
with 50 mm far
limit cutoff
100
1 mm
.04 in
10 mm
.4 in
100 mm
4 in
DISTANCE
DO
With 100 mm Far Limit Cutoff
1000
S18SN6FF100
S18SN6FF100Q
S18SP6FF100
S18SP6FF100Q
S18AW3FF100
S18AW3FF100Q1
S18 Series
2 m (6.5')
4-Pin Euro QD
100 mm
(4")
2 m (6.5')
4-Pin Euro QD
NPN
10-30V dc
PNP
2 m (6.5')
4-Pin Micro QD
LO
2 m (6.5')
4-Pin Micro QD
G
A
I
N
DO
Fixed-field mode
with 100 mm far
limit cutoff
100
10
1
.1 mm
.004 in
20-250V ac
S18RW3FF100
S18RW3FF100Q1
E
X
C
E
S
S
1 mm
.04 in
10 mm
.4 in
100 mm
4 in
DISTANCE
For EZ-BEAM S18 Series Sensors:
i) 9 m (30') cables are available by adding suffix “W/30” to the model number of any cabled sensor (e.g. - S18RW3DL W/30)
ii) A model with a QD connector requires an accessory mating cable. See pages 232 and the Accessories section for more information.
180
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S18 Series Sensors
Infrared, 880 nm
S18 Diffuse Mode
Models
Range
Supply
Voltage
Cable
Output
Type
Excess Gain
Beam Pattern
Performance based on 90% reflectance white test card
100 mm Range
S18SN6D
S18SN6DQ
2 m (6.5')
4-Pin Euro QD
S18SP6D
S18SP6DQ
2 m (6.5')
4-Pin Euro QD
100 mm
(4")
S18AW3D
S18AW3DQ1
2 m (6.5')
4-Pin Micro QD
S18RW3D
S18RW3DQ1
2 m (6.5')
4-Pin Micro QD
1000
NPN
10-30V dc
PNP
S18 Series
E
X
C
E
S
S
100
S18 Series
Short Range
Diffuse Mode
15 mm
10 mm
0.4 in
Maximum Gain
5 mm
0.2 in
0.6 in
Short Range Diffuse
0
LO
G
A
I
N
10
Minimum Gain
0
5 mm
0.2 in
10 mm
0.4 in
15 mm
20-250V ac
1
1 mm
.04 in
DO
10 mm
.4 in
100 mm
4 in
0.6 in
0
1000 mm
40 in
25 mm
1 in
DISTANCE
50 mm
2 in
75 mm 100 mm 125 mm
3 in
4 in
5 in
DISTANCE
300 mm Range
1000
S18SN6DL
S18SN6DLQ
2 m (6.5')
4-Pin Euro QD
S18SP6DL
S18SP6DLQ
300 mm
(12")
S18AW3DL
S18AW3DLQ1
S18RW3DL
S18RW3DLQ1
2 m (6.5')
4-Pin Euro QD
2 m (6.5')
4-Pin Micro QD
2 m (6.5')
4-Pin Micro QD
S18 Series
NPN
10-30V dc
PNP
LO
E
X
C
E
S
S
S18 Series
100
Maximum Gain
Long Range Diffuse
15 mm
10
Minimum Gain
0.4 in
5 mm
0.2 in
0
5 mm
0.2 in
10 mm
0.4 in
15 mm
DO
10 mm
.4 in
100 mm
4 in
1000 mm
40 in
0.6 in
10 mm
0
G
A
I
N
1
1 mm
.04 in
20-250V ac
Long Range
Diffuse Mode
0.6 in
0
DISTANCE
80 mm 160 mm 240 mm 320 mm 400 mm
15 in
3 in
6 in
9 in
12 in
DISTANCE
S18 Dimensions
S18 DC Sensor
S18 AC Sensor
*Polarized retroreflective and
fixed-field cabled models
= 86.3 mm (3.40")
Yellow LED
Output Indicator
Jam Nuts
(2 Provided)
2m
(6.5') Cable
18 x 1 mm
Thread
Green LED
Power Indicator
59.2 mm*
(2.33")
37.0 mm
(1.46")
* Polarized retroreflective and
fixed-field cabled models
= 65.0 mm (2.56")
S18 DC Sensor with Euro-Style QD
85.3 mm*
(3.36")
63.2 mm
(2.49")
S18 AC Sensor with Micro-Style QD
*Polarized retroreflective
and fixed-field QD models
= 105.1 mm (4.14")
78.0 mm*
(3.07")
37.0 mm
(1.46")
*Polarized retroreflective and
fixed-field QD models
= 83.8 mm (3.30")
104.1 mm*
(4.10")
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
63.2 mm
(2.49")
181
S186ELD Laser Sensors
S186ELD Laser Diode Emitters
•
Self-contained Class 2 modulated visible laser diode emitters
permit higher gain and extended range in opposed mode
sensing systems
•
Advanced self-diagnostics with separate alarm output†; dual
LED system indicates sensor performance
•
Choice of integral cable or euro-style quick-disconnect
connector
•
Narrow effective beam for small-object detection or for
precise position control
•
10 to 30V dc operation; third wire extinguishes laser light
when connected to +V dc
•
Compatible with all EZ-BEAM receivers; may also be used
with a variety of other Banner modulated photoelectric
receivers (see Excess Gain chart on page 183)
•
Popular 18 mm threaded barrel design
S186ELD Laser Emitter with EZBEAM S18 Receiver
CAUTION . . .
!
Never stare directly into
the emitter lens. Laser
light can damage your eyes.
Avoid placing any mirror-like object in the
beam. Never use a mirror as a target.
S186ELD Laser Diode Emitter
Models
Range
Cable
Range varies
depending on
which receiver
is used
S186ELD
S186ELDQ
2 m (6.5')
4-Pin Euro QD
Effective Beam
at Receiver
Excess Gain
See chart on page 183 and/or contact
factory Application Engineering group for
range and excess gain information
Opposed
Distance
1.5 m
3m
6m
15 m
30 m
Beam
Width
4 mm
5.5 mm
8.5 mm
18 mm
32 mm
S186ELD Laser Diode Emitter Dimensions
S186ELD Laser Diode Emitter
S186ELDQ Laser Diode Emitter
(2) Jam Nuts
24.1 mm (0.95") O.D.
(Supplied)
Green LED
Power ON Indicator
4.0 mm
(0.16")
59.9 mm
(2.36")
41.4 mm
(1.63")
M18 x 1
85.0 mm
(3.35")
65.5 mm
(2.58")
1.27 mm
(.05")
For S186ELD Laser Diode Emitters:
i) 9 m (30') cables are available by adding suffix “W/30” to the model number of any cabled sensor (e.g. - S186ELD W/30)
ii) A model with a QD connector requires an accessory mating cable. See pages 232 and the Accessories section for more information.
182
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S186ELD Laser Sensors
S186ELD Laser Diode Emitter Specifications
Supply Voltage and Current
10 to 30V dc (10% maximum ripple) at less than 35 mA
Supply Protection Circuitry
Protected against reverse polarity
Delay at Power-up
1.5 seconds
Sensing Beam
670 nm visible red Class 2 laser (temperature coefficient 0.2 nm/°C)
Pulse Width: 7µs
Rep Rate: 30µs
Peak Output Power: less than 1 milliwatt
Beam Diameter at Aperture
2.5 mm (0.10") collimated ellipse
Beam Divergence
±0.5 milliradians typical
Laser Control
Enable beam by applying 0V dc or by opening circuit; apply +10 to 30V dc to black wire to inhibit beam
Indicators
Green indicator, visible through rear cover, indicates power applied
Construction
M18 x 1 threaded yellow thermoplastic polyester barrel housing. Acrylic lens. Electronics totally
encapsulated. Two mounting nuts are included.
Environmental Rating
NEMA 6P; IEC IP67
Connections
PVC-jacketed 2 m (6.5') or 9 m (30') attached cable, or 4-pin Euro-style quick-disconnect (QD) fitting.
Operating Conditions
Temperature:
-10° to +50°C (+14° to 122°F)
Maximum relative humidity: 90% at 50° C (non-condensing)
Laser Classification
US Safety Standards 21 CFR 1040.10 and 1040.11; European Standards EN 60825 and IEC 60825
Certifications
LISTE D
Excess Gain
Excess Gain of the S186ELD emitter is dependent on the particular receiver used. Following is a comparison of the excess gain for various
recommended receivers at 15 m (50').
Receiver
Excess Gain
at 15 m (50')
MULTI-BEAM
SBRX1
Receiver
Excess Gain
at 15 m (50')
MINI-BEAM
3,000
SM31R
SBR1
3,000
SM31RL
SBRXD1
3,000
SM31RMHS
SBRD1
3,000
SM31RLMHS
MAXI-BEAM
300
1,700
200
1,100
ECONO-BEAM
RSBR
750
SE61R
45
RSBRSR
120
SE61RMHS
40
VALU-BEAM
Others
SMW95R
5,000
SM51RB
140
SMI91RQD
3,000
Q23SN6R
25
EZ-BEAM
T18SN6R
400
T30SN6R
400
S12SN6R
400
Q10AN6R
20
Q45BB6R
1,500
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183
S186ELD Laser Sensors
S186ELD Laser Diode Emitter Hookup Diagrams
S186ELD Laser Diode Emitter
bk
bn
bu
S186ELDQ Laser Diode Emitter
4-Pin Euro-Style
bk
Beam
Attenuator
+
bn
bu
wh
10-30V dc
–
Beam
Attenuator
+
10-30V dc
–
4-Pin Euro-Style Pin-out
(Cable Connector Shown)
S186ELD
White Wire
Brown Wire
Blue Wire
Black Wire
CAUTION
CLASS II LASER PRODUCT
LASER LIGHT - DO NOT STARE
INTO BEAM. AVOID EXPOSURE
9714 10TH AVE. N.
MINNEAPOLIS, MN 55441
Complies to: 21 CFR Part 1040.1 and EN60825 – IEC 825
Peak power = 1mW, Wavelength = 675nM,
2 Kilohertz,
2% Duty cycle
LASER LIGHT EMITTED
FROM THIS APERTURE
MANUFACTURED:
Quick-Disconnect (QD) Option
S186ELDQ Laser Diode Emitters are sold either with a 2 m (6.5') or 9 m (30') attached PVC-covered cable or with a 4-pin euro-style
QD cable fitting.
DC QD sensors are identified by the letter “Q” in their model number suffix. Mating cables for QD S186ELDQ sensors are model
MQDC-415 (straight connector) or MQDC-415RA (right-angled connector). Cables are supplied in a standard length of 5 m (15').
For more information on QD cable, see page 232 and the Accessories section.
184
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S186ELD Laser Sensors
NOTES:
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
185
M18 Series Sensors
M18 Series Stainless Steel Sensors
•
18 mm stainless steel threaded barrel sensor
•
10 to 30V dc; choose SPDT (complementary) NPN or PNP
outputs (150 mA max. ea.)
•
Advanced self-diagnostics with separate alarm output†; dual
LED system indicates sensor performance
•
Choice of integral cable or euro-style quick-disconnect
connector
†
EZ-BEAM M18 cabled and quick-disconnect versions
U.S. patent 5087838
M18 Sensing Mode Options
Opposed
Retroreflective
Diffuse
Fixed-Field
Infrared, 950 nm
M18 Opposed Mode Emitter (E) and Receiver (R)
Models
Range
M186E
M186EQ
M18SN6R
M18SN6RQ
M18SP6R
M18SP6RQ
Supply
Voltage
Cable
2 m (6.5')
4-Pin Euro QD
20 m
(66')
2 m (6.5')
4-Pin Euro QD
2 m (6.5')
4-Pin Euro QD
Output
Type
—
10-30V dc
NPN
Excess Gain
Effective Beam: 13 mm
1000
M18 Series
E
X
C
E
S
S
M18 Series
1500 mm
Opposed Mode
100
60 in
Opposed Mode
1000 mm
40 in
500 mm
20 in
0
G
A
I
N
PNP
Beam Pattern
10
0
500 mm
20 in
1000 mm
40 in
1500 mm
1
.1 m
.33 ft
1m
3.3 ft
10 m
33 ft
DISTANCE
100 m
330 ft
60 in
0
5m
16 ft
10 m
32 ft
15 m
49 ft
20 m
66 ft
25 m
82 ft
DISTANCE
For EZ-BEAM M18 Series Sensors:
i) 9 m (30') cables are available by adding suffix “W/30” to the model number of any cabled sensor (e.g. - M18SN6R W/30)
ii) A model with a QD connector requires an accessory mating cable. See page 232 and Accessories section for more information
186
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
M18 Series Sensors
NOTE: Retroreflective range is specified using one model BRT-3 retroreflector
(3" diameter). Actual sensing range may be more or less than specified,
depending upon the efficiency and reflective area of the retroreflector(s) in use.
See page 722 for more information.
P
Non-Polarized, Polarized
M18 Retroreflective Mode
Models
Range
Cable
Supply
Voltage
Output
Type
Non-Polarized (Infrared, 950 nm)
M18SN6L
M18SN6LQ
M18SP6L
M18SP6LQ
Beam Pattern
1000
M18 Series
2 m (6.5')
4-Pin Euro QD
2m
(79")
Excess Gain
NPN
E
X
C
E
S
S
Non-Polarized Retro
100
M18 Series
120 mm
with BRT-3 Reflector
3.2 in
40 mm
1.6 in
0
2 m (6.5')
4-Pin Euro QD
10
G
A
I
N
10-30V dc
4.7 in
Non-Polarized Retro
80 mm
40 mm
1.6 in
80 mm
3.2 in
120 mm
1
.01 m
.033 ft
PNP
.1 m
.33 ft
1m
3.3 ft
4.7 in
0
10 m
33 ft
.5 m
1.6 ft
1.0 m
3.2 ft
DISTANCE
Polarized (Visible red, 680 nm)
M18SN6LP
M18SN6LPQ
M18SP6LP
M18SP6LPQ
1.5 m
4.8 ft
2.0 m
6.4 ft
2.5 m
8.0 ft
DISTANCE
1000
M18 Series
2 m (6.5')
4-Pin Euro QD
2m
(79")
0
with BRT-3 Reflector
NPN
M18 Series
150 mm
Polarized Retro
100
6 in
Polarized Retro
100 mm
4 in
50 mm
with BRT-3 Reflector
2 in
0
10
G
A
I
N
10-30V dc
2 m (6.5')
4-Pin Euro QD
E
X
C
E
S
S
0
with BRT-3 Reflector
50 mm
2 in
100 mm
4 in
150 mm
PNP
1
.01 m
.033 ft
.1 m
.33 ft
1m
3.3 ft
6 in
0
10 m
33 ft
.5 m
1.6 ft
1.0 m
3.2 ft
1.5 m
4.8 ft
2.0 m
6.4 ft
2.5 m
8.0 ft
DISTANCE
DISTANCE
Infrared, 880 nm
M18 Diffuse Mode
Models
Range
Cable
Supply
Voltage
Output
Type
100 mm Range
M18SN6D
M18SN6DQ
Beam Pattern
Performance based on 90% reflectance white test card
1000
M18 Series
2 m (6.5')
4-Pin Euro QD
NPN
E
X
C
E
S
S
100
M18 Series
G
A
I
N
10-30V dc
2 m (6.5')
4-Pin Euro QD
15 mm
10 mm
0.4 in
Maximum Gain
5 mm
0.2 in
Short Range Diffuse
PNP
10
0
Minimum Gain
1
1 mm
.04 in
10 mm
.4 in
100 mm
4 in
5 mm
0.2 in
10 mm
0.4 in
15 mm
0.6 in
0
1000 mm
40 in
25 mm
1 in
DISTANCE
300 mm Range
M18SN6DL
M18SN6DLQ
50 mm
2 in
75 mm 100 mm 125 mm
3 in
4 in
5 in
DISTANCE
1000
M18 Series
2 m (6.5')
4-Pin Euro QD
NPN
E
X
C
E
S
S
M18 Series
100
Maximum Gain
Long Range
Diffuse Mode
Long Range Diffuse
15 mm
G
A
I
N
10-30V dc
2 m (6.5')
4-Pin Euro QD
PNP
10
Minimum Gain
0.4 in
5 mm
0.2 in
0
5 mm
0.2 in
10 mm
0.4 in
15 mm
1
1 mm
.04 in
10 mm
.4 in
100 mm
4 in
DISTANCE
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
1000 mm
40 in
0.6 in
10 mm
0
300 mm
(12")
M18SP6DL
M18SP6DLQ
0.6 in
Short Range
Diffuse Mode
0
100 mm
(4")
M18SP6D
M18SP6DQ
Excess Gain
0.6 in
0
80 mm 160 mm 240 mm 320 mm 400 mm
15 in
3 in
6 in
9 in
12 in
DISTANCE
187
M18 Series Sensors
Infrared, 880 nm
M18 Fixed-Field Mode
Models
Cutoff
Point
Supply
Voltage
Cable
Output
Type
With 25 mm Far Limit Cutoff
M18SN6FF25
M18SN6FF25Q
2 m (6.5')
4-Pin Euro QD
25 mm
(1")
M18SP6FF25
M18SP6FF25Q
1000
M18 Series
NPN
E
X
C
E
S
S
Fixed-field mode
with 25 mm far
limit cutoff
100
10
G
A
I
N
10-30V dc
2 m (6.5')
4-Pin Euro QD
Excess Gain
Performance based on 90% reflectance white test card
1
.1 mm
.004 in
PNP
1 mm
.04 in
10 mm
.4 in
100 mm
4 in
DISTANCE
With 50 mm Far Limit Cutoff
M18SN6FF50
M18SN6FF50Q
2 m (6.5')
4-Pin Euro QD
50 mm
(2")
M18SP6FF50
M18SP6FF50Q
1000
M18 Series
NPN
G
A
I
N
10-30V dc
2 m (6.5')
4-Pin Euro QD
E
X
C
E
S
S
PNP
Fixed-field mode
with 50 mm far
limit cutoff
100
10
1
.1 mm
.004 in
1 mm
.04 in
10 mm
.4 in
100 mm
4 in
DISTANCE
With 100 mm Far Limit Cutoff
M18SN6FF100
M18SN6FF100Q
2 m (6.5')
4-Pin Euro QD
100 mm
(4")
M18SP6FF100
M18SP6FF100Q
1000
M18 Series
NPN
G
A
I
N
10-30V dc
2 m (6.5')
4-Pin Euro QD
E
X
C
E
S
S
PNP
Fixed-field mode
with 100 mm far
limit cutoff
100
10
1
.1 mm
.004 in
1 mm
.04 in
10 mm
.4 in
100 mm
4 in
DISTANCE
For EZ-BEAM M18 Series Sensors:
i) 9 m (30') cables are available by adding suffix “W/30” to the model number of any cabled sensor (e.g. - M18SN6FF50 W/30)
ii) A model with a QD connector requires an accessory mating cable. See page 232 and Accessories section for more information
188
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
M18 Series Sensors
M18 Dimensions
M18 with Attached Cable
M18 with QD Cable
Yellow LED
Output Indicator
Yellow LED
Output Indicator
Jam Nuts
(2 Provided)
2m
(6.5') Cable
18 x 1 mm
Thread
Green LED
Power Indicator
59.2 mm*
(2.33")
37.0 mm
(1.46")
*Polarized retroreflective and fixed-field cabled models = 65.0 mm (2.56")
Jam Nuts
(2 Provided)
Green LED
Power
Indicator
18 x 1 mm
Thread
78.0 mm*
(3.07")
37.0 mm
(1.46")
*Polarized retroreflective and fixed-field QD models = 83.8 mm (3.30")
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
189
S30 Series Sensors
S30 Series Sensors
S30 quick-disconnect (top) and
cabled (bottom) versions shown
•
30 mm thermoplastic polyester threaded barrel sensor
•
Advanced self-diagnostics with separate alarm output†; dual LED
system indicates sensor performance
•
Choice of integral cable or euro-style quick-disconnect connector
•
10 to 30V dc; choose SPDT (complementary) NPN or PNP outputs
(150 mA max. ea.)
•
20 to 250V ac (3-wire hookup); SPST solid-state switch output,
maximum load 300 mA
S30 Sensing Mode Options
P
Opposed
Retroreflective
Polarized
Fixed-Field
Infrared, 950 nm
S30 Opposed Mode Emitter (E) and Receiver (R)
Models
Range
Supply
Voltage
Cable
S306E
S306EQ
2 m (6.5')
4-Pin Euro QD
S30SN6R
S30SN6RQ
2 m (6.5')
4-Pin Euro QD
S30SP6R
S30SP6RQ
2 m (6.5')
4-Pin Euro QD
S303E
S303EQ1
60 m
(200')
2 m (6.5')
4-Pin Micro QD
S30RW3R
S30RW3RQ1
2 m (6.5')
4-Pin Micro QD
190
Excess Gain
Beam Pattern
Effective Beam: 23 mm
—
10-30V dc
NPN
PNP
1000
S30 Series
E
X
C
E
S
S
Opposed Mode
100
S30 Series
750 mm
30 in
Opposed Mode
500 mm
20 in
250 mm
10 in
0
2 m (6.5')
4-Pin Micro QD
S30AW3R
S30AW3RQ1
Output
Type
—
20-250V ac
LO
G
A
I
N
10
0
250 mm
10 in
500 mm
20 in
750 mm
1
.1 m
.33 ft
1m
3.3 ft
10 m
33 ft
DISTANCE
100 m
330 ft
30 in
0
15 m
50 ft
30 m
100 ft
45 m
150 ft
60 m
200 ft
75 m
250 ft
DISTANCE
DO
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
S30 Series Sensors
P
Visible red, 680 nm
NOTE: Retroreflective range is specified using one model BRT-3 retroreflector (3" diameter).
Actual sensing range may be more or less than specified, depending upon the efficiency and
reflective area of the retroreflector(s) in use. See page 722 for more information.
S30 Polarized Retroreflective Mode
Models
Range
Cable
S30SN6LP
S30SN6LPQ
2 m (6.5')
4-Pin Euro QD
S30SP6LP
S30SP6LPQ
2 m (6.5')
4-Pin Euro QD
Supply
Voltage
Output
Type
NPN
10-30V dc
S30AW3LP
S30AW3LPQ1
6m
(20')
PNP
2 m (6.5')
4-Pin Micro QD
2 m (6.5')
4-Pin Micro QD
Beam Pattern
S30 Series
E
X
C
E
S
S
S30 Series
150 mm
Polarized Retro
100
LO
DO
G
A
I
N
6 in
Polarized Retro
100 mm
4 in
50 mm
with BRT-3 Reflector
2 in
0
20-250V ac
S30RW3LP
S30RW3LPQ1
Excess Gain
1000
10
0
with BRT-3 Reflector
50 mm
2 in
100 mm
4 in
150 mm
1
.01 m
.033 ft
.1 m
.33 ft
1m
3.3 ft
DISTANCE
10 m
33 ft
6 in
0
1.5 m
5 ft
3.0 m
10 ft
4.5 m
15 ft
6.0 m
20 ft
7.5 m
25 ft
DISTANCE
For EZ-BEAM S30 Series Sensors:
i) 9 m (30') cables are available by adding suffix “W/30” to the model number of any cabled sensor (e.g. - S30SN6R W/30)
ii) A model with a QD connector requires an accessory mating cable. See pages 232 and the Accessories section for more information.
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
191
S30 Series Sensors
Infrared, 880 nm
S30 Fixed-Field Mode
Models
Cutoff
Point
Supply
Voltage
Cable
Output
Type
Excess Gain
Performance based on 90% reflectance white test card
With 200 mm Far Limit Cutoff
1000
S30SN6FF200
S30SN6FF200Q
2 m (6.5')
4-Pin Euro QD
S30SP6FF200
S30SP6FF200Q
2 m (6.5')
4-Pin Euro QD
S30 Series
PNP
E
X
C
E
S
S
LO
G
A
I
N
NPN
10-30V dc
S30AW3FF200
S30AW3FF200Q1
200 mm
(8")
2 m (6.5')
4-Pin Micro QD
100
Fixed-field mode
with 200 mm far
limit cutoff
10
1
1 mm
.04 in
20-250V ac
S30RW3FF200
S30RW3FF200Q1
2 m (6.5')
4-Pin Micro QD
10 mm
.4 in
100 mm
4 in
1000 mm
40 in
DISTANCE
DO
With 400 mm Far Limit Cutoff
S30SN6FF400
S30SN6FF400Q
2 m (6.5')
4-Pin Euro QD
S30SP6FF400
S30SP6FF400Q
2 m (6.5')
4-Pin Euro QD
1000
NPN
10-30V dc
S30AW3FF400
S30AW3FF400Q1
400 mm
(16")
PNP
2 m (6.5')
4-Pin Micro QD
LO
S30 Series
E
X
C
E
S
S
G
A
I
N
20-250V ac
S30RW3FF400
S30RW3FF400Q1
2 m (6.5')
4-Pin Micro QD
100
Fixed-field mode
with 400 mm far
limit cutoff
10
1
1 mm
.04 in
DO
10 mm
.4 in
100 mm
4 in
1000 mm
40 in
DISTANCE
With 600 mm Far Limit Cutoff
S30SN6FF600
S30SN6FF600Q
2 m (6.5')
4-Pin Euro QD
S30SP6FF600
S30SP6FF600Q
2 m (6.5')
4-Pin Euro QD
1000
NPN
10-30V dc
S30AW3FF600
S30AW3FF600Q1
600 mm
(24")
PNP
2 m (6.5')
4-Pin Micro QD
LO
20-250V ac
S30RW3FF600
S30RW3FF600Q1
2 m (6.5')
4-Pin Micro QD
DO
S30 Series
E
X
C
E
S
S
G
A
I
N
100
Fixed-field mode
with 600 mm far
limit cutoff
10
1
1 mm
.04 in
10 mm
.4 in
100 mm
4 in
1000 mm
40 in
DISTANCE
For EZ-BEAM S30 Series Sensors:
i) 9 m (30') cables are available by adding suffix “W/30” to the model number of any cabled sensor (e.g. - S30AW3FF600 W/30)
ii) A model with a QD connector requires an accessory mating cable. See pages 232 and the Accessories section for more information.
192
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
S30 Series Sensors
S30 Dimensions
S30 DC Sensor
S30 AC Sensor
Yellow LED
Output Indicator
2 m (6.5') Cable
Jam Nuts
(2 Provided)
Green LED
Power Indicator
M30 x 1.5
Thread
53.0 mm
68.7 mm (2.09")
(2.71")
S30 DC Sensor with Euro-Style QD
77.5 mm
(3.05")
53.0 mm
(2.09")
80.7 mm
(3.18")
65.0 mm
(2.56")
S30 AC Sensor with Micro-Style QD
89.4 mm
(3.52")
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
65.0 mm
(2.56")
193
Q25 Series Sensors
Q25 Series Sensors
•
•
Q25 quick-disconnect with right-angle cable (left)
and cabled (right) versions shown
•
•
•
Rectangular thermoplastic polyester housing
Advanced self-diagnostics with separate alarm output†; dual LED system
indicates sensor performance
Choice of integral cable or euro-style quick-disconnect connector
10 to 30V dc; choose SPDT (complementary) NPN or PNP outputs (150
mA max. ea.)
20 to 250V ac (3-wire hookup); SPST solid-state switch output,
maximum load 300 mA
Q25 Sensing Mode Options
P
Opposed
Retroreflective
Polarized
Fixed-Field
Infrared, 950 nm
Q25 Opposed Mode Emitter (E) and Receiver (R)
Models
Range
Supply
Voltage
Cable*
Q256E
Q256EQ
2 m (6.5')
4-Pin Euro QD
Q25SN6R
Q25SN6RQ
2 m (6.5')
4-Pin Euro QD
Q25SP6R
Q25SP6RQ
2 m (6.5')
4-Pin Euro QD
Q253E
Q253EQ1
20 m
(66')
Q25AW3R
Q25AW3RQ1
Q25RW3R
Q25RW3RQ1
Excess Gain
Beam Pattern
—
10-30V dc
NPN
PNP
Effective Beam: 13 mm
1000
Q25 Series
E
X
C
E
S
S
Q25 Series
1500 mm
Opposed Mode
100
60 in
Opposed Mode
1000 mm
40 in
500 mm
20 in
0
0
2 m (6.5')
4-Pin Micro QD
2 m (6.5')
4-Pin Micro QD
Output
Type
—
20-250V ac
10
G
A
I
N
LO
1
.1 m
.33 ft
1m
3.3 ft
10 m
33 ft
500 mm
20 in
1000 mm
40 in
1500 mm
60 in
0
100 m
330 ft
5m
16 ft
10 m
32 ft
2 m (6.5')
4-Pin Micro QD
15 m
49 ft
20 m
66 ft
25 m
82 ft
DISTANCE
DISTANCE
DO
P
NOTE: Retroreflective range is specified using one model BRT-3 retroreflector (3" diameter). Actual
sensing range may be more or less than specified, depending upon the efficiency and reflective
area of the retroreflector(s) in use. See page 722 for more information.
Visible red, 680 nm
Q25 Polarized Retroreflective Mode
Models
Range
Supply
Voltage
Cable*
Q25SN6LP
Q25SN6LPQ
2 m (6.5')
4-Pin Euro QD
Q25SP6LP
Q25SP6LPQ
2 m (6.5')
4-Pin Euro QD
Output
Type
NPN
10-30V dc
Q25AW3LP
Q25AW3LPQ1
2m
(79")
PNP
2 m (6.5')
4-Pin Micro QD
LO
20-250V ac
Q25RW3LP
Q25RW3LPQ1
194
2 m (6.5')
4-Pin Micro QD
Excess Gain
Beam Pattern
1000
DO
Q25 Series
E
X
C
E
S
S
G
A
I
N
Q25 Series
150 mm
Polarized Retro
100
6 in
Polarized Retro
100 mm
4 in
50 mm
with BRT-3 Reflector
2 in
0
10
0
with BRT-3 Reflector
50 mm
2 in
100 mm
4 in
150 mm
1
.01 m
.033 ft
.1 m
.33 ft
1m
3.3 ft
DISTANCE
10 m
33 ft
6 in
0
.5 m
1.6 ft
1.0 m
3.2 ft
1.5 m
4.8 ft
2.0 m
6.4 ft
2.5 m
8.0 ft
DISTANCE
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
Q25 Series Sensors
Infrared, 880 nm
Q25 Fixed-Field Mode
Cutoff
Point
Models
Supply
Voltage
Cable*
Output
Type
Excess Gain
Performance based on 90% reflectance white test card
With 25 mm Far Limit Cutoff
Q25SN6FF25
Q25SN6FF25Q
2 m (6.5')
4-Pin Euro QD
Q25SP6FF25
Q25SP6FF25Q
2 m (6.5')
4-Pin Euro QD
25 mm
(1")
Q25AW3FF25
Q25AW3FF25Q1
Q25RW3FF25
Q25RW3FF25Q1
1000
M18 Series
E
X
C
E
S
S
NPN
10-30V dc
PNP
2 m (6.5')
4-Pin Micro QD
10
G
A
I
N
LO
1
.1 mm
.004 in
20-250V ac
2 m (6.5')
4-Pin Micro QD
Fixed-field mode
with 25 mm far
limit cutoff
100
DO
1 mm
.04 in
10 mm
.4 in
100 mm
4 in
DISTANCE
With 50 mm Far Limit Cutoff
1000
Q25 Series
Q25SN6FF50
Q25SN6FF50Q
2 m (6.5')
4-Pin Euro QD
Q25SP6FF50
Q25SP6FF50Q
2 m (6.5')
4-Pin Euro QD
50 mm
(2")
Q25AW3FF50
Q25AW3FF50Q1
Q25RW3FF50
Q25RW3FF50Q1
E
X
C
E
S
S
NPN
10-30V dc
PNP
2 m (6.5')
4-Pin Micro QD
10
G
A
I
N
LO
20-250V ac
2 m (6.5')
4-Pin Micro QD
Fixed-field mode
with 50 mm far
limit cutoff
100
1
.1 mm
.004 in
DO
1 mm
.04 in
10 mm
.4 in
100 mm
4 in
DISTANCE
With 100 mm Far Limit Cutoff
1000
Q25 Series
Q25SN6FF100
Q25SN6FF100Q
2 m (6.5')
4-Pin Euro QD
Q25SP6FF100
Q25SP6FF100Q
2 m (6.5')
4-Pin Euro QD
Q25AW3FF100
Q25AW3FF100Q1
100 mm
(4")
Q25RW3FF100
Q25RW3FF100Q1
*
E
X
C
E
S
S
NPN
10-30V dc
PNP
2 m (6.5')
4-Pin Micro QD
G
A
I
N
LO
20-250V ac
2 m (6.5')
4-Pin Micro QD
10
1
.1 mm
.004 in
DO
Fixed-field mode
with 100 mm far
limit cutoff
100
1 mm
.04 in
10 mm
.4 in
100 mm
4 in
DISTANCE
9 m (30') cables are available by adding suffix “W/30” to the model number of any cabled sensor (e.g. - Q25SN6R W/30)
A model with a QD connector requires an accessory mating cable. See pages 232 and the Accessories section for more information.
Q25 Dimensions
Q25 Sensor - All Cabled Models
Yellow LED
Output Indicator
Green LED
Q25 Sensor - All Quick-Disconnect Models
DC Sensors with Euro-Style QD
AC Sensors with Micro-Style QD
Power Indicator
30.0 mm*
(1.18")
25.0 mm
(0.98")
35.0 mm
(1.38")
Lens Centerline
12.4 mm
(0.49")
15.2 mm
(0.60")
(Jam Nut Supplied)
12.7 mm
(0.50")
M18 x 1 Thread
2 m (6.5') Cable
* Fixed-field models = 31.0 mm (1.22")
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
195
Q40 Series Sensors
Q40 Series Sensors
Mode
Q40 quick-disconnect Q40
with Opposed
right-angle
cableShown
(left)
and cabled (right) versions shown
•
Rectangular thermoplastic polyester housing
•
Advanced self-diagnostics with separate alarm output†; dual
LED system indicates sensor performance
•
Choice of integral cable or euro-style quick-disconnect
connector
•
10 to 30V dc; choose SPDT (complementary) NPN or PNP
outputs (150 mA max. ea.)
•
20 to 250V ac (3-wire hookup); SPST solid-state switch
output, maximum load 300 mA
Q40 Sensing Mode Options
P
Opposed
Fixed-Field
Retroreflective
Polarized
Infrared, 950 nm
Q40 Opposed Mode Emitter (E) and Receiver (R)
Models
Range
Supply
Voltage
Cable
Q406E
Q406EQ
2 m (6.5')
4-Pin Euro QD
Q40SN6R
Q40SN6RQ
2 m (6.5')
4-Pin Euro QD
Q40SP6R
Q40SP6RQ
2 m (6.5')
4-Pin Euro QD
Q403E
Q403EQ1
60 m
(200')
Excess Gain
Beam Pattern
Effective Beam: 23 mm
—
10-30V dc
NPN
PNP
1000
Q40 Series
E
X
C
E
S
S
Opposed Mode
100
Q40 Series
750 mm
30 in
Opposed Mode
500 mm
20 in
250 mm
10 in
0
2 m (6.5')
4-Pin Micro QD
Q40AW3R
Q40AW3RQ1
2 m (6.5')
4-Pin Micro QD
Q40RW3R
Q40RW3RQ1
2 m (6.5')
4-Pin Micro QD
196
Output
Type
—
20-250V ac
LO
G
A
I
N
10
0
250 mm
10 in
500 mm
20 in
750 mm
1
.1 m
.33 ft
1m
3.3 ft
10 m
33 ft
DISTANCE
100 m
330 ft
30 in
0
15 m
50 ft
30 m
100 ft
45 m
150 ft
60 m
200 ft
75 m
250 ft
DISTANCE
DO
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
Q40 Series Sensors
Infrared, 880 nm
Q40 Fixed-Field Mode
Models
Cutoff
Point
Cable
Supply
Voltage
Output
Type
Excess Gain
Performance based on 90% reflectance white test card
With 200 mm Far Limit Cutoff
1000
Q40 Series
Q40SN6FF200
Q40SN6FF200Q
2 m (6.5')
4-Pin Euro QD
NPN
10-30V dc
Q40SP6FF200
Q40SP6FF200Q
Q40AW3FF200
Q40AW3FF200Q1
200 mm
(8")
2 m (6.5')
4-Pin Euro QD
PNP
2 m (6.5')
4-Pin Micro QD
LO
E
X
C
E
S
S
100
Fixed-field mode
with 200 mm far
limit cutoff
10
G
A
I
N
1
1 mm
.04 in
20-250V ac
Q40RW3FF200
Q40RW3FF200Q1
10 mm
.4 in
100 mm
4 in
1000 mm
40 in
DISTANCE
2 m (6.5')
4-Pin Micro QD
DO
With 400 mm Far Limit Cutoff
1000
Q40SN6FF400
Q40SN6FF400Q
2 m (6.5')
4-Pin Euro QD
Q40SP6FF400
Q40SP6FF400Q
2 m (6.5')
4-Pin Euro QD
Q40 Series
PNP
E
X
C
E
S
S
LO
G
A
I
N
NPN
10-30V dc
Q40AW3FF400
Q40AW3FF400Q1
400 mm
(16")
2 m (6.5')
4-Pin Micro QD
100
Fixed-field mode
with 400 mm far
limit cutoff
10
1
1 mm
.04 in
20-250V ac
Q40RW3FF400
Q40RW3FF400Q1
2 m (6.5')
4-Pin Micro QD
10 mm
.4 in
100 mm
4 in
1000 mm
40 in
DISTANCE
DO
With 600 mm Far Limit Cutoff
1000
Q40 Series
Q40SN6FF600
Q40SN6FF600Q
2 m (6.5')
4-Pin Euro QD
Q40SP6FF600
Q40SP6FF600Q
2 m (6.5')
4-Pin Euro QD
PNP
2 m (6.5')
4-Pin Micro QD
LO
NPN
10-30V dc
Q40AW3FF600
Q40AW3FF600Q1
600 mm
(24")
E
X
C
E
S
S
G
A
I
N
2 m (6.5')
4-Pin Micro QD
Fixed-field mode
with 600 mm far
limit cutoff
10
1
1 mm
.04 in
20-250V ac
Q40RW3FF600
Q40RW3FF600Q1
100
DO
10 mm
.4 in
100 mm
4 in
1000 mm
40 in
DISTANCE
For EZ-BEAM Q40 Series Sensors:
i) 9 m (30') cables are available by adding suffix “W/30” to the model number of any cabled sensor (e.g. - Q40RW3FF400 W/30)
ii) A model with a QD connector requires an accessory mating cable. See pages 232 and the Accessories section for more information.
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
197
Q40 Series Sensors
P
NOTE: Retroreflective range is specified using one model BRT-3 retroreflector (3" diameter).
Actual sensing range may be more or less than specified, depending upon the efficiency and
reflective area of the retroreflector(s) in use. See page 722 for more information.
Visible red, 680 nm
Q40 Polarized Retroreflective Mode
Models
Range
Supply
Voltage
Cable
Q40SN6LP
Q40SN6LPQ
2 m (6.5')
4-Pin Euro QD
Q40SP6LP
Q40SP6LPQ
2 m (6.5')
4-Pin Euro QD
Output
Type
NPN
10-30V dc
6m
(20')
Q40AW3LP
Q40AW3LPQ1
PNP
Beam Pattern
1000
Q40 Series
E
X
C
E
S
S
Q40 Series
150 mm
Polarized Retro
100
2 m (6.5')
4-Pin Micro QD
LO
2 m (6.5')
4-Pin Micro QD
G
A
I
N
6 in
Polarized Retro
100 mm
4 in
50 mm
with BRT-3 Reflector
2 in
0
20-250V ac
Q40RW3LP
Q40RW3LPQ1
Excess Gain
10
0
with BRT-3 Reflector
50 mm
2 in
100 mm
4 in
150 mm
1
.01 m
.033 ft
DO
.1 m
.33 ft
1m
3.3 ft
10 m
33 ft
6 in
0
1.5 m
5 ft
DISTANCE
3.0 m
10 ft
4.5 m
15 ft
6.0 m
20 ft
7.5 m
25 ft
DISTANCE
For EZ-BEAM Q40 Series Sensors:
i) 9 m (30') cables are available by adding suffix “W/30” to the model number of any cabled sensor (e.g. - Q40SN6LP W/30)
ii) A model with a QD connector requires an accessory mating cable. See pages 232 and the Accessories section for more information.
Q40 Dimensions
Q40 Sensor - All Cabled Models
Yellow LED
Output Indicator
Q40 Sensor - All Quick-Disconnect Models
DC Sensors with Euro-Style QD
AC Sensors with Micro-Style QD
Green LED
Power Indicator
46.0 mm
(1.81")
40.1 mm
(1.58")
50.0 mm
(1.97")
Lens Centerline
20.1 mm
(0.79")
19.8 mm
(0.78")
(Jam Nut Supplied)
82.5 mm
(3.25")
M30 x 1.5 Thread
2 m (6.5') Cable
198
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
Q40 Series Sensors
NOTES:
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
199
T18 Series Sensors
T18 Series Sensors
T18 quick-disconnect ac model with right-angle cable (left)
and cabled dc model (right) versions shown
•
Patented† right-angle thermoplastic polyester housing with
18 mm threaded lens
•
Advanced self-diagnostics with separate alarm output†; dual
LED system indicates sensor performance
•
Choice of integral cable or euro-style quick-disconnect
connector
•
10 to 30V dc; choose SPDT (complementary) NPN or PNP
outputs (150 mA max. ea.)
•
20 to 250V ac (3-wire hookup); SPST solid-state switch
output, maximum load 300 mA
Note: Also see T18 Series sensors for device level bus
networks, beginning on page 216.
†
U.S. design patent D361057
T18 Sensing Mode Options
Opposed
Retroreflective
Diffuse
Fixed-Field
Infrared, 950 nm
T18 Opposed Mode Emitter (E) and Receiver (R)
Models
Range
Supply
Voltage
Cable
T186E
T186EQ
2 m (6.5')
4-Pin Euro QD
T18SN6R
T18SN6RQ
2 m (6.5')
4-Pin Euro QD
T18SP6R
T18SP6RQ
2 m (6.5')
4-Pin Euro QD
T183E
T183EQ1
20 m
(66')
Excess Gain
Beam Pattern
—
10-30V dc
NPN
PNP
Effective Beam: 13 mm
1000
T18 Series
E
X
C
E
S
S
Opposed Mode
100
T18 Series
1500 mm
60 in
Opposed Mode
1000 mm
40 in
500 mm
20 in
0
2 m (6.5')
4-Pin Micro QD
T18AW3R
T18AW3RQ1
2 m (6.5')
4-Pin Micro QD
T18RW3R
T18RW3RQ1
2 m (6.5')
4-Pin Micro QD
200
Output
Type
—
20-250V ac
LO
G
A
I
N
10
0
500 mm
20 in
1000 mm
40 in
1500 mm
1
.1 m
.33 ft
1m
3.3 ft
10 m
33 ft
DISTANCE
100 m
330 ft
60 in
0
5m
16 ft
10 m
32 ft
15 m
49 ft
20 m
66 ft
25 m
82 ft
DISTANCE
DO
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
T18 Series Sensors
P
Non-Polarized
Polarized
NOTE: Retroreflective range is specified using one model BRT-3 retroreflector
(3" diameter). Actual sensing range may be more or less than specified,
depending upon the efficiency and reflective area of the retroreflector(s) in use.
See page 722 for more information.
T18 Retroreflective Mode
Models
Range
Cable
Supply
Voltage
Output
Type
Excess Gain
Beam Pattern
Non-Polarized with Gain Control (Infrared, 950 nm)
T18SN6L
T18SN6LQ
1000
2 m (6.5')
4-Pin Euro QD
NPN
10-30V dc
T18SP6L
T18SP6LQ
T18AW3L
T18AW3LQ1
2m
(79")
2 m (6.5')
4-Pin Euro QD
PNP
T18 Series
E
X
C
E
S
S
T18 Series
120 mm
2 m (6.5')
4-Pin Micro QD
LO
G
A
I
N
2 m (6.5')
4-Pin Micro QD
4.7 in
Non-Polarized Retro
80 mm
3.2 in
40 mm
with BRT-3 Reflector
1.6 in
0
10
0
with BRT-3 Reflector
40 mm
1.6 in
80 mm
3.2 in
120 mm
1
.01 m
.033 ft
20-250V ac
T18RW3L
T18RW3LQ1
Non-Polarized Retro
100
DO
.1 m
.33 ft
1m
3.3 ft
4.7 in
0
10 m
33 ft
.5 m
1.6 ft
1.0 m
3.2 ft
1.5 m
4.8 ft
2.0 m
6.4
2.5 m
8.0 in
DISTANCE
DISTANCE
Polarized (Visible red, 680 nm)*
1000
T18SN6LP
T18SN6LPQ
T18 Series
2 m (6.5')
4-Pin Euro QD
NPN
10-30V dc
T18SP6LP
T18SP6LPQ
T18AW3LP
T18AW3LPQ1
2m
(79")
2 m (6.5')
4-Pin Euro QD
PNP
2 m (6.5')
4-Pin Micro QD
LO
2 m (6.5')
4-Pin Micro QD
G
A
I
N
DO
T18 Series
150 mm
Polarized Retro
100
6 in
Polarized Retro
4 in
100 mm
2 in
50 mm
with BRT-3 Reflector
0
10
0
with BRT-3 Reflector
50 mm
2 in
100 mm
4 in
6 in
150 mm
1
.01 m
.033 ft
20-250V ac
T18RW3LP
T18RW3LPQ1
E
X
C
E
S
S
.1 m
.33 ft
1m
3.3 ft
DISTANCE
10 m
33 ft
0
.5 m
1.6 ft
1.0 m
3.2 ft
1.5 m
4.8 ft
2.0 m
6.4 ft
2.5 m
8.0 ft
DISTANCE
*Note: Use polarized models when shiny objects will be sensed.
For EZ-BEAM T18 Series Sensors:
i) 9 m (30') cables are available by adding suffix “W/30” to the model number of any cabled sensor (e.g. - T18SN6LP W/30)
ii) A model with a QD connector requires an accessory mating cable. See pages 232 and the Accessories section for more information.
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
201
T18 Series Sensors
Infrared, 880 nm
T18 Diffuse Mode
Models
Range
Supply
Voltage
Cable
Output
Type
Excess Gain
Beam Pattern
Performance based on 90% reflectance white test card
With Gain Control (DC)
1000
T18 Series
T18SN6D
T18SN6DQ
2 m (6.5')
4-Pin Euro QD
NPN
E
X
C
E
S
S
DC Diffuse mode
T18 Series
60 mm
2.4 in
DC Diffuse Mode
100
40 mm
1.6 in
20 mm
0.8 in
0
500 mm
(20")
T18SP6D
T18SP6DQ
10-30V dc
2 m (6.5')
4-Pin Euro QD
10
G
A
I
N
0
20 mm
0.8 in
40 mm
1.6 in
60 mm
1
1 mm
.04 in
PNP
10 mm
.4 in
100 mm
4 in
2.4 in
0
1000 mm
40 in
125 mm 250 mm 375 mm 500 mm 625 mm
5 in
10 in
15 in
20 in
25 in
DISTANCE
DISTANCE
With Gain Control (AC)
1000
T18 Series
T18AW3D
T18AW3DQ1
2 m (6.5')
4-Pin Micro QD
AC Diffuse mode
T18 Series
AC Diffuse Mode
15 mm
G
A
I
N
20-250V ac
2 m (6.5')
4-Pin Micro QD
DO
0.6 in
100
10 mm
0.4 in
5 mm
0.2 in
0
300 mm
(12")
T18RW3D
T18RW3DQ1
LO
E
X
C
E
S
S
10
0
5 mm
0.2 in
10 mm
0.4 in
15 mm
1
1 mm
.04 in
10 mm
.4 in
100 mm
4 in
DISTANCE
1000 mm
40 in
0.6 in
0
80 mm 160 mm 240 mm 320 mm 400 mm
3.2 in
6.4 in
9.6 in 12.8 in 16 in
DISTANCE
For EZ-BEAM T18 Series Sensors:
i) 9 m (30') cables are available by adding suffix “W/30” to the model number of any cabled sensor (e.g. - T18AW3D W/30)
ii) A model with a QD connector requires an accessory mating cable. See pages 232 and the Accessories section for more information.
202
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
T18 Series Sensors
Infrared, 880 nm
T18 Fixed-Field Mode
Models
Cutoff
Point
Supply
Voltage
Cable
Output
Type
Excess Gain
Performance based on 90% reflectance white test card
With 25 mm Far Limit Cutoff
1000
T18SN6FF25
T18SN6FF25Q
T18 Series
2 m (6.5')
4-Pin Euro QD
NPN
10-30V dc
T18SP6FF25
T18SP6FF25Q
T18AW3FF25
T18AW3FF25Q1
25 mm
(1")
2 m (6.5')
4-Pin Euro QD
PNP
2 m (6.5')
4-Pin Micro QD
LO
E
X
C
E
S
S
10
G
A
I
N
1
.1 mm
.004 in
20-250V ac
T18RW3FF25
T18RW3FF25Q1
2 m (6.5')
4-Pin Micro QD
Fixed-field mode
with 25 mm far
limit cutoff
100
1 mm
.04 in
10 mm
.4 in
100 mm
4 in
DISTANCE
DO
With 50 mm Far Limit Cutoff
1000
T18SN6FF50
T18SN6FF50Q
T18 Series
2 m (6.5')
4-Pin Euro QD
PNP
E
X
C
E
S
S
LO
G
A
I
N
NPN
10-30V dc
T18SP6FF50
T18SP6FF50Q
T18AW3FF50
T18AW3FF50Q1
50 mm
(2")
2 m (6.5')
4-Pin Euro QD
2 m (6.5')
4-Pin Micro QD
10
1
.1 mm
.004 in
20-250V ac
T18RW3FF50
T18RW3FF50Q1
2 m (6.5')
4-Pin Micro QD
Fixed-field mode
with 50 mm far
limit cutoff
100
DO
1 mm
.04 in
10 mm
.4 in
100 mm
4 in
DISTANCE
With 100 mm Far Limit Cutoff
1000
T18SN6FF100
T18SN6FF100Q
T18 Series
2 m (6.5')
4-Pin Euro QD
PNP
E
X
C
E
S
S
LO
G
A
I
N
NPN
10-30V dc
T18SP6FF100
T18SP6FF100Q
T18AW3FF100
T18AW3FF100Q1
100 mm
(4")
2 m (6.5')
4-Pin Euro QD
2 m (6.5')
4-Pin Micro QD
T18RW3FF100
T18RW3FF100Q1
2 m (6.5')
4-Pin Micro QD
10
1
.1 mm
.004 in
20-250V ac
DO
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
Fixed-field mode
with 100 mm far
limit cutoff
100
1 mm
.04 in
10 mm
.4 in
100 mm
4 in
DISTANCE
203
T18 Series Sensors
T18 Dimensions
T18 DC Sensor
T18 AC Sensor
Jam Nut
(Supplied)
M18 x 1
Thread
30.0 mm
(1.18")
ø 15 mm
(0.59')
ø 40.0 mm
(1.57")
ø 30.0 mm
(1.18")
Yellow LED
Output Indicator
Green LED
Power Indicator
Single Turn
Sensitivity Control
(D & L Models)
51.5 mm
(2.03")
41.5 mm
(1.64")
11.5 mm
(0.45")
T18 DC Sensor with Euro-Style QD
ø 40.0 mm
(1.57")
ø 30.0 mm
(1.18")
56.6 mm
(2.23")
204
T18 AC Sensor with Micro-Style QD
66.5 mm
(2.62")
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
T18 Series Sensors
NOTES:
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
205
T30 Series Sensors
T30 Series Sensors
T30 quick-disconnect T30
with Opposed
right-angle
cable
(left)
Mode
Shown
and cabled (right) versions shown
•
Patented† right-angled thermoplastic polyester housing with
30 mm threaded lens
•
Advanced self-diagnostics with separate alarm output†; dual
LED system indicates sensor performance
•
Choice of integral cable or euro-style quick-disconnect
connector
•
10 to 30V dc; choose SPDT (complementary) NPN or PNP
outputs (150 mA max. ea.)
•
20 to 250V ac (3-wire hookup); SPST solid-state switch
output, maximum load 300 mA
†
U.S. design patent D361057
T30 Sensing Mode Options
P
Opposed
Fixed-Field
Retroreflective
Polarized
Infrared, 950 nm
T30 Opposed Mode Emitter (E) and Receiver (R)
Models
Range
Supply
Voltage
Cable
T306E
T306EQ
2 m (6.5')
4-Pin Euro QD
T30SN6R
T30SN6RQ
2 m (6.5')
4-Pin Euro QD
T30SP6R
T30SP6RQ
2 m (6.5')
4-Pin Euro QD
T303E
T303EQ1
60 m
(200')
2 m (6.5')
4-Pin Micro QD
T30RW3R
T30RW3RQ1
2 m (6.5')
4-Pin Micro QD
206
Excess Gain
Beam Pattern
Effective Beam: 23 mm
—
1000
10-30V dc
NPN
PNP
2 m (6.5')
4-Pin Micro QD
T30AW3R
T30AW3RQ1
Output
Type
—
20-250V ac
LO
T30 Series
E
X
C
E
S
S
G
A
I
N
Opposed Mode
100
T30 Series
750 mm
30 in
Opposed Mode
500 mm
20 in
250 mm
10 in
0
0
10
250 mm
10 in
500 mm
20 in
30 in
750 mm
1
.1 m
.33 ft
1m
3.3 ft
10 m
33 ft
DISTANCE
100 m
330 ft
0
15 m
50 ft
30 m
100 ft
45 m
150 ft
60 m
200 ft
75 m
250 ft
DISTANCE
DO
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
T30 Series Sensors
Infrared, 950 nm
T30 Fixed-Field Mode
Models
Cutoff
Point
Cable
Supply
Voltage
Output
Type
Excess Gain
Performance based on 90% reflectance white test card
With 200 mm Far Limit Cutoff
1000
T30SN6FF200
T30SN6FF200Q
T30 Series
2 m (6.5')
4-Pin Euro QD
NPN
10-30V dc
T30SP6FF200
T30SP6FF200Q
T30AW3FF200
T30AW3FF200Q1
200 mm
(8")
2 m (6.5')
4-Pin Euro QD
PNP
2 m (6.5')
4-Pin Micro QD
LO
E
X
C
E
S
S
100
Fixed-field mode
with 200 mm far
limit cutoff
10
G
A
I
N
1
1 mm
.04 in
20-250V ac
T30RW3FF200
T30RW3FF200Q1
2 m (6.5')
4-Pin Micro QD
10 mm
.4 in
100 mm
4 in
1000 mm
40 in
DISTANCE
DO
With 400 mm Far Limit Cutoff
1000
T30 Series
T30SN6FF400
T30SN6FF400Q
2 m (6.5')
4-Pin Euro QD
T30SP6FF400
T30SP6FF400Q
2 m (6.5')
4-Pin Euro QD
PNP
E
X
C
E
S
S
2 m (6.5')
4-Pin Micro QD
LO
G
A
I
N
NPN
10-30V dc
T30AW3FF400
T30AW3FF400Q1
400 mm
(16")
2 m (6.5')
4-Pin Micro QD
Fixed-field mode
with 400 mm far
limit cutoff
10
1
1 mm
.04 in
20-250V ac
T30RW3FF400
T30RW3FF400Q1
100
10 mm
.4 in
100 mm
4 in
1000 mm
40 in
DISTANCE
DO
With 600 mm Far Limit Cutoff
1000
T30SN6FF600
T30SN6FF600Q
2 m (6.5')
4-Pin Euro QD
T30SP6FF600
T30SP6FF600Q
2 m (6.5')
4-Pin Euro QD
T30 Series
NPN
10-30V dc
T30AW3FF600
T30AW3FF600Q1
600 mm
(24")
PNP
2 m (6.5')
4-Pin Micro QD
LO
E
X
C
E
S
S
G
A
I
N
2 m (6.5')
4-Pin Micro QD
Fixed-field mode
with 600 mm far
limit cutoff
10
1
1 mm
.04 in
20-250V ac
T30RW3FF600
T30RW3FF600Q1
100
DO
10 mm
.4 in
100 mm
4 in
1000 mm
40 in
DISTANCE
For EZ-BEAM T30 Series Sensors:
i) 9 m (30') cables are available by adding suffix “W/30” to the model number of any cabled sensor (e.g. - T306E W/30)
ii) A model with a QD connector requires an accessory mating cable. See pages 232 and the Accessories section for more information.
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207
T30 Series Sensors
P
NOTE: Retroreflective range is specified using one model BRT-3 retroreflector (3" diameter).
Actual sensing range may be more or less than specified, depending upon the efficiency and
reflective area of the retroreflector(s) in use. See page 722 for more information.
Visible red, 680 nm
T30 Polarized Retroreflective Mode
Models
Range
Supply
Voltage
Cable
T30SN6LP
T30SN6LPQ
2 m (6.5')
4-Pin Euro QD
T30SP6LP
T30SP6LPQ
2 m (6.5')
4-Pin Euro QD
Output
Type
NPN
10-30V dc
6m
(20')
T30AW3LP
T30AW3LPQ1
PNP
Beam Pattern
T30 Series
E
X
C
E
S
S
T30 Series
150 mm
Polarized Retro
100
2 m (6.5')
4-Pin Micro QD
LO
2 m (6.5')
4-Pin Micro QD
6 in
Polarized Retro
100 mm
4 in
50 mm
with BRT-3 Reflector
2 in
0
20-250V ac
T30RW3LP
T30RW3LPQ1
Excess Gain
1000
10
G
A
I
N
1
.01 m
.033 ft
DO
.1 m
.33 ft
1m
3.3 ft
DISTANCE
10 m
33 ft
0
with BRT-3 Reflector
50 mm
2 in
100 mm
4 in
150 mm
6 in
0
1.5 m
5 ft
3.0 m
10 ft
4.5 m
15 ft
6.0 m
20 ft
7.5 m
25 ft
DISTANCE
For EZ-BEAM T30 Series Sensors:
i) 9 m (30') cables are available by adding suffix “W/30” to the model number of any cabled sensor (e.g. - T30SN6LP W/30)
ii) A model with a QD connector requires an accessory mating cable. See pages 232 and the Accessories section for more information.
T30 Dimensions
T30 Sensor - All Cabled Models
T30 Sensor - All Quick-Disconnect Models
DC Sensors with Euro-Style QD
AC Sensors with Micro-Style QD
Jam Nut
(Supplied)
M30 x 1.5
Thread
ø 15 mm
(0.59")
45.0 mm
(1.77")
ø 40.0 mm
(1.57")
Yellow LED
Output Indicator
Green LED
Power Indicator
51.5 mm
(2.03")
66.5 mm
(2.62")
11.5 mm
(0.45")
208
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T30 Series Sensors
NOTES:
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209
SM30 Series Sensors
EZ-BEAM® SM30 Series Sensors
SM30 quick-disconnect (left) and
cabled (right) versions shown
•
30 mm thermoplastic polyester threaded barrel with positive sealing at
both ends
•
Advanced self-diagnostics with separate alarm output†; dual LED
system indicates sensor performance
•
Choice of integral cable or euro-style quick-disconnect connector
•
Exceeds NEMA 6P (IP67) leakproof rating; withstands equipment
washdown environments
•
10 to 30V dc; choose SPDT (complementary) NPN or PNP outputs
(150 mA max. ea.)
•
20 to 250V ac (3-wire hookup); SPST solid-state switch output,
maximum load 300 mA
SM30 Sensing Mode Options
Opposed
Infrared, 880 nm
SM30 Opposed Mode Emitter (E) and Receiver (R)
Models
Range
Cable
SM306E
SM306EQ
2 m (6.5')
4-Pin Euro QD
SM30SN6R
SM30SN6RQ
2 m (6.5')
4-Pin Euro QD
SM30SP6R
SM30SP6RQ
SM303E
SM303EQ1
60 m
(200')
Supply
Voltage
Output
Type
Excess Gain
Beam Pattern
—
10-30V dc
2 m (6.5')
4-Pin Euro QD
Effective Beam: 19 mm
1000
NPN
PNP
SM30 Series
E
X
C
E
S
S
SM30 Series
Opposed Mode
100
Opposed Mode
900 mm
36 in
600 mm
24 in
300 mm
12 in
0
2 m (6.5')
4-Pin Micro QD
SM30AW3R
SM30AW3RQ1
2 m (6.5')
4-Pin Micro QD
SM30RW3R
SM30RW3RQ1
2 m (6.5')
4-Pin Micro QD
—
20-250V ac
LO
G
A
I
N
10
0
300 mm
12 in
600 mm
24 in
900 mm
1
.1 m
.33 ft
1m
3.3 ft
10 m
33 ft
DISTANCE
100 m
330 ft
36 in
0
15 m
50 ft
30 m
100 ft
45 m
150 ft
60 m
200 ft
75 m
250 ft
DISTANCE
DO
For EZ-BEAM SM30 Series Sensors:
i) 9 m (30') cables are available by adding suffix “W/30” to the model number of any cabled sensor (e.g. - SM306E W/30)
ii) A model with a QD connector requires an accessory mating cable. See pages 232 and the Accessories section for more information.
210
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SM30 Series Sensors
SM30 Dimensions
SM30 Sensor - All Cabled Models
SM30 Sensor - All Quick-Disconnect Models
DC Sensors with Euro-Style QD
AC Sensors with Micro-Style QD
Jam Nuts
(2 Provided)
Alignment
Indicator (Receivers)
M30 x 1.5
Thread
102 mm
(4.0")
114 mm
(4.5")
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211
EZ-BEAM® Sensors
EZ-BEAM DC Specifications*
Supply Voltage and Current
Opposed Mode Emitters:
Opposed Mode Receivers:
Polarized Retro:
Non-polarized Retro:
Fixed-field:
Diffuse:
10 to 30V dc (10% maximum ripple); Supply current (exclusive of load current):
25 mA
20 mA
30 mA
25 mA
35 mA
25 mA
Supply Protection Circuitry
Protected against reverse polarity and transient voltages
Output Configuration
SPDT (complementary) solid-state dc switch; Choose NPN (current sinking) or PNP (current sourcing) models.
Light operate:
N.O. output conducts when the sensor sees its own (or the emitter's) modulated light
Dark operate:
N.C. output conducts when the sensor sees dark; The N.C. (normally closed) output
may be wired as a normally open marginal signal alarm output, depending upon hookup
to the power supply (U.S. patent 5087838)
Output Rating
150 mA maximum (each) in standard hookup (100 mA max. for S12 receivers); When wired for alarm output, the
total load may not exceed 150 mA (100 mA max. for S12 receivers);
Off-state leakage current <1 microamp at 30V dc;
On-state saturation voltage <1V at 10 mA dc; <1.5V at 150 mA dc
Output Protection Circuitry
Protected against false pulse on power-up and continuous overload or short circuit of outputs
Output Response Time
Opposed: 3 milliseconds “ON”, 1.5 milliseconds “OFF”; Polarized Retro, Non-Polarized Retro, Fixedfield and Diffuse: 3 milliseconds “ON” and “OFF”
NOTE: 100 millisecond delay on power-up; outputs are non-conducting during this time
Repeatability
Opposed mode: 375 microseconds; Polarized Retro, Non-Polarized Retro, Fixed-field and Diffuse
modes: 750 microseconds; Repeatability and response are independent of signal strength
Adjustments
T18 Series infrared non-polarized retro and diffuse mode models (only) have a single-turn rear-panel
SENSITIVITY control for adjustment of system gain (turn clockwise to increase)
Indicators
Two LEDs: Green and Yellow
GREEN glowing steadily
GREEN flashing
YELLOW glowing steadily
YELLOW flashing
=
=
=
=
power to sensor is “ON”
output is overloaded (dc models only)
normally open output is conducting
excess gain marginal (1-1.5x) in light condition
Construction
Housings are thermoplastic polyester (Except M18 which has stainless steel housing); Lenses are Lexan®
(opposed models except SM30) or acrylic;
S12, S18, M18, S30, and SM30 models come with two jam nuts; T18, T30, Q25, and Q40 models
come with one jam nut;
SM30 EZ-BEAMs have M30x1.5 threaded barrel housings with positive sealing at both ends to
eliminate all leakage paths (including capillary leakage); Lenses are acrylic and quad-ring sealed
Environmental Rating
Leakproof design rated NEMA 6P (IEC IP67), except for SM30 EZ-BEAMs, which exceed NEMA 6P rating
Connections
2 m (6.5') or 9 m (30') attached cable, or 4-pin euro-style quick-disconnect fitting; S12 Series sensors
use a pico-style QD
Operating Conditions
Temperature:
-40° to +70°C (-40° to 158°F)
Maximum relative humidity: 90% at 50°C (non-condensing)
Vibration and
Mechanical Shock
All models meet Mil. Std. 202F requirements. Method 201A (Vibration; frequency 10 to 60 Hz, max.,
double amplitude 0.06-inch acceleration 10G). Method 213B conditions H&I (Shock: 75G with unit
operating; 100G for non-operation)
Certifications
2
1
1
R
LISTED
Lexan® is a registered trademark of General Electric Co.
* Except S186ELD, T18U, S2 and T18X Series – see Specifications charts in those sections
1
S12, M18, and SM30 sensors do not have UL or CSA approval
2
M18 sensor does not have CE approval
212
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EZ-BEAM® Sensors
EZ-BEAM DC Hookup Diagrams
DC Sensors with NPN (Sinking) Outputs
Standard Hookup
bu
bn
bk
wh
DC Sensors with PNP (Sourcing) Outputs
Standard Hookup
bn
bu
bk
wh
-
10-30V dc
+
Load
Load
Alarm Hookup
bn
bu
bk
wh
+
10-30V dc
-
Load
Load
Alarm Hookup
bu
bn
bk
wh
-
10-30V dc
+
Load
Alarm
+
10-30V dc
-
Load
Alarm
NOTE: DC hookups are the same for either an integral or QD cable.
DC Emitters with Attached Cable
DC Emitters with Quick-Disconnect
Note: No connection to bk and wh wires of QD cable.
bn
bu
bn
bu
bk
wh
+
10-30V dc
-
4-Pin Pico-Style Pin-out - S12 Receivers
(Cable Connector Shown)
+
10-30V dc
-
Euro-Style Pin-out - All Other dc Models
(Cable Connector Shown)
White Wire
Black Wire
White Wire
Blue Wire
Brown Wire
Brown Wire
Blue Wire
Black Wire
Quick-Disconnect (QD) Option
EZ-BEAM Sensors are sold either with a 2 m (6.5') or 9 m (30') attached PVC-covered cable or with a 4-pin QD cable fitting.
DC QD sensors are identified by the letter “Q” in their model number suffix. For more information on QD cable, see page 232 and
the Accessories section.
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213
EZ-BEAM® Sensors
EZ-BEAM AC Specifications
Supply Voltage and Current
20 to 250V ac (50/60 Hz). Average current 20 mA. Peak current: 200 mA at 20V ac, 500 mA at
120V ac, 750 mA at 250V ac
Supply Protection Circuitry
Protected against transient voltages
Output Configuration
SPST solid-state AC switch; Three-wire hookup; Choose light operate or dark operate models;
Light operate models: Output conducts when the sensor sees its own (or the emitter's)
modulated light
Dark operate models: Output conducts when sensor sees dark
Output Rating
300 mA maximum (continuous) Fixed-field models: derate 5 mA/°C above +50°C (122°F);
Inrush capability 1 amp for 20 milliseconds, non-repetitive
Off-state leakage current <100 microamps
On-state voltage drop 3V at 300 mA ac; 2V at 15 mA ac
Output Protection Circuitry
Protected against false pulse on power-up
Output Response Time
Opposed Mode: 16 milliseconds “ON”, 8 milliseconds “OFF”; Polarized Retro, Non-polarized Retro,
Fixed-field, and Diffuse: 16 milliseconds “ON” and “OFF”
NOTE: 100 millisecond delay on power-up
Repeatability
Opposed Mode: 2 milliseconds; Polarized Retro, Non-polarized Retro, Fixed-field, and Diffuse:
4 milliseconds. Repeatability and response are independent of signal strength.
Adjustments
T18 Series infrared non-polarized retro and diffuse mode models (only) have a single-turn rearpanel SENSITIVITY control for adjustment of system gain (turn clockwise to increase)
Indicators
Two LEDs: Green and Yellow
GREEN glowing steadily = power to sensor is “ON”
YELLOW glowing steadily = sensor sees light
YELLOW flashing
= excess gain marginal (1-1.5x) in light condition
Construction
Housings are thermoplastic polyester ; Lenses are Lexan® (opposed models except SM30) or acrylic;
S18, S30, and SM30 models come with two jam nuts; T18, T30, Q25, and Q40 models
come with one jam nut;
SM30 EZ-BEAMs have M30x1.5 threaded barrel housings with positive sealing at both ends to
eliminate all leakage paths (including capillary leakage); Lenses are acrylic and quad-ring sealed
Environmental Rating
Leakproof design rated NEMA 6P (IEC IP67), except for SM30 EZ-BEAMs, which exceed NEMA 6P rating
Connections
2 m (6.5') or 9 m (30') attached cable, or 4 pin micro-style quick-disconnect fitting
Operating Conditions
Temperature:
-40° to +70°C (-40° to 158°F)
Maximum relative humidity: 90% at 50°C (non-condensing)
Vibration and
Mechanical Shock
All models meet Mil. Std. 202F requirements. Method 201A (Vibration; frequency 10 to 60 Hz,
max, double amplitude 0.06-inch acceleration 10G). Method 213B conditions H&I (Shock: 75G with
unit operating; 100G for non-operation)
Certifications
1
1
R
LISTED
®
Lexan is a registered trademark of General Electric Co.
1
SM30 sensors do not have UL or CSA approval
214
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
EZ-BEAM® Sensors
EZ-BEAM AC Hookup Diagrams
AC Sensors with Attached Cable
AC Sensors with QD Cable
4-Pin Micro-Style
rd/bk
rd/wh
rd Load
gn
bn
20-250V ac
bu
bk
Load
AC Emitter with Attached Cable
bn
bu
20-250V ac
AC Emitter with QD Cable
4-Pin Micro-Style
rd/bk
rd/wh
rd
gn
20-250V ac
20-250V ac
Micro-Style Pin-Out
(Cable Connector Shown)
Green Wire
Red Wire
Red/White
Wire
Red/Black
Wire
Quick-Disconnect (QD) Option
EZ-BEAM Sensors are sold either with a 2 m (6.5') or 9 m (30') attached PVC-covered cable or with a 4-pin QD cable fitting.
AC QD sensors are identified by the “Q1” in their model number suffix. Mating cables for EZ-BEAM QD sensors are model
MQAC-415 (straight connector) or MQAC-415RA (right-angled connector). For more information on QD cable, see page 232 and
the Accessories section.
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215
T18X Series Sensors for Bus Networks
T18X Sensors for Bus Networks
•
Advanced self-diagnostics with separate alarm output; dual
LED system indicates sensor performance
•
T18XDN “smart” sensors can be wired to a DeviceNet bus
network using simple “dumb drop” junction boxes or “T”
connectors; T18XSD sensors wire directly to an SDS bus
•
Quick-disconnect connector for standard euro-style DeviceNet
or SDS compatible cables available from Interlink BT
•
Epoxy-encapsulated circuitry; leakproof IP67 (NEMA 6P)
rating for harsh sensing environments
•
Brackets available for several mounting options
T18X Sensing Mode Options
Opposed
Retroreflective
Diffuse
Fixed-Field
Infrared, 950 nm
T18X Opposed Mode Emitter (E) and Receiver (R)
Models
Range
T18XDN1RQ6
T18XSD1RQ
Supply
Voltage
Excess Gain
DeviceNet compatible
5-pin Euro QD
T18XDN1EQ6
T18XSD1EQ
Cable
20 m
(66')
11-25V dc
SDS compatible
4-pin Euro QD
Effective Beam: 13 mm
1000
SDS compatible
4-pin Euro QD
DeviceNet compatible
5-pin Euro QD
Beam Pattern
E
X
C
E
S
S
G
A
I
N
T18XDN
& T18XSD Series
T18XDN & T18XSD Series
1500 mm
Opposed Mode
100
60 in
Opposed Mode
1000 mm
40 in
500 mm
20 in
0
0
10
500 mm
20 in
1000 mm
40 in
60 in
1500 mm
1
.1 m
.33 ft
1m
3.3 ft
10 m
33 ft
DISTANCE
100 m
330 ft
0
5m
16 ft
10 m
32 ft
15 m
48 ft
20 m
64 ft
25 m
80 ft
DISTANCE
For T18Xs:
i) Sensors require a Euro-style quick-disconnect cable. Contact your Banner sales engineer for help with cable selection.
216
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T18X Series Sensors for Bus Networks
NOTE: Use polarized models when shiny objects will be sensed.
Retroreflective range is specified using one model BRT-3 retroreflector
(3" diameter). Actual sensing range may be more or less than specified,
depending upon the efficiency and reflective area of the retroreflector(s)
in use. See page 722 for more information.
P
Infrared, 950 nm
Non-Polarized
Visible red, 680 nm
Polarized
T18X Retroreflective Mode
Models
Range
Cable
Supply
Voltage
Excess Gain
Polarized
1000
T18XDN & T18XSD Series
E
X
C
E
S
S
DeviceNet compatible
5-pin Euro QD
T18XDN1LPQ6
2m
(79")
11-25V dc
SDS compatible
4-pin Euro QD
T18XSD1LPQ
Beam Pattern
T18XDN &T18XSD Series
150 mm
Polarized Retro
100
4 in
2 in
50 mm
with BRT-3 Reflector
0
10
G
A
I
N
50 mm
2 in
100 mm
4 in
6 in
.1 m
.33 ft
1m
3.3 ft
0
10 m
33 ft
.5 m
1.6 ft
1000
DeviceNet compatible
5-pin Euro QD
T18XDN1LQ6
11-25V dc
SDS compatible
4-pin Euro QD
T18XSD1LQ
Non-Polarized Retro
100
2.0 m
6.4 ft
T18XDN & T18XSD Series
120 mm
2.5 m
8.0 ft
4.7 in
Non-Polarized Retro
80 mm
3.2 in
40 mm
with BRT-3 Reflector
10
G
A
I
N
1.5 m
4.8 ft
T18XDN & T18XSD Series
1.6 in
0
2m
(79")
1.0 m
3.2 ft
DISTANCE
DISTANCE
E
X
C
E
S
S
0
with BRT-3 Reflector
150 mm
1
.01 m
.033 ft
Non-Polarized
6 in
Polarized Retro
100 mm
0
with BRT-3 Reflector
40 mm
1.6 in
80 mm
3.2 in
120 mm
1
.01 m
.033 ft
.1 m
.33 ft
1m
3.3 ft
4.7 in
0
10 m
33 ft
.5 m
1.6 ft
1.0 m
3.2 ft
1.5 m
4.8 ft
2.0 m
6.4
2.5 m
8.0 in
DISTANCE
DISTANCE
Infrared, 880 nm
T18X Diffuse Mode
Models
Range
Cable
Excess Gain
Supply
Voltage
1000
DeviceNet compatible
5-pin Euro QD
T18XDN1DQ6
500 mm
(20")
T18XSD1DQ
11-25V dc
SDS compatible
4-pin Euro QD
Beam Pattern
Performance based on 90% reflectance white test card
E
X
C
E
S
S
T18XDN & T18XSD Series
DC Diffuse mode
T18XDN & T18XSD Series
60 mm
40 mm
1.6 in
20 mm
0.8 in
0
G
A
I
N
10
0
20 mm
0.8 in
40 mm
1.6 in
60 mm
1
1 mm
.04 in
2.4 in
DC Diffuse Mode
100
10 mm
.4 in
100 mm
4 in
DISTANCE
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
1000 mm
40 in
2.4 in
0
125 mm 250 mm 375 mm 500 mm 625 mm
5 in
10 in
15 in
20 in
25 in
DISTANCE
217
T18X Series Sensors for Bus Networks
Infrared, 880 nm
T18X Fixed-Field Mode
Models
Range
Cable
Supply
Voltage
Excess Gain
Performance based on 90% reflectance white test card
25 mm far limit cutoff
1000
T18XDN & T18XSD Series
E
X
C
E
S
S
DeviceNet compatible
5-pin Euro QD
T18XDN1FF25Q6
25 mm
(1")
11-25V dc
SDS compatible
4-pin Euro QD
T18XSD1FF25Q
Fixed-field mode
with 25 mm far
limit cutoff
100
10
G
A
I
N
1
.1 mm
.004 in
1 mm
.04 in
10 mm
.4 in
100 mm
4 in
DISTANCE
50 mm far limit cutoff
1000
E
X
C
E
S
S
DeviceNet compatible
5-pin Euro QD
T18XDN1FF50Q6
50 mm
(2")
11-25V dc
SDS compatible
4-pin Euro QD
T18XSD1FF50Q
G
A
I
N
T18XDN & T18XSD Series
Fixed-field mode
with 50 mm far
limit cutoff
100
10
1
.1 mm
.004 in
1 mm
.04 in
10 mm
.4 in
100 mm
4 in
DISTANCE
100 mm far limit cutoff
DeviceNet compatible
5-pin Euro QD
T18XDN1FF100Q6
100 mm
(4")
T18XSD1FF100Q
1000
E
X
C
E
S
S
11-25V dc
SDS compatible
4-pin Euro QD
G
A
I
N
T18XDN & T18XSD Series
Fixed-field mode
with 100 mm far
limit cutoff
100
10
1
.1 mm
.004 in
1 mm
.04 in
10 mm
.4 in
100 mm
4 in
DISTANCE
For T18Xs:
i) Sensors require a Euro-style quick-disconnect cable. Contact your Banner sales engineer for help with cable selection.
218
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T18X Series Sensors for Bus Networks
T18X Dimensions
T18XDN
T18XSD
Jam Nut
(Supplied)
Jam Nut
(Supplied)
M18 x 1
Thread
M18 x 1
Thread
30.0 mm
(1.18")
30.0 mm
(1.18")
ø 15 mm
(0.59")
ø 15 mm
(0.59")
ø 40.0 mm
(1.57")
ø 40.0 mm
(1.57")
Yellow LED
Output Indicator
(Except emitters)
Yellow LED
Output Indicator
(Except emitter)
Red/Green LED
Network Status Indicator
Single Turn
Sensitivity Control
(D & L Models)
Green LED
Power Indicator
66.5 mm
(2.62")
Single Turn
Sensitivity Control
(D & L Models)
11.5 mm
(0.45")
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66.5 mm
(2.62")
11.5 mm
(0.45")
219
T18X Series Sensors for Bus Networks
T18X Specifications
Supply Voltage and Current
Opposed Mode Emitter
Opposed Mode Receiver
Polarized & Non Polarized Retro
Diffuse
Fixed-field
11 to 25V dc (10% maximum ripple); Supply current (exclusive of load current):
25 mA
45 mA
55 mA
55 mA
60 mA
Supply Protection Circuitry
Protected against reverse polarity and transient voltages
Output Protection Circuitry
Protected against false pulse on power-up and continuous overload or short-circuit of outputs
Output Response Time
Opposed: 3.5 milliseconds “ON” and 2.0 milliseconds “OFF”
Polarized Retro and Fixed-field: 3.5 milliseconds “ON” and “OFF”
NOTE: 100 millisecond delay on power-up; outputs are non-conducting during this time
Repeatability
Indicators
Opposed: 575 microseconds
Polarized Retro and Fixed-field: 950 microseconds
Repeatability and response are independent of signal strength
T18XDN models:
Two LEDs: a bi-colored (red/green) LED and a Yellow LED
The bi-color LED indicates the status of the network
GREEN Glowing Steadily = Sensor on line, connected to master
GREEN Flashing
= Sensor on line - address + baud rate are ok
RED Glowing Steadily
= Critical network fault or duplicate node address detected; wrong baud rate
RED Flashing
= Minor or connection time out fault
YELLOW Glowing Steadily = Normally open output is conducting
YELLOW Flashing
= Excess gain marginal (1-1.5x) in light condition
T18XSD models:
Two LEDs: One Green LED and one Yellow LED
GREEN Glowing Steadily = Power to the sensor
YELLOW LED
= Sensor signal
YELLOW Glowing Steadily = Normally open output is conducting
YELLOW Flashing
= Excess gain marginal (1-1.5x) in light condition
Sensor Configuration for
T18XDN models only
Change of State Connection: which responds to a slave’s change of state.
I/O Response is with the following 8-bit word data:
Bit 0:
0
Output is “OFF”
1
Output is “ON”
Bit 1:
0
Alarm output is “OFF”
1
Alarm output is “ON”
Bit 2-7:
Not Used: Always 0
Notes: Configuration may be simplified through use of an Electronic Data Sheet (Banner model EDS 40223)
Construction
Housings are thermoplastic polyester; lenses are Lexan® (opposed models) or acrylic (retro and fixed-field
models) T18X models come with one jam nut
Environmental Rating
Leakproof design rated NEMA 6P; IEC IP67
Connections
T18XDN models: 5-pin euro-style DeviceNet™ compatible quick-disconnect fitting; cables are ordered separately.
T18XSD models: 4-pin euro-style SDS™ compatible quick-disconnect fitting; cables ordered separately.
Contact your Banner sales engineer or Interlink BT for cable information.
Operating Conditions
Temperature:
-25° to +70°C (-13° to 158°F)
Relative Humidity: 90% at 50°C (non-condensing)
Vibration and
Mechanical Shock
All models meet Mil. Std. 202F requirements. Method 201A (Vibration; frequency 10 to 60 Hz, max.,
double amplitude 0.06" acceleration 10G). Method 213B conditions H&I (Shock: 75G with unit operating;
100G for non-operation)
Certifications
Lexan® is a registered trademarks of General Electric Co.
220
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
T18X Series Sensors for Bus Networks
T18XDN Hookup Information
T18XDN DeviceNet™ Hookup
T18X Male Connector
Pin
Wire Color
Function
1
Male Pinout
4
1
3
2
5
Shield
2
Red
BUS power (+V)
3
Black
BUS power (-V)
4
White
Communications +
5
Blue
Communications -
T18XSD Hookup Information
Quick Disconnect Pin Detail (Except Emitter)
connector on sensor shown (male pins)
Emitter Quick Disconnect Pin Detail
connector on sensor shown (male pins)
Not Used
C–
C+
V–
Not Used
V+
V–
V+
Contact factory or Interlink BT for mating cable information
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
221
S2 Series Sensors for Bus Networks
S2 Series Sensors for Bus Networks
•
•
•
•
•
•
Standard photoelectric sensors with bus networkcompatible connection
Solid-state outputs for direct connection to a “smart” BUS
system network junction
4-pin quick-disconnect connector for standard euro-style
extension cables
Advanced self-diagnostics with separate alarm output; dual
LED system indicates sensor performance
Epoxy-encapsulated circuitry; leakproof IP67 (NEMA 6P)
rating for harsh sensing environments
Brackets available for several mounting options
EZ-BEAM S2 Sensing Mode Options
P
Opposed
Retroreflective
Polarized
Fixed-Field
Infrared, 950 nm
EZ-BEAM S2 Opposed Mode Emitter (E) and Receiver (R)
Models
Range
Supply
Voltage
Cable
Output
Type
20 m
(66')
4-pin Euro QD
10-30V dc
PNP
E
X
C
E
S
S
G
A
I
N
222
S18, Q25 and T18 Series
1500 mm
Opposed Mode
100
1000 mm
40 in
500 mm
20 in
0
500 mm
20 in
1000 mm
40 in
1500 mm
1m
3.3 ft
10 m
33 ft
60 in
0
100 m
330 ft
5m
16 ft
10 m
32 ft
DISTANCE
4-pin Euro QD
10-30V dc
PNP
E
X
C
E
S
S
G
A
I
N
100
15 m
48 ft
20 m
64 ft
25 m
80 ft
DISTANCE
Effective Beam: 23 mm
1000
60 m
(200')
60 in
Opposed Mode
10
1
.1 m
.33 ft
S306EQ
S30S2P6RQ
T306EQ
T30S2P6RQ
Effective Beam: 13 mm
S18, Q25 and T18
Series
0
T186EQ
T18S2P6RQ
Q406EQ
Q40S2P6RQ
Beam Pattern
1000
S186EQ
S18S2P6RQ
Q256EQ
Q25S2P6RQ
Excess Gain
S30, Q40 and T30
Series
S30, Q40 and T30 Series
750 mm
Opposed Mode
60 in
Opposed Mode
500 mm
40 in
250 mm
20 in
0
10
0
250 mm
20 in
500 mm
40 in
750 mm
1
.1 m
.33 ft
1m
3.3 ft
10 m
33 ft
DISTANCE
100 m
330 ft
60 in
0
15 m
50 ft
30 m
100 ft
45 m
150 ft
60 m
200 ft
75 m
250 ft
DISTANCE
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
S2 Series Sensors for Bus Networks
P
Visible red, 680 nm
NOTE: Retroreflective range is specified using one model BRT-3 retroreflector (3" diameter). Actual
sensing range may be more or less than specified, depending upon the efficiency and reflective area of
the retroreflector(s) in use. See page 722 for more information.
EZ-BEAM S2 Polarized Retroreflective Mode
Models
Range
Cable
Supply
Voltage
Output
Type
Excess Gain
Beam Pattern
1000
S18S2P6LPQ
Q25S2P6LPQ
2m
(79")
4-pin Euro QD
10-30V dc
PNP
S18, Q25 and T18 Series
E
X
C
E
S
S
S18, Q25 and T18 Series
150 mm
Polarized Retro
100
6 in
Polarized Retro
100 mm
4 in
50 mm
with BRT-3 Reflector
G
A
I
N
10
0
with BRT-3 Reflector
50 mm
2 in
100 mm
4 in
150 mm
1
.01 m
.033 ft
T18S2P6LPQ
2 in
0
.1 m
.33 ft
1m
3.3 ft
6 in
0
10 m
33 ft
.5 m
1.6 ft
1.0 m
3.2 ft
DISTANCE
1.5 m
4.8 ft
2.0 m
6.4 ft
2.5 m
8.0 ft
DISTANCE
1000
S30S2P6LPQ
Q40S2P6LPQ
T30S2P6LPQ
6m
(20')
4-pin Euro QD
10-30V dc
PNP
E
X
C
E
S
S
G
A
I
N
S30, Q40 and T30 Series
S30, Q40 and T30 Series
150 mm
Polarized Retro
100
6 in
Polarized Retro
100 mm
4 in
50 mm
with BRT-3 Reflector
10
1
.01 m
.033 ft
.1 m
.33 ft
1m
3.3 ft
DISTANCE
2 in
0
10 m
33 ft
0
with BRT-3 Reflector
50 mm
2 in
100 mm
4 in
150 mm
6 in
0
1.5 m
5 ft
3.0 m
10 ft
4.5 m
15 ft
6.0 m
20 ft
7.5 m
25 ft
DISTANCE
For EZ-BEAM S2 Sensors:
i) Sensors require a Euro-style quick-disconnect cable. Contact your Banner sales engineer for help with cable selection.
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
223
S2 Series Sensors for Bus Networks
Infrared, 950 nm
EZ-BEAM S2 Fixed-Field Mode
Models
Range
Supply
Voltage
Cable
Output
Type
25 mm Far Limit Cutoff
1000
25 mm
(1")
4-Pin Euro QD
S18, Q25 and T18 Series
E
X
C
E
S
S
S18S2P6FF25Q
Q25S2P6FF25Q
Excess Gain
Performance based on 90% reflectance white test card
10-30V dc
PNP
Fixed-field mode
with 25 mm far
limit cutoff
100
10
G
A
I
N
1
.1 mm
.004 in
T18S2P6FF25Q
1 mm
.04 in
10 mm
.4 in
100 mm
4 in
DISTANCE
50 mm Far Limit Cutoff
1000
S18, Q25 and T18 Series
E
X
C
E
S
S
S18S2P6FF50Q
Q25S2P6FF50Q
50 mm
(2")
4-Pin Euro QD
10-30V dc
PNP
G
A
I
N
10
1
.1 mm
.004 in
T18S2P6FF50Q
Fixed-field mode
with 50 mm far
limit cutoff
100
1 mm
.04 in
10 mm
.4 in
100 mm
4 in
DISTANCE
100 mm Far Limit Cutoff
1000
S18, Q25 and T18 Series
E
X
C
E
S
S
S18S2P6FF100Q
Q25S2P6FF100Q
100 mm
(4")
4-Pin Euro QD
10-30V dc
PNP
Fixed-field mode
with 100 mm far
limit cutoff
100
G
A
I
N
10
1
.1 mm
.004 in
T18S2P6FF100Q
1 mm
.04 in
10 mm
.4 in
100 mm
4 in
DISTANCE
200 mm Far Limit Cutoff
1000
S30, Q40 and T30 Series
E
X
C
E
S
S
S30S2P6FF200Q
Q40S2P6FF200Q
200 mm
(8")
4-Pin Euro QD
10-30V dc
PNP
G
A
I
N
100
Fixed-field mode
with 200 mm far
limit cutoff
10
1
1 mm
.04 in
T30S2P6FF200Q
10 mm
.4 in
100 mm
4 in
1000 mm
40 in
DISTANCE
400 mm Far Limit Cutoff
1000
S30, Q40 and T30 Series
E
X
C
E
S
S
S30S2P6FF400Q
Q40S2P6FF400Q
T30S2P6FF400Q
400 mm
(16")
4-Pin Euro QD
10-30V dc
PNP
G
A
I
N
100
Fixed-field mode
with 400 mm far
limit cutoff
10
1
1 mm
.04 in
10 mm
.4 in
100 mm
4 in
1000 mm
40 in
DISTANCE
224
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
S2 Series Sensors for Bus Networks
EZ-BEAM S2 Dimensions
EZ-BEAM S18
EZ-BEAM S30
Yellow LED
Output Indicator
Yellow LED
Output Indicator
(Except emitter)
2 m (6.5') Cable
Jam Nuts
(2 Provided)
Green LED
Power
Indicator
18 x 1 mm
Thread
Green LED
Power Indicator
37.0 mm
(1.46")
78.7 mm
(3.10")
Jam Nuts
(2 Provided)
M30 x 1.5
Thread
68.7 mm
(2.71")
53.0 mm
(2.09")
EZ-BEAM Q25
EZ-BEAM Q40
Yellow LED
Output Indicator
(Except emitter)
Yellow LED
Output Indicator
(Except emitter)
Green LED
Power Indicator
Green LED
Power Indicator
30.0 mm*
(1.18")
25.0 mm
(0.98")
35.0 mm
(1.38")
Lens Centerline
12.4 mm
(0.49")
15.2 mm
(0.60")
46.0 mm
(1.81")
40.1 mm
(1.58")
50.0 mm
(1.97")
Lens Centerline
20.1 mm
(0.79")
M18 x 1 Thread
19.8 mm
(0.78")
(Jam Nut Supplied)
12.7 mm
(0.50")
82.5 mm
(3.25")
(Jam Nut Supplied)
M30 x 1.5 Thread
EZ-BEAM T18
EZ-BEAM T30
Jam Nut
(2 Supplied)
Jam Nut
(Supplied)
M30 x 1.5
Thread
M18 x 1
Thread
30.0 mm
(1.18")
ø 15 mm
(0.59")
ø 30.0 mm
(1.18")
ø 15 mm
(0.59")
Yellow LED
Output Indicator
(Except emitter)
Green LED
Power Indicator
45.0 mm
(1.77") ø 40.0 mm
(1.57")
Yellow LED
Output Indicator
(Except emitter)
Green LED
Power Indicator
56.6 mm
(2.23")
11.5 mm
(0.45")
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
66.5 mm
(2.62")
11.5 mm
(0.45")
225
S2 Series Sensors for Bus Networks
EZ-BEAM S2 Specifications
Supply Voltage and Current
Opposed Mode Emitter
Opposed Mode Receiver
Polarized Retro
Fixed-field
10 to 30V dc (10% maximum ripple); Supply current (exclusive of load current):
25 mA
20 mA
30 mA
35 mA
Supply Protection Circuitry
Protected against reverse polarity and transient voltages
Output Configuration
Sensing Output: PNP (current sourcing), light operated
Alarm Output: PNP (current sourcing), normally open and
conducts whenever the sensor's excess gain drops to
between 1X and 1.5X in the light condition
Output Rating
150 mA maximum (each); the total load may not exceed 150 mA;
Off-state leakage current <1 microamp at 30V dc;
On-state saturation voltage <1V at 10 mA dc; <1.5V at 150 mA dc
Output Protection Circuitry
Protected against false pulse on power-up and continuous overload or short-circuit of outputs
Output Response Time
Opposed: 3 milliseconds “ON” and 1.5 milliseconds “OFF”
Polarized Retro and Fixed-field: 3 milliseconds “ON” and “OFF”
NOTE: 100 millisecond delay on power-up; outputs are non-conducting during this time
Repeatability
Opposed: 375 microseconds
Polarized Retro and Fixed-field: 750 microseconds
Repeatability and response are independent of signal strength
Indicators
Two LEDs: Green and Yellow
GREEN glowing steadily
GREEN flashing
YELLOW glowing steadily
YELLOW flashing
=
=
=
=
power to sensor is “ON”
output is overloaded
normally open output is conducting
excess gain marginal (1-1.5x) in light condition
Construction
Housings are thermoplastic polyester; Lenses are Lexan® (opposed models) or acrylic (retro and fixed-field
models) S18 and S30 come with two jam nuts; T18, T30, Q25 and Q40 come with one jam nut
Environmental Rating
Leakproof design rated NEMA 6P; IEC IP67
Connections
4-pin euro-style quick-disconnect fitting; cables are ordered separately; contact your Banner sales
engineer for help with cable selection.
Operating Conditions
Temperature:
Relative Humidity:
Vibration and
Mechanical Shock
All models meet Mil. Std. 202F requirements. Method 201A (Vibration; frequency 10 to 60 Hz, max.,
double amplitude 0.06" acceleration 10G). Method 213B conditions H&I (Shock: 75G with unit operating;
100G for non-operation)
-40° to +70°C (-40° to 158°F)
90% at 50°C (non-condensing)
Lexan® is a registered trademark of General Electric Co.
226
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
S2 Series Sensors for Bus Networks
EZ-BEAM S2 Hookup Information
Quick-Disconnect Pin Detail
Connector on Sensor Shown (male pins)
Alarm
(White wire)
DC common
(Blue wire)
+10 to 30V dc
(Brown wire)
Sensing output
(Black wire)
Emitter Quick-Disconnect Pin Detail
Connector on Sensor Shown (male pins)
Not used
(White wire)
DC common
(Blue wire)
+10 to 30V dc
(Brown wire)
Not used
(Black wire)
Note: Wire colors are for Banner MQDC-4 Series quick-disconnect cables
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227
T18U Series Ultrasonic Sensors
T18U Series Ultrasonic Sensors
*U.S. Design Patent #D361057
T18U Series Sensing Mode Options
•
Opposed mode ultrasonic sensors for reliable detection of
clear objects and materials
•
Selectable resolution: NORMAL resolution with opposed
range up to 600 mm (24"), HIGH resolution with range
to 300 mm (12")
•
Highly immune to ambient sonic and electrical noise
•
Popular, patented* T-style right-angle sensor package with
18 mm threaded hub; cabled or quick disconnect models are
available
•
12 to 30V dc operation; choose receivers with either NPN
(sinking) or PNP (sourcing) output
•
Alignment indicator flashes at a rate proportional to the
received signal strength
•
Rugged design for use in demanding environments: rated IEC
IP67, NEMA 6P; wide operating temperature range of -40°C
to +70°C
Ultrasonic Opposed
Ultrasonic, 230 KHz
T18U Series Opposed Mode Emitter (E) and Receiver (R)
Models
Range
T186UE
T186UEQ
T18VN6UR
T18VN6URQ
T18VP6UR
T18VP6URQ
Cable
Supply
Voltage
2 m (6.5')
4-Pin Euro QD
Normal resolution:
600 mm (24")
High resolution:
300 mm (12")
2 m (6.5')
4-Pin Euro QD
2 m (6.5')
4-Pin Euro QD
Output
Type
Response Time
—
12-30V dc
Complementary
NPN
Normal resolution:
2 milliseconds
High resolution:
1 millisecond
Complementary
PNP
For T18U Ultrasonic Sensors:
i) 9 m (30') cables are available by adding suffix “W/30” to the model number of any cabled sensor (e.g. - T18VN6UR W/30)
ii) A model with a QD connector requires an accessory mating cable. See page 232 and the Accessories section for more information.
228
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T18U Series Ultrasonic Sensors
T18U Series Product Specifications
Emitter-Receiver Opposed
Range
Normal resolution: 600 mm (24") max
High resolution: 300 mm (12") max
Supply Voltage and Current
12 to 30V dc (10% maximum ripple) at 50 mA (emitters) or 35 mA (receivers), exclusive of load
Supply Protection Circuitry
Protected against reverse polarity and transient voltages
Output Configuration
SPDT (complementary) solid-state dc switch:
Choose NPN (current sinking) or PNP (current sourcing) models
Output Rating
150 mA (each) at 25°C, derated to 100 mA at 70°C (derate 1 mA per °C)
Off-state leakage current <1 microamp at 30V dc
On-state saturation voltage <1.5V at 10m A; <2.0V at 150 mA
Output Supply Circuitry
Protected against false pulse on receiver power-up and continuous overload or short circuit of outputs
Output Response Time
NORMAL resolution mode: 2 milliseconds “on” and “off”; 125 Hz max. rep rate
HIGH resolution mode: 1 millisecond “on” and “off”; 200 Hz max. rep rate
Indicators
Emitters have a green LED for dc power “on”
Receivers have two LEDs, one yellow and one green:
GREEN glowing steadily = power to receiver is “on”
GREEN flashing
= output is overloaded
YELLOW flashing
= sonic signal received (flash rate is proportional to received signal strength;
flash is from half to full intensity)
Construction
Patented* T-style PBT housing. M18 x 1 transducer housing; mating jam nut is supplied for mounting; acoustic
face is epoxy-reinforced; circuitry is epoxy-encapsulated
Environmental Rating
Leakproof design is rated IEC IP67; NEMA 6P
Connections
2 m (6.5') or 9 m (30') attached cable, or 4-pin euro-style quick-disconnect fitting
Operating Temperature
Temperature: -40° to +70°C (-40° to +158°F)
Maximum relative humidity: 100%
Vibration and
Mechanical Shock
All models meet Mil. Std. 202F requirements. Method 201A (Vibration: 10 to 60 Hz max., double amplitude 0.06"
acceleration 10G). Method 213C conditions H & I (Shock: 75G with unit operation; 100F to non-operation)
Also meets IEC 947-5-2 requirements: 30G, 11 ms duration, half sine wave
Application Notes
Minimum spacing (adjacent sensor pairs): 50 mm for emitter-to-receiver separations of up to 150 mm. Add
10 mm of adjacent-pair spacing for every 100 mm of emitter-to-receiver separation beyond 150 mm.
Certifications
*U.S. Design Patent No. D361057
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
229
T18U Series Ultrasonic Sensors
T18U Series Hookup Diagrams
NPN (sinking) Receivers
T18VN6 Models
Hookup for Normal Resolution
bu
bn
bk
wh
-
12-30V dc
+
Load
Load
Hookup for High Resolution
bn
bu
bk
wh
PNP (sourcing) Receivers
T18VP6 Models
Hookup for Normal Resolution
bn
bu
bk
wh
+
12-30V dc
-
Load
Load
Hookup for High Resolution
-
12-30V dc
+
Load
Load
bu
bn
bk
wh
+
12-30V dc
-
Load
Load
NOTE: The receiver hookups are the same for either an integral or QD cable. QD cables are 4-pin euro-style (see pin-out drawings on next page).
Cabled Emitters - T186UE
bn
bu
Quick Disconnect Emitters - T186UEQ
+
12-30V dc
-
bn
bu
bk
wh
+
12-30V dc
-
Quick-Disconnect (QD) Option
T18U Ultrasonic sensors are sold with either a 2 m (6.5') or a 9 m (30') attached cable, or with a 4-pin euro-style QD cable fitting.
QD sensors are identified by the letters “Q” in their model number suffix. Mating cables for QD T18U Ultrasonic sensors are
model MQDC-415 or MQDC-430 (straight connectors) or MQDC-415RA or MQDC-430RA (right-angled connectors). For more
information on QD cables, see page 232 and the Accessories section.
230
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T18U Series Ultrasonic Sensors
T18U Series Hookup Diagrams
4-Pin Euro-Style Pin-out
(Cable Connector Shown)
White Wire
Brown Wire
Blue Wire
Black Wire
T18U Series Dimensions
T18U Sensor with Cable Attached
T18U Sensor with Euro-Style QD
Jam Nut
(Supplied)
Jam Nut
(Supplied)
M18 x 1
Thread
M18 x 1
Thread
30.0 mm
(1.18")
ø 15 mm
(0.59")
30.0 mm
(1.18")
ø 40.0 mm
(1.57")
ø 15 mm
(0.59")
Yellow LED
Signal Strength"dicator
(Receiver, Only)
Green LED
Power Indicator
51.5 mm
(2.03")
11.5 mm
(0.45")
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
ø 40.0 mm
(1.57")
Yellow LED
Signal Strength"dicator
(Receiver, Only)
Green LED
Power Indicator
66.5 mm
(2.62")
11.5 mm
(0.45")
231
EZ-BEAM® Accessories
Modifications
Model Suffix
Modification
W/30
9 m (30') cable
Example of Model
Number
Description
All EZ-BEAM sensors may be ordered with an integral 9 m (30')
cable in place of the standard 2 m (6.5') cable
S18SN6D W/30
Quick-Disconnect (QD) Cables
The following is a selection of cables available for the EZ-BEAM QD models
Style
Model
Length
Connector
For use with
4-Pin Pico
PKG4-2
PKW4-2
2 m (6.5')
Straight
Right-Angle
S12 Series EZ-BEAM sensors with model
suffix “QP”
4-Pin Euro
MQDC-406
MQDC-415
MQDC-430
MQDC-406RA
MQDC-415RA
MQDC-430RA
2 m (6.5')
5 m (15')
9 m (30')
2 m (6.5')
5 m (15')
9 m (30')
Straight
Straight
Straight
Right-Angle
Right-Angle
Right-Angle
S18, S186ELD, S30, Q25, Q40, M18, T18,
T30 and SM30 dc series EZ-BEAM sensors
with model suffix “Q”
4-Pin Micro
MQAC-406
MQAC-415
MQAC-430
MQAC-406RA
MQAC-415RA
MQAC-430RA
2 m (6.5')
5 m (15')
9 m (30')
2 m (6.5')
5 m (15')
9 m (30')
Straight
Straight
Straight
Right-Angle
Right-Angle
Right-Angle
S18, S30, Q25, Q40, T18, T30 and SM30 ac
series EZ-BEAM sensors with model suffix
“Q1”
Extension Cables (without connectors)
The following cables are available for extending the length of existing sensor cable. These are 30 m (100') lengths of EZ-BEAM cable. This
cable may be spliced to existing cable. Connectors, if used, must be customer-supplied.
Model
Type
Used with:
EC19E-100
2-conductor
S126E emitter
EC19R-100
4-conductor
S12 Series receivers
EC312A-100
2-conductor
M18, S18, S30, Q25, Q40, T18 & T30 Series emitters
EC312-100
4-conductor
M18, S18, S30, Q25, Q40, T18 & T30 Series dc sensors (except emitters)
EC900A-100
3-conductor
S18, S186ELD, S30, Q25, Q40, T18 & T30 Series ac sensors
(except emitters)
232
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
EZ-BEAM® Accessories
Aperture Kits
Selected EZ-BEAM sensors may be fitted with apertures which narrow or shape the effective beam of the sensor and protect the sensor’s lens.
These apertures are rectangular or circular thread-on water-tight parts. Use of apertures makes it possible to create very narrow, concentrated
sensing beams for precision sensing applications. Kits include Teflon FEP® lens, o-rings and thread-on housing.
Model
AP12SC
Description
Used With
Kit includes round apertures
of: 0.5 mm (0.02"), 1.0 mm
(0.04") & 2.5 mm (0.10") in
diameter
Dimensions
NOTE:
Aperture adds 3/16" to sensor length.
Aperture styles available
Round
Rectangular
Aperture
(Rectangular type shown)
S12 Series
AP12SR
Kit includes rectangular
apertures of: 0.5 mm
(0.02"), 1.0 mm (0.04") &
2.5 mm (0.10") wide
Lens
O-ring (2)
Housing
16.0 mm
(0.63")
Outside Diameter
12.7 mm
(0.50")
NOTE:
Aperture adds 3/16" to sensor length
AP18SC
Aperture styles available
Kit includes round apertures
of: 0.5 mm (0.02"), 1.0 mm
(0.04") & 2.5 mm (0.10") in
diameter
Round
Rectangular
Aperture
(Rectangular type shown)
Lens
S18 & M18
Series
O-ring (2)
Housing
AP18SR
Kit includes rectangular
apertures of: 0.5 mm
(0.02"), 1.0 mm (0.04") & 2.5
mm (0.10") wide
AP18SCN
Kit includes round apertures
of: 0.5 mm (0.02"), 1.0 mm
(0.04") & 2.5 mm (0.10") in
diameter
22.4 mm
(0.88")
Outside Diameter
12.7 mm
(0.50")
NOTE:
Aperture adds 3/16" to sensor length.
Aperture styles available
Round
Narrow-profile
Jam nut (supplied)
Rectangular
Aperture
(Rectangular type shown)
T18 Series
AP18SRN
Kit includes rectangular
apertures of: 0.5 mm
(0.02"), 1.0 mm (0.04") & 2.5
mm (0.10") wide
Lens
O-ring (2)
Housing
22.4 mm
(0.88")
Outside Diameter
12.7 mm
(0.50")
NOTE:
Aperture adds 3/16" to sensor length.
APG18S
Kit includes glass lens
(window) to protect plastic
sensor lens from chemical
environments
Lens
S18, M18
& T18
Series
Housing
O-ring (2)
22.4 mm
(0.88")
Outside Diameter
12.7 mm
(0.50")
Note: For 30 mm aperture kit, see SM30 Accessories, page 295.
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
233
EZ-BEAM® Accessories
Mounting Brackets
Model
Description
Dimensions
SMB1812SF
• 12 mm swivel
• Black reinforced thermoplastic
polyester
• Includes stainless steel swivel
locking hardware
36.0 mm
(1.42")
10.6 mm
(0.42")
M12 x 1
Internal
Thread
42.0 mm
(1.65")
22.9 mm
(0.9")
50.8 mm
(2.00")
25.4 mm
(1.00")
SMB1815SF
• Swivel with set screws for
mounting of T18 or T30 by its
cable hub
• Black reinforced thermoplastic
polyester
• Includes stainless steel swivel
locking hardware and 3/64" hex
wrench
36.0 mm
(1.42")
10.6 mm
(0.42")
ø15.0 mm
(0.59")
42.0 mm
(1.65")
22.9 mm
(0.9")
50.8 mm
(2.00")
SMB18A
• For use with M18, S18,
S186ELD, T18 and Q25 Series
sensors
• 12-gauge, stainless steel, right
angle mounting bracket with a
curved mounting slot for
versatility and orientation
• Clearance for M4 (#8)
hardware
* Use 4 mm (#8) screws
to mount bracket.
Drill screw holes
24.2 mm (0.95") apart.
25.4 mm
(1.00")
30°
41 mm
(1.6")
R 24.2 mm
(0.95")
46 mm
(1.8")
4.6 mm*
(0.18")
ø 4.6 mm*
(0.18")
7.6 mm
(0.30")
40.0 mm
(1.60")
13 mm
(0.5")
42.4 mm
(1.67")
21.1 mm
(0.83")
14.0 mm
(0.55")
2.5 mm
(0.10")
30.0 mm
(1.18")
SMB18Q
18.5 mm
(0.73")
30 mm
(1.2")
SMB18C
• For use with S18, M18, T18
and Q25 Series sensors
• 18 mm split clamp bracket
• Black thermoplastic polyester
• Includes stainless steel
mounting hardware
25.4 mm
(1.00")
* Use 4 mm (#8) screws
to mount bracket.
Drill screw holes
24.2 mm (0.95") apart.
M5 x 0.8
x 60 mm
Screw (2)
19 mm
(0.75")
25.4 mm
(1.00")
30°
• Angled flanged mounting
bracket for use with Q25
sensors
30 mm
(1.2")
41 mm
(1.60")
R 24.2 mm
(0.95")
4.6 mm
(0.18")*
ø 4.6 mm
(0.18")*
234
Nut Plate
46 mm
(1.80")
10 mm
(0.40")
7.6 mm
(0.30")
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
EZ-BEAM® Accessories
Mounting Brackets
Model
Description
Dimensions
SMB18SF
• For use with M18, S18, T18
and Q25 Series sensors
• 18 mm swivel bracket
• Black thermoplastic polyester
• Includes stainless steel swivel
locking hardware
36.0 mm
(1.42")
M18 x 1
internal
thread
10.6 mm
(0.42")
42.0 mm
(1.65")
22.9 mm
(0.9")
50.8 mm
(2.00")
25.4 mm
(1.00")
16.0 mm
(0.63 ")
SMB18UR
SMB18UR Top
ø18.3 mm
(0.72")
66.0 mm
(2.60")
45.2 mm
(1.78")
27.2 mm
(1.07")
50.8 mm
(2.0")
60º
• For use with M18, S18 and
T18 Series sensors
• 2-part universal rotating
bracket
• Stainless steel
20.8 mm
(0.82")
2.7 mm
(0.10")
41.7 mm
(1.64")
60º
ø20.3 mm
(0.80")
ø30.5 mm
(1.20")
R2.5 mm
(0.10")
24.6 mm
(0.97")
46.7 mm
(1.84")
9.7 mm
(0.38")
25.4 mm
(1.00")
60º
4X 6.9 mm
(0.27")
41.7 mm
(1.64")
8.1 mm
(0.32")
SMB18UR Bottom
20.3 mm
(0.80")
20.8 mm
(0.82")
20.3 mm
(0.80")
ø30.5 mm
(1.20")
6X #10-32 Thru
25.4 mm
(1.00")
33.8 mm
(1.33")
63.5 mm
(2.50")
71.1 mm
(2.80")
2.7 mm
(0.10")
SMB3018SC
• For use with S18, T18 and
Q25 Series sensors
• 18 mm swivel barrel or side
mount bracket
• Black reinforced thermoplastic
polyester
• Includes stainless steel swivel
locking hardware
50.8 mm
(2.00")
66.5 mm
(2.62")
M18 x 1
internal
thread
56.7 mm
(2.31")
Assembled
68.0 mm
(2.68")
29.0 mm
(1.14")
SMB30A
• For use with S30, SM30, T30
and Q40 Series sensors
• 12-gauge, stainless steel, right
angle mounting bracket with a
curved mounting slot for
versatility and orientation
• Clearance for M6 (1/4")
hardware
* Use 5 mm (#10) screws to mount bracket.
Drill screw holes 40.0 mm (1.58") apart.
38.5 mm
(1.52")
45 mm
(1.8")
R 40 mm
(1.58")
ø 6.3 mm
(0.25")*
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ø 30.5 mm
(1.20")
61 mm
(2.40")
30°
69 mm
(2.70")
6.3 mm
(0.25")*
7.6 mm
(0.30")
235
EZ-BEAM® Accessories
Mounting Brackets
Model
Description
Dimensions
SMB30C
56.0 mm
(2.20")
• For use with S30, SM30, T30
and Q40 Series sensors
• 30 mm split clamp bracket
• Black reinforced thermoplastic
polyester
• Includes stainless steel
mounting hardware
13 mm
(0.5")
63.0 mm
(2.48")
31.5 mm
(1.24")
13.5 mm (0.53")
Nut Plate
2.5 mm
(0.10")
45.0 mm
(1.77")
M5 x 0.8
x 80 mm
Screw (2)
SMB30Q
* Use 5 mm (#10 screws to mount bracket.
Drill screw holes 40.0 mm (1.58") apart.
30°
• For use with Q40 sensors
• 30 mm angled flanged
mounting bracket
ø 30.7 mm
(1.21")
38.5 mm
(1.52")
45 mm
(1.8")
61 mm
(2.40")
10 mm (0.40")
R 40 mm
(1.58")
69 mm (2.70")
6.3 mm
(0.25")*
ø 6.3 mm
(0.25")*
SMB30SC
• For use with S30, SM30, T30
and Q40 Series sensors
• 30 mm swivel bracket
• Black reinforced thermoplastic
polyester
• Includes stainless steel
mounting and swivel locking
hardware
7.6 mm
(0.30")
50.8 mm
(2.00")
M30 x 1.5
internal
thread
12.7 mm
(0.50")
58.7 mm
(2.31")
30.0 mm
(1.18")
66.5 mm
(2.62")
29.0 mm
(1.14")
SMB30SK
• For use with S18, M18 and
T18 Series sensors
• Flat-mount swivel bracket with
extended range of motion
• Black reinforced thermoplastic
polyester and 316 stainless
steel
• Includes stainless steel swivel
locking hardware
50.8 mm
(2.00")
56.7 mm
(2.31")
Assembled
68.0 mm
(2.68")
236
78.0 mm
(3.07")
66.5 mm
(2.62")
29.0 mm
(1.14")
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
EZ-BEAM® Accessories
Mounting Brackets
Model
Description
Dimensions
2x 11.4 mm
(0.45")
2x 7.1 mm
(0.28")
SMB46A
31.8 mm
(1.25")
14.0 mm
(0.55")
60º
8x M5 or #10 clearance
• For use with S186ELD Laser
Emitter
• 2-piece 12-gauge, stainless
steel bracket assembly with
precision sensor alignment
adjustment
• Includes 2 mm hex key
ø6.6mm
(0.26")
ø30.5mm
(1.20")
60º
64.5 mm
(2.54")
ø18.3 mm
(0.72")
43.0 mm
(1.69")
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
61.0 mm
(2.40")
237
EZ-BEAM® Sensors
NOTES:
238
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
QM42 Sensors
QM42 Sensors
QM42 Sensors. . . . . . . . . . . . . . . . . . . . . . . . . . 240
QM42 Accessories . . . . . . . . . . . . . . . . . . . . . . . 249
!
QM42 sensors are not suitable for use in
personnel safety applications! See WARNING on
inside front cover of catalog.
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239
QM42 Sensors
QM42 Sensors
Self-Contained DC Photoelectric Sensors in Metal Housings
•
Available in opposed, polarized retroreflective, diffuse, fixed-field, adjustablefield, and plastic fiber optic sensing modes
•
Fixed-field technology allow direct detection of objects within a defined sensing
field, while ignoring reflective objects located beyond the sensing field cutoff
point
•
Long-range diffuse mode sensor have a powerful, collimated light source and
special lensing which allows reliable long-range reflective sensing
QMT42 cabled (left) and
QM42 quick-disconnect (right)
QM42 Sensing Mode Options
P
Opposed
Retroreflective
Polarized
Diffuse
Fixed-Field &
Adjustable-Field
Plastic Fiber Optic
Infrared, 880 nm
QM42 Opposed Mode Emitter (E) and Receiver (R)
Models
Range
QM426E
QM426EQ
QM42VN6R
QM42VN6RQ
QM42VP6R
QM42VP6RQ
Supply
Voltage
Cable
2 m (6.5')
4-pin Euro QD
2 m (6.5')
4-pin Euro QD
Excess Gain
Beam Pattern
Effective Beam: 8 mm
1000
2 m (6.5')
4-pin Euro QD
10 m
(33')
Output
Type
—
10-30V dc
NPN
PNP
QM42E/R
E
X
C
E
S
S
QM42E/R
300 mm
Opposed Mode
100
12 in
Opposed Mode
200 mm
8 in
100 mm
4 in
0
G
A
I
N
10
0
100 mm
4 in
200 mm
8 in
300 mm
1
.1 m
.33 ft
1m
3.3 ft
10 m
33 ft
DISTANCE
100 m
330 ft
12 in
0
2m
6.5 ft
4m
13 ft
6m
19.5 ft
8m
26 ft
10 m
32.5 ft
DISTANCE
For QM42 Sensors:
i) 9 m (30') cables are available by adding suffix “W/30” to the model number of any cabled sensor (e.g. - QM42VN6D W/30)
ii) A model with a QD connector requires an accessory mating cable. See pages 249 and the Accessories section for more information.
240
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
QM42 Sensors
P
Visible red, 660 nm
NOTE: Retroreflective range is specified using one model BRT-3 retroreflector (3" diameter).
Actual sensing range may be more or less than specified, depending upon the efficiency and
reflective area of the retroreflector(s) in use. See page 722 for more information.
QM42 Polarized Retroreflective Mode
Models
Range
Cable
Supply
Voltage
Output
Type
Excess Gain
Beam Pattern
1000
QM42LP
QM42VN6LP
QM42VN6LPQ
2 m (6.5')
4-pin Euro QD
3m
(10')
QM42VP6LP
QM42VP6LPQ
NPN
10-30V dc
2 m (6.5')
4-pin Euro QD
E
X
C
E
S
S
Retroreflective Mode
100
PNP
2.4 in
Retroreflective Mode
40 mm
1.6 in
20 mm
0.8 in
0
0
with BRT-3 Reflector
G
A
I
N
QM42LP
60 mm
10
0.8 in
20 mm
with BRT-3 Reflector
40 mm
1.6 in
2.4 in
60 mm
1
.1 m
.33 ft
1m
3.3 ft
10 m
33 ft
0
100 m
330 ft
0.75 m
2.5 ft
DISTANCE
1.5 m
5.0 ft
2.25 m
7.5 ft
3.0 m
10.0 ft
3.75 m
12.5 ft
DISTANCE
Infrared, 880 nm
Short-range
Long-range
QM42 Diffuse Mode
Models
Range
Cable
Supply
Voltage
Output
Type
Excess Gain
Performance based on 90% reflectance white test card
Short-Range
QM42VN6D
QM42VN6DQ
1000
2 m (6.5')
4-pin Euro QD
NPN
E
X
C
E
S
S
QM42D
QM42D
30 mm
Diffuse Mode
100
0.8 in
10 mm
10-30V dc
2 m (6.5')
4-pin Euro QD
PNP
G
A
I
N
10
0.4 in
0
10 mm
0.2 in
20 mm
0.4 in
30 mm
1
1 mm
.04 in
10 mm
.4 in
100 mm
4 in
0.6 in
0
1000 mm
40 in
100 mm 200 mm 300 mm 400 mm 500 mm
4 in
8 in
12 in
16 in
20 in
DISTANCE
Long-Range
QMT42VN6DX
QMT42VN6DXQ
QMT42VP6DX
QMT42VP6DXQ
10 mm
(0.4")
to
6m
(20')
1.2 in
Diffuse Mode
20 mm
0
400 mm
(16")
QM42VP6D
QM42VP6DQ
Beam Pattern
2 m (6.5')
4-pin Euro QD
NPN
10-30V dc
2 m (6.5')
4-pin Euro QD
DISTANCE
1000
PNP
E
X
C
E
S
S
G
A
I
N
QMT42DX
Diffuse Mode
QMT42DX
30 mm
100
Diffuse Mode
0.8 in
10 mm
0.4 in
0
10
0
10 mm
0.4 in
20 mm
0.8 in
30 mm
1
0.01 m
0.033 ft
0.1 m
0.33 ft
1.0 m
3.3 ft
DISTANCE
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
10 m
33 ft
1.2 in
20 mm
1.2 in
0
1.5 m
5 ft
3.0 m
10 ft
4.5 m
15 ft
6.0 m
20 ft
7.5 m
25 ft
DISTANCE
241
QM42 Sensors
Infrared, 880 nm
QMT42 Fixed-field Mode
Models
Range
Cutoff
Point
Cable
Supply
Voltage
Output
Type
Performance Curves
1000
QMT42VN6FF500
QMT42VN6FF500Q
2 m (6.5')
4-pin Euro QD
NPN
500 mm
(20")
QMT42VP6FF500
QMT42VP6FF500Q
QMT42FF500
E
X
C
E
S
S
100
500 mm
2 m (6.5')
4-pin Euro QD
PNP
10
G
A
I
N
1
10 mm
.4 in
100 mm
4 in
1000 mm
40 in
10000 mm
400 in
DISTANCE
1000
QMT42VN6FF750
QMT42VN6FF750Q
2 m (6.5')
4-pin Euro QD
NPN
750 mm
(30")
QMT42VP6FF750
QMT42VP6FF750Q
E
X
C
E
S
S
QMT42FF750
100
750 mm
2 m (6.5')
4-pin Euro QD
PNP
G
A
I
N
10
1
10 mm
.4 in
100 mm
4 in
1000 mm
40 in
10000 mm
400 in
DISTANCE
1000
QMT42VN6FF1000
QMT42VN6FF1000Q
QMT42VP6FF1000
QMT42VP6FF1000Q
50 mm
(2.0") to
Cutoff
point
2 m (6.5')
4-pin Euro QD
1000 mm
(40")
NPN
10-30V dc
2 m (6.5')
4-pin Euro QD
PNP
E
X
C
E
S
S
G
A
I
N
QMT42FF1000
100
10
1000 mm
1
10 mm
.4 in
100 mm
4 in
1000 mm
40 in
10000 mm
400 in
DISTANCE
1000
QMT42VN6FF1500
QMT42VN6FF1500Q
2 m (6.5')
4-pin Euro QD
NPN
1500 mm
(60")
2 m (6.5')
4-pin Euro QD
QMT42VP6FF1500
QMT42VP6FF1500Q
PNP
QMT42FF1500
E
X
C
E
S
S
100
G
A
I
N
1500 mm
10
1
10 mm
.4 in
100 mm
4 in
1000 mm
40 in
10000 mm
400 in
DISTANCE
1000
2 m (6.5')
4-pin Euro QD
QMT42VN6FF2000
QMT42VN6FF2000Q
NPN
2000 mm
(79")
QMT42VP6FF2000
QMT42VP6FF2000Q
2 m (6.5')
4-pin Euro QD
PNP
E
X
C
E
S
S
G
A
I
N
QMT42FF2000
100
10
2000 mm
1
10 mm
.4 in
100 mm
4 in
1000 mm
40 in
10000 mm
400 in
DISTANCE
242
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
QM42 Sensors
Visible Red, 680 nm
QM42 Short Range Adjustable Field - 150 mm
Models
Range
Cutoff
Point
Cable
Supply
Voltage
Output
Type
Cutoff Point Deviation
0
QM42VN6AFV150
-1
2 m (6.5')
NPN
QM42VN6AFV150Q
QM42VP6AFV150
5 mm
50 to
(0.2")
150 mm
to Cutoff
(2 to 6")
point
4-pin Euro QD
-3
-4
10-30V dc
2 m (6.5')
-5
Percent
Deviation -6
18% Gray
-7
6% Black
-8
PNP
QM42VP6AFV150Q
-2
-9
-10
4-pin Euro QD
25 mm
(1 in)
0
50 mm
(2 in)
75 mm
(3 in)
100 mm
(4 in)
125 mm
(5 in)
150 mm
(6 in)
Cutoff Point Variation Relative to 90% Reflectance White Test Card
Visible Red, 680 nm
QMT42 Long Range Adjustable Field - 400 mm
Models
Range
Cutoff
Point
Cable
Supply
Voltage
Output
Type
Cutoff Point Deviation
+10
QMT42VN6AFV400
+8
2 m (6.5')
+6
NPN
QMT42VN6AFV400Q 25 mm
(1") to
Cutoff
point
QMT42VP6AFV400
125 to
400 mm
(5 to
16")
4-pin Euro QD
+2
18% Gray Color Sensitivity
6% Black Color Sensitivity
0
Percent
Deviation -2
10-30V dc
-4
2 m (6.5')
-6
PNP
QMT42VP6AFV400Q
+4
4-pin Euro QD
-8
-10
0
75 mm
(1 in)
150 mm
(2 in)
225 mm
(3 in)
300 mm
(4 in)
375 mm
(5 in)
450 mm
(6 in)
Cutoff Point Variation Relative to 90% Reflectance White Test Card
Interpretation of Performance Curves for Adjustable Field Models
The percentage of deviation indicates a change in the cutoff point for either 18% gray or 6% black targets, relative to the cutoff point set
for a 90% reflective white test card.
As an example, the cutoff point decreases 10% for a 6% reflectance black target when the cutoff point is adjusted for 400 mm (16") using
a 90% reflectance white test card. In other words, for the QMT42 Long Range Adjustable Field models, the cutoff point for the black
target is 360 mm (14") for this setting.
Interpretation of Cutoff Point Deviation Curve for Fixed-field Models
The percentage of deviation indicates a change in the cutoff point for either 18% gray
or 6% black targets, relative to the cutoff point for a 90% reflective white test card.
+10
Cutoff Point Deviation
+8
+6
+4
+2
18% Gray Color Sensitivity
6 % Black Color Sensitivity
0
Percent
Deviation -2
-4
As an example, the cutoff point decreases 10% for a 6% reflectance black target when
the cutoff point is 2000 mm (79") using a 90% reflectance white test card. In other
words, the cutoff point for the black target is 1800 mm (71").
-6
-8
-10
0
500 mm
(20 in)
750 mm
(30 in)
1000 mm
(39 in)
1500 mm
(59 in)
2000 mm
(79 in)
Cutoff Point Variation Relative to 90% Reflectance White Test Card
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243
QM42 Sensors
Visible red, 660 nm
QM42 Plastic Fiber Optic
Models
Range
Supply
Voltage
Cable
Output
Type
Excess Gain
Beam Pattern
Diffuse mode performance based on 90% reflectance white test card
1000
QM42FP
QM42VN6FP
QM42VN6FPQ
2 m (6.5')
4-pin Euro QD
Range
varies by
sensing
mode
and fiber
optics
used
QM42VP6FP
QM42VP6FPQ
E
X
C
E
S
S
NPN
10
1
1 mm
0.04 in
20 mm
0.8 in
10 mm
0.4 in
0
0
with PIT46U Fibers
10 mm
10 mm
0.4 in
100 mm
4.0 in
1.2 in
Opposed Mode
with PIT46U Fibers
G
A
I
N
QM42FP
30 mm
Opposed Mode
100
0.4 in
20 mm
0.8 in
30 mm
1.2 in
0
1000 mm
40 in
20 mm
0.8 in
DISTANCE
40 mm
1.6 in
60 mm
2.4 in
80 mm 100 mm
3.2 in
4.0 in
DISTANCE
10-30V dc
1000
2 m (6.5')
4-pin Euro QD
E
X
C
E
S
S
PNP
QM42FP
QM42FP
6 mm
Diffuse Mode
100
0.24 in
Diffuse Mode
4 mm
0.16 in
2 mm
0.08 in
0
0
G
A
I
N
10
2 mm
with PBT46U Fiber
1
0.1 mm
0.004 in
1 mm
0.04 in
10 mm
0.4 in
DISTANCE
100 mm
4.0 in
0.08 in
with PBT46U Fiber
4 mm
0.16 in
6 mm
0.24 in
0
10 mm
0.4 in
20 mm
0.8 in
30 mm
1.2 in
40 mm
1.6 in
50 mm
2.0 in
DISTANCE
For QM42 Sensors:
i) 9 m (30') cables are available by adding suffix “W/30” to the model number of any cabled sensor (e.g. - QM42VP6FP W/30)
ii) A model with a QD connector requires an accessory mating cable. See pages 249 and the Accessories section for more information.
244
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QM42 Sensors
QM42 Specifications
Two LEDs: Green and Yellow
Supply Voltage and Current
GREEN glowing steadily
GREEN flashing
YELLOW glowing steadily
YELLOW flashing
=
=
=
=
10 to 30V dc (10% maximum ripple) at less than:
power to sensor is “on”
Opposed emitters: Green power "on"
Opposed mode: 30 milliamps (emitter), 10 milliamps (receiver)
output is overloaded
Short-range diffuse and retroreflective models: 20 milliamps
light is sensed; normally open output “on”
Fiber optic models: 30 milliamps
marginal excess gain (1-1.5x) in light condition
Adjustable-field models: 50 milliamps
Fixed-field and long-range diffuse models: 40 milliamps
Supply Protection Circuitry
Protected against reverse polarity and transient voltages
Output Configuration
SPDT (complementary) solid-state dc switch; Choose NPN (current sinking) or PNP (current sourcing) models.
Light operate:
N.O. output conducts when the sensor sees its own (or the emitter's) modulated light
Dark operate:
N.C. output conducts when the sensor sees dark
Output Rating
100 mA maximum (each output)
Off-state leakage current: <5 microamps at 30V dc;
On-state saturation voltage: <1V at 10 mA dc; <1.5V at 100 mA dc
Output Protection Circuitry
Protected against false pulse on power-up and continuous overload or short circuit of outputs
Overload trip point ≥150 mA, typical, at 20ºC
Output Response Time
Opposed: 1 millisecond on, 0.5 millisecond off; Diffuse, Retro and Adjustable- and fixed-field: 1 millisecond on and off; Plastic Fiber Optic: 0.25 millisecond on and off
NOTE: 100 millisecond delay on power-up; outputs are non-conducting during this time.
Repeatability
Opposed: 120 microseconds; Diffuse, Retro and Adjustable- and Fixed-field: 250 microseconds; Fiber
Optic: 60 microseconds. Repeatability and response are independent of signal strength
Sensing Hysteresis
For Long-range Diffuse models: less than 20% of set sensing distance
For Adjustable-field models: less than 7% of set cutoff distance
For Fixed-field models:
2000 mm models - less than 5% of set cutoff distance
1500 mm models - less than 4% of set cutoff distance
1000 mm models - less than 3% of set cutoff distance
750 mm models - less than 2% of set cutoff distance
500 mm models - less than 1% of set cutoff distance
Cutoff Point Tolerance
For Fixed-field models only: ±10% of nominal cutoff distance
Adjustments
All models except emitters and Adjustable- and fixed-field and Long-range diffuse: 15-turn slotted brass
GAIN (sensitivity) adjustment potentiometer (clutched at both ends of travel)
150 mm Adjustable-field: 12-turn slotted brass cutoff distance adjustment potentiometer (clutched at
both ends of travel)
400 mm Adjustable-field: 15-turn slotted brass cutoff distance adjustment potentiometer (clutched at
both ends of travel)
Long-range diffuse: 4-turn slotted GAIN (sensitivity) adjustment potentiometer (clutched at both ends of travel)
Fixed-field: No adjustments
Indicators
Two LEDs: Green and Yellow
GREEN glowing steadily
GREEN flashing
YELLOW glowing steadily
YELLOW flashing
=
=
=
=
power to sensor is ON
Opposed emitters: Green power ON
output is overloaded
light is sensed; normally open output ON
marginal excess gain (1-1.5x) in light condition
Construction
Housings are die-cast zinc alloy with black acrylic polyurethane finish; lenses are acrylic
Environmental Rating
IP67; NEMA 6
Connections
2 m (6.5') or 9 m (30') attached cable, or 4-pin euro-style quick-disconnect fitting. QD cables are ordered
separately. See page 249 and Accessories section.
Operating Conditions
Temperature for Long-range Diffuse, Adjustable Field and Fixed-field models: -20° to +55°C (-4° to 131°F)
Temperature for all other models: -20° to +70°C (-7° to 158ºF)
Maximum Relative Humidity: 90% at 50°C (non-condensing)
Certifications
Except Fixed-field models
– Approvals in process
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245
QM42 Sensors
QM42 Hookup Diagrams
Sensors with NPN (Sinking) Outputs
Sensors with PNP (Sourcing) Outputs
Cabled Models
Cabled Models
bu
bn
bk
wh
bn
bu
bk
wh
-
10-30V dc
+
Load
Load
Quick-Disconnect Models
Load
bn
+
10-30V dc
bu
bk
Load
wh
Load
DC Emitters with Attached Cable
bu
-
Load
Quick-Disconnect Models
bu
10-30V dc
bn
+
bk
Load
wh
bn
+
10-30V dc
Load
DC Emitters with Quick-Disconnect
bn
bu
bk
wh
+
10-30V dc
-
+
-
10-30V dc
4-Pin Euro-Style Pin-out
(Cable Connector Shown)
White Wire
Brown Wire
Blue Wire
Black Wire
Quick-Disconnect (QD) Option
QM42 sensors are sold with either a 2 m (6.5') or a 9 m (30') attached PVC-covered cable or with a 4-pin euro-style QD cable
fitting. QM42 QD sensors are identified by the letter “Q” in their model number suffix. Information on mating cables for QM42 QD
sensors can be found on page 249 and in the Accessories section. Cables are supplied in a standard length of 2 m (6.5').
246
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QM42 Sensors
QM42 and QMT42 Dimensions
QM42 Opposed, Retro, Short-Range Diffuse & Short-Range Adjustable-Field Sensing Modes
(model suffix E, R, LP, D & AFV150)
Cabled Models
Quick-Disconnect Models
Gain (Sensitivity) Adjustment (except emitters), or
Cutoff Distance Adjustment (Adjustable-field models)
12.7 mm
(0.50")
Green LED Power Indicator
Yellow LED
Output/Marginal Indicator
(Except emitters)
ø 3.2 mm
(0.125")
(4 Holes)
42.0 mm
(1.65")
23.9 mm (2)
(0.94")
42.0 mm
(1.65")
Euro-style
QD connector
27.1 mm (2)
(1.07")
60.2 mm
(2.37")
10.0 mm (0.39")
12.3 mm (0.48")
Threaded M4 x 0.7
Mounting Holes
QMT42 Long-Range Diffuse Sensing Mode
(model suffix DX)
Cabled Models
Quick-Disconnect Models
18.0 mm
(0.71")
Green LED Power/Overload Indicator
Yellow LED
Output/Marginal Indicator
19.2 mm
(0.76")
ø 3.2 mm
(0.125")
(4 Holes)
58.0 mm
(2.28")
2 x 3.1mm
(0.12")
2 x 3.1mm
(0.12")
Euro-style
QD connector
23.9 mm (2)
(0.94")
42.0 mm
(1.65")
76.2 mm
(3.00")
10.0 mm
(0.39")
27.1 mm (2)
(1.07")
12.3 mm
(0.48")
Threaded M4 x 0.7
Mounting Holes
QMT42 - Rear View
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247
QM42 Sensors
QM42 and QMT42 Dimensions
QMT42 Fixed-Field Sensing Mode
(model suffix FF)
Quick-Disconnect Models
Cabled Models
18.0 mm
(0.71")
Green LED Power/Overload Indicator
Yellow LED
Output/Marginal Indicator
19.2 mm
(0.76")
ø 3.2 mm
(0.125")
(4 Holes)
58.0 mm
(2.28")
2 x 3.1mm
(0.12")
10.0 mm (0.39")
2 x 3.1mm
(0.12")
76.2 mm
(3.00")
Euro-style
QD connector
12.3 mm (0.48")
23.9 mm (2)
(0.94")
42.0 mm
(1.65")
27.1 mm (2)
(1.07")
Threaded M4 x 0.7
Mounting Holes
QMT42 Adjustable-field Sensing Mode
(model suffix AFV400)
Quick-Disconnect Models
Cabled Models
18.0 mm
(0.71")
Cutoff Distance Adjustment
Green LED Power Indicator
Yellow LED
Output/Marginal Indicator
19.2 mm
(0.76")
ø 3.2 mm
(0.125")
(4 Holes)
58.0 mm
(2.28")
2 x 3.1mm
(0.12")
10.0 mm (0.39")
2 x 3.1mm
(0.12")
76.2 mm
(3.00")
Euro-style
QD connector
12.3 mm (0.48")
23.9 mm (2)
(0.94")
42.0 mm
(1.65")
27.1 mm (2)
(1.07")
Threaded M4 x 0.7
Mounting Holes
QM42 Plastic Fiber Optic Sensing Mode
(model suffix FP)
Cabled Models
Quick-Disconnect Models
Euro-style
QD connector
42.0 mm
(1.65")
45.9 mm
(1.81")
48.5 mm
(1.91")
248
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QM42 Accessories
Modifications
Example of Model
Number
Model Suffix
Modification
Description
W/30
9 m (30') cable
All QM42 sensors may be ordered with an integral 9 m (30')
cable in place of the standard 2 m (6.5') cable
QM42VN6D W/30
Quick-Disconnect (QD) Cables
Following is the selection of cables available for QM42 QD models. See the Accessories section for more cable information.
Style
Model
Length
Connector
Used with:
4-Pin Euro
MQDC-406
MQDC-415
MQDC-430
MQDC-406RA
MQDC-415RA
MQDC-430RA
2 m (6.5')
5 m (15')
9 m (30')
2 m (6.5')
5 m (15')
9 m (30')
Straight
Straight
Straight
Right-angle
Right-angle
Right-angle
All QM42 sensors with QD fitting
Mounting Brackets
Model
Description
Dimensions
SMH241F Nut Plate
30.0 mm
(1.18")
1.5 mm
(0.06")
• Nut strap replaces two M3
mounting nuts and washers
• 16-gauge stainless steel
24.0 mm
(0.95")
2x M3 x 0.5
6.0 mm
(0.24")
2x Full Radius
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249
QM42 Accessories
Mounting Brackets
Model
Description
Dimensions
SMB3018SC
• 18 mm swivel side mount
bracket
• Black reinforced thermoplastic
polyester
• Includes stainless steel swivel
locking hardware
50.8 mm
(2.00")
66.5 mm
(2.62")
M18 x 1
internal
thread
56.7 mm
(2.31")
Assembled
68.0 mm
(2.68")
29.0 mm
(1.14")
SMB30SK
• Flat-mount swivel bracket with
extended range
of motion
• Black reinforced thermoplastic
polyester and 316 stainless
steel
• Includes stainless steel swivel
locking hardware
50.8 mm
(2.00")
78.0 mm
(3.07")
66.5 mm
(2.62")
56.7 mm
(2.31")
Assembled
2 x Hole for
#6 Machine Screw
68.0 mm
(2.68")
29.0 mm
(1.14")
SMB30SUS
• Side mount swivel bracket –
extended range of motion
• Black reinforced thermoplastic
polyester
• Includes stainless steel swivel
locking hardware
50.8 mm
(2.00")
66.5 mm
(2.62")
56.7 mm
(2.31")
Assembled
2 x Hole for
#6 Machine Screw
68.0 mm
(2.68")
5.0 mm
(0.20")
SMB42F
29.0 mm
(1.14")
10.0 mm
(0.40")
2x M4 x 0.7
12.7 mm
(0.50")
• 13-gauge stainless steel
• Includes mounting hardware
9.6 mm
(0.38")
28.3 mm
(1.12")
25.4 mm
(1.00")
25.4 mm
(1.00")
20.0 mm
(0.79")
6.4 mm
(0.25")
2.3 mm
(0.09")
4x M3 x 0.5
12.7 mm
(0.50")
23.3 mm
(0.92")
37.1 mm
(1.46")
48.4 mm
(1.91")
250
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QM42 Accessories
Mounting Brackets
Model
Description
Dimensions
40.0 mm
(1.58")
SMB42L
4x M4 x 0.7
6.4 mm
(0.25")
2.3 mm
(0.09")
5.0 mm
(0.20")
• 13-gauge stainless steel
• Includes mounting hardware
3.0 mm
(0.12")
12.7 mm
(0.50")
3x 10.0 mm
(0.40")
23.3 mm
(0.92")
33.0 mm
(1.30")
25.4 mm
(1.00")
2x M3 x 0.5
9.6 mm
(0.38")
SMB42T
R 24.1 mm
(0.95")
R 5.1 mm
(0.20")
10° (TYP)
15°
(2)
CL 31.8 mm
(1.25")
• 2-axis side mounting bracket
• Stainless steel
• Includes M3 sensor mounting
hardware
4.32 mm
(0.170")
Slot (2)
20.3 mm
(0.80")
20°
ø 3.05 mm Slot
(0.120")
ø 3.05 mm
(0.120")
90°
2.5 mm
(0.10")
20.1 mm
(0.79")
45.5 mm
(1.79")
38.9 mm
(1.53")
SMB42U
R 3.1 mm
(0.12") (2)
2x 8.9 mm
(0.35")
2x M4 x 0.7
6.5 mm
(0.25")
• 13-gauge stainless steel
• Includes mounting hardware
3.1 mm
(0.12")
12.7 mm
(0.50")
12.7 mm
(0.50")
30.0 mm
(1.18")
25.4 mm
(1.00")
25.4 mm
(1.00")
9.6 mm
(0.38")
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23.3 mm
(0.92")
2.3 mm
(0.09")
3.1 mm
(0.12")
4x M3 x 0.5
251
QM42 Accessories
Mounting Brackets
Model
Description
Dimensions
CL
SMB46L
6 mm
(0.2")
6 mm
(0.2")
5 mm (0.2")
(2x)
15 mm
(0.6")
8 mm
(0.3")
ø 36 mm (1.4")
ø 6.5 mm (0.26") (6x)
16 mm
(0.6")
• “L” bracket
• 14-gauge 316 stainless steel
65 mm
(2.6")
2 mm
(.1")
54 mm
(2.1")
SMB46S
10 mm
(0.4")
34 mm
(1.3")
CL
17 mm
(0.7")
3.5 mm
(0.14")
6 mm
(0.2")
6 mm
(0.2")
5 mm (0.2")
(4x)
• “S” bracket
• 14-gauge 316 stainless steel
27 mm
(1.1")
15 mm
(0.6")
8 mm
(0.3") 16 mm
(0.6")
ø36 mm (1.4")
ø6.5 mm (0.26") (6x)
65 mm
(2.6")
2 mm
(.1")
54 mm
(2.1")
27 mm
(1.1")
16 mm
(0.6")
34 mm
(1.3")
CL
17 mm
(0.7")
SMB46U
13 mm
(0.5")
3.5 mm
(0.14")
6 mm
(0.2")
• “U” bracket
• 14-gauge 316 stainless steel
6 mm
(0.2")
5 mm (0.2")
(4x)
15 mm
(0.6")
8 mm
(0.3") 16 mm
(0.6")
ø 36 mm (1.4")
ø 6.5 mm (0.26") (6x)
16 mm
(0.6")
65 mm
(2.6")
54 mm
(2.1")
2 mm
(.1")
27 mm
(1.1")
70 mm
(2.8")
252
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PicoDot® Sensors
PicoDot® Sensors
PicoDot® Sensors. . . . . . . . . . . . . . . . . . . . . . . . 254
PicoDot® Accessories . . . . . . . . . . . . . . . . . . . . . 259
CAUTION . . .
!
Never stare directly into
the emitter lens. Laser
light can damage your eyes.
Avoid placing any mirror-like object in the
beam. Never use a mirror as a target.
!
PicoDot® sensors are not suitable for use in
personnel safety applications! See WARNING on
inside front cover of catalog.
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253
PicoDot® Sensors
PicoDot® Laser Sensors
• Visible red, Class 2 sensors
• 200 microsecond sensing response
• Convergent beam models with precise, high-energy sensing spot at focus
available in three focal lengths: 50 mm (2"), 100 mm (4") and 200 mm (8")
• Retroreflective mode models with precise, narrow beam; excellent for sensing
the presence of tiny parts at close range, small parts at medium ranges and for
accurate sensing over long distances
• Models available with compact light weight housings or with environmentally
sealed housings
• 10 to 30V dc operation; choice of NPN (sinking) or PNP (sourcing)
complementary solid-state output
!
PicoDot Sensing Mode Options
CAUTION . . .
Never stare directly into the emitter
lens. Laser light can damage your
P
eyes. Avoid placing any mirror-like
object in the beam. Never use a mirror as a target.
Polarized
Retroreflective
Convergent
Choose PD49 models for environmentally sealed housing
Choose PD45 models for compact light weight housing
Visible red; Class 2 laser; 650 nm
PicoDot Convergent Laser Mode
Models
PD45VN6C50
PD45VN6C50Q
PD49VN6C50
PD49VN6C50Q
PD45VP6C50
PD45VP6C50Q
PD49VP6C50
PD49VP6C50Q
Focus
50 mm
(2.0")
Cable
2 m (6.5')
5-pin Euro QD pigtail 10-30V
dc
2 m (6.5')
5-pin Euro QD pigtail
Spot Size
at Focus:
2 m (6.5')
0.25 mm 5-pin Euro QD pigtail 10-30V
dc
(0.01")
2 m (6.5')
5-pin Euro QD pigtail
PD45VN6C100
PD45VN6C100Q
2 m (6.5')
102 mm 5-pin Euro QD pigtail 10-30V
(4.0")
dc
PD49VN6C100
2 m (6.5')
5-pin Euro QD pigtail
PD49VN6C100Q
Spot Size
PD45VP6C100
at Focus:
2 m (6.5')
PD45VP6C100Q 0.25 mm 5-pin Euro QD pigtail 10-30V
dc
(0.01")
PD49VP6C100
2 m (6.5')
5-pin Euro QD pigtail
PD49VP6C100Q
PD45VN6C200
PD45VN6C200Q
2 m (6.5')
203 mm 5-pin Euro QD pigtail 10-30V
(8.0")
dc
PD49VN6C200
2 m (6.5')
5-pin Euro QD pigtail
PD49VN6C200Q
Spot Size
at Focus:
PD45VP6C200
2 m (6.5')
PD45VP6C200Q 0.25 mm 5-pin Euro QD pigtail 10-30V
(0.01")
dc
PD49VP6C200
2 m (6.5')
5-pin Euro QD pigtail
PD49VP6C200Q
254
Excess Gain
Supply Output Housing
Voltage Type Rating
NPN
PNP
IP54,
NEMA 3
1000
IP67,
NEMA 6
E
X
C
E
S
S
IP54,
NEMA 3
G
A
I
N
NPN
PNP
PNP
0.12 in
Convergent Mode
2 mm
0.08 in
1 mm
0.04 in
10
0
1 mm
0.04 in
2 mm
0.08 in
0.12 in
3 mm
10 mm
.4 in
100 mm
4 in
0
1000 mm
40 in
12.5 mm 25 mm 37.5 mm 50 mm 62.5 mm
0.5 in
1.0 in
1.5 in
2.0 in
2.5 in
DISTANCE
IP67,
NEMA 6
IP54,
NEMA 3
G
A
I
N
DISTANCE
100 mm (4 in) PicoDot
Convergent Mode
100 mm (4 in) PicoDot
3 mm
10
1
1 mm
.04 in
0.12 in
Convergent Mode
100
2 mm
0.08 in
1 mm
0.04 in
0
10 mm
.4 in
100 mm
4 in
0
1 mm
0.04 in
2 mm
0.08 in
3 mm
0.12 in
0
1000 mm
40 in
DISTANCE
25 mm
1.0 in
50 mm
2.0 in
75 mm 100 mm 125 mm
3.0 in
4.0 in
5.0 in
DISTANCE
1000
IP67,
NEMA 6
E
X
C
E
S
S
IP54,
NEMA 3
G
A
I
N
IP67,
NEMA 6
50 mm (2 in) PicoDot
3 mm
1000
IP67,
NEMA 6
NPN
Convergent Mode
100
1
1 mm
.04 in
E
X
C
E
S
S
IP54,
NEMA 3
50 mm (2 in) PicoDot
0
IP67,
NEMA 6
IP54,
NEMA 3
Beam Width
Performance based on 90% reflectance white test card
200 mm (8 in) PicoDot
Convergent Mode
200 mm (8 in) PicoDot
3 mm
2 mm
0.08 in
1 mm
0.04 in
0
10
0
1 mm
0.04 in
2 mm
0.08 in
3 mm
1
1 mm
.04 in
0.12 in
Convergent Mode
100
10 mm
.4 in
100 mm
4 in
DISTANCE
1000 mm
40 in
0.12 in
0
50 mm 100 mm 150 mm 200 mm 250 mm
2.0 in
4.0 in
6.0 in
8.0 in 10.0 in
DISTANCE
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
PicoDot® Sensors
P
Visible red; Class 2 laser; 670 nm
Choose PD49 models for environmentally sealed housing
Choose PD45 models for compact light weight housing
PicoDot Polarized Retroreflective Laser Mode
Models
Range*
Cable
Supply
Voltage
Output Housing
Type
Rating
Excess Gain
With BRT-36X40BM reflector included with sensor
PD45VN6LLP
2 m (6.5')
1000
IP54,
NEMA 3
PD45VN6LLPQ
5-pin Euro QD pigtail
G
A
I
N
NPN
PD49VN6LLP
E
X
C
E
S
S
Retroreflective PicoDot
with BRT-36X40BM
100
10
1
0.1 m
0.33 ft
1.0 m
3.3 ft
10 m
33 ft
100 m
330 ft
DISTANCE
2 m (6.5')
With optional BRT-2X2 reflector.
See p. 726 for reflector dimensions.
IP67,
NEMA 6
1000
PD49VN6LLPQ
0.2 m to
10.6 m
(8" to 35')
PD45VP6LLP
E
X
C
E
S
S
5-pin Euro QD pigtail
10-30V dc
G
A
I
N
2 m (6.5')
1.0 m
3.3 ft
10 m
33 ft
100 m
330 ft
DISTANCE
With optional BRT-THG tape
1000
E
X
C
E
S
S
2 m (6.5')
IP67,
NEMA 6
PD49VP6LLPQ
10
5-pin Euro QD pigtail
PNP
PD49VP6LLP
with BRT-2X2
100
1
0.1 m
0.33 ft
IP54,
NEMA 3
PD45VP6LLPQ
Retroreflective PicoDot
5-pin Euro QD pigtail
G
A
I
N
Retroreflective PicoDot
with BRT-THG
100
10
1
0.1 m
0.33 ft
1.0 m
3.3 ft
10 m
33 ft
100 m
330 ft
DISTANCE
* Tested using a BRT-36X40BM retro target (included with each sensor). Actual range depends on the efficiency and size of the retroreflective
target. See Accessories section for retro target information.
For PicoDot Sensors:
i) 9 m (30') cables are available by adding suffix “W/30” to the model number of any cabled sensor (e.g. - PD45VN6C100 W/30)
ii) Pigtail QD connectors are 150 mm (6") long
iii) A model with a QD connector requires an accessory mating cable. See page 259 and the Accessories section for more information.
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
255
PicoDot® Sensors
PicoDot Specifications
Sensing Beam
Visible red Class 2 laser; 650 nm
Supply Voltage
10 to 30V dc (10% maximum ripple) at less than 20 milliamps, exclusive of load
Supply Protection Circuitry
Protected against reverse polarity, over voltage, and transient voltages
Output Configuration
SPDT (complementary) solid-state switch; Choose NPN (current sinking) or PNP (current sourcing) models
Light operate: Normally-open output conducts when the sensor sees its own modulated light
Dark operate: Normally-closed output conducts when the sensor sees dark
Output Rating
150 mA maximum (each output)
Off-state leakage current <1 microamp at 30V dc;
On-state saturation voltage <0.3V at 10 mA dc; <0.8V at 150 mA dc
Output Protection
Protected against continuous overload or short-circuit of outputs; Overload trip point ≥ 220 milliamps
Output Response Time
0.2 milliseconds (200 microseconds) “ON” and “OFF”
Repeatability
50 microseconds
Adjustments
12-turn GAIN (sensitivity) adjustment potentiometer (clutched at both ends of travel)
Extinguishing Wire
Gray wire held “low” for laser operation; “high” to turn laser off; Low = ≤1.0V dc; High = ≥+V-4.0V dc
(<30V dc) or disconnect wire
Indicators
Two LEDs: Green and Yellow
GREEN glowing steadily
YELLOW glowing steadily
GREEN Blinking
YELLOW Blinking
=
=
=
=
power to sensor is “ON”
light is sensed; normally open output is conducting
power overloaded
marginal return signal
Construction
Housings are Cycolac® KJB heat-resistant ABS, UL94-VO rated; acrylic lens
Environmental Rating
PD45 models: NEMA 3; IEC IP54
PD49 models: NEMA 6; IEC IP67
Connections
2 m (6.5') or 9 m (30') attached cable, or 5-pin euro-style 150 mm (6") pigtail quick-disconnect fitting;
mating cables for QD models are ordered separately. See page 259.
Operating Conditions
Temperature:
-10° to +45°C (+14° to 113°F)
Maximum relative humidity: 90% at 50°C (non-condensing)
Weight
PD45 models: sensor only: 22g (0.8 oz); sensor plus 2 m cable: 62g (2.2 oz)
PD49 models: sensor only 28g (1 oz); sensor plus 2 m cable: 68g (2.4 oz)
Application Notes
False pulse may occur <1 second after power-up
Certifications
CE certification for some models is in process.
Contact factory for approval status.
Cycolac® is a registered trademark of Borg-Warner
LASER LIGHT
DO NOT STARE INTO BEAM
CLASS 2 LASER PRODUCT
Avoid exposure - laser light
emitted from this aperture
PEAK POWER 2 mW
20KHz 10% DUTY CYCLE
660 - 680 nm
COMPLIES TO 21 CFR PART
1040.10 AND EN60825-1:1994
256
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
PicoDot® Sensors
PicoDot Hookup Diagrams
Sensors with NPN (Sinking) Outputs
with Attached Cable
bu
bn
bk
Load
wh Load
gy Laser
Control
–
10-30V dc
+
bn
150 mA
Maximum
each
+ Off
– On
bk
(
bu
bn
wh
gy
Load
Laser
Control
)
Control
150 mA
Maximum
Each
+ Off
– On
(
)
Sensors with PNP (Sourcing) Outputs
with Quick-Disconnect
bn
+
10-30V dc
–
bu
bk
150 mA
Maximum
Each
+ Off
– On
(
Load
wh Load
gy Laser
–
10-30V dc
+
Load
+
10-30V dc
–
bu
Sensors with NPN (Sinking) Outputs
with Quick-Disconnect
bk
Sensors with PNP (Sourcing) Outputs
with Attached Cable
wh
gy
)
Load
Load
Laser
Control
150 mA
Maximum
Each
+ Off
– On
(
)
5-Pin Euro-Style Pin-out
(Cable Connector Shown)
White Wire
Brown Wire
Blue Wire
Black Wire
Gray Wire
Quick-Disconnect (QD) Option
PicoDot sensors are sold with either a 2 m (6.5') attached PVC-covered cable, or with a 5-pin euro-style pigtail QD cable fitting.
PicoDot QD sensors are identified by the letter “Q” in their model number suffix. Mating cables for QD PicoDot sensors are
model MQDC1-5xx (straight connector) or MQDC1-5xxRA (right-angled connector). For more information on QD cables see
page 259 or Accessories section.
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
257
PicoDot® Sensors
PicoDot PD45 (IP54, NEMA 3) Series Dimensions
12.7 mm
(.50")
6.4 mm
(.25")
9.1 mm
(.36")
Emitter Axis
R2.5 mm (0.10")
(5 places)
45.6 mm (1.80")
4.3 mm
(.17")
40.6 mm
(1.60")
M3 (#4) Screw Clearance (2 Places)
Hardware Included with sensor
C'sink both sides (4 places): 6.2 mm (0.25") dia
1.8 mm (0.07") deep
4.3 mm (0.17")
30.9 mm
(1.22")
32.0 mm
(1.26")
Sensitivity
Adjustment
Power Indicator
Signal Indicator
4.3 mm
(.17")
35.8 mm
(1.41")
37.0 mm
(1.46")
4.3 mm
(.17")
PicoDot PD49 (IP67, NEMA 6) Series Dimensions
M3 (#4) Screw Clearance (2 Places)
Hardware Included with sensor:
1.8 mm (0.07") deep
49.1 mm
(1.93")
15.2 mm
(0.60")
6.9 mm
(0.27")
5.1 mm
(0.20")
6.3 mm
(0.25")
37.0 mm
(1.46")
11.8 mm
(0.47")
10.4 mm
(0.41")
42.7 mm
(1.68")
30.9 mm
(1.22")
32.0 mm
(1.26")
Sensitivity
Adjustment
Emitter Axis
5.0 mm
(0.20")
258
Power Indicator
Signal Indicator
37.3 mm
(1.47")
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
PicoDot® Accessories
Quick-Disconnect (QD) Cables
Following is the selection of cables available for PicoDot QD models. See the Accessories section for more cable information.
Style
5-Pin Euro
Model
MQDC1-506
MQDC1-515
MQDC1-530
Length
Connector
Used with:
2 m (6.5')
5 m (15')
9 m (30')
Straight
All PicoDot sensors with QD fitting
Mounting Brackets
Model
Description
Dimensions
2x 11.4 mm
(0.45")
2x 7.1 mm
(0.28")
SMB46A
31.8 mm
(1.25")
14.0 mm
(0.55")
60º
8x M5 or #10
clearance
ø6.6mm
(0.26")
ø30.5mm
(1.20")
• Stainless steel adjustable
bracket
• Comes with 2 mm shortarm
hex keys
12.1 mm
(0.48")
64.5 mm
(2.54")
60º
37.0 mm
(1.47")
32.0 mm
(1.26")
ø18.3 mm
(0.72")
12.0 mm
(0.47")
61.0 mm
(2.40")
43.0 mm
(1.69")
CL
6 mm
(0.2")
SMB46L
6 mm
(0.2")
5 mm (0.2")
(2x)
15 mm
(0.6")
8 mm
(0.3")
ø 36 mm (1.4")
ø 6.5 mm (0.26") (6x)
16 mm
(0.6")
• “L” bracket
• 14-gauge 316 stainless steel
65 mm
(2.6")
54 mm
(2.1")
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
2 mm
(.1")
27 mm
(1.1")
259
PicoDot® Accessories
Mounting Brackets
Model
Description
Dimensions
SMB46S
10 mm
(0.4")
34 mm
(1.3")
CL
17 mm
(0.7")
3.5 mm
(0.14")
6 mm
(0.2")
6 mm
(0.2")
5 mm (0.2")
(4x)
• “S” bracket
• 14-gauge 316 stainless steel
15 mm
(0.6")
8 mm
(0.3") 16 mm
(0.6")
ø36 mm (1.4")
ø6.5 mm (0.26") (6x)
65 mm
(2.6")
2 mm
(.1")
54 mm
(2.1")
27 mm
(1.1")
16 mm
(0.6")
34 mm
(1.3")
CL
17 mm
(0.7")
SMB46U
13 mm
(0.5")
3.5 mm
(0.14")
6 mm
(0.2")
• “U” bracket
• 14-gauge 316 stainless steel
6 mm
(0.2")
5 mm (0.2")
(4x)
15 mm
(0.6")
8 mm
(0.3") 16 mm
(0.6")
ø 36 mm (1.4")
ø 6.5 mm (0.26") (6x)
16 mm
(0.6")
65 mm
(2.6")
54 mm
(2.1")
2 mm
(.1")
27 mm
(1.1")
70 mm
(2.8")
260
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
L-GAGE® Q50 Sensors
Q50 Sensors
Q50 Sensors . . . . . . . . . . . . . . . . . . . . . . . . . . . 262
Q50 Accessories . . . . . . . . . . . . . . . . . . . . . . . . 265
!
Q50 sensors are not suitable for use in
personnel safety applications! See WARNING on
inside front cover of catalog.
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
261
L-GAGE® Q50 Sensors
L-GAGE Q50 SENSORS
LED-Based Linear Displacement Sensor with Analog Output and TEACH-mode Programming
To
1.
2.
3.
Se
tN
Rec
eive
•
Fast, easy-to-use TEACH-Mode programming; no potentiometer adjustments
•
Selectable output response speeds: 4 milliseconds or 64 milliseconds (see
hookup)
•
Teach a sensing window size and position, or a set-point threshold centered
within a 100 mm window
•
Two sensing ranges, depending on model: 100 to 300 mm (visible red beam
models), and 100 to 400 mm (infrared beam models)
•
Sensor linearity is better than 3 mm
•
Banner’s patented scalable analog output (U.S. patent #6,122,039)
automatically distributes the output signal over the width of the programmed
sensing window
•
Analog output slope can be either positive or negative, depending upon which
window limit is programmed first
•
Two bicolor Status LEDs
•
Choose 2 m or 9 m unterminated cable, or swivel 5-pin Euro-style QD
connector
•
Rugged construction withstands demanding sensing environments; rated IEC
IP67, NEMA 6
•
Select models with either visible red or infrared beam
•
Select models with either a 0-10V or 4-20 mA output
EA
Pre
R an
Te ss an
ac
d FA
h d ho
Ad light ld Te
jus
R Li
Pre t tar turns ach
mits
ss ge
on bu
(R tton
Ad Teac t to
ED un
.
jus
h 1s
til the
Pre t tar butto t lim )
it
ss ge
Te t to n. (Te positi
ac
ac on
h bu 2nd
h
.
tto limit flash
n (Te po
es
ac sition )
h tur .
ns
off
)
Em
r
itter
L-GAGE Q50 Analog Output Sensor Models
Models
Range
Q50BVU
100 to 300 mm
(3.9" to 11.8")
Q50BVUQ
Q50BU
Q50BUQ
Beam
100 to 400 mm
(3.9" to 15.7")
Response Time
Visible Red
LED
5-wire,
2 m (6.5') cable
5-wire,
2 m (6.5') cable
Output
4 to 20 mA
5-pin Euro-style QD
5-pin Euro-style QD
Q50BI
Q50BIQ
Supply
Voltage
5-wire,
2 m (6.5') cable
Q50BVI
Q50BVIQ
Cable*
0 to 10V
15 to
30V dc
4 to 20 mA
Fast Speed:
4 ms
Slow Speed:
64 ms
5-pin Euro-style QD
5-wire,
2 m (6.5') cable
Infrared LED
0 to 10V
5-pin Euro-style QD
* 9 m cables are available by adding suffix “W/30” to the model number of any cabled sensor (e.g., Q50BVI W/30). A model with a QD connector
requires a mating cable; see page 265 or the Accessories section.
262
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
L-GAGE® Q50 Sensors
L-GAGE Q50 Analog Output Sensor Specifications
Sensing Range
Q50BV: 100 to 300 mm (3.9" to 11.8")
Supply Voltage
15 to 30V dc (10% maximum ripple); 70 mA max. (exclusive of load)
Supply Protection Circuitry
Protected against reverse polarity and transient overvoltages
Delay at Power-up
2 seconds
Sensing Beam
Wave length Q50BV: 685 nm (typical)
Beam Size Q50BV: 20 mm dia. (max.)
Output Configuration
Depending on model
4-20 mA current sourcing models: 1 kΩ max. load @ 24V dc. Max. load = [(Vcc -4.5)/0.02]Ω
Loss of signal or target outside of sensor range: 3.6 mA
0-10V voltage sourcing models: 15 mA max.
Loss of signal or target outside of sensor range: 0V
Output Protection
Protected against short circuit conditions
Output Response Time
Analog Output
Q50B: 880 nm (typical)
Q50B: 20 mm dia. (max.)
Average
Interval
4 ms
64 ms
Fast:
Slow:
Resolution
Target Distance: 200 mm
Slow Response: 1 mm max.
Fast Response: 4 mm max.
Linearity
±3 mm
Color Sensitivity (typical)
Q50B: 100 to 400 mm (3.9" to 15.7")
Update
Rate
1 ms
4 ms
-3 dB Frequency
Response
112 Hz
7 Hz
L-GAGE Q50 color sensitivity (This
represents the expected change in output
when the target color is changed from a
90% reflectance Kodak White Card to a
6%, 13% or 18% reflectance surface.)
NOTES: Color sensitivity is independent
of response time
Q50B (infrared models) span is
100-400 mm
Q50BV (visible red models)
span is 100-300 mm
9
8
Color Sensitivity (mm)
7
6
5
6% Black
4
18% Reflectance
Kodak Grey Card and
13% Reflectance Black Card
3
2
1
0
100
200
300
400
Distance (mm)
Temperature Drift
From 0° to 50°C: -0.25 mm/°C
From -10° to 55°C: -0.35 mm/°C
Remote and Speed Input
Impedance
15 kΩ
Remote Teach Input
To Teach: Connect gray wire to +5 to 30V dc
To Disable: Connect gray wire to 0 to +2V dc (or open connection)
Adjustments
Response Speed:
Fast Speed:
Connect black wire to +5 to 30V dc
Slow Speed:
Connect black wire to 0 to +2V dc (or open connection)
Indicators
Range LED
Indicator
(green/red)
Green — Target is within sensing range
Red — Target is outside sensing range
OFF — Sensor Power OFF
Teach/Output
LED Indicator
(yellow/red)
Yellow — Target is within taught window limits
OFF — Target is outside taught window limits
Red — Sensor is in TEACH mode
Minimum Taught Window
Target distance at 300 mm:
Target distance at 125 mm:
Ambient Light Immunity
<10,000 Lux
50 mm window
10 mm window
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
263
L-GAGE® Q50 Sensors
L-GAGE Q50 Analog Output Sensor Specifications (continued)
Construction
Housing: Molded ABS/Polycarbonate
Window Lens: Acrylic
M3 mounting hardware is supplied
Environmental Rating
IEC IP67, NEMA 6
Connections
2 m or 9 m 5-conductor PVC-covered attached cable or 5-pin Euro-style quick disconnect
Operating Conditions
Temperature:
-10° to +55°C (+14° to +131°F)
Max. Rel. Humidity:
90% at +50°C (non-condensing)
Vibration and
Mechanical Shock
All models meet Mil. Std. 202F requirements. Method 201A (Vibration: 10 to 60Hz max. double amplitude
0.06", maximum acceleration 10G). Also meets IEC 947-5-2 requirements: 30G, 11 ms duration, half sine wave.
Application Notes
Allow 15-minute warm-up for maximum linearity.
TEACH
OUTPUT
IN
OUT
19.7 mm
(0.77")
RANGE
L-GAGE Q50 Dimensions
67.3 mm
(2.65")
15 mm
(0.59")
Q50BUQ
Receiver
77.0 mm
(3.03")
1. Press and hold Teach button until the
Teach light turns on (RED)
2. Adjust target to 1st limit position.
Press Teach button. (Teach flashes)
Q50BU
RANGE: 100 - 400mm
To Set NEAR and FAR Limits.
60.0 mm
(2.36")
2x ø3.4 mm
(0.13")
49.8 mm
(1.96")
bn
25 mm
(0.98")
52.0 mm
(2.05")
3. Adjust target to 2nd limit position.
Press Teach button (Teach turns off)
Emitter
15 mm
(0.59")
4.0 mm
(0.16")
4.0 mm
(0.16")
wh
RANGE: 100 - 400mm
+
–
15-30V dc
bu
bn
bn
bu
bu
wh
Load
bk response
5-30V dc
4ms
gy Teach
+5-30V dc
0-2V dc
64ms
bk
gy
+
–
15-30V dc
Load
response
Teach
+5-30V dc
Bare
Bare
L-GAGE™
L-GAGE™
5-30V dc
4ms
0-2V dc
64ms
41.8 mm
(1.65")
L-GAGE Q50 Hookups
Quick-Disconnect Models
Cable Models
bn
+
–
15-30V dc
bu
wh
bk
Response
5-30V dc
4ms
gy
Teach
+5-30V dc
0-2V dc
64ms
264
+
–
15-30V dc
bu
wh
Load
Bare
bn
Load
bk Response
5-30V dc
4ms
gy Teach
+5-30V dc
0-2V dc
64ms
Bare
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
L-GAGE® Q50 Accessories
Quick-Disconnect (QD) Cables
Following is the selection of cables available for Q50 QD models. See the Accessories section for more cable information.
Style
5-Pin Euro
Model
MQDEC2-506
MQDEC2-515
MQDEC2-530
MQDEC2-506RA
MQDEC2-515RA
MQDEC2-530RA
Length
Connector
Used with:
2 m (6.5')
5 m (15')
9 m (30')
2 m (6.5')
5 m (15')
9 m (30')
Straight
Straight
Straight
Right-angle
Right-angle
Right-angle
All Q50 sensors with QD fitting
Mounting Brackets
Model
Description
Dimensions
SMBQ50
53.0 mm
(2.09")
4.0 mm
(0.16")
42.0 mm
(1.65")
4.0 mm
(0.16")
3x ø3.9 mm
(0.16")
67.0 mm
(2.63")
8.0 mm
(0.32")
R 66.7 mm
(2.63")
45°
15.0 mm
(0.60")
• Right-angle bracket
• 14-ga., 304 Stainless Steel
3°
7.0 mm
(0.28")
1.9 mm
(0.07")
6°
38.8°
10.0 mm
(0.39")
4.2 mm
(0.17")
32.5 mm
(1.28")
20.0 mm
(0.79")
10°
1.9 mm
(0.07")
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
5°
R24.1 mm
(0.95")
3x R2.25 mm
(0.09")
265
L-GAGE® Q50 Sensors
NOTES:
266
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
Q60 Adjustable Field Sensors
Q60 Adjustable Field Sensors
Q60 Adjustable Field Sensors . . . . . . . . . . . . . . . 268
Q60 Adjustable Field Sensor Accessories . . . . . . . . 272
!
Q60 sensors are not suitable for use in
personnel safety applications! See WARNING on
inside front cover of catalog.
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
267
Q60 Adjustable Field Sensors
Q60 Adjustable Field Sensors
Q60 Sensing Mode Options
•
Long-range adjustable-field background suppression sensor allows direct
detection of objects within a defined sensing field, while ignoring objects located
beyond the sensing field cutoff
•
Two-turn, logarithmic adjustment of sensing field cutoff point from 0.2 to 2 m;
allows easy setting of cutoff point at long range
•
Rolling pointer indicates relative cutoff point setting
•
Easy pushbutton or remote programming of light/dark operate and output
timing; continuous status indicators verify all settings at a glance
•
Output ON and/or OFF delays adjustable from 8 milliseconds to 16 seconds
•
Available with integral cable or rotating euro-style quick-disconnect fitting
•
Powerful infrared sensing beam
•
Powered by 10 to 30V dc; bipolar (one NPN and one PNP) outputs
•
Tough, ABS/polycarbonate blend housing is rated IEC IP67; NEMA 6
Adjustable-Field
Infrared, 880 nm
Q60 Adjustable Field Mode
Models
Range
Cutoff
Point
Cable
Supply
Voltage
Output
Type
Excess Gain at
200 mm Cutoff
Excess Gain at
2000 mm Cutoff
10000
10000
1000
1000
Q60AF
E
X
C
E
S
S
5-wire
2 m (6.5')
Q60BB6AF2000
G
A
I
N
100
10
G
A
I
N
1
.01 m
.033 ft
50 mm
200 mm
to 125 mm
to
(2 to 5")
2000 mm
to Cutoff
(8 to 80")
point
Q60AF
E
X
C
E
S
S
.10 m
.33 ft
1.0 m
3.3 ft
10 m
33 ft
100
10
1
.01 m
.033 ft
.10 m
.33 ft
DISTANCE
10-30V dc
Bipolar
NPN/PNP
1.0 m
3.3 ft
10 m
33 ft
DISTANCE
Cutoff Point Deviation
Q60 Cutoff Point Deviation
Q60BB6AF2000Q
5-pin
Euro QD
Percent Deviation
0
-1
-2
-3
-4
-5
-6
-7
-8
-9
-10
200
18% Gray Card
6% Black Card
400
600
800
1000
1200
1400
1600
1800 2000
Cutoff Setting (90% White Card)
268
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Q60 Adjustable Field Sensors
Interpretation of Performance Curves for Adjustable Field Models
The percentage of deviation indicates a change in the cutoff point for either 18% gray or 6% black targets, relative to the cutoff point set
for a 90% reflective white test card.
As an example, the cutoff point decreases 10% for a 6% reflectance black target when the cutoff point is adjusted for 2000 mm (79")
using a 90% reflectance white test card. In other words, the cutoff point for the black target is 1800 mm (71") for this setting.
For Q60 Sensors:
i) 9 m (30') cables are available by adding suffix “W/30” to the model number of any cabled sensor (e.g. - QM60BBAF2000W/30)
ii) A model with a QD connector requires an accessory mating cable. See page 272 and the Accessories section for more information.
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269
Q60 Adjustable Field Sensors
Q60 Specifications
Two LEDs: Green and Yellow
Supply Voltage and Current
GREEN glowing steadily
GREEN
flashing Circuitry
Supply
Protection
YELLOW glowing steadily
Output
Configuration
YELLOW
flashing
=
=
=
=
10 to 30V dc (10% maximum ripple) at less than 50 mA exclusive of load
power to sensor is “on”
Opposed emitters: Green power "on"
output
is overloaded
Protected
against reverse polarity and transient voltages
light is sensed; normally open output “on”
Bipolar: one
NPNgain
(current
sinking)
and one
PNP (current sourcing) open-collector transistor
marginal
excess
(1-1.5x)
in light
condition
Output Rating
150 mA maximum each output @ 25C
Off-state leakage current: <5µA @ 30V dc
Output saturation NPN: <200 mV @ 10 mA and <1V @150mA
Output saturation PNP: <1V at 10 mA; <1.5V at 150 mA
Output Protection Circuitry
Protected against false pulse on power-up and continuous overload or short circuit of outputs
Output Response Time
2 milliseconds
NOTE: 150 millisecond delay on power-up; outputs are non-conducting during this time.
Repeatability
500 microseconds
Sensing Hysteresis
2000 mm cutoff - less than 3% of set cutoff distance
1600 mm cutoff - less than 2.25% of set cutoff distance
1200 mm cutoff - less than 1.30% of set cutoff distance
800 mm cutoff - less than 0.5% of set cutoff distance
400 mm cutoff - less than 0.25% of set cutoff distance
Adjustments
2 momentary push buttons: [ON Delay (+) an OFF Delay (-)]
ON Delay select: 8 ms to 16 seconds
OFF Delay select: 8 ms to 16 seconds
LO/DO
Push button lockout for security
Remote program wire:
ON Delay select: 8 ms to 16 seconds
OFF Delay select: 8 ms to 16 seconds
LO/DO
Push button lockout for security
Slotted, geared, 2-turn, cutoff range adjustment screw (mechanical stops on both ends of travel)
Indicators
Light Operate (green)
Dark Operate (green)
Output (bicolor amber/green)
Run Mode (amber):
Delay Timing Selection (green):
Signal (green):
Note: outputs are active
during on/off timing
selection mode.
outputs conducting
part of 5-segment light bar
Steady: sensor receiving signal
Flashing: marginal signal indication (1.0 to 2.25 excess gain)
Lockout (green):
indicates buttons are locked out
On Delay (green):
Steady: indicates in run mode an On delay is active
Flashing: in On delay selection mode
Off Delay (green):
Steady: indicates in run mode an Off delay is active
Flashing: in Off delay selection mode
5 segment light bar (LO, DO, signal, output and lockout) (green): indicators used to show relative delay
time during OFF and ON delay selection modes
Construction
Housing: ABS polycarbonate blend
Lens: acrylic
Cover: Clear ABS
Environmental Rating
IEC IP67; NEMA 6
Connections
2 m (6.5') or 9 m (30') attached cable, or 5-pin Euro-style fitting. QD cables are ordered separately. See
page 272 and Accessories section.
Operating Conditions
Temperature: -20° to +55°C (-7° to +131°F)
Maximum Relative Humidity: 90% at 50°C (non-condensing)
Certifications
CE approval in process.
270
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
Q60 Adjustable Field Sensors
Q60 Hookup Diagrams
Cabled Models
bn
+
10-30V dc
–
bu
wh
bk
5-Pin Euro-Style Pin-out
(Cable Connector Shown)
Quick-Disconnect Models
Load
Load
bn
+
10-30V dc
–
bu
White Wire
wh
Load
bk
Brown Wire
Load
Blue Wire
gy
gy
Remote Teach
Black Wire
Gray Wire
Remote Teach
Q60 Adjustable Field Dimensions
52.0 mm
(2.05")
14.0 mm
(0.55")
15.2 mm
(0.60")
75.0 mm
(2.95")
67.0 mm
(2.64")
4.9 mm
(0.19")
25.0 mm
(0.98")
4.0 mm
(0.16")
4.0 mm
(0.16")
52.0 mm
(2.05")
60.0 mm
(2.36")
Quick-Disconnect (QD) Option
Q60 sensors are sold with either a 2 m (6.5') or a 9 m (30') attached PVC-covered cable or with a 5-pin euro-style QD cable
fitting. Q60 QD sensors are identified by the letter “Q” in their model number suffix. Information on mating cables for Q60 QD
sensors can be found on page 272 and in the Accessories section. Cables are supplied in a standard length of 2 m (6.5').
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271
Q60 Adjustable Field Sensor Accessories
Modifications
Model Suffix
Modification
W/30
9 m (30') cable
Example of Model
Number
Description
All Q60 sensors may be ordered with an integral 9 m (30') cable
in place of the standard 2 m (6.5') cable
Q60BB6AF2000W/30
Quick-Disconnect (QD) Cables
Following is the selection of cables available for Q60 QD models. See the Accessories section for more cable information.
Style
Model
Length
Connector
Used with:
5-Pin Euro
MQDC1-506
MQDC1-515
MQDC1-530
MQDC1-506RA
MQDC1-515RA
MQDC1-530RA
2 m (6.5')
5 m (15')
9 m (30')
2 m (6.5')
5 m (15')
9 m (30')
Straight
Straight
Straight
Right-angle
Right-angle
Right-angle
All Q60 sensors with QD fitting
272
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SM512 Sensors
SM512 Sensors
SM512 Sensors . . . . . . . . . . . . . . . . . . . . . . . . . 274
SM512 Accessories . . . . . . . . . . . . . . . . . . . . . . 281
!
(Except model SM502A))
SM512 sensors are not suitable for use in
personnel safety applications! See WARNING on
inside front cover of catalog.
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273
SM512 Sensors
SM512 SENSORS
•
10 to 30V dc operation (most models - see Specifications)
•
Complementary NPN (current sinking) outputs, each rated
for up to 1/4 amp (most models)
•
2 m (6.5') cable length is standard; 9 m (30') is also
available
•
Rear-panel alignment indicator; side-panel sensitivity adjustment
•
Special precise-focus convergent beam model SM512DBCV
produces sensing spot measuring only 0.25 mm (0.01") in
diameter at the focus
•
Special short-range retroreflective model SM502A uses
beam splitter optics to eliminate the close-range “blind
spot” usually encountered with retro sensors
SM512 Diffuse and Convergent Modes Shown
SM512 Sensing Mode Options
Opposed
Retroreflective
Non-Polarized
Diffuse
Convergent
Glass Fiber Optic
Infrared, 880 nm
SM512 Opposed Mode Emitter (E) and Receiver (R)
Models
Range
Supply
Voltage
Cable
Output
Type
Excess Gain
Beam Pattern
Effective Beam: 3.6 mm
1000
SM51EB
SM51RB
8m
(25')
2 m (6.5')
10-30V dc
Complementary
NPN
E
X
C
E
S
S
G
A
I
N
SM51EB & SM51RB
Opposed Mode
SM51EB and SM51RB
750 mm
100
30 in
Opposed Mode
500 mm
With two L51
lens blocks
(optional)
20 in
250 mm
10 in
no lenses
0
with L51
lens blocks
(optional)
10
250 mm
Without Lenses
500 mm
1m
3.3 ft
10 m
33 ft
DISTANCE
100 m
330 ft
10 in
20 in
750 mm
1
0.1 m
0.33 ft
0
30 in
0
3m
10 ft
6m
20 ft
9m
30 ft
12 m
40 ft
15 m
50 ft
DISTANCE
For SM512 Sensors:
i) 9 m (30') cables are available by adding suffix “W/30” to the model number of any cabled sensor (e.g. - SM51RB W/30)
274
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
SM512 Sensors
Infrared, 880 nm
SM512 High Power Opposed Mode Emitter (E) and Receiver (R)
Models
Range
Cable
Supply
Voltage
Output
Type
Excess Gain
Beam Pattern
Effective Beam: 3.6 mm
1000
SM51EB6
SM51RB6
30 m
(100')
2 m (6.5')
10-30V dc
Light
Operate
NPN
E
X
C
E
S
S
SM51EB6 & SM51RB6
Opposed Mode
SM51EB6 and SM51RB6
750 mm
20 in
500 mm
With two L51
lens blocks
(included)
with L51 lens blocks
(included)
250 mm
without
lens blocks
0
G
A
I
N
10
Without Lenses
1m
3.3 ft
10 m
33 ft
10 in
0
250 mm
10 in
500 mm
20 in
30 in
750 mm
1
0.1 m
0.33 ft
0
100 m
330 ft
6m
20 ft
12 m
40 ft
18 m
60 ft
24 m
80 ft
30 m
100 ft
DISTANCE
DISTANCE
See Sensing Beam Information Below
30 in
Opposed Mode
100
NOTE: Retroreflective range is specified using one model BRT-3
retroreflector (3" diameter). Actual sensing range may be more
or less than specified, depending upon the efficiency and
reflective area of the retroreflector(s) in use. See page 722 for
more information.
SM512LB
SM502A
SM512 Non-Polarized Retroreflective Mode
Models
Range
Cable
Supply
Voltage
Output
Type
Visible Red 650 nm
SM502A
2m
(6')
2 m (6.5')
Excess Gain
Beam Pattern
1000
E
X
C
E
S
S
12-18V dc
Complementary
NPN
SM502A
Retroreflective Mode
SM502A
75 mm
100
With BRT-3 Reflector
2 in
25 mm
1 in
with BRT-3
Reflector
0
G
A
I
N
10
25 mm
50 mm
0.1 m
0.33 ft
1m
3.3 ft
0.6 m
2 ft
SM512LB
2 m (6.5')
1.2 m
4 ft
1.8 m
6 ft
2.4 m
8 ft
3.0 m
10 ft
DISTANCE
DISTANCE
0.1 - 5 m
(3" 15')
1 in
3 in
0
10 m
33 ft
0
2 in
75 mm
1
0.01 m
0.033 ft
Infrared 940 nm
3 in
Retroreflective Mode
50 mm
1000
E
X
C
E
S
S
10-30V dc
Complementary
NPN
SM512LB
Retroreflective Mode
SM512LB
150 mm
100
With BRT-3 Reflector
4 in
50 mm
2 in
with BRT-3
Reflector
0
G
A
I
N
6 in
Retroreflective Mode
100 mm
10
50 mm
100 mm
0.1 m
0.33 ft
1m
3.3 ft
DISTANCE
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
10 m
33 ft
2 in
4 in
150 mm
1
0.01 m
0.033 ft
0
6 in
0
0.9 m
3 ft
1.8 m
6 ft
2.7 m
9 ft
3.6 m
12 ft
4.5 m
15 ft
DISTANCE
275
SM512 Sensors
See Sensing Beam Information Below
SM512 Diffuse Mode
Models
Range
Supply
Voltage
Cable
Output
Type
SM512DB
2 m (6.5')
Beam Pattern
Performance based on 90% reflectance white test card
1000
Infrared 940 nm
200 mm
(8")
Excess Gain
E
X
C
E
S
S
10-30V dc
Complementary
NPN
SM512DB
Diffuse Mode
SM512DB
7.5 mm
100
Diffuse Mode
0.2 in
2.5 mm
0.1 in
0
0
G
A
I
N
10
2.5 mm
0.1 in
5.0 mm
0.2 in
0.3 in
7.5 mm
1
1 mm
0.04 in
10 mm
0.4 in
100 mm
4 in
1000 mm
40 in
0
50 mm 100 mm 150 mm 200 mm 250 mm
2 in
4 in
6 in
8 in
10 in
DISTANCE
Infrared 880 nm
380 mm
(15")
SM512DBX
2 m (6.5')
DISTANCE
1000
10-30V dc
Complementary
NPN
E
X
C
E
S
S
SM512DBX
SM512DBX
Diffuse Mode
37.5 mm
100
Diffuse Mode
25.0 mm
With no lens
With L52 Lens
(optional)
12.5 mm
0
G
A
I
N
10
With L52 Lens
(optional)
1
1 mm
0.04 in
10 mm
0.4 in
100 mm
4 in
Divergent Diffuse (Infrared 880 nm)*
150 mm
(6")
2 m (6.5')
10-30V dc
1.5 in
1.0 in
0.5 in
0
no lens
12.5 mm
0.5 in
25.0 mm
1.0 in
1.5 in
37.5 mm
0
1000 mm
40 in
150 mm 300 mm 450 mm 600 mm 750 mm
6 in
12 in
18 in
24 in
30 in
DISTANCE
DISTANCE
SM512LBDX
0.3 in
5.0 mm
1000
Complementary
NPN
E
X
C
E
S
S
G
A
I
N
SM512LDBX
Divergent Mode
SM512LDBX
22.5 mm
100
Divergent Mode
15.0 mm
7.5 mm
0
7.5 mm
0.3 in
15.0 mm
0.6 in
22.5 mm
1
1 mm
0.04 in
10 mm
0.4 in
100 mm
4 in
DISTANCE
1000 mm
40 in
0.6 in
0.3 in
0
10
0.9 in
0.9 in
0
50 mm 100 mm 150 mm 200 mm 250 mm
2 in
4 in
6 in
8 in
10 in
DISTANCE
*Note: Model SM512LBDX is recommended for sensing clear materials.
For SM512 Sensors:
i) 9 m (30') cables are available by adding suffix “W/30” to the model number of any cabled sensor (e.g. - SM512LBDX W/30)
276
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SM512 Sensors
SM512CV1 and C1
See Sensing Beam Information Below
SM512DBCV
SM512 Convergent Mode
Models
Focus
Cable
Supply
Voltage
Output
Type
Visible Red 650 nm
Spot Size
at Focus:
1.0 mm
(0.04")
2 m (6.5')
1000
10-30V dc
Complementary
NPN
0
0.5 mm
0.02 in
1.0 mm
0.04 in
0.06 in
1.5 mm
10 mm
0.4 in
100 mm
4.0 in
2 m (6.5')
0
1000 mm
40 in
10 mm
0.4 in
20 mm
0.8 in
30 mm
1.2 in
40 mm
1.6 in
50 mm
2.0 in
DISTANCE
10-30V dc
Complementary
NPN
SM512C1
Convergent Mode
SM512C1
3.0 mm
100
Convergent Mode
2.0 mm
1.0 mm
10
100 mm
4 in
0
0.04 in
2.0 mm
0.08 in
0.12 in
0
1000 mm
40 in
12.5 mm 25 mm 37.5 mm 50 mm 62.5 mm
0.5 in
1.0 in
1.5 in
2.0 in
2.5 in
DISTANCE
DISTANCE
1000
E
X
C
E
S
S
10-30V dc
0.08 in
1.0 mm
3.0 mm
10 mm
0.4 in
0.12 in
0.04 in
0
G
A
I
N
1
1 mm
0.04 in
2 m (6.5')
0.04 in
0.02 in
0.5 mm
10
0.06 in
1000
E
X
C
E
S
S
4.32 mm
(0.170")
Spot Size
at Focus:
0.25 mm
(0.01")
Convergent Mode
DISTANCE
Precise Convergent (Visible Red 700 nm)
SM512DBCV
SM512CV1
1.5 mm
1.0 mm
1
1 mm
0.04 in
32 mm
(1.25")
Spot Size
at Focus:
3.18 mm
(0.125")
SM512CV1
Convergent Mode
100
0
G
A
I
N
Infrared 940 nm
SM512C1
Beam Pattern
Performance based on 90% reflectance white test card
E
X
C
E
S
S
32 mm
(1.25")
SM512CV1
Excess Gain
Complementary
NPN
SM512DBCV
Convergent Mode
SM512DBCV
1.14 mm
100
Convergent Mode
0.76 mm
0.38 mm
G
A
I
N
1
0.1 mm
0.004 in
1 mm
0.04 in
10 mm
0.4 in
DISTANCE
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
100 mm
4 in
0.030 in
0.015 in
0
10
0.045 in
0
0.38 mm
0.015 in
0.76 mm
0.030 in
1.14 mm
0.045 in
0
2.5 mm 5.0 mm 7.5 mm 10.0 mm 12.5 mm
0.1 in
0.2 in
0.3 in
0.4 in
0.5 in
DISTANCE
277
SM512 Sensors
See Sensing Beam Information Below
SM512 Glass Fiber Optic
Models
Range
Supply
Voltage
Cable
Output
Type
Excess Gain
Beam Pattern
Diffuse mode performance based on 90% reflectance white test card
Infrared 940 nm
1000
E
X
C
E
S
S
SM512LBFO
Opposed Mode
SM512LBFO
75 mm
100
IT23S Fibers
3 in
Opposed Mode
2 in
50 mm
1 in
25 mm
IT13S Fibers
0
G
A
I
N
SM512LBFO
Range
varies by
sensing
mode
and fiber
optics
used
10
IT13S Fibers
1 in
50 mm
IT23S Fibers
10 mm
0.4 in
100 mm
4 in
0
1000 mm
40 in
50 mm 100 mm 150 mm 200 mm 250 mm
2 in
4 in
6 in
8 in
10 in
DISTANCE
DISTANCE
2 m (6.5')
10-30V dc
1000
E
X
C
E
S
S
G
A
I
N
SM512LBFO
Diffuse Mode
Glass Fibers
100
SM512LBFO
1.8 mm
0.075 in
Diffuse Mode
0.050 in
1.2 mm
0.025 in
0.6 mm
0
BT23S Fiber
10
BT13S Fiber
1
1 mm
.04 in
BT13S Fiber
BT23S Fiber
0.025 in
1.2 mm
0.050 in
0.075 in
1.8 mm
10 mm
.4 in
100 mm
4 in
1000 mm
40 in
Infrared 940 nm
0
5 mm
0.2 in
10 mm
0.4 in
G
A
I
N
20 mm
0.8 in
25 mm
1.0 in
DISTANCE
SM51EB6FO and
SM51RB6FO
Opposed Mode
SM51EB6FO and SM51RB6FO
375 mm
100
IT23S Fibers
Opposed Mode
IT23S Fibers
250 mm
125 mm
0.1 m
0.33 ft
1m
3.3 ft
Complementary
NPN
5 in
250 mm
10 in
375 mm
15 in
10 m
33 ft
0
0.75 m
2.5 ft
DISTANCE
10-30V dc
10 in
0
IT13S Fibers
125 mm
IT13S Fibers
15 in
5 in
0
10
1
0.01 m
0.033 ft
2 m (6.5')
15 mm
0.6 in
1000
E
X
C
E
S
S
SM51EB6FO
SM51RB6FO
0
0.6 mm
DISTANCE
Range
varies by
sensing
mode
and fiber
optics
used
2 in
3 in
75 mm
1
1 mm
0.04 in
Complementary
NPN
0
25 mm
1.5 m
5.0 ft
2.25 m
7.5 ft
3.0 m
10 ft
3.75 m
12.5 ft
DISTANCE
1000
E
X
C
E
S
S
SM51EB6FO/RB6FO
SM51EB6FO and SM51RB6FO
Diffuse Mode
Diffuse Mode
22.5 mm
100
0.9 in
15.0 mm
0.6 in
7.5 mm
0.3 in
0
G
A
I
N
10
10 mm
0.4 in
100 mm
4 in
DISTANCE
Two IT23S Fibers
on 12.5 mm (0.5 in)
Centers
15.0 mm
Two IT23S Fibers
on 12.5 mm (0.5 in)
Centers
1
1 mm
0.04 in
0
7.5 mm
22.5 mm
1000 mm
40 in
0.3 in
0.6 in
0.9 in
0
75 mm 150 mm 225 mm 300 mm 375 mm
3 in
6 in
9 in
12 in
15 in
DISTANCE
For SM512 Sensors:
i) 9 m (30') cables are available by adding suffix “W/30” to the model number of any cabled sensor (e.g. - SM51EB6FO W/30)
278
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SM512 Sensors
SM512 Specifications
Supply Voltage and Current
10 to 30V dc (except model SM502A which operates from 12-18V dc) with 10% maximum ripple at less
than 40 mA (exclusive of load)
Supply Protection Circuitry
Protected against reverse polarity and transient voltages
Output Configuration
Complementary open-collector NPN transistors (one normally open and one normally closed)
Exceptions: SM51RB6 has only one output
Output Rating
Each output transistor is capable of sinking up to 250 mA continuously
Off-state leakage current less than 100 microamps
On-state saturation voltage less than 2 volts at full load and <1 volt at signal levels
Output Protection Circuitry
Protected against continuous overload or short circuit of outputs (except SM502A which has momentary
short circuit protection)
Output Response Time
1 millisecond both “ON” and “OFF” for most models (500 Hz maximum). Models SM512DBX,
SM512LBDX and SM51RB6 have 10-millisecond response
Repeatability
Opposed: 0.1 millisecond; Retro, Diffuse, Convergent, Glass Fiber Optic: 0.3 milliseconds; SM502A and
SM512DBCV: 0.03 millisecond and RB6(FO): 1 millisecond. Response time and repeatability are independent of
signal strength.
Adjustments
Single-turn adjustment, accessible by removing the nylon screw on the side of the sensor
Indicators
Red LED indicator at rear of sensor (above cable exit) lights when the sensor is receiving a “light” signal
Construction
Die-cast metal housing, stainless steel legend plate. Exceptions: sensor models SM512C1 and SM512CV1
have Delrin® plastic housing, totally encapsulated and lens assemblies fully gasketed
Environmental Rating
Meets NEMA standards 1, 2, 3, 3S, 4, 4X, 12, and 13; IEC IP66
Connections
PVC-jacketed 2- or 4-conductor 2 m (6.5') or 9 m (30') cables
Operating Conditions
Temperature:
-40° to +70°C (-40° to +158°F)
Maximum relative humidity: 90% at 50°C (non-condensing)
Application Notes
Outputs will not directly interface TTL logic, due to the reverse-polarity protection diode. Contact the
factory for TTL interfacing instructions.
Certifications
Except model SM502A
Delrin® is a registered trademark of Dupont
SM512 Hookup Diagrams
SM512 Sensors
bk
–
10-30V dc*
+
rd
gn
wh
SM51 Emitters
(Except models with suffix “B6”)
Load
bk
rd
*SM502A:
12-18V dc
–
10-30V dc
+
Load
SM51RB6(FO)
SM51EB6(FO)
bk
–
–
10-30V dc
+
+
rd
gn
wh
bk
rd
Load
wh
Tie white wires
together
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
279
SM512 Sensors
SM512 Dimensions
SM51E/RB and SM512DB, DBX and LBDX Sensors
Opposed & Diffuse Sensing Modes
SM512LBFO and SM51E/RB6FO Sensors
Glass Fiber Optic Mode
6.4 mm (0.25") Typ.
50.8 mm
(2.00")
Typ.
6.4 mm (0.25") Typ.
LED Status Indicator
Fiber Mounting Block
63.5 mm
(2.50")
2 m (6.5') Cable
7/16-20 Thread
41.9 mm
(1.65")
Sensitivity Access
4.5 mm (#10) Clearance
(2 places)
63.5 mm
(2.50")
#10 - 32 Tap (2 Places)
12.7 mm
(0.50")
21.6 mm
(0.85")
12.7 mm (0.50")
SM512LB and SM51E/RB6 Sensors
Retro & High Power Opposed Mode
SM502A Sensor - Retro Mode
9.7 mm
(0.38")
28.4 mm (1.12")
41.9 mm
(1.65")
Locator Pin (Removable)
21.6 mm
(0.85")
16.8 mm (0.66")
SM512 Convergent Mode
SM512CV1 and C1
SM512DBCV
10.2 mm
(0.40")
41.9 mm
(1.65")
53.3 mm
(2.10")
12.7 mm (0.50")
280
21.6 mm
(0.85")
12.7 mm
(0.50 in)
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
SM512 Accessories
Modifications
Example of Model
Number
Model Suffix
Modification
Description
W/30
9 m (30') cable
SM512 sensors may be ordered with an integral 9 m (30') cable in
place of the standard 2 m (6.5') cable
SM512DB W/30
Modified for High
Speed
SM512 sensors with 1 millisecond output response (SM51EB.
SM51RB, SM502A, SM512LB, SM512DB, SM512CV1, SM512C1,
SM512DBCV & SM512LFO) may be modified for 0.3 millisecond
(300 µs) response.
NOTE: Faster response comes at the expense of lower excess gain.
SM512DBMHS
MHS
Extension Cables (without connectors)
The following cable is available for extending the length of existing sensor cable. This is a 30 m (100') length of SM512 cable. This cable
may be spliced to existing cable. Connectors, if used, must be customer-supplied.
Model
EC512-100
Type
Used with:
4-conductor, shielded
All SM512 Series models
Right-Angle Reflectors
The SM512 right-angle reflector is useful for tight sensing locations. NOTE: Range is reduced by about 50% when used
Model
RAR500
Description
Right-angle beam deflector used to reflect the light beam at 90 degrees to
the sensor package. Recommended for opposed mode sensing only.
Mounting Brackets
Model
Description
SMB500
SMB500SS
Dimensions
12.7 mm
(0.50")
• SMB500:
Universal steel mounting
bracket - bright zinc plated
• SMB500SS:
Universal stainless steel
mounting bracket
50.8 mm
(2.00")
6.4 mm
(0.25")
22.4 mm
(0.88")
19.1 mm
(0.75")
50.8 mm
(2.00")
76.2 mm
(3.00")
4.8 mm (0.19") x 40° Slot (6 Places)
38.1 mm
(1.50")
5.6 mm x 25.4 mm
(0.22" x 1.00")
(2 Places)
17.5 mm
(0.69")
63.5 mm
(2.50")
38.1 mm
(1.50")
90°
85.9 mm
(3.38")
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
1.9 mm #14 GA
(0.75")
281
SM512 Accessories
Replacement Lens Assemblies
Model
Description
BZ500
Plastic lens cover for any SM512 Series sensors that does not use a lens block
L51
Replacement lens block for extending the range of any SM512 Series emitter or
receiver
L52
Replacement lens block for SM512LB. Extends range of SM512DB and SM512DBX
by about 50% and reduces beam diameter
L52AB
Aperture block used with any SM512 Series emitter or receiver to create very narrow
effective beams. Each L52AB comes with a 1 mm (0.04") in diameter aperture and a
0.76 x 3.2 mm (0.03 x 0.125") rectangular aperture
FOF-500
Replacement fiberoptic interface block for SM512LBFO, SM51EB6FO or SM51RB6FO.
Creates fiberoptic sensor from SM512DB, SM512DBX or emitter/receiver pairs
Fittings and Conduits
Model
Description
CF7-16
Aluminum compression fitting for the cable entrance at the rear of the SM512 Series
sensors (except SM512C1 or SM512CV1). May be used with either plastic or flexible
steel conduit (PVC-6 or AC-6).
AC-6
AC-30
2 and 9 meter (6 and 30') lengths of flexible steel conduit used with any SM512
Series sensors and the CF7-16 fitting to provide protection to the sensor
Size: I.D. = 7.9 mm (0.31"); O.D. = 11.2 mm (0.44")
PVC-6
PVC-30
2 and 9 meter (6 and 30') lengths of flexible steel conduit used with any SM512
Series sensors and the CF7-16 fitting in food applications where flexible steel conduit
is not allowed
Size: I.D. =6.4 mm (0.25"); O.D. = 9.7 mm (0.38")
282
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SM30 Sensors
SM30 Sensors
SM30 Sensors . . . . . . . . . . . . . . . . . . . . . . . . . . 284
SMI30 Intrinsically Safe DC Sensors . . . . . . . . . . . 290
SM30 Accessories . . . . . . . . . . . . . . . . . . . . . . . 295
!
SM30 sensors are not suitable for use in
personnel safety applications! See WARNING on
inside front cover of catalog.
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283
SM30 Sensors
SM30 BARREL SENSORS
for Especially Demanding Applications
•
•
•
•
•
•
•
†
U.S. Patent #4982107
Very high excess gain; 200 m (700') sensing range
Choice of thermoplastic polyester or stainless steel housing
Models for 10 to 30V dc or 24 to 240V ac operation
DC receivers feature Banner’s unique† Bi-Modal™ output
circuitry which offers NPN (sinking) or PNP (sourcing) output
and light operate or dark operate in the same sensor (see
hookup information)
AC receivers offer simple 2-wire hookup
Choose 2 m (6.5') integral cable or quick-disconnect (QD)
fitting for optional mini-style QD cables; 9 m (30') integral
cable is also available
Modulation frequency “A” is standard; frequencies “B” and
“C” are also available to minimize optical crosstalk potential
between adjacent sensor pairs
SM30 Sensing Mode Options
Opposed
Infrared, 880 nm
SM30 Opposed Mode Emitter (E) and Receiver (R) - Modulation Frequency A
Models
SMA30PEL
SMA30PELQD
SMA30SEL
SMA30SELQD
Housing
Cable
Plastic
2 m (6.5')
3-Pin Mini QD
Stainless
Steel
SM30PRL
SM30PRLQD
Plastic
SM30SRL
SM30SRLQD
Stainless
Steel
2 m (6.5')
3-Pin Mini QD
2 m (6.5')
4-Pin Mini QD
2 m (6.5')
4-Pin Mini QD
Supply
Voltage
Output
Type
10-30V dc
or
12 to 240Vac
–
Excess Gain
Beam Pattern
Range: 200 m (700')
Effective Beam: 19 mm
100000
SM30 Series
Opposed Mode
10000
10-30V dc
Bi-Modal™
NPN/PNP
LO and DO
E
X
C
E
S
S
1000
SM30 Series
Opposed Mode
1500 mm
SM2A30PRL
SM2A30PRLQD
SM2A30SRL
SM2A30SRLQD
Plastic
Stainless
Steel
2 m (6.5')
3-Pin Mini QD
2 m (6.5')
3-Pin Mini QD
SM2A30PRLNC
Plastic
SM2A30PRLNCQD
2 m (6.5')
3-Pin Mini QD
SM2A30SRLNC
Stainless
SM2A30SRLNCQD Steel
2 m (6.5')
3-Pin Mini QD
284
SPST Solidstate
LO
G
A
I
N
100
60 in
1000 mm
40 in
500 mm
20 in
0
10
0
500 mm
20 in
1000 mm
40 in
1500 mm
12 to 240V ac
1
SPST Solidstate
DO
1m
3.3 ft
10 m
33 ft
100 m
330 ft
DISTANCE
1000 m
3300 ft
60 in
0
45 m
150 ft
90 m
300 ft
135 m
450 ft
180 m
600 ft
225 m
750 ft
DISTANCE
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
SM30 Sensors
SM30 Opposed Mode Emitter (E) and Receiver (R) - Modulation Frequency B
Models
Housing
Cable
SMA30PELB
SMA30PELQDB
Plastic
2 m (6.5')
3-Pin Mini QD
SMA30SELB
SMA30SELQDB
Stainless
Steel
2 m (6.5')
3-Pin Mini QD
SM30PRLB
SM30PRLQDB
Plastic
2 m (6.5')
4-Pin Mini QD
SM30SRLB
SM30SRLQDB
Stainless
Steel
2 m (6.5')
4-Pin Mini QD
Supply
Voltage
10-30V dc
or
12 to 240Vac
Output
Type
Excess Gain
Beam Pattern
Range: 200 m (700')
Effective Beam: 19 mm
–
100000
SM30 Series
Opposed Mode
10000
10-30V dc
Bi-Modal™
NPN/PNP
LO and DO
E
X
C
E
S
S
1000
SM30 Series
Opposed Mode
1500 mm
SM2A30PRLB
SM2A30PRLQDB
Plastic
SM2A30SRLB
SM2A30SRLQDB
Stainless
Steel
2 m (6.5')
3-Pin Mini QD
2 m (6.5')
3-Pin Mini QD
SM2A30PRLNCB
Plastic
SM2A30PRLNCQDB
2 m (6.5')
3-Pin Mini QD
SM2A30SRLNCB Stainless
SM2A30SRLNCQDB Steel
2 m (6.5')
3-Pin Mini QD
SPST Solidstate
LO
G
A
I
N
100
60 in
1000 mm
40 in
500 mm
20 in
0
10
0
500 mm
20 in
1000 mm
40 in
1500 mm
12 to 240V ac
1
1m
3.3 ft
SPST Solidstate
DO
10 m
33 ft
100 m
330 ft
60 in
0
1000 m
3300 ft
45 m
150 ft
90 m
300 ft
135 m
450 ft
180 m
600 ft
225 m
750 ft
DISTANCE
DISTANCE
SM30 Opposed Mode Emitter (E) and Receiver (R) - Modulation Frequency C
Models
SMA30PELC
SMA30PELQDC
SMA30SELC
SMA30SELQDC
Housing
Cable
Plastic
2 m (6.5')
3-Pin Mini QD
Plastic
2 m (6.5')
3-Pin Mini QD
SM30PRLC
SM30PRLQDC
Stainless
Steel
2 m (6.5')
4-Pin Mini QD
SM30SRLC
SM30SRLQDC
Stainless
Steel
2 m (6.5')
4-Pin Mini QD
Supply
Voltage
Output
Type
10-30V dc
or
12 to 240Vac
–
Excess Gain
Beam Pattern
Range: 200 m (700')
Effective Beam: 19 mm
100000
SM30 Series
Opposed Mode
10000
10-30V dc
Bi-Modal™
NPN/PNP
LO and DO
E
X
C
E
S
S
1000
SM30 Series
Opposed Mode
1500 mm
SM2A30PRLC
SM2A30PRLQDC
SM2A30SRLC
SM2A30SRLQDC
Plastic
Plastic
2 m (6.5')
3-Pin Mini QD
2 m (6.5')
3-Pin Mini QD
SM2A30PRLNCC
Stainless
SM2A30PRLNCQDC Steel
2 m (6.5')
3-Pin Mini QD
SM2A30SRLNCC
Stainless
SM2A30SRLNCQDC Steel
2 m (6.5')
3-Pin Mini QD
SPST Solidstate
LO
12 to 240V ac
G
A
I
N
100
40 in
500 mm
20 in
0
10
1
SPST Solidstate
DO
60 in
1000 mm
1m
3.3 ft
10 m
33 ft
100 m
330 ft
DISTANCE
1000 m
3300 ft
0
500 mm
20 in
1000 mm
40 in
1500 mm
60 in
0
45 m
150 ft
90 m
300 ft
135 m
450 ft
180 m
600 ft
225 m
750 ft
DISTANCE
For SM30 Sensors:
i) 9 m (30') cables are available by adding suffix “W/30” to the model number of any cabled sensor (e.g. - SM2A30SRLC W/30)
ii) A model with a QD connector requires an accessory mating cable. See pages 295 and the Accessories section for more information.
iii) The SM30 sensor comes in a thermoplastic polyester housing identified by the letter “P” in the model number (e.g. - SMA30PELC) or
in a stainless steel housing identified by the letter “S” in the model number (e.g. - SMA30SELC).
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285
SM30 Sensors
SM30 Specifications
Supply Voltage and Current
Emitters: 12 to 240V ac (50/60 Hz) or 10-30V dc at 20 mA, 10 % maximum ripple
DC Receivers: 10 to 30V dc at 10 mA maximum (exclusive of load); 10% maximum ripple
AC Receivers: 24 to 240V ac (50/60 Hz)
Supply Protection Circuitry
Protected against reverse polarity and transient voltages
Output Configuration
DC Receivers: Bi-Modal™ output (PNP sourcing or NPN sinking). Selection of sourcing or sinking
configuration depends upon receiver’s power supply hookup polarity.
AC Receivers: Solid-state switch
Output Rating
DC Receivers: 250 mA continuous
Output saturation voltage (PNP & NPN configuration) less than 1 volt at 10 mA and less than 2 volts at 250 mA
Off-state leakage current less than 10 microamps
AC Receivers: Maximum steady-state load capability is 500 mA
Inrush capability 10 amps for 1 second (non-repeating)
Off-state leakage current less than 1.7 mA rms
On-state voltage drop less than 3.5 volts rms across a 500 mA load; less than 5 volts rms across a 15 mA load
Output Protection Circuitry
Outputs of dc receivers are short circuit protected
Output Response Time
10 milliseconds on/off
Repeatability
“A” frequency units: 1 ms
“B” frequency units: 1.5 ms
“C” frequency units: 2.3 ms
Indicators
Internal red LED lights whenever the dc receiver sees its modulated light source, or whenever the ac
receiver’s output is conducting. Emitters have red “power on” indicator LED. All indicators are visible
through the lens or from side of the sensor.
Construction
Plastic units: 30 mm diameter tubular threaded thermoplastic polyester housing, fully epoxy-encapsulated,
positive sealing at both ends, quad-ring sealed acrylic lens. Two thermoplastic polyester jam nuts provided.
Stainless Steel units: 30 mm diameter tubular threaded stainless steel housing, fully epoxy-encapsulated,
positive sealing at both ends, quad-ring sealed acrylic lens. Two stainless steel jam nuts provided.
Environmental Rating
Exceeds NEMA 6P and IEC IP67 standards
Connections
PVC-jacketed 2 m (6.5') or 9 m (30') cables or mini-style quick-disconnect (QD) fitting are available. QD cables
are ordered separately. See page 295 and Accessories section.
Operating Temperature
Temperature:
-40° to +70°C (-40° to +158°F)
Maximum relative humidity: 90% at 50°C (non-condensing)
Certifications
286
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SM30 Sensors
SM30 Series Hookup Diagrams
EMITTERS
NOTE: SM30 emitters are not polarity-sensitive when powered by dc voltage.
Cabled Emitters with Plastic Housings
QD Emitters with Plastic Housings
3-Pin Mini-Style
(Requires SM30CC Cable)
rd/bk
bn
bu
rd/wh
10-30V dc or
12-240V ac
gn
Cabled Emitters with Stainless Steel Housings
QD Emitters with Stainless Steel Housings
3-Pin Mini-Style
(Requires SM30CC Cable)
bn
bu
10-30V dc or
12-240V ac
rd/bk
10-30V dc or
12-240V ac
gn
rd/wh
10-30V dc or
12-240V ac
gn
NOTE: The green wire must be connected to earth ground whenever a model with a stainless steel housing is powered by ac voltage.
Quick-Disconnect (QD) Option
SM30 sensors are sold with either a 2 m (6.5') or a 9 m (30') attached PVC-covered cable, or with a mini-style QD cable fitting.
SM30 QD sensors are identified by the letters “QD” in their model number suffix. Mating cables for QD SM30 ac receivers and all
emitters are model SM30CC-306 and SM30CC-312. Cables for QD SM30 dc receivers are MBCC-406, MBCC-412 and MBCC-430.
For more information on QD cables, see page 295 and the Accessories section.
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287
SM30 Sensors
SM30 Series Hookup Diagrams
DC RECEIVERS
Cabled Current Sinking, Dark Operate
wh
wh
bu
–
10-30V dc
+
bn
bk
bu
–
10-30V dc
+
bn
Load
QD Current Sinking, Light Operate
(4-Pin Mini-Style)
bu
–
10-30V dc
+
bn
Load
QD Current Sourcing, Dark Operate
(4-Pin Mini-Style)
wh
wh
bu
+
10-30V dc
–
bn
bu
+
10-30V dc
–
bn
bk
Load
Cabled Current Sourcing, Light Operate
Load
QD Current Sourcing, Light Operate
(4-Pin Mini-Style)
wh
wh
bu
+
10-30V dc
–
bn
288
bn
bk
Load
Cabled Current Sourcing, Dark Operate
bk
–
10-30V dc
+
wh
wh
bk
bu
bk
Load
Cabled Current Sinking, Light Operate
bk
QD Current Sinking, Dark Operate
(4-Pin Mini-Style)
Load
bu
+
10-30V dc
–
bn
bk
Load
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
SM30 Sensors
SM30 Series Hookup Diagrams
AC RECEIVERS
Cabled AC Receivers with Plastic Housings
QD AC Receivers with Plastic Housings
(3-Pin Mini-Style)
(Requires SM30CC Cable)
rd/bk
bn
bu
rd/wh
12-240V ac
Load
gn
Cabled AC Receivers with Stainless Steel Housings
QD AC Receivers with Stainless Steel Housings
(3-Pin Mini-Style)
(Requires SM30CC Cable)
rd/bk
bn
bu
12-240V ac
Load
12-240V ac
rd/wh
Load
gn
12-240V ac
Load
gn
NOTE: The green wire must be connected to earth ground whenever a model with a stainless steel housing is powered by ac voltage.
3-Pin Mini-Style Pin-out
(Cable Connector Shown)
White Wire
Green Wire
Red/White Wire
4-Pin Mini-Style Pin-out
(Cable Connector Shown)
Red/Black Wire
Brown Wire
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Black Wire
Blue Wire
289
SMI30 Instrinsically Safe DC Sensors
SMI30 Intrinsically Safe DC Sensors
•
Extremely rugged and powerful opposed mode instrinsically safe
barrel sensors designed for the most demanding hazardous area
sensing applications
Certified as intrinsically safe for use in all hazardous atmospheres
as defined by Article 500 of the National Electrical Code, when
used with approved “positive input” intrinsic safety barriers
Also certified by Factory Mutual and CSA as non-incendive
devices when used in Division 2 locations (except Groups E
and F) without intrinsic safety barriers
Select models with either 10 millisecond or 1 millisecond
response
10 millisecond sensor pairs have 140 m (460') range; 1
millisecond pairs have 60 m (200') range
Use each sensor pair with model CI3RC2 current trip point
amplifier and dual-channel intrinsic safety barrier for a complete
intrinsically safe sensing system; see page 292 for kit information
Sensor connection is via 3-pin mini-style quick-disconnect cable
(ordered separately, see page 295)
Modulation frequency “A” is standard; frequencies “B” and “C”
are also available to minimize optical crosstalk potential between
adjacent sensor pairs
•
•
•
SMI30 Series sensors, shown with Intrinsic Safety Kit
•
•
SMI30 Sensing Mode Options
•
•
Opposed
Infrared, 880 nm
SMI30 Opposed Mode Emitter (E) and Receiver (R) - Modulation Frequency A
Models
Range
Supply
Voltage
Cable
Output
Type
Excess Gain
Beam Pattern
10 ms response
Effective Beam: 19 mm
SMI306EQ
None
SMI30 Series
Opposed Mode
10 ms Response
1500 mm
SMI30AN6RQ
140 m
(460')
3-Pin Mini QD
10-30V dc
Light
Operate
NPN
60 in
1000 mm
40 in
500 mm
20 in
100000
0
SMI30 Series
0
Opposed Mode
500 mm
20 in
1000 mm
40 in
10000
60 in
1500 mm
Dark
Operate
NPN
SMI30RN6RQ
1 ms response
SMI306EYQ
None
E
X
C
E
S
S
G
A
I
N
0
1000
100
SMI30AN6RYQ
SMI30RN6RYQ
290
3-Pin Mini QD
10-30V dc
Dark
Operate
NPN
90 m
300 ft
120 m
400 ft
150 m
500 ft
10 ms Response models
1 ms Response models
SMI30 Series
1500 mm
Light
Operate
NPN
60 m
200 ft
DISTANCE
10
60 m
(200')
30 m
100 ft
60.0 in
Opposed Mode
1000 mm
1
0.1 m
0.33 ft
40.0 in
500 mm
1m
3.3 ft
10 m
33 ft
DISTANCE
100 m
330 ft
1000 m
3300 ft
20.0 in
1 ms Response
0
0
500 mm
20.0 in
1000 mm
40.0 in
1500 mm
60.0 in
0
15 m
50 ft
30 m
100 ft
45 m
150 ft
60 m
200 ft
75 m
250ft
DISTANCE
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
SMI30 Instrinsically Safe DC Sensors
SMI30 Opposed Mode Emitter (E) and Receiver (R) - Modulation Frequency B
Models
Range
Cable
Supply
Voltage
Output
Type
10 ms response
Excess Gain
Beam Pattern
Effective Beam: 19 mm
100000
SMI30 Series
SMI306EBQ
Opposed Mode
None
10000
SMI30AN6RBQ
140 m
(460')
3-Pin Mini QD
10-30V dc
Light
Operate
NPN
E
X
C
E
S
S
SMI30 Series
G
A
I
N
Dark
Operate
NPN
40 in
500 mm
20 in
0
10 ms Response models
500 mm
20 in
1000 mm
40 in
1500 mm
60 in
0
1
0.1 m
0.33 ft
60 in
1000 mm
0
100
10
SMI30RN6RBQ
Opposed Mode
10 ms Response
1500 mm
1000
30 m
100 ft
60 m
200 ft
90 m
300 ft
120 m
400 ft
150 m
500 ft
DISTANCE
1m
3.3 ft
10 m
33 ft
100 m
330 ft
1000 m
3300 ft
DISTANCE
SMI30 Opposed Mode Emitter (E) and Receiver (R) - Modulation Frequency C
Models
Range
Cable
Supply
Voltage
Output
Type
Excess Gain
Beam Pattern
10 ms response
Effective Beam: 19 mm
SMI306ECQ
None
SMI30 Series
Opposed Mode
10 ms Response
1500 mm
SMI30AN6RCQ
140 m
(460')
3-Pin Mini QD
10-30V dc
Light
Operate
NPN
60 in
1000 mm
40 in
500 mm
20 in
100000
SMI30 Series
0
Opposed Mode
500 mm
0
20 in
1000 mm
40 in
10000
1500 mm
Dark
Operate
NPN
SMI30RN6RCQ
1 ms response
SMI306EYCQ
None
E
X
C
E
S
S
G
A
I
N
60 in
0
1000
100
SMI30AN6RYCQ
3-Pin Mini QD
10-30V dc
90 m
300 ft
120 m
400 ft
1 ms Response models
SMI30 Series
60.0 in
Opposed Mode
1000 mm
1
0.1 m
0.33 ft
40.0 in
500 mm
1m
3.3 ft
10 m
33 ft
100 m
330 ft
DISTANCE
1000 m
3300 ft
20.0 in
1 ms Response
0
0
500 mm
20.0 in
1000 mm
40.0 in
1500 mm
SMI30RN6RYCQ
150 m
500 ft
10 ms Response models
1500 mm
60 m
(200')
60 m
200 ft
DISTANCE
10
Light
Operate
NPN
30 m
100 ft
Dark
Operate
NPN
60.0 in
0
15 m
50 ft
30 m
100 ft
45 m
150 ft
60 m
200 ft
75 m
250ft
DISTANCE
For SMI30 Sensors:
i) A model with a QD connector requires an accessory SMICC-3xx mating cable. See pages 295 and the Accessories section for more
information.
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291
SMI30 Instrinsically Safe DC Sensors
SMI30 Specifications
Supply Voltage and Current
Emitters: 10 to 30V dc at 25 mA
Receivers: 10 to 30V dc at 15 mA max. Division 1 use, with barriers, requires minimum system supply
voltage of 10V. See hookup information, on page 293.
Supply Protection Circuitry
Protected against reverse polarity and transient voltages
Output Configuration
Receivers: Current sinking NPN open-collector transistor
Output Rating
Three-wire hookup sinks 15mA maximum continuous, 10-30V dc. Two-wire hookup sinks ≤10 mA
Output Protection Circuitry
Outputs are short circuit protected
Output Response Time
10 milliseconds or 1 millisecond on/off, depending on models; independent of signal strength
Repeatability
“A” frequency units: 10 millisecond receiver is 1 ms and 1 millisecond receiver is 360 µs
“B” frequency units: 1.6 ms
“C” frequency units: 10 millisecond receiver is 2.3 ms and 1 millisecond receiver is 210 µs
Repeatability is independent of signal strength
Indicators
Internal red LED lights whenever the receiver sees the emitter’s modulated light source. Emitters have red
“power on” indicator LED. All indicators are visible through the lens or from side of the sensor.
Construction
30 mm diameter tubular threaded thermoplastic polyester housing, fully epoxy-encapsulated, positive
sealing at both ends, quad-ring sealed acrylic lens. Two thermoplastic polyester jam nuts provided.
Environmental Rating
Exceeds NEMA 6P and IEC IP67 standards
Connections
3-wire mini-style quick-disconnect (QD) fitting. Use cable models SMICC-3xx (page 295).
Cable electric properties: 40 pf/ft; 20 µH/ft. Order cable separately from sensor.
Operating Conditions
Temperature:
Maximum relative humidity:
Certifications
-40° to +70°C (-40° to +158°F)
90% at 50°C (non-condensing)
Exia
Intrinsic Safety Kits for Use with SMI30 Intrinsically Safe Sensors
Model
Description
CI2BK-1
Intrinsic safety kit includes a CI3RC2 current amplifier, one RS-11 socket, one
DIN-rail mount and one single-channel instrinsically safe barrier
CI2BK-2
Intrinsic safety kit includes a CI3RC2 current amplifier, one RS-11 socket, one
DIN-rail mount and one dual-channel instrinsically safe barrier
CI3RC2
Current trip point amplifier
CIB-1
CI2B-1
Single channel intrinsic safety barrier
Dual channel intrinsic safety barrier
292
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SMI30 Instrinsically Safe DC Sensors
SMI30 DC Hookup Diagrams
SMI30 Hookup Using Two Single-Channel Barriers
Non-Hazardous Area
Hazardous Area
1
In +
+ Out
I.S.
–
–
9 10 11 1 2 3
210 to 250V ac
4 5 6 7 8
AC
Supply
105 to 130V ac
CI3RC2
2
3
Blue
I.S. Barrier
Input:
≤10mA (OFF State)
≥20mA (ON State)
Relay Output
5 Amp Contacts
SMI Series
Emitter
Brown
Black
1
Aux.
Input
Common
In +
+ Out
I.S.
–
–
SMI Series
Receiver
Brown
2
Opto-Coupler
Output: 20mA max.
3
Blue
Bottom View of Cable
Connector on Sensor
(colors shown are for mating
cable model SMICC-3xx)
I.S. Barrier
Busbar
G
Earth Ground
(less than 1Ω)
SMI30 Hookup Using One Dual-Channel Barrier
Non-Hazardous Area
Hazardous Area
1
Dual Barrier
In +
AC
Supply
105 to 130V ac
210 to 250V ac
4 5 6 7 8
Relay Output
5 Amp Contacts
CI3RC2
9 10 11 1 2 3
Input:
≤10mA (OFF State)
≥20mA (ON State)
+ Out
I.S.–
–
Aux.
Input
Common
In +
+ Out
SMI Series
Emitter
Brown
2
3
Blue
Black
1
Opto-Coupler
Output: 20mA max.
SMI Series
Receiver
Brown
Busbar
G
Blue
2
3
Bottom View of Cable
Connector on Sensor
(colors shown are for mating
cable model SMICC-3xx)
Earth Ground
(less than 1Ω)
3-Pin Mini-Style Pin-out
(Cable Connector Shown)
Black Wire
Blue Wire
Brown Wire
Quick-Disconnect (QD) Option
SMI30 sensors are sold with a mini-style QD cable fitting. Cables for SMI30 sensors are models SMICC-306 (2 m), SMICC-312
(4 m) and SMICC-330 (9m). For more information on QD cables, see page 295 and the Accessories section.
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293
SMI30 Instrinsically Safe DC Sensors
SM30 Dimensions
SM30 Sensor with Cable
2 m (6.5') Cable
Status
Indicator
102 mm
(4.0")
Internal Thread
1/2-14 NPSM x 16 mm
(0.65") Deep
Jam Nuts
(Provided)
30 x 1.5 mm Thread
(1.19" Max. O.D.)
79 mm (3.1") in Length
SM30 or SMI30 Sensor with Quick-Disconnect
116 mm
(4.6")
Mini-Style
QD Connector
294
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SM30 Accessories
Modifications
Model Suffix
Modification
W/30
9 m (30') cable
Example of Model
Number
Description
SM30 Series sensors may be ordered with an integral 9 m (30')
cable in place of the standard 2 m (6.5') cable
SM30PRL W/30
Quick-Disconnect (QD) Cables
Following is the selection of cables available for SM30 QD models. See the Accessories section at back of catalog for more cable information.
Style
Model
Length
SM30CC-306
SM30CC-312
2 m (6.5')
4 m (12')
SMICC-306
SMICC-312
SMICC-330
2 m (6.5')
4 m (12')
9 m (30')
MBCC-406
MBCC-412
MBCC-430
2 m (6.5')
4 m (12')
9 ms (30')
Connector
SM30 Series ac receivers and all emitters
3-Pin Mini
4-Pin Mini
Used with:
Straight
SMI30 Intrinsically Safe dc sensors
Straight
SM30 Series dc receivers
Aperture Kit
SM30 sensors may be fitted with apertures which narrow or shape the effective beam of the sensor to more closely match the size or profile of
the object to be sensed. A common example is the use of “line” or “slit” type aperture when wire or thread is be sensed.
Model
APG30S
Description
Kit includes: a thread-on stainless steel
housing, a flat glass lens, two quad-ring seals,
and 3 round and 3 slotted aperture disks
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295
SM30 Accessories
Mounting Brackets
Model
Description
Dimensions
SMB30A
* Use 5 mm (#10) screws to mount bracket.
Drill screw holes 40.0 mm (1.58") apart.
• 12-gauge, stainless steel, right
angle mounting bracket with a
curved mounting slot for
versatility and orientation
• Clearance for M6 (1/4")
hardware
38.5 mm
(1.52")
45 mm
(1.8")
61 mm
(2.40")
30°
69 mm
(2.70")
R 40 mm
(1.58")
6.3 mm
(0.25")*
ø 6.3 mm
(0.25")*
7.6 mm
(0.30")
SMB30C
56.0 mm
(2.20")
• 30 mm split clamp bracket
• Black reinforced thermoplastic
polyester
• Includes stainless steel
mounting hardware
ø 30.5 mm
(1.20")
13 mm
(0.5")
63.0 mm
(2.48")
31.5 mm
(1.24")
13.5 mm (0.53")
Nut Plate
2.5 mm
(0.10")
45.0 mm
(1.77")
M5 x 0.8
x 80 mm
Screw (2)
25.4 mm
(1.00")
6.4 mm
(0.25")
SMB30MM
ø 30.15 mm
(1.187" dia.)
57.0 mm
(2.25")
• 30 mm, 12-gauge, stainless
steel bracket with curved
mounting slots for versatility
and orientation
• Clearance for M6 (1/4")
hardware
25.4 mm
(1.00")
34.9 mm
(1.38")
7.1 mm
.28 x 90° (2 Slots)
25.4 mm
(1.00")
ø 5.1 mm
(0.20" dia.)
ø 6.4 mm
(0.25" dia.)
57.2 mm
(2.25")
25.4 mm
(1.00")
R 25.4 mm
(1.00")
35.1 mm
57.2 mm
(1.38")
(2.25")
69.9 mm
(2.75")
SMB30SC
• 30 mm swivel bracket
• Black reinforced thermoplastic
polyester
• Includes stainless steel
mounting and swivel locking
hardware
50.8 mm
(2.00")
M30 x 1.5
internal
thread
58.7 mm
(2.31")
30.0 mm
(1.18")
66.5 mm
(2.62")
296
12.7 mm
(0.50")
29.0 mm
(1.14")
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
R55 Sensors
R55 Sensors
R55 Expert ™ Series . . . . . . . . . . . . . . . . . . . . . . 298
R55 Series . . . . . . . . . . . . . . . . . . . . . . . . . . . . 302
R55 Fiber Optic Series . . . . . . . . . . . . . . . . . . . . 306
R55 Accessories . . . . . . . . . . . . . . . . . . . . . . . . 309
R
!
R55 sensors are not suitable for use in personnel
safety applications! See WARNING on inside
front cover of catalog.
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297
R55 Expert™ Series Sensors
R55 Expert ™ Color Mark Sensors
Color Registration Mark Sensor with Solid-State Light Source
•
Outstanding color contrast sensitivity; detects 16 levels of gray scale;
reliably detects the toughest color mark contrasts, including 20%
yellow against white
• Choose from three LED colors: blue, green and white.
•
Fast, 50-microsecond response
•
Easy push-button programming includes Static TEACH, Static SinglePoint TEACH, Dynamic TEACH and Remote TEACH; plus manual
sensitivity adjustment
•
Non-volatile memory
•
Ten-element light bar clearly displays received signal strength
•
Fixed-convergent sensing at 10 ±3 mm (0.39" ±0.12"); rectangular
sensing image measures 1.2 mm x 3.8 mm (0.05" x 0.15") at 10 mm
from the lens
•
Rugged zinc alloy die-cast housing with high-quality acrylic lens
suitable for food processing applications; rated IP67, NEMA 6
•
Analog output value provides an indication of signal strength.
•
Choice of integral cable or QD connector models.
R55 Expert Sensing Mode Options
Convergent
–
IC
ST
AT
D
O
SE
TU
P
LO
itch
O
D FF
el
ay
Sw
Po
t
+
D
YN
AM
IC
in
See Sensing Beam Information Below
R55 Expert Convergent Mode Sensor Models
Models
Focus
Cable
Supply
Voltage
Output
Type
10-30V dc
Bipolar
NPN/PNP
and
Analog
0-10 mA
Sensing Image Orientation
Visible Green 525 nm
R55ECG1
6-wire 2 m (6.5')
R55ECG1Q
6-pin Euro-style QD
10 mm
(0.39")
R55ECG2
R55ECG2Q
6-wire 2 m (6.5')
Parallel to sensor length
6-pin Euro-style QD
Perpendicular to sensor length
298
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
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PU
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TS
TA
CI
–
R55 Expert™ Series Sensors
See Sensing Beam Information Below
R55 Expert Convergent Mode Sensor Models
Models
Focus
Cable
Supply
Voltage
Output
Type
10-30V dc
Bipolar
NPN/PNP
and
Analog
0-10 mA
Sensing Image Orientation
Visible Blue 475 nm
R55ECB1
6-wire 2 m (6.5')
R55ECB1Q
6-pin Euro-style QD
10 mm
(0.39")
R55ECB2
6-wire 2 m (6.5')
R55ECB2Q
Parallel to sensor length
6-pin Euro-style QD
Perpendicular to sensor length
Visible White 450-650 nm
R55ECW1
6-wire 2 m (6.5')
R55ECW1Q
6-pin Euro-style QD
10 mm
(0.39")
R55ECW2
R55ECW2Q
10-30V dc
6-wire 2 m (6.5')
6-pin Euro-style QD
Bipolar
NPN/PNP
and
Analog
0-10 mA
Parallel to sensor length
Perpendicular to sensor length
For R55 Expert Sensors:
i) 9 m (30') cables are available by adding suffix “W/30” to the model number of any cabled sensor (e.g. - R55ECG1 W/30)
ii) A model with a QD connector requires an accessory mating cable. See page 309 and the Accessories section for more information.
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
299
R55 Expert™ Series Sensors
R55 Expert Specifications
Supply Input
10 to 30V dc (10% maximum ripple) at less than 80 mA, exclusive of load
Supply Protection Circuitry
Protected against reverse polarity and transient voltages
Output Configuration
Digital outputs are bipolar: one current sourcing (PNP) and one current sinking (NPN) open-collector transistor
Analog output is a current source which is proportional to the received light level, updated in real time (every 50
microseconds)
Output Rating
Digital outputs are 150 mA maximum (each)
Off-state leakage current: < 10 microamps at 30V dc
Saturation voltage (NPN output): < 1.5V at 150 mA dc
Saturation voltage (PNP output): < 2.0V at 150 mA dc
Current Sourcing Analog output: 0 to 10 mA
Maximum load voltage drop: ≤ 2 volts
Output Protection
Protected against false pulse on power-up and continuous overload or short-circuit of outputs.
Output Response
50 microseconds NOTE: 1 second delay on power-up; outputs do not conduct during this time.
Adjustments
Using push buttons (“+” Dynamic and “-” Static):
Manually adjust discrete output Switch Point using “+” or “-” buttons
Dynamic TEACH (teach on-the-fly) sensitivity adjustment
Static TEACH sensitivity adjustment
Static Single-Point TEACH
Light operate/Dark operate
OFF Delay select: 0 milliseconds, 20 milliseconds or 40 milliseconds
Using Remote TEACH input (gray wire):
Dynamic TEACH (teach on-the-fly) sensitivity adjustment
Static TEACH sensitivity adjustment
Static Single-Point TEACH
Light operate/Dark operate
OFF Delay select: 0 milliseconds, 20 milliseconds or 40 milliseconds
Push button lockout for security
Indicator LEDs
10-segment (green) light bar indicates signal strength
Light Operate (green)
Dark Operate (green)
Outputs Conducting (yellow)
OFF Delay (green): SETUP Mode: OFF — no delay
Flashing — 20 ms delay
ON — 40 ms delay
RUN Mode: OFF — no delay
ON — 20 or 40 ms Delay
Construction
Zinc alloy die-cast housing with steel cover, both with black acrylic polyurethane finish
Lens, lens port cap, Sensitivity control, and Mode switch cap are o-ring sealed
Lens is acrylic
Lens port cap and lens holder are ABS
Environmental Rating
IEC IP67; NEMA 6
Connections
PVC-jacketed 6-conductor 2 m (6.5') or 9 m (30') attached cable with internal strain relief, or 6-pin Eurostyle quick-disconnect. Mating QD cables are purchased separately. See Accessories section, page 309.
Operating Conditions
Temperature: -10° to +55° C (+14° to 131° F)
Maximum Relative Humidity: 90% at 50° C (non-condensing)
Vibration and
Mechanical Shock
All models meet IEC 68-2-6 and IEC 68-2-27 testing criteria.
Application Notes
• Do not mount the sensor directly perpendicular to shiny surfaces; position it at approximately a 15°
angle in relation to the sensing target.
• Minimize web or product “flutter” whenever possible to maximize sensing reliability.
• The analog output is proportional to the received light signal. The analog output is unaffected by + or –
manual sensitivity adjustments.
300
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
R55 Expert™ Series Sensors
R55 Expert Hookups
Cabled Models
Quick-Disconnect Models
bn
bu
wh
bk
pk
bn
+
10-30V dc
–
+
10-30V dc
–
bu
wh
Load
Load
bk
Load
pk
0-10mA
gy
Load
0-10mA
gy
Remote Teach
Remote Teach
R55 Expert Dimensions
+
OFF
Delay
LO
DO
DYNAMIC
–
STATIC
SETUP
Switch Point
10-element Display
Output Indicator
18.0 mm
(0.71")
28.0 mm
(1.10")
39.0 mm
(1.54")
Euro-style QD Models
M5 x 0.8 Thread
x 6.3 mm Deep
(8 Holes)
55.5 mm
(2.19")
25 mm
(1.0")
15 mm
(0.59")
3 mm (0.12")
80.0 mm
(3.15")
28.0 mm
43.0 mm
(1.10")
(1.69")
15.0 mm (0.59")
5.0 mm
(0.20")
30.4 mm 21.0 mm
(1.20") (0.83")
3.0 mm (0.12")
30.0 mm
(1.18")
15.0 mm
(0.59")
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
301
R55 Series Sensors
R55 Color Mark Sensors
•
•
•
•
•
•
•
Reliably detects the toughest color mark contrasts, including 20% yellow
against white
Totally solid-state, no bulbs to replace and no need to switch between
different colored light sources
10 to 30V dc operation
10-element LED signal strength display for quick, easy setup
All models offer NPN (sinking) and PNP (sourcing) plus analog output
Choose models with either horizontal or vertical sensing image (see chart,
below)
2 m (6.5') integral cable or 5-pin euro-style 300 mm (12") pigtail quickdisconnect; 9 m (30') integral cable is also available
R55 Sensing Mode Options
Convergent
RE
UA
T
GH EQ
LI IS
ED ING
IV
CE SETT
ST
BE
SW
ITC
H
L
PO
LE
INT
DS
LI
T
AB
OV
E
&
BE
LO
W
SW
IT
CH
PO
IN
T
bn
R5
5C
G1
bu
wh
bk
LO
AD
+
1030
– V dc
ye 0 LOAD
to
10m
LO A
AD
Visible blue-green, 525 nm
R55 Convergent Mode with Blue-Green LED
Models
Focus
R55CG1
Supply
Voltage
Cable
Sensing Image Orientation
Bipolar
NPN/PNP
Parallel to sensor length
2 m (6.5')
R55CG1Q
Integral
5-pin Euro QD
R55CG1QP
5-pin Euro
pigtail QD
10 mm
(0.39")
R55CG2
Output
Type
10-30V dc
2 m (6.5')
R55CG2Q
Integral
5-pin Euro QD
R55CG2QP
5-pin Euro
pigtail QD
Analog
0-10 mA
Perpendicular to sensor length
For R55 Sensors:
i) 9 m (30') cables are available by adding suffix “W/30” to the model number of any cabled sensor (e.g. - R55CG1 W/30)
ii) A model with a QD connector requires an accessory mating cable. See page 309 and the Accessories section for more information.
302
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
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EB
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EB
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EV
OB
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TI
L
SD
EL
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SI
GN
IT
TH
GI
TE
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HC
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TN
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TS
VI
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R55 Series Sensors
1G
cd
+
1
3-0
V 0–
C5
5R n b
ub
hw
OL kb
DA
OL
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Visible white, 460-550 nm
R55 Convergent Mode with White LED
Models
Focus
Cable
R55CW1
Supply
Voltage
Output
Type
Sensing Image Orientation
Bipolar
NPN/PNP
Parallel to sensor length
2 m (6.5')
R55CW1Q
Integral
5-pin Euro QD
R55CW1QP
5-pin Euro
pigtail QD
10 mm
(0.39")
10-30V dc
R55CW2
Analog
0-10 mA
2 m (6.5')
R55CW2Q
Integral
5-pin Euro QD
R55CW2QP
5-pin Euro
pigtail QD
Perpendicular to sensor length
R55 Hookup Diagrams
R55 Sensor
with Attached Cable
bn
bk
ye
bn
+
10-30V dc
–
bu
wh
R55 Sensor
with Quick-Disconnect
+
10-30V dc
–
bu
Load
wh
Load
bk
gy
Load
0 to 10 mA
Load
Load
Load
0 to 10 mA
5-Pin Euro-Style Pin-out
(Cable Connector Shown)
White Wire
Brown Wire
Blue Wire
Black Wire
Gray Wire
Quick-Disconnect (QD) Option
R55 sensors are sold with either a 2 m (6.5') attached PVC-covered cable, or with a 5-pin euro-style pigtail QD cable fitting.
R55 QD sensors are identified by the letter “Q” in their model number suffix. Mating cables for QD R55 sensors are model
MQDC1-5xx (straight connector) or MQDC1-5xxRA (right-angled connector). For more information on QD cables see page 309
or Accessories section.
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303
R55 Series Sensors
R55 Specifications
Supply Voltage and Current
10 to 30V dc (10% maximum ripple) at less than 70 mA (exclusive of load)
Supply Protection Circuitry
Protected against reverse polarity and transient voltages
Output Configuration
Digital outputs are bipolar: one current sourcing (PNP) and one current sinking (NPN) open-collector transistor
Analog output is a current source which is proportional to the received light level
Output Rating
Digital outputs are 150 mA maximum (each)
Off-state leakage current <10 microamps at 30V dc
Saturation voltage (NPN output) <2.0V at 150 mA dc
Saturation voltage (PNP output) <1.5V at 150 mA dc
Analog output: 0 to 10 mA
Maximum load voltage drop is Vsupply minus 7 volts
(3V at 10Vsupply ; 23V at 30Vsupply)
Output Protection Circuitry
All outputs are protected against false pulse on power-up and continuous overload or short circuit of outputs
Output Response Time
<50 microseconds “on” and “off” with no output delay timing selected
(NOTE: 100 millisecond delay on power-up: NPN & PNP outputs are non-conducting at this time)
Sensing Image
Rectangular: 1.2 mm x 3.8 mm (0.05" x 0.15") at 10 mm (0.39") from face of lens; image oriented either
parallel or perpendicular to sensor length, depending on model (see pages 302 and 303)
Adjustments
15-turn SENSITIVITY control with external knob
Four DIP switches select the following functions:
Switch #1: Light or dark operate
Switch #2: 50 millisecond non-retriggerable one-shot
Switch #3: 50 millisecond off delay
Switch #2 plus #3: 100 millisecond retriggerable one-shot
Switch #4: Enable/disable for 10-element light bar
Indicators
10-element green moving LED light bar displays signal strength, relative to the switch point setting
Green LED output indicator
Construction
Zinc alloy diecast housing with steel cover - both with black acrylic polyurethane finish
Lens, lens port cap, SENSITIVITY control, and MODE switch cap are o-ring sealed
Lens and light bar display window are acrylic
Lens port cap and lens holder are ABS
MODE switch cap is Delrin®
SENSITIVITY control knob is Nylon
Environmental Rating
NEMA 6, IP67
Connections
PVC-jacketed 5-conductor 2 m (6.5') or 9 m (30') attached cable, or 5-pin euro-style quick-disconnect on
300 mm (12") cable pigtail. Mating QD cables are purchased separately. See page 309 and Accessories section.
Operating Conditions
Temperature:
Maximum relative humidity:
Vibration and
Mechanical Shock
Application Notes
-10° to +55°C (+14° to 131°F)
90% at 50°C (non-condensing)
All models meet IEC 68-2-6 and IEC 68-2-27 testing criteria
Include approximately a 15° angle in sensor mounting when sensing color marks on shiny materials (i.e.
do not mount sensor exactly perpendicular to shiny material surfaces)
Minimize web or product “flutter”, whenever possible, for greatest sensing reliability
Certifications
Delrin® is a registered trademark of Dupont Co.
304
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
R55 Series Sensors
R55 Dimensions
18.0 mm
(0.71")
Models with integral
5-pin Euro Quick disconnect
fitting (model suffix Q)
SWITCH
Output Indicator
POINT
10-element Display
RECEIVED LIGHT
BEST SETTING IS EQUAL LEDS LIT ABOVE & BELOW SWITCH POINT
7.0 mm (0.28")
28.0 mm
(1.10")
39.0 mm
(1.54")
M5 x 0.8 Thread
x 6.3 mm Deep
(8 Holes)
SENSITIVITY
55.5 mm
(2.19")
25 mm
(1.0")
1. D.O. | L.O.
2. ONE SHOT
NO | 50ms
3. OFF DELAY
NO | 50ms
15 mm
(0.59")
4. DISPLAY
ON | OFF
MODE
3 mm (0.12")
92 mm
(3.6")
80.0 mm
(3.15")
28.0 mm
(1.10")
bn
bu
43.0 mm
(1.69")
bk
30.4 mm 21.0 mm
(0.83")
(1.20")
LO
AD
+
10-3
0
– V dc
ye 0 LOAD
to
10
LO mA
AD
15.0 mm (0.59")
5.0 mm
(0.20")
R5
5C
G1
wh
ITY
ITIV
NS
SE
3.0 mm (0.12")
30.0 mm
(1.18")
Models with 300 mm (12")
pigtail terminated with 5-pin
Euro quick-disconnect fitting
(model suffix QP)
de
Mo
15.0 mm
(0.59")
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
305
R55 Fiber Optic Series Sensors
R55 Fiber-Optic Color Mark Sensors
For Plastic and Glass Fiber Optics
R55 Fiber Optic Sensing Mode Options
Glass and Plastic Fiber Optic
•
Outstanding color contrast sensitivity; detects 16 levels of gray scale;
depending on beam color, reliably detects the toughest color mark
contrasts, including 20% yellow against white
•
Fast, 50-microsecond response
•
Choose from four beam colors: infrared, visible red, blue, green and
white
•
Fibers mount in small and otherwise inaccessible areas
•
Easy push-button programming includes Static TEACH, Static SinglePoint TEACH, Dynamic TEACH and Remote TEACH; plus manual
sensitivity adjustment
•
Non-volatile memory
•
Fibers install quickly without tools
•
Bipolar (NPN/PNP) outputs with three Delay settings
(0, 20 or 40 milliseconds)
•
Choice of integral cable or QD connector models
•
Mounts flat or to 35 mm DIN rail; two brackets included with sensor
(one for angle mount, one for flat mount)
See Sensing Beam Information Below
R55F Glass Fiber-Optic Sensor Models
Maximum Sensing Distance
Models
For black-to-white contrast
Cable*
Supply
Voltage
Output
Type
10-30V dc
Bipolar
NPN/PNP
Infrared 880 nm
R55F
R55FQ
0.060" dia. Bundle: 40 mm (1.6")
0.125" dia. Bundle: 140 mm (5.5")
5-wire 2 m (6.5')
5-pin Euro-style QD
Visible Red 650 nm
R55FV
R55FVQ
0.060" dia. Bundle: 28 mm (1.1")
0.125" dia. Bundle: 110 mm (4.3")
5-wire 2 m (6.5')
5-pin Euro-style QD
Visible Green 525 nm
R55FVG
R55FVGQ
0.060" dia. Bundle: 12 mm (0.5")
0.125" dia. Bundle: 50 mm (2.0")
5-wire 2 m (6.5')
5-pin Euro-style QD
Visible Blue 475 nm
R55FVB
R55FVBQ
0.060" dia. Bundle: 12 mm (0.5")
0.125" dia. Bundle: 50 mm (2.0")
5-wire 2 m (6.5')
5-pin Euro-style QD
Visible White 450-650 nm
R55FVW
R55FVWQ
0.060" dia. Bundle: 12 mm (0.5")
0.125" dia. Bundle: 50 mm (2.0")
5-wire 2 m (6.5')
5-pin Euro-style QD
* 9 m (30') cables are available by adding suffix “W/30” to the model number of any cabled sensor (e.g. - R55VW W/30)
306
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
R55 Fiber Optic Series Sensors
See Sensing Beam Information Below
R55F Plastic Fiber-Optic Sensor Models
Maximum Sensing Distance
Models
Cable
For black-to-white contrast
Supply
Voltage
Output
Type
10-30V dc
Bipolar
NPN/PNP
Visible Red 650 nm
R55FP
5-wire 2 m (6.5')
0.040" dia. Fibers: 60 mm (2.4")
R55FPQ
5-pin Euro-style QD
Visible Green 525 nm
R55FPG
5-wire 2 m (6.5')
0.040" dia. Fibers: 28 mm (1.1")
R55FPGQ
5-pin Euro-style QD
Visible Blue 475 nm
R55FPB
5-wire 2 m (6.5')
0.040" dia. Fibers: 28 mm (1.1")
R55FPBQ
5-pin Euro-style QD
Visible White 450-650 nm
R55FPW
5-wire 2 m (6.5')
0.040" dia. Fibers: 28 mm (1.1")
R55FPWQ
5-pin Euro-style QD
R55 Fiber-Optic Dimensions
Plastic Fiber
10.0 mm
(0.39")
12.9 mm
(0.51")
Glass Fiber
10.0 mm
(0.39")
30.0 mm
(1.18")
12.9 mm
(0.51")
Quick-Disconnect
Models
25.0 mm
(0.99")
Cabled
Models
LO
OFF
Delay
SETUP
OFF
Delay
Switch Point
85.4 mm
(3.36")
+
DYNAMIC
SETUP
35.0 mm
(1.40")
+
DYNAMIC
LO
DO
DO
STATIC
–
Switch Point
24.5 mm
(0.97")
STATIC
4.5 mm
(0.18")
–
10-element Display
Output Indicator
11.6 mm
(0.46")
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307
R55 Fiber Optic Series Sensors
R55 Fiber-Optic Specifications
Supply Input
10 to 30V dc (10% maximum ripple) at less than 70 mA, exclusive of load
Supply Protection Circuitry
Protected against reverse polarity and transient voltages
Output Configuration
Bipolar (NPN and PNP)
Output Rating
150 mA max each output @ 25°C (derate ≈ 1 mA per °C increase)
OFF-state leakage current: < 5 µA @ 30V dc
ON-state saturation voltage: PNP Output < 1V @ 10 mA and 1.5V @ 150 mA
NPN Output < 200 mV @ 10 mA and 1V @ 150 mA
Output Protection
Protected against false pulse on power-up and continuous overload or short-circuit of outputs.
Output Response
50 microseconds
NOTE: 100 millisecond delay on power-up; outputs do not conduct during this time.
Adjustments
Using push buttons (“+” Dynamic and “-” Static):
Manually adjust Switch Point using “+” or “-” buttons
Dynamic TEACH (teach on-the-fly) sensitivity adjustment
Static TEACH sensitivity adjustment
Static Single-Point TEACH
Light operate/Dark operate
OFF Delay select: 0 milliseconds, 20 milliseconds or 40 milliseconds
Using Remote TEACH input (gray wire):
Dynamic TEACH (teach on-the-fly) sensitivity adjustment
Static TEACH sensitivity adjustment
Static Single-Point TEACH
Light operate/Dark operate
OFF Delay select: 0 milliseconds, 20 milliseconds or 40 milliseconds
Push button lockout for security
Indicator LEDs
10-segment (green) light bar indicates signal strength
Light Operate (green)
Dark Operate (green)
Outputs Conducting (yellow)
OFF Delay (green): SETUP Mode: OFF — no delay
Flashing — 20 ms delay
ON — 40 ms delay
RUN Mode: OFF — no delay
ON — 20 or 40 ms Delay
Construction
Housing: Black ABS/polycarbonate blend; nylon fiber clip
mounts to standard 35 mm DIN rail
1 stainless steel right angle bracket and 1 PBT polyester bracket for mounting to flat surfaces also
included with sensor
Environmental Rating
IEC IP67; NEMA 6
Connections
Power: 2 m or 9 m PVC-jacketed 5-conductor cable or 5-pin Euro-style quick-disconnect (QD) connector
Fibers: Fiber clip (no tool required)
Operating Conditions
Temperature: -10° to +55° C (+14° to 131° F)
Maximum Relative Humidity: 90% at 50° C (non-condensing)
Application Notes
• Do not mount the fiber tip directly perpendicular to shiny surfaces; position it at approximately a 15°
angle in relation to the sensing target
• Minimize web or product “flutter” whenever possible to maximize sensing reliability
R55F Hookups
Cabled Models
bn
+
10-30V dc
–
bu
wh
bk
Load
Load
bn
+
10-30V dc
–
bu
wh
Load
bk
Load
gy
gy
Remote Teach
308
Quick-Disconnect Models
Remote Teach
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
R55 Accessories
Modifications
Model Suffix
Modification
W/30
9 m (30') cable
Example of Model
Number
Description
All R55 sensors may be ordered with an integral 9 m (30') cable in
place of the standard 2 m (6.5') cable
R55CG1 W/30
Quick-Disconnect (QD) Cables
Following is the selection of cables available for R55 QD models. See the Accessories section for more cable information.
Style
Model
Length
Connector
Used with:
5-Pin Euro
MQDC1-506
MQDC1-515
MQDC1-530
MQDC1-506RA
MQDC1-515RA
MQDC1-530RA
2 m (6.5')
5 m (15')
9 m (30')
2 m (6.5')
5 m (15')
9 m (30')
Straight
Straight
Straight
Right-angle
Right-angle
Right-angle
All R55 and R55F Series sensors with
QD fitting
6-Pin Euro
MQDC-606
MQDC-615
MQDC-630
MQDC-606RA
MQDC-615RA
MQDC-630RA
2 m (6.5')
5 m (15')
9 m (30')
2 m (6.5')
5 m (15')
9 m (30')
Straight
Straight
Straight
Right-angle
Right-angle
Right-angle
All R55 Expert sensors with QD fitting
Replacement Lens
Models
UC-R55
Description
Replacement lens for R55 or R55E
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
309
R55 Accessories
Mounting Brackets
Model
Description
Dimensions
24.1 mm
(0.95")
SMB55A
2.6 mm
(0.10")
31.8 mm
(1.25")
11.4 mm
(0.45")
13.3 mm
(0.53")
12.7 mm
(0.50")
15.2 mm
(0.60")
8 x R 3.3 mm
(0.13")
50.8 mm
(2.00")
• 15° offset bracket
• 12-gauge stainless steel
15.0°
24.8 mm
2 x 12.4 mm
(0.98")
(0.49")
5.4 mm
(0.21")
12 x R 2.6 mm
(0.10")
25.4mm
(1.00")
2 x 5.6 mm
(0.22")
2 x 7.6 mm
(0.30")
4 x R 6.4 mm
(0.25")
CL
27.9 mm
(1.10")
50.8 mm
(2.00")
24.1 mm
(0.95")
SMB55F
2.6 mm
(0.10")
11.4 mm
(0.45")
4 x R 6.4 mm
(0.25")
13.3 mm
(0.53")
12.7 mm
(0.50")
15.2 mm
(0.60")
82.6 mm
(3.25")
8 x R 3.3 mm
(0.13")
• Flat mount bracket
• 12-gauge stainless steel
24.8 mm
(0.98")
2 x 12.4 mm
(0.49")
2 x 5.6 mm
(0.22")
5.4 mm
(0.21")
2 x 7.6 mm
(0.30")
25.4mm
(1.00")
12 X R 2.6 mm
(0.10")
CL
27.9 mm
(1.10")
50.8 mm
(2.00")
5.4 mm
(0.21")
SMB55RA
12 X R 2.6 mm
(0.10")
25.4mm
(1.00")
CL
• Right-angle bracket
• 12-gauge stainless steel
2 x 12.4 mm
(0.49")
24.8 mm
(0.98")
27.9 mm 50.8 mm
(2.00")
(1.10")
2 x 7.6 mm
(0.30")
2 x 5.6 mm
(0.22")
24.1 mm
(0.95")
2.6 mm
(0.10")
11.4 mm
(0.45")
15.2 mm
(0.60")
4 x R6.4 mm
(0.25")
13.3 mm
(0.53")
12.7 mm
(0.50")
8 x R 3.3 mm
(0.13")
310
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
R55 Accessories
Mounting Brackets
Model
Description
Dimensions
SMB55S
2x 10.2 mm
(0.40")
8.1 mm
(0.32")
2.6 mm
(0.10")
44.5 mm
(1.75")
30.5 mm
(1.20")
7.1 mm
(0.28")
4x R6.4 mm (0.25")
8x R3.3 mm (0.13")
25.4 mm
(1.00")
10.2 mm
(0.40")
• 15° offset bracket
• 12-gauge stainless steel
34.3 mm
(1.35")
7.9 mm
3.8 mm (0.31")
(0.15")
4x R2.6
(0.10")
15.0°
28.0 mm
(1.10")
8.2 mm
(0.32")
SMBR55FRA
40.0 mm
(1.58")
•
•
•
•
For use with R55F sensors
Side-mounting bracket
19-gauge stainless steel
Included with sensor
2x ø5.4 mm
(0.21")
4.5 mm
(0.18")
20.0 mm
(0.79")
35.0 mm
(1.38")
2.5 mm
(0.10")
7.2 mm
(0.28")
3.5 mm
(0.14")
SMBR55F01
4.5 mm
(0.18")
10.0 mm
(0.40")
7.5 mm
(0.30")
4x 5.0 mm
(0.20")
15.0 mm
(0.59")
29.5 mm
(1.16")
•
•
•
•
For use with R55F sensors
Flat-mounting bracket
Molded PBT polyester
Included with sensor
6.0 mm
(0.24")
65.0 mm
(2.56")
35.0 mm
(1.40") 50.8 mm
(2.00")
4x R2.5
(0.10")
30.4 mm
(1.20")
50.8 mm
(2.00")
64.0 mm
(2.52")
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311
R55 Sensors
NOTES:
312
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Slot Sensors
Slot Sensors
SL30 Series . . . . . . . . . . . . . . . . . . . . . . . . . . . 314
SL10 Series . . . . . . . . . . . . . . . . . . . . . . . . . . . 318
C-GAGE® SLC1 Series . . . . . . . . . . . . . . . . . . . . . 322
Slot Sensor Accessories . . . . . . . . . . . . . . . . . . . 325
R
!
Slot sensors are not suitable for use in personnel
safety applications! See WARNING on inside
front cover of catalog.
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313
SL30 Series Slot Sensors
SL30 Series Slot Sensors
For Color Mark Sensing on Clear Films, Plus Many Other Applications
•
•
•
•
•
•
•
•
•
•
•
SL30 Series Sensors Sensing Mode Options
Opposed
Easy-to-use self-contained opposed-mode sensor pair in a
rugged U-shaped housing
Easy and economical to mount
Molded-in beam guides simplify mounting and beam
placement
30 mm slot width for a wide variety of sensing
applications
Applications include label detection, clear film registration,
hole detection, gear tooth detection, edge guiding and
counting
2 mm effective beam
10 to 30V dc operation
Bipolar PNP/NPN outputs
Dark or light operate
Choose integral, unterminated cable or QD models
Expert ™ models have:
- Easy push-button programming which automatically
adjusts sensitivity to optimal setting
- Separate TEACH input allows remote programming by an
external device, such as a switch or a process controller
- Fast 500 microsecond or 150 microsecond output
response
Visible red, 680 nm
SL30 Series Slot Sensor with 4-turn Sensitivity Adjustment
Models
Slot
Width
SL30VB6V
SL30VB6VQ
SL30VB6VY
SL30VB6VYQ
Cable
Supply
Voltage
Output
Type
10-30V dc
Bipolar
NPN (sinking)
and
PNP (sourcing)
Response
Repeatability
1 millisecond
250 microseconds
300 microseconds
75 microseconds
5-wire 2 m (6.5') cable
30 mm
(1.2")
5-Pin Euro-style QD
5-wire 2 m (6.5') cable
5-Pin Euro-style QD
For All SL30 Series Sensors:
i) 9 m (30') cables are available by adding suffix “W/30” to the model number of any cabled sensor (e.g. - SL30VB6V W/30)
ii) A model with a QD connector requires an accessory mating cable. See page 325 and the Accessories section for more information.
314
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
SL30 Series Slot Sensors
Infrared, 890 nm
SLO30 Series Slot Sensor with Fixed Sensitivity
Models
Slot
Width
Cable
SLO30VB6
SLO30VB6Q
SLO30VB6Y
Supply
Voltage
Output
Type
10-30V dc
Bipolar
NPN (sinking)
and
PNP (sourcing)
Response
Repeatability
1 millisecond
250 microseconds
300 microseconds
75 microseconds
5-wire 2 m (6.5') cable
5-Pin Euro-style QD
30 mm
(1.2")
5-wire 2 m (6.5') cable
SLO30VB6YQ
5-Pin Euro-style QD
Visible red, 680 nm
SLE30 Expert ™ Series Slot Sensor with Push-button TEACH mode Sensitivity
Models
Slot
Width
Cable
SLE30B6V
SLE30B6VQ
SLE30B6VY
Supply
Voltage
Output
Type
10-30V dc
Bipolar
NPN (sinking)
and
PNP (sourcing)
Response
Repeatability
500 microseconds
100 microseconds
150 microseconds
75 microseconds
5-wire 2 m (6.5') cable
5-Pin Euro-style QD
30 mm
(1.2")
5-wire 2 m (6.5') cable
SLE30B6VYQ
5-Pin Euro-style QD
SL30, SLO30 and SLE30 Series Slot Sensor Dimensions
Cabled
Quick-Disconnect
Back View
SL30 Models
30.2 mm
(1.19")
10.9 mm
(0.43")
Mu
Sen
Adj
10.0 mm
(0.39)
45.0 mm
(1.77")
SLE30 Expert Models
72.0 mm
(2.84")
Power LED
(Green)
18.8 mm
(0.74")
Signal LED (SL30, SLO30)
Output LED (SLE30)
(Yellow)
TEACH
Push-button
6.0 mm
(0.24")
6.0 mm
(0.24")
40.0 mm
(1.58")
2x ø5.6 mm
(0.22")
20.2 mm (0.80")
M12 x 1
NOTE: SLO Series have no
sensitivity adjustment
52.0 mm
(2.05")
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
315
SL30 Series Slot Sensors
SL30 & SLO30 Series Slot Sensor Specifications
Supply Voltage and Current
10 to 30V dc, 30 mA
Supply Protection Circuitry
Protected against reverse polarity and transient voltages
Output Configuration
Bipolar: NPN (current sinking) and PNP (current sourcing)
Output Rating
150mA, each output
Output Protection Circuitry
Protected against false pulse on power-up and short-circuit of outputs
Output Response Time
1 millisecond or 300 microseconds, depending on model
Repeatability
250 microseconds or 75 microseconds, depending on model
Adjustments
SL30 Series: 4-turn clutched potentiometer sensitivity adjustment
SLO30 Series: None
Indicators
Green: Power ON/OFF indicator
Yellow: Signal Condition indicator
Construction
Housing: ABS/polycarbonate
Lenses: Acrylic
Environmental Rating
IP67, NEMA 6
Connections
2 m (6.5') or 9 m (30') 5-conductor PVC-jacketed attached cable or 5-pin Euro-style quick-disconnect
(QD) connector. QD cables are ordered separately. See page 325.
Operating Conditions
Operating Temperature:
Maximum relative humidity:
-40° to +70°C (-40° to +158°F)
90% @ 50°C (non-condensing)
SL30 & SLO30 Series Slot Sensor Hookup Diagrams
Quick-disconnect models
Cabled models
bn
bu
wh
bk
gy
bn
bu
wh
Load
bk
Load
gy
+
10 - 30V dc
–
Load
Load
(See below*)
+
10 - 30V dc
–
(See below*)
* For Dark Operate, connect gray wire to + (brown).
For Light Operate, connect gray wire to – (blue) or leave circuit open.
5-Pin Euro-Style Pin-out
(Cable Connector Shown)
White Wire
Brown Wire
Blue Wire
Black Wire
316
Gray Wire
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
SL30 Series Slot Sensors
SLE30 Expert ™ Series Slot Sensor Specifications
Supply Voltage and Current
10 to 30V dc (10% maximum ripple) at less than 45 mA, exclusive of load
Supply Protection Circuitry
Protected against reverse polarity and transient voltages
Output Configuration
Bipolar: One current sourcing (PNP) and one current sinking (NPN) open-collector transistor
Output Rating
150mA maximum each output at 25°C, derated to 100 mA at 70°C (derate ≈1 mA per °C)
OFF-state leakage current: less than 5µA @ 30V dc
ON-state saturation current: less than 1V @ 10 mA; less than 1.5V @ 150 mA
Output Protection Circuitry
Protected against false pulse on power-up and continuous overload or short-circuit of outputs
Output Response Time
Sensors will respond to either a “light” or a “dark” signal of 500 microseconds (or 150 microseconds,
depending on model) or longer duration, 1 kHz max.
NOTE: 1 second delay on power-up; outputs are non-conducting during this time.
Repeatability
100 microseconds or 75 microseconds, depending on model
Adjustments
Push-button TEACH mode sensitivity setting; remote TEACH mode input is provided (gray wire)
Indicators
Two LEDs: Yellow and Bi-color Green/Red
Green (RUN Mode):
ON when power is applied
Flashes when received light level approaches the switching threshold
Red (TEACH Mode):
OFF when no signal is received.
Pulses to indicate signal strength (received light level). Rate is proportional to
signal strength (the stronger the signal, the faster the pulse rate). This is a
function of Banner’s patented Alignment Indicating Device (AID™, US patent
4356393).
Yellow (TEACH Mode): ON to indicate sensor is ready to learn output ON condition
OFF to indicate sensor is ready to learn output OFF condition
Yellow (RUN Mode):
ON when outputs are conducting
Construction
Housing: ABS/polycarbonate
Lenses: Acrylic
Environmental Rating
Meets NEMA 6; IEC IP67
Connections
PVC-jacketed 5-conductor 2 m (6.5') or 9 m (30') unterminated cable, or 5-pin Euro-style
quick-disconnect (QD) fitting are available. QD cables are ordered separately. See page 325.
Operating Conditions
Temperature:
-20° to +70°C (-4° to +158°F)
Maximum relative humidity: 90% at 50°C (non-condensing)
Application Notes
The first condition presented during TEACH mode becomes the output ON condition.
SLE30 Expert ™ Series Slot Sensor Hookup Diagrams
Quick-Disconnect Models
Cabled Models
bn
bu
wh
bk
gy
+
10 - 30V dc
–
Load
Load
Remote
Teach
bn
bu
wh
Load
bk
Load
gy
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
+
10 - 30V dc
–
Remote
Teach
317
SL10 Series Slot Sensors
SL10 Series Slot Sensors
•
•
•
•
•
•
•
•
•
•
•
•
SL10 Series Sensors Sensing Mode Options
Opposed
An easy-to-use self-contained opposed-mode sensor pair
in a rugged U-shaped housing
Easy and economical to mount
Molded-in beam guides simplify mounting and beam
placement
10 mm slot width for a wide variety of sensing
applications
Applications include label detection, hole detection, gear
tooth detection, edge guiding, parts detection and
counting
2 mm effective beam on SL10 models and 1 mm effective
beam on SLE10 models
10 to 30V dc operation
Bipolar PNP/NPN outputs
Visible red beam
Dark or light operate
Choose integral, unterminated cable or QD models
Expert ™ models have:
- Easy push-button programming which automatically
adjusts sensitivity to optimal setting
- Separate TEACH input allows remote programming by
an external device, such as a switch or a process
controller
- Fast 500 microsecond or 150 microsecond output
response
Visible red, 680 nm
SL10 Series Slot Sensor with 4-turn Sensitivity Adjustment
Models
Slot
Width
SL10VB6V
SL10VB6VQ
SL10VB6VY
SL10VB6VYQ
Cable
Supply
Voltage
Output
Type
10-30V dc
Bipolar
NPN (sinking)
and
PNP (sourcing)
Response
Repeatability
1 millisecond
250 microseconds
300 microseconds
75 microseconds
5-wire 2 m (6.5') cable
10 mm
(0.4")
5-Pin Euro-style QD
5-wire 2 m (6.5') cable
5-Pin Euro-style QD
For All SL10 Series Sensors:
i) 9 m (30') cables are available by adding suffix “W/30” to the model number of any cabled sensor (e.g. - SL10VB6V W/30)
ii) A model with a QD connector requires an accessory mating cable. See page 325 and the Accessories section for more information.
318
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
SL10 Series Slot Sensors
Visible red, 680 nm
SLE10 Expert ™ Series Slot Sensor with Push-button TEACH mode Sensitivity
Slot
Width
Models
Supply
Voltage
Output
Type
10-30V dc
Bipolar
NPN (sinking)
and
PNP (sourcing)
Cable
SLE10B6V
Response
Repeatability
500 microseconds
100 microseconds
150 microseconds
75 microseconds
5-wire 2 m (6.5') cable
SLE10B6VQ
10 mm
(0.4")
SLE10B6VY
SLE10B6VYQ
5-Pin Euro-style QD
5-wire 2 m (6.5') cable
5-Pin Euro-style QD
SL10 and SLE10 Series Slot Sensor Dimensions
Cabled
Quick-Disconnect
10.0 mm
(0.39)
10.0 mm
(0.39)
45.0 mm
(1.77")
72.0 mm
(2.84")
Power LED
(Green)
Signal LED (SL10)
Output LED (SLE10)
(Yellow)
6.0 mm
(0.24")
6.0 mm
(0.24")
40.0 mm
(1.58")
20.2 mm (0.80")
2x ø5.6 mm
(0.22")
M12 x 1
52.0 mm
(2.05")
Back View
SL10 Models
SLE10 Expert Models
17.5 mm
(0.69")
17.5 mm
(0.69")
11.5 mm
(0.45")
18.8 mm
(0.74")
Multi-turn
Sensitivity
Adjustment
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
11.5 mm
(0.45")
18.8 mm
(0.74")
TEACH
Push-button
319
SL10 Series Slot Sensors
SL10 Series Slot Sensor Specifications
Supply Voltage and Current
10 to 30V dc (10% maximum ripple), 30 mA
Supply Protection Circuitry
Protected against reverse polarity and transient voltages
Output Configuration
Bipolar: NPN (current sinking) and PNP (current sourcing)
Output Rating
150mA, each output
Output Protection Circuitry
Protected against false pulse on power-up and short-circuit of outputs
Output Response Time
1 millisecond or 300 microseconds, depending on model
NOTE: 100 microsecond delay on power-up; outputs do not conduct during this time
Repeatability
250 microseconds or 75 microseconds, depending on model
Adjustments
4-turn clutched potentiometer sensitivity adjustment
Indicators
Green: Power ON/OFF indicator
Yellow: Signal Condition indicator
Construction
Housing: ABS/polycarbonate blend thermoplastic
Lenses: Acrylic
Environmental Rating
IP67, NEMA 6
Connections
2 m (6.5') or 9 m (30') 5-conductor PVC-jacketed attached cable or 5-pin Euro-style quick-disconnect
(QD) connector. QD cables are ordered separately. See page 325.
Operating Conditions
Operating Temperature:
Maximum relative humidity:
-40° to +70°C (-40° to +158°F)
90% @ 50°C (non-condensing)
SL10 Series Slot Sensor Hookup Diagrams
Quick-Disconnect models
Cabled models
bn
bu
wh
bk
gy
bn
bu
wh
Load
bk
Load
gy
+
10 - 30V dc
–
Load
Load
(See below*)
+
10 - 30V dc
–
(See below*)
* For Dark Operate, connect gray wire to + (brown).
For Light Operate, connect gray wire to – (blue) or leave circuit open.
5-Pin Euro-Style Pin-out
(Cable Connector Shown)
White Wire
Brown Wire
Blue Wire
Black Wire
320
Gray Wire
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
SL10 Series Slot Sensors
SLE10 Expert Series Slot Sensor Specifications
Supply Voltage and Current
10 to 30V dc (10% maximum ripple) at less than 45 mA, exclusive of load
Supply Protection Circuitry
Protected against reverse polarity and transient voltages
Output Configuration
Bipolar: One current sourcing (PNP) and one current sinking (NPN) open-collector transistor
Output Rating
150mA maximum each output at 25°C, derated to 100 mA at 70°C (derate ≈1 mA per °C)
OFF-state leakage current: less than 5µA @ 30V dc
ON-state saturation current: less than 1V @ 10 mA; less than 1.5V @ 150 mA
Output Protection Circuitry
Protected against false pulse on power-up and continuous overload or short-circuit of outputs
Output Response Time
Sensors will respond to either a “light” or a “dark” signal of 500 microseconds (or 150 microseconds,
depending on model) or longer duration, 1 kHz max.
NOTE: 1 second delay on power-up; outputs are non-conducting during this time.
Repeatability
100 microseconds or 75 microseconds, depending on model
Adjustments
Push-button TEACH mode sensitivity setting; remote TEACH mode input is provided (gray wire)
Indicators
Two LEDs: Yellow and Bi-color Green/Red
Green (RUN Mode):
ON when power is applied
Flashes when received light level approaches the switching threshold
Red (TEACH Mode):
OFF when no signal is received.
Pulses to indicate signal strength (received light level). Rate is proportional to
signal strength (the stronger the signal, the faster the pulse rate). This is a
function of Banner’s patented Alignment Indicating Device (AID™, US patent
4356393).
Yellow (TEACH Mode): ON to indicate sensor is ready to learn output ON condition
OFF to indicate sensor is ready to learn output OFF condition
Yellow (RUN Mode):
ON when outputs are conducting
Construction
ABS/polycarbonate housing, acrylic lenses
Environmental Rating
Meets NEMA 6; IEC IP67
Connections
PVC-jacketed 5-conductor 2 m (6.5') or 9 m (30') unterminated cable, or 5-pin Euro-style
quick-disconnect (QD) fitting are available. QD cables are ordered separately. See page 325.
Operating Conditions
Temperature:
-20° to +70°C (-4° to +158°F)
Maximum relative humidity: 90% at 50°C (non-condensing)
Application Notes
The first condition presented during TEACH mode becomes the output ON condition.
SLE10 Expert ™ Series Slot Sensor Hookup Diagrams
Quick-Disconnect Models
Cabled Models
bn
bu
wh
bk
gy
+
10 - 30V dc
–
Load
Load
Remote
Teach
bn
bu
wh
Load
bk
Load
gy
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
+
10 - 30V dc
–
Remote
Teach
321
C-GAGE® SLC1 Series Label Sensors
C-GAGE® SLC1 Series Label Sensors
Featuring Adaptive Digital Logic (ADL™)
†
•
No user adjustments – Adaptive Digital Logic (ADL™)†
provides revolutionary self-learning capability.
•
Continuous automatic internal adjustment of sensing
threshold and drift compensation.
•
Registration accuracy of ± 0.3 mm (0.012")
•
Maximum web speed of 10 m per second (33' per second)
•
Reliably detects the presence of most types of labels on
web backing
- Clear labels on an opaque backing
- Clear labels on a clear backing
- Opaque labels on an opaque backing
- Opaque labels on a clear backing
•
Heavy-duty metal housing, 1 mm (0.04") slot
NOTE: Labels with metallic or carbon-based inks, foil
embossing or metal substrates are not recommended
for use with SLC1 Series sensors.
Patent Pending
Gr
een
Gr :
een po
we
Ye
llo flash r on
w:
ou ing:
tpu ou
ts tpu
bn
co t ov
nd
bu: +1
uc erloa
tin
wh: co0 to
g d
bk : NPmm 30V
on dc
gy: PNN ou
:
ou P ou tput
tput tp
invut
ert
/ re
se
t
SL
C
La 1B
be
l Se B6
ns
SE
or
NS
ING
AR
EA
SLC1 Series Label Sensor
Models
SLC1BB6
SLC1BB6Q
Slot
Width
1 mm
(0.04")
Cable
Supply
Voltage
Output
Type
10-30V dc
Bipolar
(NPN and PNP)
5-wire 2 m (6.5') cable
5-Pin Euro-style QD
Response
User Adjustments
100 microseconds
None Required
For SLC1 Series Sensors:
i) 9 m (30') cables are available by adding suffix “W/30” to the model number of any cabled sensor (e.g. - SLC1BB6 W/30)
ii) A model with a QD connector requires an accessory mating cable. See page 325 and the Accessories section for more information.
322
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
C-GAGE® SLC1 Series Label Sensors
SLC1 Series Specifications
Supply Voltage and Current
10 to 30V dc (10% max. ripple) @ less than 60 mA (exclusive of load )
Supply Protection Circuitry
Protected against reverse polarity and transient voltages
Power-Up or Reset Delay
1 second typical (outputs are non-conducting during this time)
Output Configuration
Bipolar: one current-sourcing (PNP) and one current-sinking (NPN) open-collector transistor
Output Rating
150 mA max. (each output)
OFF-state leakage current: < 5 microamps @ 30V dc
Output saturation voltage: < 1V @ 10 milliamps dc; < 1.6V @ 150 milliamps dc
Output Protection
Protected against continuous overload and short-circuit of outputs
Overload trip point: > 200 milliamps, typical, at 20°C
Output Invert Control/Reset
Gray wire has dual functionality, and may be controlled by a PLC
Input impedance: 10 KΩ
Outputs ON during gap (turn OFF at leading edge of label): leave open, or connect to 0 to +1V dc
Outputs ON during label (turn ON at leading edge of label): connect to +5 to 30V dc
Microprocessor reset: toggle gray wire to opposite polarity for > 100 milliseconds (see Hookups, page 324)
Registration Accuracy*
±0.3 mm (0.012")
Maximum Web Speed*
10 m per second (33' per second)
Response Time*
100µs
Maximum Switching Speed*
1 kHz
Minimum Gap or Label Size
2 mm (0.080")
Adjustments
No user adjustments; automatic continuous adjustment of sensing threshold and drift compensation
under internal microprocessor control
Indicators
Two LEDs, green and yellow:
Green ON steadily:
power to sensor is ON
Green flashing @ 4 Hz:
output is overloaded
Yellow ON steadily:
NPN and PNP outputs are ON
Green and Yellow
flashing alternately @ 1 Hz: internal error; reset sensor
Construction
Housings are machined aluminum with black anodized finish
Environmental Rating
IP67, NEMA 6
Connections
2 m (6.5') or 9 m (30") 5-wire attached cable, or 5-pin Euro-style quick-disconnect fitting; cables for QD
models are purchased separately, see page 325.
Operating Conditions
Temperature: +5° to 50°C (+41° to 122°F)
Maximum relative humidity: 90% at 50°C, non-condensing
Certifications
UL Approval in process
*Based on 3.2 mm (0.125") gap between labels, and web speeds of up to 10 m per second (33' per second). Instantaneous web speed, not
average web speed, must be used to determine actual operating speeds in stepped-advance label systems.
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
323
C-GAGE® SLC1 Series Label Sensors
SLC1 Series Dimensions
SLC1 with Quick-Disconnect
SLC1 with Cable
Yellow Output LED
Green Power LED
103.7 mm
(4.09")
3.8 mm
(0.15")
Green: power on
Green flashing: output overload
Yellow: outputs conducting
bn: +10 to 30V dc
bu: common
wh: NPN output
bk: PNP output
gy: output invert / reset
10.2 mm
(0.40")
Green: power on
Green flashing: output overload
Yellow: outputs conducting
C-GAGE®
SLC1BB6
Label Sensor
25.4 mm
(1.00")
SENSING AREA
bn: +10 to 30V dc
bu: common
wh: NPN output
bk: PNP output
gy: output invert / reset
Label Sensor
40.8 mm
(1.61")
SENSING AREA
Clearance for
M4 (#8) screws
(2 holes)
15.1 mm
(0.59")
32.8 mm
(1.30")
C-GAGE®
SLC1BB6
30.5 mm
(1.20")
1 mm
8.9 mm (0.04")
(0.35")
68.8 mm
(2.71")
23.1 mm
(0.91")
88.9 mm
(3.49")
Remove 4 screws for cleaning.
Use 7/64" hex key
SLC1 Series Hookups
Outputs ON during gap
(Turn OFF at leading edge of label)
bn
+
10-30V dc
–
bu
wh
bk
gy*
Load
Load
Outputs ON during label
(Turn ON at leading edge of label)
bn
+
10-30V dc
–
bu
wh
bk
Load
Load
gy*
*Toggle to opposite polarity for > 100 milliseconds to reset microprocessor
324
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
Slot Sensor Accessories
Quick-Disconnect (QD) Cables
Following is the selection of cables available for SL Series Slot Sensor QD models. See the Accessories section for more cable information.
Style
5-Pin Euro
Model
Length
Connector
MQDC1-506
MQDC1-515
MQDC1-530
2 m (6.5')
5 m (15')
9 m (30')
Straight
MQDC1-506RA
MQDC1-515RA
MQDC1-530RA
2 m (6.5')
5 m (15')
9 m (30')
Right-angle
Used with:
All SL10, SL30 and SLC1 Series
Slot Sensors with QD fitting
Mounting Brackets
Model
Description
SMBSL
Dimensions
12x R2.5mm
(0.10")
8.9 mm
(0.35")
51.9 mm
(2.05")
30.4 mm
(1.20")
• For use with SL, SLE and SLO
Series slot sensors
• Angled bracket
• 304 stainless steel; hardware
included
6x ø5.5mm
(0.22")
39.9 mm
(1.58")
10.9 mm
(0.43")
7.6 mm
(0.30")
30.1 mm
(1.19")
40.0 mm
(1.58")
10.9 mm
(0.43")
6.0 mm
(0.24")
21.6 mm
(0.85")
19.1 mm
(0.75")
6.0 mm
(0.24")
6.4 mm
(0.25")
10.2 mm
(0.40")
41.3 mm
(1.62")
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
325
Slot Sensors
NOTES:
326
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
VALU-BEAM® Sensors
VALU-BEAM® Sensors
912 Series with Solid-State Outputs . . . . . . . . . . . 328
915 Series with Electromechanical Relay Output . . . 338
990 Series with Built-in 6-Digit Totalizing Counter . . 348
SMI912 Series Intrinsically Safe Sensors . . . . . . . . 356
SM91EN/RN Series for Enhanced Sunlight Immunity . . . 364
VALU-BEAM Accessories . . . . . . . . . . . . . . . . . . . 368
!
(Exceptions noted)
VALU-BEAM sensors are not suitable for use in
personnel safety applications! See WARNING on
inside front cover of catalog.
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
327
VALU-BEAM® 912 Series Sensors
VALU-BEAM 912 Series Sensors
With Solid-State Outputs
•
•
VALU-BEAM 912 cabled diffuse mode (left) and
quick-disconnect glass fiber optic mode (right) shown
Choose models for 10 to 30V dc or 24 to 250V ac operation
DC models have bipolar solid-state outputs: one NPN (sinking)
and one PNP (sourcing)
AC models have a SPST solid-state output rated for up to
3
/4 amp with simple 2-wire hookup
All models have a rear panel sensitivity adjustment and
light/dark operate switch
DC models include Banner’s exclusive† Alignment Indicating
Device system (AID™)
Choose models with integral 2 m (6.5') cable or mini-style QD
(quick-disconnect) connector; 9 m (30') cables are also
available
•
•
•
•
†
U. S. Patent #4356393
912 Series Sensing Mode Options
Opposed
Retroreflective
Diffuse
Convergent
Glass Fiber Optic
Infrared, 880 nm
912 Series Opposed Mode Emitter (E) and Receiver (R)
Models
Range
SMA91E
SM91R
SMA91EQD
SM91RQD
Supply
Voltage
Cable
2 m (6.5')
2 m (6.5')
3-Pin Mini QD
4-Pin Mini QD
60 m
(200')
Emitter:
10-250V ac/dc Bipolar
Receiver:
NPN/PNP
10-30V dc
SMA91E
SM2A91R
SMA91EQD
SM2A91RQD
2 m (6.5')
2 m (6.5')
3-Pin Mini QD
3-Pin Mini QD
Emitter:
10-250V
ac/dc
Receiver:
24-250V ac
SMA91ESR
SM91RSR
SMA91ESRQD
SM91RSRQD
2 m (6.5')
2 m (6.5')
3-Pin Mini QD
4-Pin Mini QD
Emitter:
10-250V
ac/dc
Receiver:
10-30V dc
SMA91ESR
SM2A91RSR
SMA91ESRQD
SM2A91RSRQD
328
3m
(10')
2 m (6.5')
2 m (6.5')
3-Pin Mini QD
3-Pin Mini QD
Output
Type
Emitter:
10-250V
ac/dc
Receiver:
24-250V ac
SPST SCR
Solid-state
2-Wire
Excess Gain
Beam Pattern
Effective Beam: 13 mm
1000
E
X
C
E
S
S
G
A
I
N
1500 mm
SMA91E / SM91R,
SMA91E / SM2A91R
60.0 in
1000 mm
Opposed Mode
40.0 in
100
10
500 mm
SMA91E & SM91R,
SMA91E & SM2A91R
Opposed Mode
1
0.1 m
0.33 ft
1.0 m
3.3 ft
10 m
33 ft
20.0 in
0
0
500 mm
20.0 in
1000 mm
40.0 in
1500 mm
60.0 in
0
100 m
330 ft
15 m
50 ft
30 m
100 ft
1000
Bipolar
NPN/PNP
SPST SCR
Solid-state
2-Wire
E
X
C
E
S
S
G
A
I
N
45 m
150 ft
60 m
200 ft
75 m
250ft
DISTANCE
DISTANCE
Effective Beam: 3.5 mm
SMA91ESR / SM91RSR,
SMA91ESR / SM2A91RSR
300 mm
100
12.0 in
Opposed Mode
200 mm
8.0 in
100 mm
4.0 in
0
10
SMA91ESR & SM91RSR,
SMA91ESR & SM2A91RSR
1
.01 m
.033 ft
1.0 m
3.3 ft
DISTANCE
4.0 in
200 mm
8.0 in
300 mm
Opposed Mode
.10 m
.33 ft
0
100 mm
10 m
33 ft
12.0 in
0
.6 m
2 ft
1.2 m
4 ft
1.8 m
6 ft
2.4 m
8 ft
3.0 m
10ft
DISTANCE
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
VALU-BEAM® 912 Series Sensors
P
Visible red, 650 nm
Non-Polarized
Polarized
NOTE: Retroreflective range is specified using one model BRT-3
retroreflector (3" diameter). Actual sensing range may be more
or less than specified, depending upon the efficiency and
reflective area of the retroreflector(s) in use. See page 722 for
more information.
Non-Polarized, Polarized
912 Series Retroreflective Mode
Models
Range
Cable
Supply
Voltage
Output
Type
Non-Polarized
SM912LV
SM912LVQD
2 m (6.5')
4-Pin Mini QD
2 m (6.5')
3-Pin Mini QD
10-30V dc
24-250V ac
Bipolar
NPN/PNP
SPST SCR
Solid-state
2-Wire
2 m (6.5')
4-Pin Mini QD
10-30V dc
0.3 - 4.5 m
(1 - 15')
SM2A912LVAG
SM2A912LVAGQD
2 m (6.5')
3-Pin Mini QD
E
X
C
E
S
S
SM912LV,
SM2A912LV
Retroreflective Mode
SM912LV, SM2A912LV
150 mm
With BRT-3 Reflector
6.0 in
Retroreflective Mode
100
100 mm
4.0 in
50 mm
2.0 in
0
0
G
A
I
N
10
2.0 in
50 mm
100 mm
4.0 in
With BRT-3 Reflector
6.0 in
150 mm
1
.01 m
.033 ft
.10 m
.33 ft
1.0 m
3.3 ft
0
10 m
33 ft
2m
6.6 ft
4m
13 ft
6m
20 ft
8m
26 ft
10 m
33 ft
DISTANCE
DISTANCE
1000
Polarized*
SM912LVAG
SM912LVAGQD
Beam Pattern
1000
0.15 - 9 m
(6" - 30')
SM2A912LV
SM2A912LVQD
Excess Gain
24-250V ac
Bipolar
NPN/PNP
SPST SCR
Solid-state
2-Wire
E
X
C
E
S
S
SM912LVAG,
SM2A912LVAG
Retroreflective Mode
SM912LVAG, SM2A912LVAG
75 mm
W/BRT-3 Reflector
3.0 in
Retroreflective Mode
100
50 mm
2.0 in
25 mm
1.0 in
0
G
A
I
N
10
0
25 mm
With BRT-3 Reflector
50 mm
2.0 in
75 mm
1
.01 m
.033 ft
.10 m
.33 ft
1.0 m
3.3 ft
DISTANCE
10 m
33 ft
1.0 in
3.0 in
0
1m
3.3 ft
2m
6.6 ft
3m
10 ft
4m
13 ft
5m
16 ft
DISTANCE
*Use polarized models when shiny objects will be sensed
For VALU-BEAM 912 Series Sensors:
i) 9 m (30') cables are available by adding suffix “W/30” to the model number of any cabled sensor (e.g. - SM912LV W/30)
ii) A model with a QD connector requires an accessory mating cable. See pages 368 and the Accessories section for more information.
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
329
VALU-BEAM® 912 Series Sensors
Infrared, 880 nm
912 Series Diffuse Mode
Models
Range
Supply
Voltage
Cable
Output
Type
Excess Gain
Beam Pattern
Performance based on 90% reflectance white test card
1000
SM912D
SM912DQD
2 m (6.5')
4-Pin Mini QD
10-30V dc
Bipolar
NPN/PNP
760 mm
(30")
SM2A912D
SM2A912DQD
E
X
C
E
S
S
SM912D
SM2A912D
Diffuse Mode
SM912D, SM2A912D
18 mm
100
0.75 in
Diffuse Mode
12 mm
0.50 in
6 mm
0.25 in
0
2 m (6.5')
3-Pin Mini QD
24-250V ac
SPST SCR
Solid-state
2-Wire
G
A
I
N
0
10
6 mm
0.25 in
12 mm
0.50 in
18 mm
1
1 mm
.04 in
10 mm
.4 in
100 mm
4 in
1000 mm
40 in
0.75 in
0
150 mm 300 mm 450 mm 600 mm 750 mm
6 in
12 in
18 in
24 in
30 in
DISTANCE
DISTANCE
1000
SM912DSR
SM912DSRQD
2 m (6.5')
4-Pin Mini QD
10-30V dc
Bipolar
NPN/PNP
380 mm
(15")
SM2A912DSR
SM2A912DSRQD
E
X
C
E
S
S
SM912DSR
SM2A912DSR
Diffuse Mode
SM912DSR/SM2A912DSR
18 mm
0.75 in
Diffuse Mode
100
12 mm
0.50 in
6 mm
0.25 in
0
2 m (6.5')
3-Pin Mini QD
24-250V ac
SPST SCR
Solid-state
2-Wire
G
A
I
N
10
0
6 mm
0.25 in
12 mm
0.50 in
18 mm
1
1 mm
.04 in
10 mm
.4 in
100 mm
4 in
0.75 in
0
1000 mm
40 in
75 mm 150 mm 225 mm 300 mm 375 mm
3 in
6 in
9 in
12 in
15 in
DISTANCE
DISTANCE
See Sensing Beam Information Below
912 Series Convergent Mode
Models
Focus
Supply
Voltage
Cable
Output
Type
Visible Red 650 nm
SM912CV
SM912CVQD
SM2A912CV
SM2A912CVQD
38 mm
(1.5")
Spot Size
at Focus:
1.5 mm
(0.06")
2 m (6.5')
4-Pin Mini QD
2 m (6.5')
3-Pin Mini QD
2 m (6.5')
4-Pin Mini QD
10-30V dc
24-250V ac
330
2 m (6.5')
3-Pin Mini QD
Performance based on 90% reflectance white test card
Bipolar
NPN/PNP
SPST SCR
Solid-state
2-Wire
E
X
C
E
S
S
G
A
I
N
SM912CV,
SM2A912CV,
Convergent Mode
100
SM912CV, SM2A912CV
2.4 mm
0.09 in
Convergent Mode
1.6 mm
0.06 in
0.8 mm
0.03 in
0
10
0
0.8 mm
0.03 in
1.6 mm
0.06 in
2.4 mm
1
1 mm
.04 in
10 mm
.4 in
100 mm
4 in
1000 mm
40 in
0.09 in
0
12.5 mm 25 mm 37.5 mm 50 mm 62.5 mm
0.50 in 1.0 in
1.5 in
2.0 in
2.5 in
DISTANCE
DISTANCE
1000
10-30V dc
38 mm
(1.5")
SM2A912C
SM2A912CQD
Beam Pattern
1000
Infrared 880 nm
SM912C
SM912CQD
Excess Gain
24-250V ac
Bipolar
NPN/PNP
SPST SCR
Solid-state
2-Wire
E
X
C
E
S
S
SM912C
SM2A912C
Convergent Mode
SM912C, SM2A912C
2.4 mm
100
0.09 in
Convergent Mode
1.6 mm
0.06 in
0.8 mm
0.03 in
0
G
A
I
N
10
0
0.8 mm
0.03 in
1.6 mm
0.06 in
2.4 mm
1
1 mm
.04 in
10 mm
.4 in
100 mm
4 in
DISTANCE
1000 mm
40 in
0.09 in
0
15 mm
0.60 in
30 mm
1.2 in
45 mm
1.8 in
60 mm
2.4 in
75 mm
3.0 in
DISTANCE
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
VALU-BEAM® 912 Series Sensors
Infrared 880 nm
912 Series Glass Fiber Optic Emitter (E) and Receiver (R)
Models
SMA91EF
SM91RF
SMA91EFQD
SM91RFQD
SMA91EF
SM2A91RF
SMA91EFQD
SM2A91RFQD
Range
Range
varies
with fiber
used
Cable
2 m (6.5')
2 m (6.5')
3-Pin Mini QD
4-Pin Mini QD
2 m (6.5')
2 m (6.5')
3-Pin Mini QD
3-Pin Mini QD
Supply
Voltage
Emitter:
10-250V
ac/dc
Receiver:
10-30V dc
Emitter:
10-250V
ac/dc
Receiver:
24-250V ac
Output
Type
Excess Gain
Beam Pattern
1000
E
X
C
E
S
S
Bipolar
NPN/PNP
SMA91EF & SM91RF,
SMA91EF & SM2A91RF
Opposed Mode
12 in
Opposed Mode
8 in
200 mm
100 mm
IT23S Fibers
W/L16F Lenses
10
G
A
I
N
SPST SCR
Solid-state
2-Wire
SMA91EF & SM91RF,
SMA91EF & SM2A91RF
300 mm
100
0
100 mm
1
0.1 m
0.33 ft
0
4 in
IT23S Fibers
With L16F lenses
200 mm
IT23S Fibers
W/L9 Lenses
4 in
IT23S Fibers
With L9 lenses
8 in
12 in
300 mm
1.0 m
3.3 ft
10 m
33 ft
100 m
330 ft
0
2.4 m
8 ft
4.8 m
16 ft
DISTANCE
7.2 m
24 ft
9.6 m
32 ft
12 m
40 ft
DISTANCE
Infrared 880 nm
912 Series Glass Fiber Optic Mode
Models
Range
Cable
Supply
Voltage
Excess Gain
Output
Type
Beam Pattern
Diffuse mode performance based on 90% reflectance white test card
1000
2 m (6.5')
4-Pin Mini QD
SM912F
SM912FQD
10-30V dc
Bipolar
NPN/PNP
SM912F
SM2A912F
Opposed Mode
SM912F/SM2A912F
75 mm
100
IT23S Fibers
2 in
1 in
0
G
A
I
N
3 in
Opposed Mode
50 mm
25 mm
10
IT13S Fibers
IT13S
IT23S
10 mm
.4 in
100 mm
4 in
0
25 mm
1 in
50 mm
2 in
75 mm
1
1 mm
.04 in
Range
varies
with fiber
optics
used.
SM2A912F
SM2A912FQD
E
X
C
E
S
S
3 in
0
1000 mm
40 in
100 mm 200 mm 300 mm 400 mm 500 mm
4 in
8 in
12 in
16 in
20 in
DISTANCE
DISTANCE
1000
2 m (6.5')
3-Pin QD
24-250V ac
SPST SCR
Solid-state
2-Wire
E
X
C
E
S
S
G
A
I
N
SM912F
SM2A912F
Diffuse Mode
1.9 mm
100
0.075 in
SM912F/SM2A912F
1.3 mm
0.050 in
Diffuse Mode
0.65 mm
10
BT13S Fiber
1
1 mm
.04 in
0.025 in
0
BT23S Fiber
BT13S
BT23S
0.025 in
1.3 mm
0.050 in
1.9 mm
10 mm
.4 in
100 mm
4 in
DISTANCE
1000 mm
40 in
0
0.65 mm
0.075 in
0
7.5 mm
0.3 in
15 mm 22.5 mm 30 mm 37.5 mm
0.6 in
0.9 in
1.2 in
1.5 in
DISTANCE
For VALU-BEAM 912 Series Sensors:
i) 9 m (30') cables are available by adding suffix “W/30” to the model number of any cabled sensor (e.g. - SM912D W/30)
ii) A model with a QD connector requires an accessory mating cable. See pages 368 and the Accessories section for more information.
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
331
VALU-BEAM® 912 Series Sensors
912 Series DC Specifications
Supply Voltage and Current
10 to 30V dc at 20 mA maximum, exclusive of load (except for SMA91E, ESR and EF emitters, which
operate from 10 to 250V ac or dc, 10 mA max.)
Supply Protection Circuitry
Protected against reverse polarity and transient voltages
Output Configuration
Bipolar: One current sourcing (PNP) and one current sinking (NPN) open-collector transistor
Output Rating
250 mA continuous, each output
Off-state leakage current less than 10 microamps
Output saturation voltage (PNP output) less than 1 volt at 10 mA and less than 2 volts at 250 mA
Output saturation voltage (NPN output) less than 200 millivolts at 10mA and less than 1 volt at 250 mA
Output Protection Circuitry
Protected against false pulse on power-up and continuous overload or short-circuit of outputs
Output Response Time
4 milliseconds ON/OFF (except receiver-only units which are 8 milliseconds ON and 4 milliseconds OFF);
independent of signal strength
(NOTE: 100 millisecond delay on power-up; outputs non-conducting during this time)
Repeatability
Opposed and Glass Fiber Optic Emitter-Receiver pairs: 1.0 millisecond; Retro, Diffuse, Convergent and
Glass Fiber Optic: 1.3 milliseconds
Adjustments
LIGHT/DARK OPERATE select switch and SENSITIVITY control potentiometer, both located at rear of sensor
Indicators
Exclusive, patented Alignment Indicating Device (AID™, US patent #4356393) lights a top mounted red
LED indicator whenever the sensor sees a “light” condition, with a superimposed pulse rate proportional
to the light signal strength (the stronger the signal, the faster the pulse rate). Models SMA91E &
SM91ESR emitter have a visible-red “tracer beam” which indicates “power on” and enables easy “line-ofsight” alignment.
Construction
Reinforced thermoplastic polyester housing, totally encapsulated, molded acrylic lenses and stainless
steel hardware
Environmental Rating
Meets NEMA standards 1, 2, 3, 3S, 4, 4X, 12 and 13; IEC IP66
Connections
PVC-jacketed 2 m (6.5') or 9 m (30') cables or 4-pin mini-style quick-disconnect (QD) fitting available.
Note: Opposed mode emitters use 3-pin mini-style QD fitting. See page 368 and the Accessories section.
Operating Conditions
Temperature:
-20° to +70° C (-4° to +158°F)
Maximum relative humidity: 90% at 50°C (non-condensing)
Certifications
332
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
VALU-BEAM® 912 Series Sensors
912 Series DC Hookup Diagrams
DC Sensors with Attached Cable
bn
bk
bn
+
10-30V dc
–
bu
wh
DC Sensors with Quick-Disconnect
(4-Pin Mini-Style)
wh
Load
bk
Load
Emitters with Attached Cable
bn
bu
+
10-30V dc
–
bu
Load
Load
Emitters with Quick-Disconnect
(3-Pin Mini-Style)
bn
+
bu
10-250V ac/dc
–
+
10-250V ac/dc
–
bk
3-Pin Mini-Style Pin-out
4-Pin Mini-Style Pin-out
(Cable Connector Shown)
(Cable Connector Shown)
Black Wire
Blue Wire
White Wire
Brown Wire
Brown Wire
Black Wire
Blue Wire
Quick-Disconnect (QD) Option
DC 912 Series VALU-BEAM sensors are sold with either a 2 m (6.5') or a 9 m (30') attached PVC-covered cable, or with a 4-pin
mini-style QD cable fitting. Opposed mode emitters use 3-pin mini-style QD cable fitting.
DC QD sensors are identified by the letters “QD” in their model number suffix. Mating cable for QD 912 Series sensors is model
MBCC-412. Mating cable for opposed mode emitters is model MBCC-312. Cables are supplied in a standard length of
4 m (12'). For more information on QD cables, see page 368 and the Accessories section.
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
333
VALU-BEAM® 912 Series Sensors
912 Series AC Specifications
Supply Voltage and Current
24 to 250V ac (50/60 Hz), except for SMA91E, ESR and EF emitters, which operate from 10 to 250V ac or dc
Supply Protection Circuitry
Protected against transient voltages
Output Configuration
SPST SCR solid-state relay with either normally closed or normally open contact (light/dark operate
selectable); 2-wire hookup
Output Rating
Minimum load current 10 mA, max. steady-state load capability 750 mA to 50°C ambient (122°F), 500 mA
to 70°C ambient (158°F)
Inrush capability 4 amps for 1 sec. (non-repetitive)
Off-state leakage current less than 1.7 mA rms
On-state voltage drop ≤5 volts rms at 750 mA load, ≤10 volts rms at 15 mA load
Output Protection Circuitry
Protected against false pulse on power-up
Output Response Time
8 milliseconds ON and OFF (except receiver-only units, which are 8 milliseconds 0N and 4 milliseconds
OFF; independent of signal strength
OFF time does not include load response of up to 1/2 ac cycle (8.3 milliseconds)
Response time specification of the load should be considered when important
(NOTE: 300 millisecond delay on power-up; outputs are non-conducting during this time)
Repeatability
Opposed and Glass Fiber Optic Emitter-Receiver pairs: 1.0 millisecond; Retro, Diffuse, Convergent and
Glass Fiber Optic: 2.6 milliseconds
Adjustments
LIGHT/DARK OPERATE select switch and SENSITIVITY control potentiometer, both located at rear of sensor
Indicators
Top-mounted red LED indicator lights when output is conducting. Models SMA91E & SM91ESR emitter
have a visible-red “tracer beam” which indicates “power on” and enables easy “line-of-sight” alignment.
Construction
Reinforced thermoplastic polyester housing, totally encapsulated, molded acrylic lenses and stainless
steel hardware
Environmental Rating
Meets NEMA standards 1, 2, 3, 3S, 4, 4X, 12 and 13; IEC IP66
Connections
PVC-jacketed 2 m (6.5') or 9 m (30') cables or 3-pin mini-style quick-disconnect (QD) fitting available.
See page 368 and the Accessories section.
Operating Conditions
Temperature:
-20° to +70° C (-4° to +158°F)
Maximum relative humidity: 90% at 50°C (non-condensing)
Application Notes
i) 912 Series ac sensors may be destroyed from overload conditions
ii) Use on low voltage requires careful analysis of the load to determine if the leakage current or on-state
voltage of the sensor will interfere with proper operation of the load
iii) The false-pulse protection feature may cause momentary drop-out of the load when the sensor is
wired in series or parallel with mechanical switch contacts
Certifications
334
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
VALU-BEAM® 912 Series Sensors
912 Series AC Hookup Diagrams
AC Sensors with Attached Cable
AC Sensors with Quick-Disconnect
(3-Pin Mini-Style)
bn
bn
bu
24-250V ac
bu
Load
bk
Emitters with Attached Cable
bn
bu
+
24-250V ac
Load
–
Emitters with Quick-Disconnect
(3-Pin Mini-Style)
bn
+
bu
10-250V ac/dc
–
+
10-250V ac/dc
–
bk
Mini-Style Pin-out
(Cable Connector Shown)
Black Wire
Blue Wire
Brown Wire
Quick-Disconnect (QD) Option
AC 912 Series VALU-BEAM sensors are sold with either a 2 m (6.5') or a 9 m (30') attached PVC-covered cable, or with a
3-pin mini-style QD cable fitting.
AC QD sensors are identified by the letters “QD” in their model number suffix. Mating cables for QD 912 Series sensors are
model MBCC-312. Cables are supplied in a standard length of 4 m (12'). For more information on QD cables, see page 368 and
the Accessories section.
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
335
VALU-BEAM® 912 Series Sensors
912 Series Dimensions
912 Series Opposed, Retro, and Diffuse Sensing Modes
(model suffix E, ESR, R, RSR, LV, D & DSR)
912 Series Sensor with Attached Cable
912 Series Sensor with Quick-Disconnect
LED Indicator
36.6 mm
(1.44")
35.6 mm
(1.40")
Lens Centerline
50.8 mm
(2.00")
39.1 mm
(1.54")
12.7 mm
(0.50")
M30 x 1.5 Thread
Hex Nut Supplied
26.7 mm
(1.05")
Mini-style
Quick-disconnect
M30 x 1.5 External Thread
1/2" - 14 NPSM Internal Thread
Hex Nut Supplied
912 Series Sensor - Glass Fiber Optic
(model suffix F, EF & RF)
912 Series Sensor - Convergent Sensing Mode
(model suffix LVAG, C & CV)
39.6 mm
(1.56")
42.2 mm
(1.66")
Fiber Port Centerline
912 Series Sensor - Rear View
Light/Dark Operate
(L.O. = CW, D.O. = CCW)
Remove Screws to Access Controls
Sensitivity Control
(Turn CW to Increase)
17.8 mm
(0.70")
4.5 mm
(#10) Screw Clearance (2)
5.6 mm
(0.22")
25.4 mm
(1.00")
336
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
VALU-BEAM® 912 Series Sensors
NOTES:
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
337
VALU-BEAM® 915 Series Sensors
VALU-BEAM 915 Series Sensors
with Electromechanical Relay Output
VALU-BEAM 915 Series quick-disconnect (left)
and cabled (right) versions shown
•
Models available for either 12 to 28V ac/dc, 90 to 130V ac, or 210
to 250V ac
•
SPDT electromechanical relay output is rated for up to
5 amps switching capacity
•
Rear panel sensitivity adjustment; top-mounted alignment
indicator
•
Choose models with integral 2 m (6.5') cable or mini-style QD
(quick-disconnect) connector; 9 m (30') cables are also available
915 Series Sensing Mode Options
Opposed
Retroreflective
Diffuse
Convergent
Glass and Plastic Fiber Optic
Infrared, 880 nm
915 Series Opposed Mode Emitter (E) and Receiver (R)
Models
Range
SMA91E
SMW95R
SMA91EQD
SMW95RQD
SMA91E
SMA95R
SMA91EQD
SMA95RQD
Supply
Voltage
Cable
2 m (6.5')
2 m (6.5')
3-Pin Mini QD
5-Pin Mini QD
60 m
(200')
2 m (6.5')
2 m (6.5')
3-Pin Mini QD
5-Pin Mini QD
Output
Type
1000
E
X
C
E
S
S
SPDT
E/m
Relay
G
A
I
N
100
SMA91E &
SMW95R or
SMA95R or
SMB95R
338
2 m (6.5')
2 m (6.5')
3-Pin Mini QD
5-Pin Mini QD
1500 mm
SMA91E with SMW95R
or SMA95R or SMB95R
60.0 in
1000 mm
Opposed Mode
40.0 in
20.0 in
500 mm
10
0
0
Opposed Mode
500 mm
20.0 in
1000 mm
40.0 in
60.0 in
1500 mm
1
0.1 m
0.33 ft
1.0 m
3.3 ft
10 m
33 ft
DISTANCE
SMA91E
SMB95R
SMA91EQD
SMB95RQD
Beam Pattern
Effective Beam: 13 mm
Emitter:
10-250V
ac/dc
Receiver:
12-28V ac/dc
Emitter:
10-250V
ac/dc
Receiver:
90-130V ac
Excess Gain
100 m
330 ft
0
15 m
50 ft
30 m
100 ft
45 m
150 ft
60 m
200 ft
75 m
250ft
DISTANCE
Emitter:
10-250V
ac/dc
Receiver:
210-250V ac
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
VALU-BEAM® 915 Series Sensors
Infrared 880 nm
915 Series Opposed Mode Emitter (E) and Receiver (R)
Models
Range
SMA91ESR
SMW95RSR
SMA91ESRQD
SMW95RSRQD
SMA91ESR
SMA95RSR
SMA91ESRQD
SMA95RSRQD
SMA91ESR
SMB95RSR
SMA91ESRQD
SMB95RSRQD
Cable
2 m (6.5')
2 m (6.5')
3-Pin Mini QD
5-Pin Mini QD
3m
(10')
2 m (6.5')
2 m (6.5')
3-Pin Mini QD
5-Pin Mini QD
2 m (6.5')
2 m (6.5')
3-Pin Mini QD
5-Pin Mini QD
Supply
Voltage
Output
Type
Excess Gain
Emitter:
10-250V
ac/dc
Receiver:
12-28V dc
Emitter:
10-250V
ac/dc
Receiver:
90-130V ac
Emitter:
10-250V
ac/dc
Receiver:
210-250V ac
Beam Pattern
Effective Beam: 3.5 mm
1000
SPDT
E/m
Relay
E
X
C
E
S
S
G
A
I
N
SMA91ESR &
SMW95RSR or
SMA95RSR or
SMB95RSR
100
Opposed Mode
SMA91ESR with SMW95RSR
or SMA95RSR / SMB95RSR
300 mm
12.0 in
Opposed Mode
200 mm
8.0 in
4.0 in
100 mm
0
0
10
100 mm
4.0 in
200 mm
8.0 in
12.0 in
300 mm
1
.01 m
.033 ft
.10 m
.33 ft
1.0 m
3.3 ft
DISTANCE
10 m
33 ft
0
.6 m
2 ft
1.2 m
4 ft
1.8 m
6 ft
2.4 m
8 ft
3.0 m
10ft
DISTANCE
For VALU-BEAM 915 Series Sensors:
i) 9 m (30') cables are available by adding suffix “W/30” to the model number of any cabled sensor (e.g. - SMA91E W/30)
ii) A model with a QD connector requires an accessory mating cable. See pages 368 and the Accessories section for more information.
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
339
VALU-BEAM® 915 Series Sensors
Non-Polarized, Polarized
NOTE: Retroreflective range is specified using one model BRT-3
retroreflector (3" diameter). Actual sensing range may be more or
less than specified, depending upon the efficiency and reflective area
of the retroreflector(s) in use. See page 722 for more information.
P
Visible red, 650 nm
Non-Polarized
Polarized
915 Series Retroreflective Mode
Models
Range
Cable
Supply
Voltage
Output
Type
Excess Gain
Beam Pattern
Non-Polarized
SMW915LV
SMW915LVQD
SMA915LV
SMA915LVQD
1000
2 m (6.5')
12-28V ac/dc
5-Pin Mini QD
0.15 - 9 m
(6" - 30')
2 m (6.5')
5-Pin Mini QD
90-130V ac
SPDT
E/m
Relay
E
X
C
E
S
S
SMW915LV,
SMA915LV,
SMB915LV
100
with BRT-3 reflector
Retroreflective Mode
10
4.0 in
50 mm
2.0 in
0
2.0 in
50 mm
100 mm
With BRT-3 Reflector
2 m (6.5')
210-250V ac
5-Pin Mini QD
1.0 m
3.3 ft
0
10 m
33 ft
4.0 in
6.0 in
150 mm
.10 m
.33 ft
6.0 in
100 mm
0
G
A
I
N
1
.01 m
.033 ft
SMB915LV
SMB915LVQD
SMW915LV, SMA915LV, SMB915LV
150 mm
Retroreflective Mode
2m
6.5 ft
4m
13 ft
6m
20 ft
8m
26 ft
10 m
33 ft
DISTANCE
DISTANCE
Polarized*
SMW915LVAG
SMW915LVAGQD
SMA915LVAG
SMA915LVAGQD
SMB915LVAG
SMB915LVAGQD
1000
2 m (6.5')
12-28V ac/dc
5-Pin Mini QD
0.3 - 4.5 m
(1 - 15')
2 m (6.5')
5-Pin Mini QD
90-130V ac
2 m (6.5')
210-250V ac
5-Pin Mini QD
SPDT
E/m
Relay
E
X
C
E
S
S
G
A
I
N
SMW915LVAG,
SMA915LVAG,
SMB915LVAG
100
SMW915LVAG, SMA915LVAG,
SMB915LVAG
75 mm
Retroreflective Mode
Retroreflective Mode
50 mm
2.0 in
1.0 in
25 mm
with BRT-3 reflector
0
0
10
25 mm
With BRT-3 Reflector
3.0 in
75 mm
.10 m
.33 ft
1.0 m
3.3 ft
DISTANCE
10 m
33 ft
1.0 in
2.0 in
50 mm
1
.01 m
.033 ft
3.0 in
0
1m
3.3 ft
2m
6.6 ft
3m
10 ft
4m
13 ft
5m
16 ft
DISTANCE
*Use polarized models when shiny objects will be sensed
For VALU-BEAM 915 Series Sensors:
i) 9 m (30') cables are available by adding suffix “W/30” to the model number of any cabled sensor (e.g. - SMW915D W/30)
ii) A model with a QD connector requires an accessory mating cable. See pages 368 and the Accessories section for more information.
340
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VALU-BEAM® 915 Series Sensors
Infrared 880 nm
915 Series Diffuse Mode
Models
Range
SMW915D
SMW915DQD
Cable
2 m (6.5')
5-Pin Mini QD
Supply
Voltage
Output
Type
Excess Gain
Beam Pattern
Performance based on 90% reflectance white test card
12-28V ac/dc
1000
SMA915D
SMA915DQD
760 mm
(30")
2 m (6.5')
5-Pin Mini QD
90-130V ac
SMB915D
SMB915DQD
2 m (6.5')
5-Pin Mini QD
210-250V ac
SMW915DSR
SMW915DSRQD
2 m (6.5')
5-Pin Mini QD
12-28V ac/dc
SPDT
E/m
Relay
E
X
C
E
S
S
SMW915D,
SMA915D,
SMB915D
SMW915D, SMA915D, SMB915D
18 mm
100
Diffuse Mode
Diffuse Mode
0.50 in
6 mm
0.25 in
0
G
A
I
N
10
0
6 mm
0.25 in
12 mm
0.50 in
18 mm
1
1 mm
.04 in
10 mm
.4 in
100 mm
4 in
0.75 in
12 mm
0.75 in
0
1000 mm
40 in
DISTANCE
150 mm 300 mm 450 mm 600 mm 750 mm
6 in
12 in
18 in
24 in
30 in
DISTANCE
1000
SMA915DSR
SMA915DSRQD
SMB915DSR
SMB915DSRQD
380 mm
(15")
2 m (6.5')
5-Pin Mini QD
2 m (6.5')
5-Pin Mini QD
90-130V ac
210-250V ac
SPDT
E/m
Relay
E
X
C
E
S
S
G
A
I
N
SMW915DSR
SMA915DSR
SMB915DSR
Diffuse Mode
100
SMW915DSR, SMA915DSR,
SMB915DSR
18 mm
12 mm
0.50 in
6 mm
Diffuse Mode
0
10
10 mm
.4 in
100 mm
4 in
DISTANCE
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
1000 mm
40 in
0.25 in
0
6 mm
0.25 in
12 mm
0.50 in
18 mm
1
1 mm
.04 in
0.75 in
0.75 in
0
75 mm 150 mm 225 mm 300 mm 375 mm
3 in
6 in
9 in
12 in
15 in
DISTANCE
341
VALU-BEAM® 915 Series Sensors
Visible red 650 nm
915 Series Convergent Mode
Models
Focus
SMW915CV
SMW915CVQD
Supply
Voltage
Cable
2 m (6.5')
5-Pin Mini QD
Output
Type
Excess Gain
Beam Pattern
Performance based on 90% reflectance white test card
12-28V ac/dc
1000
38 mm
(1.5")
SMA915CV
SMA915CVQD
Spot Size
at Focus:
1.5 mm
(0.06")
2 m (6.5')
5-Pin Mini QD
G
A
I
N
SMW915CV,
SMA915CV,
SMB915CV
Convergent Mode
100
SMW915CV, SMA915CV, SMB915CV
2.4 mm
0.06 in
0.8 mm
0.03 in
0
0.8 mm
0.03 in
1.6 mm
0.06 in
2.4 mm
10 mm
.4 in
100 mm
4 in
0.09 in
Convergent Mode
1.6 mm
0
10
1
1 mm
.04 in
2 m (6.5')
5-Pin Mini QD
SMB915CV
SMB915CVQD
90-130V ac
SPDT
E/m
Relay
E
X
C
E
S
S
1000 mm
40 in
0.09 in
0
12.5 mm 25 mm 37.5 mm 50 mm 62.5 mm
0.50 in 1.0 in
1.5 in
2.0 in
2.5 in
DISTANCE
DISTANCE
210-250V ac
Infrared, 880 nm
915 Series Glass Fiber Optic Mode
Models
Range
Supply
Voltage
Cable
Output
Type
Excess Gain
Beam Pattern
Diffuse mode performance based on 90% reflectance white test card
1000
SMW915F
SMW915FQD
2 m (6.5')
5-Pin Mini QD
E
X
C
E
S
S
12-28V ac/dc
SMW915F
SMA915F,
SMB915F
SMA915F
SMA915FQD
SMB915F
SMB915FQD
Range
varies by
sensing
mode
and fiber
used.
2 m (6.5')
5-Pin Mini QD
90-130V ac
210-250V ac
Opposed Mode
Glass Fibers
10 mm
.4 in
1 in
0
10
IT13S
IT23S
1 in
50 mm
2 in
75 mm
100 mm
4 in
0
25 mm
3 in
0
1000 mm
40 in
100 mm 200 mm 300 mm 400 mm 500 mm
4 in
8 in
12 in
16 in
20 in
DISTANCE
1000
G
A
I
N
SMW915F
SMA915F,
SMB915F
1.9 mm
100
Diffuse Mode
Glass Fibers
BT13S Fiber
BT13S
BT23S
100 mm
4 in
DISTANCE
1000 mm
40 in
0.025 in
0
0.65 mm
0.025 in
1.3 mm
0.050 in
1.9 mm
10 mm
.4 in
0.050 in
Diffuse Mode
0
BT23S Fiber
10
0.075 in
SMW915F, SMA915F,
SMB915F
1.3 mm
0.65 mm
1
1 mm
.04 in
342
2 in
DISTANCE
E
X
C
E
S
S
2 m (6.5')
5-Pin Mini QD
50 mm
25 mm
1
1 mm
.04 in
SPDT
E/m
Relay
3 in
Opposed Mode
IT23S Fibers
IT13S Fibers
G
A
I
N
SMW915F, SMA915F, SMB915F
75 mm
100
0.075 in
0
7.5 mm
0.3 in
15 mm 22.5 mm 30 mm 37.5 mm
0.6 in
0.9 in
1.2 in
1.5 in
DISTANCE
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
VALU-BEAM® 915 Series Sensors
Visible red, 650 nm
915 Series Plastic Fiber Optic Mode
Models
Range
Cable
Supply
Voltage
Output
Type
Excess Gain
Beam Pattern
Diffuse mode performance based on 90% reflectance white test card
1000
SMW915FP
SMW915FPQD
2 m (6.5')
5-Pin Mini QD
E
X
C
E
S
S
12-28V ac/dc
SMW915FP,
SMA915FP,
SWB915FP
Opposed Mode
Plastic Fibers
SMA915FP
SMA915FPQD
SMB915FP
SMB915FPQD
Range
varies by
sensing
mode
and fiber
used.
PIT26U Fibers
90-130V ac
SPDT
E/m
Relay
10 mm
.40 in
100 mm
4.0 in
0.6 in
30 mm
1.2 in
1.8 in
0
1000 mm
40 in
25 mm
1 in
50 mm
2 in
75 mm 100 mm 125 mm
3 in
4 in
5 in
DISTANCE
1000
100
Diffuse Mode
Plastic Fibers
SMW915FP,
SMA915FP,
SMB915FP
SMW915FP, SMA915FP, SMB915FP
3.8 mm
G
A
I
N
0.15 in
Diffuse Mode
2.5 mm
PBT46U Fiber
0.10 in
1.2 mm
0.05 in
0
210-250V ac
0
15 mm
DISTANCE
E
X
C
E
S
S
2 m (6.5')
5-Pin Mini QD
0.6 in
PIT46U
PIT26U
45 mm
1
1 mm
.04 in
2 m (6.5')
5-Pin Mini QD
1.2 in
0
10
1.8 in
Opposed Mode
30 mm
15 mm
PIT46U Fibers
G
A
I
N
SMW915FP, SMA915FP, SMB915FP
45 mm
100
10
PBT26U Fiber
1
.1 mm
.004 in
1 mm
.04 in
10 mm
.40 in
DISTANCE
PBT26U
PBT46U
0.05 in
2.5 mm
0.10 in
3.8 mm
100 mm
4.0 in
0
1.2 mm
0.15 in
0
7.5 mm
0.3 in
15 mm 22.5 mm 30 mm 37.5 mm
0.6 in
0.9 in
1.2 in
1.5 in
DISTANCE
For VALU-BEAM 915 Series Sensors:
i) 9 m (30') cables are available by adding suffix “W/30” to the model number of any cabled sensor (e.g. - SMW915FP W/30)
ii) A model with a QD connector requires an accessory mating cable. See pages 368 and the Accessories section for more information.
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
343
VALU-BEAM® 915 Series Sensors
915 Series Specifications
Supply Voltage and Current
SMW915 Series: 12 to 28V ac or dc at 50 mA maximum, exclusive of load
SMA915 Series: 90 to 130V ac (50-60 Hz) at 20 mA maximum, exclusive of load
SMB915 Series: 210 to 250V ac (50-60 Hz) at 20 mA maximum, exclusive of load
Exceptions: SMA91E and ESR emitters, which operate from 10-250V ac (50-60 Hz) or dc (10 mA max.)
Supply Protection Circuitry
Protected against transient voltages
Output Configuration
One internal “form C” (single-pole double-throw) electromechanical relay
Output Rating
Max. switching power (resistive load) = 150 W, 600 VA
Max. switching voltage (resistive load) = 250V ac or 30 V dc (120V ac max. per UL & CSA)
Max. switching current (resistive load) = 5A
Min.. voltage and current = 1 amp at 5V dc, 0.1 amp at 24V dc
Peak switching voltage = 750V ac (transient suppression recommended)
Mechanical life of relay = 10,000,000 operations
Output Protection Circuitry
Protected against false pulse on power-up
Output Response Time
20 milliseconds ON and OFF; independent of signal strength
(NOTE: 100 millisecond relay on power-up; relay de-energized during this time)
Adjustments
SENSITIVITY control on rear of sensor allows precise gain setting (turn clockwise to increase gain)
Indicators
Top-mounted red LED indicator lights whenever the sensor sees “light” condition.
Models SMA91E and SMA91ESR emitters have visible-red “tracer beam” which indicates “power on” and
enables easy “line-of-sight” alignment.
Construction
Reinforced black thermoplastic polyester housing, totally encapsulated, molded acrylic lenses and stainless
steel hardware
Environmental Rating
Meets NEMA standards 1, 2, 3, 3S, 4, 4X, 12 and 13; IEC IP66
Connections
PVC-jacketed 2 m (6.5') or 9 m (30') cable or 5-pin mini-style quick-disconnect (QD) fitting available. See
page 368 and Accessories section.
Operating Conditions
Temperature:
-40° to +50° C (-40° to +122°F)
Maximum relative humidity: 90% at 50°C (non-condensing)
Application Notes
Install transient suppressor (MOV) across any output contact which switches an inductive load
Certifications
344
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
VALU-BEAM® 915 Series Sensors
915 Series Hookup Diagrams
Sensors with Attached Cable
bn
bu
wh
Sensors with Quick-Disconnect
(5-Pin Mini-Style)
bn
+
bu Supply Voltage*
–
wh
NC
ye
C
bk
NO
+
Supply Voltage*
–
NC
ye
C
bk
NO
*see Specifications
*see Specifications
Emitters with Attached Cable
Emitters with Quick-Disconnect
(3-Pin Mini-Style)
bn
bn
bu
+
+
10-250V ac/dc
–
bu
10-250V ac/dc
–
bk
3-Pin Mini-Style Pin-out
5-Pin Mini-Style Pin-out
(Cable Connector Shown)
(Cable Connector Shown)
White Wire
Black Wire
Blue Wire
Brown Wire
Brown Wire
Black Wire
Blue Wire
Yellow Wire
Quick-Disconnect (QD) Option
915 Series VALU-BEAM sensors are sold with either a 2 m (6.5') or a 9 m (30') attached PVC-covered cable, or with a 5-pin
mini-style QD cable fitting. Opposed mode emitters use 3-pin mini-style QD cable fitting.
QD sensors are identified by the letters “QD” in their model number suffix. Mating cables for QD 915 Series sensors are model
MBCC-512. Cables are supplied in a standard length of 4 m (12'). For more information on QD cables, see page 368 and the
Accessories section.
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
345
VALU-BEAM® 915 Series Sensors
915 Series Dimensions
915 Series Opposed, Retro, and Diffuse Sensing Modes
(model suffix E, ESR, R, RSR, LV, D & DSR)
915 Series Sensor with Attached Cable
915 Series Sensor with Quick-Disconnect
LED Indicator
36.6 mm
(1.44")
35.6 mm
(1.40")
Lens Centerline
50.8 mm
(2.00")
39.1 mm
(1.54")
12.7 mm
(0.50")
26.7 mm
(1.05")
M30 x 1.5 External Thread
1/2" - 14 NPSM Internal Thread
Hex Nut Supplied
Mini-style
Quick-disconnect
915 Series Sensor - Convergent Sensing Mode
(model suffix LVAG & CV)
915 Series Sensor - Glass Fiber Optic
(model suffix F)
39.6 mm
(1.56")
42.2 mm
(1.66")
Fiber Port Centerline
915 Series Sensor - Plastic Fiber Optic
(model suffix FP)
42.2 mm
(1.66")
915 Series Sensor - Rear View
Sensitivity Control
(Turn CW to Increase)
Fiber Port Centerline
17.8 mm
(0.70")
5.6 mm
(0.22")
4.5 mm
(#10) Screw Clearance (2)
25.4 mm
(1.00")
346
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
VALU-BEAM® 915 Series Sensors
NOTES:
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
347
VALU-BEAM® 990 Series Sensors
VALU-BEAM 990 Series Sensors
With Built-In Totalizing Counter
VALU-BEAM 990 Series quick-disconnect
and cabled models shown
•
Each sensor is an economical, one-piece photoelectric counting
system
•
Simple, 2-wire hookup to universal voltage: 12 to 115V dc or 10 to
250V ac
•
Six-digit totalizer is reset upon power-up, or by touching the top of
the sensor with a permanent magnet
•
Models are available with memory backup to “hold” count for up to
100 hours with power removed (order model suffix “MB”)
•
Specially-designed infrared retroreflective version is available for
counting people passing through entryways
990 Series Sensing Mode Options
Opposed
Retroreflective
Convergent
Glass and Plastic Fiber Optic
Infrared, 880 nm
990 Series Opposed Mode Emitter (E) and Receiver (R)
Models
Range
Supply
Voltage
Cable
Output
Type
Excess Gain
Beam Pattern
Effective Beam: 12.7 mm
1000
SMA91E
SMA99R
SMA91EQD
SMA99RQD
60 m
(200')
2 m (6.5')
2 m (6.5')
3-Pin Mini QD
3-Pin Mini QD
Emitter:
10-250V
ac/dc
Receiver:
10-250V ac
or
12-115V dc
Built-in
6-digit
totalizing
counter
E
X
C
E
S
S
G
A
I
N
SMA91E &
SMA99R
SMA91E / SMA99R
1500 mm
100
10
20.0 in
0
Opposed Mode
0
500 mm
20.0 in
1000 mm
40.0 in
1500 mm
1.0 m
3.3 ft
10 m
33 ft
100 m
330 ft
60.0 in
0
15 m
50 ft
30 m
100 ft
DISTANCE
SMA91ESR
SMA99RSR
SMA91ESRQD
SMA99RSRQD
3m
(10')
2 m (6.5')
2 m (6.5')
3-Pin Mini QD
3-Pin Mini QD
Built-in
6-digit
totalizing
counter
60 m
200 ft
SMA91ESR &
SMA91RSR
300 mm
100
Opposed Mode
12.0 in
Opposed Mode
200 mm
8.0 in
100 mm
4.0 in
0
G
A
I
N
10
1
.01 m
.033 ft
.10 m
.33 ft
75 m
250ft
Effective Beam: 3.5 mm
SMA91ESR &
SMA99RSR
1.0 m
3.3 ft
DISTANCE
348
45 m
150 ft
DISTANCE
1000
Emitter:
10-250V
ac/dc
Receiver:
10-250V ac
or
12-115V dc
40.0 in
500 mm
1
0.1 m
0.33 ft
E
X
C
E
S
S
60.0 in
Opposed Mode
1000 mm
10 m
33 ft
0
100 mm
4.0 in
200 mm
8.0 in
300 mm
12.0 in
0
.6 m
2 ft
1.2 m
4 ft
1.8 m
6 ft
2.4 m
8 ft
3.0 m
10ft
DISTANCE
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
VALU-BEAM® 990 Series Sensors
P
Visible red 650 nm and Infrared 940 nm
Non-Polarized
Polarized
NOTE: Retroreflective range is specified using one model BRT-3
retroreflector (3-inch diameter). Actual sensing range may be more or less
than specified, depending upon the efficiency and reflective area of the
retroreflector(s) in use. See page 722 for more information.
990 Series Retroreflective Mode
Models
Range
Cable
Supply
Voltage
Output
Type
Excess Gain
Non-Polarized (Visible red, 650 nm)
SMA990LV
SMA990LVQD
0.15 - 9 m
(6" - 30')
2 m (6.5')
3-Pin Mini QD
10-250V ac
or
12-115V dc
Beam Pattern
1000
Built-in
6-digit
totalizing
counter
E
X
C
E
S
S
SMA990LV
100
SMA990LV
150 mm
Retroreflective Mode
with BRT-3 reflector
4.0 in
50 mm
2.0 in
0
G
A
I
N
10
0
50 mm
2.0 in
100 mm
150 mm
1
.01 m
.033 ft
Non-Polarized (Infrared, 940 nm)*
9m
(30')
2 m (6.5')
3-Pin Mini QD
10-250V ac
or
12-115V dc
.10 m
.33 ft
1.0 m
3.3 ft
6.0 in
0
10 m
33 ft
2m
6.6 ft
4m
13 ft
2 m (6.5')
3-Pin Mini QD
10-250V ac
or
12-115V dc
8m
26 ft
10 m
33 ft
1000
Built-in
6-digit
totalizing
counter
E
X
C
E
S
S
SMA990LT
100
SMA990LT
150 mm
Retroreflective Mode
with BRT-3 reflector
6.0 in
Retroreflective Mode
100 mm
4.0 in
50 mm
2.0 in
0
G
A
I
N
10
0
50 mm
2.0 in
With BRT-3 Reflector
100 mm
4.0 in
150 mm
1
.01 m
.033 ft
Polarized (Visible red, 650 nm)†
0.3 - 4.5 m
(1 - 15')
6m
20 ft
DISTANCE
.10 m
.33 ft
1.0 m
3.3 ft
6.0 in
0
10 m
33 ft
1.8 m
6 ft
3.6 m
12 ft
5.4 m
18 ft
7.2 m
24 ft
9m
30 ft
DISTANCE
DISTANCE
SMA990LVAG
SMA990LVAGQD
4.0 in
With BRT-3 Reflector
DISTANCE
SMA990LT
SMA990LTQD
6.0 in
Retroreflective Mode
100 mm
1000
Built-in
6-digit
totalizing
counter
E
X
C
E
S
S
SMA990LVAG
100
SMA990LVAG
75 mm
Retroreflective Mode
with BRT-3 reflector
3.0 in
Retroreflective Mode
50 mm
2.0 in
25 mm
1.0 in
0
G
A
I
N
10
0
25 mm
With BRT-3 Reflector
50 mm
2.0 in
75 mm
1
.01 m
.033 ft
.10 m
.33 ft
1.0 m
3.3 ft
10 m
33 ft
DISTANCE
1.0 in
3.0 in
0
1m
3.3 ft
2m
6.6 ft
3m
10 ft
4m
13 ft
5m
16 ft
DISTANCE
* Note: “LT” models include 0.1 second delays to minimize multiple counts in “people counting” applications.
Use polarized models when shiny objects will be counted.
†
For VALU-BEAM 990 Series Sensors:
i) 9 m (30') cables are available by adding suffix “W/30” to the model number of any cabled sensor (e.g. - SMA990LV W/30)
ii) A model with a QD connector requires an accessory mating cable. See pages 368 and the Accessories section for more information.
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
349
VALU-BEAM® 990 Series Sensors
Visible red 650 nm
990 Series Convergent Mode
Models
Focus
Supply
Voltage
Cable
Excess Gain
Output
Type
Beam Pattern
Performance based on 90% reflectance white test card
1000
SMA990CV
38 mm
(1.5")
SMA990CV
SMA990CVQD
Spot Size
at Focus:
1.5 mm
(0.06")
2 m (6.5')
3-Pin Mini QD
10-250V ac
or
12-115V dc
Built-in
6-digit
totalizing
counter
E
X
C
E
S
S
Convergent Mode
100
SMA990CV
2.4 mm
0.09 in
Convergent Mode
1.6 mm
0.06 in
0.8 mm
0.03 in
0
G
A
I
N
10
1
1 mm
.04 in
10 mm
.4 in
100 mm
4 in
0
0.8 mm
0.03 in
1.6 mm
0.06 in
2.4 mm
0.09 in
0
1000 mm
40 in
12.5 mm 25 mm 37.5 mm 50 mm 62.5 mm
0.50 in 1.0 in
1.5 in
2.0 in
2.5 in
DISTANCE
DISTANCE
Infrared, 880 nm
990 Series Glass Fiber Optic
Models
Range
Supply
Voltage
Cable
Output
Type
Excess Gain
Beam Pattern
Diffuse mode performance based on 90% reflectance white test card
1000
SMA990F
E
X
C
E
S
S
SMA990F
SMA990FQD
Range
varies by
sensing
mode
and fiber
optics
used
IT23S Fibers
2 m (6.5')
3-Pin Mini QD
10-250V ac
or
12-115V dc
50 mm
2 in
25 mm
Opposed Mode
Glass Fibers
10 mm
.4 in
1 in
0
10
1
1 mm
.04 in
Built-in
6-digit
totalizing
counter
3 in
Opposed Mode
IT13S Fibers
G
A
I
N
SMA990F
75 mm
100
IT13S
IT23S
1 in
50 mm
2 in
75 mm
100 mm
4 in
0
25 mm
3 in
0
1000 mm
40 in
100 mm 200 mm 300 mm 400 mm 500 mm
4 in
8 in
12 in
16 in
20 in
DISTANCE
DISTANCE
1000
E
X
C
E
S
S
G
A
I
N
SMA990F
1.9 mm
100
Diffuse Mode
Glass Fibers
0.050 in
Diffuse Mode
0.65 mm
0
BT23S Fiber
10
BT13S Fiber
1
1 mm
.04 in
0.075 in
SMA990F
1.3 mm
BT13S
BT23S
100 mm
4 in
DISTANCE
1000 mm
40 in
0
0.65 mm
0.025 in
1.3 mm
0.050 in
1.9 mm
10 mm
.4 in
0.025 in
0.075 in
0
7.5 mm
0.3 in
15 mm 22.5 mm 30 mm 37.5 mm
0.6 in
0.9 in
1.2 in
1.5 in
DISTANCE
For VALU-BEAM 990 Series Sensors:
i) 9 m (30') cables are available by adding suffix “W/30” to the model number of any cabled sensor (e.g. - SMA990CV W/30)
ii) A model with a QD connector requires an accessory mating cable. See pages 368 and the Accessories section for more information.
350
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
VALU-BEAM® 990 Series Sensors
Visible red, 650 nm
990 Series Plastic Fiber Optic
Models
Range
Cable
Supply
Voltage
Output
Type
Excess Gain
Beam Pattern
Diffuse mode performance based on 90% reflectance white test card
1000
SM990FP
E
X
C
E
S
S
SMA990FP
SMA990FPQD
Range
varies by
sensing
mode
and fiber
optics
used
2 m (6.5')
3-Pin Mini QD
10-250V ac
or
12-115V dc
10
10 mm
.40 in
100 mm
4.0 in
30 mm
1.2 in
15 mm
0.6 in
0
PIT26U Fiber
1
1 mm
.04 in
Built-in
6-digit
totalizing
counter
1.8 in
Opposed Mode
Opposed Mode
Plastic Fibers
PIT46U Fiber
G
A
I
N
SMA990FP
45 mm
100
PIT46U
PIT26U
0
15 mm
0.6 in
30 mm
1.2 in
45 mm
1.8 in
0
1000 mm
40 in
25 mm
1 in
50 mm
2 in
75 mm 100 mm 125 mm
3 in
4 in
5 in
DISTANCE
DISTANCE
1000
E
X
C
E
S
S
SMA990FP
100
SMA990FP
Diffuse Mode
Plastic Fibers
3.8 mm
0.10 in
1.2 mm
0.05 in
0
G
A
I
N
0.15 in
Diffuse Mode
2.5 mm
PBT46U Fiber
10
PBT26U Fiber
1
.1 mm
.004 in
1 mm
.04 in
10 mm
.4 in
DISTANCE
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
PBT26U
PBT46U
0.05 in
2.5 mm
0.10 in
3.8 mm
100 mm
4 in
0
1.2 mm
0.15 in
0
7.5 mm
0.3 in
15 mm 22.5 mm 30 mm 37.5 mm
0.6 in
0.9 in
1.2 in
1.5 in
DISTANCE
351
VALU-BEAM® 990 Series Sensors
990 Series Specifications
Supply Voltage and Current
990 Series sensors wire directly to either 10 to 250V ac (50/60 Hz) or 12 to 115V dc at less than 20 milliamps
Supply Protection Circuitry
Protected against transient voltages
Sensor Response Time
15 milliseconds LIGHT; 15 milliseconds DARK (except model SMA990LT); independent of signal strength
NOTE: 100 millisecond delay on power up (no counts are entered during this time)
Count Entry
Counts are entered on DARK-to-LIGHT transition
Count Reset
In standard models, counter is reset to zero automatically upon applying power to the sensor. All models
may be reset by touching the housing on top of the sensor with permanent magnet (supplied with sensor)
Indicators
Top-mounted red LED indicator lights whenever the sensor sees “light” condition.
Models SMA91E and SMA91ESR emitters have visible-red “tracer beam” which indicates “power on” and
enables easy “line-of-sight” alignment.
Construction
Reinforced thermoplastic polyester housing, totally encapsulated, o-ring sealed lenses or fiber fittings, stainless
steel hardware
Environmental Rating
Meets NEMA standards 1, 2, 3, 3S, 4, 4X, 12 and 13; IEC IP66
Connections
PVC-jacketed 2-conductor 2 m (6.5') or 9 m (30') cables or 3-pin mini-style quick-disconnect (QD) fitting
are available. QD cables are ordered separately. See page 368 and Accessories section.
Operating Conditions
Temperature:
0° to 50°C (32° to 122°F)
Maximum relative humidity: 90% at 50°C (non-condensing)
Application Notes
Models with memory backup have no power-up delay. Some models with memory backup may increment
1 count upon reapplication of power
Certifications
Note: 990 Series sensors with internal memory backup (MB) for maintaining “count memory” are available by special order by
adding the suffix “MB” to the model number (eg.- SMA990LVMB).
352
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
VALU-BEAM® 990 Series Sensors
990 Series Hookup Diagrams
Sensors with Attached Cable
bn
bu
+
–
Sensors with Quick-Disconnect
3-Pin Mini-Style
bn
10-250V ac
or 12 to 115V dc
bu
bu
10-250V ac
– or 12 to 115V dc
bk
Emitters with Attached Cable
bn
+
Emitters with Quick-Disconnect
3-Pin Mini-Style
bn
+
bu
10-250V ac/dc
–
+
10-250V ac/dc
–
bk
3-Pin Mini-Style Pin-out
(Cable Connector Shown)
Black Wire
Blue Wire
Brown Wire
Quick-Disconnect (QD) Option
990 Series VALU-BEAM sensors are sold with either a 2 m (6.5') or a 9 m (30') attached PVC-covered cable, or with a 3-pin ministyle QD cable fitting.
QD sensors are identified by the letters “QD” in their model number suffix. Mating cables for QD 990 Series sensors are model
MBCC-312. Cables are supplied in a standard length of 4 m (12'). For more information on QD cables, see page 368 and the
Accessories section.
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
353
VALU-BEAM® 990 Series Sensors
990 Series Dimensions
990 Series Opposed, Retro, and Diffuse Sensing Modes
(model suffix E, ESR, R, RSR, LV & LT)
990 Series Sensor with Attached Cable
990 Series Sensor with Quick-Disconnect
Reset Counter to Zero by
Touching With a Magnet Here
36.6 mm
(1.44")
49.8 mm
(1.96")
Lens Centerline
50.8 mm
(2.00")
39.1 mm
(1.54")
17.8 mm
(0.70")
12.7 mm
(0.50")
5.6 mm
(0.22")
Hex Nut Supplied
M30 x 1.5 External Thread
1/2" - 14 NPSM"ternal Thread
26.7 mm
(1.05")
Mini-style
Quick-disconnect
25.4 mm
(1.00")
990 Series Sensor - Convergent Sensing Mode
(model suffix LVAG & CV)
990 Series Sensor - Glass Fiber Optic
(model suffix F)
53.8 mm
(2.12")
56.4 mm
(2.22")
Fiber Port Centerline
990 Series Sensor - Plastic Fiber Optic
(model suffix FP)
990 Series Sensor - Rear View
LED Indicator
56.4 mm
(2.22")
Fiber Port Centerline
4.5 mm
(#10) Screw Clearance (2)
External Thread
M30 x 1.5
354
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
VALU-BEAM® 990 Series Sensors
NOTES:
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
355
VALU-BEAM® SMI912 Series Sensors
VALU-BEAM SMI912 Series Sensors
SMI912 Series sensor, with CI3RC2 current amplifier module
(left) and intrinsic safety barrier (right)
•
Intrinsically safe sensors with the performance of VALU-BEAM
Sensors
•
Use with approved intrinsic safety barriers and model CI3RC2
current trip point amplifier (see hookup diagram on page 361)
•
Certified for use in all Classes, Groups and Divisions of
hazardous locations as defined by Article 500 of the National
Electrical Code when used with approved I.S. barriers
•
All models have rear panel sensitivity control and light/dark
operate switch, plus Banner’s exclusive† Alignment Indicating
Device system (AID™)
•
3-pin mini-style quick-disconnect (QD) connector is standard
on all models; mating cables are ordered separately
†
U.S. Patent #4356393
SMI912 Series Sensing Mode Options
Opposed
Retroreflective
Diffuse
Convergent
Glass and Plastic Fiber Optic
Infrared, 880 nm
SMI912 Series Opposed Mode Emitter (E) and Receiver (R)
Models
Range
Supply
Voltage
Cable
Output
Type
Excess Gain
Beam Pattern
1000
SMI91EQD
SMI91RQD
60 m
(200')
3-Pin Mini QD
10-30V dc
Receiver:
NPN
E
X
C
E
S
S
G
A
I
N
Effective Beam: 13 mm
100
10
1500 mm
SMI91EQD &
SMI91RQD
60.0 in
1000 mm
Opposed Mode
40.0 in
20.0 in
500 mm
SMI91EQD &
SMI91RQD
0
0
Opposed Mode
500 mm
20.0 in
1000 mm
40.0 in
60.0 in
1500 mm
1
0.1 m
0.33 ft
1.0 m
3.3 ft
10 m
33 ft
0
100 m
330 ft
15 m
50 ft
DISTANCE
SMI91ESRQD
SMI91RSRQD
3m
(10')
3-Pin Mini QD
10-30V dc
Receiver:
NPN
60 m
200 ft
SMI91ESRQD &
SMI91RSRQD
300 mm
100
12.0 in
Opposed Mode
200 mm
8.0 in
100 mm
4.0 in
0
G
A
I
N
75 m
250ft
Effective Beam: 3.5 mm
10
SMI91ESRQD &
SMI91RSRQD
1
.01 m
.033 ft
0
100 mm
4.0 in
200 mm
8.0 in
300 mm
12.0 in
Opposed Mode
.10 m
.33 ft
1.0 m
3.3 ft
DISTANCE
356
45 m
150 ft
DISTANCE
1000
E
X
C
E
S
S
30 m
100 ft
10 m
33 ft
0
.6 m
2 ft
1.2 m
4 ft
1.8 m
6 ft
2.4 m
8 ft
3.0 m
10ft
DISTANCE
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
VALU-BEAM® SMI912 Series Sensors
NOTE: Use polarized model when shiny objects will be sensed.
Retroreflective range is specified using one model BRT-3 retroreflector
(3" diameter). Actual sensing range may be more or less than
specified, depending upon the efficiency and reflective area of the
retroreflector(s) in use. See page 722 for more information.
P
Visible red, 650 nm
Non-Polarized
Polarized
SMI912 Series Retroreflective Mode
Models
Range
Cable
Supply
Voltage
Output
Type
Excess Gain
1000
Non-Polarized
SMI912LVQD
0.15 - 9 m
(6" - 30')
3-Pin Mini QD
Beam Pattern
E
X
C
E
S
S
10-30V dc
SMI912LVQD
Retroreflective Mode
With BRT-3 Reflector
NPN
6.0 in
Retroreflective Mode
100 mm
4.0 in
50 mm
2.0 in
0
10
G
A
I
N
SMI912LVQD
150 mm
100
0
50 mm
2.0 in
100 mm
4.0 in
With BRT-3 Reflector
150 mm
1
.01 m
.033 ft
.10 m
.33 ft
1.0 m
3.3 ft
10 m
33 ft
6.0 in
0
2m
6.6 ft
4m
13 ft
DISTANCE
6m
20 ft
8m
26 ft
10 m
33 ft
DISTANCE
1000
Polarized
E
X
C
E
S
S
SMI912LVAGQD
Retroreflective Mode
SMI912LVAGQD
75 mm
100
W/BRT-3 Reflector
3.0 in
Retroreflective Mode
50 mm
2.0 in
25 mm
1.0 in
0
SMI912LVAGQD
0.3 - 4.5 m
(1 - 15')
3-Pin Mini QD
10-30V dc
10
G
A
I
N
NPN
0
25 mm
1.0 in
With BRT-3 Reflector
50 mm
2.0 in
75 mm
1
.01 m
.033 ft
.10 m
.33 ft
1.0 m
3.3 ft
3.0 in
0
10 m
33 ft
1m
3.5 ft
2m
6.6 ft
3m
10 ft
4m
13 ft
5m
16 ft
DISTANCE
DISTANCE
Infrared 880 nm
SMI912 Series Diffuse Mode
Models
Range
Cable
Supply
Voltage
Output
Type
Excess Gain
Beam Pattern
Performance based on 90% reflectance white test card
1000
SMI912DSRQD
SMI912DSRQD
390 mm
(15")
E
X
C
E
S
S
3-Pin Mini QD
10-30V dc
NPN
Diffuse Mode
SMI912DSRQD
18 mm
0.75 in
Diffuse Mode
100
12 mm
0.50 in
6 mm
0.25 in
0
G
A
I
N
10
1
1 mm
.04 in
10 mm
.4 in
100 mm
4 in
0
6 mm
0.25 in
12 mm
0.50 in
18 mm
0.75 in
0
1000 mm
40 in
75 mm 150 mm 225 mm 300 mm 375 mm
3 in
6 in
9 in
12 in
15 in
DISTANCE
DISTANCE
1000
SMI912DQD
SMI912DQD
780 mm
(30")
E
X
C
E
S
S
3-Pin Mini QD
10-30V dc
NPN
Diffuse Mode
SMI912DQD
18 mm
100
0.75 in
Diffuse Mode
12 mm
0.50 in
6 mm
0.25 in
0
G
A
I
N
10
0
6 mm
0.25 in
12 mm
0.50 in
18 mm
1
1 mm
.04 in
10 mm
.4 in
100 mm
4 in
DISTANCE
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
1000 mm
40 in
0.75 in
0
150 mm 300 mm 450 mm 600 mm 750 mm
6 in
12 in
18 in
24 in
30 in
DISTANCE
357
VALU-BEAM® SMI912 Series Sensors
Visible red 650 nm
SMI912 Series Convergent Mode
Models
Focus
Supply
Voltage
Cable
Output
Type
Excess Gain
Beam Pattern
Performance based on 90% reflectance white test card
1000
SMI912CVQD
E
X
C
E
S
S
38 mm
(1.5")
SMI912CVQD
Spot Size
at Focus:
1.5 mm
(0.06"))
3-Pin Mini QD
10-30V dc
NPN
Convergent Mode
SMI912CVQD
2.4 mm
100
0.09 in
Convergent Mode
1.6 mm
0.06 in
0.8 mm
0.03 in
0
G
A
I
N
10
0
0.8 mm
0.03 in
1.6 mm
0.06 in
2.4 mm
1
1 mm
.04 in
10 mm
.4 in
100 mm
4 in
0.09 in
0
1000 mm
40 in
15 mm
0.60 in
30 mm
1.2 in
45 mm
1.8 in
60 mm
2.4 in
75 mm
3.0 in
DISTANCE
DISTANCE
Infrared, 880 nm
SMI912 Series Glass Fiber Optic Emitter (E) and Receiver (R)
Models
Range
Supply
Voltage
Cable
Output
Type
Excess Gain
Beam Pattern
1000
E
X
C
E
S
S
SMI91EFQD &
SMI91RFQD
Opposed Mode
100
SMI91EFQD &
SMI91RFQD
75 mm
IT23S Fibers
2 in
Opposed Mode
25 mm
0
SMI91EFQD
SMI91RFQD
Range
varies
with
fiber
optics
used
G
A
I
N
10
IT13S Fibers
10-30V dc
IT13S
1 in
IT23S
10 mm
.4 in
100 mm
4 in
1 in
50 mm
2 in
3 in
0
1000 mm
40 in
100 mm 200 mm 300 mm 400 mm 500 mm
4 in
8 in
12 in
16 in
20 in
DISTANCE
DISTANCE
NPN
0
25 mm
75 mm
1
1 mm
.04 in
3-Pin Mini QD
3 in
50 mm
1000
E
X
C
E
S
S
G
A
I
N
SMI91EFQD &
SMI91RFQD
Opposed Mode
Glass Fiber
100
SMI91EFQD &
SMI91RFQD
300 mm
12.0 in
Opposed Mode
200 mm
IT23S Fibers
w/L16F lenses
10
8.0 in
100 mm
0
100 mm
1
0.1 m
0.33 ft
1.0 m
3.3 ft
0
IT23S Fibers
With L16F lenses
200 mm
IT23S Fibers
w/L9 lenses
4.0 in
IT23S Fibers
With L9 lenses
300 mm
10 m
33 ft
DISTANCE
100 m
330 ft
4.0 in
8.0 in
12.0 in
0
2.4 m
8 ft
4.8 m
16 ft
7.2 m
24 ft
9.6 m
32 ft
12 m
40 ft
DISTANCE
For VALU-BEAM SMI912 Series Sensors:
i) All models require a mating cable. See page 368 for more information.
358
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
VALU-BEAM® SMI912 Series Sensors
Infrared, 880 nm
SMI912 Series Glass Fiber Optic
Models
Range
Cable
Supply
Voltage
Output
Type
Excess Gain
Beam Pattern
Diffuse mode performance based on 90% reflectance white test card
1000
SMI912FQD
E
X
C
E
S
S
Opposed Mode
100
IT23S Fibers
SMI912FQD
75 mm
2 in
25 mm
1 in
0
SMI912FQD
Range
varies by
sensing
mode
and fiber
optics
used
G
A
I
N
3 in
Opposed Mode
50 mm
10
IT13S Fibers
1
1 mm
.04 in
10 mm
.4 in
100 mm
4 in
IT13S
IT23S
1 in
50 mm
2 in
75 mm
3 in
0
1000 mm
40 in
100 mm 200 mm 300 mm 400 mm 500 mm
4 in
8 in
12 in
16 in
20 in
DISTANCE
DISTANCE
3-Pin Mini QD
10-30V dc
0
25 mm
NPN
1000
SMI912FQD
E
X
C
E
S
S
G
A
I
N
Diffuse Mode
1.9 mm
100
0.075 in
SMI912FQD
1.3 mm
0.050 in
Diffuse Mode
0.65 mm
BT13S Fiber
1
1 mm
.04 in
0.025 in
0
BT23S Fiber
10
BT13S
0
BT23S
0.65 mm
0.025 in
1.3 mm
0.050 in
1.9 mm
10 mm
.4 in
100 mm
4 in
0.075 in
0
1000 mm
40 in
7.5 mm
0.3 in
15 mm 22.5 mm 30 mm 37.5 mm
0.6 in
0.9 in
1.2 in
1.5 in
DISTANCE
DISTANCE
Visible red, 650 nm
SMI912 Series Plastic Fiber Optic
Models
Range
Cable
Supply
Voltage
Output
Type
Excess Gain
Beam Pattern
Diffuse mode performance based on 90% reflectance white test card
1000
E
X
C
E
S
S
SMI912FPQD
Range
varies by
sensing
mode
and fiber
optics
used
G
A
I
N
SMI912FPQD
Opposed Mode
Plastic Fibers
100
45 mm
0.6 in
0
10
PIT26U Fibers
PIT26U
PIT46U
0.6 in
30 mm
0.12 in
45 mm
10 mm
0.4 in
100 mm
4.0 in
NPN
0
15 mm
1000 mm
40 in
0.18 in
0
25 mm
1 in
50 mm
2 in
DISTANCE
10-30V dc
0.12 in
Opposed Mode
15 mm
PIT46U Fibers
1
0.1 mm
0.04 in
3-Pin Mini QD
0.18 in
SMI912FPQD
30 mm
75 mm 100 mm 125 mm
3 in
4 in
5 in
DISTANCE
1000
E
X
C
E
S
S
SMI912FPQD
SMI912FPQD
Diffuse Mode
Plastic Fibers
100
3.6 mm
0.10 in
1.2 mm
0.05 in
0
G
A
I
N
0.15 in
Diffuse Mode
2.4 mm
PBT46U
Fibers
10
PBT26U
Fibers
1
0.01 mm
0.004 in
1.0 mm
0.04 in
10 mm
0.4 in
DISTANCE
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
PBT26U
PBT46U
0.05 in
2.4 mm
0.10 in
3.6 mm
100 mm
4 in
0
1.2 mm
0.15 in
0
7.5 mm
0.3 in
15 mm 22.5 mm 30 mm 37.5 mm
0.6 in
0.9 in
1.2 in
1.8 in
DISTANCE
359
VALU-BEAM® SMI912 Series Sensors
SMI912 Series Specifications
Supply Voltage and Current
10 to 30V dc for sensor, 25 mA maximum
Division 1 use, with barriers, requires a minimum system supply voltage of 10V
Output Configuration
Current sinking NPN open collector transistor
Output Rating
3-wire hookup sinks 15 mA maximum, continuous
2-wire hookup sinks ≤10 mA (OFF-state) and ≥20 mA (ON state)
Output Protection Circuitry
Protected against false pulse on power-up and short circuit of output
Output Response Time
4 milliseconds ON and OFF, except for opposed mode receivers, which are 8 ms ON, 4 ms OFF;
independent signal strength
(NOTE: 100 millisecond delay on power-up: output is non-conducting during this time)
Repeatability
Opposed: 1.0 millisecond; Retro, Diffuse, Convergent, Plastic and Glass Fiber Optic: 1.3 milliseconds
Adjustments
LIGHT/DARK OPERATE select switch on rear of sensor
Sensitivity control on rear of sensor allows precise gain setting (turn clockwise to increase gain)
Indicators
Exclusive, patented Alignment Indicating Device (AID™, US patent #4356393) lights at top mounted red
LED indicator whenever the sensor sees a “light” condition, with a superimposed pulse rate proportional
to the light signal strength (the stronger the signal, the faster the pulse rate).
Construction
Reinforced thermoplastic polyester housing, totally encapsulated, molded acrylic lenses, stainless steel
hardware
Environmental Rating
Meets NEMA standards 1, 2, 3, 3S, 4, 4X, 12 and 13; IEC IP66
Connections
Supplied with 3-pin quick-disconnect (QD) fitting and requires the use of mating cable model SMICC-312. Cable is
not supplied with sensors. See page 368 and Accessories section.
Operating Conditions
Temperature:
Relative relative humidity:
Certifications
-20° to +70°C (-4 to +158°F)
90% at 50°C (non-condensing)
Exia
APPROVALS
360
CSA:
#LR 41887
Instrinsically Safe, with Entity for:
Class I, Groups A-D
Class I, Div. 2, Groups A-D
FM:
#J.I. OR3HO.AX
Intrinsically Safe, with Entity for:
Class I, II, III, Div. 1, Groups A-G
Class I, II, III, Div. 2, Groups A-D and G
KEMA:
#Ex-96.D.0950
EEx ia IIC T6
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
VALU-BEAM® SMI912 Series Sensors
SMI912 Series Hookup Diagrams
Opposed Mode Emitter and Receiver Hookup
Non-Hazardous Area
Hazardous Area
1
Dual Barrier
In +
105 to 130V ac
AC
Supply
4 5 6 7 8
Relay Output
5 Amp Contacts
CI3RC2
210 to 250V ac
9 10 11 1 2 3
Input:
≤10mA (OFF State)
≥20mA (ON State)
+ Out
I.S.–
–
Aux.
Input
Common
In +
Opto-Coupler
Output: 20mA max.
SMI Series
Emitter
Brown
2
3
SMI91EQD
SMI91ESRQD
SMI91EFQD
Blue
+ Out
Black
1
SMI Series
Receiver
Brown
Busbar
Blue
Emitter Models:
G
2
3
Receiver Models:
SMI91RQD
SMI91RSRQD
SMI91RFQD
Bottom View of Cable
Connector on Sensor
(colors shown are for mating
cable model SMICC-312)
Earth Ground
(less than 1Ω)
SMI912 Series Retro, Diffuse, Convergent, Glass and Plastic Fiber Optic Hookup
Non-Hazardous Area
Hazardous Area
Black
1
In +
AC
Supply
105 to 130V ac
210 to 250V ac
4 5 6 7 8
Relay Output
5 Amp Contacts
CI3RC2
9 10 11 1 2 3
Input:
≤10mA (OFF State)
≥20mA (ON State)
+ Out
I.S.
–
–
Aux.
Input
Common
I.S. Barrier
Opto-Coupler
Output: 20mA max.
Busbar
SMI Series
Emitter
Brown
2
3
Banner
SMI912 Series
Blue
Bottom View of Cable
Connector on Sensor
(colors shown are for mating
cable model SMICC-312)
G
Earth Ground
(less than 1Ω)
Intrinsic Safety Kits for Use with SMI912 Intrinsically Safe Sensors
Model
Description
CI2BK-1
Kit includes a CI3RC2 current amplifier, one RS-11 socket, one DINrail mount, and one single-channel intrinsically safe barrier (barriers
also sold separately - see below)
CI2BK-2
Typically used in Opposed Mode setups, this kit includes a CI3RC2 current
amplifier, one RS-11 socket, one DIN-rail mount, and dual-channel
intrinsically safe barrier (barriers also sold separately - see below)
CIB-1
Single-channel barrier
CI2B-1
Dual-channel barrier
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361
VALU-BEAM® SMI912 Series Sensors
SMI912 Series Dimensions
SMI912 Series Opposed, Retro, and Diffuse Sensing Modes
(model suffix E, ESR, R, RSR, LV, D & DSR)
SMI912 Series Sensor - Convergent Mode
(model suffix LVAG & CV)
39.6 mm
(1.56")
M30 x 1.5 Thread
Hex Nut Supplied
26.7 mm
(1.05")
Mini-style
Quick-disconnect
SMI912 Series Sensor - Plastic Fiber Optic Mode
(model suffix FP)
SMI912 Series Sensor - Glass Fiber Optic Mode
(model suffix F, EF & RF)
42.2 mm
(1.66")
42.2 mm
(1.66")
Fiber Port Centerline
Fiber Port Centerline
SMI912 Series Sensor - Rear View
Light/Dark Operate
(L.O. = CW, D.O. = CCW)
Remove Screws to Access Controls
Sensitivity Control
(Turn CW to Increase)
17.8 mm
(0.70")
4.5mm
(#10) Screw Clearance (2)
5.6 mm
(0.22")
25.4 mm
(1.00")
362
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
VALU-BEAM® SMI912 Series Sensors
NOTES:
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363
VALU-BEAM® SM91EN/RN Series Sensors
SM91EN/RN Series Sensors
Enhanced Sunlight Immunity
VALU-BEAM SM91EN/RN Series quick-disconnect
and cabled models shown
•
Opposed mode sensing to 30 m (100') with enhanced
sunlight immunity for difficult outdoor applications, or for
indoor applications where there is intense light
•
Choice of three modulation codes to allow adjacent sensor
pairs to operate without crosstalk
•
10 to 30V dc operation; receivers have bipolar solid-state
outputs: one NPN (sinking) and one PNP (sourcing)
•
Circuitry is totally encapsulated in a rugged, molded
thermoplastic polyester housing; rated IP67, NEMA 6P
•
Exceptional EMI-RFI immunity
SM91EN/RN Series Sensing Mode Options
Opposed
Infrared, 880 nm
SM91EN Opposed Mode Emitter (E) and SM91RN Receiver (R) - Modulation Code A
Models
Range
Supply
Voltage
Cable
Output
Type
Beam Pattern†
Excess Gain
Effective Beam: 25 mm
1000
SM91EAN
SM91EANQD
SM91RAN
SM91RANQD
30 m
(100')
2 m (6.5')
3-Pin Mini QD
2 m (6.5')
4-Pin Mini QD
10-30V dc
Bipolar
NPN/PNP
E
X
C
E
S
S
SM91EN/RN
Opposed Mode
12.0 in
Opposed Mode
200 mm
8.0 in
100 mm
4.0 in
0
G
A
I
N
0
10
100 mm
4.0 in
200 mm
8.0 in
300 mm
1
0.1 m
0.33 ft
1.0 m
3.3 ft
10 m
33 ft
DISTANCE
†
SM91EN/RN
300 mm
100
100 m
330 ft
12.0 in
0
0.6 m
2 ft
1.2 m
4 ft
1.8 m
6 ft
2.4 m
8 ft
3.0 m
10 ft
DISTANCE
Note: Beam Pattern response shown from 0 to 3 m (Excess Gain = 100x at 3 m)
For VALU-BEAM SM91EN/RN Series Sensors:
i) 9 m (30') cables are available by adding suffix “W/30” to the model number of any cabled sensor (e.g. - SM91EAN W/30)
ii) A model with a QD connector requires an accessory mating cable. See pages 368 and the Accessories section for more information.
364
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
VALU-BEAM® SM91EN/RN Series Sensors
SM91EN Opposed Mode Emitter (E) and SM91RN Receiver (R) - Modulation Code B
Models
Range
Cable
Supply
Voltage
Output
Type
Beam Pattern†
Excess Gain
Effective Beam: 25 mm
1000
SM91EBN
SM91EBNQD
SM91RBN
SM91RBNQD
30 m
(100')
2 m (6.5')
3-Pin Mini QD
2 m (6.5')
4-Pin Mini QD
10-30V dc
Bipolar
NPN/PNP
E
X
C
E
S
S
SM91EN/RN
Opposed Mode
SM91EN/RN
300 mm
100
12.0 in
Opposed Mode
200 mm
8.0 in
100 mm
4.0 in
0
G
A
I
N
10
0
100 mm
4.0 in
200 mm
8.0 in
300 mm
1
0.1 m
0.33 ft
1.0 m
3.3 ft
10 m
33 ft
12.0 in
0
100 m
330 ft
0.6 m
2 ft
1.2 m
4 ft
1.8 m
6 ft
2.4 m
8 ft
3.0 m
10 ft
DISTANCE
DISTANCE
SM91EN Opposed Mode Emitter (E) and SM91RN Receiver (R) - Modulation Code C
Models
Range
Cable
Supply
Voltage
Output
Type
Beam Pattern†
Excess Gain
Effective Beam: 25 mm
1000
SM91ECN
SM91ECNQD
SM91RCN
SM91RCNQD
30 m
(100')
2 m (6.5')
3-Pin Mini QD
2 m (6.5')
4-Pin Mini QD
10-30V dc
Bipolar
NPN/PNP
E
X
C
E
S
S
SM91EN/RN
Opposed Mode
12.0 in
Opposed Mode
200 mm
8.0 in
100 mm
4.0 in
0
G
A
I
N
0
10
100 mm
4.0 in
200 mm
8.0 in
300 mm
1
0.1 m
0.33 ft
1.0 m
3.3 ft
10 m
33 ft
DISTANCE
†
SM91EN/RN
300 mm
100
100 m
330 ft
12.0 in
0
0.6 m
2 ft
1.2 m
4 ft
1.8 m
6 ft
2.4 m
8 ft
3.0 m
10 ft
DISTANCE
Note: Beam Pattern response shown from 0 to 3 m (Excess Gain = 100x at 3 m)
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
365
VALU-BEAM® SM91EN/RN Series Sensors
SM91EN/RN Series Specifications
Supply Voltage and Current
10 to 30V dc at 20 mA maximum for receivers (exclusive of load current) and 25 mA maximum for emitters
Output Configuration
Bipolar: one current sourcing (PNP) and one current sinking (NPN) open-collector transistor
Output Response Time
12 to 28 milliseconds, depending upon code
LIGHT operate only
Output Rating
150 mA maximum (continuous, each output)
Off-state leakage current is 100 microamps, maximum
On-state saturation voltage less than 1V at 10 mA and less than 2 V at 150 mA (PNP); less than 200
millivolts at 10 mA and less than 1V at 150 mA (NPN)
Indicators
Top-mounted LED indicator - a red LED (on receivers) lights when the output is conducting and pulses at
a rate proportional to the strength of the received light signal; a green LED (on emitters) lights when the
infrared sensing beam is “ON”
Construction
Reinforced black thermoplastic polyester housing, totally epoxy-encapsulated, replaceable acrylic lenses
Environmental Rating
Meets NEMA 6P and IEC IP67 standards
Connections
PVC-jacketed 2 m (6.5') or 9 m (30') cables or integral mini-style quick-disconnect (QD) fitting are available
Operating Conditions
Temperature:
0° to 70°C (+32 to 158°F)
Maximum relative humidity: 90% at 50°C (non-condensing)
Water Immersion
Sensors will continue to operate during and after being submerged in water at a depth of 2 m (6') for a
period of 48 hours
NOTE: Immersion greatly reduces the efficiency of the lens, which results in greatly diminished sensing range
Sunlight Immunity
Receivers may be pointed into a light source of 120,000 lux without false-triggering, and will still respond
only to the infrared beam from their modulated emitters. Receivers will not respond to sunlight reflected
from water spray droplets.
Strobe Light Immunity
Receivers are totally immune to one Federal Signal Corp. “Fireball” model FB2PST strobe
EMI-RFI Immunity
Emitters and receivers will not respond to transmissions from a 5-watt output walkie-talkie on the test
frequencies of 464.500 and 151.625 megahertz when the walkie-talkie’s antenna is held 6" or more away
from the sensor.
Certifications
366
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
VALU-BEAM® SM91EN/RN Series Sensors
SM91EN/RN Series Hookup Diagrams
Sensors with Attached Cable
bn
bk
bu
+
10-30V dc
–
bu
Load
wh
Load
bk
Emitters with Attached Cable
bn
bn
+
10-30V dc
–
bu
wh
Sensors with Quick-Disconnect
Load
Load
Emitters with Quick-Disconnect
bn
+
bu
10-250V ac/dc
–
+
10-250V ac/dc
–
bk
3-Pin Mini-Style Pin-out
4-Pin Mini-Style Pin-out
(Cable Connector Shown)
(Cable Connector Shown)
Black Wire
Blue Wire
White Wire
Brown Wire
Brown Wire
Black Wire
Blue Wire
Quick-Disconnect (QD) Option
SM91EN/RN Series VALU-BEAM sensors are sold with either a 2 m (6.5') or a 9 m (30') attached PVC-covered cable, or with a
mini-style QD cable fitting.
SM91EN/RN QD sensors are identified by the letters “QD” in their model number suffix. Mating cable for QD SM91EN sensors is
model MBCC-312. Cable for QD SM91RN sensors is MBCC-412. Cables are supplied in a standard length of 4 m (12'). For more
information on QD cables, see page 368 and the Accessories section.
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367
VALU-BEAM® SM91EN/RN Series Sensors
SM91EN/RN Series Dimensions
SM91EN/RN Series Sensor with Quick-Disconnect
SM91EN/RN Series Sensor
LED Indicator
36.6 mm
(1.44")
35.6 mm
(1.40")
Lens Centerline
50.8 mm
(2.00")
39.1 mm
(1.54")
12.7 mm
(0.50")
M30 x 1.5 Thread
Hex Nut Supplied
26.7 mm
(1.05")
Mini-style
Quick-disconnect
M30 x 1.5 External Thread
1/2" - 14 NPSM Internal Thread
Hex Nut Supplied
Accessories
VALU-BEAM Modifications
Model Suffix
Modification
W/30
9 m (30') cable
Example of Model
Number
Description
All VALU-BEAM sensors may be ordered with an integral 9 m (30')
cable in place of the standard 2 m (6.5') cable
SM912D W/30
Quick-Disconnect (QD) Cables
Following is the selection of cables available for VALU-BEAM QD models. See the Accessories section for more cable information.
Style
Model
Length
Connector
Used with:
3-Pin Mini
MBCC-306
MBCC-312
MBCC-330
2 m (6.5')
4 m (12')
9 m (30')
Straight
Straight
Straight
All VALU-BEAM emitters
912 Series ac
990 Series
4-Pin Mini
MBCC-406
MBCC-412
MBCC-430
2 m (6.5')
4 m (12')
9 m (30')
Straight
Straight
Straight
912 Series dc
SM91RN (sunlight immune)
5-Pin Mini
MBCC-506
MBCC-512
MBCC-530
2 m (6.5')
4 m (12')
9 m (30')
Straight
Straight
Straight
915 Series
3-Pin Mini
SMICC-306
SMICC-312
SMICC-330
2 m (6.5')
4 m (12')
9 m (30')
Straight
Straight
Straight
SMI912 Series (intrinsically safe)
368
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
VALU-BEAM® Accessories
Cabling Accessories
Model
AC-6
PVC-6
RF1-2NPS
Description
2 m (6.5') armored cable jacket
2 m (6.5') flexible PVC tubing (not for QD models)
Compression fitting for attaching armored cable or PVC tubing
I.D. 5/16"; O.D. 7/16"
I.D. 1/4"; O.D. 3/8"
—
• Flexible black nylon cable protector
HF1-2NPS
• Includes a neoprene gland that compresses around the VALU-BEAM cable to provide an
additional seal against moisture
• Resistant to gasoline, alcohol, oil, grease, solvents and weak acids
• Working temperature range of -30° to +100°C (-22° to +212°F)
Replacement Lens Assemblies
VALU-BEAM lens assemblies are field-replaceable. In addition, some lenses may be used to convert from one sensing mode to another, or to
change the sensing range of a particular sensor. The possible conversions are listed in the table below.
Possible Sensing Mode or
Range Changes
Model
Description
UC-900AG
UC-900C
UC-900DSR
UC-900F
UC-900FP
UC-900L
UC-900J
Replacement lens for LVAG
Replacement lens for C and CV
Replacement lens for DSR, ESR & RSR
Replacement lens for F
Replacement lens for FP
Replacement lens for E, R, LV & D
Attach to VALU-BEAMs E, R, ESR,
RSR, LV and D
Change LV to LVAG
Change LV to CV
Change D or F to DSR, EF to ESR and RF to RSR
Change D to F and DSR to F
–
Change LVAG to LV, CV to LV, DSR to D & F to D
Flat Lexan® dust cover
Lexan® is a registered trademark of General Electric Co.
Extension Cables (without connectors)
The following cables are available for extending the length of existing sensor cable. These are 30 m (100') lengths of VALU-BEAM cable. This
cable may be spliced to existing cable. Connectors, if used, must be customer-supplied.
Model
Type
Used with:
EC312-100
4-conductor
SM912 Series dc sensors
EC312A-100
2-conductor
For all emitters, SM2A912 Series ac sensors and 990 Series sensors
EC915-100
5-conductor
915 Series sensors
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
369
VALU-BEAM® Accessories
Mounting Brackets
Model
Description
Dimensions
56.0 mm
(2.20")
SMB30C
• 30 mm split clamp bracket
• Black reinforced thermoplastic
polyester
• Includes stainless steel
mounting hardware
13 mm
(0.5")
63.0 mm
(2.48")
31.5 mm
(1.24")
13.5 mm (0.53")
Nut Plate
2.5 mm
(0.10")
45.0 mm
(1.77")
SMB30MM
M5 x 0.8
x 80 mm
Screw (2)
25.4 mm
(1.00")
• 30 mm, 12-gauge, stainless
steel bracket with curved
mounting slots for versatility
and orientation
• Clearance for M6 (1/4")
hardware
ø30.1 mm
(1.19")
35.1 mm
(1.38")
7.1 mm
.28 x 90° (2 Slots)
ø 6.4 mm
(0.25" dia.)
57.2 mm
(2.25")
25.4 mm
(1.00")
R 25.4 mm
(1.00")
57.2 mm
35.1 mm
(2.25")
(1.38")
69.9 mm
(2.75")
SMB30SC
• 30 mm swivel bracket
• Black reinforced thermoplastic
polyester
• Includes stainless steel
mounting and swivel locking
hardware
50.8 mm
(2.00")
M30 x 1.5
internal
thread
12.7 mm
(0.50")
58.7 mm
(2.31")
30.0 mm
(1.18")
66.5 mm
(2.62")
29.0 mm
(1.14")
Retroreflective Targets
Banner offers a wide selection of high-quality retroreflective targets. See Accessories section for complete information.
370
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
Q85 Sensors
Q85 Sensors
Q85 Sensors . . . . . . . . . . . . . . . . . . . . . . . . . . . 372
Q85 Accessories . . . . . . . . . . . . . . . . . . . . . . . . 378
!
Q85 sensors are not suitable for use in
personnel safety applications! See WARNING on
inside front cover of catalog.
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
371
Q85 Sensors
Q85 Sensors
• Q85 sensors are available in three electrical configurations:
Q85VR3 Series:
• 24 to 240V ac or 12 to 240V dc supply voltage
• 3 amp electromechanical output relay
Q85BW13 Series:
• 24 to 240V ac or 12 to 240V dc supply voltage
• SPST 0.3 amp isolated solid-state output switch
Q85BB62 Series:
• 10 to 48V dc supply voltage
• Bipolar solid-state outputs (one NPN sinking and
one PNP sourcing); alternative low-saturation
hookup for TTL compatibility
• “T9” model suffix indicates programmable output timing:
- ON/OFF (no delay) - One-shot (pulse timer)
- ON delay
- ON-delayed one-shot
- OFF delay
- Limit timer
- ON & OFF delay
- On-delayed limit timer
Q85 Sensing Mode Options
P
Opposed
Retroreflective
Polarized
Diffuse
Visible red, 680 nm
Q85 Opposed Mode Emitter (E) and Receiver (R)
Models
Range
Supply
Voltage
Q853E
Q85VR3R
Q85VR3R-T9
12-240V dc
24-240V ac
Q853E
Q85W13R
23 m
(75')
Q85BW13R-T9
Q8562E
Q85BB62R
Q85BB62R-T9
372
10-48V dc
Output
Type
Output
Timing
–
–
SPDT
E/m Relay
No
Yes
–
–
SPST
Solid-state Switch
No
Yes
–
–
Bipolar
NPN/PNP
No
Excess Gain
Beam Pattern
Effective Beam: 9.6 mm
1000
E
X
C
E
S
S
Q85E/R
Opposed Mode
Q85E/R
750 mm
30 in
Opposed Mode
100
500 mm
20 in
250 mm
10 in
0
G
A
I
N
10
1
0.1 m
0.33 ft
1.0 m
3.3 ft
10 m
33 ft
DISTANCE
100 m
330 ft
0
250 mm
10 in
500 mm
20 in
750 mm
30 in
0
5m
16 ft
10 m
32 ft
15 m
48 ft
20 m
64 ft
25 m
80 ft
DISTANCE
Yes
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
Q85 Sensors
P
Visible red, 680 nm
NOTE: Retroreflective range is specified using one model BRT-3 retroreflector (3" diameter).
Actual sensing range may be more or less than specified, depending upon the efficiency and
reflective area of the retroreflector(s) in use. See page 722 for more information.
Q85 Polarized Retroreflective Mode
Models
Range
Supply
Voltage
Q85VR3LP
Q85VR3LP-T9
Q85BW13LP
Q85BW13LP-T9
80 mm - 4.6 m
(3" - 15')
w/BRT-3 target
Q85BB62LP
Q85BB62LP-T9
12-240V dc
24-240V ac
10-48V dc
Output
Type
SPDT
E/m
Relay
SPST
Solid-state
Switch
Excess Gain
Beam Pattern
1000
E
X
C
E
S
S
Q85LP
Retroreflective Mode
75 mm
100
With BRT-3 Reflector
3 in
50 mm
Q85LP
2 in
25 mm
Retroreflective Mode
1 in
0
G
A
I
N
Bipolar
NPN/PNP
10
0
25 mm
1
0.01 m
0.03 ft
0.1 m
0.33 ft
1m
3.3 ft
1 in
With BRT-3 Reflector
50 mm
2 in
75 mm
3 in
0
10 m
33 ft
1m
3.3 ft
2m
6.6 ft
3m
9.9 ft
4m
13 ft
5m
16 ft
DISTANCE
DISTANCE
Infrared, 880 nm
Q85 Diffuse Mode
Models
Range
Supply
Voltage
Output
Type
Excess Gain
Beam Pattern
Performance based on 90% reflectance white test card
Short Range
1000
Q85VR3D
Q85VR3D-T9
Q85BW13D
Q85BW13D-T9
250 mm
(10")
Q85BB62D
Q85BB62D-T9
12-240V dc
24-240V ac
10-48V dc
SPDT
E/m
Relay
SPST
Solid-state
Switch
E
X
C
E
S
S
Q85BW13DL
Q85BW13DL-T9
Q85BB62DL
Q85BB62DL-T9
1m
(39")
Q85D
75 mm
100
3 in
Diffuse Mode
50 mm
2 in
25 mm
1 in
0
G
A
I
N
Bipolar
NPN/PNP
0
10
25 mm
1 in
50 mm
2 in
75 mm
1
1.0 mm
0.04 in
10 mm
0.4 in
100 mm
4.0 in
1000 mm
40 in
3 in
0
50 mm 100 mm 150 mm 200 mm 250 mm
2 in
4 in
6 in
8 in
10 in
DISTANCE
Long Range
Q85VR3DL
Q85VR3DL-T9
Q85D
Diffuse Mode
DISTANCE
1000
12-240V dc
24-240V ac
10-48V dc
SPDT
E/m
Relay
SPST
Solid-state
Switch
Bipolar
NPN/PNP
E
X
C
E
S
S
Q85DL
Diffuse Mode
Q85DL
37.5 mm
100
1.5 in
Diffuse Mode
25 mm
1.0 in
12.5 mm
0.5 in
0
G
A
I
N
10
0
12.5 mm
0.5 in
25 mm
1.0 in
37.5 mm
1
0.01 m
0.03 ft
0.1 m
0.33 ft
1m
3.3 ft
DISTANCE
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
10 m
33 ft
1.5 in
0
0.2 m
8 in
0.4 m
16 in
0.6 m
24 in
0.8 m
32 in
1.0 m
40 in
DISTANCE
373
Q85 Sensors
Q85VR3 Series Specifications
Supply Voltage and Current
24 to 240V ac, 50/60 Hz or 12 to 240V dc (2 watts maximum)
Supply Protection Circuitry
Protected against transient voltages. DC hookup is without regard to polarity.
Output Configuration
Q85VR3x models - SPDT e/m relay, on/off output
Q85VR3x-T9 models - SPDT e/m relay, programmable timer
Output Rating
Maximum switching power (resistive load): 90W, 750 VA
Maximum switching voltage (resistive load): 250V ac or 30V dc
Maximum switching current (resistive load): 3A
Minimum voltage and current: 5V dc, 10 mA
Mechanical life: 50,000,000 operations
Electrical life at full resistive load: 100,000 operations
Output Protection Circuitry
Protected against false pulse on power-up
Output Response Time
Closure time (no time logic in use): 20 milliseconds max.
Release time (no time logic in use): 20 milliseconds max.
Maximum switching speed: 25 operations per second
Repeatability
All sensing modes (no time logic in use): 1 millisecond
Adjustments
Single-turn SENSITIVITY control potentiometer, accessible beneath the ABS wiring chamber cover. Timing
logic (for T9 models) is configured at a DIP switch. Pulse length and delay are set by a single-turn
potentiometer (under the wiring chamber cover). The adjustable time range for both functions is 0.1 to 5
seconds; both functions are automatically set to the same value.
Indicators
Exclusive Alignment Indicating Device system (AID™, US patent #4356393) lights a red LED indicator whenever
the sensor sees its own modulated light, and pulses at a rate proportional to the strength of the light signal.
Yellow indicator lights whenever the sensor’s output is energized.
Construction
Yellow Cycolac® ABS housing, acrylic lenses, and steel-plated hardware. Maximum wire size (for connection
to wiring terminals) is #14 AWG.
Environmental Rating
Meets NEMA standards 1, 2, 3, 3S, 4, 4X, 6, 6P, 12, and 13; IEC IP67
Operating Operations
Temperature:
-25° to +55°C (-13° to +131°F)
Maximum relative humidity: 90% at 50°C (non-condensing)
Vibration and Mechanical
Shock
Meets Mil. Std. 202F requirements.
Method 201A (Vibration: frequency 10 to 55 Hz max., double-amplitude 0.06", max. acceleration 10G)
Method 213B conditions H & I (Shock: 75G with unit operating; 100G for non-operation)
Application Notes
Install transient suppressor (MOV) across contacts switching inductive loads.
Certifications
Cycolac® is a registered trademark of General Electric Co.
Q85VR3 Series Hookup Diagrams
Q85VR3 Series
1
Q853E Emitter
24-240V ac
or 12-240V dc*
2
1
2
3
NC
3
4
C
4
5
NO
5
24-240V ac
or 12-240V dc*
*NOTE: Connection of dc power is without regard to polarity
374
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
Q85 Sensors
Q85BW13 Series Specifications
Supply Voltage and Current
24 to 240V ac, 50/60 Hz or 12 to 240V dc (2 watts maximum)
Supply Protection Circuitry
Protected against transient voltages. DC hookup is without regard to polarity.
Output Configuration
Q85BW13x models - optically isolated SPST solid-state switch, on/off output
Q85BW13x-T9 models - optically isolated SPST solid-state switch, programmable timer
Output Rating
250V ac, 250V dc, 300 mA
Output saturation voltage 3V at 300 mA, 2V at 15 mA
Off-state leakage current <50 microamps
Inrush current 1 amp for 20 milliseconds, non-repetitive
Output Protection Circuitry
Protected against false pulse on power-up
Output Response Time and
Repeatability
Response time and repeatability are independent of signal strength:
Q85BW13R
response time 6 ms on/3 ms off, repeatability 750 µs
Q85BW13R-T9*
response time 12 ms on/9 ms off, repeatability 1 ms
Q85BW13LP
response time 4 ms on/off, repeatability 1 ms
Q85BW13LP-T9*
response time 10 ms on/off, repeatability 1 ms
Q85BW13D
response time 4 ms on/off, repeatability 1 ms
Q85BW13D-T9*
response time 10 ms on/off, repeatability 1 ms
Q85BW13DL
response time 4 ms on/off, repeatability 1 ms
Q85BW13DL-T9*
response time 10 ms on/off, repeatability 1 ms
*on/off operation (no timing in use)
Adjustments
Single-turn SENSITIVITY control potentiometer, accessible beneath the ABS wiring chamber cover. Timing
logic (for T9 models) is configured at a DIP switch. Pulse length and delay are set by a single-turn
potentiometer (under the wiring chamber cover). The adjustable time range for both functions is 0.1 to 5
seconds; both functions are automatically set to the same value. All models have a light/dark operate switch.
Indicators
Exclusive Alignment Indicating Device system (AID™, US patent #4356393) lights a red LED indicator whenever
the sensor sees its own modulated light, and pulses at a rate proportional to the strength of the light signal.
Yellow indicator lights whenever the sensor’s output is conducting.
Construction
Yellow Cycolac® ABS housing, acrylic lenses, and steel-plated hardware. Maximum wire size (for
connection to wiring terminals) is #14 AWG.
Environmental Rating
Meets NEMA standards 1, 2, 3, 3S, 4, 4X, 6, 6P, 12, and 13; IEC IP67
Operating Operations
Temperature:
-25° to +55°C (-13° to +131°F)
Maximum relative humidity: 90% at 50°C (non-condensing)
Vibration and Mechanical
Shock
Meets Mil. Std. 202F requirements.
Method 201A (Vibration: frequency 10 to 55 Hz max., double-amplitude 0.06", max. acceleration 10G)
Method 213B conditions H & I (Shock: 75G with unit operating; 100G for non-operation)
Certifications
Cycolac® is a registered trademark of General Electric Co.
Q85BW13 Series Hookup Diagrams
Q85BW13 Series
1
2
Q853E Emitter
24-240V ac
or 12-240V dc*
5
2
24-240V ac
or 12-240V dc*
3
3
4
1
Isolated
solid-state
SPST switch
4
5
*NOTE: Connection of dc power is without regard to polarity
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
375
Q85 Sensors
Q85BB62 Series Specifications
Supply Voltage and Current
10 to 48V dc at 50 mA max. exclusive of load; Q8562E emitter requires 25 mA
Supply Protection Circuitry
Protected against reverse-polarity
Output Configuration
Q85BB62x models - NPN sinking and PNP sourcing outputs, on/off output
Q85BB62x-T9 models - NPN sinking and PNP sourcing outputs, programmable timer
Output Rating
STANDARD OUTPUTS are solid-state, one NPN, one PNP; 150 mA max (at 25°C, either output).
Derate output by 1 mA/°C above 25°C
Off-state leakage current <1 µA
Output saturation voltage <1V at 10 mA and <2V at 150 mA
The two standard outputs may be used simultaneously (max. load 150 mA each output)
LOW-SATURATION VOLTAGE ALTERNATIVE NPN OUTPUT is provided for easy interfacing to TTL and
similar circuitry
Output saturation voltage <200 millivolts at 10 mA and <1V at 150 mA
Overload and short circuit protected
This output is not reverse polarity protected
Output Protection Circuitry
Protected against false pulse on power-up, overload and short circuit of outputs
Output Response Time and
Repeatability
Response time and repeatability are independent of signal strength:
Q85BB62R
response time 1 ms, repeatability 125 µs
Q85BB62R-T9*
response time 8 ms, repeatability 1 ms
Q85BB62LP
response time 1 ms, repeatability 250 µs
Q85BB62LP-T9*
response time 8 ms, repeatability 1 ms
Q85BB62D
response time 1 ms, repeatability 250 µs
Q85BB62D-T9*
response time 8 ms, repeatability 1 ms
Q85BB62DL
response time 2 ms, repeatability 500 µs
Q85BB62DL-T9*
response time 8 ms, repeatability 1 ms
*on/off operation (no timing in use)
Adjustments
Single-turn SENSITIVITY control potentiometer, accessible beneath the ABS wiring chamber cover. Timing
logic (for T9 models) is configured at a DIP switch. Pulse length and delay are set by a single-turn
potentiometer (under the wiring chamber cover). The adjustable time range for both functions is 0.1 to 5
seconds; both functions are automatically set to the same value. All models have a light/dark operate switch.
Indicators
Exclusive Alignment Indicating Device system (AID™, US patent #4356393) lights a red LED indicator whenever
the sensor sees its own modulated light, and pulses at a rate proportional to the strength of the light signal.
Yellow indicator lights whenever the sensor’s output is energized.
Construction
Yellow Cycolac® ABS housing, acrylic lenses, and steel-plated hardware. Maximum wire size (for
connection to wiring terminals) is #14 AWG.
Environmental Rating
Meets NEMA standards 1, 2, 3, 3S, 4, 4X, 6, 6P, 12, and 13; IEC IP67
Operating Temperature
Temperature:
Maximum relative humidity:
Vibration and Mechanical
Shock
Meets Mil. Std. 202F requirements.
Method 201A (Vibration: frequency 10 to 55 Hz max., double-amplitude 0.06", max. acceleration 10G)
Method 213B conditions H & I (Shock: 75G with unit operating; 100G for non-operation)
-25° to +55°C (-13° to +131°F)
90% at 50°C (non-condensing)
Certifications
Cycolac® is a registered trademark of General Electric Co.
376
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
Q85 Sensors
Q85BB62 Series Hookup Diagrams
Q85BB62 Series
Alternative Low Saturation Sinking (NPN) Hookup
Q85BB62 Series
Standard Hookup
+
10-48V dc
–
1
2
+
10-48V dc
–
1
2
5
5
4
Load
4
3
Load
3
Load
NOTE: This hookup provides a direct
interface to TTL and similar circuits.
CAUTION: The output is NOT
reverse-polarity protected in this
wiring configuration.
Q8562E Emitter
+
10-48V dc
–
1
2
3
4
5
Q85 Dimensions
Q85 Sensor
Gasketed Cover
Remove to Access:
Sensitivity (Gain) Adjustment
Logic Timing Adjustment
(Some Models)
Q85 Series with Model SMB85B Mounting Bracket
(supplied with sensor)
Indicator LEDs
Recess for M4 Nut
(6 Places)
5.1 mm
(0.20")
2.3 mm
(0.09")
4.8 mm (0.19")
7.9 mm
(0.31")
65 mm
(2.6")
36 mm
(1.42")
36 mm
85 mm (1.42")
(3.4")
M4 x 0.7 x 30 mm
Mounting Screw
(2 Supplied)
ne
erli
ent
sC
Len
46 mm
(1.8")
25 mm
(1.0")
6.8 mm
(0.27")
Q85 Sensor - Bottom View
1/2-14 NPSM (2)
21 mm
(0.8")
22.6 mm
(0.89")
15 mm
(0.6")
ø 6.8 mm
(0.27")
89 mm
(3.5")
R 72.0 mm
(2.83")
37.7 mm
(1.48")
39 mm
(1.5")
6.8 mm (0.27") x 20º
19.3 mm
(0.76")
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
377
Q85 Accessories
Quick-Disconnect (QD) Cables
Following is the selection of cables available for Q85 sensors. See the Accessories section for more cable information.
Note: Use of quick-disconnect cables requires purchase of mating QD receptacle (see, below)
Style
Model
Length
Connector
Used with:
3-Pin Mini
MBCC-306
MBCC-312
MBCC-330
2 m (6.5')
4 m (12')
9 m (30')
Straight
Q85 emitters
4-Pin Mini
MBCC-406
MBCC-412
MBCC-430
2 m (6.5')
4 m (12')
9 m (30')
Straight
All Q85 sensors
5-Pin Mini
MBCC-506
MBCC-512
MBCC-530
2 m (6.5')
4 m (12')
9 m (30')
Straight
All Q85 sensors
Quick-Disconnect (QD) Receptacles
Following is the selection of receptacles available for Q85 sensors. See the Accessories section for more receptacle information.
Style
Model
Wire Length
Used with:
3-Pin Mini
MBC-3
300 mm (12")
Q85 emitters
4-Pin Mini
MBC-4
300 mm (12")
All Q85 sensors
5-Pin Mini
MBC-5
300 mm (12")
All Q85 sensors
Mounting Brackets
Model
Description
4.8 mm (0.19") x 15°
15.2 mm (0.60")
SMB85R
31.8 mm
(1.25")
38 mm
(1.5")
6.9 mm (2)
(0.27")
• Rear mount bracket
22.1 mm
(0.87")
8.1 mm
(0.32")
17.5 mm
(0.69")
102 mm
(4.0")
378
4.8 mm
(0.19")
R 71 mm
(2.8")
M4 x 0.7 x 30 mm
Mounting Screw
(2 Screws & Nuts Supplied)
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
Q45 Sensors
Q45 Sensors
Q45 Series . . . . . . . . . . . . . . . . . . . . . . . . . . . . 380
Laser-Diode Retroreflective Series . . . . . . . . . . . . 382
Q45 Bus Networks Sensors
Q45X Series Sensors . . . . . . . . . . . . . . . . . . 400
Q45X Bus Expansion Cards. . . . . . . . . . . . . . . 405
Q45XDN DeviceNet™ Sensors . . . . . . . . . . . . . 408
Q45XAS1 AS-Interface Sensors . . . . . . . . . . . . 411
Q45 NAMUR Series . . . . . . . . . . . . . . . . . . . . . . 414
Q45 Accessories . . . . . . . . . . . . . . . . . . . . . . . . 421
(Exceptions
noted)
(Except Laser Retro,
page 382; other
exceptions noted)
R
(Exceptions
noted)
!
Q45 sensors are not suitable for use in
personnel safety applications! See WARNING on
inside front cover of catalog.
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
379
Q45 Series Sensors
Q45 Series Sensors
Q45 Series opposed mode shown
•
Select models for dc or ac operation:
- 10 to 30V dc
- 90 to 250V ac
- Universal voltage: 12 to 250V dc or 24 to 250V ac
•
Choose either electromechanical relay for switching large loads
or solid-state output for unlimited life
•
Internal light/dark operate switch and multi-turn SENSITIVITY
(Gain) control accessible beneath hinged, o-ring sealed top cover
•
Retroreflective models include laser versions for very long range
or precise sensing
•
Optional expansion cards are available for output timing and/or a
7-segment signal strength display (see page 422)
Q45 Sensing Mode Options
Opposed
Retroreflective
Diffuse
Convergent
Glass and Plastic Fiber Optic
Infrared, 880 nm
Q45 Opposed Mode Emitter (E) and Receiver (R)
Models
Range
Cable
Q456E
Q456EQ
Q456EQ5
2-wire 2 m (6.5')
4-Pin Mini QD
4-Pin Euro QD
Q45BB6R
Q45BB6RQ
Q45BB6RQ5
4-wire 2 m (6.5')
4-Pin Mini QD
4-Pin Euro QD
Q452E
Q452EQ
Q452EQ1
2-wire 2 m (6.5')
3-Pin Mini QD
4-Pin Micro QD
Supply
Voltage
Output
Type
Excess Gain
Beam Pattern
Effective Beam: 13 mm
None
10-30V dc
Bipolar
NPN/PNP
1000
Q45VR2R
Q45VR2RQ
60 m
(200')
5-wire 2 m (6.5')
5-Pin Mini QD
None
90-250V ac
SPDT
e/m Relay
Q45BW22R
Q45BW22RQ
Q45BW22RQ1
3-wire 2 m (6.5')
3-Pin Mini QD
4-Pin Micro QD
SPST
Solid-state
Relay
Q453E
Q453EQ
2-wire 2 m (6.5')
3-Pin Mini QD
None
Q45VR3R
Q45VR3RQ
5-wire 2 m (6.5')
5-Pin Mini QD
Q45BW13R
Q45BW13RQ
4-wire 2 m (6.5')
4-Pin Mini QD
380
Universal
12-250V dc
or
24-250V ac
E
X
C
E
S
S
G
A
I
N
Q45E/R
Opposed Mode
Q45E/R
1.5 m
100
40 in
0.5 m
20 in
0
10
1
0.1 m
0.33 ft
60 in
Opposed Mode
1.0 m
1.0 m
3.3 ft
10 m
33 ft
DISTANCE
100 m
330 ft
0
0.5 m
20 in
1.0 m
40 in
1.5 m
60 in
0
12 m
40 ft
24 m
80 ft
36 m
120 ft
48 m
160 ft
60 m
200 ft
DISTANCE
SPDT
e/m Relay
SPST
Solid-state
Relay
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
Q45 Series Sensors
P
Visible red, 680 nm
Non-Polarized
Polarized
NOTE: Retroreflective range is specified using one model BRT-3
retroreflector (3" diameter). Actual sensing range may be more or less
than specified, depending upon the efficiency and reflective area of the
retroreflector(s) in use. See page 722 for more information.
Q45 Series Retroreflective Mode
Models
Range
Cable
Supply
Voltage
Output
Type
10-30V dc
Bipolar
NPN/PNP
Excess Gain
Beam Pattern
Non-Polarized
Q45BB6LV
Q45BB6LVQ
Q45BB6LVQ5
4-wire 2 m (6.5')
4-Pin Mini QD
4-Pin Euro QD
Q45VR2LV
Q45VR2LVQ
5-wire 2 m (6.5')
5-Pin Mini QD
1000
Q45BW22LV
Q45BW22LVQ
Q45BW22LVQ1
0.08 - 9 m
(3" - 30')
3-wire 2 m (6.5')
3-Pin Mini QD
4-Pin Micro QD
Q45VR3LV
Q45VR3LVQ
5-wire 2 m (6.5')
5-Pin Mini QD
Q45BW13LV
Q45BW13LVQ
4-wire 2 m (6.5')
4-Pin Mini QD
SPDT
e/m Relay
90-250V ac
SPST
Solid-state
Relay
Q45LV
E
X
C
E
S
S
Retroreflective Mode
100
Q45LV
75 mm
2.0 in
25 mm
1.0 in
0
G
A
I
N
10
With BRT-3 Reflector
1
.01 m
.033 ft
SPDT
Universal e/m Relay
12-250V dc
or
SPST
24-250V ac Solid-state
Relay
3.0 in
Retroreflective Mode
50 mm
.10 m
.33 ft
1.0 m
3.3 ft
0
With BRT-3 Reflector
25 mm
1.0 in
50 mm
2.0 in
75 mm
3.0 in
0
10 m
33 ft
3m
10 ft
6m
20 ft
9m
30 ft
12 m
40 ft
15 m
50 ft
DISTANCE
DISTANCE
Polarized*
Q45BB6LP
Q45BB6LPQ
Q45BB6LPQ5
4-wire 2 m (6.5')
4-Pin Mini QD
4-Pin Euro QD
10-30V dc
Bipolar
NPN/PNP
1000
Q45LP
Q45VR2LP
Q45VR2LPQ
Q45BW22LP
Q45BW22LPQ
Q45BW22LPQ1
SPDT
e/m Relay
5-wire 2 m (6.5')
5-Pin Mini QD
0.15 - 6 m
(6"- 20')
3-wire 2 m (6.5')
3-Pin Mini QD
4-Pin Micro QD
Q45VR3LP
Q45VR3LPQ
5-wire 2 m (6.5')
5-Pin Mini QD
Q45BW13LP
Q45BW13LPQ
4-wire 2 m (6.5')
4-Pin Mini QD
90-250V ac
SPST
Solid-state
Relay
SPDT
Universal e/m Relay
12-250V dc
or
SPST
24-250V ac Solid-state
Relay
E
X
C
E
S
S
Retroreflective Mode
100
Q45LP
75 mm
Retroreflective
Mode
50 mm
25 mm
10
With BRT-3 Reflector
0
With BRT-3 Reflector
25 mm
1.0 in
50 mm
2.0 in
75 mm
1
.01 m
.033 ft
.10 m
.33 ft
1.0 m
3.3 ft
DISTANCE
10 m
33 ft
2.0 in
1.0 in
0
G
A
I
N
3.0 in
3.0 in
0
1.5 m
5 ft
3m
10 ft
4.5 m
15 ft
6m
20 ft
7.5 m
25 ft
DISTANCE
* Use polarized models when shiny objects will be detected.
For Q45 Series Sensors:
i) 9 m (30') cables are available by adding suffix “W/30” to the model number of any cabled sensor (e.g. - Q45VR2LP W/30)
ii) A model with a QD connector requires an accessory mating cable. See page 421 and the Accessories section for more information.
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
381
Q45 Series Sensors
•
•
•
LISTE D
Class II visible laser diode emitter brings high power and small effective
beam to retroreflective sensing applications
Use for long-range retroreflective sensing or take advantage of the
narrow beam of the laser light source for sensing small objects or for
precision sensing of object edge position
Choose non-polarized models for the longest range, or polarized models
when highly reflective objects must be sensed
P
Visible red, 670 nm
Non-Polarized
Polarized
Visible Laser Retroreflective Mode
Models
Range
Cable
Supply
Voltage
Output
Type
Excess Gain
Non-Polarized
Q45BB6LL
Q45BB6LLQ
Q45BB6LLQ6
0.3 - 70 m
(1 - 225')
w/BRT-2x2
(included
with
sensor)
5-wire 2 m (6.5')
5-Pin Mini QD
5-Pin Euro QD
1000
E
X
C
E
S
S
Bipolar
NPN/PNP
10-30V dc
G
A
I
N
Q45LL (Q)
Retroreflective
Mode
100
BRT 2 x 2
Reflector
10
1
0.1 m
0.33 ft
BRT-THG
Tape
1m
3.3 ft
10 m
33 ft
100 m
330 ft
DISTANCE
Polarized
Q45BB6LLP
Q45BB6LLPQ
Q45BB6LLPQ6
0.6 - 40 m
(2 - 130')
w/BRT-2x2
(included
with
sensor)
1000
E
X
C
E
S
S
5-wire 2 m (6.5')
5-Pin Mini QD
5-Pin Euro QD
Bipolar
NPN/PNP
10-30V dc
G
A
I
N
Q45LLP (Q)
Retroreflective
Mode
100
10
1
0.1 m
0.33 ft
BRT 2 x 2
Reflector
BRT-THG
Tape
1m
3.3 ft
10 m
33 ft
100 m
330 ft
DISTANCE
Q45BB6LLXX
9714 10TH AVE. N.
MINNEAPOLIS, MN 55441
Complies to: 21 CFR Part 1040.1 and EN60825 – IEC 825
Peak power = 3mW, Wavelength = 675nm,
CAUTION
2 KILOHERTZ,
2% DUTY CYCLE
LASER LIGHT - DO NOT STARE
INTO BEAM. AVOID EXPOSURE
LASER LIGHT EMITTED FROM THIS APERTURE
CLASS II LASER PRODUCT
For Q45 Series Sensors:
i) 9 m (30') cables are available by adding suffix “W/30” to the model number of any cabled sensor (e.g. - Q45VR2DL W/30)
ii) A model with a QD connector requires an accessory mating cable. See page 421 and the Accessories section for more information.
382
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
Q45 Series Sensors
Infrared, 880 nm
Q45 Diffuse Mode
Models
Range
Cable
Supply
Voltage
Output
Type
10-30V dc
Bipolar
NPN/PNP
Beam Pattern
Excess Gain
Performance based on 90% reflectance white test card
Short Range
4-wire 2 m (6.5')
4-Pin Mini QD
4-Pin Euro QD
Q45BB6D
Q45BB6DQ
Q45BB6DQ5
SPDT
e/m Relay
5-wire 2 m (6.5')
5-Pin Mini QD
Q45VR2D
Q45VR2DQ
3-wire 2 m (6.5')
3-Pin Mini QD
4-Pin Micro QD
90-250V ac
Q45VR3D
Q45VR3DQ
5-wire 2 m (6.5')
5-Pin Mini QD
Q45BW13D
Q45BW13DQ
4-wire 2 m (6.5')
4-Pin Mini QD
Universal
12-250V dc
or
24-250V ac
Q45BW22D
Q45BW22DQ
Q45BW22DQ1
450 mm
(18")
SPST
Solid-state
Relay
1000
E
X
C
E
S
S
Q45D
Diffuse Mode
15 mm
100
0.6 in
Q45D
10 mm
0.4 in
Diffuse Mode
5 mm
0.2 in
0
G
A
I
N
10
0.2 in
10 mm
0.4 in
15 mm
1
1.0 mm
0.04 in
SPDT
e/m Relay
0
5 mm
10 mm
0.4 in
100 mm
4.0 in
0.6 in
0
1000 mm
40 in
100 mm 200mm 300 mm 400 mm 500 mm
4.0 in
8.0 in 12.0 in 16.0 in 20.0 in
DISTANCE
DISTANCE
SPST
Solid-state
Long Range
Q45BB6DL
Q45BB6DLQ
Q45BB6DLQ5
4-wire 2 m (6.5')
4-Pin Mini QD
4-Pin Euro QD
Q45VR2DL
Q45VR2DLQ
5-wire 2 m (6.5')
5-Pin Mini QD
Q45BW22DL
Q45BW22DLQ
Q45BW22DLQ1
1. 8 m
(6')
3-wire 2 m (6.5')
3-Pin Mini QD
4-Pin Micro QD
Q45VR3DL
Q45VR3DLQ
5-wire 2 m (6.5')
5-Pin Mini QD
Q45BW13DL
Q45BW13DLQ
4-wire 2 m (6.5')
4-Pin Mini QD
10-30V dc
Bipolar
NPN/PNP
SPDT
e/m Relay
90-250V ac
Universal
12-250V dc
or
24-250V ac
SPST
Solid-state
Relay
1000
Q45DL
E
X
C
E
S
S
G
A
I
N
Q45DL
Diffuse Mode
75 mm
3.0 in
50 mm
2.0 in
25 mm
1.0 in
0
10
1
.01 m
.033 ft
SPDT
e/m Relay
Diffuse Mode
100
.10 m
.33 ft
1.0 m
3.3 ft
0
25 mm
1.0 in
50 mm
2.0 in
75 mm
3.0 in
10 m
33 ft
0
0.6 m
2 ft
DISTANCE
1.2 m
4 ft
1.8 m
6 ft
2.4 m
8 ft
3.0 m
10 ft
DISTANCE
SPST
Solid-state
High Power
4-wire 2 m (6.5')
4-Pin Mini QD
4-Pin Euro QD
Q45BB6DX
Q45BB6DXQ
Q45BB6DXQ5
5-wire 2 m (6.5')
5-Pin Mini QD
Q45VR2DX
Q45VR2DXQ
Q45BW22DX
Q45BW22DXQ
Q45BW22DXQ1
10-30V dc
3m
(10')
3-wire 2 m (6.5')
3-Pin Mini QD
4-Pin Micro QD
Q45VR3DX
Q45VR3DXQ
5-wire 2 m (6.5')
5-Pin Mini QD
Q45BW13DX
Q45BW13DXQ
4-wire 2 m (6.5')
4-Pin Mini QD
90-250V ac
Universal
12-250V dc
or
24-250V ac
Bipolar
NPN/PNP
1000
SPDT
e/m Relay
E
X
C
E
S
S
SPST
Solid-state
Relay
G
A
I
N
SPDT
e/m Relay
Q45DX
Diffuse Mode
Q45DX
75 mm
3.0 in
Diffuse Mode
100
50 mm
2.0 in
25 mm
1.0 in
0
10
0
25 mm
1.0 in
50 mm
2.0 in
75 mm
1
0.01 m
0.033 ft
0.1 m
0.33 ft
1.0 m
3.3 ft
DISTANCE
10 m
33 ft
3.0 in
0
0.6 m
2 ft
1.2 m
4 ft
1.8 m
6 ft
2.4 m
8 ft
3.0 m
10 ft
DISTANCE
SPST
Solid-state
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
383
Q45 Series Sensors
Visible red, 680 nm
Q45 Convergent Mode
Models
Focus
Cable
Q45BB6CV
Q45BB6CVQ
Q45BB6CVQ5
4-wire 2 m (6.5')
4-Pin Mini QD
4-Pin Euro QD
Q45VR2CV
Q45VR2CVQ
5-wire 2 m (6.5')
5-Pin Mini QD
Supply
Voltage
Output
Type
10-30V dc
Bipolar
NPN/PNP
Excess Gain
Beam Pattern
Performance based on 90% reflectance white test card
1000
Q45BW22CV
Q45BW22CVQ
Q45BW22CVQ1
Q45VR3CV
Q45VR3CVQ
38 mm
(1.5")
Spot Size
at Focus:
1.3 mm
(0.05")
3-wire 2 m (6.5')
3-Pin Mini QD
4-Pin Micro QD
5-wire 2 m (6.5')
5-Pin Mini QD
Q45BW13CV
Q45BW13CVQ
4-wire 2 m (6.5')
4-Pin Mini QD
Q45BB6CV4
Q45BB6CV4Q
Q45BB6CV4Q5
4-wire 2 m (6.5')
4-Pin Mini QD
4-Pin Euro QD
Q45VR2CV4
Q45VR2CV4Q
5-wire 2 m (6.5')
5-Pin Mini QD
SPDT
e/m Relay
90-250V ac
SPST
Solid-state
Relay
E
X
C
E
S
S
Q45CV
3.8 mm
100
10
0.10 in
1.2 mm
0.05 in
Universal
12-250V dc
or
SPST
24-250V ac Solid-state
Relay
0
1.2 mm
0.05 in
2.5 mm
0.10 in
3.8 mm
1
1 mm
.04 in
0.15 in
Convergent Mode
2.5 mm
0
G
A
I
N
SPDT
e/m Relay
10-30V dc
Q45CV
Convergent Mode
10 mm
.4 in
100 mm
4 in
0.15 in
0
1000 mm
40 in
38 mm
1.5 in
DISTANCE
75 mm 113 mm 150 mm 190 mm
3.0 in
4.5 in
6.0 in
7.5 in
DISTANCE
Bipolar
NPN/PNP
1000
100 mm
(4")
Q45BW22CV4
Q45BW22CV4Q Spot Size
Q45BW22CV4Q1 at Focus:
1.5 mm
(0.06")
Q45VR3CV4
Q45VR3CV4Q
3-wire 2 m (6.5')
3-Pin Mini QD
4-Pin Micro QD
Q45BW13CV4
Q45BW13CV4Q
4-wire 2 m (6.5')
4-Pin Mini QD
5-wire 2 m (6.5')
5-Pin Mini QD
SPDT
e/m Relay
90-250V ac
SPST
Solid-state
Relay
SPDT
e/m Relay
Universal
12-250V dc
or
SPST
24-250V ac Solid-state
Relay
E
X
C
E
S
S
Q45CV4
Convergent Mode
Q45CV4
3.8 mm
100
Convergent Mode
0.10 in
1.2 mm
0.05 in
0
0
G
A
I
N
10
1.2 mm
0.05 in
2.5 mm
0.10 in
0.15 in
3.8 mm
1
1 mm
.04 in
10 mm
.4 in
100 mm
4 in
DISTANCE
1000 mm
40 in
0.15 in
2.5 mm
0
38 mm
1.5 in
75 mm 113 mm 150 mm 190 mm
3.0 in
4.5 in
6.0 in
7.5 in
DISTANCE
For Q45 Series Sensors:
i) 9 m (30') cables are available by adding suffix “W/30” to the model number of any cabled sensor (e.g. - Q45BB6F W/30)
ii) A model with a QD connector requires an accessory mating cable. See page 421 and the Accessories section for more information.
384
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
Q45 Series Sensors
See sensing beam information below
Q45 Glass Fiber Optic
Models
Range
Cable
Supply
Voltage
Output
Type
Infrared, 880 nm
4-wire 2 m (6.5')
4-Pin Mini QD
4-Pin Euro QD
Q45BB6F
Q45BB6FQ
Q45BB6FQ5
Q45VR2F
Q45VR2FQ
Q45BW22F
Q45BW22FQ
Q45BW22FQ1
Q45VR3F
Q45VR3FQ
Range
varies by
sensing
mode
and fiber
optics
used
Q45BW13F
Q45BW13FQ
5-wire 2 m (6.5')
5-Pin Mini QD
4-wire 2 m (6.5')
4-Pin Mini QD
Diffuse mode performance based on 90% reflectance white test card
10-30V dc
Bipolar
NPN/PNP
SPDT
e/m Relay
90-250V ac
E
X
C
E
S
S
4-wire 2 m (6.5')
4-Pin Mini QD
4-Pin Euro QD
Q45VR2FV
Q45VR2FVQ
Q45BW22FV
Q45BW22FVQ
Q45BW22FVQ1
Q45VR3FV
Q45VR3FVQ
Q45BW13FV
Q45BW13FVQ
Range
varies by
sensing
mode
and fiber
optics
used
5-wire 2 m (6.5')
5-Pin Mini QD
4-wire 2 m (6.5')
4-Pin Mini QD
Q45F
150 mm
100
SPST
Solid-state
Relay
Universal
12-250V dc
or
SPST
24-250V ac Solid-state
Relay
6.0 in
Opposed Mode
4.0 in
100 mm
IT23S Fibers
50 mm
IT23S fibers
10
IT13S fibers
2.0 in
0
IT13S Fibers
50 mm
2.0 in
100 mm
4.0 in
6.0 in
150 mm
1
0.01 m
0.03 ft
0.1 m
0.33 ft
1.0 m
3.3 ft
0
10 m
33 ft
0.4 m
15 in
0.8 m
30 in
1.2 m
45 in
1.6 m
60 in
2.0 m
75 in
DISTANCE
DISTANCE
SPDT
e/m Relay
1000
E
X
C
E
S
S
G
A
I
N
Q45F
Diffuse Mode
Q45F
3.8 mm
100
0.15 in
Diffuse Mode
2.5 mm
0.10 in
BT13S Fiber
1.3 mm
BT23S Fiber
0.05 in
BT23S Fiber
0
10
BT13S Fiber
0
1.3 mm
0.05 in
2.5 mm
0.10 in
3.8 mm
1
1 mm
0.04 in
10 mm
0.4 in
100 mm
4.0 in
0.15 in
0
1000 mm
40 in
25 mm
1 in
DISTANCE
50 mm
2 in
75 mm 100 mm 125 mm
3 in
4 in
5 in
DISTANCE
1000
10-30V dc
Bipolar
NPN/PNP
E
X
C
E
S
S
Q45FV
Opposed Mode
Q45FV
30 mm
100
Opposed Mode
20 mm
IT23S Fibers
SPDT
e/m Relay
90-250V ac
G
A
I
N
10
10 mm
0.4 in
0
10 mm
IT13S Fibers
0.8 in
30 mm
10 mm
0.4 in
100 mm
4 in
1.2 in
0
1000 mm
40 in
100 mm 150 mm 200 mm 250 mm 300 mm
4 in
6 in
8 in
10 in
12 in
DISTANCE
DISTANCE
SPST
Solid-state
Relay
SPDT
e/m Relay
Universal
12-250V dc
or
SPST
24-250V ac Solid-state
Relay
0.4 in
IT13S Fibers
20 mm
1
1.0 mm
0.04 in
1.2 in
0.8 in
IT23S Fibers
0
5-wire 2 m (6.5')
5-Pin Mini QD
3-wire 2 m (6.5')
3-Pin Mini QD
4-Pin Micro QD
Q45F
Opposed Mode
0
G
A
I
N
Visible Red, 650 nm
Q45BB6FV
Q45BB6FVQ
Q45BB6FVQ5
Beam Pattern
1000
5-wire 2 m (6.5')
5-Pin Mini QD
3-wire 2 m (6.5')
3-Pin Mini QD
4-Pin Micro QD
Excess Gain
1000
E
X
C
E
S
S
Q45FV
Diffuse Mode
Q45FV
3.0 mm
100
0.08 in
1.0 mm
0.04 in
BT13S Fiber
0
G
A
I
N
0.12 in
Diffuse Mode
2.0 mm
10
0
1.0 mm
BT13S
Fiber
0.04 in
BT23S Fiber
2.0 mm
BT23S Fiber
0.08 in
3.0 mm
1
1 mm
0.04 in
10 mm
0.4 in
100 mm
4.0 in
DISTANCE
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
1000 mm
40 in
0.12 in
0
5 mm
0.2 in
10 mm
0.4 in
15 mm
0.6 in
20 mm
0.8 in
25 mm
1.0 in
DISTANCE
385
Q45 Series Sensors
Visible red, 660 nm
Q45 Plastic Fiber Optic
Models
Range
Supply
Voltage
Cable
Output
Type
Excess Gain
Beam Pattern
Diffuse mode performance based on 90% reflectance white test card
1000
4-wire 2 m (6.5')
4-Pin Mini QD
4-Pin Euro QD
Q45BB6FP
Q45BB6FPQ
Q45BB6FPQ5
10-30V dc
Bipolar
NPN/PNP
E
X
C
E
S
S
Q45FP
Opposed Mode
Q45VR2FP
Q45VR2FPQ
Q45BW22FP
Q45BW22FPQ
Q45BW22FPQ1
Q45VR3FP
Q45VR3FPQ
Q45BW13FP
Q45BW13FPQ
Range
varies by
sensing
mode
and fiber
optics
used
5-wire 2 m (6.5')
5-Pin Mini QD
3-wire 2 m (6.5')
3-Pin Mini QD
4-Pin Micro QD
5-wire 2 m (6.5')
5-Pin Mini QD
4-wire 2 m (6.5')
4-Pin Mini QD
SPDT
e/m Relay
90-250V ac
SPST
Solid-state
Relay
SPDT
e/m Relay
Universal
12-250V dc
or
SPST
24-250V ac Solid-state
Relay
1.8 in
Opposed Mode
30 mm
PIT46U Fibers
15 mm
PIT46U Fibers
G
A
I
N
Q45FP
45 mm
100
1.2 in
0.6 in
0
0
PIT26U Fibers
10
PIT26U Fibers
15 mm
0.6 in
30 mm
1.2 in
45 mm
1
1 mm
0.04 in
10 mm
0.4 in
100 mm
4.0 in
1.8 in
0
1000 mm
40 in
25 mm
1.0 in
50 mm
2.0 in
DISTANCE
75 mm 100 mm 125 mm
3.0 in
4.0 in
5.0 in
DISTANCE
1000
E
X
C
E
S
S
Q45FP
Diffuse Mode
100
Q45FP
18 mm
PBT46U Fiber
0.75 in
Diffuse Mode
12 mm
0.50 in
PBT46U Fiber
6 mm
0
G
A
I
N
10
1
0.1 mm
0.004 in
1 mm
0.04 in
10 mm
0.4 in
DISTANCE
0
6 mm
0.25 in
12 mm
0.50 in
18 mm
PBT26U Fiber
100 mm
4 in
0.25 in
0.75 in
0
10 mm
0.4 in
20 mm
0.8 in
30 mm
1.2 in
40 mm
1.6 in
50 mm
2.0 in
DISTANCE
For Q45 Series Sensors:
i) 9 m (30') cables are available by adding suffix “W/30” to the model number of any cabled sensor (e.g. - Q45BB6FP W/30)
ii) A model with a QD connector requires an accessory mating cable. See page 421 and the Accessories section for more information.
386
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
Q45 Series Sensors
Q45 Dimensions
Transparent Cover (Gasketed)
View:Sensing Status
Output Load Status
Power
Open to Access:
Sensitivity (Gain) Adjustment
Timing Adjustments
L/O – D/O Switch
Q45 Series Opposed, Retro, and Diffuse Sensing Modes
(model suffix E, R, D, DL, DX, LV & LP)
Quick-Disconnect
Cabled
Euro- and Micro-Style
Mini-Style
54.1 mm
(2.13")
44.5 mm
(1.75")
Lens Centerline
50.8 mm
(2.00")
69.0 mm
(2.72")
6.4 mm (0.25")
87.6 mm
(3.45")
4.5 mm (#10) Screw
Clearance (2)
7.1 mm
(0.28")
30.0 mm
(1.18")
Internal Thread
(1/2–14NPSM)
ø 6.1 (0.24")
2m (6.5') Cable
15 mm (0.6")
External Thread
M30 X 1.5
Mounting Nut is Supplied
Retroreflective Laser
(model suffix LL & LLP)
57.9mm
(2.28")
Euro- or Micro-style
QD Connector
14 mm (0.6")
External Thread
M30 X 1.5
Mini-style QD Connector
Convergent Sensing Mode
(model suffix CV & CV4)
Glass Fiber Optic
(model suffix F & FV)
Emitter Axis
28.6 mm (1.13")
Plastic Fiber Optic
(model suffix FP)
60.5 mm
(2.38")
Lens Centerline
50.8 mm
(2.00")
61.7 mm
(2.43")
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
59.8 mm
(2.35")
387
Q45 Series Sensors
Q45BB6 Series DC Specifications (except Retroreflective Laser, see p. 382)
Supply Voltage and Current
10 to 30V dc (10% maximum ripple), at less than 50 mA (exclusive of load)
Supply Protection Circuitry
Protected against reverse polarity and transient voltages
Output Configuration
Bipolar: one current sourcing (PNP) and one current sinking (NPN) open-collector transistor
Output Rating
250mA maximum each output up to 50°C, derated to 150 mA at 70°C (derate 5 mA/°C)
Off-state leakage current less than 1 microamp
Output saturation voltage (both outputs) less than 1 volt at 10 mA and less than 2 volts at 250 mA
Output Protection Circuitry
Protected against false pulse on power-up and continuous overload or short circuit of outputs
Output Response Time
Opposed mode: 2 milliseconds ON and 1 millisecond OFF; All other sensing modes: 2 milliseconds ON/OFF
(NOTE: 100 millisecond delay on power-up. Output is non-conducting during this time.)
Repeatability
Opposed mode: 0.25 milliseconds; All sensing modes: 0.5 milliseconds
Response time and repeatability specifications are independent of signal strength.
Adjustments
Beneath sensor’s transparent cover: Light/Dark Operate select switch, and multi-turn sensitivity control
on top of sensor, beneath a transparent o-ring sealed Lexan® cover, allows precise sensitivity setting (turn
clockwise to increase gain). Optional logic and logic/display modules have adjustable timing functions.
Indicators
Indicator LEDs are highly visible, located beneath a raised transparent Lexan® dome on top of the sensor.
Power (green) LED lights whenever 10 to 30V dc power is applied, and flashes to indicate output
overload or output short circuit
Signal (red) AID™ system LED lights whenever the sensor sees its modulated light source, and pulses at a
rate proportional to the strength of the received light signal
Load (yellow) LED lights whenever an output is conducting
Optional 7-element LED signal strength display module
Construction
Molded reinforced thermoplastic polyester housing, o-ring sealed transparent Lexan® cover, molded acrylic
lenses, and stainless steel hardware. Q45s are designed to withstand 1200 psi washdown. The base of
cabled models has a 1/2" NPS integral internal conduit thread.
Environmental Rating
NEMA 6P, IEC IP 67
Connections
PVC-jacketed 2 m (6.5') or 9 m (30') cables, or 4-pin mini-style (“Q” suffix models) or 4-pin euro-style
(“Q5” suffix models) quick-disconnect (QD) fittings are available. QD cables are ordered separately. See
page 421 and Accessories section.
Operating Conditions
Temperature:
-40° to +70°C (-40° to +158°F)
Maximum relative humidity: 90% at 50°C (non-condensing)
Application Notes
Optional logic timing modules are available. See page 422 for more information.
Certifications
R
Lexan® is a registered trademark of General Electric Co.
388
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
Q45 Series Sensors
Q45BB6 Series DC Hookup Diagrams (except Retroreflective Laser, see p. 382)
Sensors with Attached Cable
bn
bk
bn
+
10-30V dc
–
bu
wh
Sensors with Quick-Disconnect
4-Pin Mini-Style or 4-Pin Euro-Style
wh
Load
bk
Load
Q456E Emitters with Attached Cable
bu
Load
Load
Q456EQ or Q456EQ5 Emitter
4-Pin Mini-Style or 4-Pin Euro-Style
bn
bn
+
10-30V dc
–
bu
bu
+
10-30V dc
–
+
10-30V dc
–
wh
bk
“Q” Model Suffix
4-Pin Mini-Style Pin-out
“Q5” Model Suffix
4-Pin Euro-Style Pin-out
(Cable Connector Shown)
(Cable Connector Shown)
White Wire
Black Wire
White Wire
Brown Wire
Blue Wire
Brown Wire
Blue Wire
Black Wire
Quick-Disconnect (QD) Option
DC Q45BB6 Series sensors are sold with either a 2 m (6.5') or a 9 m (30') attached PVC-covered cable, or with a 4-pin Mini-style
or 4-pin Euro-style QD cable fitting.
DC 4-pin Mini-style QD sensors are identified by the letter “Q” in their model number suffix and 4-pin Euro-style are identified by
the letters “Q5”. Mating cables for QD Q45BB6 sensors are specified on page 421 and in the Accessories section.
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
389
Q45 Series Sensors
Q45BB6 Retroreflective Laser Series DC Specifications
Supply Voltage and Current
10 to 30V dc at less than 50 mA (exclusive of load)
Supply Protection Circuitry
Protected against reverse polarity and transient voltages
Output Configuration
Bipolar: one current sourcing (PNP) and one current sinking (NPN) open-collector transistor
Output Rating
250mA maximum each output up to 50°C, derated to 150 mA at 70°C (derate 5 mA/°C)
Off-state leakage current less than 1 microamp
Output saturation voltage (both outputs) less than 1 volt at 10mA and less than 2 volts at 250mA
Output Protection Circuitry
Protected against false pulse on power-up and continuous overload or short circuit of outputs
Output Response Time
Less than 2 milliseconds
(NOTE: 1 second delay on power-up: outputs are non-conducting during this time)
Repeatability
0.5 milliseconds; response time and repeatability specifications are independent of signal strength
Adjustments
Beneath sensor’s transparent cover: Light/Dark Operate select switch, and multi-turn sensitivity control
on top of sensor, beneath a transparent o-ring sealed Lexan® cover, allows precise sensitivity setting (turn
clockwise to increase gain). Optional logic and logic/display modules have adjustable timing functions.
Indicators
Indicator LEDs are highly visible, located beneath a raised transparent Lexan® dome on top of the sensor.
Power (green) LED lights whenever 10 to 30V dc power is applied, and flashes to indicate output
overload or output short circuit. A steady green LED also indicates that laser emission
is “on” (laser light is being emitted).
Signal (red) AID™ system (US patent #4356393) LED lights whenever the sensor sees its modulated light
source, and pulses at a rate proportional to the strength of the received light signal
Load (yellow) LED lights whenever an output is conducting
Optional 7-element LED signal strength display module
Construction
Molded reinforced thermoplastic polyester housing, o-ring sealed transparent Lexan® cover, molded acrylic
lenses, and stainless steel hardware. Q45s are designed to withstand 1200 psi washdown. The base of
cabled models has a 1/2" NPS integral internal conduit thread.
Environmental Rating
NEMA 6P, IEC IP 67
Laser Classification
Class II laser product. US Safety Standards 21 CFR 1040.10 and 1040.11; European Standards EN 60825
and IEC 60825
Connections
PVC-jacketed 2 m (6.5') or 9 m (30') cables, or 5-pin mini-style (“Q” suffix models), or 5-pin euro-style
(“Q6” suffix models), quick-disconnect (QD) fitting are available. QD cables are ordered separately. See
page 421 and Accessories section.
Operating Conditions
Temperature:
-10° to +40°C (+14° to 104°F)
Maximum relative humidity: 90% at 50°C (non-condensing)
Application Notes
Optional logic timing modules are available. See page 422 for more information.
Certifications
LISTE D
Lexan® is a registered trademark of General Electric Co.
390
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
Q45 Series Sensors
Q45BB6 Retroreflective Laser Series DC Hookup Diagrams
Retro Laser Sensors with Attached Cable
bn
bk
ye
bn
+
10-30V dc
–
bu
wh
Retro Laser Sensors with Quick-Disconnect
bu
wh
Load
bk
Load
White Wire
Load
Load
ye or gy
Beam Inhibit: Connect to +V
5-Pin Mini-Style Pin-out
+
10-30V dc
–
Beam Inhibit: Connect to +V
5-Pin Euro-Style Pin-out
White Wire
Black Wire
Brown Wire
Brown Wire
Blue Wire
Blue Wire
Black Wire
Yellow or Gray Wire
Yellow Wire
Quick-Disconnect (QD) Option
DC Q45BB6 Retro Laser Series sensors are sold with either a 2 m (6.5') or a 9 m (30') attached PVC-covered cable, or with a 5pin Mini-style or Euro-style QD cable fitting.
DC 5-pin Mini-style QD sensors are identified by the letter “Q” in their model number suffix. 5-pin Euro-style QD sensors are
identified by the letter “Q6” in their model number suffix. Mating cables for QD Q45BB6 Retro Laser sensors are specified on
page 421 and in the Accessories section.
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
391
Q45 Series Sensors
Q45VR2 Series AC Specifications
Supply Voltage and Current
90 to 250V ac (50 - 60 Hz). Average current 20 mA. Peak current 500 mA at 120V ac, 750 mA at 250V ac.
Supply Protection Circuitry
Protected against transient voltages
Output Configuration
SPDT (single-pole double-throw) electromechanical relay output
Output Rating
Max. switching power (resistive load): 150W, 600 VA
Max. switching voltage (resistive load): 250V ac or 30V dc
Max. switching current (resistive load): 5A
Min. voltage and current: 5V dc, 0.1A
Mechanical life of relay: 10,000,000 operations
Electrical life of relay at full resistive load: 100,000 operations
Output Protection Circuitry
Protected against false pulse on power-up
Output Response Time
15 milliseconds ON and OFF
(NOTE: 100 millisecond delay on power-up. Output is de-energized during this time.)
Repeatability
Opposed mode: 0.25 milliseconds; All sensing modes: 0.5 milliseconds
Response time and repeatability specifications are independent of signal strength.
Adjustments
Beneath sensor’s transparent cover: Light/Dark Operate select switch, and multi-turn sensitivity control
on top of sensor, beneath a transparent o-ring sealed Lexan® cover, allows precise sensitivity setting (turn
clockwise to increase gain). Optional logic and logic/display modules have adjustable timing functions.
Indicators
Indicator LEDs are highly visible, located beneath a raised transparent Lexan® dome on top of the sensor.
Power (green) LED lights whenever 90-250V ac power is applied
Signal (red) AID™ system LED lights whenever the sensor sees its modulated light source, and pulses at a
rate proportional to the strength of the received light signal
Load (yellow) LED lights whenever an output relay is energized
Optional 7-element LED signal strength display module
Construction
Molded reinforced thermoplastic polyester housing, o-ring sealed transparent Lexan® cover, molded acrylic
lenses, and stainless steel hardware. Q45s are designed to withstand 1200 psi washdown. The base of
cabled models has a 1/2" NPS integral internal conduit thread.
Environmental Rating
NEMA 6P, IEC IP67
Connections
PVC-jacketed 2-wire emitters or 5-wire (all others) 2m (6.5') or 9 m (30') unterminated cables, or
3-pin (emitters) or 5-pin (all others) Mini-style quick-disconnect (QD) fittings are available (“Q”- suffix
models). QD cables are ordered separately. See page 421 and Accessories section.
Operating Conditions
Temperature:
-40° to +70°C (-40° to +158°F)
Maximum relative humidity: 90% at 50°C (non-condensing)
Application Notes
Transient suppression is recommended for contacts switching inductive loads.
Optional logic timing modules are available. See page 422 for more information.
Certifications
R
Lexan® is a registered trademark of General Electric Co.
392
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
Q45 Series Sensors
Q45VR2 Series AC Hookup Diagrams
Q45VR2 Sensors with Attached Cable
Q45VR2 Sensors with Quick-Disconnect
5-Pin Mini-Style ( model suffix Q)
bn
bn
bu
90 - 250V ac
bu
90 - 250V ac
wh
NC
wh
NC
ye
bk
ye
C
bk
NO
Q452E Emitters with Attached Cable
C
NO
Q452EQ Emitters with Quick-Disconnect
3-Pin Mini-Style
bn
bn
bu
90 - 250V ac
bu
90 - 250V ac
bk
Q452EQ Emitter
3-Pin Mini-Style Pin-out
“Q” Model Suffix
5-Pin Mini-Style Pin-out
(Cable Connector Shown)
(Cable Connector Shown)
Black Wire
Blue Wire
White Wire
Brown Wire
Brown Wire
Black Wire
Blue Wire
Yellow Wire
Quick-Disconnect (QD) Option
AC Q45VR2 Series sensors are sold with either a 2 m (6.5') or a 9 m (30') attached PVC-covered cable, or with a 3-pin Mini-style
(opposed mode emitter) or 5-pin Mini-style QD (all others) cable fitting.
Mini-style QD sensors are identified by the letter “Q” in their model number suffix. Mating cables for QD Q45VR2 sensors are
specified on page 421 and in the Accessories section. Cables are supplied in a standard length of 4 m (12').
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
393
Q45 Series Sensors
Q45BW22 Series AC Specifications
Supply Voltage and Current
90 to 250V ac (50 - 60 Hz). Average current 20 mA. Peak current 500 mA at 120V ac, 750 mA at 250V ac.
Supply Protection Circuitry
Protected against transient voltages
Output Configuration
Short circuit/overload protected FET solid-state relay
Output Rating
Continuous current 300 mA max. to 50°C (derate to 200 mA at 70°C, 5 mA/°C)
Inrush current 3A max. for 100 milliseconds, 5A max. for 1 millisecond
Off-state leakage current <100 microamps
Saturation voltage <3V at 300 mA
Output Protection Circuitry
Manually-resettable output latch-out trips in the event of an output overload or short circuit condition. The
green Power LED flashes to indicate the latch-out. To reset the output, remove power to the sensor and
load for 5 seconds, then restore power.
Output Response Time
Opposed mode: 2 milliseconds ON, 1 millisecond OFF
All other sensing modes: 2 milliseconds ON/OFF
(NOTE: 100 millisecond delay on power-up. Output is non-conducting during this time.)
Repeatability
Opposed mode: 0.25 milliseconds; All sensing modes: 0.5 milliseconds
Response time and repeatability specifications are independent of signal strength.
Adjustments
Beneath sensor’s transparent cover: Light/Dark Operate select switch, and multi-turn sensitivity control
on top of sensor, beneath a transparent o-ring sealed Lexan® cover, allows precise sensitivity setting (turn
clockwise to increase gain). Optional logic and logic/display modules have adjustable timing functions.
Indicators
Indicator LEDs are highly visible, located beneath a raised transparent Lexan® dome on top of the sensor.
Power (green) LED lights whenever 90 - 250V ac power is applied, and flashes to indicate output
overload or output short circuit
Signal (red) AID™ system LED lights whenever the sensor sees its modulated light source, and pulses at a
rate proportional to the strength of the received light signal
Load (yellow) LED lights whenever the output is conducting
Optional 7-element LED signal strength display module
Construction
Molded reinforced thermoplastic polyester housing, o-ring sealed transparent Lexan® cover, molded acrylic
lenses, and stainless steel hardware. Q45s are designed to withstand 1200 psi washdown. The base of
cabled models has a 1/2" NPS integral internal conduit thread.
Environmental Rating
NEMA 6P, IEC IP67
Connections
PVC-jacketed 2 m (6.5') or 9 m (30') cables, or 3-pin Mini-style (“Q” suffix models) or 4-pin Micro-style
(“Q1” suffix models) quick-disconnect (QD) fittings are available. QD cables are ordered separately. See
page 421 and Accessories section.
Operating Conditions
Temperature:
Maximum relative humidity:
Application Notes
Optional logic timing modules are available. See page 422 for more information.
-40° to +70°C (-40° to +158°F)
90% at 50°C (non-condensing)
Certifications
R
Lexan® is a registered trademark of General Electric Co.
3-Pin Mini-Style Pin-out
4-Pin Micro-Style Pin-out
(Cable Connector Shown)
(Cable Connector Shown)
Green Wire
Red Wire
Black Wire
Blue Wire
394
Brown Wire
Red/White
Wire
Red/Black
Wire
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
Q45 Series Sensors
Q45BW22 Series AC Hookup Diagrams
Q45BW22 Sensors with Attached Cable
Q45BW22 Sensors with Quick-Disconnect
3-Pin Mini-Style
(Model suffix Q)
bn
bn
90-250V ac
bu
bk
bk
Load
Q45BW22 Sensors with Quick-Disconnect
4-Pin Micro-Style
(Model suffix Q1)
90-250V ac
bu
Load
Q452E Emitter with Attached Cable
rd/bk
90-250V ac
rd/wh
rd
bn
90 - 250V ac
Load
bu
gn
Q452EQ Emitter with Quick-Disconnect
3-Pin Mini-Style
Q452EQ1 Emitter with Quick-Disconnect
4-Pin Micro-Style
rd/bk
bn
bu
rd/wh
90 - 250V ac
bk
90-250V ac
rd
gn
Quick-Disconnect (QD) Option
AC Q45BW22 Series sensors are sold with either a 2 m (6.5') or a 9 m (30') attached PVC-covered cable, or with a 3-pin Ministyle or 4-pin Micro-style QD cable fitting.
AC 3-pin mini-style QD sensors are identified by the letter “Q” in their model number suffix and 4-pin Micro-style are identified
by the letters “Q1”. Mating cables for QD Q45BW22 sensors are specified on page 421 and in the Accessories section.
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
395
Q45 Series Sensors
Q45VR3 Series Specifications
Supply Voltage and Current
Universal voltage: 24 to 250V ac, 50/60 Hz or 12 to 250V dc (1.5 watts maximum)
Supply Protection Circuitry
Protected against transient voltages. DC hookup is without regard to polarity.
Output Configuration
SPDT (Single-Pole, Double-Throw) electromechanical relay output. All models except emitters.
Output Rating
Max. switching power (resistive load): 1250VA, 150W
Max. switching voltage (resistive load): 250V ac, 125V dc
Max. switching current (resistive load): 5A @ 250V ac, 5A @ 30V dc derated to 200 mA @ 125V dc
Min. voltage and current: 5V dc, 10mA
Mechanical life of relay: 50,000,000 operations
Electrical life of relay at full resistive load: 100,000 operations
Output Protection Circuitry
Protected against false pulse on power-up
Output Response Time
15 milliseconds ON and OFF
(NOTE: 100 millisecond delay on power-up. Relay is de-energized during this time.)
Repeatability
Opposed mode: 0.25 milliseconds
All other sensing modes: 0.5 milliseconds
Response time and repeatability specifications are independent of signal strength.
Adjustments
Beneath sensor’s transparent cover: Light/Dark Operate select switch; and multi-turn Sensitivity control on top
of sensor beneath a transparent o-ring-sealed Lexan® cover, allows precise sensitivity setting (turn clockwise to
increase gain). Optional logic and logic/display modules have adjustable timing functions (see page 10).
Indicators
Indicator LEDs are clearly visible beneath a raised transparent Lexan® dome on top of the sensor.
Power (green) LED lights whenever 24 to 250V ac, or 12 to 250V dc power is applied
Signal (red) AID™ System LED lights whenever the sensor sees its modulated light source, and pulses at a
rate proportional to the strength of the received light signal
Load (yellow) LED lights whenever the output relay is energized
Optional 7-element LED signal strength display module
Construction
Molded reinforced thermoplastic polyester housing, o-ring-sealed transparent Lexan® cover, molded acrylic
lenses, and stainless steel hardware. Q45s are designed to withstand 1200 psi washdown. The base of
cabled models has a 1/2" NPS integral internal conduit thread.
Environmental Rating
NEMA 6P, IEC IP67
Connections
PVC-jacketed 2 m (6.5') or 9 m (30') unterminated cables, or 5-pin mini-style quick-disconnect (QD) fittings
are available (“Q”- suffix models). QD cables are ordered separately. See page 421 and Accessories section.
Operating Conditions
Temperature:
Maximum relative humidity:
Application Notes
Transient suppression is recommended for contacts switching inductive loads.
Optional output timing modules are available. See page 422 for more information.
-25° to +55° C (-13° to +131°F)
90% at 50°C (non-condensing)
Certifications
R
Lexan® is a registered trademark of General Electric Co.
396
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
Q45 Series Sensors
Q45VR3 Series Hookup Diagrams
Q45VR3 Sensors with Attached Cable
Q45VR3 Sensors with Quick-Disconnect
5-Pin Mini-Style ( model suffix Q)
bn
bn
bu
24 - 250V ac or 12 - 250V dc*
wh
bu
wh
NC
ye
ye
C
bk
bk
NO
Q453E Emitters with Attached Cable
24 - 250V ac or 12 - 250V dc*
NC
C
NO
Q453EQ Emitters with Quick-Disconnect
3-Pin Mini-Style
bn
bn
bu
24 - 250V ac or 12 - 250V dc*
bu
24 - 250V ac or 12 - 250V dc*
bk
*NOTE: Connection of dc power is without regard to polarity.
Q453EQ Emitter
3-Pin Mini-Style Pin-out
“Q” Model Suffix
5-Pin Mini-Style Pin-out
(Cable Connector Shown)
(Cable Connector Shown)
Black Wire
Blue Wire
White Wire
Brown Wire
Brown Wire
Black Wire
Blue Wire
Yellow Wire
Quick-Disconnect (QD) Option
AC Q45VR3 Series sensors are sold with either a 2 m (6.5') or a 9 m (30') attached PVC-covered cable, or with a 3-pin Mini-style
(opposed mode emitter) or 5-pin Mini-style Quick-Disconnect (QD) cable fitting.
Mini-style QD sensors are identified by the suffix “Q” in their model number suffix. Mating cables for QD Q45VR3 sensors are
specified on page 421 and in the Accessories section.
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
397
Q45 Series Sensors
Q45BW13 Series Specifications
Supply Voltage and Current
Universal voltage: 24 to 250V ac, 50/60 Hz or 12 to 250V dc (1.5 watts maximum)
Supply Protection Circuitry
Protected against transient voltages. DC hookup is without regard to polarity.
Output Configuration
All models except emitters: Optically isolated SPST solid-state switch
Output Rating
250V ac, 250V dc, 300 mA
Output saturation voltage: 3V at 300 mA, 2V at 15 mA
Off-state leakage current: <50 microamps
Inrush current: 1 amp for 20 milliseconds, non-repetitive
Output Protection Circuitry
Protected against false pulse on power-up
Output Response Time
Opposed mode: 2 milliseconds on, 1 millisecond off
All other sensing modes: 2 milliseconds on/off
(NOTE: 100 millisecond delay on power-up. Output is non-conducting during this time.)
Repeatability
Opposed mode: 0.25 milliseconds
All other sensing modes: 0.5 milliseconds
Response time and repeatability specifications are independent of signal strength.
Adjustments
Beneath sensor’s transparent cover: Light/Dark Operate select switch; and multi-turn Sensitivity control on top
of sensor beneath a transparent o-ring-sealed Lexan® cover, allows precise sensitivity setting (turn clockwise to
increase gain). Optional logic and logic/display modules have adjustable timing functions (see page 148).
Indicators
Indicator LEDs are clearly visible beneath a raised transparent Lexan® dome on top of the sensor.
Power (green) LED lights whenever 24 to 250V ac, or 12 to 250V dc power is applied
Signal (red) AID™ System LED lights whenever the sensor sees its modulated light source, and pulses at a
rate proportional to the strength of the received light signal
Load (yellow) LED lights whenever the output relay is energized
Optional 7-element LED signal strength display module
Construction
Molded reinforced thermoplastic polyester housing, o-ring-sealed transparent Lexan® cover, molded acrylic
lenses, and stainless steel hardware. Q45s are designed to withstand 1200 psi washdown. The base of
cabled models has a 1/2" NPS integral internal conduit thread.
Environmental Rating
NEMA 6P, IEC IP67
Connections
PVC-jacketed 2 m (6.5') or 9 m (30') unterminated cables, or 4-pin mini-style quick-disconnect (QD) fittings
are available (“Q”- suffix models). QD cables are ordered separately. See page 421 and Accessories section.
Operating Conditions
Temperature:
-25° to +55° C (-13° to +131°F)
Maximum relative humidity: 90% at 50°C (non-condensing)
Application Notes
Optional output timing modules are available. See page 422 for more information.
Output is not short-circuit protected. Exercise care when making wiring connections.
Certifications
R
Lexan® is a registered trademark of General Electric Co.
398
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
Q45 Series Sensors
Q45BW13 Series Hookup Diagrams
Q45BW13 Sensors with Attached Cable
Q45BW13 Sensors with Quick-Disconnect
4-Pin Mini-Style ( model suffix Q)
bn
bu
bn
24 - 250V ac or 12 - 250V dc*
wh
Isolated
Solid-state
SPST Switch
bk
Q453E Emitter with Attached Cable
bu
24 - 250V ac or 12 - 250V dc*
wh
Isolated
Solid-state
SPST Switch
bk
Q453EQ Emitter with Quick-Disconnect
3-Pin Mini-Style
bn
bn
bu
24 - 250V ac or 12 - 250V dc*
bu
24 - 250V ac or 12 - 250V dc*
bk
*NOTE: Connection of dc power is without regard to polarity.
Q453EQ Emitter
3-Pin Mini-Style Pin-out
“Q” Model Suffix
4-Pin Mini-Style Pin-out
(Cable Connector Shown)
(Cable Connector Shown)
Black Wire
White Wire
Blue Wire
Black Wire
Brown Wire
Brown Wire
Blue Wire
Quick-Disconnect (QD) Option
AC Q45BW13 Series sensors are sold with either a 2 m (6.5') or a 9 m (30') attached PVC-covered cable, or with a 3-pin Ministyle (opposed mode emitter) or 4-pin Mini-style Quick-Disconnect (QD) cable fitting.
Mini-style QD sensors are identified by the suffix “Q” in their model number suffix. Mating cables for QD Q45BW13 sensors are
specified on page 421 and in the Accessories section.
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
399
Q45X Sensors for Bus Networks
Q45X Series Sensors for Device Level Bus Networks
for Use with Bus Expansion Cards (see page 405)
Q45X Series diffuse mode
sensor shown. At right,
a plug-in expansion card.
•
Easy “smart sensor” interfacing to a device level data bus
network by simply selecting the appropriate plug-in card
and cable for popular bus protocols, including DeviceNet™,
SDS™, and ASI™
•
Expansion cards for other bus network protocols are
possible – contact factory
Sensor wiring is accomplished using simple “dumb drop”
junction boxes or “T” connectors
•
Integral mini-style quick-disconnect (QD) connector
Q45X Series Sensing Mode Options
Opposed
Retroreflective
Diffuse
Convergent
Glass and Plastic Fiber Optic
Infrared, 880 nm
Q45X Opposed Mode Emitter (E) and Receiver (R)
Models
Focus
Supply
Voltage
Cable
Excess Gain
Beam Pattern
Effective Beam: 13 mm
1000
Q45X6EQ
60 m
(200')
Q45XB6RQ
5-pin Mini QD
Depends on Bus
Expansion Card Used
(see page 405)
E
X
C
E
S
S
Q45E/R
Opposed Mode
Q45E/R
1.5 m
100
60 in
Opposed Mode
1.0 m
40 in
0.5 m
20 in
0
G
A
I
N
10
1
0.1 m
0.33 ft
1.0 m
3.3 ft
10 m
33 ft
DISTANCE
100 m
330 ft
0
0.5 m
20 in
1.0 m
40 in
1.5 m
60 in
0
12 m
40 ft
24 m
80 ft
36 m
120 ft
48 m
160 ft
60 m
200 ft
DISTANCE
For Q45Xs:
i) Sensors require a mini-style quick-disconnect cable. Contact your Banner sales engineer for help with cable selection.
400
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
Q45X Sensors for Bus Networks
P
Visible red, 680 nm
Non-Polarized
Polarized
NOTE: Use polarized models when shiny objects will be sensed. Retroreflective range
is specified using one model BRT-3 retroreflector (3" diameter). Actual sensing range
may be more or less than specified, depending upon the efficiency and reflective area
of the retroreflector(s) in use. See page 722 for more information.
Q45X Retroreflective Mode
Models
Focus
Cable
Supply
Voltage
Non-Polarized
Q45XB6LVQ
.08 m to
9m
5-pin Mini QD
(3" to 30')
Excess Gain
Beam Pattern
1000
Q45LV
E
X
C
E
S
S
Depends on Bus
Expansion Card Used
(see page 405)
Retroreflective Mode
100
Q45LV
75 mm
2.0 in
25 mm
1.0 in
0
10
G
A
I
N
With BRT-3 Reflector
1
.01 m
.033 ft
.10 m
.33 ft
1.0 m
3.3 ft
Polarized
Q45XB6LPQ
5-pin Mini QD
(6" to 20')
0
With BRT-3 Reflector
25 mm
1.0 in
50 mm
2.0 in
75 mm
3.0 in
0
10 m
33 ft
3m
10 ft
6m
20 ft
9m
30 ft
12 m
40 ft
15 m
50 ft
DISTANCE
DISTANCE
.15 m to
6m
3.0 in
Retroreflective Mode
50 mm
1000
Q45LP
Depends on Bus
Expansion Card Used
(see page 405)
E
X
C
E
S
S
Retroreflective Mode
100
Q45LP
75 mm
Retroreflective
Mode
50 mm
25 mm
G
A
I
N
With BRT-3 Reflector
0
With BRT-3 Reflector
25 mm
1.0 in
50 mm
2.0 in
75 mm
1
.01 m
.033 ft
.10 m
.33 ft
1.0 m
3.3 ft
2.0 in
1.0 in
0
10
3.0 in
3.0 in
0
10 m
33 ft
1.5 m
5 ft
3m
10 ft
4.5 m
15 ft
6m
20 ft
7.5 m
25 ft
DISTANCE
DISTANCE
Infrared, 880 nm
Q45X Diffuse Mode
Models
Focus
Cable
Supply
Voltage
Q45XB6DQ
5-pin Mini QD
Beam Pattern
Performance based on 90% reflectance white test card
1000
Short Range Diffuse
450 mm
(18")
Excess Gain
E
X
C
E
S
S
Depends on Bus
Expansion Card Used
(see page 405)
Q45D
Diffuse Mode
15 mm
0.6 in
100
Q45D
10 mm
5 mm
0.2 in
0
G
A
I
N
10
1
1.0 mm
0.04 in
10 mm
0.4 in
100 mm
4.0 in
0
5 mm
0.2 in
10 mm
0.4 in
15 mm
0.6 in
1000 mm
40 in
0
100 mm 200mm 300 mm 400 mm 500 mm
4.0 in
8.0 in 12.0 in 16.0 in 20.0 in
DISTANCE
Long Range Diffuse
0.4 in
Diffuse Mode
DISTANCE
1000
Q45DL
Q45DL
100
Q45XB6DLQ
1.8 m
(6')
5-pin Mini QD
Depends on Bus
Expansion Card Used
(see page 405)
Diffuse Mode
75 mm
Diffuse Mode
3.0 in
50 mm
2.0 in
25 mm
1.0 in
0
10
1
.01 m
.033 ft
.10 m
.33 ft
1.0 m
3.3 ft
DISTANCE
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
10 m
33 ft
0
25 mm
1.0 in
50 mm
2.0 in
75 mm
3.0 in
0
0.6 m
2 ft
1.2 m
4 ft
1.8 m
6 ft
2.4 m
8 ft
3.0 m
10 ft
DISTANCE
401
Q45X Sensors for Bus Networks
Visible red, 680 nm
Q45X Convergent Mode
Models
Focus
Supply
Voltage
Cable
Excess Gain
Beam Pattern
Performance based on 90% reflectance white test card
1000
38 mm
(1.5")
Q45XB6CVQ
Spot Size
at Focus:
1.3 mm
(0.05")
5-pin Mini QD
Depends on Bus
Expansion Card Used
(see page 405)
E
X
C
E
S
S
Q45CV
Convergent Mode
Q45CV
3.8 mm
Convergent Mode
100
0.10 in
1.2 mm
0.05 in
0
0
G
A
I
N
10
1.2 mm
0.05 in
2.5 mm
0.10 in
0.15 in
3.8 mm
1
1 mm
.04 in
10 mm
.4 in
100 mm
4 in
0.15 in
2.5 mm
0
1000 mm
40 in
38 mm
1.5 in
DISTANCE
75 mm 113 mm 150 mm 190 mm
3.0 in
4.5 in
6.0 in
7.5 in
DISTANCE
1000
100 mm
(4")
Q45XB6CV4Q
Spot Size
at Focus:
1.3 mm
(0.05")
5-pin Mini QD
Depends on Bus
Expansion Card Used
(see page 405)
E
X
C
E
S
S
Q45CV4
Convergent Mode
Q45CV4
3.8 mm
2.5 mm
0.10 in
1.2 mm
0.05 in
0
G
A
I
N
10
1
1 mm
.04 in
0.15 in
Convergent Mode
100
10 mm
.4 in
100 mm
4 in
DISTANCE
1000 mm
40 in
0
1.2 mm
0.05 in
2.5 mm
0.10 in
3.8 mm
0.15 in
0
38 mm
1.5 in
75 mm 113 mm 150 mm 190 mm
3.0 in
4.5 in
6.0 in
7.5 in
DISTANCE
For Q45Xs:
i) Sensors require a mini-style quick-disconnect cable. Contact your Banner sales engineer for help with cable selection.
402
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
Q45X Sensors for Bus Networks
Infrared, 880 nm
Q45X Glass Fiber Optic Mode
Models
Focus
Cable
Excess Gain
Supply
Voltage
Beam Pattern
Diffuse mode performance based on 90% reflectance white test card
1000
E
X
C
E
S
S
Q45F
Opposed Mode
Q45F
150 mm
Range
varies by
sensing
mode
and fiber
optics
used
Q45XB6FQ
5-pin Mini QD
Depends on Bus
Expansion Card Used
(see page 405)
4.0 in
100 mm
IT23S Fibers
50 mm
IT23S fibers
0
G
A
I
N
6.0 in
Opposed Mode
100
10
2.0 in
0
IT13S Fibers
50 mm
2.0 in
100 mm
4.0 in
IT13S fibers
6.0 in
150 mm
1
0.01 m
0.03 ft
0.1 m
0.33 ft
1.0 m
3.3 ft
0
10 m
33 ft
0.4 m
15 in
0.8 m
30 in
1.2 m
45 in
1.6 m
60 in
2.0 m
75 in
DISTANCE
DISTANCE
1000
E
X
C
E
S
S
G
A
I
N
Q45F
Diffuse Mode
Q45F
3.8 mm
0.15 in
Diffuse Mode
100
2.5 mm
0.10 in
BT13S Fiber
.3 mm
BT23S Fiber
0.05 in
BT23S Fiber
0
10
0
.3 mm
0.05 in
2.5 mm
0.10 in
BT13S Fiber
3.8 mm
1
1 mm
0.04 in
10 mm
0.4 in
100 mm
4.0 in
0.15 in
0
1000 mm
40 in
25 mm
1 in
DISTANCE
50 mm
2 in
75 mm 100 mm 125 mm
3 in
4 in
5 in
DISTANCE
Visible red, 660 nm
Q45X Plastic Fiber Optic Mode
Models
Focus
Cable
Supply
Voltage
Excess Gain
Beam Pattern
Diffuse mode performance based on 90% reflectance white test card
1000
E
X
C
E
S
S
Q45FP
Opposed Mode
100
Q45XB6FPQ
Range
varies by
sensing
mode
and fiber
optics
used
5-pin Mini QD
Depends on Bus
Expansion Card Used
(see page 405)
1.8 in
Opposed Mode
30 mm
PIT46U Fibers
15 mm
1.2 in
0.6 in
0
PIT46U Fibers
G
A
I
N
Q45FP
45 mm
0
PIT26U Fibers
10
15 mm
0.6 in
30 mm
1.2 in
PIT26U Fibers
45 mm
1
1 mm
0.04 in
10 mm
0.4 in
100 mm
4.0 in
1.8 in
0
1000 mm
40 in
25 mm
1.0 in
50 mm
2.0 in
75 mm 100 mm 125 mm
3.0 in
4.0 in
5.0 in
DISTANCE
DISTANCE
1000
E
X
C
E
S
S
G
A
I
N
Q45FP
Diffuse Mode
100
Q45FP
18 mm
PBT46U Fiber
0.75 in
Diffuse Mode
12 mm
0.50 in
PBT46U Fiber
6 mm
0
10
1
0.1 mm
0.004 in
1 mm
0.04 in
10 mm
0.4 in
DISTANCE
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
0
6 mm
0.25 in
12 mm
0.50 in
18 mm
PBT26U Fiber
100 mm
4 in
0.25 in
0.75 in
0
10 mm
0.4 in
20 mm
0.8 in
30 mm
1.2 in
40 mm
1.6 in
50 mm
2.0 in
DISTANCE
403
Q45X Sensors for Bus Networks
Q45X Specifications
Supply Voltage and Current
The sensor is powered by the bus network (depends on Bus Expansion Card used, see page 405)
Supply Protection Circuitry
Protected against reverse polarity, transient voltages, and loss of ground.
(none of these conditions will harm the sensor or interrupt communication on the network)
Response Time
2 milliseconds; Total response time will also include the response time of the network
Adjustments
Multi-turn SENSITIVITY control on top of the sensor (beneath a transparent o-ring sealed cover) allows
precise sensitivity setting (turn clockwise to increase gain); Internal switch must be in Light Operate
(L/O) position, which is the factory setting
Indicators
On the sensor: Green and Red; visible through the transparent sensor top cover
Green LED lights for dc power “ON”
Red LED is Banner's patented Alignment Indicating Device (AID™, U.S. patent #4356393) which lights
whenever the sensor “sees” a light condition and superimposes a pulse rate which is proportional to
the strength of the received light signal (the stronger the signal, the faster the pulse rate)
Emitter model Q45X6EQ has green power indicator, only.
Also see expansion card specifications for description of additional indicators.
Construction
Molded thermoplastic polyester housing; Molded acrylic lenses; Stainless steel hardware. O-ring sealed
transparent Lexan® top cover
Environmental Rating
IEC IP67; NEMA 6P
Connections
Mini-style quick-disconnect cables specific to protocol required; contact your Banner sales engineer or
Interlink BT for cable information.
Operating Conditions
Temperature:
See specifications for expansion cards
Relative humidity: 95% (non-condensing)
Certifications
Lexan® is a registered trademark of General Electric Co.
404
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
Q45X Sensors for Bus Networks
Bus Expansion Cards
for Use with Q45X Series Photoelectric Sensors
Banner Bus Network plug-in bus cards enable a Banner Q45X
Series sensor to establish a logical relationship between the
sensor’s output and other compatible devices on a specific bus
network. Use of a bus expansion card turns the Q45X into a
“smart” sensor which can be connected to a specific bus network
such as DeviceNet™, SDS™ and AS-Interface protocols, using a
simple “dumb drop” junction box or a “T” connector. Plugging a
bus expansion card into a Q45X Series sensor automatically
converts the basic sensor outputs to a pair of datacom connections
with the proper protocol for use on a specific bus network.
Select a bus expansion card for the bus network protocol
required. Banner has the following bus expansion cards available.
Other expansion cards are available for protocols not mentioned
here. Please contact Banner’s Applications Department.
The Q45X sensor with any expansion card installed, requires
protocol compatible quick-disconnect cables. Contact your
Banner sales engineer for cable information.
Bus Network Expansion Cards
Models
Used with Sensor
45DN1
Bit Strobe
Sensor Bus Protocol
All Q45X models, except
emitter
45DN2
Change of State
45DNE1
DeviceNet™
Q45X6EQ Emitter
45AS1
All Q45X models, except
emitter
45ASE1
Q45X6EQ Emitter
45SD1
Any Q45X sensor
AS-Interface
SDS™
Q45X Sensor Functional Schematic
Basic Configuration with Bus Card NOT Installed
+V
Expansion
Slot
No
Bus
Card
Installed
Sensing
Circuit
+V
Expansion
Slot
Source
Sink
Basic Configuration with Bus Card Installed
To PLC or
Other
External
Circuit
Bus
Card
Installed
-V
Sensing
Circuit
Datacom
Datacom
To
Bus
-V
Aux
Shield
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
405
Q45X Sensors for Bus Networks
Bus Expansion Card Specifications
Supply Voltage and Current
Q45DN Cards: 11 to 25V dc @ 60 mA
Q45AS Cards: 18 to 33V dc @ 45 mA
Q45SD1 Card: 11 to 25V dc @ 60 mA
Supply Protection Circuitry
Protected against reverse polarity, transient voltages and loss of ground
(none of these conditions will harm the sensor or interrupt communication on the network)
Response Time
2 milliseconds; total response time will also include the response time of the network
Indicators
On the sensor: Green and Red; visible through the transparent sensor top cover
Green LED lights for dc power “ON”
Red LED(except emitter model Q45X6EQ) is Banner's patented Alignment Indicating Device (AID™,
U.S. patent #4356393) which lights whenever the sensor “sees” a light condition and superimposes a
pulse rate which is proportional to the strength of the received light signal (the stronger the signal, the
faster the pulse rate)
On the Q45DN1 and Q45DN2 Bus Cards: Green and Red; visible through the transparent sensor top cover
A bi-color LED indicates the status of the network.
Green
Steady
Sensor on line, connected to master
Flashing
Sensor on line - address + baud rate are ok
Red
Steady
Critical network fault or duplicate node address detected; wrong baud rate
Flashing
Minor or connection time-out fault
On the Q45SD1 Bus Card (visible through the transparent sensor top cover):
A bi-color LED indicates the status of the network.
Green
Sensor communicating
Red
Critical fault
Operating Conditions
Temperature:
Q45DN Cards: -10° to +70°C (-14° to +158°F)
Q45AS Cards: -25° to +70°C (-13° to +158°F)
Q45SD1 Card: -20° to +50°C (-4° to +122°F)
Relative humidity for all cards:
95% (non-condensing)
Q45X Hookup Information
45DN Bus Expansion Card Hookup
Q45X Male Connector
Pin
Wire Color
1
Male Pinout
1
5
2
4
Function
Shield
2
Red
BUS power (+V)
3
Black
BUS power (-V)
4
White
Communications +
5
Blue
Communications -
3
406
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
Q45X Sensors for Bus Networks
Q45X Hookup Information
45AS Bus Expansion Card Hookup
Q45X Male Connector
Male Pinout
1
5
2
4
Pin
Wire Color
Function
1
No Connection*
2
No Connection*
3
No Connection*
4
Blue
AS-Interface +
5
Brown
AS-Interface -
3
*Pins #1, 2 and 3 should be left floating for proper operation
45SD1 Bus Expansion Card Hookup
Q45X Male Connector
Pin
Wire Color
Function
1
Male Pinout
1
5
2
4
Shield
2
Brown
BUS power (+V)
3
Blue
BUS power (-V)
4
Black
Communications +
5
White
Communications -
3
Q45X Dimensions
Transparent Cover (Gasketed)
View:Sensing Status
Output Load Status
Power
Open to Access:
Sensitivity (Gain) Adjustment
Timing Adjustments
L/O – D/O Switch
54.1 mm
(2.13")
44.5 mm
(1.75")
Lens Centerline
50.8 mm
(2.00")
69.0 mm
(2.72")
6.4 mm (0.25")
87.6 mm
(3.45")
4.5 mm (#10) Screw
Clearance (2)
7.1 mm
(0.28")
30.0 mm
(1.18")
Internal Thread
(1/2–14NPSM)
External Thread
M30 X 1.5
External Thread
M30 X 1.5
Mini-style QD Connector
Mounting Nut is Supplied
14 mm (0.6")
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
407
Q45XDN Sensors for DeviceNet™ Bus Networks
Q45XDN Sensors for Bus Networks
with Protocol-specific Expansion Card Installed
•
Q45XDN Series sensors interface to DeviceNet™ bus networks
•
These “smart” sensors can be wired to a DeviceNet bus network using
simple “dump drop” junction boxes or “T” connectors
•
Each model has integral 12 mm euro-style quick-disconnect connector
for DeviceNet cable
Q45XDN Series Sensing Mode Options
Opposed
Retroreflective
Diffuse
Convergent
Glass and Plastic Fiber Optic
Q45XDN DeviceNet™ Sensors
Models
Sensing Mode
Q45XDN1EQ6
Opposed Emitter
Focus
Q45XDN2RQ6
Opposed Receiver
Q45XDN1LVQ6
Retro,
Non-polarized
.08 m - 9 m
(3" - 30')
Retro,
Polarized
.15 m - 6 m
(6" - 20')
Diffuse,
Short-range
450 mm
(18")
Q45XDN2LPQ6
Q45XDN1DQ6
Q45XDN2DQ6
Q45XDN1DLQ6
Q45XDN2DLQ6
Diffuse,
Long-range
Q45XDN1CVQ6
Excess Gain
Beam Pattern
Bit Strobe
Change of State
1.8 m
(6')
38 mm
(1.5")
Q45XDN2CVQ6
I/O
Support
Emitter Only
Opposed Receiver
Q45XDN1LPQ6
Supply
Voltage
60 m
(200')
Q45XDN1RQ6
Q45XDN2LVQ6
Cable
Bit Strobe
Change of State
Bit Strobe
Change of State
Bit Strobe
DeviceNet
5-pin Euro
QD
Change of State
18-33V dc
Bit Strobe
Change of State
Excess gain curves and beam patterns
are the same for all Q45X models.
See respective sensor mode charts
starting on page 400.
Bit Strobe
Change of State
Convergent
Q45XDN1CV4Q6
Bit Strobe
100 mm (4")
Change of State
Q45XDN2CV4Q6
Q45XDN1FQ6
Q45XDN2FQ6
Q45XDN1FPQ6
Q45XDN2FPQ6
408
Glass
Fiber Optic
Glass
Fiber Optic
Range varies
by sensing
mode and
fiber optics
used
Bit Strobe
Change of State
Bit Strobe
Change of State
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
Q45XDN Sensors for DeviceNet™ Bus Networks
Q45XDN Specifications
Supply Voltage and Current
The sensor is powered by the bus network: 11 to 25V dc @ 60 mA
Supply Protection Circuitry
Protected against reverse polarity, transient voltages, and loss of ground.
(none of these conditions will harm the sensor or interrupt communication on the network)
Response Time
2 milliseconds; Total response time will also include the response time of the network
Adjustments
Multi-turn SENSITIVITY control on top of the sensor (beneath a transparent o-ring sealed cover) allows
precise sensitivity setting (turn clockwise to increase gain); Internal switch must be in Light Operate
(L/O) position, which is the factory setting
Indicators
On the sensor: Green and Red; visible through the transparent sensor top cover
Green LED lights for dc power “ON”
Red LED is Banner's patented Alignment Indicating Device (AID™, U.S. patent #4356393) which lights
whenever the sensor “sees” a light condition and superimposes a pulse rate which is proportional to
the strength of the received light signal (the stronger the signal, the faster the pulse rate)
On the Q45DN Bus Card: Green and Red; visible through the transparent sensor top cover
A bi-color LED indicates the status of the network.
Green
Steady
Sensor on line, connected to master
Flashing
Sensor on line - address + baud rate are ok
Red
Steady
Critical network fault or duplicate node address detected; wrong baud rate
Flashing
Minor or connection time-out fault
Sensor Configuration
The following features of the Q45XDN Series sensors are programmable via the network with a configuration tool:
Feature
Range
Network Address
0-63
Baud Rate
125 K, 250 K, 500 K
Operation Mode
LIght Operate or Dark Operate
All Q45XDN models support:
Explicit Message Connection: Required to Set and Get sensor Attributes
Q45XDN1 models support:
Bit Strobe Connection: Responds to a master’s request
Q45XDN2 models support:
Change of State Connection: which responds to a slave’s change of state
I/O Response is with the following 8-bit word of data:
Bit 0:
0
Output is “OFF”
1
Output is “ON”
Bit 1:
0
Alarm output is “OFF”
1
Alarm output is “ON”
Bit 2-7:
Not Used: Always 0
Notes: Configuration may be simplified through use of an Electronic Data Sheet (Banner model EDS 40223)
Construction
Molded thermoplastic polyester housing; Molded acrylic lenses; Stainless steel hardware. O-ring sealed
transparent Lexan® top cover
Environmental Rating
IEC IP67; NEMA 6P
Connections
Euro-style DeviceNet™ quick-disconnect cables are ordered separately; contact your Banner sales engineer
or Interlink BT for cable information.
Operating Conditions
Temperature:
-25° to +70°C (-13° to +158°F)
Relative humidity: 95% (non-condensing)
Lexan® is a registered trademark of General Electric Co.
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
409
Q45XDN Sensors for DeviceNet™ Bus Networks
Q45XDN Hookup Information
Q45XDN DeviceNet™ Hookup
Q45X Male Connector
Pin
Male Pinout
1
4
410
1
3
2
5
Wire Color
Function
Shield
2
Red
BUS power (+V)
3
Black
BUS power (-V)
4
White
Communications +
5
Blue
Communications -
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
Q45XAS Sensors for AS-Interface Bus Networks
Q45XAS Sensors for AS-Interface Bus Networks
•
Q45XAS Series sensors interface to AS-Interface bus
networks
•
These “smart” sensors can be wired to an ASI bus network
using simple “dumb drop” junction boxes or “T” connectors
•
Each model has an integral 12 mm euro-style quickdisconnect connect for protocol-compatible cable
Q45XAS Series Sensing Mode Options
Opposed
Retroreflective
Diffuse
Convergent
Glass and Plastic Fiber Optic
Q45XAS AS-Interface Sensors
Models
Sensing Mode
Q45XAS1EQ
Opposed Emitter
Focus
Cable
Supply
Voltage
Excess Gain
Beam Pattern
60 m
(200')
Q45XAS1RQ
Opposed Receiver
Q45XAS1LVQ
Retro, Non-polarized
.08 m - 9 m
(3" - 30')
Q45XAS1LPQ
Retro, Polarized
.15 m - 6 m
(6" - 20')
Q45XAS1DQ
Diffuse, Short-range
450 mm
(18")
Diffuse, Long-range
1.8 m
(6')
Q45XAS1DLQ
ASI
4-pin Euro
QD
(see specifications)
18-33V dc
Excess gain curves and beam patterns
are the same for all Q45X models.
See respective sensor mode charts,
starting on page 400.
38 mm
(1.5")
Q45XAS1CVQ
Convergent
Q45XAS1CV4Q
100 mm (4")
Q45XAS1FQ
Glass Fiber Optic
Q45XAS1FPQ
Plastic Fiber Optic
Range varies by
sensing mode and
fiber optics used
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
411
Q45XAS Sensors for AS-Interface Bus Networks
Q45XAS Specifications
Supply Voltage and Current
The sensor is powered by the bus network: 18 to 33V dc @ 45 mA
Supply Protection Circuitry
Protected against reverse polarity, transient voltages, and loss of ground.
(none of these conditions will harm the sensor or interrupt communication on the network)
Response Time
2 milliseconds; Total response time will also include the response time of the network
Adjustments
Multi-turn SENSITIVITY control on top of the sensor (beneath a transparent o-ring sealed cover) allows
precise sensitivity setting (turn clockwise to increase gain); Internal switch must be in Light Operate
(L/O) position, which is the factory setting
Indicators
Green and Red; visible through the transparent sensor top cover
Green LED lights for dc power “ON”
Red LED is Banner's patented Alignment Indicating Device (AID™, U.S. patent #4356393) which lights
whenever the sensor “sees” a light condition and superimposes a pulse rate which is proportional to
the strength of the received light signal (the stronger the signal, the faster the pulse rate)
Sensor Configuration
Q45XAS1 Series sensors conform to the following AS-Interface profile:
S-1.1-4.2 Photoelectric Proximity Switches
Per profile S1.1 the sensor’s I/O code - 1, and the ID code = 1. The data and parameter bits that are
supported are as follows:
Type
Input
Input
Input
Output
Param.
Param.
Param.
Param.
Port
D0
D1
D2
D3
P0
P1
P2
P3
Meaning
Sense
Alarm
N/A
Test
Frequency
Invert DO
Off-delay
N/A
0 (Host)
Dark
Warning
N/A
Emitter off
Low freq.
Invert DO
20 ms
N/A
1 (Host)
Light
O.K.
N/A
Normal
High freq.
Normal
Normal
N/A
Construction
Molded thermoplastic polyester housing; Molded acrylic lenses; Stainless steel hardware. O-ring sealed
transparent Lexan® top cover
Environmental Rating
IEC IP67; NEMA 6P
Connections
Euro-style AS-Interface quick-disconnect cables are ordered separately; contact your Banner sales
engineer or Interlink BT for cable information.
Operating Conditions
Temperature:
Relative humidity:
®
Lexan is a registered trademark of General Electric Co.
-25° to +70°C (-13° to +158°F)
95% (non-condensing)
Q45XAS Hookup Information
Q45XAS1 AS-Interface Hookup
Q45X Male Connector
Pin
Wire Color
Function
Male Pinout
1
Brown
AS-Interface +
4
2
1
2
3
3
No Connection*
Blue
4
AS-Interface No Connection*
*Pins #2 and 4 should be left floating for proper operation
412
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
Q45XAS Sensors for AS-Interface Bus Networks
Q45XDN and Q45XAS Dimensions
NOTES FOR DIMENSIONS
*54.6 mm (2.15") is the depth dimension for sensors
with the following suffixes:
E (emitter), D (short-range diffuse), DL (long-range
diffuse), LV (retroreflective), and R (receiver).
The sensor depth dimension for other models is as
follows:
CV and CV4 (convergent): 61.5 mm (2.42")
LP (polarized retroreflective): 56.4 mm (2.30")
F (glass fiber optic): 60.5 mm (2.38")
FP (plastic fiber optic): 59.8 mm (2.35")
Emitters (“E” model suffix) have the green power
status LED only, and no internal adjustments.
A 30 mm jam nut is supplied for mounting the sensor
via its threaded base.
Transparent Cover (Gasketed)
View: Sensing Status (Red)
Power Suppy (Green)
Raise to Access:
Sensitivity (Gain) Adjustment
*54.6 mm
(2.15")
44.5 mm
(1.75")
Lens
Centerline
50.8 mm
(2.00")
69.0 mm
(2.72")
6.4 mm
(0.25")
5 mm (#10) Screw
Clearance (2)
87.6 mm
(3.45")
7.1 mm
(0.28")
30.0 mm
(1.18")
4-Pin 12mm Euro-style
Quick-Disconnect Connector
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
External Thread
M30 x 1.5
413
Q45 NAMUR Sensors
Q45 NAMUR Intrinsically Safe Sensors
•
•
•
•
•
Intrinsically safe sensors with the rugged design and
exceptional optical performance of Q45 Series sensors
Use with approved switching amplifiers which have
intrinsically safe input circuits; designed in accordance with
DIN 19 234
Output passes ≤1.2 mA in the “dark” condition and ≥2.1 mA
in the “light” condition
Internal multi-turn SENSITIVITY (Gain) control accessible
beneath hinged, o-ring sealed top cover
Choose models with integral cable or quick-disconnect
connector
Q45 NAMUR Sensing Mode Options
Opposed
Retroreflective
Diffuse
Convergent
Glass and Plastic Fiber Optic
Infrared, 880 nm
Q45 NAMUR Opposed Mode Emitter (E) and Receiver (R)
Models
Range
Supply
Voltage
Cable
Output
Type
Excess Gain
Beam Pattern
Effective Beam: 13 mm
1000
Q459E
Q459EQ
Q45AD9R
Q45AD9RQ
6m
(20')
2 m (6.5')
4-Pin Euro QD
2 m (6.5')
4-Pin Euro QD
5-15V dc
Constant
Current
≤1.2 mA dark
≥2.1 mA light
E
X
C
E
S
S
Q45AD9 E/R
Opposed Mode
Q45AD9 E/R
150 mm
100
6 in
Opposed Mode
100 mm
4 in
50 mm
2 in
0
G
A
I
N
0
10
50 mm
2 in
100 mm
4 in
150 mm
1
0.1 m
0.33 ft
1.0 m
3.3 ft
10 m
33 ft
DISTANCE
100 m
330 ft
6 in
0
1.2 m
4 ft
2.4 m
8 ft
3.6 m
12 ft
4.8 m
16 ft
6m
20 ft
DISTANCE
For Q45 NAMUR Series Sensors:
i) 9 m (30') cables are available by adding suffix “W/30” to the model number of any cabled sensor (e.g. - Q459E W/30)
ii) A model with a QD connector requires an accessory mating cable. See page 421 and the Accessories section for more information.
414
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
Q45 NAMUR Sensors
P
Visible red, 680 nm
Non-Polarized
Polarized
NOTE: Retroreflective range is specified using one model BRT-3
retroreflector (3" diameter). Actual sensing range may be more or
less than specified, depending upon the efficiency and reflective
area of the retroreflector(s) in use. See page 722 for more
information.
Non-Polarized, Polarized
Q45 NAMUR Retroreflective Mode
Models
Range
Cable
Supply
Voltage
Output
Type
Non-Polarized
Q45AD9LV
Q45AD9LVQ
9m
(30')
2 m (6.5')
4-Pin Euro QD
Excess Gain
Beam Pattern
1000
Q45AD9LV
Constant
Current
5-15V dc
≤1.2 mA dark
≥2.1 mA light
E
X
C
E
S
S
G
A
I
N
Retroreflective Mode
100
Q45AD9LV
75 mm
2.0 in
25 mm
1.0 in
0
10
With BRT-3 Reflector
1
.01 m
.033 ft
.10 m
.33 ft
0
With BRT-3 Reflector
25 mm
1.0 in
50 mm
2.0 in
75 mm
1.0 m
3.3 ft
10 m
33 ft
3.0 in
0
3m
10 ft
DISTANCE
Polarized
6m
20 ft
9m
30 ft
2 m (6.5')
4-Pin Euro QD
15 m
50 ft
DISTANCE
Q45AD9LP
Retroreflective Mode
Q45AD9LP
75 mm
Retroreflective
Mode
50 mm
6m
(20')
12 m
40 ft
1000
100
Q45AD9LP
Q45AD9LPQ
3.0 in
Retroreflective Mode
50 mm
Constant
Current
5-15V dc
≤1.2 mA dark
≥2.1 mA light
25 mm
With BRT-3 Reflector
0
With BRT-3 Reflector
25 mm
1.0 in
50 mm
2.0 in
75 mm
.10 m
.33 ft
1.0 m
3.3 ft
2.0 in
1.0 in
0
10
1
.01 m
.033 ft
3.0 in
10 m
33 ft
3.0 in
0
1.5 m
5 ft
DISTANCE
3m
10 ft
4.5 m
15 ft
6m
20 ft
7.5 m
25 ft
DISTANCE
Infrared, 880 nm
Q45 NAMUR Diffuse Mode
Models
Range
Cable
Supply
Voltage
Output
Type
300 mm
(12")
2 m (6.5')
4-Pin Euro QD
Beam Pattern
Performance based on 90% reflectance white test card
1000
Short Range
Q45AD9D
Q45AD9DQ
Excess Gain
Constant
Current
5-15V dc
≤1.2 mA dark
≥2.1 mA light
E
X
C
E
S
S
Q45AD9D
Diffuse Mode
15 mm
100
Q45AD9D
Diffuse Mode
10 mm
5 mm
10
0
5 mm
0.2 in
10 mm
0.4 in
15 mm
1
1.0 mm
0.04 in
10 mm
0.4 in
100 mm
4.0 in
1000 mm
40 in
0.6 in
0
100 mm 200mm 300 mm 400 mm 500 mm
4.0 in
8.0 in 12.0 in 16.0 in 20.0 in
DISTANCE
DISTANCE
Long Range
Q45AD9DL
Q45AD9DLQ
1m
(40")
2 m (6.5')
4-Pin Euro QD
0.4 in
0.2 in
0
G
A
I
N
0.6 in
1000
Constant
Current
5-15V dc
≤1.2 mA dark
≥2.1 mA light
E
X
C
E
S
S
Q45AD9DL
Q45AD9DL
Diffuse Mode
Diffuse Mode
7.5 mm
100
0.3 in
5.0 mm
0.2 in
2.5 mm
0.1 in
0
G
A
I
N
10
0
2.5 mm
0.1 in
5.0 mm
0.2 in
7.5 mm
1
0.01 m
0.0033 ft
0.1 m
0.033 ft
1m
0.33 ft
DISTANCE
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10 m
3.3 ft
0.3 in
0
0.3 m
1 ft
0.6 m
2 ft
0.9 m
3 ft
1.2 m
4 ft
1.5 m
5 ft
DISTANCE
415
Q45 NAMUR Sensors
Visible red, 680 nm
Q45 NAMUR Convergent Mode
Models
Focus
Supply
Voltage
Cable
Output
Type
Excess Gain
Beam Pattern
Performance based on 90% reflectance white test card
1000
38 mm
(1.5")
Q45AD9CV
Q45AD9CVQ
Spot Size
at Focus:
1.3 mm
(0.05")
2 m (6.5')
4-Pin Euro QD
Constant
Current
5-15V dc
≤1.2 mA dark
≥2.1 mA light
E
X
C
E
S
S
Q45AD9CV
Convergent Mode
Q45AD9CV
3.8 mm
100
0.15 in
Convergent Mode
2.5 mm
0.10 in
1.2 mm
0.05 in
0
G
A
I
N
10
0
1.2 mm
0.05 in
2.5 mm
0.10 in
3.8 mm
1
1 mm
.04 in
10 mm
.4 in
100 mm
4 in
0.15 in
0
1000 mm
40 in
38 mm
1.5 in
75 mm 113 mm 150 mm 190 mm
3.0 in
4.5 in
6.0 in
7.5 in
DISTANCE
DISTANCE
1000
100 mm
(4")
Q45AD9CV4
Q45AD9CV4Q
Spot Size
at Focus:
1.5 mm
(0.06")
2 m (6.5')
4-Pin Euro QD
Constant
Current
5-15V dc
≤1.2 mA dark
≥2.1 mA light
E
X
C
E
S
S
Q45AD9CV4
Convergent Mode
Q45AD9CV4
3.8 mm
100
0.15 in
Convergent Mode
2.5 mm
0.10 in
1.2 mm
0.05 in
0
0
G
A
I
N
10
1.2 mm
0.05 in
2.5 mm
0.10 in
0.15 in
3.8 mm
1
1 mm
.04 in
10 mm
.4 in
100 mm
4 in
0
1000 mm
40 in
38 mm
1.5 in
75 mm 113 mm 150 mm 190 mm
3.0 in
4.5 in
6.0 in
7.5 in
DISTANCE
DISTANCE
Infrared, 880 nm
Q45 NAMUR Glass Fiber Optic
Models
Range
Supply
Voltage
Cable
Output
Type
Excess Gain
Beam Pattern
Diffuse mode performance based on 90% reflectance white test card
1000
E
X
C
E
S
S
Q45AD9F
Opposed Mode
Opposed Mode
37.5 mm
100
IT23S fibers
12.5 mm
Q45AD9F
Q45AD9FQ
Range
varies by
sensing
mode
and fiber
optics
used
2 m (6.5')
4-Pin Euro QD
Constant
Current
5-15V dc
≤1.2 mA dark
≥2.1 mA light
0
12.5 mm
0.5 in
25.0 mm
1.0 in
37.5 mm
1
1.0 mm
0.04 in
10 mm
0.4 in
100 mm
4 in
1000 mm
40 in
1.5 in
0
DISTANCE
125 mm 250 mm 375 mm 500 mm 625 mm
5 in
10 in
15 in
20 in
25 in
DISTANCE
1000
E
X
C
E
S
S
G
A
I
N
Q45AD9F
Diffuse Mode
Q45AD9F
1.5 mm
100
0.06 in
Diffuse Mode
1.0 mm
0.04 in
0.5 mm
BT23S fiber
BT23S Fiber
0
10
BT13S fiber
10 mm
0.4 in
100 mm
4 in
DISTANCE
1000 mm
40 in
0.02 in
0
BT13S Fiber
0.5 mm
1
1.0 mm
0.04 in
416
0.5 in
IT13S Fibers
10
IT13S fibers
1.5 in
1.0 in
IT23S Fibers
0
G
A
I
N
Q45AD9F
25.0 mm
0.02 in
1.0 mm
0.04 in
1.5 mm
0.06 in
0
12.5 mm 25.0 mm 37.5 mm 50.0 mm 62.5 mm
0.5 in
1.0 in
1.5 in
2.0 in
2.5 in
DISTANCE
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
Q45 NAMUR Sensors
Visible red, 660 nm
Q45 NAMUR Plastic Fiber Optic
Models
Range
Cable
Supply
Voltage
Output
Type
Excess Gain
Beam Pattern
Diffuse mode performance based on 90% reflectance white test card
1000
E
X
C
E
S
S
Q45AD9FP
Opposed Mode
100
Q45AD9FP
Q45AD9FPQ
Range
varies by
sensing
mode
and fiber
optics
used
2 m (6.5')
4-Pin Euro QD
Constant
Current
5-15V dc
≤1.2 mA dark
≥2.1 mA light
Q45AD9FP
30 mm
Opposed Mode
1.8 in
PIT46U Fibers
15 mm
PIT46U Fibers
G
A
I
N
45 mm
1.2 in
0.6 in
0
0
PIT26U Fibers
10
PIT26U Fibers
1
1 mm
0.04 in
10 mm
0.4 in
100 mm
4.0 in
15 mm
0.6 in
30 mm
1.2 in
45 mm
1.8 in
0
1000 mm
40 in
25 mm
1.0 in
50 mm
2.0 in
75 mm 100 mm 125 mm
3.0 in
4.0 in
5.0 in
DISTANCE
DISTANCE
1000
E
X
C
E
S
S
G
A
I
N
Q45AD9FP
Q45AD9FP
Diffuse Mode
Diffuse Mode
2.4 mm
100
0.09 in
1.6 mm
PBT46U Fiber
0.06 in
PBT46U Fiber
0.8 mm
0
10
0.03 in
0
0.8 mm
0.03 in
1.6 mm
0.06 in
2.4 mm
0.09 in
PBT26U Fiber
1
0.1 mm
0.004 in
1 mm
0.04 in
10 mm
0.4 in
DISTANCE
100 mm
4 in
0
10 mm
0.4 in
20 mm
0.8 in
30 mm
1.2 in
40 mm
1.6 in
50 mm
2.0 in
DISTANCE
For Q45 NAMUR Series Sensors:
i) 9 m (30') cables are available by adding suffix “W/30” to the model number of any cabled sensor (e.g. - Q45AD9FP W/30)
ii) A model with a QD connector requires an accessory mating cable. See page 421 and the Accessories section for more information.
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417
Q45 NAMUR Sensors
Q45 NAMUR Specifications
Supply Voltage and Current
5 to 15V dc. Supply voltage is provided by the amplifier to which the sensor is connected.
Output
Constant current output: ≤1.2 mA in the “dark” condition and ≥2.1 mA in the “light” condition
Output Response Time
Opposed mode receiver: 2 milliseconds on/0.4 milliseconds off. All others 5 milliseconds on/off (does not
include amplifier response)
Adjustments
Multi-turn sensitivity control on top of sensor, beneath a transparent o-ring sealed Lexan® cover, allows
precise sensitivity setting (turn clockwise to increase gain).
Indicators
Indicator LED’s are highly visible, located beneath a raised transparent Lexan® dome on top of the sensor.
POWER (red) LED (emitters only) lights whenever 5 - 15V dc power is applied
SIGNAL (red) LED lights whenever the sensor sees its modulated light source
Construction
Molded thermoplastic polyester housing, o-ring sealed transparent Lexan® top cover, molded acrylic lenses,
and stainless steel hardware. Q45s are designed to withstand 1200 psi washdown. The base of cabled
models has a 1/2" NPS integral internal conduit thread.
Environmental Rating
NEMA 6P, IEC IP67
Connections
PVC-jacketed 2 m (6.5') or 9 m (30') cables, or 4-pin euro-style quick-disconnect (QD) fitting are
available. QD cables are ordered separately. See page 421 and Accessories section.
Operating Conditions
Temperature:
-40° to +70°C (-40° to +158°F)
Maximum relative humidity: 90% at 50°C (non-condensing)
Design Standards
Q45AD9 Series sensors comply with the following standards:
DIN 19 234, EN 50 014 Part 1. 1977, EN 50 020 Part 7. 1977
Certifications
Exia
LISTE D
107674
Lexan® is a registered trademark of General Electric Co.
APPROVALS
418
CSA:
#LR 41887
Instrinsically Safe, with Entity for:
Class I, Groups A-D
Class I, Div. 2, Groups A-D
FM:
#J.I. 5Y3A4.AX
Intrinsically Safe, with Entity for:
Class I, II, III, Div. 1, Groups A-G
Class I, II, III, Div. 2, Groups A-D and G
KEMA:
3Ex-95.C.3442
EEx ia IIC T6
ETL:
#558044
Tested per FM and CSA as shown above
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Q45 NAMUR Sensors
Q45 NAMUR Hookup Diagrams
NAMUR Sensors with Attached Cable
Hazardous Area
Q45AD9 Series
NAMUR Sensor
NAMUR Sensors with Quick-Disconnect
Non-hazardous Area
Hazardous Area
Q45AD9 Series
NAMUR Sensor
Associated Apparatus
+
br
bu
Power
+ Sensor
– Input
–
Non-hazardous Area
≤ 15V dc
Associated Apparatus
1
br
2
bu
3
+ Sensor
– Input Power
+
–
≤ 15V dc
4
Output
Output
Entity Parameters
Sensor
Associated Apparatus
Voc ≤ 15V dc
Vmax = 15V dc
Isc ≤ 60 mA
Imax = 60 mA
Ca ≤ *C(cable) + Ci
Ci = 0
La ≤ *L(cable) + Li
Li = 0
*C(cable) = 60 pF/ft
*L(cable) = 0.2 µH/ft
Application Notes
The “Associated Apparatus” may include intrinsically
safe amplifiers and barriers to monitor the sensor
supply current, which is the sensor’s output signal. The
associated apparatus must limit both supply voltage and
supply current in the event of failure.
4-Pin Euro-Style Pin-out
(Cable Connector Shown)
Blue Wire
Brown Wire
Quick-Disconnect (QD) Option
DC Q45 NAMUR Series sensors are sold with either a 2 m (6.5') or a 9 m (30') attached PVC-covered cable, or with a 4-pin
euro-style QD cable fitting.
DC QD sensors are identified by the letter “Q” in their model number suffix. Mating cables for QD Q45 NAMUR sensors are
specified on page 421 and in the Accessories section. Cables are supplied in a standard length of 5 m (15').
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419
Q45 NAMUR Sensors
Q45 NAMUR Dimensions
NAMUR Series Opposed, Retro, and Diffuse Sensing Modes
(model suffix E, R, D, DL, LP & LV)
Quick-Disconnect
Cabled
4-Pin Euro-Style
Transparent Cover (Gasketed)
View: Output Load Status
Open to Access:
Sensitivity (Gain) Adjustment
54.1 mm
(2.13")
44.5 mm
(1.75")
Lens Centerline
50.8 mm
(2.00")
69.0 mm
(2.72")
6.4 mm (0.25")
87.6 mm
(3.45")
4.5 mm (#10) Screw
Clearance (2)
7.1 mm
(0.28")
30.0 mm
(1.18")
Internal Thread
(1/2–14NPSM)
External Thread
M30 X 1.5
ø 6.1 (0.24")
2m (6.5') Cable
Euro- or Micro-style
QD Connector
Hex Nut
Supplied
Convergent Sensing Mode
(model suffix CV & CV4)
61.7 mm
(2.43")
420
15 mm (0.6")
Glass Fiber Optic
(model suffix F)
60.5 mm
(2.38")
Plastic Fiber Optic
(model suffix FP)
59.9 mm
(2.36")
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Q45 Accessories
Modifications
Example of Model
Number
Model Suffix
Modification
Description
W/30
9 m (30') cable
All Q45 Series sensors (except Q45X Bus Network models) may be
ordered with an integral 9 m (30') cable in place of the standard
2 m (6.5') cable
Q45BB6LV W/30
Quick-Disconnect (QD) Cables
Following is the selection of cables available for Q45 QD models. See the Accessories section for more cable information.
For information on QD cables for Q45X Bus Network sensors, contact a Banner sales engineer or Interlink BT.
Style
Model
Length
Connector
Used with:
3-Pin Mini
MBCC-306
MBCC-312
MBCC-330
2 m (6.5')
4 m (12')
9 m (30')
Straight
• Q45BW22 with QD connector (model
suffix “Q”)
• Q452EQ & Q453EQ emitter
4-Pin Micro
MQAC-406
MQAC-415
MQAC-406RA
MQAC-415RA
2 m (6.5')
5 m (15')
2 m (6.5')
5 m (15')
Straight
Straight
Right-angle
Right-angle
• Q45BW22 Series with QD connector
(model suffix “Q1”)
• Q452EQ1 emitter
4-Pin Mini
MBCC-406
MBCC-412
MBCC-430
2 m (6.5')
4 m (12')
9 m (30')
Straight
• Q45BB6 and Q45BW13 Series with
QD connector (model suffix “Q”,
except retro laser)
• Q456Q emitter
4-Pin Euro
MQDC-406
MQDC-415
MQDC-430
MQDC-406RA
MQDC-415RA
MQDC-430RA
2 m (6.5')
5 m (15')
9 m (30')
2 m (6.5')
5 m (15')
9 m (30')
Straight
Straight
Straight
Right-angle
Right-angle
Right-angle
• Q45BB6 Series with QD connector
(model suffix “Q5”)
• Q456EQ5 emitter
4-Pin Euro
(NAMUR)
MQD9-406
MQD9-415
MQD9-406RA
MQD9-415RA
2 m (6.5')
5 m (15')
2 m (6.5')
5 m (15')
Straight
Straight
Right-angle
Right-angle
• Q45AD9 Series NAMUR sensors with
QD connector
5-Pin Mini
MBCC-506
MBCC-512
MBCC-530
2 m (6.5')
4 m (12')
9 m (30')
Straight
• Q45VR2, Q45VR3 and Q45X Series
with QD connector
• Q45BB6LL Retroreflective Laser sensors
5-Pin Euro
MQDC1-506
MQDC1-515
MQDC1-530
MQDC1-506RA
MQDC1-515RA
MQDC1-530RA
2 m (6.5')
5 m (15')
9 m (30')
2 m (6.5')
5 m (15')
9 m (30')
Straight
Straight
Straight
Right-angle
Right-angle
Right-angle
• Q45XDN and Q45XAS Sensors
• Q45BB6LL & LLP Retroreflective Laser
sensors
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421
Q45 Accessories
Output Timing Logic and Signal Strength Display Modules
Q45 sensors easily accept the addition of output timing logic and signal strength display functions. Display modules have a seven-element
display which gives a “finer” indication of excess gain than does the AID™ system LED that is standard on most Q45 sensors. The modules
listed below may be used with all Q45 sensors except NAMUR models.
Model
45LM58
45LM58D
45LMD
Logic and/or Display Function
Programmable output timing logic
Programmable output timing logic plus signal strength display
Signal strength display only (no timing function)
Signal Strength Display
LED Number
Approximate Gain
#1
#2
#3
#4
#5
#6
#7
0.25x E.G.
0.5x E.G.
1.0x E.G.
2.0x E.G.
4.0x E.G.
6.0x E.G.
8.0x E.G.
Display
Extension Cables (without connectors)
The following cables are available for extending the length of existing sensor cable. These are 30 m (100') lengths of Q45 cable. This cable
may be spliced to existing cable. Connectors, if used, must be customer-supplied.
Model
Type
Used with:
EC312A-100
2-conductor
All emitters (except NAMUR)
EC900A-100
3-conductor
AC models (Q45BW22 Series)
EC312-100
4-conductor
DC models (Q45BB6 Series)
EC915-100
5-conductor
AC models (Q45VR2 Series)
ECAD9-100
2-conductor
All NAMUR models (Q45AD9 Series)
Replacement Lens Assemblies
Q45 Series lens assemblies are field-replaceable.
Model
UC-45L
UC-45LL
UC-45LLP
UC-45LP
UC-45D
UC-45F
UC-45FP
UC-45C
UC-45C4
422
Description
Replacement lens for E, R, DL, DX and LV
Replacement lens for Laser Retro LL
Replacement lens for Polarized Laser Retro LLP
Replacement lens for LP
Replacement lens for D
Replacement lens for F and FV
Replacement lens for FP
Replacement lens for CV
Replacement lens for CV4
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
Q45 Accessories
Mounting Brackets
Model
Description
Dimensions
56.0 mm
(2.20")
SMB30C
• 30 mm split clamp bracket
• Black reinforced thermoplastic
polyester
• Includes stainless steel
mounting hardware
13 mm
(0.5")
63.0 mm
(2.48")
31.5 mm
(1.24")
13.5 mm (0.53")
Nut Plate
2.5 mm
(0.10")
45.0 mm
(1.77")
SMB30MM
M5 x 0.8
x 80 mm
Screw (2)
25.4 mm
(1.00")
• 30 mm, 12-gauge, stainless
steel bracket with curved
mounting slots for versatility
and orientation
• Clearance for M6 (1/4")
hardware
ø30.1 mm
(1.19")
35.1 mm
(1.38")
7.1 mm
.28 x 90° (2 Slots)
ø 6.4 mm
(0.25" dia.)
57.2 mm
(2.25")
25.4 mm
(1.00")
R 25.4 mm
(1.00")
57.2 mm
35.1 mm
(2.25")
(1.38")
69.9 mm
(2.75")
SMB30SC
• 30 mm swivel bracket
• Black reinforced thermoplastic
polyester
• Includes stainless steel
mounting and swivel locking
hardware
50.8 mm
(2.00")
M30 x 1.5
internal
thread
12.7 mm
(0.50")
58.7 mm
(2.31")
30.0 mm
(1.18")
66.5 mm
(2.62")
29.0 mm
(1.14")
NOTE: See p. 746 for
additional dimensions
SMB30UR
172.0 mm
(6.77")
• 2-piece universal swivel
bracket for limit-switch style
sensors
• 300 series stainless steel
• Includes stainless steel swivel
locking hardware
2X
1/4 x 28 x 1/2"
Screw
2X 1/4"
Lock Washer
2X 1/4"
Flat Washer
76.2 mm
(3.00")
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423
Q45 Sensors
NOTES:
424
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OMNI-BEAM® Sensors
OMNI-BEAM® Sensors
OMNI-BEAM Sensor Description . . . . . . . . . . . . . . 426
OMNI-BEAM Sensors . . . . . . . . . . . . . . . . . . . . . 427
OMNI-BEAM Clear Object Detection. . . . . . . . . . . . 428
OMNI-BEAM AC-Coupled Fiber Optic Sensors . . . . . 432
Analog OMNI-BEAM Sensors . . . . . . . . . . . . . . . . 444
OMNI-BEAM Accessories . . . . . . . . . . . . . . . . . . . 453
(Except analog
models)
!
OMNI-BEAM sensors are not suitable for use in
personnel safety applications! See WARNING on
inside front cover of catalog.
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425
OMNI-BEAM® Sensors
SELECTION OF COMPONENTS FOR OMNI-BEAM SENSORS
OMNI-BEAM sensors are modular self-contained photoelectric sensors which allow you to create a custom sensor exactly
suited for the application. Choose standard OMNI-BEAM components for OMNI-BEAM sensors and analog OMNI-BEAM
components for Analog OMNI-BEAM sensors.
STEP 1
Choose a sensor head with the required sensing mode
STEP 2
Sensor
Head
Choose a power block for the required sensor power
(ac or dc) and interface
STEP 3
Choose an optional Timing Logic Module
Power
Block
Logic
Module
(Optional)
NOTE: Analog OMNI-BEAM sensors do not accept timing logic
modules
STEP 4
Simply plug and bolt components together without interwiring
to create a complete self-contained photoelectric sensor that is
tailored to your exact sensing needs
OMNI-BEAM modular components are sold separately. The three modular components, plus the lenses, are field-replaceable.
426
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OMNI-BEAM® Sensor Heads
OMNI-BEAM Sensor Heads
•
•
•
•
•
•
•
Sensor heads feature Banner’s D.A.T.A.™ (Display And Trouble
OMNI-BEAM Sensor Heads
Alert) indicator system* which warns of an impending
sensing problem before a failure occurs
10-element LED array displays sensing contrast and received
signal strength and warns of a sensing problem due to any of
the following causes:
- Severe condensation or moisture
- High temperature
- Low supply voltage
- Output overload (dc operation)
- Too much sensing gain
- Not enough sensing gain
- Low optical contrast
*U.S. Patent #4965548
Separate indicators for target sensed and output energized
Sensor heads are field-programmable for the following
response parameters:
- Sensing hysteresis
- Signal strength indicator scale factor
- Light or dark operate of the load output
- Normally open or closed alarm output
Choose power blocks for high-voltage ac or low voltage (10 to
30V) dc operation
Sensor head and power block plug (and bolt) together quickly
and easily
Optional plug-in output timing modules may be added at any
time
OMNI-BEAM Sensor Head Sensing Mode Options
Opposed
Retroreflective
Diffuse
Convergent
Glass and Plastic Fiber Optic
Infrared, 880 nm
OMNI-BEAM Opposed Mode Emitter (E) and Receiver (R)
Models
Range
Supply
Voltage
Response &
Repeatability
Excess Gain
Beam Pattern
Effective Beam: 25 mm
1000
OSBE
OSBR
45 m (150')
Provided by
Power Block
(see page 437)
Response:
2 milliseconds
E
X
C
E
S
S
Repeatability:
0.01 milliseconds
G
A
I
N
OSBE & OSBR
Opposed Mode
100
OSBE and OSBR
1500 mm
60 in
Opposed Mode
1000 mm
40 in
500 mm
20 in
0
0
10
500 mm
20 in
1000 mm
40 in
1500 mm
1
0.1 m
0.33 ft
1m
3.3 ft
10 m
33 ft
DISTANCE
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
100 m
330 ft
60 in
0
10 m
30 ft
20 m
60 ft
30 m
90 ft
40 m
120 ft
50 m
150 ft
DISTANCE
427
OMNI-BEAM® Sensor Heads
NOTE: Retroreflective range is specified using one model BRT-3
retroreflector (3" diameter). Actual sensing range may be more or
less than specified, depending upon the efficiency and reflective area
of the retroreflector(s) in use. See page 722 for more information.
P
Visible red, 650 nm
Non-Polarized
Polarized
OMNI-BEAM Retroreflective Mode
Models
Range
Supply
Voltage
Response &
Repeatability
Non-Polarized
OSBLV
0.15 - 9 m
(6" - 30')
Provided by
Power Block
(see page 437)
Excess Gain
Beam Pattern
1000
Response:
4 milliseconds
Repeatability:
0.2 milliseconds
E
X
C
E
S
S
G
A
I
N
OSBLV
Retroreflective Mode
OSBLV
150 mm
100
4.0 in
50 mm
2.0 in
With BRT-3 Reflector
0
10
0
50 mm
2.0 in
100 mm
With BRT-3 Reflector
150 mm
1
.01 m
.033 ft
.10 m
.33 ft
1.0 m
3.3 ft
10 m
33 ft
OSBLVAG
0.3 - 4.5 m
(12" - 15')
0
2m
6.6 ft
•
•
4m
13 ft
6m
20 ft
8m
26 ft
10 m
33 ft
DISTANCE
1000
Provided by
Power Block
(see page 437)
Response:
4 milliseconds
Repeatability:
0.2 milliseconds
E
X
C
E
S
S
OSBLVAG
Retroreflective Mode
OSBLVAG
75 mm
100
W/BRT-3 Reflector
3.0 in
Retroreflective Mode
50 mm
2.0 in
25 mm
1.0 in
0
G
A
I
N
0
10
25 mm
With BRT-3 Reflector
50 mm
1
.01 m
.033 ft
.10 m
.33 ft
1.0 m
3.3 ft
10 m
33 ft
1.0 in
2.0 in
75 mm
3.0 in
0
1m
3.3 ft
DISTANCE
•
•
4.0 in
6.0 in
DISTANCE
Polarized
6.0 in
Retroreflective Mode
100 mm
2m
6.6 ft
3m
10 ft
4m
13 ft
5m
16 ft
DISTANCE
Polarized retroreflective mode sensor head with low switching hysteresis design
Low-hysteresis circuit enables the sensor to switch based on relatively small
changes in received light signal levels
Polarizing lens reduces the possibility of false sensor response due to reflections
from the object to be sensed
Ideal for many low-contrast sensing applications, especially clear object detection
P
Visible Red, 650 nm
OMNI-BEAM Retroreflective Mode for Clear Object Detection
Models
Range
Supply
Voltage
Response &
Repeatability
Excess Gain
1000
OSBLVAGC
4m
(12')
w/BRT-3
Reflector
Provided by
Power Block
(see page 437)
Response:
4 milliseconds
E
X
C
E
S
S
Repeatability:
0.2 milliseconds
G
A
I
N
OSBLVAGC
Retroreflective Mode
100
W/BRT-3 Reflector
10
1
.01 m
.033 ft
.10 m
.33 ft
1.0 m
3.3 ft
10 m
33 ft
DISTANCE
For OMNI-BEAM Sensor Heads:
Sensor heads require a power block. See page 437 for power block information.
428
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
OMNI-BEAM® Sensor Heads
Infrared, 880 nm
OMNI-BEAM Diffuse Mode
Models
Range
Supply
Voltage
Response &
Repeatability
Excess Gain
1000
High Speed
OSBD
300 mm
(12")
Beam Pattern
Performance based on 90% reflectance white test card
Provided by
Power Block
(see page 437)
Response:
2 milliseconds
Repeatability:
1 millisecond
E
X
C
E
S
S
OSBD
OSBD
Diffuse Mode
7.5 mm
5.0 mm
0.2 in
2.5 mm
0.1 in
0
G
A
I
N
10
0
2.5 mm
0.1 in
5.0 mm
0.2 in
7.5 mm
1
1 mm
.04 in
10 mm
.4 in
100 mm
4 in
0.3 in
0
1000 mm
40 in
75 mm 150 mm 225 mm 300 mm 375 mm
3 in
6 in
9 in
12 in
15 in
DISTANCE
DISTANCE
High Power
OSBDX
2m
(6.5')
0.3 in
Diffuse Mode
100
1000
Provided by
Power Block
(see page 437)
Response:
15 milliseconds
Repeatability:
0.1 millisecond
E
X
C
E
S
S
OSBDX
OSBDX
Diffuse Mode
75 mm
3.0 in
Diffuse Mode
100
50 mm
2.0 in
25 mm
1.0 in
0
G
A
I
N
10
0
25 mm
1.0 in
50 mm
2.0 in
75 mm
1
0.01 m
0.033 ft
0.1 m
0.33 ft
1.0 m
3.3 ft
3.0 in
0
10 m
33 ft
0.4 m
1.25 ft
0.8 m
2.5 ft
1.2 m
3.75 ft
1.6 m
5.0 ft
2.0 m
6.25 ft
DISTANCE
DISTANCE
Visible red, 650 nm
OMNI-BEAM Convergent Mode
Models
Focus
Supply
Voltage
Response &
Repeatability
Excess Gain
Beam Pattern
Performance based on 90% reflectance white test card
1000
OSBCV
38 mm
(1.5")
OSBCV
Spot Size
at Focus:
1.3 mm
(0.05")
Provided by
Power Block
(see page 437)
Response:
4 milliseconds
E
X
C
E
S
S
Convergent Mode
100
OSBCV
2.4 mm
0.09 in
Convergent Mode
1.6 mm
0.06 in
0.8 mm
0.03 in
0
Repeatability:
0.2 milliseconds
G
A
I
N
0
10
1
1 mm
.04 in
10 mm
.4 in
100 mm
4 in
DISTANCE
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
1000 mm
40 in
0.8 mm
0.03 in
1.6 mm
0.06 in
2.4 mm
0.09 in
0
12.5 mm 25 mm 37.5 mm 50 mm 62.5 mm
0.50 in 1.0 in
1.5 in
2.0 in
2.5 in
DISTANCE
429
OMNI-BEAM® Sensor Heads
Visible red, 650 nm
OMNI-BEAM Convergent Mode
Models
Range
Supply
Voltage
Response &
Repeatability
Excess Gain
Beam Pattern
Diffuse mode performance based on 90% reflectance white test card
Visible Blue 475 nm
38 mm
(1.5")
OSBCVB
Spot Size
at Focus:
1.3 mm
(0.05")
Provided by
Power Block
(see page 437)
Response:
4 milliseconds
Repeatability:
0.2 milliseconds
Convergent Mode
100
Provided by
Power Block
(see page 437)
OSBCVB/CVG
2.4 mm
0.09 in
Convergent Mode
1.6 mm
0.06 in
0.8 mm
0.03 in
0
10
1
1 mm
.04 in
38 mm
(1.5")
Spot Size
at Focus:
1.3 mm
(0.05")
OSBCVB/CVG
G
A
I
N
Visible Green 525 nm
OSBCVG
1000
E
X
C
E
S
S
10 mm
.4 in
Response:
4 milliseconds
Repeatability:
0.2 milliseconds
100 mm
4 in
0
0.8 mm
0.03 in
1.6 mm
0.06 in
2.4 mm
0.09 in
1000 mm
40 in
0
12.5 mm 25 mm 37.5 mm 50 mm 62.5 mm
0.50 in 1.0 in
1.5 in
2.0 in
2.5 in
DISTANCE
DISTANCE
Infrared, 880 nm
OMNI-BEAM Glass Fiber Optic - High Speed
Models
Range
Supply
Voltage
Response &
Repeatability
Excess Gain
Beam Pattern
Diffuse mode performance based on 90% reflectance white test card
1000
OSBF
E
X
C
E
S
S
Opposed Mode
OSBF
75 mm
100
IT23S Fibers
2 in
25 mm
1 in
0
OSBF
Range varies
by sensing
mode
and fiber
optics
used
G
A
I
N
Provided by
Power Block
(see page 437)
Repeatability:
0.1 milliseconds
10
IT13S Fibers
1
1 mm
.04 in
Response:
2 milliseconds
3 in
Opposed Mode
50 mm
10 mm
.4 in
100 mm
4 in
IT13S
IT23S
0
25 mm
1 in
50 mm
2 in
75 mm
3 in
0
1000 mm
40 in
100 mm 200 mm 300 mm 400 mm 500 mm
4 in
8 in
12 in
16 in
20 in
DISTANCE
DISTANCE
1000
OSBF
E
X
C
E
S
S
G
A
I
N
Diffuse Mode
1.9 mm
100
0.075 in
OSBF
1.3 mm
0.050 in
Diffuse Mode
0.65 mm
BT23S Fiber
10
BT13S Fiber
1
1 mm
.04 in
0.025 in
0
BT13S
BT23S
0.025 in
1.3 mm
0.050 in
1.9 mm
10 mm
.4 in
100 mm
4 in
DISTANCE
1000 mm
40 in
0
0.65 mm
0.075 in
0
7.5 mm
0.3 in
15 mm 22.5 mm 30 mm 37.5 mm
0.6 in
0.9 in
1.2 in
1.5 in
DISTANCE
For OMNI-BEAM Sensor Heads:
Sensor heads require a power block. See page 437 for power block information.
430
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
OMNI-BEAM® Sensor Heads
See Sensing Beam Information Below
OMNI-BEAM Glass Fiber Optic - High Speed
Models
Range
Supply
Voltage
Response &
Repeatability
Visible Red 650 nm
Excess Gain
Beam Pattern
Diffuse mode performance based on 90% reflectance white test card
1000
E
X
C
E
S
S
OSBFV
OSBFV
Opposed Mode
37.5 mm
IT23S Fibers
25.0 mm
IT23S Fibers
12.5 mm
OSBFV
Range varies
by sensing
mode
and fiber
optics
used
10
IT13S Fibers
Provided by
Power Block
(see page 437)
0
IT13S Fibers
12.5 mm
0.5 in
25.0 mm
1.0 in
37.5 mm
1
1 mm
.04 in
Response:
2 milliseconds
10 mm
.4 in
100 mm
4 in
1.0 in
0.5 in
0
G
A
I
N
1.5 in
Opposed Mode
100
1.5 in
0
1000 mm
40 in
75 mm 150 mm 225 mm 300 mm 375 mm
3 in
6 in
9 in
12 in
15 in
DISTANCE
DISTANCE
1000
Repeatability:
0.1 milliseconds
E
X
C
E
S
S
OSBFV
OSBFV
Diffuse Mode
1.8 mm
100
BT23S Fiber
0
10
1
0.1 mm
0.004 in
1.0 mm
0.04 in
0
BT13S Fiber
0.6 mm
0.025 in
1.2 mm
0.050 in
0.075 in
1.8 mm
BT13S Fiber
10 mm
0.4 in
0.050 in
0.025 in
0.6 mm
BT23S Fiber
G
A
I
N
0.075 in
Diffuse Mode
1.2 mm
0
100 mm
4 in
5 mm
0.2 in
10 mm
0.4 in
DISTANCE
15 mm
0.6 in
20 mm
0.8 in
25 mm
1.0 in
DISTANCE
Visible Blue 475 nm
OSBFVB
Range varies
by sensing
mode and
fiber optics
used
Provided by
Power Block
(see page 437)
Response:
2 milliseconds
Repeatability:
0.1 milliseconds
OSBFVG
Provided by
Power Block
(see page 437)
OSBFVB/FVG
OSBFVB/FVG
Diffuse Mode
1.8 mm
100
0.075 in
Diffuse Mode
1.2 mm
BT23S Fiber
0.6 mm
Response:
2 milliseconds
G
A
I
N
10
BT23S Fiber
0
0.6 mm
0.025 in
1.2 mm
0.050 in
1.8 mm
1
0.1 mm
0.004 in
1.0 mm
0.04 in
10 mm
0.4 in
DISTANCE
100 mm
4 in
0.050 in
0.025 in
0
Visible Green 525 nm
Range varies
by sensing
mode and
fiber optics
used
1000
E
X
C
E
S
S
0.075 in
0
5 mm
0.2 in
10 mm
0.4 in
15 mm
0.6 in
20 mm
0.8 in
25 mm
1.0 in
DISTANCE
Repeatability:
0.1 milliseconds
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
431
OMNI-BEAM® Sensor Heads
Infrared, 880 nm
OMNI-BEAM Glass Fiber Optic - High Power
Models
Range
Supply
Voltage
Response &
Repeatability
Excess Gain
Beam Pattern
Diffuse mode performance based on 90% reflectance white test card
1000
E
X
C
E
S
S
OSBFX
Opposed Mode
OSBFX
150 mm
100
Opposed Mode
100 mm
IT23S Fibers
50 mm
IT23S fibers
0
G
A
I
N
OSBFX
Range varies
by sensing
mode
and fiber
optics
used
Provided by
Power Block
(see page 437)
IT13S fibers
0.1 m
0.33 ft
1.0 m
3.3 ft
2.0 in
100 mm
4.0 in
6.0 in
0
10 m
33 ft
0.4 m
15 in
1.2 m
45 in
1.6 m
60 in
2.0 m
75 in
DISTANCE
OSBFX
Diffuse Mode
OSBFX
3.8 mm
100
Diffuse Mode
2.5 mm
0.15 in
0.10 in
BT13S Fiber
0.05 in
1.3 mm
BT23S Fiber
BT23S Fiber
0
10
0
1.3 mm
0.05 in
2.5 mm
0.10 in
BT13S Fiber
0.15 in
3.8 mm
10 mm
0.4 in
100 mm
4.0 in
1000 mm
40 in
0
25 mm
1 in
Special-purpose ac-coupled fiber optic sensor head for response
to very small light level changes
Works together with any Banner standard or special glass fiber
optic cable(s), ordered separately
Typical applications include thread break detection, web flaw
detection and detection of small randomly-falling parts
50 mm
2 in
75 mm 100 mm 125 mm
3 in
4 in
5 in
DISTANCE
DISTANCE
•
0.8 m
30 in
1000
E
X
C
E
S
S
1
1 mm
0.04 in
•
0
50 mm
DISTANCE
G
A
I
N
•
4.0 in
2.0 in
IT13S Fibers
150 mm
1
0.01 m
0.03 ft
Response:
15 milliseconds
Repeatability:
1 millisecond
10
6.0 in
Infrared, 880 nm
OMNI-BEAM AC-Coupled Glass Fiber Optic
Models
OSBFAC
Range
Range varies
by sensing
mode
and fiber
optics
used
Supply
Voltage
Provided by
Power Block
(see page 437)
Response &
Repeatability
Response:
1 millisecond
Maximum Range
Diffuse mode performance based on 90% reflectance white test card
IT23S fibers, opposed mode: 180 mm (7")*
IT13S fibers, opposed mode: 90 mm (3.5")
BT23S fiber, diffuse mode: 15 mm (0.6")
Repeatability:
0.01 milliseconds
*Opposed mode range may be extended using optional lenses
(see Accessories in the glass fiber optic section)
NOTE: Model OSBFAC requires use of model OLM8 or OLM8M1 slide-in logic module. Sensor head output is in the form of a quick pulse, and an
OLM8 Series module is used to condition this pulse to the desired length. See page 436 for further information on these logic modules
For OMNI-BEAM Sensor Heads:
Sensor heads require a power block. See page 437 for power block information.
432
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
OMNI-BEAM® Sensor Heads
Infrared, 880 nm
OMNI-BEAM Glass Fiber Optic Emitter (E) and Receiver (R)
Models
Range
Supply
Voltage
Response &
Repeatability
Excess Gain
Beam Pattern
1000
E
X
C
E
S
S
OSBEF and
OSBRF
OSBEF and OSBRF
Opposed Mode
37.5 mm
25.0 mm
12.5 mm
IT23S Fibers
OSBEF
OSBRF
Range varies
with fiber
optics used
Provided by
Power Block
(see page 437)
IT13S Fibers
0.5 in
IT13S
Fibers
0
12.5 mm
0.5 in
25.0 mm
1.0 in
1.5 in
37.5 mm
1
1.0 mm
0.04 in
Response:
2 milliseconds
Repeatability:
0.01 milliseconds
10
1.0 in
IT23S Fibers
0
G
A
I
N
1.5 in
Opposed Mode
100
10 mm
0.4 in
100 mm
4.0 in
0
1000 mm
40 in
100 mm 200 mm 300 mm 400 mm 500 mm
4 in
8 in
12 in
16 in
20 in
DISTANCE
DISTANCE
1000
E
X
C
E
S
S
G
A
I
N
OSBEF and
OSBRF
Opposed Mode
10
OSBEF and OSBRF
300 mm
100
IT23S
Fibers
w/L16
Lenses
IT23S
Fibers
w/L9
Lenses
12 in
Opposed Mode
IT23S Fibers
w/L16 Lenses
200 mm
100 mm
0
0
100 mm
4 in
200 mm
8 in
300 mm
1
.01 m
.033 ft
.1 m
.33 ft
1m
3.3 ft
DISTANCE
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
8 in
4 in
IT23S Fibers
w/L9 Lenses
10 m
33 ft
12 in
0
2.4 m
8 ft
4.8 m
16 ft
7.2 m
24 ft
9.6 m
32 ft
12 m
40 ft
DISTANCE
433
OMNI-BEAM® Sensor Heads
See Sensing Beam Information Below
OMNI-BEAM Plastic Fiber Optic
Models
Range
Supply
Voltage
Response &
Repeatability
Excess Gain
Beam Pattern
Diffuse mode performance based on 90% reflectance white test card
1000
Visible Red 650 nm
OSBFP
E
X
C
E
S
S
OSBFP
Range varies
by sensing
mode
and fiber
optics
used
Provided by
Power Block
(see page 437)
30 mm
1.2 in
15 mm
0.6 in
0
10
PIT26U Fibers
0
PIT46U
PIT26U
15 mm
0.6 in
30 mm
1.2 in
45 mm
1
1 mm
.04 in
Response:
2 milliseconds
1.8 in
Opposed Mode
Opposed Mode
Plastic Fibers
PIT46U Fibers
G
A
I
N
OSBFP
45 mm
100
10 mm
.40 in
100 mm
4.0 in
1.8 in
0
1000 mm
40 in
25 mm
1 in
50 mm
2 in
75 mm 100 mm 125 mm
3 in
4 in
5 in
DISTANCE
DISTANCE
1000
OSBFP
Repeatability:
0.1 milliseconds
E
X
C
E
S
S
OSBFP
Diffuse Mode
3.8 mm
100
PBT46U Fiber
0.10 in
1.2 mm
0.05 in
0
G
A
I
N
10
PBT26U Fiber
1
.1 mm
.004 in
0.15 in
Diffuse Mode
2.5 mm
1 mm
.04 in
0
PBT46U
PBT26U
1.2 mm
0.05 in
2.5 mm
0.10 in
3.8 mm
10 mm
.4 in
0.15 in
0
100 mm
4 in
7.5 mm
0.3 in
15 mm 22.5 mm 30 mm 37.5 mm
0.6 in
0.9 in
1.2 in
1.5 in
DISTANCE
DISTANCE
Visible Blue 475 nm
OSBFPB
Range varies
by sensing
mode and
fiber optics
used
Provided by
Power Block
(see page 437)
Response:
2 milliseconds
Repeatability:
0.1 milliseconds
Visible Green 525 nm
OSBFPG
Range varies
by sensing
mode and
fiber optics
used
Provided by
Power Block
(see page 437)
Response:
2 milliseconds
1000
E
X
C
E
S
S
G
A
I
N
OSBFPB/FPG
Diffuse Mode
Plastic Fiber
100
OSBFPB/FPG
3.0 mm
0.12 in
Diffuse Mode
2.0 mm
0.08 in
1.0 mm
PBT46U Fiber
1
.1 mm
.004 in
0.04 in
0
10
1 mm
.04 in
10 mm
.4 in
DISTANCE
100 mm
4 in
0
PBT46U
1.0 mm
0.04 in
2.0 mm
0.08 in
3.0 mm
0.12 in
0
4 mm
0.15 in
8 mm
0.30 in
12 mm
0.45 in
16 mm
0.60 in
20 mm
0.75 in
DISTANCE
Repeatability:
0.1 milliseconds
For OMNI-BEAM Sensor Heads:
Sensor heads require a power block. See page 437 for power block information.
434
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
OMNI-BEAM® Sensor Heads
OMNI-BEAM Sensor Head Specifications
Supply Voltage and Current
Supplied by OMNI-BEAM power block
Output Response Time
See individual sensing heads for response times
200 millisecond delay on power-up: outputs are non-conducting during this time.
Adjustments
OMNI-BEAM sensor heads are field-programmable for four operating parameters. A set of four
programming DIP switches is located at the base of the sensor head and is accessible with the sensor
head removed from the power block
SWITCH #1 selects the amount of sensing hysteresis
SWITCH #2 selects the alarm output configuration
SWITCH #3 selects LIGHT operate (switch #3 “OFF”) or DARK operate (switch #3 “ON”)
SWITCH #4 selects the STANDARD (switch #4 “OFF”) or FINE (switch #4 “ON”) scale factor for the
D.A.T.A. light signal strength indicator array
Sensitivity: 15-turn slotted brass screw GAIN (sensitivity) adjustment potentiometer (clutched at both
ends of travel).
Indicators
SENSE and LOAD indicator LEDs are located on the top of the sensor head on either side of the D.A.T.A. array.
SENSE LED indicates when a target has been sensed
LOAD LED lights whenever the load is energized
Also, Banner’s exclusive, D.A.T.A. sensor self-diagnostic system located on the top of the sensor head
warns of marginal sensing conditions usually before a sensing failure occurs (except on model OSBFAC)
Construction
Sensor heads are molded of rugged thermoplastic polyester; top view window is LEXAN® polycarbonate;
acrylic lenses; stainless steel hardware
Environmental Rating
Meets NEMA standards 1, 2, 3, 3S, 4, 12, and 13; IEC IP66 when assembled to power block
Operating Conditions
Temperature:
-40° to +70°C (-40° to +158°F)
Maximum relative humidity: 90% at 50°C (non-condensing)
Certifications
LEXAN® is a registered trademark of General Electric Co.
Relationship Between Excess Gain and D.A.T.A System Lights
D.A.T.A. Light
LED Number
STANDARD
Scale Factor
FINE*
Scale Factor
#1
#2
#3
#4
#5
#6
#7
#8
#9
#10
0.25x E.G.
0.35x E.G.
0.5x E.G.
0.7x E.G.
1.0x E.G.
1.3x E.G.
1.7x E.G.
2.2x E.G.
2.9x E.G.
3.7x E.G. (or more)
0.5x E.G.
0.7x E.G.
0.8x E.G.
0.9x E.G.
1.0x E.G.
1.1x E.G.
1.2x E.G.
1.3x E.G.
1.7x E.G.
2.2x E.G. (or more)
* NOTE: the scale factor is selected by programming switch #4 inside the sensor head.
“OFF” = STANDARD; “ON” = FINE. Use the FINE scale only for setup and monitoring of
close-differential sensing applications where LOW hysteresis is required.
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
435
OMNI-BEAM® Logic Modules
OMNI-BEAM Timing Logic Modules
OMNI-BEAM Timing Logic Modules slide into
an OMNI-BEAM Sensor Head and
interconnect without wires
•
Logic modules for sensor output timing control simply slide into
an OMNI-BEAM sensor head and interconnect without wires
•
Programmable for several timing functions and time ranges via a
set of four DIP switches located on the logic module
•
Models for either Delay or Pulse timing
•
15-turn clutched potentiometers for accurate timing adjustments
- easily accessible at the top of the sensor head
OMNI-BEAM Timing Logic Module
Models
Type
Logic Function
Timing Ranges
Timing Diagrams
Delay
On-Delay
OLM5
Delay Timer Logic
Module
ON-DELAY or OFFDELAY or ON/OFF
DELAY
ON-Delay: 0.01 to 1 sec,
0.15 to 15 sec, or none
OUTPUT
SIGNAL
Hold
Off-Delay
OFF-Delay: 0.01 to 1 sec,
0.15 to 15 sec, or none
Hold
OUTPUT
SIGNAL
Delay
On/Off-Delay
Hold
OUTPUT
SIGNAL
OLM8
OLM8M1
Pulse Timer Logic
Module
Pulse Timer Logic
Module
ONE-SHOT pulse timer
or
DELAYED ONE-SHOT
logic timer
Delay: 0.01 to 1 sec,
0.15 to 15 sec, or none
Pulse: 0.01 to 1 sec, 0.15
to 15 sec
One-Shot
ONE-SHOT pulse timer
or
DELAYED ONE-SHOT
logic timer
Delay: 0.002 to 0.1 sec,
0.03 to 1.5 sec, or none
Pulse: 0.002 to 0.1 sec,
0.03 to 1.5 sec
Delayed
One-Shot
Pulse
Pulse
Pulse
OUTPUT
SIGNAL
Delay Pulse
Delay Pulse
OUTPUT
SIGNAL
OMNI-BEAM Timing Logic Module Specifications
Response Time
A disabled timing function adds no measurable sensing response time
Timing Adjustments
All logic modules feature 15-turn clutched potentiometers for accurate timing adjustments. The logic module
slides into the sensor head housing and interconnects without wires. Timing adjustments are easily accessible at
the top of the sensor head and are protected by the sensor’s transparent cover.
Timing Repeatability
± 2% of timing range (maximum); assumes conditions of constant temperature and power supply
Time Range
Useful range is from maximum time down to 10% of maximum (all models); when timing potentiometer is set fully
counterclockwise, time will be approximately 1% of maximum for models OLM5 and OLM8, and 2% of maximum
for model OLM8M1
Operating Temperature
Temperature:
-40° to +70°C (-40° to +158°F)
Maximum Relative Humidity: 90% at 50°C (non-condensing)
Certifications
436
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
OMNI-BEAM® Power Blocks
OMNI-BEAM Power Blocks
For Use with OMNI-BEAM Sensor Heads
•
•
•
•
•
DC power blocks feature Banner’s exclusive Bi-Modal™
output circuitry† for either sinking (NPN) or sourcing (PNP)
interface requirements, depending upon the polarity of the
power supply connections (see hookup diagrams)
AC power blocks offer solid-state load output with switching
capacity to 1/2 amp (see Specifications)
Power blocks offer a dedicated output for the D.A.T.A.™
system alarm which may be used to run an audible or visual
alarm or to send a warning signal to a process controller
All OMNI-BEAM power blocks are available with either
integral 2 m (6.5') cable or quick-disconnect (QD)
connector; 9 m (30') integral cables are also available
Sensor head and power block plug (and bolt) together
quickly and easily
DC Models
OMNI-BEAM power blocks provide the input and
output circuitry for OMNI-BEAM sensor heads.
Select models for either ac or dc power.
†
U.S. Patent #4982107
AC Models
OMNI-BEAM Power Blocks
Models
Cable
Supply
Voltage
Output Type
DC Voltage
OPBT2
OPBT2QD
OPBT2QDH
2 m (6.5')
4-Pin Mini QD
4-Pin Euro QD
OPBTE
OPBTEQD
OPBTEQDH
2 m (6.5')
4-Pin Mini QD
4-Pin Euro QD
Bi-Modal™
NPN/PNP
Two outputs: Load and Alarm
10-30V dc
No output:
for powering emitter only sensor heads
AC Voltage
OPBA2
OPBA2QD
2 m (6.5')
5-Pin Mini QD
105-130V ac
OPBB2
OPBB2QD
2 m (6.5')
5-Pin Mini QD
210-250V ac
0PBAE
OPBAEQD
2 m (6.5')
5-Pin Mini QD
105-130V ac
OPBBE
OPBBEQD
2 m (6.5')
5-Pin Mini QD
210-250V ac
SPST solid-state ac relay
Two outputs: Load and Alarm
No output:
for powering emitter only sensor heads
For OMNI-BEAM Power Blocks:
i) 9 m (30') cables are available by adding suffix “W/30” to the model number of any cabled power block (e.g. - OPBT2 W/30)
ii) A model with a QD connector requires an accessory mating cable. See pages 453 and the Accessories section for more information.
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
437
OMNI-BEAM® Power Blocks
OMNI-BEAM DC Power Block Specifications
Supply Voltage and Current
10 to 30V dc (10% maximum ripple) at less than 80 mA (exclusive of load)
Supply Protection Circuitry
Protected against reverse polarity and transient voltages
Output Configuration
OPBT2, OPBT2QD, OPBT2QDH: Bi-Modal NPN or PNP, depending upon hookup to power supply (see
hookup diagrams)
OPBTE, OPBTEQD, OPBTEQDH: No output - for use with emitters only
Output Rating
100mA maximum
Off-state leakage current less than 100 microamps
Output saturation voltage (NPN or PNP outputs) less than 1 volt at 10 mA and less than 1.5 volts at 100 mA
Output Protection Circuitry
Protected against false pulse on power-up and continuous overload or short-circuit of outputs
Construction
Reinforced thermoplastic polyester housing with totally epoxy-encapsulated circuitry, and 30 mm threaded hub
for swivel bracket or through-hole mounting
Environmental Rating
Meets NEMA standards 1, 2, 3, 3S, 4, 12, and 13; IEC IP66 when assembled to sensor head
Connections
PVC-jacketed 2 m (6.5') or 9 m (30') cables, or 4-pin mini- or euro-style quick-disconnect (QD) fitting are
available. QD cables are ordered separately. See page 453 and Accessories section.
Operating Conditions
Temperature:
Maximum relative humidity:
Application Notes
Interface to TTL logic is not direct (contact factory). When the load and the OMNI-BEAM do not share a
common power supply, load voltage must be ≤ the sensor supply voltage
-40° to +70°C (-40 to +158°F)
90% at 50°C (non-condensing)
Certifications
OMNI-BEAM DC Power Block Hookup Diagrams
4-Pin Mini-Style Pin-out
4-Pin Euro-Style Pin-out
(Cable Connector Shown)
(Cable Connector Shown)
White Wire
White Wire
Black Wire
Brown Wire
Blue Wire
Black Wire
Brown Wire
Blue Wire
Quick-Disconnect (QD) Option
DC OMNI-BEAM power blocks are sold with either a 2 m (6.5') or 9 m (30') attached PVC-covered cable, or with a 4-pin mini- or
euro-style QD cable fitting. Mating cables for QD sensors are specified on page 453 and in the Accessories section.
438
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
OMNI-BEAM® Power Blocks
OMNI-BEAM DC Power Block Diagrams
OPBT2 Power Blocks with Attached Cable
Current Sinking (NPN) Configuration
bu
bn
bk
wh
bu
bn
bk
wh
-
10-30V dc
+
Load
Alarm
OPBT2 Power Blocks with Attached Cable
Current Sourcing (PNP) Configuration
bu
bn
bk
wh
OPBT2 Power Blocks with Quick-Disconnect
Current Sinking (NPN) Configuration
(4-Pin Mini- or Euro-Style)
-
10-30V dc
+
Load
Alarm
OPBT2 Power Blocks with Quick-Disconnect
Current Sourcing (PNP) Configuration
(4-Pin Mini- or Euro-Style)
bu
bn
bk
wh
+
10-30V dc
-
Load
Alarm
+
10-30V dc
-
Load
Alarm
OPBTE Power Blocks
(For Opposed Mode Emitters)
OPBTE with Attached Cable
bu
bn
OPBTE with Quick-Disconnect
(4-Pin Mini- or Euro-Style)
10-30V dc
+
bu
bn
bk
wh
+
NOTE: Model OPBT2 power blocks may be used to power opposed mode emitters, however, the output circuitry will be inactive.
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
439
OMNI-BEAM® Power Blocks
OMNI-BEAM AC Power Block Specifications
Supply Voltage and Current
120V models: 105 to 130V ac, 50/60 Hz, 4 watts (excluding load)
220/240V models : 210 to 250V ac, 50/60 Hz, 4 watts (excluding load)
Supply Protection Circuitry
Protected against transient voltages
Output Configuration
OPBA2, OPBA2QD, OPBB2 and OPBB2QD: Isolated SPST solid-state ac relay
OPBAE, OPBAEQD, OPBBE and OPBBEQD: No output - for use with emitter only
Load Output Rating
500 mA max to 25°C, derated 1% per °C to 70°C; 7 amps max inrush for 1 second or 20 amps max for
one cycle (non-repeating)
Off-state leakage current less than 100 microamps maximum
On-state voltage drop less than 3V ac at full load
Alarm Output Rating
200 mA max to 25°C, derated 2% per °C to 70°C; 2 amps max inrush for 1 second or 3 amps max for 1
cycle (non-repeating)
Off-state leakage current less than 100 microamps maximum
On-state voltage drop less than 2.5V ac at full load
Output Protection Circuitry
Protected against false pulse on power-up
Construction
Reinforced thermoplastic polyester housing with totally epoxy-encapsulated circuitry, and 30 mm threaded hub
for swivel bracket or through-hole mounting
Environmental Rating
Meets NEMA standards 1, 2, 3, 3S, 4, 12, and 13; IEC IP66 when assembled with sensor head
Connections
PVC-jacketed 2 m (6.5') or 9 m (30') cables, or 5-pin mini-style quick-disconnect (QD) fitting are available. QD cables are ordered separately. See page 453 and Accessories section.
Operating Conditions
Temperature:
-40° to +70°C (-40° to +158°F)
Maximum relative humidity: 90% at 50°C (non-condensing)
Certifications
Quick-Disconnect (QD) Option
AC OMNI-BEAM power blocks are sold with either a 2 m (6.5') or 9 m (30') attached PVC-covered cable, or with a 5-pin ministyle QD cable fitting. Mating cables for QD sensors are specified on page 453 and in the Accessories section.
440
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
OMNI-BEAM® Power Blocks
OMNI-BEAM AC Power Block Hookups
OPBA2 or OPBB2 Power Blocks
AC with Attached Cable
AC with Quick-Disconnect
(5-Pin Mini-Style)
bn
bn
wh
bu
bk
ye
wh
bu
bk
ye
Vac
(see specifications)
Load
Alarm
Vac
(see specifications)
Load
Alarm
OPBAE or OPBBE Power Blocks
(For Opposed Mode Emitters)
AC with Attached Cable
AC with Quick-Disconnect
(5-Pin Mini-Style)
bn
bu
bn
wh
bu
bk
ye
V ac
(see specifications)
V ac
(see specifications)
NOTE: OPBA2 or OPBB2 power blocks may be used to power opposed mode emitters, however, the output circuitry will be inactive.
5-Pin Mini-Style Pin-out
(Cable Connector Shown)
White Wire
Brown Wire
Black Wire
Blue Wire
Yellow Wire
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441
OMNI-BEAM® Sensors
OMNI-BEAM Dimensions
OMNI-BEAM Opposed, Retro, and Diffuse Sensing Modes
(model suffix E, R, D, DX, LV, LVAG & LVAGC)
OMNI-BEAM Sensor with Attached Cable
Transparent Cover (Gasketed)
View: D.A.T.A. Lights
Sensing Status
Output Load
Remove to Access:
Sensitivity (Gain) Adjustment
Logic Timing Adjustments
54.6 mm
(2.15")
44.5 mm (1.75 ")
Lens
Centerline
#10 Screw
Clearance (4)
Cross-hole design for front,
back, or side mounting
38.1 mm w/DC
(1.50")
60.5 mm w AC
(2.38")
57.4 mm w/DC
(2.26")
79.8 mm w/AC
(3.14")
5.6 mm (0.22")
76.2 mm w/DC Power Block
(3.00")
Internal Thread
(1/2-14NPSM)
External Thread Hex Nut
Supplied
M30 X 1.5
7.1 mm
(0.28")
98.6mm w/AC Power Block
(3.88")
7.1 mm
(0.28")
30.0 mm
(1.18")
30.0 mm
(1.18")
2 m ( 6.5' Cable)
OMNI-BEAM Sensor with Quick-Disconnect
Mini-Style
Euro-Style
14 mm (0.6")
15 mm (0.6")
External Thread
M30 X 1.5
Hex Nut
Supplied
Euro-style QD Connector
Mini-style QD Connector
442
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
OMNI-BEAM® Sensors
OMNI-BEAM Dimensions
OMNI-BEAM Sensor - Convergent Sensing Mode
(model suffix CV, CVB & CVG)
OMNI-BEAM Sensor - Glass Fiber Optic
(model suffix F, FAC, FX, FV, FVB, FVG, EF & RF)
60.5 mm
(2.38")
61.7 mm
(2.43")
OMNI-BEAM Sensor - Plastic Fiber Optic
(model suffix FP, FPB & FPG)
59.8 mm
(2.35")
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
443
Analog OMNI-BEAM® Sensor Heads
Analog OMNI-BEAM Sensor Heads
From bottom left to right - OMNI-BEAM
Diffuse, Convergent, Plastic Fiber
and Glass Fiber Optic Modes
•
•
•
•
•
•
OMNI-BEAM modularity and optical performance with voltage
sourcing analog outputs
Two analog “mirror-image” outputs are ripple-free and
temperature-stable
Non-interactive NULL and SPAN controls for ease of
adjustment
Built-in 10-element LED display indicates output voltage
Ideal for applications requiring a continuously-variable control
voltage that is either directly or inversely related to
photoelectric sensing response
Select power blocks for either ac or dc sensor supply voltage
Analog OMNI-BEAM Sensor Head Sensing Mode Options
Diffuse
Convergent
Plastic and Glass Fiber Optic
Understanding Excess Gain Curves for Analog OMNI-BEAM Sensors
Excess gain curves (EGCs) may be used to predict the optical response of an analog sensor. For reference, see the EGC for
diffuse mode model OASBD (top, right of page 445).
When the NULL control is adjusted to the setting where the inverting output just reaches 0 volts (or where the non-inverting
output just reaches 10 volts), the excess gain of the sensor is equal to 4x. The excess gain curve indicates that model
OASBD may be set to 4x excess gain with a white test card placed as close as 25 mm (1 in) from the sensor (“Min. NULL”)
or as far away as 140 mm (5.5 in) (“Max. NULL”).
The minimum span required to produce a full 10 volt swing represents an optical contrast of 1.5:1 (i.e. a change in excess
gain from 4x to 2.7x). Maximum SPAN corresponds to a contrast ratio of 16:1 (i.e. a change from 4x to 0.25x).
Knowing this, the excess gain curves for the OASBD predict that the sensing ranges (for a white test card) for the adjustment limits are:
444
NULL
SPAN
Change in
Excess Gain
Range of
Measurement
Maximum
Maximum
4x to 0.25x
140 to 900 mm
Maximum
Minimum
4x to 2.7x
140 to 180 mm
Minimum
Maximum
4x to 0.25x
25 to 230 mm
Minimum
Minimum
4x to 2.7x
25 to 50 mm
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
Analog OMNI-BEAM® Sensor Heads
Infrared, 880 nm
Analog OMNI-BEAM Diffuse Mode
Models
Range
Supply
Voltage
Excess Gain
Output
Performance based on 90% reflectance white test card
100
OASBD
0.9 m
(36")
(at max. NULL
and max.
SPAN)
0 to 10V dc
or
10 to 0V dc
10 mA max
E
X
C
E
S
S
OASBDX
Diffuse Mode
10
Max. NULL
4.0
2.7
1
G
A
I
N
Min. NULL
.25
.1
1.0 mm
0.04 in
Provided by
Power Block
(see page 449)
3.7 m
(12')
(at max. NULL
and max.
SPAN)
OASBD
10 mm
0.4 in
100 mm
4.0 in
1000 mm
40 in
DISTANCE
100
0 to 10V dc
or
10 to 0V dc
10 mA max
E
X
C
E
S
S
OASBDX
Diffuse Mode
Max. NULL
10
Upper Distance Scale
4.0
2.7
1
G
A
I
N
Min. NULL
Lower Distance Scale
.25
.1
0.01 m (.033 ft) 0.1 m (.33 ft)
1 mm (.04 in) 10 mm (.4 in)
1 m (3.3 ft)
10 m (33 ft)
100 mm (4 in) 1000 mm (40 in)
DISTANCE
Visible Red, 650 nm
Analog OMNI-BEAM Convergent Mode
Models
Focus
Supply
Voltage
Excess Gain
Output
Performance based on 90% reflectance white test card
100
38 mm
(1.5")
OASBCV
Spot Size
at Focus:
1.3 mm
(0.05")
Provided by
Power Block
(see page 449)
0 to 10V dc
or
10 to 0V dc
10 mA max
E
X
C
E
S
S
G
A
I
N
OASCV
Convergent Mode
10
Max. NULL
4.0
2.7
1
.25
Min. NULL
.1
1.0 mm
0.04 in
10 mm
0.4 in
100 mm
4.0 in
1000 mm
40 in
DISTANCE
For OMNI-BEAM Analog Sensors:
Analog sensor heads require an analog power block. See page 449 for power block information.
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445
Analog OMNI-BEAM® Sensor Heads
Visible red, 650 nm
Analog OMNI-BEAM Plastic Fiber Optic
Excess Gain
Models
Supply
Voltage
Bifurcated Fiber, Diffuse
Output
Individual Fiber Pair, Opposed
Diffuse mode performance based on 90% reflectance white test card
100
OASBFP
Provided by
Power Block
(see page 449)
0 to 10V dc
or
10 to 0V dc
10 mA max
E
X
C
E
S
S
100
OASBFP
10
Diffuse Mode
with PBT46U
Fiber
Max. NULL
4.0
2.7
E
X
C
E
S
S
OASBFP
Opposed Mode
with PIT46U
(no lenses)
10
4.0
2.7
Max. NULL
G
A
I
N
1
G
A
I
N
Min. NULL
.25
.1
0.1 mm
0.004 in
1.0 mm
0.04 in
10 mm
0.4 in
100 mm
4 in
DISTANCE
1
Min. NULL
.25
.1
1.0 mm
0.04 in
10 mm
0.4 in
100 mm
4.0 in
1000 mm
40 in
DISTANCE
For OMNI-BEAM Analog Sensors:
Analog sensor heads require an analog power block. See page 449 for power block information.
446
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
Analog OMNI-BEAM® Sensor Heads
See Sensing Beam Information Below
Analog OMNI-BEAM Glass Fiber Optic
Excess Gain
Models
Supply
Voltage
Bifurcated Fiber, Diffuse
Output
Diffuse mode performance based on 90% reflectance white test card
Infrared 880 nm
OASBF
Provided by
Power Block
(see page 449)
100
100
0 to 10V dc
or
10 to 0V dc
10 mA max
Individual Fiber Pair, Opposed
E
X
C
E
S
S
OASBF
OASBF
E
X
C
E
S
S
Diffuse Mode
with BT23S Fibers
10
4.0
2.7
Opposed Mode
with IT23S Fibers
(no lenses)
10
4.0
2.7
Max. NULL
Max. NULL
G
A
I
N
G
A
I
N
1
.25
Min. NULL
.1
1.0 mm
0.04 in
10 mm
0.4 in
100 mm
4.0 in
1
Min. NULL
.25
.1
1.0 mm
0.04 in
1000 mm
40 in
10 mm
0.4 in
100 mm
4.0 in
1000 mm
40 in
DISTANCE
DISTANCE
Visible Red 650 nm
100
OASBFV
Provided by
Power Block
(see page 449)
0 to 10V dc
or
10 to 0V dc
10 mA max
E
X
C
E
S
S
G
A
I
N
100
OASBFV
Diffuse Mode
with BT23S Fiber
10
Max. NULL
4.0
2.7
1
G
A
I
N
Min. NULL
.25
.1
0.1 mm
0.004 in
1.0 mm
0.04 in
E
X
C
E
S
S
10 mm
0.4 in
10
4.0
2.7
1
Min. NULL
.25
.1
1.0 mm
0.04 in
100 mm
4 in
Max. NULL
OASBFV
Opposed Mode
with IT23S Fibers
(no lenses)
DISTANCE
10 mm
0.4 in
100 mm
4.0 in
1000 mm
40 in
DISTANCE
High Power, Infrared 880 nm
100
OASBFX
Provided by
Power Block
(see page 449)
0 to 10V dc
or
10 to 0V dc
10 mA max
E
X
C
E
S
S
G
A
I
N
100
OASBFX
Diffuse Mode
with BT23S Fiber
10
Max. NULL
4.0
2.7
1
.25
.1
1.0 mm
0.04 in
G
A
I
N
Min. NULL
10 mm
0.4 in
E
X
C
E
S
S
100 mm
4.0 in
1000 mm
40 in
DISTANCE
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OASBFX
Opposed Mode
with IT23S Fibers
(no lenses)
10
4.0
2.7
Max. NULL
1
Min. NULL
.25
.1
0.01 m
0.033 ft
0.1 m
0.33 ft
1m
3.3 ft
10 m
33 ft
DISTANCE
447
Analog OMNI-BEAM® Sensor Heads
Analog OMNI-BEAM Sensor Head Product Specifications
Supply Voltage and Current
Supplied by Analog power block
Output Response Time
Based on the time constant of an R-C network; the total output response time constant is the sum of the
response time constant due to programming switch setting plus the base response time of the sensor
head in use:
CV, D, F, FV and FP models: 2 milliseconds; DX and FX: 4 milliseconds (base response time)
Adjustments
NULL: Null is adjusted (for the condition of greatest received light) until the #1 LED on the moving dot
LED output display just turns “off” (only the POWER indicator LED should be “on” at this point). Further
decrease the NULL adjustment until the inverting output just reaches 0 volts or until the non-inverting
output just reaches +10V dc.
SPAN: Span is adjusted to produce the desired voltage swing between the lightest and darkest sensing
conditions. Minimum guaranteed signal contrast (i.e. minimum SPAN) which will result in a 10 volt output
swing is 1.5:1. Maximum guaranteed signal contrast (i.e. minimum SPAN) that will result in a 10 volt
output swing is 16:1.
Both controls are 15-turn clutched (at both ends) potentiometers with slotted brass elements, located
beneath a gasketed cover on top of the sensor. A small, flat-bladed screwdriver is required for adjustment.
Indicators
Located on top of the sensor head:
Power ON: a red LED lights whenever power is applied to the power block
Output: Ten-element moving-dot LED array indicates approximate output voltage
Construction
Sensor heads are molded of rugged thermoplastic polyester; top view window is LEXAN® polycarbonate;
acrylic lenses; stainless steel hardware
Environmental Rating
Meets NEMA standards 1, 2, 3, 3S, 4, 12, and 13; IEC IP66 when assembled to power block
Operating Conditions
Temperature:
Maximum relative humidity:
Application Notes
The output will not reach exactly zero volts. Actual minimum output: 0 < Vmin < 100 mV
0° to +50°C (32° to +122°F)
95% at 50°C (non-condensing)
Certifications
LEXAN® is a registered trademark of General Electric Co.
448
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
Analog OMNI-BEAM® Power Blocks
Analog OMNI-BEAM Power Blocks
For Use with Analog OMNI-BEAM Sensor Heads
OMNI-BEAM ac cabled and quick
disconnect models shown
•
Power blocks provide power for analog OMNI-BEAM sensor
heads and produce two ripple-free 0 to 10V sourcing analog
outputs
•
The two outputs, called inverting and non-inverting, are “mirrorimages” which intersect at 5V dc
•
Models for 15 to 30V dc, 105 to 130V ac and 210 to 250V ac
sensor power
•
Choose 2 m (6.5') integral cable or mini-style quick-disconnect
(QD) connector; 9 m (30') integral cable is also available
DC & AC Models
Analog OMNI-BEAM Power Blocks
Models
Cable
Supply
Voltage
Output Type
DC Voltage
OPBT3
OPBT3QD
2 m (6.5')
4-Pin Mini QD
+15-30V dc
Two “mirror-image” 0-10V dc sourcing analog
AC Voltage
OPBA3
OPBA3QD
2 m (6.5')
5-Pin Mini QD
105-130V ac
Two “mirror-image” 0-10V dc sourcing analog
OPBB3
OPBB3QD
2 m (6.5')
5-Pin Mini QD
210-250V ac
For Analog OMNI-BEAM Power Blocks:
i) 9 m (30') cables are available for analog power blocks by adding suffix “W/30” to the model number of any cabled power block
(e.g. - OPBT3 W/30)
ii) A model with a QD connector requires an accessory mating cable. See page 453 and the Accessories section for more information.
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
449
Analog OMNI-BEAM® Power Blocks
Analog OMNI-BEAM AC and DC Power Block Specifications
Supply Voltage and Current
+15 to 30V dc; 100 mA max, OPBT3 power block models
105 to 130V ac (50/60 Hz), OPBA3 power block models
210 to 250V ac (50/60 Hz), OPBB3 power block models
Supply Protection Circuitry
Protected against transient voltages
Output Configuration
Two “mirror-image” 0 to 10V dc sourcing analog outputs
Load Output Rating
10 mA maximum. The two outputs may be used simultaneously. However, the maximum total load my not
exceed 10 mA.
Construction
Reinforced thermoplastic polyester housing with totally epoxy-encapsulated circuitry, and 30 mm threaded hub
for swivel bracket or through-hole mounting
Environmental Rating
Meets NEMA standards 1, 2, 3, 3S, 4, 12, and 13; IEC IP66 when assembled to sensor head
Connections
PVC-jacketed 2 m (6.5') or 9 m (30') cables, or 4- or 5-pin mini-style quick-disconnect (QD) fitting are
available. QD cables are ordered separately. See page 453 and Accessories section.
Operating Conditions
Temperature:
0° to +50°C (+32° to 122°F)
Maximum relative humidity: 90% at 50°C (non-condensing)
Output Temperature
Stability
Maximum drift is ±10 millivolts per degree C at the maximum SPAN setting; ±30 millivolts per degree C at
minimum SPAN
Certifications
450
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
Analog OMNI-BEAM® Power Blocks
Analog OMNI-BEAM Power Block Hookup Diagrams
OPBT3 DC Power Blocks
OPBT3 with Attached Cable
bn
OPBT3 with Quick-Disconnect
(4-Pin Mini-Style)
bn
+
15-30V dc
bu
bu
-
Inverting Output
bk
wh
Load
+ 10mA Max.
-
Inverting Output
bk
-
Non-inverting Output
Load
+ 10mA Max.
+
15-30V dc
wh
-
Load
+ 10mA Max.
-
Non-inverting Output
Load
+ 10mA Max.
-
OPBA3 and OPBB3 AC Power Blocks
AC with Attached Cable
AC with Quick-Disconnect
(5-Pin Mini-Style)
bn
bn
V ac
(see specs)
bn
ye
ye
Inverting Output
Inverting Output
bk
wh
V ac
(see specs)
bu
Load
+ 10mA Max.
bk
-
Non-inverting Output
Load
+ 10mA Max.
wh
-
Load
+ 10mA Max.
-
Non-inverting Output
Load
+ 10mA Max.
-
Quick-Disconnect Pin-Outs
4-Pin Mini-Style Pin-out
5-Pin Mini-Style Pin-out
(Cable Connector Shown)
(Cable Connector Shown)
White Wire
Brown Wire
Black Wire
Blue Wire
White Wire
Brown Wire
Black Wire
Blue Wire
Yellow Wire
Quick-Disconnect (QD) Option
Analog OMNI-BEAM sensors are sold with either a 2 m (6.5') or 9 m (30') attached PVC-covered cable, or with a 5-pin mini-style
(AC models) or 4-pin mini-style (DC models) QD cable fitting.
Analog OMNI-BEAM sensors are identified by the letters “QD” in their model number suffix. Mating cables for QD sensors are
specified on page 453 and in the Accessories section.
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
451
Analog OMNI-BEAM® Sensors
OMNI-BEAM Analog Dimensions
Cabled
Transparent Cover (Gasketed)
View: Power “ON” Light
Moving Dot OUTPUT Indicator
Remove to Access:
NULL Adjustment
SPAN Adjustment
Analog OMNI-BEAM Diffuse Sensing Mode
(model suffix D & DX)
Quick-Disconnect
Mini-Style
54.6 mm
(2.15")
44.5 mm (1.75")
Lens
Centerline
#10 Screw
Clearance (4)
Cross-hole design for front,
back, or side mounting
60.5 mm
(2.38")
Power Block
79.8 mm
(3.14")
5.6 mm (0.22")
Internal Thread
(1/2-14NPSM)
External Thread Hex Nut
M30 X 1.5
Supplied
7.1 mm
(0.28")
98.6mm
(3.88")
7.1 mm
(0.28")
30.0 mm
(1.18")
14 mm (0.6")
30.0 mm
(1.18")
External Thread
M30 X 1.5
2 m ( 6.5' Cable)
Convergent Sensing Mode
(model suffix CV)
Mini-style QD Connector
Glass Fiber Optic
(model suffix F, FX & FV)
61.7 mm
(2.43")
60.5 mm
(2.38")
452
Hex Nut
Supplied
Plastic Fiber Optic
(model suffix FP)
59.8 mm
(2.35")
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
OMNI-BEAM® Accessories
Modifications
Model Suffix
Modification
W/30
9 m (30') cable
Example of Model
Number
Description
All OMNI-BEAM power blocks may be ordered with an integral
9 m (30') cable in place of the standard 2 m (6.5') cable
OPBA2 W/30
Quick-Disconnect (QD) Cables
Following is the selection of cables available for OMNI-BEAM QD models. See the Accessories section for more cable information.
Style
Model
Length
Connector
Straight
Power block models:
OPBT2QD, OPBTEQD, OPBT3QD
Power block models:
OPBA2QD, OPBAEQD
OPBB2QD, OPBBEQD
OPBA3QD, OPBB3QD
4-Pin Mini
MBCC-406
MBCC-412
MBCC-430
2 m (6.5')
4 m (12')
9 m (30')
5-Pin Mini
MBCC-506
MBCC-512
MBCC-530
2 m (6.5')
4 m (12')
9 m (30')
Straight
4-Pin Euro
MQDC-406
MQDC-415
MQDC-430
MQDC-406RA
MQDC-415RA
MQDC-430RA
2 m (6.5')
5 m (15')
9 m (30')
2 m (6.5')
5 m (15')
9 m (30')
Straight
Straight
Straight
Right-angle
Right-angle
Right-angle
Used with:
Power block models:
OPBT2QDH, OPBTEQDH
Replacement Lens Assemblies
OMNI-BEAM lens assemblies are field-replaceable.
Model
OUC-C
OUC-D
OUC-F
OUC-FP
OUC-L
OUC-LAG
Description
Replacement lens for convergent models (model suffix CV, CVB and CVG)
Replacement lens for short range diffuse models (model suffix D)
Replacement lens for glass fiber optic models (model suffix F, FAC, FV, FVB, FVG, FX, EF, and RF)
Replacement lens for plastic fiber optic models (model suffix FP, FPB and FPG)
Replacement lens for non-polarized retroreflective and opposed models (model suffix DX, LV, E and R)
Replacement lens for polarized retroreflective models (model suffix LVAG and LVAGC)
Cable Protector
Model
Description
• Flexible black nylon cable protector
HF1-2NPS
• Includes a neoprene gland that compresses around the OMNI-BEAM cable to provide an
additional seal against moisture
• Resistant to gasoline, alcohol, oil, grease, solvents and weak acids
• Working temperature range of -30° to +100°C (-22° to +212°F)
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
453
OMNI-BEAM® Accessories
Mounting Brackets
Model
Description
Dimensions
56.0 mm
(2.20")
SMB30C
• 30 mm split clamp bracket
• Black reinforced thermoplastic
polyester
• Includes stainless steel
mounting hardware
13 mm
(0.5")
63.0 mm
(2.48")
31.5 mm
(1.24")
13.5 mm (0.53")
Nut Plate
2.5 mm
(0.10")
45.0 mm
(1.77")
SMB30MM
M5 x 0.8
x 80 mm
Screw (2)
25.4 mm
(1.00")
• 30 mm, 12-gauge, stainless
steel bracket with curved
mounting slots for versatility
and orientation
• Clearance for M6 (1/4")
hardware
ø30.1 mm
(1.19")
35.1 mm
(1.38")
7.1 mm
.28 x 90° (2 Slots)
ø 6.4 mm
(0.25" dia.)
57.2 mm
(2.25")
25.4 mm
(1.00")
R 25.4 mm
(1.00")
57.2 mm
35.1 mm
(2.25")
(1.38")
69.9 mm
(2.75")
SMB30SC
• 30 mm swivel bracket
• Black reinforced thermoplastic
polyester
• Includes stainless steel
mounting and swivel locking
hardware
50.8 mm
(2.00")
M30 x 1.5
internal
thread
12.7 mm
(0.50")
58.7 mm
(2.31")
30.0 mm
(1.18")
66.5 mm
(2.62")
29.0 mm
(1.14")
NOTE: See p. 746 for
additional dimensions
SMB30UR
172.0 mm
(6.77")
• 2-piece universal swivel
bracket for limit-switch style
sensors
• 300 series stainless steel
• Includes stainless steel swivel
locking hardware
2X
1/4 x 28 x 1/2"
Screw
2X 1/4"
Lock Washer
2X 1/4"
Flat Washer
76.2 mm
(3.00")
Retroreflective Targets
Banner offers a wide selection of high-quality retroreflective targets. See Accessories section for complete information.
454
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
MAXI-BEAM® Sensors
MAXI-BEAM® Sensors
MAXI-BEAM Sensors. . . . . . . . . . . . . . . . . . . . . . 456
MAXI-BEAM Accessories . . . . . . . . . . . . . . . . . . . 471
R
LISTED
(Most models,
exceptions are noted)
!
MAXI-BEAM sensors are not suitable for use in
personnel safety applications! See WARNING on
inside front cover of catalog.
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
455
MAXI-BEAM® Sensors
SELECTION OF COMPONENTS FOR MAXI-BEAM SENSORS
MAXI-BEAM sensors are modular self-contained photoelectric sensors which allow you to create a custom sensor exactly
suited for the application.
STEP 1
Sensitivity
Control
LED/AID™
Indicator
Rotatable
Sensor Head
Programming
Ring
Optional
Logic Module
Programming
Ring for Logic
Power Block
RWB4
Wiring Base
Output OFF LED
Output ON LED
Quick Disconnect (Optional)
456
Conduit
Entrance
Choose a sensor head with the required sensing mode
STEP 2
Choose a power block for the required sensor power
(ac or dc) and interface
STEP 3
Add an RWB4 wiring base
STEP 4
Choose an optional Timing Logic Module
STEP 5
Simply plug and bolt components together without
interwiring to create a complete self-contained
photoelectric sensor that is tailored to your exact
sensing needs
MAXI-BEAM modular components are sold separately.
The three modular components, plus the lenses, are
field-replaceable.
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
MAXI-BEAM® Sensor Heads
MAXI-BEAM Sensor Heads
•
Sensor heads use a unique* programming ring to select
eight combinations of sensing range and output response
•
The sensor head may be rotated on the power block in 90°
increments
•
All sensor heads feature Banner’s AID™ (Alignment
Indicating Device)† which indicates relative received light
signal strength
•
Sensitivity adjustment is via a multi-turn, clutched control
•
Rugged construction, with reinforced thermoplastic
polyester housing and epoxy-encapsulated circuitry
MAXI-BEAM sensor head with its programming ring
*U.S. Patent #4626053
†
U.S. Patent #4356393
MAXI-BEAM Sensor Head Sensing Mode Options
Opposed
Retroreflective
Diffuse
Convergent
Fixed-Field
Glass and Plastic Fiber Optic
Infrared, 880 nm
MAXI-BEAM Opposed Mode Emitter (R) and Receiver (R)
Models
Range
Response
Repeatability
of Response
Excess Gain
Beam Pattern
Effective Beam: 13 mm
1000
RSBE*
RSBR
90 m
(300')
in HP and 2W
modes
HP, 2W: 10 ms on/5 off
HS: 1 ms on/0.5 off
SP: 0.3 ms on/off
HP, 2W: 1.4 ms
HS: 0.1 ms
SP: 0.04 ms
E
X
C
E
S
S
G
A
I
N
RSBE and RSBR
Opposed Mode
RSBE/RSBR
375 mm
100
10 in
250 mm
0
125 mm
5 in
250 mm
10 in
15 in
375 mm
1.0 m
3.3 ft
10 m
33 ft
0
100 m
330 ft
24 m
80 ft
48 m
160 ft
RSBESR*
RSBRSR
HP, 2W: 1.4 ms
HS: 0.1 ms
SP: 0.04 ms
G
A
I
N
96 m
320 ft
120 m
400 ft
Effective Beam: 3.5 mm
RSBESR and
RSBRSR
RSBESR/RSBRSR
Opposed Mode
600 mm
100
72 m
240 ft
DISTANCE
1000
HP, 2W: 10 ms on/5 off
HS: 1 ms on/0.5 off
SP: 0.3 ms on/off
5 in
0
DISTANCE
4.5 m
(15')
in HP and 2W
modes
HP, 2W
SP
SP
10
HS
125 mm
HS
1
0.1 m
0.33 ft
E
X
C
E
S
S
15 in
Opposed Mode
HP, 2W
24 in
Opposed Mode
HP, 2W
400 mm
8 in
0
SP
10
16 in
200 mm
HS
SP
HP, 2W
HS
8 in
400 mm
16 in
600 mm
1
0.01 m
0.033 ft
0.1 m
0.33 ft
1.0 m
3.3 ft
DISTANCE
10 m
33 ft
0
200 mm
24 in
0
.9 m
3 ft
1.8 m
6 ft
2.7 m
9 ft
3.6 m
12 ft
4.5 m
15 ft
DISTANCE
*MAXI-BEAM emitters have a visible red “tracer beam”, a non-active beam that is used as a means of visual alignment during installation
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
457
MAXI-BEAM® Sensor Heads
NOTE: Retroreflective range is specified using one model BRT-3 retroreflector
(3" diameter). Actual sensing range may be more or less than specified,
depending upon the efficiency and reflective area of the retroreflector(s) in
use. See page 722 for more information.
P
Visible Red, 650 nm
Non-Polarized
Polarized
MAXI-BEAM Retroreflective Mode
Models
Range
Response
Repeatability
of Response
Excess Gain
Non-Polarized
RSBLV
0.15 - 9 m
(6" - 30')
in all modes
1000
E
X
C
E
S
S
HP, 2W, SP: 4 ms
HS: 1 ms
Beam Pattern
HP, 2W, SP: 1.3 ms
HS: 0.3 ms
G
A
I
N
RSBLV
Retroreflective Mode
With BRT-3 Reflector
10
RSBLV
150 mm
100
4.0 in
50 mm
2.0 in
0
All modes
0
50 mm
2.0 in
100 mm
With BRT-3 Reflector
150 mm
1
.01 m
.033 ft
.10 m
.33 ft
1.0 m
3.3 ft
10 m
33 ft
RSBLVAG
0.3 - 4.5 m
(1 - 15')
in all modes
4.0 in
6.0 in
0
2m
6.6 ft
4m
13 ft
6m
20 ft
8m
26 ft
10 m
33 ft
DISTANCE
DISTANCE
Polarized*
6.0 in
Retroreflective Mode
100 mm
1000
E
X
C
E
S
S
HP, 2W, SP: 4 ms
HS: 1 ms
HP, 2W, SP: 1.3 ms
HS: 0.3 ms
G
A
I
N
RSBLVAG
Retroreflective Mode
RSBLVAG
75 mm
W/BRT-3 Reflector
10
1
.01 m
.033 ft
50 mm
2.0 in
25 mm
1.0 in
0
All modes
0
25 mm
.10 m
.33 ft
3.0 in
Retroreflective Mode
100
1.0 m
3.3 ft
DISTANCE
10 m
33 ft
With BRT-3 Reflector
1.0 in
50 mm
2.0 in
75 mm
3.0 in
0
1m
3.3 ft
2m
6.6 ft
3m
10 ft
4m
13 ft
5m
16 ft
DISTANCE
* Use polarized sensor head whenever shiny objects are sensed.
458
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
MAXI-BEAM® Sensor Heads
Infrared, 880 nm
MAXI-BEAM Diffuse Mode
Models
Range
Response
Repeatability
of Response
Excess Gain
Long Range
RSBD
1.5 m
(5')
in HP & 2W
modes
1000
E
X
C
E
S
S
HP, 2W: 10 ms
HS: 1 ms
SP: 0.3 ms
HP, 2W: 3.3 ms
HS: 0.3 ms
SP: 0.1 ms
Beam Pattern
Performance based on 90% reflectance white test card
G
A
I
N
RSBD
Diffuse Mode
RSBD
75 mm
50 mm
2.0 in
25 mm
1.0 in
0
HP, 2W
10
SP
25 mm
1.0 in
50 mm
SP
2.0 in
75 mm
3.0 in
0.1 m
0.33 ft
1m
3.3 ft
0
10 m
33 ft
.3 m
1 ft
.6 m
2 ft
RSBDSR
760 mm
(30")
in HP & 2W
modes
HP, 2W: 10 ms
HS: 1 ms
SP: 0.3 ms
1000
HP, 2W: 3.3 ms
HS: 0.3 ms
SP: 0.1 ms
G
A
I
N
.9 m
3 ft
1.2 m
4 ft
1.5 m
5 ft
DISTANCE
DISTANCE
E
X
C
E
S
S
0
HP, 2W
HS
HS
1
0.01 m
0.033 ft
Short Range
3.0 in
Diffuse Mode
100
RSBDSR
Diffuse Mode
RSBDSR
37.5 mm
100
1.5 in
Diffuse Mode
25.0 mm
HP, 2W
0.5 in
0
HS
10
1.0 in
12.5 mm
SP
SP
HP, 2W
HS
0.5 in
25.0 mm
1.0 in
37.5 mm
1
1.0 mm
0.04 in
10 mm
0.4 in
100 mm
4.0 in
DISTANCE
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
1000 mm
40 in
0
12.5 mm
1.5 in
0
150 mm 300 mm 450 mm 600 mm 750 mm
6 in
12 in
18 in
24 in
30 in
DISTANCE
459
MAXI-BEAM® Sensor Heads
See Sensing Beam Information Below
MAXI-BEAM Convergent Mode
Models
Focus
Repeatability
of Response
Response
Excess Gain
Infrared 940 nm
1000
E
X
C
E
S
S
RSBC
HP, 2W: 10 ms
HS: 1 ms
SP: 0.3 ms
38 mm
(1.5")
HP, 2W: 3.3 ms
HS: 0.3 ms
SP: 0.1 ms
Beam Pattern
Performance based on 90% reflectance white test card
RSBC
Convergent Mode
RSBC
5.0 mm
100
2.5 mm
0.1 in
0
10
G
A
I
N
HP, 2W
2.5 mm
0.1 in
5.0 mm
10 mm
0.4 in
100 mm
4.0 in
1000 mm
40 in
0.2 in
0
25 mm
1 in
50 mm
2 in
DISTANCE
Spot Size
at Focus:
1.5 mm
(0.06")
75 mm 100 mm 125 mm
3 in
4 in
5 in
DISTANCE
1000
RSBCV
E
X
C
E
S
S
38 mm
(1.5")
RSBCV
0
HP, 2W
SP, HS
SP & HS
1
1.0 mm
0.04 in
Visible Red 650 nm
0.2 in
Convergent Mode
HP, 2W: 10 ms
HS: 1 ms
SP: 0.3 ms
HP, 2W: 3.3 ms
HS: 0.3 ms
SP: 0.1 ms
Convergent Mode
100
G
A
I
N
1
1 mm
.04 in
10 mm
.4 in
100 mm
4 in
0.09 in
Convergent Mode
1.6 mm
0.06 in
0.8 mm
0.03 in
0
All modes
10
RSBCV
2.4 mm
1000 mm
40 in
0
0.8 mm
0.03 in
1.6 mm
0.06 in
2.4 mm
0.09 in
0
12.5 mm 25 mm 37.5 mm 50 mm 62.5 mm
0.50 in 1.0 in
1.5 in
2.0 in
2.5 in
DISTANCE
DISTANCE
Infrared, 880 nm
MAXI-BEAM Fixed-Field Mode*
Models
Cutoff
Point
Response
Repeatability
of Response
Excess Gain (50 mm)
Excess Gain (100 mm)
Performance based on 90% reflectance white test card
1000
RSBFF50*
50 mm
(2")
HP: 10 ms
RSBFF100*
100 mm
(4")
HP: 3.3 ms
E
X
C
E
S
S
G
A
I
N
1000
RSBFF50
RSBFF100
Fixed-field mode
with 50 mm far
limit cutoff
100
10
1
.1 mm
.004 in
E
X
C
E
S
S
G
A
I
N
1 mm
.04 in
10 mm
.4 in
100 mm
4 in
DISTANCE
Fixed-field mode
with 100 mm far
limit cutoff
100
10
1
.1 mm
.004 in
1 mm
.04 in
10 mm
.4 in
100 mm
4 in
DISTANCE
*Fixed-field sensor heads are programmable for HP mode, only and will not operate with 2-wire power blocks
460
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
MAXI-BEAM® Sensor Heads
Infrared, 880 nm
MAXI-BEAM Glass Fiber Optic Emitter (E) and Receiver (R)
Models
Range
Response
Repeatability
of Response
Excess Gain
1000
RSBEF
RSBRF
Range varies
with fiber
optics used
HP, 2W: 10 ms
HS: 1 ms
SP: 0.3 ms on/off
HP, 2W: 3.3 ms
HS: 0.3 ms
SP: 0.1 ms
E
X
C
E
S
S
G
A
I
N
Beam Pattern
RSBEF and
RSBRF
Opposed Mode
RSBEF/RSBRF
150 mm
100
6 in
Opposed Mode
HP, 2W
100 mm
10
4 in
50 mm
HS
IT23S
Fiber
(no lenses)
2 in
0
SP
SP
HP, 2W
HS
50 mm
2 in
100 mm
4 in
IT23S Fibers
(no lenses)
150 mm
1
1 mm
.04 in
10 mm
.40 in
100 mm
4.0 in
0
1000 mm
40 in
0
6 in
200 mm 400 mm 600 mm 800 mm 1000 mm
8 in
16 in
24 in
32 in
40 in
DISTANCE
DISTANCE
Infrared, 880 nm
MAXI-BEAM Glass Fiber Optic
Models
Range
Response
Repeatability
of Response
Excess Gain
1000
E
X
C
E
S
S
G
A
I
N
RSBF
Range varies
by sensing
mode and
fiber optics
used
HP, 2W: 10 ms
HS: 1 ms
SP: 0.3 ms on/off
Beam Pattern
Diffuse mode performance based on 90% reflectance white test card
100
HP, 2W
IT23S
Fiber
RSBF
150 mm
4 in
HS
SP
10
2 in
0
SP
100 mm
4.0 in
1000
2 in
100 mm
4 in
150 mm
6 in
1000 mm
40 in
200 mm 400 mm 600 mm 800 mm 1000 mm
8 in
16 in
24 in
32 in
40 in
DISTANCE
RSBF
Diffuse Mode
RSBF
7.5 mm
100
Diffuse Mode with BT23S fiber
5.0 mm
BT23S Fibers
10
0.1 in
0
HS
SP
SP
HS
HP, 2W
10 mm
0.4 in
100 mm
4.0 in
DISTANCE
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
1000 mm
40 in
0
2.5 mm
0.1 in
5.0 mm
0.2 in
7.5 mm
1
1.0 mm
0.04 in
0.3 in
0.2 in
2.5 mm
HP, 2W
G
A
I
N
0
50 mm
0
10 mm
0.4 in
HP, 2W
HS
DISTANCE
E
X
C
E
S
S
6 in
Opposed Mode with IT23S fibers
100 mm
50 mm
1
1.0 mm
0.04 in
HP, 2W: 3.3 ms
HS: 0.3 ms
SP: 0.1 ms
RSBF
Opposed Mode
0.3 in
0
25 mm
1 in
50 mm
2 in
75 mm 100 mm 125 mm
3 in
4 in
5 in
DISTANCE
461
MAXI-BEAM® Sensor Heads
Visible red, 650 nm
MAXI-BEAM Glass Fiber Optic - High Speed
Models
Range
Response
Repeatability
of Response
Excess Gain
Beam Pattern
Diffuse mode performance based on 90% reflectance white test card
1000
E
X
C
E
S
S
G
A
I
N
RSBFV*
Range varies
by sensing
mode and
fiber optics
used
RSBFV
Opposed Mode
RSBFV
75 mm
3 in
Opposed Mode
100
50 mm
2 in
25 mm
IT23S Fibers
10
IT13S Fibers
1 in
0
IT13S
10 mm
.40 in
100 mm
4.0 in
1000 mm
40 in
0
25 mm
1 in
50 mm
2 in
75 mm
1
1 mm
.04 in
3 in
0
50 mm 100 mm 150 mm 200 mm 250 mm
2 in
4 in
6 in
8 in
10 in
DISTANCE
DISTANCE
HS: 1 ms on/off
IT23S
HS: 0.3 ms
1000
RSBFV
E
X
C
E
S
S
RSBFV
Diffuse Mode
1.95 mm
100
0.050 in
0.65 mm
0.025 in
0
G
A
I
N
0.075 in
Diffuse Mode
1.30 mm
10
BT23S Fiber
BT13S Fiber
1
.1 mm
.004 in
1 mm
.04 in
BT13S
BT23S
0.025 in
1.30 mm
0.050 in
1.95 mm
10 mm
.40 in
DISTANCE
100 mm
4 in
0
0.65 mm
0.075 in
0
5 mm
0.2 in
10 mm
0.4 in
15 mm
0.6 in
20 mm
0.8 in
25 mm
1.0 in
DISTANCE
*NOTES: i) Sensor head models RSBFV and RSBFP are programmable for HS mode, only.
ii) Sensor head models RSBFV and RSBFP will not operate with 2-wire power blocks.
462
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
MAXI-BEAM® Sensor Heads
Visible Red, 650 nm
MAXI-BEAM Plastic Fiber Optic - High Speed
Models
Range
Response
Repeatability
of Response
Excess Gain
Beam Pattern
Diffuse mode performance based on 90% reflectance white test card
1000
RSBFP
E
X
C
E
S
S
Opposed Mode
Plastic Fibers
PIT46U Fibers
G
A
I
N
RSBFP*
Range varies
by sensing
mode and
fiber optics
used
RSBFP
45 mm
100
1.2 in
0.6 in
15 mm
0
10
PIT26U Fibers
1.8 in
Opposed Mode
30 mm
PIT46U
PIT26U
0.6 in
30 mm
1.2 in
1.8 in
45 mm
1
1 mm
.04 in
10 mm
.40 in
100 mm
4.0 in
1000 mm
40 in
0
25 mm
1 in
50 mm
2 in
75 mm 100 mm 125 mm
3 in
4 in
5 in
DISTANCE
DISTANCE
HS: 1 ms on/off
0
15 mm
HS: 0.3 ms
1000
E
X
C
E
S
S
RSBFP
Diffuse Mode
RSBFP
3.75 mm
100
PBT46U Fiber
.10 in
.05 in
1.25 mm
0
G
A
I
N
.15 in
Diffuse Mode
2.50 mm
10
PBT26U Fiber
1
0.1 mm
0.004 in
1.0 mm
0.04 in
PBT26U
0
PBT46U
1.25 mm
.05 in
2.50 mm
.10 in
.15 in
3.75 mm
10 mm
0.4 in
100 mm
4.0 in
0
7.5 mm 15.0 mm 22.5 mm 30.0 mm 37.5 mm
.3 in
.6 in
.9 in
1.2 in
1.5 in
DISTANCE
DISTANCE
MAXI-BEAM Sensor Head Specifications
Supply Voltage and Current
Supplied by power block
Output Response Time
Programmable for 10, 1 and 0.3 milliseconds (except FF, FV and FP models)
See power block specifications for information on additional output switching response delays
(NOTE: 100 millisecond delay on power-up)
Repeatability
See individual sensor mode charts
Adjustments
Located on top of sensor head beneath o-ring gasketed cover. 15-turn clutched control (rotate clockwise
to increase gain)
Indicators
Red LED on top of sensor head. Banner’s exclusive, patented Alignment Indicating Device (AID™) circuit lights
the LED whenever the sensor detects its own modulated light source, and pulses the LED at a rate proportional
to the received light signal strength.
Construction
Reinforced thermoplastic polyester with totally encapsulated circuitry, molded acrylic lenses, and o-ring and
quad-ring gasketed components
Environmental Rating
Meets NEMA standards 1, 3, 4, 12, and 13; IEC IP66
Operating Conditions
Temperature:
-40° to +70°C (-40° to +158°F)
Maximum relative humidity: 90% at 50°C (non-condensing)
Certifications
1
Models: RSBESR, RSBRSR, RSBC,
RSBFF50, and RSBFF100
R
LISTED
1
R
LISTED
Except sensor head models RSBESR, RSBRSR, RSBC, RSBFF50, and RSBFF100
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
463
MAXI-BEAM® Power Blocks
MAXI-BEAM Power Blocks
•
•
•
•
Power Block
RWB4 Wiring Base
(order separately)
•
All MAXI-BEAM power blocks plug into an RWB4 wiring base
(see below)
The RWB4 wiring base is NECESSARY for all MAXI-BEAM
assemblies (except sensors using the RPBTLM power block),
and must be purchased separately
MAXI-BEAM power blocks provide regulated low voltage dc
power to the sensor head and logic module (if one is used)
and are are epoxy-encapsulated
All power blocks (except emitter-only types) contain an output
switch for interfacing to loads or to control circuitry
All power blocks (except emitter-only types) include two status
LEDs which continuously indicate the state of the output circuit
and input power
MAXI-BEAM Wiring Base
Model
Description
• The RWB4 wiring base is used for all MAXI-BEAM assemblies, except
those using power block model RPBTLM (see dimension drawings,
page 470). It is sold as a separate item.
RWB4
• The RWB4 is designed so that a power block plugs (and bolts) directly
into it. The RWB4 may be permanently installed, and all other MAXIBEAM sensing components may be quickly and easily exchanged,
without disturbing the field wiring.
• The RWB4 offers heavy-duty screw terminals which accept up to #12
gauge wire (no lugs are necessary).
464
Shown with optional
quick-disconnect
connector and cable
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
MAXI-BEAM® Power Blocks
MAXI-BEAM DC Power Blocks
Models
Supply
Voltage
Output
Type
Output
Capacity
On-State
V Saturation
Off-State
Leakage
PNP
<1V at 10 mA
<2V at 250 mA
RPBT
10 - 30V dc
20 mA max
250 mA
each output
NPN
<200mV at
10 mA
<1V at 250 mA
Hookup Diagram
+
10-30V dc
–
1
<10 µA
2
3
Load
4
Load
Bi-Polar
NPN/PNP
RPBTLM3
10 - 30V dc
10 mA max
150 mA
each output
NPN:
<200mV at
10 mA
<1V at 150 mA
bn
+
10-30V dc
–
bu
<1 µA
wh
PNP:
<1V at 10 mA
<2V at 150 mA
bk
Load
Load
+
10-30V dc
–
1
RPBT-1
10 - 30V dc
20 mA max
2
For RSBE, RSBESR and RSBEF emitters
3
4
MAXI-BEAM AC 2-Wire Power Blocks
Models
Supply
Voltage
Output
Type
Output
Capacity
On-State
V Saturation
Off-State
Leakage
Hookup Diagram
1
R2PBA
2
130V ac max
750 mA max
105 - 130V ac
3
105-130V ac
4
<5.2V rms at
1
/2 amp load;
<14V rms at
10 mA load
SPST
Solid-state
Load
<1.7 mA
1
R2PBB
210 - 250V ac
250V ac max
750 mA max
2
3
210-250V ac
4
3
Load
Power block models RPBTLM, RPBU and RPBR2 do not carry UL or CSA approval.
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
465
MAXI-BEAM® Power Blocks
MAXI-BEAM AC 3- and 4-Wire Power Blocks
Models
Supply
Voltage
Output
Type
Output
Capacity
On-State
V Saturation
Off-State
Leakage
Hookup Diagram
1
105-130V ac
2
RPBA*
105 - 130V ac
3
4
SPST
Solid-state
250V ac max
750 mA max
<2.5V ac
Load
<100 µA
1
210-250V ac
RPBB*
2
210 - 250V ac
3
4
Load
1
105-130V ac
RPBA-1
2
105 - 130V ac
3
4
For RSBE, RSBESR and RSBEF emitters
1
210-250V ac
RPBB-1
2
210 - 250V ac
3
4
* Special order models RPBAT (120V ac) and RPBBT (240V ac) are available for interfacing to dc loads of up to 100 milliamps
1
Hookup to dc power is without regard to polarity.
2
Power block models RPBR and RPBR2 use “partial phase firing” power conversion. The collective current demand of several of these
power blocks on a common ac line is significant. If this is a consideration, contact your local Banner sales engineer or the factory
Application Engineering Department for advice. Power demand is not an issue when the RPBR or RPBR2 are powered from direct current
(12-30V dc).
466
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
MAXI-BEAM® Power Blocks
MAXI-BEAM AC/DC Power Blocks
Models
RPBR
Supply
Voltage
Output
Type
Output
Capacity
12 - 30V dc1
or
12 - 250V ac2
40 mA max
SPST
Electromechanical
relay
250V ac max
30V dc max
5A max
On-State
V Saturation
Off-State
Leakage
Hookup Diagram
1
12-30V dc or
12-250V ac
2
Nil
Nil
3
4
Load
1
RPBR23
RPBU
3
12 - 30V dc1
or
12 - 250V ac2
40 mA max
SPDT
Electromechanical
relay
250V ac max
30V dc max
5A max
12-30V dc or
12-250V ac
2
Nil
12 - 30V dc1
240V ac or dc
or
SPST Isolated
max
12 - 250V ac Solid-state
100 mA max
40 mA max
Nil
3
Load
4
Load
1
<2V at 100 mA
<1 mA
12-30V dc
12-250V ac
2
+
3
4
250 V ac or
30V dc max.
Load
240 V ac or dc max.
–
MAXI-BEAM AC and DC Power Block Specifications
Supply Voltage and Current
See individual model specifications
Supply Protection Circuitry
Protected against transient voltages. DC power blocks are protected against reverse polarity.
Output Configuration
See individual model specifications
Output Protection Circuitry
Protected against false pulse on power-up. DC power blocks are protected against continuous overload or
short circuit of outputs.
Output Response Time
For ac loads: add 8.3 milliseconds to the off-time response of the sensor block
Construction
Reinforced thermoplastic polyester, with epoxy-encapsulated circuitry, 30 mm threaded hub for swivel
bracket or through-hole mounting
Environmental Rating
Meets NEMA standards 1, 2, 3, 3S, 4, 12, and 13; IEC IP66 when assembled with sensor head
Operating Conditions
Temperature:
Certifications
-40° to +70°C (-40° to +158°F) except models RPBR and RPBR2 which
are -40° to +50°C (-40° to +122°F)
Maximum relative humidity: 90% at 50°C (non-condensing)
3
3
R
LISTED
3
Power block models RPBTLM, RPBU and RPBR2 do not carry UL or CSA approval.
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
467
MAXI-BEAM® Logic Modules
MAXI-BEAM Logic Modules
•
•
•
•
•
MAXI-BEAM logic module (top), and
programming ring for logic (bottom)
•
•
Logic modules stack between the sensor head and power block to add
output timing control
Supplied with a programming ring for selection of eight different
combinations of time range and logic function
Model RLM5 is programmable for ON-delay, OFF-delay, or ON/OFF-delay
timing
Model RLM8 is programmable for One-shot and Delayed One-shot pulse
timing
Both models feature multi-turn, clutched controls for accurate timing
adjustments
Once programmed by orientation of the programming ring, the logic module
may be rotated on the power block in 90° increments to position the timing
adjustments for the most convenient access
Rugged construction, with reinforced thermoplastic polyester housing and
epoxy-encapsulated circuitry
MAXI-BEAM Logic Modules
Model
Timing
Function
Timing Range
Timing Diagram
Delay
OUTPUT
On-delay
SIGNAL
Hold
RLM5
Off-delay
0.1 to 1 second;
0.5 to 15 seconds
Hold
OUTPUT
SIGNAL
Delay
Hold
OUTPUT
On/Off -delay
SIGNAL
Pulse
OUTPUT
One-shot
0.01 to 0.1 second;
0.1 to 1 second;
0.5 to 15 seconds
RLM8
Delayed
One-shot
Pulse
SIGNAL
Delay Pulse
Delay Pulse
OUTPUT
SIGNAL
468
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
MAXI-BEAM® Logic Modules
MAXI-BEAM Logic Modules Specifications
Response Time
RLM5: add sensor response delay of approximately 2% of maximum OFF-DELAY time
RLM8: no added response time for ONE-SHOT mode
Timing Repeatability
±2% of maximum time of the selected range, assuming conditions of constant operating temperature and power
supply voltage
Timing Range
15 second ranges: 0.5 to 15 seconds
1 second ranges: 0.1 to 1 second
0.1 second ranges: 0.01 to 0.1 second
Adjustments
Two 15-turn clutched potentiometers with brass element, accessible from outside of logic modules, under
o-ring gasketed cover screws
Construction
Molded thermoplastic polyester with epoxy-encapsulated circuitry, quad-ring gasketed
Environmental Rating
Meets NEMA standards 1, 2, 3, 3S, 4, 12, and 13; IEC IP66 when assembled with sensor head
Operating Conditions
Temperature:
-40° to +70°C (-40° to +158°F)
Maximum relative humidity: 90% at 50°C (non-condensing)
Certifications
R
LISTED
RLM5 Program Definition Diagram
OFF-delay, 0.5 to 15 sec., normally open output
ON/OFF delay, 0.5 to 15 sec. (both delays), normally open output
ON-delay, 0.5 to 15 sec., normally open output
ON/OFF delay, 0.1 to 1 sec. (both delays), normally open output
OFF delay, 0.5 to 15 sec., normally closed output
ON-delay, 0.5 to 15 sec., normally closed output
ON/OFF delay, 0.5 to 15 sec. (both delays), normally closed output
ON/OFF delay, 0.1 to 1 sec. (both delays), normally closed output
Logic
Module
–
15
O
15
–
O
15
15
O
1
1
O
–
15
C
15
–
C
15
15
C
1
1
C
ON-delay function - time range maximum
OFF-delay function - time range maximum
Output state "O" = normally open, "C" = normally closed
Programming Ring
Programming Notch
RLM8 Program Definition Diagram
One-shot, 0.01 to 0.1 sec., normally open output
Delayed one-shot, 0.1 to 1 sec. (delay and pulse), normally open output
One-shot, 0.1 to 1 sec., normally open output
Delayed one-shot, 0.5 to 15 sec. (delay and pulse), normally open output
One-shot, 0.01 to 0.1 sec., normally closed output
One-shot, 0.1 to 1 sec., normally closed output
Delayed one-shot, 0.1 to 1 sec. (delay and pulse), normally closed output
Delayed one-shot, 0.5 to 15 sec. (delay and pulse), normally closed output
Logic
Module
–
.1
O
–
1
O
1
1
O
15
15
O
–
.1
C
–
1
C
1
1
C
15
15
C
Delay time function - time range maximum
One-shot pulse function - time range maximum
Programming Ring
Output state "O" = normally open, "C" = normally closed
Programming Notch
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
469
MAXI-BEAM® Sensors
MAXI-BEAM Dimensions
Assembled MAXI-BEAM Sensor with Standard Lens
Opposed, Retroreflective & Diffuse
(model suffix E,R, ESR, RSR, LV, LVAG, D & DSR)
Convergent Sensing Mode
(model suffix C & CV)
Fixed-field Mode
(model suffix FF50 & FF100)
“AID” Indicator LED
40 mm (1.6")
48 mm (1.9")
50.6 mm (2.0")
51 mm (2.0")
Access to
Sensitivity
Adjustment
Lens Centerline
Programming Ring
A
5 mm (#10 ) Screw Clearance
60.0 mm x 30.0 mm
(2.36" x 1.18") Spacing
(2 Mounting Bolts Supplied)
B
Output On Indicator
9.6 mm
(0.38")
Output Off Indicator
1/2" - 14 NPSM
Conduit Entrance
5.1 mm
(0.20")
Dimension A
Dimension B
Configuration
114 mm (4.5")
100 mm (3.9")
Without Logic Module
127 mm (5.0")
112 mm (4.4")
With Logic Module
Glass Fiber Optic
(model suffix F, FV, EF & RF)
Plastic Fiber Optic
(model suffix FP)
Assembled MAXI-BEAM sensor
w/ RPBTLM DC Power Block
Access to Sensitivity
Adjustment
“AID” Indicator LED
53.8 mm (2.1")
53.8 mm (2.1")
40.1 mm
(1.58")
Maxi-Beam
Sensor Head
(Order Separately)
48.3 mm
(1.90")
Lens Centerline
58.7 mm (2.31")
with Logic Module
41.4 mm (1.63")
without Logic Module
39.9 mm (1.57") with Logic
27.2 mm (1.07") without
2 m (6.5') Cable
#8-32 x 2 in Long*
Stainless Steel Screw (4)
30.5 mm (1.20") Square Screw Pattern
Output
Status LED
RPBTLM and
Programming Ring
* Note: #8-32 x 2 1/2" long screws are also supplied with RPBTLM
for assembly when a logic module is added.
470
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
MAXI-BEAM® Accessories
Replacement Lens Assemblies
MAXI-BEAM lens assemblies are field-replaceable. In addition, some lenses may be used to convert from one sensing mode to another, or
to change the sensing range of a particular sensor. Upper cover assemblies include lens, replacement bezel, o-ring and stainless steel
screws. The possible conversions are listed in the table below.
Model
RUC-L
RUC-AG
RUC-DSR
RUC-C
RUC-F
RUC-FP
Possible Sensing Mode or
Range Changes
Description
Replacement lens for RSBE, RSBR,
RSBLV, & RSBD
Replacement lens for RSBLVAG
Replacement lens for RSBDSR, ESR & RSR
Replacement lens for RSBC & CV
Replacement lens for RSBF & FV
Replacement lens for RSBFP
Change RSBLVAG to RSBLV, RSBCV to RSBLV
& RSBDSR to RSBD
Change RSBLV to RSBLVAG
Change RSBD to RSBDSR & RSBF to RSBDSR
Change RSBLV to RSBCV
Change RSBD to RSBF & RSBDSR to RSBF
Quick-Disconnect (QD) Cables and Connectors
Connector MBC-4 adapts any MAXI-BEAM sensor assembly to accept 4-wire mini-style quick-disconnect cables.
Style
Model
Length
Connector
Connector to install in
RWB4 wiring base
Wire Length:
300 mm (12")
MBC-4
4-Pin Mini
Straight
Mating Cables
Cable Length:
2 m (6.5')
4 m (12')
9 m (30')
MBCC-406
MBCC-412
MBCC-430
Cable Gland Assembly
Model
RF1-2NPS
Description
• Cable gland assembly for MAXI-BEAMs
• Includes cord grips for 2.5 to 10 mm (0.1 - 0.4 in) diameter cable
• Bracket lockwasher is also included
Cable Protector
Model
Description
• Flexible black nylon cable protector
HF1-2NPS
• Includes a neoprene gland that compresses around the MAXI-BEAM cable to provide an
additional seal against moisture
• Resistant to gasoline, alcohol, oil, grease, solvents and weak acids
• Working temperature range of -30° to +100°C (-22° to +212°F)
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
471
MAXI-BEAM® Accessories
Mounting Brackets
Model
Description
SMB30UR
Dimensions
NOTE: See p. 746 for
additional dimensions
172.0 mm
(6.77")
• 2-piece universal swivel
bracket for limit-switch style
sensors
• 300 series stainless steel
• Includes stainless steel swivel
locking hardware
2X
1/4 x 28 x 1/2"
Screw
2X 1/4"
Lock Washer
2X 1/4"
Flat Washer
76.2 mm
(3.00")
SMB700
SMB700F
SMB700SS
SMB700:
• Right angle, 11-gauge, zinc
plated steel, 2-axis mounting
bracket supplied with cable
gland assembly and
lockwasher
SMB700F;
• Flat, single-axis version of
SMB700, sold without
hardware
SMB700SS:
• 11-gauge , stainless steel
version of SMB700 sold
without hardware
48 mm
(1.9")
40.1 mm
(1.58")
127 mm
(5.0")
(w/ Logic Option)
113.0 mm
(4.43")
(w/Logic)
ø 4.8 mm to 9.7 mm
(0.19" to 0.38")
Cable Gland (Supplied)
(Not Supplied with
SMB700SS Bracket)
114 mm
(4.5")
(Basic Model)
100.0 mm
(3.93")
(w/o Logic)
7/8" I.T.L.W.
(Supplied)
57.2 mm
(2.25")
31.8 mm
(1.25") 14.7 mm
(0.58")
7.1 mm
0.28" x 90°
(2 Slots)
57.2 mm
(2.25")
25.4 mm
(1.0")
50.8 mm
(2.00")
69.9 mm
(2.75")
SMB700M
113.0 mm
(4.43")
(w/Logic)
• Heavy-duty 6 mm (0.25") zinc
plated steel bracket
• Allows MULTI-BEAM to retrofit
to installations of MICROSWITCH models MLS8 or
MLS9 sensors
• Includes cable gland and
lockwasher
Conduit
Fitting
Included
7.1 mm
(0.28")
239 mm
(9.4")
(w/o Logic Option)
50.8 mm
(2.00")
124 mm
(4.9")
29.7 mm
(1.17")
81 mm
(3.2")
76 mm
(3.0")
25.4 mm
(1.00")
19.1 mm (0.75")
1/4" Plated Steel
472
252 mm
(9.9")
(w/Logic Option)
100.0 mm
(3.93")
(w/o Logic)
Lockwasher
25.4 mm
(1.00")
ø 21.3 mm
(0.84")
25.4 mm
(1.00")
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
MAXI-BEAM® Accessories
Mounting Brackets
Model
Description
Dimensions
SMB700P
113.0 mm
(4.43")
(w/Logic)
• Heavy-duty 6 mm (0.25") zinc
plated steel bracket
• Allows MULTI-BEAM to retrofit
to installations of
PHOTOSWITCH series 42RLU
or 42RLP sensors
• Includes cable gland and
lockwasher
252 mm
(9.9")
(w/Logic Option)
100.0 mm
(3.93")
(w/o Logic)
Lockwasher
Conduit
Fitting
Included
69 mm
(2.7")
97 mm
(3.8")
239 mm
(9.4")
(w/o Logic Option)
Adjustment Slots
7.1 mm (0.28")
25.4 mm (1.00")
50.8 mm (2.00")
19.1 mm
(0.75")
97 mm
(3.8")
38.1 mm (1.50")
Optional Mounting Hole
91 mm
(3.6")
46.0 mm
(1.81")
1/4" Plated Steel
76 mm
(3.0")
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
473
MAXI-BEAM® Accessories
NOTES:
474
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
MULTI-BEAM® Sensors
MULTI-BEAM® Sensors
MULTI-BEAM 3- and 4-Wire Sensors . . . . . . . . . . . 476
MULTI-BEAM 2-Wire Sensors . . . . . . . . . . . . . . . . 500
MULTI-BEAM Ambient Light Receivers . . . . . . . . . . 508
MULTI-BEAM Optical Data Transmitter System . . . . 510
MULTI-BEAM Optical Edgeguide System. . . . . . . . . 512
MULTI-BEAM Accessories . . . . . . . . . . . . . . . . . . 515
R
LISTED
(Most models,
exceptions are noted)
!
MULTI-BEAM sensors are not suitable for use in
personnel safety applications! See WARNING on
inside front cover of catalog.
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
475
MULTI-BEAM® Sensors
SELECTION OF COMPONENTS FOR MULTI-BEAM SENSORS
MULTI-BEAM sensors are modular self-contained photoelectric sensors which allow you to create a
custom sensor exactly suited for the application.
STEP 1
Upper Cover (lens)
Determine which family of MULTI-BEAM
(supplied with Sensor Block)
sensors is appropriate for the application:
3- and 4-wire, or 2-wire
Sensor Block
STEP 2
Logic Module
Choose a sensor block for the required
sensing mode
STEP 3
Choose a power block for the required
sensor power (ac or dc) and interface
Power Block
STEP 4
Choose a logic module*
STEP 5
Simply plug components together without
Lower Cover
LIGHT/DARK
Wiring Terminals
interwiring to create a complete self(supplied with
Operate Switch
contained photoelectric sensor that is
Sensor Block) Logic
(Jumper wire)
tailored to your exact sensing needs
Timing
Adjustment
MULTI-BEAM modular components are sold separately. The three modular components, plus the lenses,
are field-replaceable.
*NOTE: Opposed mode emitters do not require a logic module
476
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
MULTI-BEAM® 3- & 4-Wire Sensor Blocks
MULTI-BEAM 3- & 4-Wire Sensor Blocks
•
•
•
•
•
•
Offering the broadest selection of sensing response and
interfacing options available in any photoelectric product line
All models (except ambient light receivers) feature Banner’s
exclusive† AID™ (Alignment Indicating Device) circuit which
pulses the alignment LED at a rate proportional to the received
light signal strength
Select a sensor block, power block and logic module to create
a customized sensor exactly suited to the application (NOTE:
Opposed mode emitters do not require a logic module)
Select standard 1 millisecond output response sensor blocks,
or high power models with 10 millisecond response
Choose a power block to match virtually any requirement for
sensor power and sensor output interface
Logic modules are available for straight-through on/off output
response or for a wide variety of output timing control
functions
†
MULTI-BEAM Glass Fiber Optic emitter and receiver
U.S. Patent #4356393
MULTI-BEAM 3- & 4-Wire Sensor Block Sensing Mode Options
Opposed
Retroreflective
Diffuse
Convergent
Glass Fiber Optic
Visible Red, 650 nm
MULTI-BEAM 3- & 4-Wire Opposed Mode Emitter (E) and Receiver (R)
Models
Range
Response
Repeatability
of Response
Excess Gain
Beam Pattern
Effective Beam: 25 mm
1000
SBEV
SBRX1
30 m
(100')
10 ms on/off
0.1 ms
E
X
C
E
S
S
SBEV and SBRX1
Opposed Mode
100
SBEV/SBRX1
375 mm
15.0 in
Opposed Mode
250 mm
10.0 in
125 mm
5.0 in
0
G
A
I
N
0
10
1
0.1 m
0.33 ft
1.0 m
3.3 ft
10 m
33 ft
DISTANCE
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
100 m
330 ft
125 mm
5.0 in
250 mm
10.0 in
375 mm
15.0 in
0
7.5 m
25 ft
15 m
50 ft
22.5 m
75 ft
30 m
100 ft
37.5 m
125 ft
DISTANCE
477
MULTI-BEAM® 3- & 4-Wire Sensor Blocks
See Sensing Beam Information Below
MULTI-BEAM 3- & 4-Wire Opposed Mode Emitter (E) and Receiver (R)
Models
Range
Response
Repeatability
of Response
Excess Gain
High Speed - Infrared 940 nm
45 m
(150')
Effective Beam: 25 mm
1000
E
X
C
E
S
S
SBE
SBR1
Beam Pattern
SBE and SBR1
Opposed Mode
100
SBE/SBR1
1500 mm
40.0 in
500 mm
20.0 in
0
1 ms on/off
0.03 ms
G
A
I
N
10
0
500 mm
20.0 in
1000 mm
40.0 in
1500 mm
1
0.1 m
0.33 ft
1.0 m
3.3 ft
10 m
33 ft
60.0 in
0
100 m
330 ft
9m
30 ft
18 m
60 ft
SBED & SBRD1
Opposed Mode
100
SBED/SBRD1
300 mm
8.0 in
100 mm
4.0 in
0
1 ms on/off
0.03 ms
G
A
I
N
0
.10 m
.33 ft
1.0 m
3.3 ft
100 mm
4.0 in
200 mm
8.0 in
300 mm
12.0 in
10 m
33 ft
0
.6 m
2 ft
1.2 m
4 ft
DISTANCE
High Power, Wide Beam Angle - Infrared 880 nm
3.0 m
10 ft
Effective Beam: 3.5 mm
Opposed Mode
100
SBEXD/SBRXD1
750 mm
30.0 in
Opposed Mode
500 mm
20.0 in
250 mm
10.0 in
0
0
10 ms on/off
0.7 ms
G
A
I
N
10
250 mm
10.0 in
500 mm
20.0 in
30.0 in
750 mm
1.0 m
3.3 ft
10 m
33 ft
100 m
330 ft
0
1.8 m
6 ft
3.6 m
12 ft
DISTANCE
7.2 m
24 ft
9.0 m
30 ft
DISTANCE
1000
E
X
C
E
S
S
10 ms on/off
5.4 m
18 ft
Effective Beam: 25 mm
High Power, Long Range - Infrared 940 nm
0.7 ms
G
A
I
N
SBEX and SBRX1
Opposed Mode
SBEX/SBRX1
1500 mm
100
60.0 in
Opposed Mode
1000 mm
40.0 in
500 mm
20.0 in
0
0
10
500 mm
20.0 in
1000 mm
40.0 in
60.0 in
1500 mm
1
1.0 m
3.3 ft
10 m
33 ft
100 m
330 ft
DISTANCE
478
2.4 m
8 ft
SBEXD and SBRXD1
1
0.1 m
0.33 ft
200 m
(700')
1.8 m
6 ft
DISTANCE
1000
E
X
C
E
S
S
SBEX
SBRX1
12.0 in
Opposed Mode
200 mm
10
1
.01 m
.033 ft
9m
(30')
45 m
150 ft
1000
E
X
C
E
S
S
SBEXD
SBRXD1
36 m
120 ft
Effective Beam: 3.5 mm
High Speed, Narrow Beam - Infrared 880 nm
3m
(10')
27 m
90 ft
DISTANCE
DISTANCE
SBED
SBRD1
60.0 in
Opposed Mode
1000 mm
1000 m
3300 ft
0
45 m
150 ft
90 m
300 ft
135 m
450 ft
180 m
600 ft
225 m
750 ft
DISTANCE
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
MULTI-BEAM® 3- & 4-Wire Sensor Blocks
See Sensing Beam Information Below
NOTE: Retroreflective range is specified using one model BRT-3 retroreflector
(3" diameter). Actual sensing range may be more or less than specified, depending
upon the efficiency and reflective area of the retroreflector(s) in use.
See page 722 for more information.
MULTI-BEAM 3- & 4-Wire Non-Polarized Retroreflective Mode
Models
Range
Response
Repeatability
of Response
Excess Gain
High Speed - Visible Red 650 nm
1000
E
X
C
E
S
S
SBLV1
0.15 - 9 m
(6" - 30')
Beam Pattern
SBLV1
Retroreflective Mode
SBLV1
150 mm
100
With BRT-3 Reflector
4.0 in
50 mm
2.0 in
0
1 ms on/off
0.3 ms
G
A
I
N
0
10
50 mm
2.0 in
100 mm
.10 m
.33 ft
1.0 m
3.3 ft
10 m
33 ft
6.0 in
0
2m
6.6 ft
DISTANCE
High Speed - Infrared 940 nm
1 ms on/off
8m
26 ft
10 m
33 ft
DISTANCE
0.3 ms
G
A
I
N
Retroreflective Mode
100
with BRT-3 Reflector
SBL1
150 mm
High Power, Long Range - Infrared 880 nm
6.0 in
Retroreflective Mode
100 mm
4.0 in
50 mm
2.0 in
0
10
0
50 mm
2.0 in
With BRT-3 Reflector
100 mm
4.0 in
150 mm
0.1 m
0.33 ft
1.0 m
3.3 ft
6.0 in
0
10 m
33 ft
1.8 m
6 ft
3.6 m
12 ft
5.4 m
18 ft
7.2 m
24 ft
9.0 m
32 ft
DISTANCE
DISTANCE
1000
E
X
C
E
S
S
3 - 22 m
(10 - 75')
w/one BRT-3
target
SBLX1
Retroreflective
Mode
with Three
BRT-3
Reflectors
100
SBLX1
750 mm
30.0 in
Retroreflective Mode
500 mm
20.0 in
250 mm
10.0 in
0
10 ms on/off
3 - 30 m
(10 - 100')
w/3 BRT-3
targets
6m
20 ft
SBL1
1
0.01 m
0.033 ft
SBLX1
4m
13 ft
1000
E
X
C
E
S
S
25 mm - 9 m
(1" - 30')
4.0 in
With BRT-3 Reflector
150 mm
1
.01 m
.033 ft
SBL1
6.0 in
Retroreflective Mode
100 mm
1.5 ms
G
A
I
N
10
with One BRT-3
Reflector
1
0.1 m
0.33 ft
0
250 mm
1.0 m
3.3 ft
10.0 in
500 mm
20.0 in
With BRT-3 Reflector
750 mm
10 m
33 ft
DISTANCE
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
100 m
330 ft
30.0 in
0
7.5 m
25 ft
15 m
50 ft
22.5 m
75 ft
30 m
100 ft
37.5 m
125 ft
DISTANCE
479
MULTI-BEAM® 3- & 4-Wire Sensor Blocks
NOTE: Use polarized sensor block when shiny objects will be sensed. Retroreflective range is
specified using one model BRT-3 retroreflector (3" diameter). Actual sensing range may be more
or less than specified, depending upon the efficiency and reflective area of the retroreflector(s) in
use. See page 722 for more information.
P
Visible Red, 650 nm
MULTI-BEAM 3- & 4-Wire Polarized Retroreflective Mode
Models
Range
Response
Repeatability
of Response
Excess Gain
Beam Pattern
1000
SBLVAG1
0.3 - 4.5 m
(12" - 15')
E
X
C
E
S
S
1 ms on/off
0.3 ms
SBLVAG1
Retroreflective Mode
W/BRT-3 Reflector
3.0 in
Retroreflective Mode
50 mm
2.0 in
25 mm
1.0 in
0
G
A
I
N
0
10
25 mm
With BRT-3 Reflector
50 mm
.10 m
.33 ft
1.0 m
3.3 ft
DISTANCE
10 m
33 ft
1.0 in
2.0 in
75 mm
1
.01 m
.033 ft
480
SBLVAG1
75 mm
100
3.0 in
0
1m
3.3 ft
2m
6.6 ft
3m
10 ft
4m
13 ft
5m
16 ft
DISTANCE
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
MULTI-BEAM® 3- & 4-Wire Sensor Blocks
See Sensing Beam Information Below
MULTI-BEAM 3- & 4-Wire Diffuse Mode
Models
Range
Response
Repeatability
of Response
Excess Gain
Beam Pattern
Performance based on 90% reflectance white test card
High Speed - Infrared 940 nm
1000
E
X
C
E
S
S
SBD1
SBD1
Diffuse Mode
7.5 mm
0.3 in
Diffuse Mode
100
5.0 mm
0.2 in
2.5 mm
0.1 in
0
SBD1
300 mm
(12")
1 ms on/off
0.3 ms
G
A
I
N
10
0
2.5 mm
0.1 in
5.0 mm
0.2 in
7.5 mm
1
1 mm
.04 in
10 mm
.4 in
100 mm
4 in
0.3 in
0
1000 mm
40 in
75 mm 150 mm 225 mm 300 mm 375 mm
3 in
6 in
9 in
12 in
15 in
DISTANCE
DISTANCE
Medium Range - Infrared 940 nm
1000
E
X
C
E
S
S
SBDL1
Diffuse Mode
SBDL1
19.5 mm
100
0.75 in
Diffuse Mode
13.0 mm
0.50 in
6.5 mm
0.25 in
0
0
SBDL1
600 mm
(24")
1 ms on/off
0.3 ms
G
A
I
N
10
6.5 mm
0.25 in
13.0 mm
0.50 in
0.75 in
19.5 mm
1
1 mm
.04 in
10 mm
.4 in
100 mm
4 in
0
1000 mm
40 in
125 mm 250 mm 375 mm 500 mm 625 mm
5 in
10 in
15 in
20 in
25 in
DISTANCE
High Power, Long Range - Infrared 880 nm
1000
E
X
C
E
S
S
SBDX1
1.8 m
(6')
DISTANCE
SBDX1
SBDX1
Diffuse Mode
75 mm
100
2.0 in
25 mm
1.0 in
0
10 ms on/off
1.5 ms
G
A
I
N
10
0
25 mm
1.0 in
50 mm
2.0 in
75 mm
1
0.01 m
0.033 ft
0.1 m
0.33 ft
1.0 m
3.3 ft
10 m
33 ft
3.0 in
0
0.4 m
1.25 ft
0.8 m
2.5 ft
DISTANCE
Wide Beam Angle - Infrared 880 nm
SBDX1MD*
1.2 m
3.75 ft
2.0 m
6.25 ft
DISTANCE
SBDX1MD
SBDX1MD
Diffuse Mode
37.5 mm
100
1.5 in
Diffuse Mode
25.0 mm
1.0 in
12.5 mm
0.5 in
0
0
10 ms on/off
1.6 m
5.0 ft
1000
E
X
C
E
S
S
600 mm
(24")
3.0 in
Diffuse Mode
50 mm
1.5ms
G
A
I
N
10
12.5 mm
0.5 in
25.0 mm
1.0 in
1.5 in
37.5 mm
1
1.0 mm
0.04 in
10 mm
0.4 in
100 mm
4.0 in
DISTANCE
1000 mm
40 in
0
125 mm 250 mm 375 mm 500 mm 625 mm
5 in
10 in
15 in
20 in
25 in
DISTANCE
* Good choice for sensing clear materials
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
481
MULTI-BEAM® 3- & 4-Wire Sensor Blocks
See Sensing Beam Information Below
MULTI-BEAM 3- & 4-Wire High Speed Convergent Mode
Models
Focus
Response
Repeatability
of Response
Excess Gain
Beam Pattern
Performance based on 90% reflectance white test card
Visible Red 650 nm
1000
SBCV1
E
X
C
E
S
S
38 mm
(1.5")
Convergent Mode
100
SBCV1
2.4 mm
Convergent Mode
0.06 in
0.8 mm
0.03 in
0
SBCV1
Spot Size
at Focus:
1.5 mm
(0.06")
1 ms on/off
0.3 ms
G
A
I
N
10
0
0.8 mm
0.03 in
1.6 mm
0.06 in
2.4 mm
1
1 mm
.04 in
10 mm
.4 in
100 mm
4 in
0.09 in
0
1000 mm
40 in
12.5 mm 25 mm 37.5 mm 50 mm 62.5 mm
0.50 in 1.0 in
1.5 in
2.0 in
2.5 in
DISTANCE
DISTANCE
Visible Green 560 nm*
0.09 in
1.6 mm
1000
SBCVG1
E
X
C
E
S
S
38 mm
(1.5")
Convergent Mode
100
SBCVG1
3 mm
0.12 in
Convergent Mode
2 mm
0.08 in
1 mm
0.04 in
0
SBCVG1
Spot Size
at Focus:
3.0 mm
(0.12")
1 ms on/off
0.3 ms
G
A
I
N
10
0
1 mm
0.04 in
2 mm
0.08 in
3 mm
1
1 mm
.04 in
10 mm
.4 in
100 mm
4 in
DISTANCE
1000 mm
40 in
0.12 in
0
12.5 mm 25 mm 37.5 mm 50 mm 62.5 mm
0.50 in 1.0 in
1.5 in
2.0 in
2.5 in
DISTANCE
* Recommended for color mark sensing
482
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
MULTI-BEAM® 3- & 4-Wire Sensor Blocks
Infrared, 940 nm
MULTI-BEAM 3- & 4-Wire High Speed Convergent Mode
Models
Focus
Response
Repeatability
of Response
Excess Gain
Beam Pattern
Performance based on 90% reflectance white test card
1000
SBC1
SBC1
38 mm
(1.5")
E
X
C
E
S
S
1 ms on/off
0.3 ms
Convergent Mode
100
SBC1
3 mm
0.12 in
Convergent Mode
2 mm
0.08 in
1 mm
0.04 in
0
0
G
A
I
N
10
1 mm
0.04 in
2 mm
0.08 in
0.12 in
3 mm
1
1 mm
.04 in
10 mm
.4 in
100 mm
4 in
0
1000 mm
40 in
12.5 mm 25 mm 37.5 mm 50 mm 62.5 mm
1.50 in 3.0 in
4.5 in
6.0 in
7.5 in
DISTANCE
DISTANCE
1000
2SBC1-4
SBC1-4
100 mm
(4")
1 ms on/off
0.3 ms
E
X
C
E
S
S
Convergent Mode
100
SBC1-4
3 mm
0.12 in
Convergent Mode
2 mm
0.08 in
1 mm
0.04 in
0
G
A
I
N
0
10
1 mm
0.04 in
2 mm
0.08 in
3 mm
1
1 mm
.04 in
10 mm
.4 in
100 mm
4 in
1000 mm
40 in
0.12 in
0
12.5 mm 25 mm 37.5 mm 50 mm 62.5 mm
1.50 in 3.0 in
4.5 in
6.0 in
7.5 in
DISTANCE
DISTANCE
1000
SBC1-6
SBC1-6
150 mm
(6")
1 ms on/off
0.3 ms
E
X
C
E
S
S
Convergent Mode
100
SBC1-6
3 mm
0.12 in
Convergent Mode
2 mm
0.08 in
1 mm
0.04 in
0
G
A
I
N
10
0
1 mm
0.04 in
2 mm
0.08 in
3 mm
1
1 mm
.04 in
10 mm
.4 in
100 mm
4 in
DISTANCE
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
1000 mm
40 in
0.12 in
0
50 mm 100 mm 150 mm 200 mm 250 mm
2.0 in
4.0 in
6.0 in
8.0 in 10.0 in
DISTANCE
483
MULTI-BEAM® 3- & 4-Wire Sensor Blocks
High power convergent models are able to sense objects with low reflectitivity.
Infrared, 880 nm
MULTI-BEAM 3- & 4-Wire High Power Convergent Mode
Models
Focus
Response
Repeatability
of Response
Excess Gain
Beam Pattern
Performance based on 90% reflectance white test card
1000
SBCX1
SBCX1
38 mm
(1.5")
10 ms on/off
1.5 ms
E
X
C
E
S
S
Convergent Mode
SBCX1
60 mm
100
Convergent Mode
1.6 in
20 mm
0.8 in
0
G
A
I
N
10
0
20 mm
0.8 in
40 mm
1.6 in
60 mm
1
1 mm
.04 in
10 mm
.4 in
100 mm
4 in
2.4 in
40 mm
2.4 in
0
1000 mm
40 in
200 mm 400 mm 600 mm 800 mm 1000 mm
8 in
16 in
24 in
32 in
40 in
DISTANCE
DISTANCE
1000
SBCX1-4
SBCX1-4
100 mm
(4")
10 ms on/off
1.5 ms
E
X
C
E
S
S
Convergent Mode
SBCX1-4
60 mm
100
Convergent Mode
1.6 in
20 mm
0.8 in
0
G
A
I
N
10
0
20 mm
0.8 in
40 mm
1.6 in
60 mm
1
1 mm
.04 in
10 mm
.4 in
100 mm
4 in
2.4 in
40 mm
2.4 in
0
1000 mm
40 in
200 mm 400 mm 600 mm 800 mm 1000 mm
8 in
16 in
24 in
32 in
40 in
DISTANCE
DISTANCE
1000
SBCX1-6
SBCX1-6
150 mm
(6")
10 ms on/off
1.5 ms
E
X
C
E
S
S
Convergent Mode
Convergent Mode
1.6 in
20 mm
0.8 in
0
G
A
I
N
2.4 in
40 mm
0
10
20 mm
0.8 in
40 mm
1.6 in
60 mm
1
1 mm
.04 in
10 mm
.4 in
100 mm
4 in
DISTANCE
484
SBCX1-6
60 mm
100
1000 mm
40 in
2.4 in
0
200 mm 400 mm 600 mm 800 mm 1000 mm
8 in
16 in
24 in
32 in
40 in
DISTANCE
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
MULTI-BEAM® 3- & 4-Wire Sensor Blocks
Infrared, 880 nm
MULTI-BEAM 3- & 4-Wire Glass Fiber Optic Emitter (E) and Receiver (R)
Models
Range
Response
Repeatability
of Response
Excess Gain
High Speed
1000
E
X
C
E
S
S
SBEF
SBRF1
Range varies
with fiber
optics used
1 ms on/off
Beam Pattern
0.03 ms
G
A
I
N
SBEF & SBRF1
Opposed Mode
IT23S fibers
100
SBEF/SBRF1
300 mm
L16F
Lenses
10
8.0 in
100 mm
100 mm
Range varies
with fiber
optics used
200 mm
300 mm
1.0 m
3.3 ft
10 m
33 ft
8.0 in
12.0 in
0
100 m
330 ft
4.0 in
2.4 m
8 ft
4.8 m
16 ft
7.2 m
24 ft
9.6 m
32 ft
12.0 m
40 ft
DISTANCE
1000
E
X
C
E
S
S
10 ms on/off
0
w/IT23S Fibers
and L16F Lenses
DISTANCE
SBEXF
SBRXF1
4.0 in
w/IT23S Fibers
and L9 Lenses
0
L9
Lenses
No
Lenses
1
0.1 m
0.33 ft
High Power
12.0 in
Opposed Mode
200 mm
0.7 ms
G
A
I
N
SBEXF & SBRXF1
Opposed Mode
IT23S fibers
100
SBEXF/SBRXF1
600 mm
24.0 in
Opposed Mode
400 mm
L16F
Lenses
8.0 in
0
L9
Lenses
10
16.0 in
200 mm
0
w/IT23S Fibers
and L16F Lenses
200 mm
No
Lenses
8.0 in
400 mm
16.0 in
600 mm
1
0.1 m
0.33 ft
1.0 m
3.3 ft
10 m
33 ft
DISTANCE
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
100 m
330 ft
24.0 in
0
6m
20 ft
12 m
40 ft
18 m
60 ft
24 m
80 ft
30 m
100 ft
DISTANCE
485
MULTI-BEAM® 3- & 4-Wire Sensor Blocks
Infrared, 880 nm
MULTI-BEAM 3- & 4-Wire High Power Glass Fiber Optic
Models
Range
Response
Repeatability
of Response
Excess Gain
Beam Pattern
Diffuse mode performance based on 90% reflectance white test card
1000
E
X
C
E
S
S
G
A
I
N
SBFX1
Range varies
by sensing
mode and
fiber optics
used
SBFX1
Opposed Mode
Opposed Mode
100 mm
IT23S Fibers
50 mm
IT23S fibers
0
10
IT13S fibers
1.0 m
3.3 ft
0
2.0 in
100 mm
4.0 in
6.0 in
10 m
33 ft
0.4 m
15 in
0.8 m
30 in
1.2 m
45 in
1.6 m
60 in
2.0 m
75 in
DISTANCE
DISTANCE
10 ms on/off
4.0 in
50 mm
0
0.1 m
0.33 ft
6.0 in
2.0 in
IT13S Fibers
150 mm
1
0.01 m
0.03 ft
1.5 ms
1000
E
X
C
E
S
S
SBFX1
Diffuse Mode
SBFX1
37.5 mm
100
Diffuse Mode
25.0 mm
0
10
0.5 in
BT13S
25.0 mm
1.0 in
37.5 mm
1
1 mm
.04 in
10 mm
.4 in
100 mm
4 in
DISTANCE
1000 mm
40 in
0.5 in
0
12.5 mm
BT13S Fibers
1.5 in
1.0 in
BT23S
12.5 mm
BT23S Fibers
G
A
I
N
486
SBFX1
150 mm
100
1.5 in
0
25 mm
1 in
50 mm
2 in
75 mm 100 mm 125 mm
3 in
4 in
5 in
DISTANCE
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
MULTI-BEAM® 3- & 4-Wire Sensor Blocks
Infrared, 940 nm
MULTI-BEAM 3- & 4-Wire High Glass Fiber Optic
Models
Range
Response
Repeatability
of Response
Excess Gain
Beam Pattern
Diffuse mode performance based on 90% reflectance white test card
High Speed
1000
SBF1
E
X
C
E
S
S
Opposed Mode
SBF1
75 mm
100
IT23S Fibers
2 in
25 mm
1 in
0
G
A
I
N
10
IT13S Fibers
SBF1
IT13S
IT23S
10 mm
.4 in
100 mm
4 in
1 in
50 mm
2 in
3 in
0
1000 mm
40 in
100 mm 200 mm 300 mm 400 mm 500 mm
4 in
8 in
12 in
16 in
20 in
DISTANCE
DISTANCE
1 ms on/off
0.3 ms
0
25 mm
75 mm
1
1 mm
.04 in
Range varies
by sensing
mode and
fiber optics
used
3 in
Opposed Mode
50 mm
1000
SBF1
E
X
C
E
S
S
G
A
I
N
Diffuse Mode
1.9 mm
100
0.075 in
SBF1
1.3 mm
0.050 in
Diffuse Mode
0.65 mm
BT13S Fiber
1
1 mm
.04 in
0.025 in
0
BT23S Fiber
10
BT13S
BT23S
0.025 in
1.3 mm
0.050 in
1.9 mm
10 mm
.4 in
100 mm
4 in
0
0.65 mm
0.075 in
0
1000 mm
40 in
7.5 mm
0.3 in
15 mm 22.5 mm 30 mm 37.5 mm
0.6 in
0.9 in
1.2 in
1.5 in
DISTANCE
DISTANCE
Very High Speed
1000
E
X
C
E
S
S
G
A
I
N
SBF1MHS
Range varies
by sensing
mode and
fiber optics
used
SBF1MHS
Opposed Mode
100
SBF1MHS
75 mm
2 in
25 mm
IT23S Fiber
10
IT13S Fiber
1 in
0
IT13S
IT23S
10 mm
.40 in
100 mm
4.0 in
0
25 mm
1 in
50 mm
2 in
75 mm
1
1 mm
.04 in
3 in
0
1000 mm
40 in
50 mm 100 mm 150 mm 200 mm 250 mm
2 in
4 in
6 in
8 in
10 in
DISTANCE
DISTANCE
0.3 ms on/off
3 in
Opposed Mode
50 mm
0.1 ms
1000
SBF1MHS
E
X
C
E
S
S
SBF1MHS
Diffuse Mode
1.95 mm
1.30 mm
0.050 in
0.65 mm
0.025 in
0
G
A
I
N
0.075 in
Diffuse Mode
100
10
BT23S Fiber
1 mm
.04 in
BT23S
10 mm
.40 in
DISTANCE
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
100 mm
4 in
0
0.65 mm
0.025 in
1.30mm
0.050 in
1.95 mm
BT13S Fiber
1
.1 mm
.004 in
BT13S
0.075 in
0
5 mm
0.2 in
10 mm
0.4 in
15 mm
0.6 in
20 mm
0.8 in
25 mm
1.0 in
DISTANCE
487
MULTI-BEAM® 3- & 4-Wire Sensor Blocks
Visible Red, 650 nm
MULTI-BEAM 3- & 4-Wire Glass Fiber Optic
Models
Range
Response
Repeatability
of Response
Excess Gain
Beam Pattern
Diffuse mode performance based on 90% reflectance white test card
1000
E
X
C
E
S
S
SBFV1
SBFV1
Opposed Mode
37.5 mm
W/IT23S Fibers
25.0 mm
IT23S Fibers
SBFV1
Range varies
by sensing
mode and
fiber optics
used
10
IT13S Fibers
1
1 mm
.04 in
10 mm
.4 in
100 mm
4 in
0
W/IT13S Fibers
12.5 mm
0.5 in
25.0 mm
1.0 in
37.5 mm
1.5 in
0
1000 mm
40 in
75 mm 150 mm 225 mm 300 mm 375 mm
3 in
6 in
9 in
12 in
15 in
DISTANCE
DISTANCE
1 ms on/off
1.0 in
0.5 in
12.5 mm
0
G
A
I
N
1.5 in
Opposed Mode
100
0.3 ms
1000
E
X
C
E
S
S
SBFV1
SBFV1
Diffuse Mode
1.8 mm
100
0.050 in
BT23S Fiber
0.6 mm
BT23S Fiber
G
A
I
N
0.075 in
Diffuse Mode
1.2 mm
1.0 mm
0.04 in
0
BT13S Fiber
0.6 mm
0.025 in
1.2 mm
0.050 in
1.8 mm
BT13S Fiber
1
0.1 mm
0.004 in
0.025 in
0
10
10 mm
0.4 in
0.075 in
0
100 mm
4 in
5 mm
0.2 in
10 mm
0.4 in
DISTANCE
15 mm
0.6 in
20 mm
0.8 in
25 mm
1.0 in
DISTANCE
Visible Green, 560 nm for color mark sensing
MULTI-BEAM 3- & 4-Wire Glass Fiber Optic
Models
Range
Response
Repeatability
of Response
Excess Gain
Beam Pattern
Diffuse mode performance based on 90% reflectance white test card
1000
SBFVG1
Range varies
with fiber
optics used
1 ms on/off
0.3 ms
E
X
C
E
S
S
SBFVG1
Diffuse Mode
0.075 in
1.2 mm
0.050 in
0.6 mm
0.025 in
0
0
G
A
I
N
10
0.025 in
0.6 mm
BT23S Fiber
1.2 mm
BT23S Fiber
1.0 mm
0.04 in
10 mm
0.4 in
DISTANCE
100 mm
4 in
0.050 in
0.075 in
1.8 mm
1
0.1 mm
0.004 in
488
SBFVG1
1.8 mm
100
0
2.5 mm 5.0 mm 7.5 mm 10.0 mm 12.5 mm
0.1 in
0.2 in
0.3 in
0.4 in
0.5 in
DISTANCE
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
MULTI-BEAM® 3- & 4-Wire Sensor Blocks
MULTI-BEAM 3- & 4-Wire Sensor Block Specifications
Supply Voltage and Current
Supplied by 3- or 4-wire power block
Output Response Time
1 millisecond ON and OFF, except high gain models with “X” suffix which are 10 milliseconds ON and OFF.
Response time and repeatability specifications are independent of signal strength.
Repeatability
See individual sensor mode charts
Adjustments
Located on top of sensor block beneath o-ring gasketed screw cover. 15-turn clutched control (rotate
clockwise to increase gain)
Indicators
Red LED on top of sensor block. Banner’s exclusive, patented Alignment Indicating Device (AID™) circuit lights
the LED whenever the sensor detects its own modulated light source, and pulses the LED at a rate proportional
to the received light level (except opposed mode emitters)
Construction
Reinforced thermoplastic polyester, totally encapsulated housing and stainless steel hardware
Environmental Rating
Meets NEMA standards 1, 3, 12, and 13; IEC IP54
Operating Conditions
Temperature:
-40° to +70°C (-40° to +158°F)
Maximum relative humidity: 90% at 50°C (non-condensing)
Certifications
R
LISTED
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
489
MULTI-BEAM® 3- & 4-Wire Power Blocks
MULTI-BEAM 3- & 4-Wire Power Blocks
•
•
•
•
DC (left) and AC (right) power blocks shown
DC power blocks have gray housings;
AC models are red
•
•
MULTI-BEAM 3- & 4-wire power blocks provide regulated
power to the sensor block and logic module, plus a solid-state
output switch
Choose from several operating voltages, and then determine
the most appropriate output device for the sensor interface
Power block models are available without output circuitry for
powering opposed mode emitters
Power blocks slide easily into the wiring area of any sensor
block and interconnect, without wiring, when the logic module
is installed
Wiring connections are made to heavy-duty screw terminals
which accept up to #14 gauge wire - no wiring lugs are
necessary
DC power blocks are color-coded gray; all 3- and 4-wire ac
power blocks are red
MULTI-BEAM 3- & 4-Wire DC Power Blocks
Models
Supply
Voltage
Output
Type
Output
Capacity
On-State
V Saturation
Off-State
Leakage
Hookup Diagram
+
10-30V dc
–
1
PBT
10-30V dc
<60 mA
SPST
NPN (Sinking)
30V dc max
250 mA max
<1 V dc
<10 µA
2
3
Load
4
+
44-52V dc
–
1
PBT48*
44-52V dc
<60 mA
SPST
NPN (Sinking)
52V dc max
250 mA max
<1 V dc
<1 µA
2
3
Load
4
+
10-30V dc
–
1
PBT2*
490
10-30V dc
<60 mA
SPDT
NPN (Sinking)
30V dc max
250 mA max
(each output)
<1 V dc
<10 µA
2
3
Load
4
Load
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
MULTI-BEAM® 3- & 4-Wire Power Blocks
MULTI-BEAM 3- & 4-Wire DC Power Blocks
Models
Supply
Voltage
Output
Type
Output
Capacity
On-State
V Saturation
Off-State
Leakage
Hookup Diagram
+
10-30V dc
–
1
PBP*
10-30V dc
<60 mA
SPST
PNP (Sourcing)
30V dc max
250 mA max
2
<1 V dc
<10 µA
3
Load
4
+
44-52V dc
–
1
PBP48*
44-52V dc
<60 mA
SPST
PNP (Sourcing)
52V dc max
250 mA max
<1 V dc
2
<10 µA
3
Load
4
MULTI-BEAM 3- & 4-Wire DC Power Blocks for Opposed Emitter Sensor Blocks
Models
Supply
Voltage
Hookup Diagram
+
10-30V dc
–
1
PBT-1
10-30V dc
<60 mA
2
3
4
1
PBT48-1*
44-52V dc
<60 mA
2
+
44-52V dc
–
3
4
* NOTE: These models do not carry UL or CSA approval
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
491
MULTI-BEAM® 3- & 4-Wire Power Blocks
MULTI-BEAM 3- & 4-Wire AC Power Blocks
Models
Supply
Voltage
Output
Type
Output
Capacity
On-State
V Saturation
Off-State
Leakage
Hookup Diagram
1
105-130V ac
PBA
105-130V ac
SPST
Solid-state
250V ac max
750 mA max
<2.5V ac
<100 µA
2
3
4
Load
1
105-130V ac
1
PBAQ *
105-130V ac
SPST - N.C.
Solid-state
250V ac max
750 mA max
<2.5V ac
<100 µA
2
3
4
Load
1
PBB
210-250V ac
SPST
Solid-state
250V ac max
750 mA max
210-250V ac
<2.5V ac
<100 µA
2
3
4
Load
1
PBD
22-28V ac
SPST
Solid-state
250V ac max
750 mA max
22-28V ac
<2.5V ac
<100 µA
2
3
4
Load
1
PBD-2*
11-13V ac
SPST
Solid-state
250V ac max
750 mA max
11-13V ac
<2.5V ac
<100 µA
2
3
4
Load
1
NOTE: Power block model PBAQ is not compatible with logic module models LM5 or LM5-14
* NOTE: These models do not carry UL or CSA approval
492
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
MULTI-BEAM® 3- & 4-Wire Power Blocks
MULTI-BEAM 3- & 4-Wire AC Power Blocks
Models
PBAT
Supply
Voltage
Output
Type
Output
Capacity
105-130V ac
SPST
Isolated
Solid-state
140V ac max
or
200V dc max
100 mA max
On-State
V Saturation
Off-State
Leakage
Hookup Diagram
1
105-130V ac
<3V
<100 µA
2
3
4
PBBT
210-250V ac
SPST
Isolated
Solid-state
250V ac max
or
350V dc max
100 mA max
Load
1
210-250V ac
<3V
<100 µA
2
3
4
PBOL2
105-130V ac
Optically SPST
isolated
Solid-state
Load
2
PBOBL
210-250V ac
250V ac max. or
350V dc max.
1
30V dc max
100mA max
105-130V ac
<0.2V dc
<10 µA
2
+
3
4
Optically SPST
isolated
Solid-state
140V ac max. or
200V dc max.
Load
30V dc max.
–
1
30V dc max
100 mA max
210-250V ac
<0.2V dc
<10 µA
2
+
3
4
Load
30V dc max.
–
1
PBAM3
105-130V ac 8V dc Sourcing
8V dc at
8 mA max
105-130V ac
N/A
<10 µA
2
3
4
2
3
–
+
Low
Voltage
Sonalert
NOTE: The output of power block models PBOL and PBOBL is compatible with TLL circuit inputs
NOTE: The output of power block model PBAM is designed to drive a low voltage piezoelectric annunciator
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
493
MULTI-BEAM® 3- & 4-Wire Power Blocks
MULTI-BEAM 3- & 4-Wire AC Power Blocks for Opposed Emitter Sensor Blocks
Models
Supply
Voltage
Hookup Diagram
1
105-130V ac
PBA-1
2
105-130V ac
3
4
1
210-250V ac
2
PBB-1
210-250V ac
3
4
1
22-28V ac
PBD-1*
2
22-28V ac
3
4
MULTI-BEAM 3- & 4-Wire AC and DC Power Block Specifications
Supply Voltage and Current
See individual model specifications
Supply Protection Circuitry
Protected against transient voltages
Output Configuration
See individual model specifications
Output Protection Circuitry
Protected against false pulse on power-up
Output Response Time
Add 8.3 milliseconds to the sensor block off-time response when switching ac loads
Construction
Reinforced thermoplastic polyester housing, totally epoxy-encapsulated circuitry
Operating Conditions
Temperature:
-40° to +70°C (-40° to +158°F)
Maximum relative humidity: 90% at 50°C (non-condensing)
Certifications
1
1
R
LISTED
1
The following power block models do not have UL or CSA approval: PBT2, PBT48,PBT48-1, PBD-1, PBP, PBP48, PBD-2 and PBAQ
494
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
MULTI-BEAM® 3- & 4-Wire Logic Modules
MULTI-BEAM 3- & 4-Wire Logic Modules
•
The logic module interconnects the power block and sensor block,
both electrically and mechanically
•
Logic modules simply slide into the sensor block, after the power
block is installed, to interconnect the three components, without
interwiring, using a blade-and-socket connector concept
•
Logic modules provide light/dark operate selection (except models
LM1 and LM2) and 14 models offer a full selection of output
timing and logic control; timing functions are adjustable
•
Totally-encapsulated electronics and gold-plated connectors
assure high reliability, even in challenging sensing environments
•
All 3- and 4-wire logic modules are color-coded red
All 3- and 4-wire logic modules are color-coded red.
MULTI-BEAM 3- & 4-Wire Logic Modules
Models
LM1
Timing
Function
On/Off
Timing Range
None - output follows input
Light operate, only
Timing Diagram
OUTPUT
SIGNAL
LM2
Alternate
Action
None Light operate, only
OUTPUT
SIGNAL
OUTPUT
LM3
On/Off
None - output follows input
SIGNAL
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
495
MULTI-BEAM® 3- & 4-Wire Logic Modules
MULTI-BEAM 3- & 4-Wire Logic Modules
Models
Timing
Function
Timing Range
Timing Diagram
Hold
Pulse
LM4-2
One-shot
Retriggerable
0.1 to 1 second
Pulse
OUTPUT
SIGNAL
Pulse
LM4-2NR
One-shot
Non-retriggerable
0.1 to 1 second
Pulse
Pulse
OUTPUT
SIGNAL
Delay
LM5
On-delay
1.5 to 15 seconds
OUTPUT
SIGNAL
Hold
LM5R
Off-delay
1.5 to 15 seconds
Hold
OUTPUT
SIGNAL
Delay
LM5-14
On-delay and
Off-delay
1.5 to 15 seconds
(for both delays)
Hold
OUTPUT
SIGNAL
496
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
MULTI-BEAM® 3- & 4-Wire Logic Modules
MULTI-BEAM 3- & 4-Wire Logic Modules
Models
Timing
Function
Timing Range
Timing Diagram
Hold
LM5T
Limit timer (energy
conservation timer)
OUTPUT
1.5 to 15 seconds
SIGNAL
LM6-1
Rate sensor
(Overspeed/Underspeed)
0.05 to 1.0 seconds
per pulse
(60 to 1200 pulses
per minute)
OUTPUT
SIGNAL
Delay Hold Delay Hold Delay Hold
LM8
Repeat cycler
1.5 to 15 seconds
(for both delay and hold)
OUTPUT
SIGNAL
Delay Pulse
LM8-1
Delayed One-shot
1.5 to 15 seconds
(for both delay and one-shot)
Delay Pulse
OUTPUT
SIGNAL
Delay Pulse
LM8A
On-delay and
One-shot
1.5 to 15 seconds
(for both delay and one-shot)
OUTPUT
SIGNAL
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
497
MULTI-BEAM® 3- & 4-Wire Logic Modules
MULTI-BEAM 3- & 4-Wire Logic Modules
Models
LM10
Timing
Function
Timing Range
Divide by ten
(Alternate action)
Timing Diagram
OUTPUT
None
SIGNAL
LMT†
Test module
None- provides sensor
diagnostics
†
May be used with all 2-, 3- and 4-wire MULTI-BEAM sensors to check operation of sensor block and power block
MULTI-BEAM 3- & 4-Wire Logic Modules Specifications
Response Time
Response time will be that for the sensor block plus the programmed delay (if the logic includes a delay function)
Timing Repeatability
±2% of maximum range under constant power supply and temperature conditions; ±5% of maximum range
under all conditions of supply voltage and temperature
Timing Range
Useful range is from maximum time down to 10% of maximum (e.g. - from 1 to 0.1 seconds, or from 15 to 1.5
seconds). When timing potentiometer is set fully counterclockwise, time will be approximately 1% of maximum.
Adjustments
One or two single turn potentiometers with slot for blade-type screwdriver adjustment
NOTE: when turning time adjustments fully clockwise or counterclockwise, avoid excessive torque to
prevent damage to potentiometer.
Jumper wire programs output for dark operate. Remove for light operate.
Construction
Molded thermoplastic polyester housing totally epoxy-encapsulated electronic components, and gold-plated
blade connectors
Operating Conditions
Temperature:
-40° to +70°C (-40° to +158°F)
Maximum relative humidity: 90% at 50°C (non-condensing)
Certifications
R
LISTED
498
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
MULTI-BEAM® 3- & 4-Wire Logic Modules
NOTES:
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
499
MULTI-BEAM® 2-Wire Sensor Blocks
MULTI-BEAM 2-Wire Sensor Blocks
•
2-wire models wire directly in series with an ac load, exactly like
a limit switch
•
2-wire sensor blocks have 10-millisecond output response and
approximately the same optical performance as equivalent
1-millisecond 3- and 4-wire sensor block models
•
The off-state leakage current of 2-wire MULTI-BEAM sensors is
less than 1 milliamp; a direct interface to any ac programmable
logic controller (PLC) input
•
Select a sensor block, power block and logic module to create a
customized sensor exactly suited to the application (NOTE:
Opposed mode emitters do not require a logic module)
MULTI-BEAM 2-Wire Retroreflective Mode shown
MULTI-BEAM 2-Wire Sensor Block Sensing Mode Options
Opposed
Retroreflective
Diffuse
Convergent
Glass Fiber Optic
Infrared, 940 nm
MULTI-BEAM 2-Wire Opposed Mode Emitter (E) and Receiver (R)
Models
Range
Response
Repeatability
of Response
Excess Gain
Beam Pattern
Effective Beam: 25 mm
1000
SBE
2SBR1
45 m
(150')
10 ms on/off
0.03 ms
E
X
C
E
S
S
SBE and 2SBR1
Opposed Mode
100
60.0 in
Opposed Mode
1000 mm
40.0 in
500 mm
20.0 in
0
G
A
I
N
0
10
500 mm
20.0 in
1000 mm
40.0 in
1500 mm
1
0.1 m
0.33 ft
1.0 m
3.3 ft
10 m
33 ft
DISTANCE
500
SBE/2SBR1
1500 mm
100 m
330 ft
60.0 in
0
9m
30 ft
18 m
60 ft
27 m
90 ft
36 m
120 ft
45 m
150 ft
DISTANCE
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
MULTI-BEAM® 2-Wire Sensor Blocks
Infrared, 940 nm
NOTE: Retroreflective range is specified using one model BRT-3 retroreflector (3" diameter).
Actual sensing range may be more or less than specified, depending upon the efficiency and
reflective area of the retroreflector(s) in use. See page 722 for more information.
MULTI-BEAM 2-Wire Retroreflective Mode
Models
Range
Response
Repeatability
of Response
Excess Gain
Beam Pattern
1000
2SBL1
25 mm - 9 m
(1" - 30')
10 ms on/off
2.5 ms
E
X
C
E
S
S
G
A
I
N
2SBL1
Retroreflective Mode
100
with BRT-3 Reflector
2SBL1
150 mm
6.0 in
Retroreflective Mode
100 mm
4.0 in
50 mm
2.0 in
0
0
10
2.0 in
50 mm
With BRT-3 Reflector
100 mm
1
0.01 m
0.033 ft
0.1 m
0.33 ft
1.0 m
3.3 ft
0
10 m
33 ft
4.0 in
6.0 in
150 mm
1.8 m
6 ft
3.6 m
12 ft
5.4 m
18 ft
7.2 m
24 ft
9.6 m
32 ft
DISTANCE
DISTANCE
Infrared, 880 nm
MULTI-BEAM 2-Wire Diffuse Mode
Models
Focus
Response
Repeatability
of Response
Excess Gain
Beam Pattern
Performance based on 90% reflectance white test card
1000
2SBD1
300 mm
(12")
E
X
C
E
S
S
10 ms on/off
2.5 ms
2SBD1
2SBD1
Diffuse Mode
7.5 mm
0.3 in
Diffuse Mode
100
5.0 mm
0.2 in
2.5 mm
0.1 in
0
G
A
I
N
10
0
2.5 mm
0.1 in
5.0 mm
0.2 in
7.5 mm
1
1 mm
.04 in
10 mm
.4 in
100 mm
4 in
0.3 in
0
1000 mm
40 in
75 mm 150 mm 225 mm 300 mm 375 mm
3 in
6 in
9 in
12 in
15 in
DISTANCE
DISTANCE
1000
2SBDX1
2SBDX1
760 mm
(30")
E
X
C
E
S
S
10 ms on/off
2.5 ms
2SBDX1
Diffuse Mode
18 mm
100
0.75 in
Diffuse Mode
12 mm
0.50 in
6 mm
0.25 in
0
G
A
I
N
10
0
6 mm
0.25 in
12 mm
0.50 in
18 mm
1
1 mm
.04 in
10 mm
.4 in
100 mm
4 in
DISTANCE
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
1000 mm
40 in
0.75 in
0
200 mm 400 mm 600 mm 800 mm 1000 mm
8 in
16 in
24 in
32 in
40 in
DISTANCE
501
MULTI-BEAM® 2-Wire Sensor Blocks
Infrared, 940 nm
MULTI-BEAM 2-Wire Convergent Mode
Models
Focus
Response
Repeatability
of Response
Excess Gain
Beam Pattern
Performance based on 90% reflectance white test card
1000
2SBC1
2SBC1
38 mm
(1.5")
E
X
C
E
S
S
10 ms on/off
2.5 ms
G
A
I
N
Convergent Mode
100
2SBC1
3 mm
0.12 in
Convergent Mode
2 mm
0.08 in
1 mm
0.04 in
0
0
10
1 mm
0.04 in
2 mm
0.08 in
0.12 in
3 mm
1
1 mm
.04 in
10 mm
.4 in
100 mm
4 in
1000 mm
40 in
0
38 mm
1.5 in
DISTANCE
76 mm 114 mm 152 mm 190 mm
3.0 in
4.5 in
6.0 in
7.5 in
DISTANCE
1000
2SBC1-4
2SBC1-4
100 mm
(4")
10 ms on/off
2.5 ms
E
X
C
E
S
S
Convergent Mode
100
0.12 in
Convergent Mode
2 mm
0.08 in
1 mm
0.04 in
0
G
A
I
N
0
10
1 mm
0.04 in
2 mm
0.08 in
3 mm
1
1 mm
.04 in
10 mm
.4 in
100 mm
4 in
DISTANCE
502
2SBC1-4
3 mm
1000 mm
40 in
0.12 in
0
38 mm
1.5 in
76 mm 114 mm 152 mm 190 mm
3.0 in
4.5 in
6.0 in
7.5 in
DISTANCE
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
MULTI-BEAM® 2-Wire Sensor Blocks
Infrared, 880 nm
MULTI-BEAM 2-Wire Glass Fiber Optic
Models
Focus
Response
Repeatability
of Response
Excess Gain
Beam Pattern
Diffuse mode performance based on 90% reflectance white test card
1000
2SBF1
E
X
C
E
S
S
Opposed Mode
100
IT23S Fibers
2SBF1
75 mm
2 in
25 mm
1 in
0
G
A
I
N
2SBF1
Range varies
by sensing
mode and
fiber optics
used
3 in
Opposed Mode
50 mm
10
IT13S Fibers
IT13S
IT23S
1 in
50 mm
2 in
75 mm
1
1 mm
.04 in
10 mm
.4 in
100 mm
4 in
3 in
0
1000 mm
40 in
100 mm 200 mm 300 mm 400 mm 500 mm
4 in
8 in
12 in
16 in
20 in
DISTANCE
DISTANCE
10 ms on/off
0
25 mm
2.5 ms
1000
2SBF1
E
X
C
E
S
S
G
A
I
N
Diffuse Mode
1.9 mm
100
0.075 in
2SBF1
1.3 mm
0.050 in
Diffuse Mode
0.65 mm
BT13S Fiber
1
1 mm
.04 in
0.025 in
0
BT23S Fiber
10
BT13S
BT23S
0.025 in
1.3 mm
0.050 in
1.9 mm
10 mm
.4 in
100 mm
4 in
1000 mm
40 in
DISTANCE
0
0.65 mm
0.075 in
0
7.5 mm
0.3 in
15 mm 22.5 mm 30 mm 37.5 mm
0.6 in
0.9 in
1.2 in
1.5 in
DISTANCE
MULTI-BEAM 2-Wire Sensor Block Specifications
Supply Voltage and Current
Supplied by 2-wire power block
Output Response Time
10 milliseconds ON and OFF
NOTE: 100 milliseconds delay on power-up. Response time and repeatability specifications are
independent of signal.
Repeatability
See individual sensor mode charts
Adjustments
Located on top of sensor block beneath o-ring gasketed screw cover; 15-turn clutched control (rotate
clockwise to increase gain)
Indicators
Red LED on top of sensor block. Banner’s exclusive, patented Alignment Indicating Device (AID™) circuit lights
the LED whenever the sensor detects its own modulated light source, and pulses the LED at a rate proportional
to the received light level (except SBE emitter)
Construction
Reinforced thermoplastic polyester, totally encapsulated housing and stainless steel hardware
Environmental Rating
Meets NEMA standards 1, 3, 12, and 13; IEC IP54
Operating Conditions
Temperature:
-40° to +70°C (-40° to +158°F)
Maximum relative humidity: 90% at 50°C (non-condensing)
Certifications
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
503
MULTI-BEAM® 2-Wire Power Blocks
MULTI-BEAM 2-WIRE POWER BLOCKS
•
•
•
•
MULTI-BEAM 2-wire ac power blocks
are color-coded black
•
•
•
MULTI-BEAM 2-wire ac power blocks provide regulated power to
the sensor block and logic module and a solid-state output
switch (except models 2PBR and 2PBR2)
2-wire sensors wire directly in series with an ac load, exactly like
a limit switch
Low, 1-milliamp off-state leakage current assures direct interface
compatibility with programmable logic controllers (PLCs) and
other electronic devices
Power blocks slide easily into the wiring area of any sensor block
and interconnect, without wiring, when the logic module is
installed
Wiring connections are made to heavy-duty screw terminals
which accept up to #14 gauge wire - no wire lugs are necessary
2-wire power block models 2PBR and 2PBR2 are designed for
use with 2-wire sensor blocks and logic modules and offer
electromechanical relay output contacts for switching loads up to
5 amps
All 2-wire ac power blocks are color-coded black
MULTI-BEAM 2-Wire AC Power Blocks
Supply
Voltage
Output
Type
Output
Capacity
On-State
V Saturation
Off-State
Leakage
2PBA
105-130V ac
SPST 2-wire
Solid-state
130V ac max
750 mA max
<10V ac
<1.0 mA
2PBB
210-250V ac
SPST 2-wire
Solid-state
250V ac max
750 mA max
<10V ac
<1.0 mA
2PBD3
22-28V ac
SPST 2-wire
Solid-state
28V ac max
750 mA max
<10V ac
<1.0 mA
Models
504
Hookup Diagram
1
105-130V ac
2
Load
1
210-250V ac
2
Load
1
22-28V ac
2
Load
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
MULTI-BEAM® 2-Wire Power Blocks
MULTI-BEAM 2-Wire AC Power Blocks
Models
Supply
Voltage
Output
Type
Output
Capacity
On-State
V Saturation
Off-State
Leakage
Hookup Diagram
1
2PBR1, 3
105-130V ac
250V ac max
SPST Isolated
or
105-130V ac
Electro30V dc max
mechanical relay
5A max
2
0V
0 mA
3
4
Load
250V ac max. or
30V dc max.
1
2PBR2
2, 3
250V ac max
SPDT Electroor
105-130V ac
mechanical relay 30V dc max
5A max
105 - 130V ac
0V
0 mA
2
3
Load
4
Load
1
NOTE: Model 2PBR is a 4-wire power block which works with 2-wire sensor blocks and logic modules and offers an SPST “hard” contact for
switching heavy ac or dc loads.
2
NOTE: Model 2PBR2, also for use with 2-wire sensor blocks and logic modules, uses a 3- or 4-wire hookup with SPDT “hard” contacts for
switching heavy ac loads
3
NOTE: Models 2PBD, 2PBR, and 2PBR2 do not carry UL or CSA approval
MULTI-BEAM 2-Wire AC Power Block Specifications
Supply Voltage and Current
See individual model specifications
Supply Protection Circuitry
Protected against transient voltages
Output Configuration
See individual model specifications
Output Protection Circuitry
Protected against false pulse on power-up
Output Response Time
Add 8.3 milliseconds to the off-time response of the sensor block
Add 20 milliseconds to the on and off response time of the sensor block for models 2PBR & 2PBR2
Environmental Rating
Meets NEMA standards 1, 3, 12, and 13; IEC IP66 when assembled with sensor head
Operating Conditions
Temperature:
-40° to +70°C (-40° to +158°F)
Maximum relative humidity: 90% at 50°C (non-condensing)
Additional Specifications
For 2PBR and 2PBR2 Models:
Contact rating: 250V ac max, 30V dc max, 5 amps max (resistive load); install MOV across contact if
switching an ac inductive load
Closure time: 20 milliseconds
Release time: 20 milliseconds
Maximum switching speed: 20 operations/second
Mechanical life of relay: 10,000,000 operations
Certifications
3
3
R
LISTED
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
505
MULTI-BEAM® 2-Wire Logic Modules
MULTI-BEAM 2-Wire Logic Modules
2-wire logic modules are color-coded black
•
The logic module interconnects the power block and sensor
block, both electrically and mechanically
•
Logic modules simply slide into the sensor block, after the
power block is installed, to interconnect the three
components, without interwiring, using a blade-and-socket
connector concept
•
Logic modules provide light/dark operate selection and six
models offer a selection of adjustable output timing functions
•
Totally-encapsulated electronics and gold-plated connectors
assure high reliability even in challenging sensing environments
•
All 2-wire logic modules are color-coded black
MULTI-BEAM 2-Wire Logic Modules
Models
Timing
Function
Timing Range
On/Off
None
Timing Diagram
OUTPUT
2LM3
SIGNAL
Hold
Pulse
2LM4-2
One-shot
Retriggerable
0.1 to 1 second
Pulse
OUTPUT
SIGNAL
Delay
2LM5
On-delay
1.5 to 15 seconds
OUTPUT
SIGNAL
506
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
MULTI-BEAM® 2-Wire Logic Modules
MULTI-BEAM 2-Wire Logic Modules
Models
Timing
Function
Timing Range
Timing Diagram
Hold
2LM5R
Off-delay
1.5 to 15 seconds
Hold
OUTPUT
SIGNAL
Delay
2LM5-14
On-delay and
Off-delay
1.5 to 15 seconds
(both delays)
Hold
OUTPUT
SIGNAL
Hold
2LM5T
Limit timer
(time limited
On/Off)
1.5 to 15 seconds
OUTPUT
SIGNAL
MULTI-BEAM 2-Wire Logic Modules Specifications
Response Time
Response time will be that for the sensor block (plus power block) plus the programmed delay (if the logic
includes a delay function)
Timing Repeatability
±2% of maximum range under constant power supply and temperature conditions; ±5% of maximum range
under all conditions of supply voltage and temperature
Timing Range
Useful range is from maximum time down to 10% of maximum (e.g. - from 1 to 0.1 seconds, or from 15 to 1.5
seconds). When timing potentiometer is set fully counterclockwise, time will be approximately 1% of maximum.
Adjustments
One or two single turn potentiometers with slot for blade-type screwdriver adjustment
NOTE: when turning time adjustments fully clockwise or counterclockwise, avoid excessive torque to
prevent damage to potentiometer.
Construction
Molded thermoplastic polyester housing totally epoxy-encapsulated electronic components, and gold-plated
blade connectors
Operating Conditions
Temperature:
-40° to +70°C (-40° to +158°F)
Maximum relative humidity: 90% at 50°C (non-condensing)
Certifications
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
507
MULTI-BEAM® Ambient Light Receivers
MULTI-BEAM Ambient Light Receivers
MULTI-BEAM Ambient Light
Receiver , model SBARIGHF
(shown) is equipped with an
upper cover assembly
(model UC-RF) which allows
an individual glass fiber optic
assembly to be attached to
the receiver optoelement
•
•
•
•
•
•
Non-modulated receiver sensor blocks are operated by sun,
incandescent, infrared or laser light sources
Use to sense daylight for outdoor lighting control; use to sense
the heat (infrared light) energy emitted by hot or molten glass,
metal or plastic during processing of these materials
Range depends upon both the intensity of the light source and
the contrast between the light source and all other ambient light
High gain model SBAR1GH is about 20 times as sensitive to
light as compared to model SBAR1
Model SBAR1GHF allows an individual glass fiber optic cable to
“pipe” light from a sensing location that is too confined or too
hot for the sensor block
Accepts either 2-wire or 3- and 4-wire power blocks and logic
modules
MULTI-BEAM Ambient Light Receiver
Models
Response
SBAR1
Amplifier
Notes
Ultraviolet through near
infrared (includes all visible
wavelengths)
MULTI-BEAM ambient light receivers do not
have the AID™ signal strength. The alignment
indicator is “ON” steadily when enough light
is sensed.
Normal Gain
10 ms on/off
SBAR1GH
Optical Response
High Gain*
*20x more sensitive to light as compared to the SBAR1
508
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
MULTI-BEAM® Ambient Light Receivers
MULTI-BEAM Glass Fiber Optic Ambient Light Receiver
Models
SBAR1GHF
Response
10 ms on/off
Amplifier
High Gain
Optical Response
Wavelengths from visible
blue through near infrared
Notes
• Model SBAR1GHF is identical to model
SBAR1GH except that it is equipped with an
upper cover assembly which allows an
individual glass fiber optic assembly to be
attached to the receiver optoelement.
• This model is used for ambient light
detection in locations which are either too
confined or too hot for mounting of the
complete sensor block.
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
509
MULTI-BEAM® Optical Data Transmitter System
MULTI-BEAM Optical Data Transmitter System
•
Provides a very simple and economical means of transmitting logic-level data over a modulated LED light beam
•
Ideal for communication with overhead cranes and other
rail-mounted systems; replaces brush contacts in rotary
index table applications
•
Emitter uses a modulated light sources that is gated on and
off by the data signal; the receiver output “follows” the
action of the data steam
•
Data may be transmitted over a distance of up to 60 m
(200') at a data transfer rate of up to 300 BAUD
Infrared, 940 nm
MULTI-BEAM Optical Data Transmitter Emitter (E) and Receiver (R)
Models
Range
Supply
Voltage
Output
Type
Excess Gain
Beam Pattern
1000
None - emitter only
EM3T-1M
R1T3
R1P3
60 m
(200')
10 to 30V dc
NPN
PNP
E
X
C
E
S
S
MULTI-BEAM
Optical Data
Transmitter
System
Optical Data
Transmitter System
60 in
1000 mm
40 in
500 mm
20 in
0
0
G
A
I
N
10
Opposed Mode
1
0.1 m
0.033 ft
1.0 m
0.33 ft
500 mm
20 in
1000 mm
40 in
60 in
1500 mm
10 m
3.3 ft
DISTANCE
510
MULTI-BEAM
1500 mm
100
100 m
330 ft
0
12 m
40 ft
24 m
80 ft
36 m
120 ft
48 m
160 ft
60 m
200 ft
DISTANCE
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
MULTI-BEAM® Optical Data Transmitter System
MULTI-BEAM Optical Data Transmitter Specifications
Supply Voltage and Current
10 to 30V dc (10% maximum ripple)
EM3T-1M 100 mA max; R1T3 and R1P3 30 mA max, exclusive of load
Supply Protection Circuitry
Protected against transient voltages
Input Signal
The input consists of the LED portion of an optical coupler
NOTE: a suitable series resistor (customer supplied) must be installed to limit current to between 10 and
30 mA dc. When current is applied to the LED, the 30 kHz carrier is inhibited.
Output Configuration
R1P3: Open-collector current sourcing (PNP)
R1T3: open-collector current sinking (NPN)
Output Rating
250 mA maximum
Off-state leakage current less than 10 microamps
On-state voltage less than 1V dc
Output Protection Circuitry
Protected against false pulse on power-up
Output Response Time
1 millisecond ON and OFF. Maximum data rate: 300 BAUD
Indicators
Red LED on top of receiver. Banner’s exclusive, patented Alignment Indicating Device system (AID™) lights
the LED indicator whenever the sensor detects the light from the EM3T-1M, and pulses the LED at a rate
proportional to the received light level. It will go “off” with current applied to the emitter input.
Construction
Reinforced thermoplastic polyester, totally encapsulated housing and stainless steel hardware
Environmental Rating
Meets NEMA standards 1, 3, 12, and 13; IEC IP54
Operating Conditions
Temperature:
-40° to +70°C (-40° to +158°F)
Maximum relative humidity: 90% at 50°C (non-condensing)
Application Notes
i) The data transmitter consists of a special MULTI-BEAM emitter sensor block (model SBEM3) and dc
power block (model PBT-1M)
ii) The data receiver (model R1T3) is composed of standard MULTI-BEAM components: sensor block
SBR1, power block PBT, and on/off logic model LM3
Certifications
MULTI-BEAM Optical Data Transmitter Hookup Diagrams
EM3T-1M Emitter
Data Transmisstion
+
10-30V dc
–
+
Data Input
–
1
1
2
2
3
3
4
4
EM3T-1M Emitter
Data Transmisstion
+
10-30V dc
–
+
–
Data Input
R1T3 Receiver
Current Sinking (NPN)
+
10-30V dc
–
Data Output
R1P3 Receiver
Current Sourcing (PNP)
1
1
2
2
3
3
4
4
+
10-30V dc
–
Data Output
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
511
MULTI-BEAM® Optical Edgeguide System
MULTI-BEAM Optical Edgeguide System
•
•
•
•
•
•
Used in pairs (two required per system) to provide complete
edgeguiding sensing and control of opaque materials
Pairs are used in the opposed mode to provide two beams
which control edge limits (inward and outward)
Deadband between control limits is easily adjusted by positioning of the sensors relative to the material edge being guided
Adjustable time delays provide required overtravel hysteresis
Direct interface to ac loads up to 3/4 amp; models for 120 or
240V ac
Rugged MULTI-BEAM construction, plus very high excess
gain at close ranges, permits reliable control in harsh
environments such as sawmills or power sanding machines
MULTI-BEAM Edgeguide Sensing Mode Options
Opposed
MULTI-BEAM Optical Edgeguide Emitter (E) and Receiver (R)
Models
Range
Supply
Voltage
Output
Type
Excess Gain
100,000
3GA5-14
(order two)
E
X
C
E
S
S
105-130V ac
30 m
(100')
Two SPST
Solid-state
G
A
I
N
MULTI-BEAM
Edgeguide
System
10,000
1,000
Opposed Mode
100
3GB5-14
(order two)
210 - 250V ac
10
0.1 m
0.33 ft
1.0 m
3.3 ft
10 m
33 ft
100 m
330 ft
DISTANCE
512
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
MULTI-BEAM® Optical Edgeguide System
MULTI-BEAM Optical Edgeguide Specifications
Supply Voltage and Current
3GA5-14: 105 to 130V ac (50/60 Hz)
3GB5-14: 210 to 250V ac (50/60 Hz)
Supply Protection Circuitry
Protected against transient voltages
Output Configuration
Solid-state switch, 3/4 amp maximum, derated to 1/2 amp at 70°C
Output Rating
Inrush capability is 10 amps max for 1 second or 30 amps for one ac cycle (non-repeating)
Off-state leakage current less than 100 microamps
On-state voltage less than 2.5V dc at full load
Output Protection Circuitry
Protected against false pulse on power-up
Output Response Time
Response time is a function of the ON and OFF delay timers, which are independently adjustable over a
useful range of from 1 to 15 seconds
NOTE: shorter time ranges are available on a quote basis
Indicators
Red LED status indicator on top of the housing is “on” when the receiver detects modulated light
(unblocked) condition
Construction
Reinforced thermoplastic polyester, totally encapsulated housing and stainless steel hardware
Environmental Rating
Meets NEMA standards 1, 3, 12, and 13; IEC IP54
Operating Conditions
Temperature:
-40° to +70°C (-40° to +158°F)
Maximum relative humidity: 90% at 50°C (non-condensing)
Application Notes
The Edgeguide system is composed of two each of: sensor block 3SBG, power block 3PBA (12OV ac) or
3PBB (240V ac), and on/off logic model 3LM5-14
Certifications
MULTI-BEAM Optical Edgeguide Hookup Diagram
NOTE: Be certain to connect L1
and L2 exactly as shown to
terminals 1 and 2
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
513
MULTI-BEAM® Accessories
MULTI-BEAM Dimensions
Assembled MULTI-BEAM Sensor w/standard Lens
Opposed, Retroreflective, Diffuse, Ambient Light Receiver, Optical Data Transmitter and Edgeguide
Model suffix E, ED, EV, EX ,EXD, R, RD, RX, RXD, L, LV, LVAG, LX, D, DL, DX, & AR and model prefix 3GA & EM3T
Status Indicator LED
(except emitters)
40 mm
(1.6")
Access to
Sensitivity Adjustment
53 mm (2.1")
Lens Centerline
114 mm
(4.5")
94 mm
(3.7")
60.0 mm
(2.36")
7.6 mm
(0.30")
5.1 mm
(0.20")
1/2" – 14 NPSM
Conduit Entrance
5 mm (#10) Screw
Clearance (4)
30.0 mm
(1.18")
Assembled MULTI-BEAM Sensor w/convergent lens
Model suffix C, CV and CX
53 mm (2.1")
514
Assembled MULTI-BEAM Sensor w/glass fiber cover
Model suffix AR1GHF, F, FX, FV, FVG, EF, RF, EXF and RXF
53 mm (2.1")
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
MULTI-BEAM® Accessories
Modifications
Example of Model
Number
Model Suffix
Modification
Description
MHS
Modified for High
Speed
Sensor blocks with 1 millisecond response may be modified for
(300 µs) response.
NOTE: Faster response comes at the expense of lower excess gain
and decreased sensor immunity to some forms of electrical “noise”.
SBF1MHS
MZ
Zero Hysteresis
Amplifier hysteresis may be removed from 3- and 4-wire sensor
blocks when attempting to sense small signal changes (contrasts
less than 3).
SBLV1MZ
Quick-Disconnect (QD) Cables and Connectors
Connector MBC-4 adapts any MULTI-BEAM sensor assembly to accept 4-wire mini-style quick-disconnect cables.
Style
Model
Length
Connector
Connector to install in base
of sensor block
Wire Length:
300 mm (12")
MBC-4
4-Pin Mini
Straight
Mating Cables
Cable Length:
2 m (6.5')
4 m (12')
9 m (30')
MBCC-406
MBCC-412
MBCC-430
Cable Gland Assembly
Model
RF1-2NPS
Description
• Cable gland assembly for MULTI-BEAMs
• Includes cord grips for 2.5 to 10 mm (0.1 - 0.4 in) diameter cable
• Bracket lockwasher is also included
Cable Protector
Model
Description
• Flexible black nylon cable protector
HF1-2NPS
• Includes a neoprene gland that compresses around the MULTI-BEAM cable to provide an
additional seal against moisture
• Resistant to gasoline, alcohol, oil, grease, solvents and weak acids
• Working temperature range of -30° to +100°C (-22° to +212°F)
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
515
MULTI-BEAM® Accessories
Replacement Lens Assemblies
Model
Description
Upper Covers
An upper consists of the optical element for the MULTI-BEAM which is built into a gasketed
cover for the upper portion of the sensor block. Upper covers may be ordered as
replacement parts or for modifying the optical response of a particular model sensor block.
UC-C
38 mm (1.5") focus
SBC1, SBCV1, SBCVG1, SBCX1 & 2SBC1
UC-C4
100 mm (4") focus
SBC1-4 & SBCX1-4
UC-C6
150 mm (6") focus
SBC1-6 & SBCX1-6
UC-D
Flat vinyl for short range
and/or wide beam angle
Replacement lens for SBD1, SBED, SBRD1,
SBEXD, SBRXD1 & 2SBD1
UC-DMB
“MB” = Modified with Baffle;
Replacement lens for SBDX1MD
for short-range proximity
mode with SBDX1
UC-F
Fits all Banner glass fiber
optic assemblies
Replacement lens for SBF1, SBFX1, SBFV1 &
2SBF1
UC-EF
For fiber optic emitter-only
sensor blocks
Replacement lens for SBEF & SBEXF
UC-RF
For fiber optic receiver-only
sensor blocks
Replacement lens for SBRF1, SBRXF1 &
SBAR1GHF
UC-L
Standard bifurcated
acrylic lens
Replacement lens for SBE, SBEV, SBEX, SBR1,
SBRX1, SBL1, SBLV1, SBLX1, SBDL1, SBDX1,
SBAR1, SBAR1GH, 2SBR1, 2SBL1, 2SBDX1,
3GA5-14, EM3T-1M & R1T3
UC-LAG
Anti-glare (polarizing for
retroreflective sensing of
shiny objects)
Replacement lens for SBLVAG1
Special Upper Covers
These upper covers are used in special sensing environments.
UC-DJ
Identical to UC-D, but with addition of plastic dust cover to prevent
accumulation of dust/dirt in lens area
UC-LJ
Adds plastic dust cover to UC-L. Used when sensor is mounted facing up
(used to prevent dust/dirt buildup on lens)
UC-LG
Replaces UC-L in sensing locations where highly caustic materials are
present (e.g. acid vapor or splash). Glass lens.
Lower Covers
Replacement lower covers fit all MULTI-BEAM sensor blocks. Lower covers include
gaskets and four stainless steel mounting screws.
LCMB
Standard replacement cover for all sensor blocks
LCMBMTA “MTA” = Modified Timing Access. Gasketed nylon screw covers for logic
module timing adjustments.
516
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
MULTI-BEAM® Accessories
Mounting Brackets
Model
Description
Dimensions
NOTE: See p. 746 for
additional dimensions
SMB30UR
172.0 mm
(6.77")
• 2-piece universal swivel
bracket for limit-switch style
sensors
• 300 series stainless steel
• Includes stainless steel swivel
locking hardware
2X
1/4 x 28 x 1/2"
Screw
2X 1/4"
Lock Washer
2X 1/4"
Flat Washer
76.2 mm
(3.00")
SMB700
SMB700F
SMB700SS
SMB700:
• Right angle, 11-gauge, zinc
plated steel, 2-axis mounting
bracket supplied with cable
gland assembly and
lockwasher
SMB700F;
• Flat, single-axis version of
SMB700, sold without
hardware
SMB700SS:
• 11-gauge , stainless steel
version of SMB700 sold
without hardware
69 mm
(2.7")
53 mm
(2.1")
ø 4.8 mm to 9.7 mm
(0.19" to 0.38")
Cable Gland (Supplied)
(Not Supplied with
SMB700SS Bracket)
38 mm
(1.5") 23.4 mm
(0.92")
38 mm
(1.5")
Convergent
Lens (UC-C)
;;;
;;;
7/8" I.T.L.W.
(Supplied)
57.2 mm
(2.25")
48 mm
(1.9")
7.1 mm
0.28" x 90°
(2 Slots)
57.2 mm
(2.25")
116 mm
(4.6")
94 mm
(3.7")
;;;
;;;
25.4 mm
(1.0")
50.8 mm
(2.00")
69.9 mm
(2.75")
SMB700M
94 mm
(3.7")
Lockwasher
• Heavy-duty 6 mm (0.25") zinc
plated steel bracket
• Allows MULTI-BEAM to retrofit
to installations of MICROSWITCH models MLS8 or
MLS9 sensors
• Includes cable gland and
lockwasher
241 mm
(9.5")
Conduit
Fitting
Included
7.1 mm
(0.28")
50.8 mm
(2.00")
124 mm
(4.9")
29.7 mm
(1.17")
86 mm
(3.4")
76 mm
(3.0")
25.4 mm
(1.00")
19.1 mm (0.75")
1/4" Plated Steel
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
25.4 mm
(1.00")
ø 21.3 mm
(0.84")
25.4 mm
(1.00")
517
MULTI-BEAM® Accessories
Mounting Brackets
Model
Description
Dimensions
SMB700P
94 mm
(3.7")
Lockwasher
• Heavy-duty 6 mm (0.25") zinc
plated steel bracket
• Allows MULTI-BEAM to retrofit
to installations of
PHOTOSWITCH series 42RLU
or 42RLP sensors
• Includes cable gland and
lockwasher
69 mm
(2.7")
97 mm
(3.8")
241 mm
(9.5")
Conduit
Fitting
Included
Adjustment Slots
102 mm
(4.0")
7.1 mm (0.28")
25.4 mm (1.00")
50.8 mm (2.00")
19.1 mm
(0.75")
38.1 mm (1.50")
Optional Mounting Hole
91 mm
(3.6")
46.0 mm
(1.81")
1/4" Plated Steel
76 mm
(3.0")
SMBLS
57.2 mm
(2.25")
137 mm
(5.4")
127 mm
(5.0")
117 mm
(4.6")
107 mm
(4.2")
• Two 11-gauge zinc plated
steel, right angle brackets
which fasten together so that
they can rotate relative to each
other
• Assembly hardware and cable
gland are included
ø 4.8 mm to 9.7 mm
(0.19" to 0.38")
Cable Gland
(Supplied)
#10
Hardware
(Included)
69.9 mm
(2.75")
57.2 mm
(2.25")
64.0 mm
(2.52")
30.0 mm
(1.18")
99.8 mm
(3.93")
60.0 mm
(2.36")
136°
(Total Bracket Rotation)
7.1 mm
(0.28") x 90°
(2 Slots)
57.2 mm
(2.25")
25.4 mm
(1.00")
518
50.8 mm
(2.00")
9.7 mm
(0.38")
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
Parts Sensing Light Screens
Parts Sensing Light Screens
Parts Verification Array . . . . . . . . . . . . . . . . . . . . 520
LS Series Parts Sensing Light Screens . . . . . . . . . 526
!
Parts Sensing Light Screens are not suitable for
use in personnel safety applications! See
WARNING on inside front cover of catalog.
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
519
PVA Parts Sensing Light Screens
Parts Verification Array (PVA)
Light Screen for Error Proofing Bin-Picking Operations
•
•
•
•
•
•
PVA Sensing Mode Options
•
•
•
•
Opposed
•
Compact package size; only 30 mm wide x 15 mm deep
(1.2" x .6"). Available in 4 lengths: 100 mm, 225 mm,
300 mm, 375 mm (4", 9", 12", 15") to fit many sizes and/or
configurations of parts bins.
Two-component system (asynchronous emitter and receiver)
needs no synch wire or controller box.
Two LEDs on each emitter and receiver indicates proper
setup and system errors.
Both emitter and receiver have clearly visible green job
indicator lights mounted on either side of the housing; the
light can be remotely controlled to initiate user action with a
solid or a blinking light.
2-frequency setting prevents optical crosstalk for multiplearray, close-proximity installations
Easy DIP-switch adjustments for light/dark operate,
solid/flashing job light indicator, A/B frequency, and gate
polarity for activating the job light indicator
Choose 2 m (6.5') unterminated cable or 2m (6.5') cable with
4-pin Euro-style quick-disconnect connector.
Minimum resolution 35 mm (1.4") for all models.
Wide beam pattern provides easy alignment.
Emitters and receivers sold separately or in pairs for easy
ordering.
Heavy-duty protective bracket available
MODE
Infrared, 880 nm
Parts Verification Array Models
Models
Description
PVA100N6
PVA100N6E
PVA100N6R
Emitter/Receiver Pair
Emitter
Receiver
PVA100P6
PVA100P6E
PVA100P6R
Emitter/Receiver Pair
Emitter
Receiver
PVA100N6Q
PVA100N6EQ
PVA100N6RQ
Emitter/Receiver Pair
Emitter
Receiver
PVA100P6Q
PVA100P6EQ
PVA100P6RQ
Emitter/Receiver Pair
Emitter
Receiver
520
Array
Cable*
Supply
Voltage
Job Light
Input
Receiver
Output
0V dc
NPN
(Sinking)
+5 to 30V dc
PNP
(Sourcing)
0V dc
NPN
(Sinking)
+5 to 30V dc
PNP
(Sourcing)
2 m (6.5')
Unterminated
100 mm
(4") Long,
5 Beams
12 to 30 V dc
2 m (6.5')
Euro-style
Quick-disconnect
Minimum
Resolution
35 mm
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
PVA Parts Sensing Light Screens
MODE
Infrared, 880 nm
Parts Verification Array Models
Models
Description
Array
PVA225N6
PVA225N6E
PVA225N6R
Emitter/Receiver Pair
Emitter
Receiver
PVA225P6
PVA225P6E
PVA225P6R
Emitter/Receiver Pair
Emitter
Receiver
PVA225N6Q
PVA225N6EQ
PVA225N6RQ
Emitter/Receiver Pair
Emitter
Receiver
PVA225P6Q
PVA225P6EQ
PVA225P6RQ
Emitter/Receiver Pair
Emitter
Receiver
PVA300N6
PVA300N6E
PVA300N6R
Emitter/Receiver Pair
Emitter
Receiver
PVA300P6
PVA300P6E
PVA300P6R
Emitter/Receiver Pair
Emitter
Receiver
PVA300N6Q
PVA300N6EQ
PVA300N6RQ
Emitter/Receiver Pair
Emitter
Receiver
PVA300P6Q
PVA300P6EQ
PVA300P6RQ
Emitter/Receiver Pair
Emitter
Receiver
PVA375N6
PVA375N6E
PVA375N6R
Emitter/Receiver Pair
Emitter
Receiver
PVA375P6
PVA375P6E
PVA375P6R
Emitter/Receiver Pair
Emitter
Receiver
PVA375N6Q
PVA375N6EQ
PVA375N6RQ
Emitter/Receiver Pair
Emitter
Receiver
PVA375P6Q
PVA375P6EQ
PVA375P6RQ
Emitter/Receiver Pair
Emitter
Receiver
Cable*
Supply
Voltage
Job Light
Input
Receiver
Output
0V dc
NPN
(Sinking)
+5 to 30V dc
PNP
(Sourcing)
0V dc
NPN
(Sinking)
+5 to 30V dc
PNP
(Sourcing)
0V dc
NPN
(Sinking)
+5 to 30V dc
PNP
(Sourcing)
0V dc
NPN
(Sinking)
+5 to 30V dc
PNP
(Sourcing)
0V dc
NPN
(Sinking)
+5 to 30V dc
PNP
(Sourcing)
0V dc
NPN
(Sinking)
+5 to 30V dc
PNP
(Sourcing)
2 m (6.5')
Unterminated
225 mm
(9") Long,
10 Beams
Minimum
Resolution
12 to 30 V dc
2 m (6.5')
Euro-style
Quick-disconnect
35 mm
2 m (6.5')
Unterminated
300 mm
(12") Long,
13 Beams
12 to 30 V dc
2 m (6.5')
Euro-style
Quick-disconnect
35 mm
2 m (6.5')
Unterminated
375 mm
(15") Long,
16 Beams
12 to 30 V dc
2 m (6.5')
Euro-style
Quick-disconnect
35 mm
* NOTE: Cable diameter is 3.3 mm (0.13") on all models.
!
WARNING . . .
Not To Be Used for Personnel Protection
Never use this product as a sensing device for personnel protection. Doing so could lead to serious injury or death.
This product does NOT include the self-checking redundant circuitry necessary to allow its use in personnel safety applications. A sensor
failure or malfunction can cause either an energized or de-energized sensor output condition. Consult your current Banner Safety Products
catalog for safety products which meet OSHA, ANSI and IEC standards for personnel protection.
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
521
PVA Parts Sensing Light Screens
Parts Verification Array Specifications
Supply Voltage and Current
12 to 30V dc (10% maximum ripple) at less than 62 mA for the emitter and 50 mA for the receiver
(exclusive of load)
Supply Protection Circuitry
Protected against reverse polarity
Sensing Range
2 m (6.5 ') with 2x excess gain remaining
Sensing Height
100 mm (3.9"), 225 mm (8.9"), 300 mm (11.8"), or 375 mm (14.8"), depending on emitter and receiver models
Beam Spacing
25.0 mm (0.98")
Sensing Resolution
35 mm (1.4") minimum diameter
Output Configuration
Receivers have one solid-state dc output, programmable for light or dark operate:
Models PVA...N6R have current sinking (NPN) open-collector transistor
Models PVA...P6R have current sourcing (PNP) open-collector transistor
Output Rating
150 mA maximum
Off-state leakage current less than 2 microamps
On-state saturation voltage less than 1V dc at 10 mA and less than 1.5V dc at 100 mA
Output Protection Circuitry
Protected against false pulse at power-up and continuous overload or short circuit of outputs
Output Response Time
Sensor Size
100 mm
225 mm
300 mm
375 mm
Status Indicators
Emitter:
Construction
Black painted aluminum housing; acrylic lenses; thermoplastic polyester end caps; thermoplastic
elastomer programming switch cover; stainless steel mounting brackets and hardware
Environmental Rating
NEMA 2; IEC IP62
Connections
Emitter: 3-conductor PVC-jacketed 2 m (6.5') cable which is either unterminated or terminated with a
4-pin Euro-style quick-disconnect connector, depending on model (see model selection chart,
pages 520 and 521). Cable diameter is 3.3 mm (0.13").
Receiver: 4-conductor PVC-jacketed 2 m (6.5') cable which is either unterminated or terminated with a
4-pin Euro-style quick-disconnect connector, depending on model (see model selection chart,
pages 520 and 521). Cable diameter is 3.3 mm (0.13").
Operating Temperature
0° to +50°C (+32° to 122°F)
Standard
20 ms
40 ms
52 ms
64 ms
With Crosstalk from Adjacent Units
30 ms
60 ms
78 ms
96 ms
One green LED to indicate power ON/OFF
One red LED to indicate frequency selected
Receiver: One green LED to indicate power ON/OFF
One yellow LED to indicate output state
Emitter
Both have two highly visible “job lights” which are turned ON and OFF by applying an external
& Receiver: signal to the white wire. The job lights may be programmed for steady or flashing green.
Maximum Off-axis
Sensor Separation – Y
(Meters)
Horizontal Misalignment
X
Misalignment
2.0
1.8
1.6
Y
1.4
1.2
Vertical Misalignment
1.0
X
0.8
0.6
Y
0.4
0.2
0
0
50
100
150
200
250
Maximum Off-axis Distance – X
(Millimeters)
522
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
PVA Parts Sensing Light Screens
Parts Verification Array Dimensions
Emitter and Receiver
Number
of beams
Beam 3
Beam 2
Beam 1
Beams Continue at
25.0 mm
25.0 mm
25.0 mm Spacing
(0.98")
(0.98")
3.9 mm
(0.15")
15.0 mm
(0.59")
18.0 mm
(0.71")
L1
L2
5
130.0 mm
(5.12")
137.8 mm
(5.43")
10
258.5 mm
(10.18")
266.4 mm
(10.49")
333.5 mm
(13.13")
408.5 mm
(16.09")
341.4 mm
(13.44")
416.6 mm
(16.40")
13
16
MODE
L1
ø4.45 mm
(0.175")
L2
Configuration Switch Cover
Job Lights
Status Indicator 1
Status Indicator 2
43.2 mm
(1.70")
Cable
71.8 mm
(2.83")
15.0 mm
(0.59")
30.0 mm
(1.18")
Bracket – 2 supplied with each sensor*
4 x ø4.6 mm
(0.18")
5.0 mm
(0.20")
5.0 mm
(0.20")
2 x 4.8 mm
(0.19")
10.2 mm
(0.40")
20.1 mm
(0.79")
10.2 mm
(0.40")
4 x R2.54
(0.10")
18.0 mm
(0.71")
6.1 mm
(0.24")
40.6 mm
(1.60")
22.9 mm
(0.90")
Hardware (included with each sensor)
P/N
6.0 mm
(0.24")
6.0 mm
(0.24")
50532
2.0 mm
(0.08")
Includes
4 Stainless steel Phillips panhead
machine screws (M4 x 0.7 x 12)
* Also available separately, in
pairs; P/N SMBPVA1.
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
4 Stainless steel hex nuts
(M4 x 0.7)
4 Stainless steel lock washers
(M4 x 0.7)
1 Plastic screwdriver
(3.6 cm/1.4" long)
523
PVA Parts Sensing Light Screens
Parts Verification Array Hookup Diagrams
Emitter with Unterminated Cable
bn
Emitter with Quick-Disconnect
(4-Pin Euro-Style)
bn
bu
bk
wh
+
12-30V dc
bu
-
wh
Job Light
Enable
Receiver with NPN (Sinking) Output
+
12-30V dc
-
Job Light
Enable
Receiver with PNP (Sourcing) Output
NOTE: Receiver hookups are functionally the same for either cabled or quick-disconnect models.
bn
bu
bk
wh
bn
bu
bk
wh
+
12-30V dc
-
Load
Job Light
Enable
+
12-30V dc
-
Load
Job Light
Enable
4-Pin Euro-Style Pin-out
Brown
Wire
Black
Wire
White
Wire
Blue
Wire
Quick-Disconnect (QD) Option
All models feature integral 2 m (6.5') long, 3.3 mm (0.13 in) diameter. PVC-jacketed cables. Models whose model numbers end
in “Q” are terminated with quick-disconnect (QD) Euro-style 4-pin connectors; other models have unterminated ends. For
information on optional mating QD cables, see page 525.
524
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
PVA Parts Sensing Light Screen Accessories
Quick-Disconnect (QD) Cables
Style
Model
Length
4-Pin Euro
MQDC-406
MQDC-415
MQDC-430
MQDC-406RA
MQDC-415RA
MQDC-430RA
2 m (6.5')
5 m (15')
9 m (30')
2 m (6.5')
5 m (15')
9 m (30')
Connector
For use with
Straight
Straight
Straight
Right-Angle
Right-Angle
Right-Angle
PVA light screens
Mounting Brackets
Model
Description
Dimensions
SMBPVA2
66 mm
(2.6")
18.0 mm
(0.71")
7.4 mm
(0.29")
34.0 mm
(1.34")
• Set of 4 molded brackets
• Snaps onto standard 28 mm
diameter pipe
17.0 mm
(0.67")
5 x ø4.4 mm
(0.18")
20.1 mm
(0.79")
18.8 mm
(0.74")
7.6 mm
(0.30")
SMBPVA5
SMBPVA10
SMBPVA13
SMBPVA16
35.6 mm
(1.40")
• Protects sensors against
impact
• Set of 2
• Heavy-duty cold-rolled steel,
zinc finish
L
Model
Used With
“L”
SMBPVA5
PVA100
139.7 mm
SMBPVA10
PVA225
268.2 mm
SMBPVA13
PVA300
343.3 mm
SMBPVA16
PVA375
418.2 mm
19.3 mm
(0.76")
NOTE: Basic mounting brackets are included with PVA System. See page 523.
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
525
LS Series Parts Sensing Light Screens
LS PART SENSING LIGHT SCREENS
For Sensing Small Objects Moving at High Speeds
•
•
•
•
•
LS10 emitter and receiver shown
•
•
LS Series Sensing Mode Options
•
•
Opposed
Emitter and receiver pair produce a strobed array of
modulated light beams to produce a light screen
Simple, economical and highly reliable means of sensing
small parts which pass anywhere through the light screen
Light screen area measures 90 mm (3.5") by the distance of
separation between the emitter and receiver
Fast, 1 millisecond response; output includes a
5-millisecond pulse stretcher for interfacing reliability
LS10 models have tight beam spacing for sensing small
parts (as small as 5.6 mm in diameter)
Lower cost LS4 models have longer sensing range
Totally self-contained; very rugged with totally encapsulated
circuitry
Bipolar design offers the choice of NPN (current sinking) or
PNP (current sourcing) outputs from the same receiver;
both outputs may be used simultaneously
LS4 models offer choice of integral cable or quickdisconnect fitting; LS10 models are quick-disconnect only.
Contact factory for information on availability of models
with alternate cables and quick-disconnect fittings
Infrared, 880 nm
LS10 Series Opposed Mode Emitter (E) and Receiver (R)
Models
Range
LS10ESR
Cable
Supply
Voltage
Output
Type
3-Pin Mini QD
100 - 200 mm
(4 - 8")
LS10RSR
5.6 mm (0.22")
4-Pin Mini QD
12-30V DC
LS10E
3-Pin Mini QD
100 - 1220 mm
(4 - 48")
LS10R
Minimum Resolution
Bipolar
NPN/PNP
DO
7.6 mm (0.30")
4-Pin Mini QD
For LS10 Series Part Sensing Light Screens:
i) LS10 Series models come standard with either a 3- or 4-pin mini-style quick-disconnect connector.
iii) A model with a QD connector requires an accessory mating cable. See page 530 and the Accessories section for more information.
526
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
LS Series Parts Sensing Light Screens
Infrared, 880 nm
LS4 Series Opposed Mode Emitter (E) and Receiver (R)
Models
Range
Cable
Supply
Voltage
Output
Type
10-30V DC
Bipolar
NPN/PNP
DO
Minimum Resolution
LS4EL
2 m (6.5')
LS4RL
0.46 - 2.29 m
(18 - 90")
LS4ELQ
25 - 38 mm
(1.0 - 1.5")
Depending upon location
of object within light screen
4-Pin Mini QD
LS4RLQ
LS Series Dimensions
LS4EL and LS4RL with Attached Cable
40.1 mm
(1.58")
LS Series with Quick-Disconnect
49.0 mm
(1.93")
116.0 mm
(4.55")
89.0 mm
(3.5")
60.0 mm
(2.36")
18.0 mm (0.71")
7.6 mm (0.30")
5.1 mm (0.20") (2)
13.2 mm
(0.52")
30.0 mm (1.18") (2)
2 m (6.5') Cable
5 mm (#10)
Screw Clearance (4)
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
527
LS Series Parts Sensing Light Screens
LS Series Specifications
Supply Voltage and Current
LS10 models: 12 to 30V dc (10% maximum ripple) at less than 70 mA (emitter) or 45 mA (receiver exclusive of load)
LS4 models: 10 to 30V dc (10% maximum ripple) at less than 40 mA (emitter) or 30 mA (receiver exclusive of load)
Supply Protection Circuitry
Protected against reverse polarity
Output Configuration
Bipolar: One current sourcing (PNP) and one current sinking (NPN) open-collector transistor
Output Rating
125 mA maximum each output
Off-state leakage current less than 1 microamp
Output saturation voltage (PNP output) less than 1 volt at 10 mA and less than 2 volts at 150 mA
Output saturation voltage (NPN output) less than 200 millivolts at 10 mA and less than 1 volt at 150 mA
Output Protection Circuitry
Protected against false pulse on power-up and continuous overload or short circuit of outputs
Output Response Time
Receiver will respond to a “dark” signal of 1 millisecond or longer duration; a 5-millisecond pulse
stretcher (off delay) is included to improve interfacing reliability; successive parts must have at least 10
millisecond separation
Repeatability
30 microseconds (light-to-dark)
Resolution
See product selection tables
Indicators
Power (emitter only): lights whenever power is applied
Alignment (receiver only): lights whenever light screen is interrupted
Construction
Reinforced thermoplastic polyester housing, acrylic lenses, and stainless steel hardware
Environmental Rating
Meets NEMA standards 1, 2, 3, 12, and 13; IEC IP54
Connections
See product selection tables
Operating Conditions
Temperature:
0° to +50°C (+32° to 122°F)
Maximum relative humidity: 90% at 50°C (non-condensing)
Application Notes
i) The best sensing resolution occurs near the center of the sensing area, between the emitter and
receiver (i.e. - near the center of the opposed distance)
ii) Outputs are energized continuously while the light screen is interrupted
iii) A 5-millisecond pulse stretcher (off delay) is included to improve interfacing reliability; successive
parts must have at least 10 millisecond separation
Certifications
LS Series Hookup Diagrams
3-Pin Mini-Style Pin-out
(Cable Connector Shown)
White Wire
Black Wire
Blue Wire
528
4-Pin Mini-Style Pin-out
(Cable Connector Shown)
Brown Wire
Brown Wire
Black Wire
Blue Wire
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
LS Series Parts Sensing Light Screens
LS Series Hookup Diagrams
LS10 Emitters with Quick-Disconnect
(3-Pin Mini-Style)
bn
LS10 Receivers with Quick-Disconnect
(4-Pin Mini-Style)
bn
+
12-30V dc
–
bu
+
12-30V dc
–
bu
bk
wh
bk
LS4EL Emitter with Attached Cable
Load
Load
LS4ELQ Emitter with Quick-Disconnect
(4-Pin Mini-Style)
bn
bn
+
10-30V dc
–
bu
+
10-30V dc
–
bu
wh
bk
LS4RL Receiver with Attached Cable
bn
bk
bn
+
10-30V dc
–
bu
wh
LS4RLQ Receiver with Quick-Disconnect
(4-Pin Mini-Style)
+
10-30V dc
–
bu
wh
Load
bk
Load
Load
Load
Quick-Disconnect (QD) Option
LS10 Light Screens come standard with either a 3- or 4-pin mini-style QD cable fitting. LS4 Light Screens are sold with either a
2 m (6.5') attached cable or with a 4-pin mini-style QD cable fitting.
LS4 QD Light Screens are identified by the letter “Q” in their model suffix number. Mating cables for LS10 Lights Screens are
MBCC-312 and MBCC-412. Mating cable for LS4 Lights Screens is MBCC-412. For more information on QD cables, see page 530
and the Accessories section.
Accessories
Replacement Lens Assemblies
LS Series lens assemblies are field-replaceable.
Model
UC-LS10
UC-LS10SR
UC-LS4EL
UC-LS4RL
Description
Replacement lens for LS10E and LS10R
Replacement lens for LS10ESR and LS10RSR
Replacement lens for LS4EL and LS4ELQ
Replacement lens for LS4RL and LS4RLQ
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
529
LS Series Parts Sensing Light Screen Accessories
Quick-Disconnect (QD) Cables
Following is the selection of cables available for LS Series QD models. See the Accessories section for more cable information.
Style
Model
Length
Connector
Used with:
3-Pin Mini
MBCC-306
MBCC-312
MBCC-330
2 m (6.5')
4 m (12')
9 m (30')
Straight
LS10 Series Emitters
4-Pin Mini
MBCC-406
MBCC-412
MBCC-430
2 m (6.5')
4 m (12')
9 m (30')
Straight
LS10 Series Receivers and models
LS4ELQ and LS4RLQ
Mounting Brackets
Model
Description
Dimensions
SMBLS
64.0 mm
(2.52")
30.0 mm
(1.18")
CL
• Two 11-gauge zinc plated
steel, right angle brackets
which fasten together so
that they can rotate
relative to each other
• Assembly hardware and
cable gland are included
4 x 6.0 mm
(0.24")
4 x 16.0 mm
(0.64")
60.0 mm
(2.36")
99.8 mm
(3.93")
#10 Hardware
(included)
7.1 mm
(0.28") x 90°
(2 slots)
57.2 mm
(2.25")
25.4 mm
(1.00")
9.7 mm
(0.38")
50.8 mm
(2.00")
57.2 mm
(2.25")
69.9 mm
(2.75")
SMB30UR
For complete dimensional
information, see Accessories
section, p. 746.
• 2-piece universal swivel
bracket for limit-switch
style sensors
• 300 series stainless steel
• Includes stainless steel
swivel locking hardware
172.0 mm
(6.77")
2X
1/4 x 28 x 1/2"
Screw
2X 1/4"
Lock Washer
2X 1/4"
Flat Washer
76.2 mm
(3.00")
530
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
OPTO-TOUCH™ Switches
OPTO-TOUCH™ Switches
OPTO-TOUCH Switches . . . . . . . . . . . . . . . . . . . . 532
OPTO-TOUCH Accessories . . . . . . . . . . . . . . . . . . 537
IMPORTANT OPTO-TOUCH switches are
intended as general-purpose initiators, and
are NOT safety devices. They are equally
likely to fail in the conducting (“ON”) state as
in the non-conducting (“OFF”) state. They
must be used in conjunction with a two-hand control
safety relay for machine initiation, wherever false operation
of an OPTO-TOUCH switch could be dangerous. NEVER
use an OPTO-TOUCH switch as an actuator in an
emergency stop (E-stop) circuit.
!
R
NOTE: See the Banner Machine Safety Catalog for Series
STB self-checking touch buttons and associated DUOTOUCH SG Two-Hand Control Module.
LISTED
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
531
OPTO-TOUCH™ Switches
OPTO-TOUCH
Touch-activated Optoelectronic Switches
•
Select OTB momentary action or LTB alternate action switches
•
Output is a 7 amp SPDT electromechanical relay; low-voltage
dc OTB models are also available with solid-state outputs
•
Choice of polysulfone or Lexan® polycarbonate upper housing
(see Specifications for environmental considerations)
•
Choose models with integral 2 m (6.5') cable or mini-style
quick disconnect connector; 9 m (30') integral cable is also
available
•
All models are supplied with a black polypropylene (TP) field
cover designed to prevent inadvertent switch activation; red,
yellow or green field covers are available
as options
OPTO-TOUCH with OTC Series Field Cover
Momentary Action OTBs
Models
Upper
Housing
Cable
OTBVN6
OTBVN6QD
OTBVN6QDH
OTBVN6L
OTBVN6LQD
OTBVN6LQDH
OTBVP6
OTBVP6QD
OTBVP6QDH
OTBVP6L
OTBVP6LQD
OTBVP6LQDH
2 m (6.5')
4-Pin Mini QD
4-pin Euro QD
2 m (6.5')
4-Pin Mini QD
4-pin Euro QD
2 m (6.5')
4-Pin Mini QD
4-pin Euro QD
2 m (6.5')
4-Pin Mini QD
4-pin Euro QD
OTBVR81
OTBVR81QD
2 m (6.5')
5-Pin Mini QD
OTBVR81L
OTBVR81LQD
2 m (6.5')
5-Pin Mini QD
Lexan
OTBA5
OTBA5QD
2 m (6.5')
5-Pin Mini QD
Polysulfone
Supply
Voltage
Output Type
Polysulfone
Complementary NPN
®
Lexan
10-30V dc
Polysulfone
Complementary PNP
Lexan®
Polysulfone
20-30V ac or dc
®
120V ac
OTBA5L
OTBA5LQD
2 m (6.5')
5-Pin Mini QD
Lexan®
OTBB5
OTBB5QD
2 m (6.5')
5-Pin Mini QD
Polysulfone
OTBB5L
OTBB5LQD
2 m (6.5')
5-Pin Mini QD
Lexan®
SPDT
Electromechanical
Relay
220/240V ac
Lexan® is a registered trademark of General Electric Co.
532
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
OPTO-TOUCH™ Switches
Alternate Action LTBs
Models
Cable
Upper
Housing
LTBA5
LTBA5QD
2 m (6.5')
5-Pin Mini QD
LTBA5L
LTBA5LQD
2 m (6.5')
5-Pin Mini QD
Lexan
LTBB5
LTBB5QD
2 m (6.5')
5-Pin Mini QD
Polysulfone
LTBB5L
LTBB5LQD
2 m (6.5')
5-Pin Mini QD
Supply
Voltage
Output Type
Polysulfone
120V ac
®
SPDT
Electromechanical
Relay
220/240V ac
!
®
Lexan
WARNING...Banner OPTO-TOUCH OTB and LTB Series Optical Touch Buttons are
intended as general-purpose switches, and are not safety devices. Like most solid-state
devices, they are equally as likely to fail in the conducting (“ON”) state as in the non-conducting (“OFF”)
state. They must be used with a two-hand control safety relay for machine initiation, wherever false
operation of an OPTO-TOUCH switch could be dangerous. Never use an OPTO-TOUCH Optical Touch Button
as an actuator in an emergency (E-Stop) circuit.
For OPTO-TOUCH Switches:
i) 9 m (30') cables are available by adding suffix “W/30” to the model number of any cabled sensor (e.g. - OTBVN6 W/30)
ii) A model with a QD connector requires an accessory mating cable. See page 537 and the Accessories section for more information.
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
533
OPTO-TOUCH™ Switches
OPTO-TOUCH Specifications
Supply Voltage and Current
OTBVR81models: 20 to 30V ac/dc
OTBA5 and LTBA5 models: 105 to 130V ac
OTBB5 and LTBB5 models: 210 to 250V ac
OTBVN6/VP6 models: 10 to 30V dc
All models require less than 25 mA (exclusive of load)
Supply Protection Circuitry
Protected against reverse polarity and transient voltages
Output Configuration
OTBVR81, OTBA5, LTBA5, OTBB5 and LTBB5 models: SPDT electromechanical relay
OTBVN6 models: Complementary (SPDT) NPN (sinking) open-collector transistor
OTBVP6 models: Complementary (SPDT) PNP (sourcing) open-collector transistors
Output Rating
Models with electromechanical relay:
Maximum switching current: 7 amps (resistive load), 1 HP maximum
Minimum load: 0.05 watts (dc), 0.05 VA (ac)
Mechanical life of relay: 50,000,000 operations (minimum)
Electrical life of relay: 100,000 operations (min.) at full resistive load
Transient suppression is recommended when switching inductive loads
Models with solid-state outputs:
150mA maximum load (each output)
On-state saturation voltage: <1 volt at signal levels; <1.5 volts at full load
Off-state leakage current: <1 microamp
Output Protection
All models protected against false pulse on power-up
Models with solid-state outputs have overload and short circuit protection
Indicators
Two red indicator LEDs: one lights whenever power is applied; the other lights whenever the normally-open
output is conducting
Construction
Totally encapsulated, non-metallic enclosure. Black polysulfone or red Lexan® polycarbonate upper housing
(see Application Notes below); fiber-reinforced thermoplastic polyester base. Electronics fully epoxyencapsulated. Supplied with a field cover of polypropylene (TP).
Environmental Rating
Meets NEMA standards 1, 3, 4, 4X, 12 and 13; IEC IP66
Connections
PVC-jacketed 2 m (6.5') or 9 m (30') cables, or mini-style quick disconnect (QD) fitting are available. QD
cables are ordered separately. See page 537 and the Accessories section.
Ambient Light Immunity
120,000 lux (direct sunlight)
EMI/RFI Immunity
Highly resistant to both single and mixed EMI and RFI noise sources
Operating Temperature
Temperature:
Maximum relative humidity:
Application Notes
Environmental Considerations for models with polysulfone upper housings:
The polysulfone upper housing will become embrittled with prolonged exposure to outdoor sunlight.
Window glass effectively filters longer wavelength ultraviolet light and provides excellent protection from
sunlight.
Environmental Considerations for models with Lexan® polycarbonate upper housings:
Avoid prolonged exposure to hot water and moist high-temperature environments above 66°C (150°F).
Avoid contact with aromatic hydrocarbons (such as xylene and toluene), halogenated hydrocarbons and
strong alkalis.
Clean periodically using mild soap solution and a soft cloth. Avoid strong alkaline materials.
-20° to +50° C (-4° to +122°F)
90% at 50°C (non-condensing)
Certifications
R
LISTED
Lexan® is a registered trademark of General Electric Co.
534
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
OPTO-TOUCH™ Switches
OPTO-TOUCH Hookup Diagrams
Models with Electromechanical Relay Output
Models with Attached Cable
Models with Quick Disconnect
5-Pin Mini-Style
bn
bn
bu
bu Supply Voltage
Supply Voltage
wh
wh
NC
ye
C
bk
NC
ye
C
bk
NO
NO
DC Models with Solid-State Outputs
NPN (Sinking) Models with Attached Cable
NPN (Sinking) Models with Quick Disconnect
4-Pin Mini-Style
bu
bn
bk
wh
Load
Load
PNP (Sourcing) Models with Attached Cable
bn
bu
bk
wh
bu
bn
bk
wh
-
10 to 30V dc
+
-
10 to 30V dc
+
Load
Load
PNP (Sourcing) Models with Quick Disconnect
4-Pin Mini-Style
+
10 to 30V dc
-
Load
Load
bn
bu
bk
wh
+
10 to 30V dc
-
Load
Load
Quick Disconnect (QD) Option
OPTO-TOUCH switches are sold with either a 2 m (6.5') or a 9 m (30') attached PVC-covered cable, or with a 4- or 5-pin ministyle QD cable fitting.
OPTO-TOUCH switches are identified by the letters “QD” in their model number suffix. Information on mating cables for QD
OPTO-TOUCH switches can be found on page 537 and the Accessories section.
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
535
OPTO-TOUCH™ Switches
OPTO-TOUCH Hookup Diagrams
5-Pin Mini-Style Pin-out
(Cable Connector Shown)
4-Pin Mini-Style Pin-out
(Cable Connector Shown)
White Wire
Brown Wire
Black Wire
White Wire
Blue Wire
Brown Wire
Black Wire
Blue Wire
Yellow Wire
OPTO-TOUCH Dimensions
OPTO-TOUCH with Attached Cable
59.9 mm
(2.36")
43.2 mm
(1.70")
27.9 mm
(1.10")
Cover: Black Polysulfone
or Red Lexan
35.0 mm
(1.38")
Base: Black Fiber
Reinforced Valox
Indicator LEDs are
Visible in These Areas
22.1 mm
(0.87")
1/2" - 14 NPSM Internal Threads
M30 External Threads
Jam Nut, Lock Ring, and
Seal Washers are Supplied
Indicator LED States:
LED 1 Turns ON When the Unit is Powered Up
LED 2 Follows the Action of the Output
OPTO-TOUCH with Quick-Disconnect
13.0 mm
(0.50")
536
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
OPTO-TOUCH™ Accessories
Modifications
Example of Model
Number
Model Suffix
Modification
Description
W/30
9 m (30') cable
All OPTO-TOUCH switches may be ordered with an integral 9 m (30')
cable in place of the standard 2 m (6.5') cable
OTBVN6 W/30
Quick-Disconnect (QD) Cables
Following is the selection of cables available for OPTO-TOUCH QD models. See the Accessories section for more cable information.
Style
Model
Length
Connector
Used with:
4-Pin Euro
MQDC-406
MQDC-415
MQDC-430
2 m (6.5')
5 m (15')
9 m (30')
Straight
All 10-30V dc OPTO-TOUCH QD models
4-Pin Mini
MBCC-406
MBCC-412
MBCC-430
2 m (6.5')
4 m (12')
9 m (30')
Straight
All 10-30V dc OPTO-TOUCH QD models
5-Pin Mini
MBCC-506
MBCC-512
MBCC-530
2 m (6.5')
4 m (12')
9 m (30')
Straight
All OPTO-TOUCH QD models with
electromechanical relay
Field Covers
OPTO-TOUCH field covers are designed to prevent inadvertent activation of OPTO-TOUCHs due to objects (loose clothing, debris, etc.) which
might accidentally block their sensing beam. Field covers are constructed of rugged polycarbonate-PET polyester blend and highly resistant to
abrasion and to damage by most chemicals. NOTE: Each OPTO-TOUCH is supplied with a black field cover.
Model
Description
OTC Series
Field Cover
OTC-1-BK
OTC-1-GN
OTC-1-RD
OTC-1-YW
Black cover
Green cover
Red cover
Yellow cover
74.0 mm
(2.9")
51.0 mm
(2.0")
69.0 mm
(2.7")
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
537
OPTO-TOUCH™ Accessories
Mounting Brackets
Model
Description
Dimensions
SMB30C
56.0 mm
(2.20")
• 30 mm split clamp, black
thermoplastic polyester
bracket
• Stainless steel mounting
hardware included
13 mm
(0.5")
63.0 mm
(2.48")
31.5 mm
(1.24")
13.5 mm (0.53")
Nut Plate
2.5 mm
(0.10")
45.0 mm
(1.77")
SMB30MM
M5 x 0.8
x 80 mm
Screw (2)
25.4 mm
(1.00")
• 30 mm, 11-gauge, stainless
steel bracket with curved
mounting slots for versatility
and orientation
• Clearance for M6 (1/4")
hardware
ø30.1 mm
(1.19")
35.1 mm
(1.38")
7.1 mm
.28 x 90° (2 Slots)
ø 6.4 mm
(0.25" dia.)
57.2 mm
(2.25")
25.4 mm
(1.00")
R 25.4 mm
(1.00")
57.2 mm
35.1 mm
(2.25")
(1.38")
69.9 mm
(2.75")
SMB30SC
• 30 mm swivel, black
reinforced thermoplastic
polyester bracket
• Stainless steel mounting
hardware included
50.8 mm
(2.00")
M30 x 1.5
internal
thread
12.7 mm
(0.50")
58.7 mm
(2.31")
30.0 mm
(1.18")
66.5 mm
(2.62")
538
29.0 mm
(1.14")
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
Remote Sensors and Component Systems
Remote Sensors and
Component Systems
Remote Sensors . . . . . . . . . . . . . . . . . . . . . . . . 540
PICO-AMP™ Amplifier Modules . . . . . . . . . . . . . . . 550
MICRO-AMP™ Amplifier Modules
MA3 Series . . . . . . . . . . . . . . . . . . . . . . . . . 552
MA3-4 Series. . . . . . . . . . . . . . . . . . . . . . . . 554
MA3AF Series . . . . . . . . . . . . . . . . . . . . . . . 556
MPC3 Series . . . . . . . . . . . . . . . . . . . . . . . . 558
MAXI-AMP™ Amplifier Modules
CR Series . . . . . . . . . . . . . . . . . . . . . . . . . . 560
CM Series . . . . . . . . . . . . . . . . . . . . . . . . . . 564
CD Series . . . . . . . . . . . . . . . . . . . . . . . . . . 568
MICRO-AMP Logic Modules . . . . . . . . . . . . . . . . . 572
MAXI-AMP CL Series Logic Modules . . . . . . . . . . . 576
Timing Logic Functions . . . . . . . . . . . . . . . . . . . . 579
MAXI-AMP CI3RC2 Current Trip Point Amplifier . . . . 582
MAXI-AMP CP12 Power Supply Modules . . . . . . . . 584
Remote Sensors Accessories . . . . . . . . . . . . . . . . 587
PICO-AMP Accessories . . . . . . . . . . . . . . . . . . . . 590
MICRO-AMP Accessories. . . . . . . . . . . . . . . . . . . 591
MAXI-AMP Accessories . . . . . . . . . . . . . . . . . . . . 593
!
Remote Sensors & Component Systems are not
suitable for use in personnel safety applications!
See WARNING on inside front cover of catalog.
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
539
Remote Sensors
Remote Sensors
•
SP3, SP8, and SP100 Series sensors are ultra-miniature for mounting
in extremely tight areas of automated machinery; they wire using thin,
highly-flexible cable
•
SP12 Series opposed mode remote sensors are 12 mm barrel
sensors available in thermoplastic polyester or stainless steel and are
designed for severe industrial duty, including high-pressure
washdowns typically found in food processing applications
•
All sensors (except model SP1000V) are epoxy-encapsulated, and
most models feature hermetically-sealed optics
•
Choose compact PICO-AMP and MICRO-AMP amplifiers, or fullfeatured MAXI-AMP amplifiers
Remote Sensors Sensing Mode Options
Opposed
Retroreflective
Non-Polarized
Diffuse
Convergent
Adjustable Field
Glass Fiber Optic
Infrared, 900 nm
Remote Sensors Opposed Mode*
Models*
Range
Housing
Cable Temperature
Compatible
Amplifiers
Excess Gain
Effective Beam = 1.5 mm
SP3ER1
p. 546
SP3ER2
p. 546
SP8ER1
p. 546
SP8ER2
p. 546
Beam Pattern
1000
Parallel
PICO-AMP:
300 mm
Coaxial -20° to +70°C
Black ABS
MD14BB6
(12")
2 m (-5° to +158°C)
MD14BB6Q
(6.5')
E
X
C
E
S
S
SP3ER1/2
SP8ER1/2
SP3ER1/2 Opposed Mode
SP8ER1/2
30 mm
Opposed Mode
100
0.8 in
10 mm
0.4 in
0
G
A
I
N
10
0
10 mm
0.4 in
20 mm
0.8 in
30 mm
1
1 mm
0.04 in
10 mm
.4 in
100 mm
4 in
DISTANCE
1000 mm
33 ft
1.2 in
20 mm
1.2 in
0
75 mm 150 mm 225 mm 300 mm 375 mm
3 in
6 in
9 in
12 in
15 in
DISTANCE
*NOTE: Opposed-mode sensors are shipped in connected pairs (one emitter and one receiver). The emitter includes a yellow LED which is ON
whenever the receiver senses light from its emitter. The housing of the receiver will be the “mirror image” of its corresponding emitter.
See dimension drawings on page 546 for details of the differences between models.
540
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
Remote Sensors
Infrared, 880 nm
Remote Sensors Opposed Mode Emitters (suffix E) and Receivers (suffix R)
Models
Range
Housing
SP100E
p. 546
200 mm
(8")
Thermoplastic
polyester
SP100R
p. 546
Cable Temperature
Compatible
Amplifiers
Excess Gain
Beam Pattern
Effective Beam: 1.3 mm
2-wire
ribbon
2m
(6.5')
1000
0° to +70°C
(+32° to 158°F)
3-wire
ribbon
2m
(6.5')
MICRO-AMP:
MA3
MA3P
MPC3
MAXI-AMP:
CR Series
E
X
C
E
S
S
SP100E/R
SP100E/R
Opposed Mode
37.5 mm
25.0 mm
1.0 in
12.5 mm
0.5 in
0
G
A
I
N
10
1
1 mm
0.04 in
10 mm
0.4 in
100 mm
4.0 in
0
12.5 mm
0.5 in
25.0 mm
1.0 in
37.5 mm
1.5 in
0
1000 mm
40 in
50 mm 100 mm 150 mm 200 mm 250 mm
10 in
2 in
4 in
6 in
8 in
DISTANCE
DISTANCE
Infrared, 880 nm
1.5 in
Opposed Mode
100
LR400/PT400
LR300/PT300
LR250/PT250
LR200/PT200
Remote Sensors Opposed Mode Emitters (prefix LR) and Receivers (prefix PT)
Models
Range
LR200
PT200
p. 546
LR250
PT250
p. 547
LR300
PT300
p. 547
LR400
PT400
p. 547
Housing
Cable Temperature
Compatible
Amplifiers
Excess Gain
Beam Pattern
Effective Beam: 3.6 mm
DELRIN®
-40° to +100°C
(-40° to +212°F)
MICRO-AMP:
MA3-4
MA3-4P
DELRIN®
2.4 m
(8')
1000
2-wire
shielded
2m
Thermo(6.5') -40° to +80°C MAXI-AMP:
plastic
(-40° to +176°F) CM Series
polyester
E
X
C
E
S
S
LR/PT200, 250,
300, 400
300 mm
12 in
Opposed Mode
200 mm
8 in
100 mm
4 in
0
G
A
I
N
10
0
100 mm
4 in
200 mm
8 in
300 mm
1
0.01 m
0.033 ft
0.1 m
0.33 ft
1.0 m
3.3 ft
DISTANCE
Anodized
aluminum
LR/PT200, 250, 300, 400
Opposed Mode
100
10 m
33 ft
12 in
0
0.6 m
2 ft
1.2 m
4 ft
1.8 m
6 ft
2.4 m
8 ft
3. 0 m
10 ft
DISTANCE
-40° to +100°C
(-40° to +212°F)
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
541
Remote Sensors
SP12s
Infrared, 880 nm
SP300EL/RL
Remote Sensors Opposed Mode Emitters (suffix EL) and Receivers (suffix RL)
Models
Range Housing
Compatible
Temperature Amplifiers
Cable
Excess Gain
Beam Pattern
Effective Beam:13 mm
1000
SP300EL
p. 547
15 m
(50')
Anodized
aluminum
2-wire
shielded
2 m (6.5')
SP300RL
p. 547
MICRO-AMP:
MA3-4
-40° to +100°C
MA3-4P
(-40° to +212°F)
MAXI-AMP:
CM Series
E
X
C
E
S
S
SP300EL/RL
Opposed Mode
SP300EL/RL
450 mm
100
12 in
150 mm
6 in
0
G
A
I
N
10
1
0.1 m
0.33 ft
1.0 m
3.3 ft
10 m
33 ft
0
150 mm
6 in
300 mm
12 in
450 mm
18 in
0
100 m
330 ft
3m
10 ft
6m
20 ft
SP12SEL
SP12SRL
p. 547
SP12SELQD
SP12SRLQD
p. 547
15 m
50 ft
12 m
40 ft
Effective Beam: 9.5 mm
Thermo- 2-wire emitter
plastic 3-wire receiver
polyester
2 m (6.5')
60 m
(200')
9m
30 ft
DISTANCE
DISTANCE
SP12PEL
SP12PRL
p. 547
18 in
Opposed Mode
300 mm
1000
2-wire emitter
-40° to +70°C MAXI-AMP:
Stainless
3-wire receiver
(-40° to +158°F) CD Series
steel
2 m (6.5')
E
X
C
E
S
S
SP12
Opposed Mode
SP12
1500 mm
60 in
Opposed Mode
15 ms Response
100
1000 mm
40 in
500 mm
20 in
1.5 ms response
0
G
A
I
N
10
20 in
1000 mm
40 in
1500 mm
1
0.1 m
0.33 ft
Stainless
4-Pin Euro QD
steel
0
500 mm
1.5 ms Response
1.0 m
3.3 ft
10 m
33 ft
0
100 m
330 ft
60 in
15 ms response
12 m
40 ft
24 m
80 ft
36 m
120 ft
48 m
160 ft
60 m
200 ft
DISTANCE
DISTANCE
NOTE: Retroreflective range is specified using one model BRT-3 retroreflector (3" diameter).
Actual sensing range may be more or less than specified, depending upon the efficiency and
reflective area of the retroreflector(s) in use. See page 722 for more information.
Infrared, 880 nm
Remote Sensors Non-Polarized Retroreflective Mode
Models
Range
Housing
Cable Temperature
Compatible
Amplifiers
Excess Gain
Beam Pattern
1000
SP300L
p. 548
4.5 m
(15')
4-wire
Anodized shielded -40° to +80°C
aluminum
2 m (-40° to +176°F)
(6.5')
MICRO-AMP:
MA3-4
MA3-4P
MAXI-AMP:
CM Series
E
X
C
E
S
S
SP300L
Retroreflective Mode
150 mm
100
6 in
100 mm
4 in
50 mm
2 in
0
G
A
I
N
10
0
50 mm
2 in
with BRT-3 Reflector
100 mm
4 in
150 mm
1
0.01 m
0.033 ft
0.1 m
0.33 ft
1.0 m
3.3 ft
DISTANCE
542
SP300L
Retroreflective Mode
10 m
33 ft
6 in
0
1.2 m
4 ft
2.4 m
8 ft
3.6 m
12 ft
4.8 m
16 ft
6.0 m
20 ft
DISTANCE
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
Remote Sensors
Infrared, 900 nm
Remote Sensors Diffuse Mode
Models
Range
Housing
Cable Temperature
Compatible
Amplifiers
Excess Gain
Beam Pattern
Performance based on 90% reflectance white test card
1000
SP3D1
p. 546
50 mm
(1.9")
Parallel
PICO-AMP:
Coaxial -20° to 70°C
Black ABS
MD14BB6
2 m (-5° to +158°C)
MD14BB6Q
(6.5')
E
X
C
E
S
S
SP3D1
Diffuse Mode
100
SP3D1
16 mm
0.6 in
Diffuse Mode
10 mm
0.4 in
5 mm
0.2 in
0
0
10
G
A
I
N
5 mm
0.2in
10 mm
0.4 in
0.6 in
15 mm
1
1 mm
0.04 in
10 mm
.4 in
100 mm
4 in
1000 mm
33 ft
0
10 mm
0.4 in
20 mm
0.8 in
DISTANCE
SP100D
Infrared, 880 nm
SP100DB
30 mm
1.2 in
40 mm
1.6 in
50 mm
2.0 in
DISTANCE
SP300D
LP400WB
SP320D
Remote Sensors Diffuse Mode
Models
Range
Housing Cable Temperature
Compatible
Amplifiers
Excess Gain
Beam Pattern
Performance based on 90% reflectance white test card
1000
Thermoplastic
polyester
SP100D
p. 548
38 mm
(1.5")
SP100DB
p. 548
5-wire
ribbon 0°C to +70°C
2 m (+32° to 158°F)
(6.5')
®
DELRIN
MICRO-AMP:
MA3
MA3P
MPC3
MAXI-AMP:
CR Series
E
X
C
E
S
S
SP100D/SP100DB
Diffuse Mode
2.50 mm
100
0.10 in
SP100D, SP100DB
1.25 mm
Diffuse Mode
0
G
A
I
N
0.05 in
0
10
1.25 mm
0.5 in
2.50 mm
1
0.1 mm
0.004 in
1 mm
0.04 in
10 mm
0.4 in
1.0 in
0
100 mm
4.0 in
7.5 mm 15.0 mm 22.5 mm 30.0 mm 37.5 mm
0.3 in
0.6 in
0.9 in
1.2 in
1.5 in
DISTANCE
DISTANCE
1000
SP300D
p. 548
Anodized
aluminum
300 mm
(12")
SP320D
p. 548
4-wire
shielded -40° to +80°C
2 m (-40° to +176°F)
Thermo- (6.5')
plastic
polyester
MICRO-AMP:
MA3-4
MA3-4P
MAXI-AMP:
CM Series
E
X
C
E
S
S
SP300, SP320D
Diffuse Mode
SP300D, SP320D
Diffuse Mode
15 mm
100
0.4 in
5 mm
0.2 in
0
G
A
I
N
10
0
5 mm
0.2 in
10 mm
0.4 in
15 mm
1
1 mm
0.04 in
10 mm
0.4 in
100 mm
4.0 in
0.6 in
0
1000 mm
40 in
75 mm 150 mm 225 mm 300 mm 375 mm
15 in
3 in
6 in
9 in
12 in
DISTANCE
DISTANCE
Divergent Diffuse
LP400WB
p. 548
76 mm
(3" )
4-wire
Anodized shielded -40° to +80°C
aluminum 2 m (-40° to +176°F)
(6.5')
0.6 in
10 mm
1000
MICRO-AMP:
MA3-4
MA3-4P
MAXI-AMP:
CM Series
E
X
C
E
S
S
LP400WB
LP400WB
Divergent Mode
Divergent Mode
37.5 mm
100
1.5 in
25.0 mm
1.0 in
12.5 mm
0.5 in
0
G
A
I
N
10
0
12.5 mm
0.5 in
25.0 mm
1.0 in
37.5 mm
1
0.1 mm
0.004 in
1 mm
0.04 in
10 mm
0.4 in
DISTANCE
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
100 mm
4.0 in
1.5 in
0
25 mm
1 in
50 mm
2 in
75 mm 100 mm 125 mm
3 in
4 in
5 in
DISTANCE
543
Remote Sensors
SP1000V
SP100CCF
Infrared, 880 nm
SP100C
Remote Sensors Convergent Mode
Models
Focus
Housing
Cable Temperature
Compatible
Amplifiers
Excess Gain
Beam Pattern
Performance based on 90% reflectance white test card
1000
SP100C
p. 549
2.5 mm
(0.1")
Thermoplastic
polyester
SP100CCF
p. 549
5-wire
ribbon 0° to +70°C
2 m (+32° to 158°F)
(6.5')
MICRO-AMP:
MA3
MA3P
MPC3
MAXI-AMP:
CR Series
E
X
C
E
S
S
SP100C/SP100CF
Convergent Mode
SP100C, SP100CF
3.75 mm
100
without Aperture
0.15 in
Convergent Mode
2.50 mm
0.10 in
1.25 mm
0.05 in
0
G
A
I
N
10
0
with Aperture
1.25 mm
with
Aperture
1
0.1 mm
0.004 in
1 mm
0.04 in
0.05 in
without Aperture
2.50 mm
0.10 in
3.75 mm
10 mm
0.4 in
0.15 in
0
100 mm
4.0 in
3.8 mm 7.6 mm 11.4 mm 15.2 mm 19.0 mm
0.15 in 0.30 in 0.45 in 0.60 in 0.75 in
DISTANCE
DISTANCE
1000
96 mm
(3.8")
SP1000V
p. 549
MICRO-AMP:
4-wire
MA3-4
-40° to +80°C
Anodized shielded
MA3-4P
Spot Size
(-40° to
aluminum
2m
at Focus:
+176°F)
(6.5')
MAXI-AMP:
2.5 mm
CM Series
(0.1")
E
X
C
E
S
S
SP1000V
Convergent Mode
SP1000V
Convergent Mode
2.25 mm
100
0.09 in
1.50 mm
0.06 in
.75 mm
0.03 in
0
G
A
I
N
10
0
.75 mm
0.03 in
1.50 mm
0.06 in
2.25 mm
1
1 mm
0.04 in
10 mm
0.4 in
100 mm
4.0 in
1000 mm
40 in
0.09 in
0
25 mm
1 in
50 mm
2 in
75 mm 100 mm 125 mm
3 in
4 in
5 in
DISTANCE
DISTANCE
Infrared, 880 nm
Remote Sensors Adjustable Field Mode
Models
Crossover
Compatible
Point
Housing Cable Temperature Amplifiers
Deviation Curve
SP100AF Deviation Curve
recommended operating range
3-5 mm (.12-.20 inches)
SP100AF
p. 549
2.5 - 4.8 mm
(0.10 - 0.19")
adjustable DELRIN®
with amplifier
setting
4-wire
0° to +70°C MICRO-AMP:
2m
(+32° to 158°F)
MA3AF
(6.5')
1.50 mm
0.06 in
1.25 mm
0.05 in
D
E
V 1.00 mm
I
A 0.75 mm
T
I 0.50 mm
O
N
0.25 mm
0.04 in
0.03 in
0.02 in
0.01 in
0
0
0
2.5 mm
(0.10 in)
3.8 mm
(0.15 in)
5.1 mm
(0.20 in)
6.4 mm
(0.25 in)
DISTANCE
(Referenced to 90% reflectance test card)
544
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
Remote Sensors
Infrared, 880 nm
Remote Sensors Glass Fiber Optic
Models
Range
Housing Cable Temperature
Compatible
Amplifiers
Excess Gain
Beam Pattern
Diffuse mode performance based on 90% reflectance white test card
1000
E
X
C
E
S
S
LR/PT400
Opposed Mode
(no lenses)
LR/PT400
600 mm
100
IT23S Fibers
L16F Lenses
200 mm
LR400
PT400
with (2)
FOF-400
fittings
p. 547 and
p. 587
Range
MICRO-AMP:
varies by
MA3-4
2-wire
sensing
Anodized shielded -40° to +100°C
MA3-4P
mode and
aluminum 2 m (-40° to +212°F)
fiber
MAXI-AMP:
(6.5')
optics
CM Series
used
10
IT13S Fibers
0
L9 Lenses
200 mm
8 in
400 mm
16 in
600 mm
1
1 mm
0.04 in
10 mm
0.4 in
100 mm
4.0 in
16 in
8 in
0
G
A
I
N
24 in
Opposed Mode with IT23S Fibers
400 mm
24 in
0
1000 mm
40 in
4.5 m
15 ft
9.0 m
30 ft
13.5 m
45 ft
18.0 m
60 ft
22.5 m
75 ft
DISTANCE
DISTANCE
1000
E
X
C
E
S
S
LR/PT400
LR/PT400
Diffuse Mode
15 mm
100
0.4 in
BT23S Fiber
5 mm
0
BT23S Fibers
G
A
I
N
0.6 in
Diffuse Mode
10 mm
BT13S Fibers
10 mm
0.4 in
0
BT13S Fiber
10
1
1 mm
0.04 in
5 mm
0.2 in
10 mm
0.4 in
15 mm
100 mm
4.0 in
DISTANCE
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
0.2 in
1000 mm
40 in
0.6 in
0
25 mm
1 in
50 mm
2 in
75 mm 100 mm 125 mm
3 in
4 in
5 in
DISTANCE
545
Remote Sensors
Remote Sensors Dimensions
SP3ER Remote Sensors
Opposed Mode
SP8ER Remote Sensors
Opposed Mode
7.9 mm
(0.31")
7.9 mm
(0.31")
5.9 mm
(0.23")
3.0 mm
(0.12")
Indicator for
Light Sensed
(Emitters only)
Lens
5.9 mm
(0.23")
2.2 mm
(0.09")
5.0 mm
(0.20")
12.0 mm
(0.47")
15.0 mm
(0.59")
3.8 mm
(0.15")
2.3 mm
(0.09")
Indicator for
Light Sensed
(Emitters only)
7.5 mm
(0.30")
Lens
2.2 mm
(0.09")
5.0 mm
(0.20")
2.3 mm
(0.09")
12.0 mm
(0.47")
15.0 mm
(0.59")
7.5 mm
(0.30")
2x ø2.2 mm
(0.09")
2x ø2.2 mm
(0.09")
SP3E1 Emitter
(or SP3R2 Receiver)
SP8E1 Emitter
(or SP8R2 Receiver)
SP3R1 Receiver
(or SP3E2 Emitter)
SP8R1 Receiver
(or SP8E2 Emitter)
SP3D1 Remote Sensors
Diffuse Mode
4.0 mm
(0.15")
3.0 mm
(0.12")
5.0 mm
(0.20")
12.0 mm
(0.47")
15.0 mm
(0.59")
11.7 mm
(0.46")
5.9 mm
(0.23")
2.2 mm
(0.09")
2.3 mm
(0.09")
7.5 mm
(0.30")
2x ø2.2 mm
(0.09")
Indicator
Lenses
SP100E/R Remote Sensors
Opposed Mode
LR200/PT200 Remote Sensors
Opposed Mode
12.7 mm (0.50")
3.8 mm
(0.15")
16.0 mm (0.63")
5.1 mm
(0.20")
ø 3.18 mm (0.125")
Mounting Hole
10.2 mm
(0.40")
16.0 mm
(0.63")
33.3 mm
(1.31")
Jam Nut
(Supplied)
2 m (6.5')
Cable
2.5 mm
(0.10")
3.2 mm
(0.125")
7/16" - 20
Thread
7.9 mm
(0.31")
17.5 mm
(0.69")
2 m (6.5') Cable
3.2 mm
(0.125")
546
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
Remote Sensors
Remote Sensors Dimensions
LR250/PT250 Remote Sensors
Opposed Mode
LR300/PT300 Remote Sensors
Opposed Mode
7.6 mm (0.30")
9.4 mm (0.37")
2 m (6.5') Cable
8.9 mm
(0.35")
13.7 mm
(0.54")
2.36 mm
(0.093")
25.4 mm (1.00")
3 mm (#4) Screw Clearance (2)
2 m (6.5') Cable
6.4 mm (0.25")
2.36 mm
(0.093")
LR400/PT400 Remote Sensors
Opposed Mode
SP300EL/RL Remote Sensors
Opposed Mode
25.4 mm
(1.00")
Red (EL)
Gold (RL)
11.2 mm
(0.44")
48 mm
(1.9")
38.1 mm
(1.50")
31.8 mm
(1.25")
2 m (6.5') Cable
2 Jam Nuts
(Provided)
4 mm (#6) Screw
Clearance (2)
3/8" - 32 Thread
3.3 mm (0.13")
41 mm
(1.6")
12.7 mm
(0.50")
7/16" - 20 Thread
2 m (6.5') Cable
3.3 mm (0.13")
25.4 mm (1.00")
31.8 mm ( 1.25")
SP12 Series Remote Sensors with Cable Attached
Opposed Mode
SP12 Series Remote Sensors with Quick-Disconnect
Opposed Mode
4-Pin Euro-Style
2 m (6.5') Cable
9.6 mm
(0.38")
60.9 mm
(2.40")
12.7 mm
(0.50")
51 mm
(2.0")
12 x 1 mm Thread
(0.47" Max. O.D.)
38 mm (1.5") in Length
Jam Nuts
(Provided)
12 x 1 mm Thread
(0.47" Max. O.D.)
Jam Nuts
(Provided)
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
547
Remote Sensors
Remote Sensors Dimensions
SP300L Remote Sensor
Retroreflective Mode
25.4 mm
(1.00")
SP100D Remote Sensor
Diffuse Mode
Blue
14.0 mm (0.55")
11.2 mm
(0.44")
2.8 mm (0.11")
48 mm
(1.9")
38.1 mm
(1.50")
31.8 mm
(1.25")
10.2 mm
(0.40")
ø 3.18 mm (0.125") Mounting Hole
6.4 mm (0.25")
4 mm (#6) Screw
Clearance (2)
3.3 mm (0.13")
3.2 mm
(0.125")
2 m (6.5') Cable
12.7 mm
(0.50")
7/16" - 20 Thread
2 m (6.5') Cable
3.3 mm (0.13")
6.4 mm (0.25")
25.4 mm (1.00")
31.8 mm ( 1.25")
SP100DB Remote Sensor
Diffuse Mode
SP300D Remote Sensor
Diffuse Mode
25.4 mm
(1.00")
Green
11.2 mm
(0.44")
48 mm
(1.9")
38.1 mm
(1.50")
31.8 mm
(1.25")
2 m (6.5') Cable
10.2 mm
(0.40")
3/8-32 Thread
4 mm (#6) Screw
Clearance (2)
3.3 mm (0.13")
12.7 mm
(0.50")
7/16" - 20 Thread
2 m (6.5') Cable
19.1 mm
(0.75")
ø 8.4 mm
(0.33")
3.3 mm (0.13")
25.4 mm (1.00")
31.8 mm (1.25")
LP400WB Remote Sensor
Divergent Diffuse Mode
SP320D Remote Sensor
Diffuse Mode
8.1 mm (0.32")
11.9 mm (0.47")
2 m (6.5') Cable
3/8" - 32 Thread
2 Jam Nuts
(Provided)
16.0 mm
(0.63")
20.1 mm
(0.79")
2.0 mm
(0.08")
38 mm
(1.5")
2 m (6.5') Cable
3 mm (#4)
Screw Clearance (2)
6.3 mm
(0.25")
3.0 mm
(0.12")
548
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
Remote Sensors
Remote Sensors Dimensions
SP100C Remote Sensors
Convergent Mode
SP100CCF Remote Sensors
Convergent Mode
0.25 mm
(0.01")
ø 3.18 mm (0.125")
Mounting Hole
1.02 mm
(0.04")
4.5 mm (0.177")
10.2 mm (0.40")
20.3 mm
(0.80")
7.6 mm
(0.30")
7.6 mm
(0.30")
2 m (6.5') Cable
Aperture
ø 2.36 mm (0.093")
Mounting Hole
Aperture
4.8 mm
(0.19")
2 m (6.5') Cable
6.4 mm
(0.25")
4.1 mm
(0.16")
11.7 mm
(0.46")
17.8 mm
(0.70")
SP1000V Remote Sensor
Convergent Mode
81 mm
(3.2")
SP100AF Remote Sensor
Adjustable Field Mode
4 mm (#6) Screw
Clearance (2)
11.7 mm
(0.46")
4.06 mm
(0.160")
27.9 mm
(1.10")
2 m (6.5')
Cable
9.7 mm
(0.38")
8.9 mm
(0.35")
ø 3.18 mm (0.125")
Mounting Hole
57.2 mm
(2.25")
25.02 mm
(0.985")
10.16 mm
(0.400")
3.6 mm (0.14") x 45°
14.7 mm
(0.58")
38.1 mm
(1.50")
107 mm
(4.2")
6.4 mm
(0.25")
2 m (6.5') Cable
31.8 mm
(1.25")
19 mm
(0.75")
Beam converges to 3.0 mm (0.12") Dia.
Spot at approximately 96 mm (3.8")
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
549
PICO-AMP™ MD14 Series Amplifier Modules
PICO-AMP MD14 Series Amplifier Modules
*U.S. Patent #4356393
•
Ultra-small remote sensors to fit the tightest locations
•
Three fixed frequency selections or Auto Frequency mode to prevent
crosstalk in multiple-sensor applications
•
Amplifier clips to 35 mm DIN rail for easy mounting
•
Diffuse- or opposed-mode sensors are available
•
Opposed-mode sensors are sold in pairs
•
Opposed-mode range is 300 mm; diffuse-mode range is 50 mm
•
Amplifiers and sensors are sold separately
•
Yellow indicator on emitter signals when light is sensed; Yellow indicator
on amplifier signals light sensed and flashes to indicate marginal excess
gain (between 1.0 and 1.5x)
•
An excellent option for wafer handling applications, small parts sensing
and pharmaceutical applications
PICO-AMP MD14 Series Amplifier Modules
Models
MD14BB6
MD14BB6Q
Supply
Voltage
Response
Output
Saturation
Off-State
Leakage
Compatible
Sensors
PNP Output:
<1V at 10 mA;
<1.5V at 100 mA
10 to 30V dc
See Specifications
SP3ER1
SP3ER2
SP8ER1
SP8ER2
SP3D1
<5 µA
NPN Output:
<0.2V at 10 mA;
<0.75V at 100 mA
Output Type
Bipolar, NPN/PNP
See p. 540
PICO-AMP MD14 Amplifier Hookup Diagrams
With Attached Cable
bn
+
10-30V dc
–
bu
wh
bk
550
With Quick-Disconnect
Load
Load
bn
+
10-30V dc
–
bu
wh
bk
Load
Load
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
PICO-AMP™ MD14 Series Amplifier Modules
PICO-AMP MD14 Amplifier Specifications
Sensor compatibility
PICO-AMP amplifier models MD14BB6 and MD14BB6Q are compatible with the following remote
sensors: SP3ER1, SP3ER2, SP8ER1, SP8ER2, SP3D1 (see p. 540)
Supply voltage and current
10 to 30V dc (10% maximum ripple) at less than 55 mA (exclusive of load)
Supply Protection Circuitry
Protected against reverse polarity and transient voltages.
Output Configuration
Bipolar, one current sourcing (PNP) and one current sinking (NPN) open-collector transistor
Output Rating
100mA maximum, each output
Off-state Leakage Current: less than 5µA
Output Saturation Voltage: PNP output less than 1V @10mA; less than 1.5V @ 100mA
NPN output less than 0.2V @ 10mA; less than 0.75V @ 100mA
Output Protection Circuitry
Protected against false pulse on power-up and continuous overload or short-circuit of outputs
Output Response Time
Frequency Selection
Auto
Freq 1
Freq 2
Freq 3
Response Time
500 µs ON/ 350 µs OFF
350 µs ON/ 250 µs OFF
450 µs ON/ 300 µs OFF
500 µs ON/ 350 µs OFF
NOTE 1: Auto mode defaults to Freq 1 at power-up
NOTE 2: Response time will increase with adjacent sensor interference.
Adjustments/programming
Light/Dark Operate Select switch
OFF-delay Select switch: 0 or 50 ms
4-position Frequency Select switch: Auto, Freq 1, Freq 2, Freq 3
12-turn slotted brass screw Gain (Sensitivity) adjustment potentiometer (clutched at both ends of travel)
Green:
Indicators
ON Steady
Flashing
Yellow: ON Steady
Flashing
=
=
=
=
Power to amplifier is ON
Output is overloaded
Light is sensed
Marginal excess gain (1 to 1.5x) in light condition
Construction
Housing: Yellow polycarbonate/ABS alloy, rated UL94 V-0
Cover: Gray-tinted polycarbonate
DIN spring clip: Yellow Delrin® (acetal)
Environmental Rating
IP50, NEMA 1
Connections
Sensor(s): four M2.5 zinc-plated steel SEMS screws
Power and Outputs: PVC-jacketed 4-conductor 2 m (6.5') or 9 m (30') attached cable, or 4-pin Pico-style
quick-disconnect fitting QD cables are ordered separately (see Accessories)
Operating Conditions
Temperature:
Maximum relative humidity:
Application Notes
Always remove power to amplifier before connecting or disconnecting sensors.
0° to 55° C (32° to 131°F)
90% at 50°C (non-condensing)
Certifications
Delrin® is a registered trademark of Dupont Co.
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
551
MICRO-AMP™ MA3 Series Amplifier Modules
MICRO-AMP MA3 Series Amplifier Modules
•
•
•
•
U.S. Patent #4356393
†
•
•
•
DC photoelectric amplifier modules designed around the
concept of an I/O module; they integrate perfectly with
programmable logic controllers (PLCs)
Models MA3 and MA3P work with the SP100 Series of subminiature remote sensors
Two complementary outputs: one normally open and one
normally closed
- Model MA3: open-collector NPN (sinking) transistors
- Model MA3P: open-collector PNP (sourcing)
transistors
Features Banner’s exclusive† AID™ (Alignment Indicating
Device) signal strength indicating system for sensor
alignment and monitoring
1-millisecond output response
Totally-encapsulated solid-state circuitry; gold-flashed
connector pins
May be mounted directly to a printed circuit board, or wired
using optional RS8 socket or MPS-15 power supply (see
Accessories, pages 591 and 592)
MICRO-AMP MA3 Series Amplifier Modules
Models
Supply
Voltage
Response
Repeatability
of Response
10 to 30V dc
552
Off-State
Leakage
<0.5 V dc
at 10 mA
MA3
MA3P
Output
Saturation
1 ms on/off
0.3 milliseconds
<1 µA
<1V at 10 mA
Compatible
Sensors
SP100 Series
(except
SP100 AF)
See pp. 541,
543, and 544
Output Type
Complementary (SPDT)
NPN
transistors
Complementary (SPDT)
PNP
transistors
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
MICRO-AMP™ MA3 Series Amplifier Modules
MICRO-AMP MA3 Series Amplifier Specifications
Sensor Compatibility
MICRO-AMP amplifier models MA3 and MA3P are compatible with the following remote sensors:
- SP100E and SP100R
(see pp. 541, 543 and 544)
- SP100D
- SP100DB
- SP100C
- SP100CCF
Supply Voltage and Current
10 to 30V dc (10% maximum ripple) at less than 20 mA (exclusive of load)
Output Configuration
MA3: Two complementary (SPDT) open-collector NPN (current sinking) transistors
MA3P: Two complementary (SPDT) open-collector PNP (current sourcing) transistors
Output Rating
150 mA maximum each output
Off-state leakage current less than 1 microamp
Output saturation voltage:
Model MA3: (both outputs) less than 0.5V dc at 10 mA load
Model MA3P: (both outputs) less than 1V dc at 10 mA load
Output Response Time
1 millisecond on and off
Repeatability
0.3 milliseconds
Adjustments
GAIN (Sensitivity) adjustment is a single-turn potentiometer; adjust with small flat-blade screwdriver
Indicators
SIGNAL (red) AID™ System LED lights whenever the sensor sees its modulated light source, and pulses at
a rate proportional to the received signal
Construction
Molded thermoplastic polyester housing with totally encapsulated circuitry; gold-flashed connection pins;
may be mounted directly to printed circuit board or wired using optional RS8 socket or MPS-15 power
supply (see Accessories, pages 591 and 592)
Operating Conditions
Temperature:
0° to +70°C (+32° to 158°F)
Maximum relative humidity: 90% at 50°C (non-condensing)
Application Notes
Limit sensor cable length to 4.5 m (15')
MA3 Series Amplifier Hookup Diagrams
MA3 Amplifier
SP100C
SP100CCF
SP100D
SP100DB
SP100E/R
(Green)
(White)
(Yellow)
Shield
(Black)
(Red)
LED-
7
LED+
8
PT- 1
PT+
2
MA3
Amplifier
(RS8 Socket)
6
Load
5
N/O
Load
Light Operate
N/C
4
Dark Operate
+10-30V dc
dc Common
3
MA3P Amplifier
SP100C
SP100CCF
SP100D
SP100DB
SP100E/R
(Yellow)
Shield
(Green)
LED-
(White)
LED+
(Black)
(Red)
7
8
PT- 1
PT+
2
MA3P
Amplifier
(RS8 Socket)
6
5
Load
N/O
Load
4
3
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
Light Operate
N/C
Dark Operate
+10-30V dc
dc Common
553
MICRO-AMP™ MA3-4 Series Amplifier Modules
MICRO-AMP MA3-4 Series Amplifier Modules
•
•
•
•
U.S. Patent #4356393
†
•
•
•
DC photoelectric amplifier modules designed around the
concept of an I/O module; they integrate perfectly with
programmable logic controllers (PLCs)
Models MA3-4 and MA3-4P are higher-gain amplifiers which
are used with Banner’s complement of high-performance
modulated remote sensors
Two complementary outputs: one normally open and one
normally closed
- Model MA3-4: open-collector NPN (sinking) transistor
- Model MA3-4P: open-collector PNP (sourcing) transistor
Features Banner’s exclusive† AID™ (Alignment Indicating Device)
signal strength indicating system for sensor alignment and
monitoring
1-millisecond output response
Totally-encapsulated solid-state circuitry; gold-flashed
connector pins
May be mounted directly to a printed circuit board, or wired
using optional RS8 socket or MPS-15 power supply (see
Accessories, pages 591 and 592)
MICRO-AMP MA3-4 Series Amplifier Modules
Models
Supply
Voltage
Response
Repeatability
of Response
Off-State
Leakage
<0.5 V dc
at 10 mA
MA3-4
10 to 30V dc
MA3-4P
Output
Saturation
1 ms on/off
0.3 milliseconds
<1 µA
<1V at 10 mA
Compatible
Sensors
LR Series
PT Series
SP300EL/RL
SP300L
SP300D
SP320D
LP400WB
SP1000V
See pp. 541-545
554
Output Type
Complementary (SPDT)
NPN
transistors
Complementary (SPDT)
PNP
transistors
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
MICRO-AMP™ MA3-4 Series Amplifier Modules
MICRO-AMP MA3-4 Series Amplifier Specifications
Sensor Compatibility
MICRO-AMP amplifier models MA3-4 and MA3-4P are compatible with the following remote sensors:
- LR200 and PT200
- SP300L
(see pp. 541-545)
- LR250 and PT250
- SP300D
- LR300 and PT300
- SP320D
- LR400 and PT400
- SP400WB
-SP300EL and SP300RL
- SP1000V
Supply Voltage and Current
10 to 30V dc (10% maximum ripple) at less than 20 mA (exclusive of load)
Output Configuration
MA3-4: Two complementary (SPDT) open-collector NPN (current sinking) transistors
MA3-4P: Two complementary (SPDT) open-collector PNP (current sourcing) transistors
Output Rating
150 mA maximum each output
Off-state leakage current less than 1 microamp
Output saturation voltage:
Model MA3-4: (both outputs) less than 0.5V dc at 10 mA load
Model MA3-4P: (both outputs) less than 1V dc at 10 mA load
Output Response Time
1 millisecond on and off
Repeatability
0.3 milliseconds
Adjustments
GAIN (Sensitivity) adjustment is a single-turn potentiometer; adjust with small flat-blade screwdriver
Indicators
SIGNAL (red) AID™ System LED lights whenever the sensor sees its modulated light source, and pulses at
a rate proportional to the received signal
Construction
Molded thermoplastic polyester housing with totally encapsulated circuitry; gold-flashed connection pins;
may be mounted directly to printed circuit board or wired using optional RS8 socket or MPS-15 power
supply (see Accessories, pages 591 and 592)
Operating Conditions
Temperature:
-40° to +70°C (-40° to +158°F)
Maximum relative humidity: 90% at 50°C (non-condensing)
Application Notes
Limit sensor cable length to 9 m (30')
MA3-4 Series Amplifier Hookup Diagrams
MA3-4 Amplifier
LEDLED+
To Sensor
PTPT+
7
8
1
MA3-4
Amplifier
(RS8 Socket)
2
6
Load
5
N/O
Load
Light Operate
N/C
4
Dark Operate
+10-30V dc
dc Common
3
Shield
MA3-4P Amplifier
LED-
7
LED+
To Sensor
8
PT- 1
PT+
2
MA3-4P
Amplifier
(RS8 Socket)
6
5
Load
N/O
Load
4
3
Light Operate
N/C
Dark Operate
+10-30V dc
dc Common
Shield
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
555
MICRO-AMP™ MA3AF Amplifier Module
MICRO-AMP MA3AF Amplifier Modules
•
Model MA3AF is a specially-designed differential mode
amplifier for use with model SP100AF adjustable-field
sensor
•
Two complementary outputs: one normally open and one
normally closed
•
4-turn potentiometer for maximum range adjustment
•
10-millisecond output response
•
Totally-encapsulated solid-state circuitry; gold-flashed
connector pins
•
May be mounted directly to a printed circuit board, or wired
using optional RS8 socket or MPS-15 power supply (see
Accessories, pages 591 and 592)
MICRO-AMP MA3AF Amplifier Module
Models
MA3AF
556
Supply
Voltage
Response
10 to 30V dc
10 ms on/off
Output
Saturation
Off-State
Leakage
<0.5 V dc
at 10 mA
<1 µA
Compatible
Sensors
SP100AF
See p. 544
Output Type
Complementary (SPDT)
NPN
transistors
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
MICRO-AMP™ MA3AF Amplifier Module
MICRO-AMP MA3AF Amplifier Specifications
Sensor Compatibility
MICRO-AMP amplifier model MA3AF is compatible with remote sensor model SP100AF, p. 544.
Supply Voltage and Current
10 to 30V dc (10% maximum ripple) at less than 20 mA (exclusive of load)
Output Configuration
Two complementary (SPDT) open-collector NPN (current sinking) transistors
Output Rating
150 mA maximum each output
Off-state leakage current less than 1 microamp
Output saturation voltage: (both outputs) less than 0.5V dc at 10 mA load
Output Response Time
10 milliseconds on and off
(NOTE: 100 millisecond delay on power-up: outputs are non-conducting during this time.)
Repeatability
1.6 milliseconds
Adjustments
4-turn potentiometer for maximum range adjustment; adjust with small flat-blade screwdriver
Indicators
SIGNAL (red) LED lights whenever the sensor sees its modulated light source
Construction
Molded thermoplastic polyester housing with totally encapsulated circuitry; gold-flashed connection pins;
may be mounted directly to printed circuit board or wired using optional RS8 socket or MPS-15 power
supply (see Accessories, pages 591 and 592)
Operating Conditions
Temperature:
Maximum relative humidity:
0° to +70°C (+32° to 158°F)
90% at 50°C (non-condensing)
MA3AF Amplifier Hookup Diagram
SP100AF
(White)
(Yellow)
(Black)
(Red)
LEDLED+
7
8
PT- 1
PT+
2
MA3AF
Amplifier
(RS8 Socket)
6
5
Load
N/O
Load
4
3
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
Light Operate
N/C
Dark Operate
+10-30V dc
dc Common
557
MICRO-AMP™ MPC3 Amplifier Module
MICRO-AMP MPC3 Amplifier Modules
†
U.S. Patent #4356393
•
5V dc model MPC3 is specifically designed for mounting
directly onto printed circuit boards in OEM sensing
applications
•
Used together with the SP100 Series of sub-miniature remote
sensors
•
Complementary outputs are conventional CMOS buffered gates
•
Features Banner’s exclusive† AID™ (Alignment Indicating
Device) signal strength indicating system for sensor alignment
and monitoring (LED is supplied by customer)
•
Sensing response time is adjustable downward from
10 milliseconds
•
Supplied with set of eight closed-end jacks for printed circuit
board plug-in mounting
MICRO-AMP MPC3 Amplifier Module
Models
MPC3
Supply
Voltage
Repeatability
of Response
Response
5V dc ±10%
10 ms on/off
(see specifications)
Compatible
Sensors
Output Type
SP100 Series
(except SP100AF)
Complementary (SPDT)
buffered CMOS gates
2.5 milliseconds
See pp. 541, 543
and 544
MPC3 Amplifier Hookup Diagram
+5V dc
AID™
Indicator LED
R f*
Receiver
Phototransistor
2
1
6 8
Model MPC3
* Sensitivity
Adjustment
4
Rs
3
* See
Specifications
7
Light
Dark
Dark
Dark
Dark
Outputs
5
Light
Emitter LED
dc Common
558
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
MICRO-AMP™ MPC3 Amplifier Module
MICRO-AMP MPC3 Amplifier Specifications
Sensor Compatibility
MICRO-AMP amplifier model MPC3 is compatible with the following remote sensors:
- SP100E and SP100R
(see pp. 541, 543 and 544)
- SP100D
- SP100DB
- SP100C
- SP100CCF
Supply Voltage and Current
5V dc ±10% (100 millivolts maximum ripple) at less than 20 mA (exclusive of load)
Output Configuration
The outputs at pins #7 and #8 are conventional CMOS buffered gates.
The output at pin #7 is high in the dark condition and low in the light condition. The output at pin #8 is low
in the dark condition and high in the light condition.
Output Rating
Both outputs will source or sink several milliamps
Circuit Protection
Outputs are short circuit protected. They may be shorted to either the positive or negative supply line
without damage. The emitter output at pin #5 is internally current-limited, and may be grounded
indefinitely. The AID™ output at pin #6 is internally current-limited, and may be connected to the positive
supply indefinitely.
Output Response Time
10 milliseconds on and off
Faster response times are possible by installing a resistor (“Rf” in the he hookup diagram) from pin #2 to
the positive supply (pin #1). The approximate value of Rf is 390KΩ for 5 millisecond response, and 39KΩ
for 1 millisecond response.
NOTE: Faster response reduces the available excess gain and resultant sensor range
Repeatability
2.5 milliseconds (with Rf = 390KΩ)
Adjustments
2,000Ω (2kΩ) is the optimum value for a potentiometer or fixed resistor when Banner sensors are used
Indicators
AID™ System LED (customer supplied) lights whenever the sensor sees its modulated light source, and
pulses at a rate proportional to the received light signal. Current is held to only a few milliamps in order to
minimize power supply requirements. If the indicator LED does not appear bright enough, Banner can
suggest high-brightness LEDs.
Construction
Totally encapsulated circuitry in molded high-impact polystyrene housing
Connections
Closed-end jacks for printed circuit board plug-in mounting are included
Operating Conditions
Temperature:
-40° to +70°C (-40° to +158°F)
Maximum relative humidity: 90% at 50°C (non-condensing)
Application Notes
Limit sensor cable length to 4.5 m (15')
Supply voltage must not exceed 6V dc or be connected in reverse polarity
Install a 0.1 µF capacitor as close as possible to the supply pins of the MPC3 (pins #1 and #3) if voltage
transients are anticipated
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
559
MAXI-AMP™ CR Series Amplifier Modules
MAXI-AMP CR Series Amplifier Modules
•
•
•
•
•
†
U.S. Patent #4356393
•
•
CR series MAXI-AMP modules work with the SP100 series
of sub-miniature remote sensors (except SP100AF)
All models may be powered directly by ac line voltage or by
12 to 28V dc
Stand-alone design combines power supply, photoelectric
amplifier, programmable timing logic (CR5 models), and
output relay in a single, compact plug-in module
All models include Banner’s exclusive† AID™ (Alignment
Indicating Device) signal strength indicating system for
sensor alignment and monitoring
Output response time is programmable for 10, 2, or 0.3
milliseconds
Choose models with a 5-amp SPDT electromechanical
output relay, or with a SPST solid-state ac/dc relay
Choice of models with straight on/off sensing response
(CR3 models) or with programmable 12-function timing
logic (CR5 models)
MAXI-AMP CR Series Amplifier Modules
Models
CR3A
Supply
Voltage
105-130V ac
or 12-28V dc
CR3B
210-250V ac
or 12-28V dc
CR5A
105-130V ac
or 12-28V dc
CR5B
210-250V ac
or 12-28V dc
CR3RA
105-130V ac
or 12-28V dc
CR3RB
210-250V ac
or 12-28V dc
CR5RA
105-130V ac
or 12-28V dc
CR5RB
210-250V ac
or 12-28V dc
560
Output Type
Sensor
Compatibility
Output Timing Logic
SPST solid-state contact
for switching ac loads
up to 250V ac at up to 0.75A, or
up to 30V dc at up to 50 mA
plus SPST NPN transistor
solid-state dc output
ON/OFF
(no timing)
SPST solid-state contact
for switching ac loads
up to 250V ac at up to 0.75A, or
up to 30V dc at up to 50 mA
12 selectable
timing functions
(see pages 579 and 580)
SPDT electromechanical relay,
plus SPST NPN transistor
solid-state dc output
SPDT
electromechanical
relay
SP100 Series
(except SP100AF)
See pp. 541, 543
and 544
ON/OFF
(no timing)
12 selectable
timing functions
(see pages 579 and 580)
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
MAXI-AMP™ CR Series Amplifier Modules
MAXI-AMP CR Series Amplifier Specifications
Sensor Compatibility
MAXI-AMP CR Series amplifier models are compatible with the following remote sensors:
- SP100E and SP100R
(see pp. 541, 543 and 544)
- SP100D
- SP100DB
- SP100C
- SP100CCF
Supply Voltage and Current
Models CR3RA, CR3A, CR5RA and CR5A:
105 to 130V ac (4 VA) or 12 to 28V dc at 70 mA max.
Models CR3RB, CR3B, CR5RB and CR5B:
210 to 250V ac (4 VA) or 12 to 28V dc at 70 mA max.
Output Configuration
Models CR3RA, CR3RB, CR5RA and CR5RB:
SPDT electromechanical relay
Models CR3A, CR3B, CR5A and CR5B:
SPST solid-state relay for switching ac or dc
Output Rating
Models CR3RA, CR3RB, CR5RA and CR5RB (with e/m relay):
Max. switching voltage (resistive load) = 250V ac or 24V dc
Max. switching current (resistive load) = 5A
Min. voltage and current = 12V dc, 0.1A
Mechanical life of relay = 20,000,000 operations
Contact response time = 10 milliseconds max. open/close; 20 operations/sec. max.
Models CR3A, CR3B, CR5A and CR5B (with solid-state output):
Max. voltage and current = 250V ac, 0.75A or 30V dc, 50 mA
CR3 models also have a logic-level current sinking (NPN) transistor output at pin #9; maximum load is 20 mA at 12V dc
Output Response Time
Programmable for 10, 2, or 0.3 milliseconds on and off; add contact response (see above) for
electromechanical output relay models, plus any applicable timing logic delay (CR5 models)
Adjustments
All models: GAIN (Sensitivity) adjustment is a multi-turn, clutched potentiometer; adjust with small flatblade screwdriver
All models: A 4-position DIP switch selects amplifier response, sensing hysteresis (Normal = 20% or Low = 5%),
and light/dark operate
CR5 models: A 10-position DIP switch selects output timing function: ON/OFF (no delay), ON delay, OFF
delay, ON/OFF delay, One-shot (pulse), Delayed one-shot, Limit, Repeat cycle, AC latch, DC
latch, Delay and latch, and Limit and latch; and timing ranges of 0.01 to 0.15 seconds, 0.1
to 1.5 seconds, or 1 to 15 seconds. See logic descriptions on pages 579 and 580.
Timing adjustment is made using two multi-turn, clutched potentiometers; adjust with
small flat-blade screwdriver
Indicators
Signal (red) AID™ System LED lights whenever the sensor sees its modulated light source, and pulses at a
rate proportional to the received light signal
LOAD (red) LED lights whenever the output relay is energized
Construction
NORYL® housing; standard round-pin, 11-pole plug base (use accessory wiring socket model RS-11, see page 593)
Operating Conditions
Temperature:
Maximum relative humidity:
Application Notes
Limit sensor cable length to 4.5 m (15'). Contact factory applications group if longer cable lengths are
required.
0° to +50°C (+32° to 122°F)
90% at 50°C (non-condensing)
Up to three sensors (or emitter/receiver paris) may be connected together to one CR series amplifier for
“OR” operation (light operate) or “NAND” operation (dark operate). Emitters are connected in series, and
receivers are connected in parallel. When wiring two sensors to one MAXI-AMP, multiply excess gain data
for each sensor by 1/2 (obtain data from applicable excess gain curve). When wiring three sensors to one
MAXI-AMP, multiply excess gain by 1/3.
Install transient suppressor (MOV) across contacts which switch inductive loads.
Certifications
NORYL® is a registered trademark of General Electric Co.
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
561
MAXI-AMP™ CR Series Amplifier Modules
MAXI-AMP CR Series Amplifier Hookup to Remote Sensors Diagrams
CR Series with Solid-State Output
Isolated
Solid-state
Contacts:
DC Load
AC Load
Load Common
AC Supply
4
5
6
7
8
CR3A
CR3B
CR5A
CR5B
3
2
1
11
10
9
LED +
LED Common
PT PT +
Auxiliary
CR Series with Electromechanical Relay
SPDT 5A
Relay
Output
AC Supply
562
4
5
6
7
8
CR3RA
CR3RB
CR5RA
CR5RB
3
2
1
11
10
9
LED +
LED Common
PT PT +
Auxiliary
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
MAXI-AMP™ CR Series Amplifier Modules
NOTES:
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
563
MAXI-AMP™ CM Series Amplifier Modules
MAXI-AMP CM Series Amplifier Modules
*U.S. Patent #4356393
•
CM series models are higher-gain amplifiers which are used
with Banner’s complement of high-performance modulated
remote sensors
•
All models may be powered directly by ac line voltage or by
12 to 28V dc
•
Stand-alone design combines power supply, photoelectric
amplifier, programmable timing logic (CM5 models), and
output relay in a single, compact plug-in module
•
All models include Banner’s exclusive† AID™ (Alignment
Indicating Device) signal strength indicating system for
sensor alignment and monitoring
•
Output response time is programmable for 10, 2, or 0.3
milliseconds
•
Choose models with a 5-amp SPDT electromechanical
output relay, or with a SPST solid-state ac/dc relay
•
Choice of models with straight on/off sensing response
(CM3 models) or with programmable 12-function timing
logic (CM5 models)
MAXI-AMP CM Series Amplifier Modules
Models
CM3A
Supply
Voltage
105-130V ac
or 12-28V dc
CM3B
210-250V ac
or 12-28V dc
CM5A
105-130V ac
or 12-28V dc
CM5B
210-250V ac
or 12-28V dc
CM3RA
105-130V ac
or 12-28V dc
CM3RB
210-250V ac
or 12-28V dc
CM5RA
105-130V ac
or 12-28V dc
CM5RB
210-250V ac
or 12-28V dc
564
Output Type
Sensor
Compatibility
SPST solid-state contact
for switching ac loads
up to 250V ac at up to 0.75A, or
up to 30V dc at up to 50 mA
plus SPST NPN transistor
solid-state dc output
SPST solid-state contact
for switching ac loads
up to 250V ac at up to 0.75A, or
up to 30V dc at up to 50 mA
SPDT electromechanical relay,
plus SPST NPN transistor
solid-state dc output
SPDT
electromechanical
relay
Output Timing Logic
ON/OFF
(no timing)
LR Series
PT Series
SP300EL/RL
SP300L
SP320D
LP400WB
SP1000V
See pp. 541-545
12 selectable
timing functions
(see pages 579 and 580)
ON/OFF
(no timing)
12 selectable
timing functions
(see pages 579 and 580)
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
MAXI-AMP™ CM Series Amplifier Modules
MAXI-AMP CM Series Amplifier Specifications
Sensor Compatibility
MAXI-AMP CM Series amplifier models are compatible with the following remote sensors:
- LR200 and PT200
- SP300L
(see pp. 541-545)
- LR250 and PT250
- SP300D
- LR300 and PT300
- SP320D
- LR400 and PT400
- LP400WB
-SP300EL and SP300RL
- SP1000V
Supply Voltage and Current
Models CM3RA, CM3A, CM5RA and CM5A:
105 to 130V ac (4 VA) or 12 to 28V dc at 70 mA max.
Models CM3RB, CM3B, CM5RB and CM5B:
210 to 250V ac (4 VA) or 12 to 28V dc at 70 mA max.
Output Configuration
Models CM3RA, CM3RB, CM5RA and CM5RB:
SPDT electromechanical relay
Models CM3A, CM3B, CM5A and CM5B:
SPST solid-state relay for switching ac or dc
Output Rating
Models CM3RA, CM3RB, CM5RA and CM5RB (with e/m relay):
Max. switching voltage (resistive load) = 250V ac or 24V dc
Max. switching current (resistive load) = 5A
Min. voltage and current = 12V dc, 0.1A
Mechanical life of relay = 20,000,000 operations
Contact response time = 10 milliseconds max. open/close; 20 operations/sec. max.
Models CM3A, CM3B, CM5A and CM5B (with solid-state output):
Max. voltage and current = 250V ac, 0.75A or 30V dc, 50 mA
CM3 models also have a logic-level current sinking (NPN) transistor output at pin #9; maximum load is 20 mA at 12V dc
Output Response Time
Programmable for 10, 2, or 0.3 milliseconds on and off; add contact response (see above) for
electromechanical output relay models, plus any applicable timing logic delay (CM5 models)
Adjustments
All models: GAIN (Sensitivity) adjustment is a multi-turn, clutched potentiometer; adjust with small flatblade screwdriver
All models: A 4-position DIP switch selects amplifier response, sensing hysteresis (Normal = 20% or Low = 5%),
and light/dark operate
CM5 models: A 10-position DIP switch selects output timing function: ON/OFF (no delay), ON delay, OFF
delay, ON/OFF delay, One-shot (pulse), Delayed one-shot, Limit, Repeat cycle, AC latch, DC
latch, Delay and latch, and Limit and latch; and timing ranges of 0.01 to 0.15 seconds, 0.1
to 1.5 seconds, or 1 to 15 seconds. See logic descriptions on pages 579 and 580.
Timing adjustment is made using two multi-turn, clutched potentiometers; adjust with
small flat-blade screwdriver
Indicators
Signal (red) AID™ System LED lights whenever the sensor sees its modulated light source, and pulses at a
rate proportional to the received light signal
LOAD (red) LED lights whenever the output relay is energized
Construction
NORYL® housing; standard round-pin, 11-pole plug base (use accessory wiring socket model RS-11, see page 593)
Operating Conditions
Temperature:
0° to +50°C (+32° to 122°F)
Maximum relative humidity: 90% at 50°C (non-condensing)
Application Notes
Limit sensor cable length to 15 m (50'). Contact factory applications group if longer cable lengths are required.
When splicing extension cable, always use separate two-wire shielded cables for LED and PT connections.
Up to three sensors (or emitter/receiver paris) may be connected together to one CM series amplifier for
“OR” operation (light operate) or “NAND” operation (dark operate). Emitters are connected in series, and
receivers are connected in parallel. When wiring two sensors to one MAXI-AMP, multiply excess gain data
for each sensor by 1/2 (obtain data from applicable excess gain curve). When wiring three sensors to one
MAXI-AMP, multiply excess gain by 1/3.
Install transient suppressor (MOV) across contacts which switch inductive loads.
Certifications
NORYL® is a registered trademark of General Electric Co.
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
565
MAXI-AMP™ CM Series Amplifier Modules
MAXI-AMP CM Series Amplifier Hookup to Remote Sensors Diagrams
CM Series with Solid-State Output
Isolated
Solid-state
Contacts:
DC Load
AC Load
Load Common
AC Supply
4
5
6
7
8
CM3A
CM3B
CM5A
CM5B
3
2
1
11
10
9
LED +
LED Common
PT PT +
Auxiliary
CM Series with Electromechanical Relay
SPDT 5A
Relay
Output
AC Supply
566
4
5
6
7
8
CM3RA
CM3RB
CM5RA
CM5RB
3
2
1
11
10
9
LED +
LED Common
PT PT +
Auxiliary
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
MAXI-AMP™ CM Series Amplifier Modules
NOTES:
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
567
MAXI-AMP™ CD Series Amplifier Modules
MAXI-AMP CD Series Amplifier Modules
MAXI-AMP CD series amplifier modules
(background), shown with
SP12 Series sensors
*U.S. Patent #4356393
•
The CD series is specially-designed for use with the powerful
SP12 opposed mode sensors which are designed for difficult
sensing environments
•
All models may be powered directly by ac line voltage or by
12 to 28V dc
•
Stand-alone design combines power supply, photoelectric
amplifier, programmable timing logic (CD5 models), and
output relay in a single, compact plug-in module
•
All models include Banner’s exclusive† AID™ (Alignment
Indicating Device) signal strength indicating system for
sensor alignment and monitoring
•
Output response time is programmable for 15 or
1.5 milliseconds
•
Choose models with a 5-amp SPDT electromechanical output
relay, or with a SPST solid-state ac/dc relay
•
Choice of models with straight on/off sensing response
(CD3 models) or with programmable 12-function timing logic
(CD5 models)
MAXI-AMP CD Series Amplifier Modules
Models
CD3A
Supply
Voltage
105-130V ac
or 12-28V dc
CD3B
210-250V ac
or 12-28V dc
CD5A
105-130V ac
or 12-28V dc
CD5B
210-250V ac
or 12-28V dc
CD3RA
105-130V ac
or 12-28V dc
CD3RB
210-250V ac
or 12-28V dc
CD5RA
105-130V ac
or 12-28V dc
CD5RB
210-250V ac
or 12-28V dc
568
Output Type
Sensor
Compatibility
Output Timing Logic
SPST solid-state contact
for switching ac loads
up to 250V ac at up to 0.75A, or
up to 30V dc at up to 50 mA
plus SPST NPN transistor
solid-state dc output
ON/OFF
(no timing)
SPST solid-state contact
for switching ac loads
up to 250V ac at up to 0.75A, or
up to 30V dc at up to 50 mA
12 selectable
timing functions
(see pages 579 and 580)
SP12SEL &
SP12SRL
SP12PEL &
SP12PRL
SPDT electromechanical relay,
plus SPST NPN transistor
solid-state dc output
SPDT
electromechanical
relay
See p. 542
ON/OFF
(no timing)
12 selectable
timing functions
(see pages 579 and 580)
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
MAXI-AMP™ CD Series Amplifier Modules
MAXI-AMP CD Series Amplifier Specifications
Sensor Compatibility
MAXI-AMP CD Series amplifier models are compatible with the following remote sensors:
- SP12SEL and SP12SRL
- SP12PEL and SP12PRL
Supply Voltage and Current
Models CD3RA, CD3A, CD5RA and CD5A:
105 to 130V ac (4 VA) or 12 to 28V dc at 70 mA max.
Models CD3RB, CD3B, CD5RB and CD5B:
210 to 250V ac (4 VA) or 12 to 28V dc at 70 mA max.
Output Configuration
Models CD3RA, CD3RB, CD5RA and CD5RB:
SPDT electromechanical relay
Models CD3A, CD3B, CD5A and CD5B:
SPST solid-state relay for switching ac or dc
Output Rating
Models CD3RA, CD3RB, CD5RA and CD5RB (with e/m relay):
Max. switching voltage (resistive load) = 250V ac or 24V dc
Max. switching current (resistive load) = 5A
Min. voltage and current = 12V dc, 0.1A
Mechanical life of relay = 20,000,000 operations
Contact response time = 10 milliseconds max. open/close; 20 operations/sec. max.
Models CD3A, CD3B, CD5A and CD5B (with solid-state output):
Max. voltage and current = 250V ac, 0.75A or 30V dc, 50 mA
CD3 models also have a logic-level current sinking (NPN) transistor output at pin #9; maximum load is
20 mA at 12V dc
Output Response Time
Programmable for 1.5 or 15 milliseconds ON and OFF; add contact response (see above) for
electromechanical output relay models, plus any applicable timing logic delay (CD5 models)
Adjustments
All models: GAIN (Sensitivity) adjustment is a multi-turn, clutched potentiometer; adjust with small flatblade screwdriver
All models: A 4-position DIP switch selects amplifier response, modulating frequency “A” or “B” (to minimize
adjacent emitter/receiver pair optical crosstalk), and light or dark operate
CD5 models: A 10-position DIP switch selects output timing function: ON/OFF (no delay), ON delay, OFFdelay, ON/OFF delay, One-shot (pulse), Delayed one-shot, Limit, Repeat cycle, AC latch, DC
latch, Delay and latch, and Limit and latch; and timing ranges of 0.01 to 0.15 seconds, 0.1
to 1.5 seconds, or 1 to 15 seconds. See logic descriptions on pages 579 and 580.
Timing adjustment is made using two multi-turn, clutched potentiometers; adjust with
small flat-blade screwdriver
Indicators
Signal (red) AID™ System LED lights whenever the sensor sees its modulated light source, and pulses at a
rate proportional to the received light signal
LOAD (red) LED lights whenever the output relay is energized
Construction
NORYL® housing; standard round-pin, 11-pole plug base (use accessory wiring socket model RS-11, see page 593)
Operating Conditions
Temperature:
0° to +50°C (+32° to 122°F)
Maximum relative humidity: 90% at 50°C (non-condensing)
Application Notes
Limit sensor cable length to 30 m (100'). Contact factory applications group if longer cable lengths are
required. When splicing extension cable, always use separate two-wire shielded cables for LED and PT
connections (never combine emitter and receiver wires in one cable).
One (only) SP12 emitter/receiver pair may be connected to a CD series amplifier module.
Install transient suppressor (MOV) across contacts which switch inductive loads.
Certifications
NORYL® is a registered trademark of General Electric Co.
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
569
MAXI-AMP™ CD Series Amplifier Modules
MAXI-AMP CD Series Amplifier Hookup to Remote Sensors Diagrams
CD Series with Solid-State Output
Isolated
Solid-state
Contacts:
DC Load
AC Load
Load Common
AC Supply
4
5
6
7
8
CD3A
CD3B
CD5A
CD5B
3
2
1
11
10
9
LED +
LED Common
PT PT +
Auxiliary
CD Series with Electromechanical Relay
SPDT 5A
Relay
Output
AC Supply
570
4
5
6
7
8
CD3RA
CD3RB
CD5RA
CD5RB
3
2
1
11
10
9
LED +
LED Common
PT PT +
Auxiliary
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
MAXI-AMP™ CD Series Amplifier Modules
NOTES:
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
571
MICRO-AMP™ Logic Modules
MICRO-AMP Logic Modules
•
MICRO-AMP logic modules are 10 to 30V dc devices used
for add-on output timing control or for multiple-sensor logic
functions
•
Inputs respond to logic “low” signals of 1-millisecond
duration or longer derived from switches or relay contacts, or
from dc sensors or amplifiers with an NPN (current sinking)
output
•
Outputs are complementary (SPDT) open-collector NPN
(current sinking) transistors
•
Totally-encapsulated solid-state circuitry; gold-flashed
connector pins
•
May be mounted directly to a printed circuit board, or wired
using an optional RS8 socket or MPS-15 power supply (see
Accessories, pages 591 and 592)
MICRO-AMP model MA4G shown
MICRO-AMP Logic Modules
Models
Type
Logic
Functions
Timing Ranges
Timing Diagrams
Hold
Pulse
Retriggerable
One-shot
Pulse
OUTPUT
0.001 to 0.1 seconds
MA4-2
One-shot
(Pulse)
0.01 to 1.0 second
Nonretriggerable
One-shot
INPUT
Pulse
1.0 to 15 seconds
Pulse
Pulse
OUTPUT
INPUT
Delay
OUTPUT
On-delay
0.01 to 1.0 second
MA5
INPUT
Delay
1.0 to 15 seconds
Hold
Hold
OUTPUT
Off-delay
INPUT
MA4G
572
4-input
Gate
2, 3, or 4-input
AND Gate
None
Normally-open output energizes when all inputs are:
simultaneously low
= AND function
simultaneously high
= NOR function
simultaneously either low or high = x-NOR function
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
MICRO-AMP™ Logic Modules
MICRO-AMP Logic Modules
Models
Type
Logic
Functions
Timing Ranges
Timing Diagrams
OUTPUT
Set/reset
Latch
SET
RESET
OUTPUT
MA4L
Latch Logic
Edge-triggered
Latch
None
INPUT
RESET
Flip-flop
(Divide by 2)
OUTPUT
INPUT
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
573
MICRO-AMP™ Logic Modules
MICRO-AMP Logic Module Specifications
Supply Voltage and Current
10 to 30V dc (10% maximum ripple) at less than 20 mA (exclusive of load)
Inputs
Inputs respond to a logic “low” signal. A logic “low” must be less than 2V dc; a logic “high” is at least 6V dc, or
an open circuit. Inputs must be capable of sinking at least 4 milliamps. Inputs may be derived from limit
switches or relay contacts or from dc sensors or amplifiers with NPN (current sinking) output transistors.
NOTE: models MA4L and MA5 may be programmed to respond to “high-going” signals.
Input Response Time
All inputs will respond to a signal of 1 millisecond duration or longer
Output Configuration
Two complementary (SPDT) open-collector NPN (current sinking) transistors
Output Rating
150 mA maximum, each output
Off-state leakage current less than 1 microamp
Output saturation voltage less than 0.5V dc at 10 milliamps
Adjustments
Models MA4-2, MA5: A single-turn potentiometer allows adjustment of pulse or delay timing within the
selected time range (use small flat-bladed screwdriver)
Model MA4G: A single-turn potentiometer selects the logic mode: Fully clockwise = NOR mode; fully
counterclockwise = AND mode; midpoint = X-NOR (exclusive “NOR”) mode
Model MA4L: A single-turn potentiometer selects the input response polarity: Fully clockwise = high-going
transition; fully counterclockwise = low-going transition
Indicators
Red LED indicator on the top of the module lights whenever the N/O output is conducting
Construction
Circuitry is totally epoxy-encapsulated in molded thermoplastic polyester housing; gold-flashed connection pins
Connections
Solder directly to printed circuit board, or use sockets RS8 or RS8K (see Accessories, page 591)
Operating Conditions
Temperature:
0° to +70°C (+32° to 158°F)
Maximum relative humidity: 90% at 50°C (non-condensing)
MICRO-AMP Logic Module Hookup Diagrams
MA4-2 One-Shot Module
Input
7
Inhibit
8
1
1 to 15 second pulse time
range select (connect to pin #3)
.01 to 1 second pulse time
range select (connect to pin #3)
574
2
MA4-2
One-shot
logic module
(RS8 Socket)
6
5
4
3
Load
N/O
Load
N/C
+10-30V dc
dc Common
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
MICRO-AMP™ Logic Modules
MICRO-AMP Logic Module Hookup Diagrams
MA5 Delay Logic Module
Input
OFF DELAY set
(connect to pin #3)
Input Invert select
(connect to pin #3)
1 to 15 second delay time
range select (connect to pin #3)
7
8
1
2
MA5
Delay Logic
Module
(RS8 Socket)
6
Load
5
N/O
Load
N/C
4
+10-30V dc
dc Common
3
MA4G 4-Input Gate Module
Input
7
Input
Input
8
1
Input
2
MA4G
4-input gate
module
(RS8 Socket)
6
Load
5
N/O
Load
N/C
4
+10-30V dc
dc Common
3
MA4L Latch Logic Module
Input
7
Inhibit
8
1
Reset
Set
2
MA4L
Latch Logic
Module
(RS8 Socket)
6
5
Load
N/O
Load
4
3
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
N/C
+10-30V dc
dc Common
575
MAXI-AMP™ Logic Modules
MAXI-AMP CL Series Logic Modules
•
CL series MAXI-AMP modules combine sensor power
supply, output relay, and programmable timing logic (CL5
models) in a stand-alone, cost-saving package
•
All models may be powered directly by ac line voltage or by
12 to 28V dc
•
CL5 models offer 12 programmable popular timing functions
(see pages 579 and 580) and choice of three timing ranges
•
Compatible with any dc sensor or amplifier module with an
NPN (sinking) output, switch or relay “hard” contacts or the
output of an optical coupler (see specifications)
•
Any number of switched output devices may be connected in
parallel to the input for multiple-sensor logic
•
Logic functions of CL5 models may be gated by connection
of a dc sensor or switch contact to the “Auxiliary” input (see
logic descriptions on pages 579 and 580)
•
1-millisecond input response
•
Choose models with 5-amp SPDT electromechanical output
relay, or with a SPST solid-state ac/dc relay
MAXI-AMP CL Series Logic Modules
Models
Compatible
Inputs
Supply
Voltage
105-130V ac
or 12-28V dc
CL3A
CL3B
210-250V ac
or 12-28V dc
CL5A
105-130V ac
or 12-28V dc
CL5B
CL3RA
NPN (sinking)
output of any dc
sensor or amplifier,
switch contacts, or
optical couplers
210-250V ac
or 12-28V dc
105-130V ac
or 12-28V dc
CL3RB
210-250V ac
or 12-28V dc
CL5RA
105-130V ac
or 12-28V dc
CL5RB
210-250V ac
or 12-28V dc
576
Output Type
Output Timing Logic
SPST solid-state contact
for switching ac loads
up to 250V ac at up to 0.75A, or
up to 30V dc at up to 50 mA
plus SPST NPN transistor
solid-state dc output
ON/OFF
(no timing)
SPST solid-state contact
for switching ac loads
up to 250V ac at up to 0.75A, or
up to 30V dc at up to 50 mA
12 selectable
timing functions
(see pages 579 and 580)
SPDT electromechanical relay,
plus SPST NPN transistor
solid-state dc output
ON/OFF
(no timing)
SPDT
electromechanical
relay
12 selectable
timing functions
(see pages 579 and 580)
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
MAXI-AMP™ Logic Modules
MAXI-AMP CL Series Logic Module Specifications
Supply Voltage and Current
Models CL3RA, CL3A, CL5RA and CL5A:
105 to 130V ac (4 VA) or 12 to 28V dc at 70 mA max.
Models CL3RB, CL3B, CL5RB and CL5B:
210 to 250V ac (4 VA) or 12 to 28V dc at 70 mA max.
Input Compatibility
MAXI-AMP CL series logic models are compatible with any dc sensor or amplifier module with an NPN
(sinking) output; any switch (e.g. an electromechanical relay) contact, or the output of an optical coupler
Input Characteristics
Input is switched when the voltage at pin #2 is pulled below 1V dc, or when less than 1KΩ is connected
between pins #1 and #2. When an inverting jumper is connected between pins #10 and #11, the input is
switched when the voltage at pin #2 rises above 4.5V dc, or when the impedance between pins #2 and #1
exceeds 15KΩ.
Output Configuration
Models CL3RA, CL3RB, CL5RA and CL5RB:
SPDT electromechanical relay
Models CL3A, CL3B, CL5A and CL5B:
SPST solid-state relay for switching ac or dc
Output Rating
Models CL3RA, CL3RB, CL5RA and CL5RB (with e/m relay):
Max. switching voltage (resistive load) = 250V ac or 24V dc
Max. switching current (resistive load) = 5A
Min. voltage and current = 12V dc, 0.1A
Mechanical life of relay = 20,000,000 operations
Contact response time = 10 milliseconds max. open/close; 20 operations/sec. max.
Models CL3A, CL3B, CL5A and CL5B (with solid-state output):
Max. voltage and current = 250V ac, 0.75A or 30V dc, 50 mA
CL3 models also have a logic-level current sinking (NPN) transistor output at pin #9; maximum load is
20 mA at 12V dc
Output Response Time
1 millisecond on and off; add contact response (see above) for electromechanical output relay models,
plus any applicable timing logic delay (CL5 models)
Current Available for
Powering External
dc Devices
50 mA max. at 120V ac (240V ac) line level
40 mA max. at 105 V ac (210V ac) line level
Adjustments
CL5 models: A 10-position DIP switch selects output timing function: On/Off (no delay), On delay, Off
delay, On/Off delay, One-shot (pulse), Delayed one-shot, Limit, Repeat cycle, AC latch, DC
latch, Delay and latch, and Limit and latch; and timing ranges of 0.01 to 0.15 seconds, 0.1
to 1.5 seconds, or 1 to 15 seconds. See logic descriptions on pages 579 and 580.
Timing adjustment is made using two multi-turn, clutched potentiometers; adjust with
small flat-blade screwdriver
Indicators
Signal (red) LED lights whenever input signal is present
LOAD (red) LED lights whenever the output relay is energized
Construction
NORYL® housing; standard round-pin, 11-pole plug base (use accessory wiring socket model RS-11, see page 593)
Operating Conditions
Temperature:
Maximum relative humidity:
Application Notes
Any number of switched output devices may be connected in parallel to the input
0° to +50°C (+32° to 122°F)
90% at 50°C (non-condensing)
Install transient suppressor (MOV) across contacts which switch inductive loads
Certifications
NORYL® is a registered trademark of General Electric Co.
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
577
MAXI-AMP™ Logic Modules
MAXI-AMP CL Series Logic Module Hookup Diagrams
CL Logic Module with Solid-State Output
Isolated
Solid-state
Contacts:
DC Load
AC Load
Load Common
AC Supply
4
5
6
7
8
CL3A
CL3B
CL5A
CL5B
3
2
1
11
10
9
+15V dc
Input
Common
Invert
Auxiliary
CL Logic Module with Electromechanical Relay
SPDT 5A
Relay
Output
AC Supply
578
4
5
6
7
8
CL3RA
CL3RB
CL5RA
CL5RB
3
2
1
11
10
9
+15V dc
Input
Common
Invert
Auxiliary
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
Timing Logic Functions
Timing Logic Functions for Models CD5, CL5, CM5 and CR5 Amplifier Modules
Timing
Function
On/Off
On Delay
Off Delay
On/Off Delay
One-shot
Delayed
One-shot
Limit
Description
On/Off operation does not involve timing. The output simply follows the action of the input
signal. Grounding pin #9 (AUXILIARY) turns the output “OFF”, regardless of the state of the
input signal. This may be accomplished by closing a switch or relay contact between pins
#9 and #1 (common), or by connecting an open collector NPN (current sinking) output of
any external dc device directly to pin #9. NOTE: connect the COMMON of any external dc
device to pin #1 of the MAXI-AMP to establish a voltage reference between the dc supply
for the external device and the internal dc supply of the MAXI-AMP.
The On Delay timer keeps the output “OFF” until the selected LIGHT or DARK signal has
been present for the preset “Delay” time. If the input signal is interrupted, the timing is
reset and starts over with the next signal. Grounding pin #9 immediately cancels an
output in progress and resets the delay timer. The delay timer is restarted when the
inhibit signal is removed, if an input signal is present.
The output energizes immediately when the input signal occurs, but does not deenergize until the signal has been removed for the preset Off Delay (“HOLD”) time.
Grounding pin #9 prevents an output from occurring. If an inhibit input occurs during
an output, the output remains “ON” for the remainder of the Off Delay time.
On and Off Delay logic combines both timing functions into a single mode. The On
Delay (“Delay”) time and the Off Delay (“HOLD”) time are independently adjustable
within the selected time range. Momentary grounding of pin #9 during the On Delay
period resets the Delay timer. An inhibit signal which occurs during an output will allow
the output to stay energized for the remainder of the Off Delay time. On and Off Delay
logic is often used in jam and void control, high/low level control, and edge-guiding
applications.
The output of a One-shot function is a pulse of adjustable duration which is
independent of the duration of the input signal. With the MAXI-AMP programmed for
LIGHT operate, the pulse occurs when the input signal changes from dark to light. In
DARK operate, the pulse occurs with a light to dark input transition. Grounding pin #9
prevents the one-shot from triggering, but does not affect a pulse already under way.
Delayed One-shot: A Delayed One-shot is initiated by either a momentary or maintained
input signal. This input starts the adjustable “Delay” period, after which the output
pulses for an adjustable time. No further action occurs unless the input is removed and
reapplied, beginning a new sequence. Grounding pin #9 during the delay period will
cancel the sequence, and no output occurs. This feature is often used for
inspection/rejection control logic. An inhibit signal will not affect a pulse under way.
The output of the Limit function follows the action of the input, as it does with the ON/OFF
function. However, an input signal which is longer than the adjustable Limit (“HOLD”)
time will turn the output “OFF”. Removing the input signal resets the timer. This function
is sometimes called. “Time Limited ON/OFF”, and is useful for energy conservation.
Grounding pin #9 cancels the output. Lifting the inhibit restarts the Limit timer, if an input
signal is present.
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
Timing Diagram
OUTPUT
SIGNAL
Delay
OUTPUT
SIGNAL
Hold
Hold
OUTPUT
SIGNAL
Delay
Hold
OUTPUT
SIGNAL
Pulse
Pulse
OUTPUT
SIGNAL
Delay Pulse
Delay Pulse
OUTPUT
SIGNAL
Hold
OUTPUT
SIGNAL
579
Timing Logic Functions
Timing Logic Functions for Models CD5, CL5, CM5 and CR5 Amplifier Modules
Timing
Function
Repeat
Cycle
AC Latch
Description
The Repeat Cycle function provides an oscillating output when an input signal is
present. Presence of an input signal triggers an adjustable “Delay” timer. After the
delay, the output energizes for an adjustable “HOLD” period. If the input remains, the
output continues to cycle “ON” and “OFF” at this rate indefinitely. When the signal is
removed, any output in progress completes and then remains “OFF” until the next
signal and Delay period. Grounding pin #9 cancels the sequence, but will allow the
completion of a “HOLD” period in progress. Lifting the inhibit signal begins the Delay
period, if an input signal is present.
An AC Latch is the combination of a One-shot and a Latch. A momentary or sustained
input will latch the output “ON”. Grounding pin #9 will reset the latch, even if the input
signal remains. The output will not re-latch until the input signal is removed and then
reapplied.
Timing Diagram
Delay Hold Delay Hold Delay Hold
OUTPUT
SIGNAL
RESET
OUTPUT
SIGNAL
DC Latch
The output will latch “ON” whenever the selected LIGHT or DARK input condition
occurs. Grounding pin #9 of a dc latch will turn the output "OFF" regardless of the
state of the input signal. If the signal is present when the reset is removed, the output
will immediately latch “on” again.
RESET
OUTPUT
SIGNAL
Delay
Delay and
Latch
The Delay and Latch is a combination of the On-Delay and DC Latch functions. An
input must be present for at least the adjustable “Delay” time for the output to latch
“ON”. If the input signal is removed during the timing cycle, the timing is reset.
Momentary grounding of pin #9 resets the latch and/or the Delay timing cycle.
Sustained grounding of pin #9 inhibits any output.
RESET
OUTPUT
SIGNAL
Hold
Limit and
Latch
580
The Limit and Latch operates exactly like the Limit function, except that the Limit
(“HOLD”) timer can be reset only by the auxiliary input. An output remains latched
“OFF” until reset by momentarily grounding pin #9. In addition to resetting the timer,
grounding pin #9 will hold the output "OFF", regardless of the state of the input signal.
RESET
OUTPUT
SIGNAL
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
Timing Logic Functions
NOTES:
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
581
Current Trip Point Amplifier
CI3RC2 Current Trip Point Amplifier
•
•
•
•
•
•
•
Current trip point amplifier for use with Banner SMI series
intrinsically safe dc sensors
Works with an intrinsically safe barrier to convert the current
output signal from an SMI30 series opposed mode receiver or
from any SMI912 VALU-BEAM® sensor to a trip point switch
Powered by 105 to 130V ac or 210 to 250V ac
Powers a single intrinsically safe sensor or both the emitter
and receiver of an opposed mode pair
Offers two output devices: SPDT 5 amp electromechanical
relay and an opto-isolated transistor for logic level dc
switching
Wires using accessory 11-pin socket model RS-11
(see page 593)
Also available as part of an intrinsic safety kit which includes
the intrinsic safety barrier(s) and mounting hardware
Current Trip Point Amplifier
Models
CI3RC2
Supply
Voltage
105-130V ac
or
210-250V ac
Input Requirements
≤10 milliamps “Off”
≥20 milliamps “On”
Sensor
Compatibility
SMI912 series
(p. 356)
SMI30 series
(p. 290)
Output Type
SPDT
Electromechanical relay
and
SPST solid-state dc relay
Intrinsic Safety Kits
Model
Description
CI2BK-1
Kit includes a CI3RC2 current amplifier, one RS-11 socket, one DINrail mount, and one single-channel intrinsically safe barrier (barriers
also sold separately - see below)
CI2BK-2
Typically used in Opposed Mode setups, this kit includes a CI3RC2 current
amplifier, one RS-11 socket, one DIN-rail mount, and dual-channel
intrinsically safe barrier (barriers also sold separately - see below)
CIB-1
Single-channel barrier
CI2B-1
Dual-channel barrier
582
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
Current Trip Point Amplifier
CI3RC2 Current Trip Point Amplifier Specifications
Sensor Compatibility
SMI30 series sensors (see page 290)
SMI912 series sensors (see page 356)
Supply Voltage and Current
105 to 130V ac or 210 to 250V ac (8 VA)
Input Requirements
Trip point for output “off”: ≤10 milliamps
Trip point for output “on”: ≥20 milliamps
Trip point range for input overload indication: 30 mA ≤1 ≤80 mA
Output Configuration
SPDT electromechanical relay, plus
SPST optically-coupled solid-state relay for switching dc
Output Rating
Electromechanical relay:
Max. switching voltage (resistive load) = 250V ac or 24V dc
Max. switching current (resistive load) = 5A
Min. voltage and current = 12V dc, 0.1A
Mechanical life of relay = 20,000,000 operations
Contact response time = 10 milliseconds max. open/close; 20 operations/sec. max.
Solid-state dc output:
Max. voltage and current = 30V dc, 20 mA
Indicators
OUTPUT (red) LED lights whenever electromechanical relay and solid state relay are energized
INPUT (red) LED lights whenever input is overloaded or short circuited
Construction
NORYL® housing; standard round-pin, 11-pole plug base (use accessory wiring socket model RS-11, see page 593)
Operating Conditions
Temperature:
0° to +50°C (+32° to 122°F)
Maximum relative humidity: 90% at 50°C (non-condensing)
Application Notes
This amplifier must be used with appropriate intrinsic safety barriers for the sensing system to be certified
as intrinsically safe. See the hookup diagrams for the sensors to be used.
Install transient suppressor (MOV) across contacts which switch inductive loads
Certifications
NORYL® is a registered trademark of General Electric Co.
CI3RC2 Current Trip Point Amplifier Hookup Diagram
Output Relay
250V ac max.
24V dc max.
5A max.
110V ac
AC Supply
8VA
50/60 Hz
220V ac
4
5
6
7
8
CI3RC2
3
2
1
11
10
9
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
Aux. Input
Input
Common
Output
30V dc max.
20 mA max.
583
MAXI-AMP™ Power Supply Modules
MAXI-AMP CP Series Power Supply Modules
•
CP series power supply modules provide a convenient
source of power for Banner dc sensing devices; supply
capacity to 400 milliamps
•
Designed to accept either 120 or 220/240V ac input voltage
(see hookup diagrams)
•
Model CP12RC includes SPDT 5-amp rated electromechanical relay which may be switched by the output of dc
sensors or modules
•
Wires using standard round-pin 11-pole relay socket (use
model RS-11, see Accessories, page 593)
CP Series Power Supply Modules
Models
Supply
Voltage
Output Power
Output Switch
CP12C
None
105-130V ac
or
210-250V ac
400 milliamps maximum for
10-30V dc sensing devices
SPDT 5A
E/m relay
CP12RC
MAXI-AMP CP Series Load Curve
Output Voltage (V dc)
Voltage Regulation Versus Load
130V ac (250V ac) Input
25
115V ac (230V ac) Input
20
15
105V ac (210V ac) Input
10
0
584
50
100 150 200 250 300
Output Current Draw (milliamps)
350
400
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
MAXI-AMP™ Power Supply Modules
MAXI-AMP CP Series Specifications
Supply Voltage and Current
105 to 130V ac or 210 to 250V ac, depending on wiring (see hookup diagrams)
Output Voltage
See load curve
Output Current
400 milliamps, maximum
Output Configuration
Model CP12RC (only): SPDT electromechanical relay
The relay is energized by an NPN (sinking) device connected at pin #2, or PNP (sourcing) device at pin #8
(see hookup diagrams)
Output Rating
Model CP12RC (only):
Max. switching voltage (resistive load) = 250V ac or 24V dc
Max. switching current (resistive load) = 5A
Min. voltage and current = 12V dc, 0.1A
Mechanical life of relay = 20,000,000 operations
Contact response time = 10 milliseconds max. open/close; 20 operations/sec. max.
Construction
NORYL® housing; standard round-pin, 11-pole plug base (use accessory wiring socket model RS-11, see page 593)
Operating Conditions
Temperature:
0° to +50°C (+32° to 122°F)
Maximum relative humidity: 90% at 50°C (non-condensing)
Application Notes
Install transient suppressor (MOV) across contacts which switch inductive loads
Certifications
NORYL® is a registered trademark of General Electric Co.
MAXI-AMP CP Series Hookup Diagrams
CP12C-120V
105-130V ac
4
5
6
7
8
CP12C
CP12C-220V
3
2
1
11
10
9
+V output
dc Common
210-250V ac
4
5
6
7
8
CP12C
CP12RC-120V
105-130V ac
Sourcing Input
4
5
6
7
8
+12V
CR
CR
CP12RC
3
2
1
11
10
9
+V output
dc Common
CP12RC-220V
3
2
1
11
10
9
+V output
Sinking Input
dc Common
Relay Output
5 Amp Contacts
210-250V ac
Sourcing Input
4
5
6
7
8
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
+12V
CR
CR
CP12RC
3
2
1
11
10
9
+V output
Sinking Input
dc Common
Relay Output
5 Amp Contacts
585
Remote Sensors and Component Systems
Dimensions
Dimensions for
PICO-AMP MD14 Series Amplifier Modules
Shown with optional right-angle
Quick-Disconnect cable attached
14.0 mm
(0.55")
65.3 mm
(2.57")
30.1 mm
(1.19")
86.0 mm
(3.38")
66.3 mm
(2.61")
86.0 mm
(3.38")
Dimensions for
MICRO-AMP Amplifier Modules MA3, MA3P, MA3-4, MA3-4P and MA3AF Series and
MICRO-AMP Logic Modules
Hold-Down Screw
(Ensures Correct Contact Polarity)
Output Indicator LED
13.5 mm
(0.53")
ø 1.0 mm (0.04") (8 Pins)
61.0 mm
(2.40")
25.4 mm
(1.00")
Gain Adjust – MA3, MA3-4
Time Adjust – MA4-2, MA5
Logic Select – MA4G, MA4L
15.2 mm
(0.60")
10.2 mm
(0.40")
Wire Connection Block (2)
(Supplied with RS8)
38.1 mm
(1.50")
7.6 mm
(0.30")
3.8 mm
(0.15")
Model RS8 Socket Assembly
5.1 mm
(0.20")
Bottom View
PVC Mounting Track
(Supplied with RS8)
Dimensions for
MICRO-AMP Amplifier Module MPC3 Series
Dimensions for
MAXI-AMP Amplifier Modules CR, CM and CD Series,
MAXI-AMP CL Logic Modules,
MAXI-AMP CI3RC2 Current Trip Point Amplifier, and
MAXI-AMP Power Supply Modules
40.6 mm
(1.6")
37.1 mm
(1.46")
14.0 mm (0.55")
1
2
3
4
MPC3
8
7
6
5
58.4 mm
(2.3")
ø 0.64 mm
(0.025") Pin
Hold Down Wire
(Included with RS-11 Socket)
11.4 mm (0.45")
5.08 mm (0.2")
25.4 mm
(1.00")
114.0 mm
(4.5")
5.08 mm (0.20")
Drill Pattern
ø 0.81 mm (0.032")
ø 1.27 mm (0.050") (with Jacks)
Optional
RS-11 Socket
P.C.
Board
25.4 mm
(1.0" Max.)
2.5 mm (0.10") (Typ)
38.0 mm
(1.5")
586
68.6 mm
(2.7")
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
Remote Sensors and Component Systems Accessories
Extension Cables
Modulated remote sensors require specially designed cable for efficient sensor performance. Extension cable is available in 30 m (100') lengths.
Model
# of Wires
Wire Colors
Used with:
ESC-100
3
White, Green, Shield
LR200, LR250, LR400 and SP300EL
RSC-100
3
Red, Black, Shield
PT200, PT250, PT400 and SP300RL
SSC-100
5
White, Green, Red, Black, Shield
EC300E-100
2
White, Shield
LR300
EC300R-100
2
Red, Shield
PT300
EC320-100
4
White, Shield, Red, Shield
SP300D, SP300L, LP400WB and SP1000V
SP320D
Compression Fittings
Used to attach protective tubing to remote sensors
Model
Thread Size
CF3-8
3
CF7-16
7
Used with:
Description
/8" - 32
LR400, PT400 and LP400WB
/16" - 20
SP300EL, SP300RL, SP300D, SP300L,
LR200 and PT200
Cable Protection
Model
AC-6
AC-30
PVC-6
PVC-30
Description
Cable Length
This is mild-steel flexible tubing used with the
compression fittings (see above), to achieve
maximum protection to sensor cables.
1.8 m (6')
Heavy duty PVC tubing used to protect sensor
cable in applications involving moisture and/or
corrosive materials.
1.8 m (6')
Dimensions
I.D. = 7.9 mm (0.31")
O.D. = 11.2 mm (0.44")
9 m (30')
I.D. = 6.4 mm (0.25")
O.D. = 9.7 mm (0.38")
9 m (30')
Fiber Optic Fitting
Model
Description
#6 Set Screw
(Supplied)
FOF400
• These fiber optic fittings permit the connection of LR400 and
PT400 remote sensors to a glass fiber optic assembly
• The sensors are typically mounted through 10 mm (3/8")
diameter clearance holes, with the FOF-400 fittings threaded
onto them after mounting
12.7 mm
(0.50")
20.6 mm
(0.81")
ø 4.8 mm (0.19")
3/8" - 32 Thread
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
26.9 mm
(1.06")
587
Remote Sensors and Component Systems Accessories
Quick-Disconnect (QD) Cables
Style
4-Pin Pico
4-Pin Euro
Model
Length
Connector
PKG4-2
PKW4-2
2 m (6.5')
2 m (6.5')
Straight
Right-Angle
MQDC-406
MQDC-415
MQDC-430
2 m (6.5')
5 m (15')
9 m (30')
Straight
MQDC-406RA
MQDC-415RA
MQDC-430RA
2 m (6.5')
5 m (15')
9 m (30')
Right-Angle
For use with
PICO-AMP amplifiers
SP12 Series sensors
AP400 Apertures
Model
AP400-010
AP400-015
AP400-040
AP400-030R
Description
0.25 mm (0.01") diameter
0.38 mm (0.015") diameter
1.0 mm (0.04") diameter
0.76 mm x 3.2 mm (0.030 x 0.125")
Aperture Kits
SP12 sensors may be fitted with apertures which narrow or shape the effective beam of the sensor and to protect the sensor’s lens. These
apertures are rectangular or circular thread-on water-tight parts. Use of apertures with SP12 high-gain sensors makes it possible to create
very narrow, concentrated sensing beams for precision sensing applications. Both kits include lens, o-rings and thread-on housing.
Model
Description
AP12SC
Includes 3 circular apertures with openings of:
0.5 mm (0.02") diameter
1.0 mm (0.04") diameter
2.5 mm (0.10") diameter
AP12SR
Includes 3 rectangular apertures with openings of:
0.5 mm (0.02") wide
1.0 mm (0.04") wide
2.5 mm (0.10") wide
588
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
Remote Sensors and Component Systems Accessories
• 12-gauge, stainless steel, right angle mounting bracket for barrel style sensors with 12 mm threads
• Curved mounting slot allows the bracket ±10° of lateral movement
• Mounting holes accommodate M4 (#8) hardware
Mounting Brackets
Model
Description
Dimensions
SMB12MM
12.7 mm
(0.50")
R 24.1 mm
(0.95")
R 5.1 mm
(0.20")
• 12-gauge, stainless steel, right
angle mounting bracket for
SP12 series sensors
• Curved mounting slot allows
the bracket ±10° of lateral
movement
• Mounting holes accommodate
M4 (#8) hardware
10°
ø 4.6 mm
(0.18")
15.2 mm
(0.60")
25.4 mm
(1.00")
20°
4.6 mm
(0.18")
ø 12.32 mm
(0.485")
R 3.0 mm (2)
(0.12")
38.1 mm
(1.50")
42.9 mm
(1.69")
SMB1812SF
36.0 mm
(1.42")
• 12 mm swivel for mounting
SP12 series sensors
• Black reinforced thermoplastic
polyester
• Includes stainless steel swivel
locking hardware
10.6 mm
(0.42")
M12 x 1
Internal
Thread
42.0 mm
(1.65")
22.9 mm
(0.9")
50.8 mm
(2.00")
25.4 mm
(1.00")
31.8 mm
(1.25")
SMB300
Mounting Slot for: LF/PT/400
LP400WB
6.4 mm
(0.25")
M5 (#10) Screw Clearance (2)
Mounting Slot for: SP300D
SP300L
SP300EL/RL
4 mm (#6) Screw Clearance (4)
41.4 mm
(1.63")
• Steel right angle bracket
designed for 2-axis mounting
of SP300 series remote
sensors
• Clearance slot for mounting
LR/PT400
9.7 mm
(0.38")
M4.5 (#8) Screw
Clearance (2)
12.7 mm (0.50")
SMBSP3
8.3 mm
(0.33")
22.4 mm
(0.88")
M5 (#10) Screw
Clearance (2)
38.1 mm
(1.50")
Mounting for LR/PT200
90°
25° (2)
30° (2)
7.5 mm
(0.30")
4 x M2 x 0.4
1.2 mm
(0.05")
• 18-gauge stainless steel rightangle bracket for PICO-AMP
SP3 and SP8 Series sensors
47.8 mm
(1.88")
25.4 mm (1.00")
7.5 mm
(0.30")
14.0 mm
(0.55")
3.3 mm
(0.13")
18.0 mm
(0.71")
4 x ø3.2 mm
(0.126")
6.5 mm
(0.26")
3.1 mm
(0.12")
6.5 mm
(0.26")
9.9 mm
(0.39")
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
589
PICO-AMP™ Accessories
35 mm DIN Rail Track
Model
Description
DIN - 35-70:
Approx.70 mm ( 2.7")
DIN-35-70
DIN - 35-140:
Approx. 140 mm (5.5")
70 mm track, accommodates up to 4 MD14 Amplifiers
35 mm
DIN Rail
DIN - 35-140:
Approx. 140 mm (5.5")
DIN-35-105
105 mm track, accommodates up to 6 MD14 Amplifiers
35 mm
(1.4")
25.4 mm (1.00")
35 mm (1.4")
DIN-35-140
140 mm track, accommodates up to 8 MD14 Amplifiers
5.3 mm
(0.21")
590
7.6 mm (0.30")
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
MICRO-AMP™ Accessories
Sockets
Model
Description
RS8
• Used for mounting and wiring of MICRO-AMP module
• Consists of a socket with two four-terminal connection strips, all wired
together onto a PC board
• The PC board assembly slides into a 25 mm (1") long PVC track which is
used to mount the entire assembly
• A hold-down screw keys the correct polarity of the module
RS8K
• A kit, which is made up of the socket portion of the RS8, used to provide a
socket for MICRO-AMP modules that are installed onto printed circuit boards
• The kit consists of a molded socket block and 8 individual socket pins
• A nylon screw is included to affix the socket block to the PC board
• The drill size for the pins is #50 - 1.8 mm (0.070")
• Drill pattern dimensions are included with the RS8K
Mounting Tracks
PVC mounting track for MICRO-AMP components is available in 150 mm (6") and 300 mm (12") lengths for systems which use multiple
components. For example, a 150 mm (6") length will accommodate one MPS-15 power supply plus two additional RS8 sockets with
modules. Longer lengths of mounting track may be supplied on a quote basis.
Model
# of Slots
Length (A)
TR100-1
1
25 mm (1") long
TR100-4
2
100 mm (4") long
Dimensions
50.8 mm
(2.00")
(Typ)
4.8 mm x 15.9 mm
(3/16" x 5/8") Slot
61.0 mm
(2.4")
TR100-6
3
150 mm (6") long
TR100-12
8
300 mm (12") long
“A”
17.8 mm
(0.7")
Demo Boards
Model
Description
MA3DB
• Battery-powered demonstration/testing board used to evaluate or
troubleshoot either the MA3, MA3AF or MA3-4 modulated amplifier and
its sensor
• It includes LED indicators for both outputs, a 4-pin terminal strip for
sensor connections, and a 9-volt battery with holder; there is a socket
for the MA3 or MA3-4 to plug into
• Amplifier and sensor are sold separately
NOTE: the MA3DB is NOT designed to work with models MA3P or
MA3-4P, with current sourcing (PNP) outputs
MPC3-DB
• Battery-powered (3 “AA” penlight batteries, included) demonstration/
testing board used to evaluate or troubleshoot the MPC3 modulated
amplifier and its sensor
• It includes LED indicators for both outputs, plus the AID™ indicator, a
plug-in MPC3, a sensitivity potentiometer and a 4-pin terminal strip to
which the LED and receiver phototransistor may be connected
• Sensors are sold separately
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
591
MICRO-AMP™ Accessories
Power Supplies
Model
Description
HOOKUP
Relay
• Designed specifically to supply power
for Banner MICRO-AMP series
amplifiers and logic modules
• Constructed on small PC boards that are
track mountable for compatibility with
other track-mounted MICRO-AMP
components
• Built-in 5-amp rated SPDT output relay
• Up to 3 MICRO-AMP modules may be
powered by one MPS-15 power supply
MPS-15
105 to 130V ac
MPS-15-230
210 to 250V ac
• Includes a socket for MICRO-AMP
amplifier or logic module, 100mm (4")
long mounting track
• Optional 150 mm (6") track model
TR100-6 (see previous page) is available
to accommodate the MPS-15 series PC
board plus the PC boards of two
additional RS8 sockets to form a
complete three-module MICRO-AMP
sensing/logic system
• Output Type: SPDT E/m
Contact rating: 250V ac max., 30V dc
max., 5 amps max. (resistive load)
Contact response: 20 milliseconds open
and close
Mechanical Life: 10,000,000 operations
Temperature: -40° to 70°C (-40° to +158°F)
V ac NO C NC
Normally Closed
Relay Contact
Relay Common
Normally Open
Relay Contact
MPS-15:
105 to 130V ac
MPS-15-230:
210 to 250V ac
DIMENSIONS
Relay Contact State
Selector Switch (N/O or N/C).
See Hookup Diagram.
55.9 mm
(2.2")
83.8 mm
(3.3")
MICRO-AMP Series
Module Socket (for MA3,
MA3-4, MA4G, MA4L, etc.)
Relay
Screw Terminals
(See Hookup Diagram)
MPS-15 PC Board
Relay
PVC Mounting Track
100 mm (4.0") Long
45.7 mm
(1.8")
61.0 mm
(2.4")
• Compatible with modules models:
MA3, MA3AF, MA3-4, MA4-2, MA4G,
MA4L and MA5
592
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
MAXI-AMP™ Accessories
Socket
Model
RS-11
Description
• 11-pole round-pin screw terminal relay socket which is used to make
electrical connections to MAXI-AMP module
• Provides in-line clamp screw terminals which will accept from one #24
AWG up to two #14 wires at each pin
• May be mounted directly to a panel plate or via standard 35mm DIN-rail track
• A MAXI-AMP hold-down wire is supplied with each RS-11 socket
• UL recognized and CSA approved
35 mm DIN Rail Track
Model
DIN-35-70
Description
35 mm
DIN Rail
DIN - 35-70:
Approx.70 mm ( 2.7")
Track designed to accommodate RS-11
socket
DIN - 35-140:
Approx. 140 mm (5.5")
DIN-35-105
Track designed to hold 2 - RS-11 sockets
35 mm
(1.4")
RS-11 Socket
25.4 mm (1.00")
35 mm (1.4")
DIN-35-140
Track designed to hold 3 - RS-11 sockets
5.3 mm
(0.21")
7.6 mm (0.30")
BENC-4 Enclosure
Model
Description
13.6 mm
(5.35")
Clear Polycarbonate
Cover (O-Ring Seal)
BENC-4
• It is supplied with the DIN-35-70 track for easy
mounting of one RS-11 socket
1/4 - 20
Nylon Screw (4)
19.8 mm
(0.78") (2)
• A NEMA-4X rated corrosion-resistant enclosure
for a MAXI-AMP module or other control device
ø 7.1 mm (0.28")
Clearance (2)
Glass Reinforced
Engineering Thermoplastic
1/2 - 14
NPSM (2)
87.6 mm
(3.45")
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
12.8 mm
(5.03")
593
Remote Sensors and Component Systems
NOTES:
594
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
D10 Expert ™ Sensors
D10 Sensors
D10 Expert ™ Series - Dual Discrete Outputs . . . . . . 596
D10 Expert ™ Series - Analog and Discrete Outputs . . 598
D10 Accessories . . . . . . . . . . . . . . . . . . . . . . . . 601
!
D10 sensors are not suitable for use in
personnel safety applications! See WARNING on
inside front cover of catalog.
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
595
D10 Expert™ Series Sensors – Dual Discrete Outputs
D10 Expert ™ Series – Dual Discrete Outputs
Advanced Fiber-optic Amplifiers for Plastic Fibers
•
•
•
•
•
•
•
•
D10 Expert Sensing Mode Options
•
•
Easy-to-set automatic Expert-style TEACH options* including static,
dynamic, and single-point programming plus manual adjustment for
fine-tuning
16-bit microcontroller and 12-bit Analog-to-Digital converter for highperformance, low-contrast sensing
Easy-to-read 4-digit display for TEACH and signal strength readout,
plus indicators for a continuous readout of operating status (user
configurable)
Two discrete outputs, PNP or NPN
Four-mode power and speed selection with automatic cross-talk
avoidance circuitry
Selectable OFF-delay options
Gate input wire can be used to selectively inhibit sensor outputs from
switching
Models available with visible red (680 nm) or visible green (525 nm)
sensing beam
Models available with 2 m or 9 m (6.5' or 30') cable or integral
quick-disconnect
Sleek, ultra-slim 10 mm housing, mounts to a standard 35 mm DIN rail
Plastic Fiber Optic
* U.S. Patent #5,808,296
See Sensing Beam Information Below
D10 Expert Series Plastic Fiber Optic – Dual Discrete Outputs
Models
Cable
Supply
Voltage
Output
Type
Range Specifications
Visible Red 680 nm
D10DNFP
D10DNFPQ
D10DPFP
D10DPFPQ
2 m (6.5') cable
6-pin Pico-style QD
2 m (6.5') cable
NPN
(sinking)
12 -24V dc
PNP
(sourcing)
6-pin Pico-style QD
Visible Green 525 nm
D10DNFPG
D10DNFPGQ
D10DPFPG
D10DPFPGQ
2 m (6.5') cable
6-pin Pico-style QD
2 m (6.5') cable
6-pin Pico-style QD
Range varies by Power Level/Speed Selection used
and with fiber optics used. See data sheet part
number 64154 for range information.
NPN
(sinking)
12 -24V dc
PNP
(sourcing)
For D10 Expert Series:
i) 9 m (30') cables are available by adding suffix “W/30” to the model number of any cabled sensor (e.g. - D10DNFP W/30)
ii) A model with a QD connector requires an accessory mating cable. See page 601 and the Accessories section for more information.
596
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
D10 Expert™ Series Sensors – Dual Discrete Outputs
D10 Expert Series Specifications – Dual Discrete Outputs
Required Fiber-Optic Cable
Banner P-Series plastic fibers (See Plastic Fiber Optic section, page 640)
Supply Voltage and Current
12 to 24V dc (10% maximum ripple) at less than 65 mA, exclusive of load
Supply Protection Circuitry
Protected against reverse polarity and transient voltage.
Output Configuration
Specify Model: 2 NPN or 2 PNP
Output Rating
150 mA maximum load
OFF-state leakage current: < 10 µA at 24V dc
ON-state saturation voltage: NPN < 1.5V at 150 mA load
PNP < 2.5V at 150 mA load
Output Protection Circuitry
Protected against false pulse on power-up and continuous short-circuit
Output Response Time
Programmable, 50 microseconds, 200 microseconds, 1 millisecond, 2.5 milliseconds
NOTE: 150 millisecond delay on power-up; outputs do not conduct during this time.
Adjustments
Push-button or remote programming of response time, OFF-delay, light-dark operate, and display
Indicators
Four-digit digital display plus LCD indicators for active channel, push-button lockout, OFF-delay and
light/dark operate selection. LCD backlight (red for Program mode or green for Run mode) indicates
Power ON. Two amber output indicators
Construction
Black ABS/polycarbonate alloy (UL94 V-0 rated) housing, clear polycarbonate cover.
Environmental Rating
NEMA 1, IEC IP50
Connections
PVC-jacketed 2 m or 9 m (6.5' or 30') 6-wire integral cable or integral 6-pin Pico-style quick-disconnect
Operating Conditions
Temperature: -20° to +55°C (-4° to +131°F) Storage Temperature: -20° to +80°C (-4° to +175°F)
Max. Rel. Humidity: 90% @ 50°C (non-condensing)
Number of
Devices, Stacked
Ambient Temperature
Rating
Load
Specification
3
55°C
150 mA
7
50°C
50 mA
10
45°C
50 mA
35 mm DIN rail or included mounting bracket
Installation
D10 Expert Series Hookups – Dual Discrete Outputs
D10DNFP(Q)
bu
bk
gy
pk
bn
–
12-24V dc
+
bn
wh
D10DPFP(Q)
Load
1
Load
2
+
12-24V dc
–
bu
wh
bk
gy
Teach
pk
Gate
1
Load
2
Load
Teach
Gate
NOTE: QD Hookups are identical.
6-Pin Pico-Style Pin-out
(Connector on Cable Shown)
Brown Wire
Gray Wire
Pink Wire
White Wire
Blue Wire
Black Wire
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
597
D10 Expert™ Series Sensors – Analog and Discrete Outputs
D10 Expert ™ Series – Analog and Discrete Outputs
Advanced Fiber-optic Amplifiers for Plastic Fibers
•
•
•
•
•
•
•
•
D10 Expert Sensing Mode Options
•
•
Easy-to-set automatic Expert-style TEACH options* including static,
dynamic, and single-point programming plus manual adjust option for
fine-tuning
16-bit microcontroller and 12-bit Analog-to-Digital converter for highperformance, low-contrast sensing
Easy-to-read 4-digit display for TEACH and signal strength readout,
plus indicators for a continuous readout of operating status (user
configurable)
Models available with one scalable Analog output (4-20 mA or
0-10V)** and one Discrete output (PNP or NPN)
Four-mode power and speed selection with automatic cross-talk
avoidance circuitry
Selectable OFF-delay options
Gate input wire can be used to selectively inhibit sensor outputs from
switching
Models available with visible red (680 nm) or visible green (525 nm)
sensing beam
Models available with 2 m or 9 m (6.5 ' or 30') cable or integral
quick-disconnect
Sleek, ultra-slim 10 mm housing, mounts to a standard 35 mm DIN rail
Plastic Fiber Optic
* U.S. Patent #5,808,296
** U.S. Patent #6,122,039
See Sensing Beam Information Below
D10 Expert Series Plastic Fiber Optic – An alog and Discrete Outputs
Models
Cable
Supply
Voltage
Discrete
Output
Analog
Output
Range Specifications
Visible Red 680 nm
D10INFP
D10INFPQ
D10IPFP
D10IPFPQ
D10UNFP
D10UNFPQ
D10UPFP
D10UPFPQ
2 m (6.5') cable
6-pin Pico-style QD
2 m (6.5') cable
6-pin Pico-style QD
2 m (6.5') cable
6-pin Pico-style QD
2 m (6.5') cable
6-pin Pico-style QD
12 -24V dc
15 -24V dc
NPN
(sinking)
PNP
(sourcing)
NPN
(sinking)
PNP
(sourcing)
4-20 mA
0-10V
Range varies by Power Level/Speed
Selection used and with fiber optics used.
See data sheet part number 65448 for
range information.
Visible Green 525 nm
D10INFPG
D10INFPGQ
D10IPFPG
D10IPFPGQ
D10UNFPG
D10UNFPGQ
D10UPFPG
D10UPFPGQ
598
2 m (6.5') cable
6-pin Pico-style QD
2 m (6.5') cable
6-pin Pico-style QD
2 m (6.5') cable
6-pin Pico-style QD
2 m (6.5') cable
6-pin Pico-style QD
12 -24V dc
15 -24V dc
NPN
(sinking)
PNP
(sourcing)
NPN
(sinking)
PNP
(sourcing)
4-20 mA
0-10V
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
D10 Expert™ Series Sensors – Analog and Discrete Outputs
D10 Expert Series Specifications – Analog and Discrete Outputs
Required Fiber-Optic Cable
Banner P-Series plastic fibers (See Plastic Fiber Optic section, page 640)
Supply Voltage and Current
4-20 mA Analog Models: 12-24V dc (10% maximum ripple) at less than 65 mA exclusive of load
0-10V dc Analog Models: 15-24V dc (10% maximum ripple) at less than 70 mA exclusive of load
Protected against reverse polarity and transient voltage.
Supply Protection Circuitry
Output Configuration
2 independently configurable outputs, depending on model:
NPN w/analog (4-20 mA or 0-10V) or
PNP w/analog (4-20 mA or 0-10V)
Output Rating
Discrete Output: 150 mA, max. load
Analog Output: 4-20 mA or 0-10V dc
OFF-state leakage current: < 10µA at 24V dc
Load: 4-20 mA Models: 100Ω max. impedance
ON-state saturation voltage: NPN < 1.5V dc @ 150 mA
0-10V dc Models: 1 MΩ max. impedance
PNP < 2.5V dc @ 150 mA
Protected against false pulse on power-up and continuous short-circuit
Output Protection Circuitry
Discrete Output: Programmable, 50 microseconds, 200 microseconds, 1 millisecond, 2.5 milliseconds
Analog Output: 1 millisecond
NOTE: 150 millisecond delay on power-up; outputs do not conduct during this time.
Push-button or remote programming of response time, OFF-delay, light-dark operate, and display
Four-digit digital display plus LCD indicators for active channel, push-button lockout, OFF-delay and
light/dark operate selection. LCD backlight (red for Program mode or green for Run mode) indicates
Power ON. Two amber output indicators
Output Response Time
Adjustments
Indicators
Construction
Black ABS/polycarbonate alloy (UL94 V-0 rated) housing, clear polycarbonate cover.
Environmental Rating
NEMA 1, IEC IP50
Connections
PVC-jacketed 2 m or 9 m (6.5' or 30') 6-wire integral cable or integral 6-pin Pico-style quick-disconnect
Operating Conditions
Temperature: -20° to +55°C (-4° to +131°F)
Storage Temperature: -20° to +80°C (-4° to +175°F)
Max. Rel. Humidity: 90% @ 50°C (non-condensing)
Number of
Ambient Temperature
Load Specification
Devices, Stacked
Rating
(discrete output)
3
55°C
150 mA
7
50°C
50 mA
10
45°C
50 mA
35 mm DIN rail or included mounting bracket
Installation
D10 Expert Series Hookups – Analog and Discrete Outputs
D10INFP(Q)
bu
–
12-24V dc
+
bn
bk
wh
D10UNFP(Q)
Load
2
4-20 mA
1
gy
bk
wh
wh
bk
gy
pk
1
Brown Wire
Teach
Gray Wire
Gate
Pink Wire
D10UPFP(Q)
D10IPFP(Q)
bn
2
Load
0-10V dc
pk
Gate
+
12-24V dc
–
bu
–
15-24V dc
+
gy
Teach
pk
bu
bn
4-20 mA
1
Load
2
Teach
Gate
bn
bk
gy
pk
White Wire
Blue Wire
Black Wire
+
15-24V dc
–
bu
wh
6-Pin Pico-Style Pin-out
(Connector on Cable Shown)
1
0-10V dc
2
Load
Teach
Gate
NOTE: QD Hookups are identical.
For D10 Expert Series:
i) 9 m (30') cables are available by adding suffix “W/30” to the model number of any cabled sensor (e.g. - D10INFP W/30)
ii) A model with a QD connector requires an accessory mating cable. See page 601 and the Accessories section for more information.
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
599
D10 Expert ™ Sensors
D10 Expert Series Dimensions
D10 Series with Cable Attached
7.6 mm
(0.30")
61.3 mm
(2.42")
68.1 mm
(2.68")
10.0 mm
(0.39")
Mounting
Bracket
(included)
35.9 mm
(1.41")
9.8 mm
(0.39")
D10 Series with Quick-Disconnect
Slide Up to Release
Fibers
16.4 mm
(0.64")
Plastic Fiber
Emitter Port
Plastic Fiber
Receiver Port
78.4 mm
(3.09")
84.4 mm
(3.32")
Bracket
8.6 mm
(0.34")
10.0 mm
(0.39")
5.0 mm
(0.20")
2x 3.5 mm
(0.14")
5.0 mm (0.20")
2.5 mm (0.10")
35.1 mm
(1.38")
15.2 mm
(0.60")
16.0 mm
(0.63")
25.4 mm
(1.00")
2 x ø3.3 mm (0.13")
10.0 mm
(0.39")
600
2x ø3.2 mm (0.13")
2x C'sink
ø8.0 mm (0.31")
3.2 mm (0.13") deep
ø4.4 mm (0.18") thru
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
D10 Accessories
Modifications
Example of Model
Number
Model Suffix
Modification
Description
W/30
9 m (30') cable
All D10 sensors may be ordered with an integral 9 m (30') cable in place
of the standard 2 m (6.5') cable
D10DNFP W/30
Quick-Disconnect (QD) Cables
The following is a selection of cables available for the D10 QD models. See the Accessories section for more information.
Style
Model
Length
Connector
For Use With
6-Pin Pico
PKG6Z-2
PKG6Z-9
PKW6Z-2
PKW6Z-9
2 m (6.5')
9 m (30')
2 m (6.5')
9 m (30')
Straight
Straight
Right-Angle
Right-Angle
All D10 Sensors
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
601
D10 Expert ™ Sensors
NOTES:
602
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
D11 Sensors
D11 Sensors
D11 Expert ™ Series . . . . . . . . . . . . . . . . . . . . . . 604
D11 Series . . . . . . . . . . . . . . . . . . . . . . . . . . . . 610
D11 Accessories . . . . . . . . . . . . . . . . . . . . . . . . 615
Except Visible Green
& Blue Models
!
D11 sensors are not suitable for use in
personnel safety applications! See WARNING on
inside front cover of catalog.
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
603
D11 Expert ™ Series Sensors
D11 Expert ™ Series Sensors
Low Cost, TEACH-Mode Sensors
D11 Expert Sensing Mode Options
•
Easy push button TEACH-mode programming automatically adjusts
sensitivity to optimal setting
•
Designed for high-performance, even in low contrast sensing
applications (sensitivity set to just above the “dark” condition)
•
D11E2 Series sensors set the switching point midway between the
“dark” and “light” conditions to ignore subtle changes, such as web
flutter
•
Fast, 200 microsecond (0.2 millisecond) output response; a
40 millisecond output pulse stretcher may be programmed, when needed
•
Choose models with NPN (sinking) or PNP (sourcing) output
•
Output may be programmed for either light or dark operate
•
Sealed one-button programming† assures security of settings
•
LED status indications for power “ON”, output state, received signal
strength, sensing contrast, and diagnostic trouble conditions
•
Choose models with integral 2 m (6.5') cable or pico-style quickdisconnect (QD) connector; 9 m (30') cables are also available
U.S. Patent Pending
†
Plastic Fiber Optic
Visible red, 680 nm
D11 Expert Series Plastic Fiber Optic
Models
D11EN6FP
D11EN6FPQ
D11EP6FP
D11EP6FPQ
Switching Threshold
Setting
Just above the “dark”
condition
Cable
Supply
Voltage
Output
Type
2 m (6.5')
4-pin Pico QD
NPN
(sinking)
2 m (6.5')
4-pin Pico QD
PNP
(sourcing)
10-30V dc
D11E2N6FP
D11E2N6FPQ
D11E2P6FP
D11E2P6FPQ
Midway between “dark”
and “light” conditions
2 m (6.5')
4-pin Pico QD
NPN
(sinking)
2 m (6.5')
4-pin Pico QD
PNP
(sourcing)
Maximum Range Specifications
Diffuse mode performance based on 90% reflectance white test card
Range varies by sensing mode and fiber optics used:
PIT46U fibers, opposed mode: 180 mm (7.1")*
PIT26U fibers, opposed mode: 50 mm (2.0")
PBT46U fiber, diffuse mode: 50 mm (2.0")
PBT26U fiber, diffuse mode: 10 mm (0.4")
* Opposed mode range may be extended using
optional lenses (see Plastic Fiber Optic section for
available lenses).
For D11 Expert Series:
i) 9 m (30') cables are available by adding suffix “W/30” to the model number of any cabled sensor (e.g. - D11EN6FP W/30)
ii) A model with a QD connector requires an accessory mating cable. See page 615 and the Accessories section for more information.
iii) 5 volt models are available. Contact factory for more information.
604
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
D11 Expert ™ Series Sensors
Model with green, blue, or white LED light source are recommended for
color mark sensing. Contact your local or factory sales engineer for model
selection assistance.
See Sensing Beam Information Below
D11 Expert Series Plastic Fiber Optic
Models
Supply
Voltage
Cable
Maximum Range Specifications
Output Type
Diffuse mode performance based on 90% reflectance white test card
Visible Green 525 nm
D11EN6FPG
D11EN6FPGQ
2 m (6.5')
4-pin Pico QD
D11EP6FPG
D11EP6FPGQ
2 m (6.5')
4-pin Pico QD
NPN
(sinking)
10-30V dc
PNP
(sourcing)
Range varies by sensing mode and fiber optics used:
Visible Blue 470 nm
D11EN6FPB
D11EN6FPBQ
2 m (6.5')
4-pin Pico QD
NPN
(sinking)
10-30V dc
D11EP6FPB
D11EP6FPBQ
2 m (6.5')
4-pin Pico QD
PNP
(sourcing)
Visible White 450 - 650 nm
D11EN6FPW
D11EN6FPWQ
2 m (6.5')
4-pin Pico QD
D11EP6FPW
D11EP6FPWQ
2 m (6.5')
4-pin Pico QD
PIT46U fibers, opposed mode: 50 mm (2.0")*
PIT26U fibers, opposed mode: 80 mm (3.1")
PBT46U fiber, diffuse mode: 17 mm (0.7")
PBT26U fiber, diffuse mode: 25 mm (1.0")
* Opposed mode range may be extended using optional
lenses (see Plastic Fiber Optic section for available lenses).
NPN
(sinking)
10-30V dc
PNP
(sourcing)
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
605
D11 Expert ™ Series Sensors
D11 Expert Series Specifications
Supply Voltage and Current
10 to 30V dc (10% maximum ripple) at less than 45 mA, exclusive of load
Supply Protection Circuitry
Protected against reverse polarity and transient voltages
Output Configuration
One (SPST) NPN (sinking) or PNP (sourcing) open-collector transistor, depending on model; programmable for
light or dark operate
Output Rating
150 mA maximum;
Off-state leakage current: <5 microamps at 30V dc
On-state saturation voltage <1V at 10 mA dc; <1.5V at 150 mA dc
Output Protection Circuitry
Protected against false pulse on power-up and continuous overload or short circuit
Output Response Time
200 microseconds (0.2 milliseconds) “ON” and “OFF” (40 milliseconds “OFF” when pulse stretcher is
programmed) NOTE: 100 millisecond delay on power-up: output is non-conducting during this time
Output Timing Functions
ON/OFF (no delay) or fixed 40 millisecond OFF-Delay pulse stretcher; selected by push button
Repeatability
65 microseconds
Adjustments
Push button teach mode sensitivity setting; remote teach mode input is provided
Indicators
Three LEDs: Green, Yellow and Red
Green LED lights for dc power “ON” and flashes when ready to register sensing condition during
TEACH mode; 1 Hz when waiting to learn first sensing condition; 2 Hz when waiting to learn second
sensing condition, 4 Hz when output is overloaded
Yellow LED lights for output “ON” (conducting)
Red LED is Banner's patented Alignment Indicating Device (AID™, U.S. patent #4356393) which lights
whenever the sensor "sees" a light condition and superimposes a pulse rate which is proportional to the
strength of the received light signal (the stronger the signal, the faster the pulse rate)
Construction
Black ABS (Cycolac® KJB) housing with acrylic cover; stainless steel M3 x 0.5 hardware for use with ABS
(Cycolac® KJB) mounting bracket (supplied); requires PI or PB Series plastic fiber cable
Mounting Bracket
D11 Sensors mount
directly to a standard
35 mm DIN rail, or
may be through-hole
mounted using the
supplied mounting
bracket and M3 x 0.5
hardware
5.5 mm
(0.22")
35.0 mm
(1.38")
25.1 mm
(0.99")
9.9 mm
(0.39")
11.0 mm
(0.44")
8.6 mm
(0.34")
2 x ø 3.25 mm
(0.128")
2 x 3.5 mm
(0.14")
2 x ø 3.18 mm
(0.125")
25.6 mm
(1.01")
2 x C 'sink
ø 7.9 mm (0.31")
3.2 mm (0.13") deep
ø4.4 (0.18") thru
9.6 mm
(0.38")
4.8 mm
(0.19")
5.0 mm
(0.20")
30.2 mm
(1.19")
2.5 mm
(0.10")
Environmental Rating
IEC IP54; NEMA 2
Connections
2 m (6.5') or 9 m (30') attached cable, or 4-pin pico-style quick-disconnect fitting; cables for QD models
are purchased separately
Operating Conditions
Temperature:
-10° to +55°C (+14° to +131°F)
Maximum relative humidity: 90% at 50°C (non-condensing)
Certifications
Cycolac® is a registered trademark of General Electric Co.
606
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
D11 Expert ™ Series Sensors
D11 Expert Series Hookup Diagrams
Sensors with NPN (Sinking) Outputs
with Attached Cable
bn
bu
bk
wh
Sensors with PNP (Sourcing) Outputs
with Attached Cable
bn
bu
bk
wh
+
10-30V dc
-
Load
Remote programming
switch (normally open)
-
Load
Remote programming
switch (normally open)
Sensors with NPN (Sinking) Outputs
with Quick-Disconnect
bn
bu
bk
wh
+
10-30V dc
Sensors with PNP (Sourcing) Outputs
with Quick-Disconnect
bn
bu
bk
wh
+
10-30V dc
-
Load
Remote programming
switch (normally open)
+
10-30V dc
-
Load
Remote programming
switch (normally open)
4-Pin Pico-Style Pin-out
(Connector on Cable Shown)
Black Wire
White Wire
Blue Wire
Brown Wire
Quick-Disconnect (QD) Option
D11 Expert Series sensors are sold either with a 2 m (6.5') or 9 m (30') attached PVC-covered cable or with a 4-pin pico-style
QD cable fitting.
D11 Expert Series sensors are identified by the letter “Q” in their model number suffix. Mating cables for QD sensors are model
PKG4-2 (straight connector) or PKW4-2 (right-angled connector). Cables are supplied in a standard length of 2 m (6.5'). For
more information on QD cable, see page 615 and the Accessories section.
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
607
D11 Expert ™ Series Sensors
D11 Expert Series Dimensions
D11 Expert Series with Cable Attached
Slide Up
to Release
Fibers
Programming Push Button
Power Indicator
Output Indicator
Signal Strength Indicator
35.0 mm
(1.38")
29.0 mm
(1.14")
Plastic Fiber
Emitter Port
Mounting
Bracket
(Included)
Plastic Fiber
Receiver Port
17.6 mm
(0.69")
64.1 mm
(2.53")
11.0 mm
(0.43")
D11 Expert Series with Quick-Disconnect
Programming Push Button
Power Indicator
Output Indicator
Signal Strength Indicator
Plastic Fiber
Emitter Port
Mounting
Bracket
(Included)
Plastic Fiber
Receiver Port
77.7 mm
(3.06")
D11 Expert Series Features
Top View
Signal Strength Indicator
Output Indicator
Power “ON” Indicator
Programming Push Button
608
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
D11 Series Sensors
NOTES:
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
609
D11 Series Sensors
D11 Series Sensors
Low Cost, Self-contained Sensors
•
Choice of NPN (sinking) or PNP (sourcing) complementary outputs - one
normally open and one normally closed; 150 mA output load rating
•
Normally-closed output may be wired as a diagnostic alarm to alert
personnel to marginal sensing conditions†
•
500 microsecond (0.5 millisecond) output response
•
LED status indications for Power ON, Output Overload, Fiber Alignment,
and Marginal Gain conditions†
•
Choose models with integral 2 m (6.5') cable or pico-style quickdisconnect (QD) connector; 9 m (30') cables are also available
†
U.S. Patent #5087838
D11 Series Sensing Mode Options
Plastic Fiber Optic
Visible red, 680 nm
D11 Series Plastic Fiber Optic
Models
Range
Supply
Voltage
Cable
Output
Type
Excess Gain
Diffuse mode performance based on 90% reflectance white test card
1000
D11SN6FP
D11SN6FPQ
Range
varies by
sensing
mode
and fiber
optics
used
D11SP6FP
D11SP6FPQ
Complementary
NPN
(sinking)
2 m (6.5')
4-pin Pico QD
E
X
C
E
S
S
G
A
I
N
D11 Series
Opposed Mode
Plastic Fibers
100
PIT46U
Fibers
10
PIT26U
Fibers
1
1.0 mm
0.04 in
100 mm
4.0 in
1000 mm
40 in
DISTANCE
10-30V dc
2 m (6.5')
4-pin Pico QD
10 mm
0.4 in
1000
Complementary
PNP
(sourcing)
E
X
C
E
S
S
G
A
I
N
D11 Series
Diffuse Mode
Plastic Fibers
100
PBT26U
Fiber
PBT46U
Fiber
10
1
0.1 mm
0.004 in
1.0 mm
0.04 in
10 mm
0.4 in
100 mm
4 in
DISTANCE
For D11 Series:
i) 9 m (30') cables are available by adding suffix “W/30” to the model number of any cabled sensor (e.g. - D11SN6FP W/30)
ii) A model with a QD connector requires an accessory mating cable. See page 615 and the Accessories section for more information.
iii) 5 volt models are available. Contact factory for more information.
610
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
D11 Series Sensors
Models with green, blue, or white LED light source are recommended for
color mark sensing. Contact your local or factory sales engineer for model
selection assistance.
See Sensing Beam Information Below
D11 Series Plastic Fiber Optic
Models
Range
Supply
Voltage
Cable
Output
Type
Excess Gain
Diffuse mode performance based on 90% reflectance white test card
Visible Green 525 nm
D11SN6FPG
D11SN6FPGQ
D11SP6FPG
D11SP6FPGQ
Range varies
by sensing
mode
and fiber
optics used
Complementary
NPN
(sinking)
2 m (6.5')
4-pin Pico QD
10-30V dc
Complementary
PNP
(sourcing)
2 m (6.5')
4-pin Pico QD
Visible Blue 470 nm
D11SN6FPB
D11SN6FPBQ
D11SP6FPB
D11SP6FPBQ
Range varies
by sensing
mode
and fiber
optics used
2 m (6.5')
4-pin Pico QD
10-30V dc
2 m (6.5')
4-pin Pico QD
D11SP6FPW
D11SP6FPWQ
Range varies
by sensing
mode
and fiber
optics used
2 m (6.5')
4-pin Pico QD
10-30V dc
2 m (6.5')
4-pin Pico QD
G
A
I
N
100
Complementary
PNP
(sourcing)
Complementary
NPN
(sinking)
D11FPG,
D11FPB and
D11FPW
Series
Opposed Mode
Plastic Fibers
PIT66U
Fibers
10
PIT46U
Fibers
PIT26U
Fibers
1
0.1 mm
0.004 in
Complementary
NPN
(sinking)
Visible White 450 - 650 nm
D11SN6FPW
D11SN6FPWQ
1000
E
X
C
E
S
S
1.0 mm
0.04 in
10 mm
0.4 in
100 mm
4.0 in
DISTANCE
1000
E
X
C
E
S
S
G
A
I
N
D11FPG, D11FPB
and D11FPW Series
100
10
Diffuse Mode
Plastic Fibers
PBT66U
Fibers
PBT46U
Fibers
1
1.0 mm
10 mm
0.04 in
0.4 in
Complementary
PNP
(sourcing)
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
100 mm
4.0 in
1000 mm
40 in
DISTANCE
611
D11 Series Sensors
D11 Series Specifications
Supply Voltage and Current
10 to 30V dc at 25 mA (exclusive of load current)
Supply Protection Circuitry
Protected against reverse polarity and transient voltages
Output Configuration
Complementary: one normally open (N.O.) and the other normally closed (N.C.); N.C. output may be wired as
diagnostic alarm output by reversing power supply connections† (see Hookups); outputs are NPN (Sinking) or
†
PNP (Sourcing), depending on model
U.S. Patent #5087838
Diagnostic alarm output energizes whenever excess gain falls to between 1x and 1.5x in the light condition; this
output corresponds to flashing yellow indicator LED
Output Rating
150 mA maximum (each output); the total load may not exceed 150 mA
Off-state leakage current: <5 microamps at 30V dc
On-state saturation voltage <1V at 10 mA dc; <1.5V at 150 mA dc
Output Protection Circuitry
Protected against false pulse on power-up (false pulse protection circuit causes a 0.1 second delay on
power-up); short circuit protected
Output Response Time
500 microseconds “ON” and “OFF”
Repeatability
160 microseconds; response time and repeatability are independent of signal strength
Adjustments
SENSITIVITY control on top of module (15-turn slotted brass screw, clutched at both ends of travel)
Indicators
Two LEDs: Green and Yellow
GREEN glowing steadily
GREEN flashing
YELLOW glowing steadily
YELLOW flashing
=
=
=
=
power to sensor is “ON”
output is overloaded
normally open output is conducting
marginal excess gain (1-1.5x) in light condition = alarm output “ON”
Construction
Black ABS (Cycolac® KJB) housing with acrylic cover; stainless steel M3 x 0.5 hardware for use with ABS
(Cycolac® KJB) mounting bracket (supplied); requires PI or PB Series plastic fiber cable
Mounting Bracket
D11 Sensors mount
directly to a standard
35 mm DIN rail, or
may be through-hole
mounted using the
supplied mounting
bracket and M3 x 0.5
hardware
5.5 mm
(0.22")
35.0 mm
(1.38")
25.1 mm
(0.99")
9.9 mm
(0.39")
11.0 mm
(0.44")
8.6 mm
(0.34")
2 x ø 3.25 mm
(0.128")
2 x 3.5 mm
(0.14")
2 x ø 3.18 mm
(0.125")
25.6 mm
(1.01")
2 x C 'sink
ø 7.9 mm (0.31")
3.2 mm (0.13") deep
ø4.4 (0.18") thru
9.6 mm
(0.38")
4.8 mm
(0.19")
5.0 mm
(0.20")
30.2 mm
(1.19")
2.5 mm
(0.10")
Environmental Rating
IEC IP54 (NEMA 2)
Connections
2 m (6.5') or 9 m (30') attached cable, or 4-pin pico-style quick-disconnect fitting; cables for QD models
are purchased separately
Operating Conditions
Temperature:
-20° to +55°C (-4° to +131°F)
Maximum relative humidity: 90% at 50°C (non-condensing)
Certifications
Cycolac® is a registered trademark of General Electric Co.
612
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
D11 Series Sensors
D11 Series Hookup Diagrams
Sensors with NPN (Sinking) Outputs
Standard Hookup
bu
bn
bk
wh
Sensors with PNP (Sourcing) Outputs
Standard Hookup
bn
bu
bk
wh
-
10-30V dc
+
Load
Load
Alarm Hookup
bn
bu
bk
wh
+
10-30V dc
-
Load
Load
Alarm Hookup
bu
bn
bk
wh
-
10-30V dc
+
Load
Alarm
+
10-30V dc
-
Load
Alarm
Note: Connections are the same for either an integral cable or QD cable.
4-Pin Pico-Style Pin-out
(Connector on Cable Shown)
Black Wire
White Wire
Blue Wire
Brown Wire
Quick-Disconnect (QD) Option
D11 Series sensors are sold either with a 2 m (6.5') or 9 m (30') attached PVC-covered cable or with a 4-pin pico-style QD cable
fitting.
D11 Series sensors are identified by the letter “Q” in their model number suffix. Mating cables for QD sensors are model PKG4-2
(straight connector) or PKW4-2 (right-angled connector). Cables are supplied in a standard length of 2 m (6.5'). For more
information on QD cable, see page 615 and the Accessories section.
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
613
D11 Series Sensors
D11 Series Dimensions
D11 Series with Cable Attached
Slide Up
to Release
Fibers
Sensitivity Adjustment
35.0 mm
(1.38")
Power Indicator
Output Indicator
29.0 mm
(1.14")
Plastic Fiber
Emitter Port
Mounting
Bracket
(Included)
Plastic Fiber
Receiver Port
17.6 mm
(0.69")
64.1 mm
(2.53")
11.0 mm
(0.43")
D11 Series with Quick-Disconnect
Sensitivity Adjustment
Power Indicator
Output Indicator
Plastic Fiber
Emitter Port
Mounting
Bracket
(Included)
Plastic Fiber
Receiver Port
77.7 mm
(3.06")
D11 Series Features
Top View
Output Indicator
Power “ON” Indicator
15-Turn Sensitivity
(Gain) Control
614
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
D11 Accessories
Modifications
Example of Model
Number
Model Suffix
Modification
Description
W/30
9 m (30') cable
All D11 sensors may be ordered with an integral 9 m (30') cable in place
of the standard 2 m (6.5') cable
D11EN6FP W/30
Quick-Disconnect (QD) Cables
The following is a selection of cables available for the D11 QD models. See the Accessories section for more information.
Style
Model
Length
Connector
For Use With
4-Pin Pico
PKG4-2
PKW4-2
2 m (6.5')
2 m (6.5')
Straight
Right-Angle
All D11 Sensors
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
615
D11 Sensors
NOTES:
616
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
D12 Sensors
D12 Sensors
D12 Expert ™ - Teach Mode Fiber Optic Sensors . . . . 618
D12 Standard, High Speed and High Power
Fiber Optic Sensors . . . . . . . . . . . . . . . . . . . . . . 622
D12 AC-Coupled Fiber Optic Sensors . . . . . . . . . . . 630
D12 Accessories . . . . . . . . . . . . . . . . . . . . . . . . 634
(Except AC-Coupled models
on both approvals)
!
D12 sensors are not suitable for use in
personnel safety applications! See WARNING on
inside front cover of catalog.
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
617
D12 Expert ™ Teach Mode Fiber Optic Sensors
D12 Expert ™ Teach Mode Fiber Optic Sensors
•
Easy TEACH-mode programming automatically adjusts
sensitivity to optimal setting*
•
D12E sensors are designed for low-contrast sensing
applications (switching threshold set to just above the “dark”
condition)
•
D12E2 sensors set their switching threshold midway between
“dark” and “light” conditions to ignore subtle changes, such as
web flutter
•
Models for either plastic or glass fiber optics; choose models
with NPN (sinking) or PNP (sourcing) output
•
Fast 200 microsecond sensing response; a 40 millisecond pulse
stretcher may be programmed, when needed
•
Output may be programmed for either light- or dark-operate
•
Secure one-button programming is easy to use; one button sets
both TEACH and sensor configuration settings
•
Separate input for remote sensor programming by external
switch, such as a switch or process controller
•
7-segment LED bargraph† indicates relative received signal
strength and sensing contrast, programming status and
diagnostic trouble warnings
•
Dedicated alarm output for signaling marginal
sensing conditions
D12 Expert Sensing Mode Options
Glass and Plastic Fiber Optic
*U.S. Patent #5808296
†
U.S. Patent #4965548
Visible red, 680 nm
D12 Expert Series Glass Fiber Optic
Models
D12EN6FV
D12EP6FV
Switching Threshold
Setting
Cable
618
Output
Type
Maximum Range
Diffuse mode performance based on 90% reflectance white test card
NPN
Range varies by sensing mode and fiber optics used:
PNP
IT23S fibers, opposed mode: 930 mm (36.6")*
IT13S fibers, opposed mode: 442 mm (17.4")
NPN
BT23S fiber, diffuse mode: 178 mm (7.0")
BT13S fiber, diffuse mode: 68 mm (2.7")
PNP
*Opposed mode range may be extended using optional
lenses (see Accessories in the glass fiber optic section)
Just above the “dark”
condition
2m
(6.5')
D12E2N6FV
D12E2P6FV
Supply
Voltage
10-30V dc
Midway between “dark”
and “light” conditions
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
D12 Expert ™ Teach Mode Fiber Optic Sensors
Visible red, 660 nm
D12 Expert Series Plastic Fiber Optic
Models
Switching Threshold
Setting
Cable
Supply
Voltage
Output
Type
NPN
D12EN6FP
D12EP6FP
Just above the “dark”
condition
2m
(6.5')
D12E2N6FP
D12E2P6FP
Midway between “dark”
and “light” conditions
PNP
10-30V dc
Maximum Range
Diffuse mode performance based on 90% reflectance white test card
PIT46U fibers, opposed mode: 315 mm (12.4")*
PIT26U fibers, opposed mode: 84 mm (3.3")
PBT46U fiber, diffuse mode: 95 mm (3.7")
PBT26U fiber, diffuse mode: 25 mm (1")
NPN
PNP
*Opposed mode range may be extended using optional
lenses (see Accessories in the plastic fiber optic section)
For D12 Expert Series Sensors:
i) 9 m (30') cables are available by adding suffix “W/30” to the model number of any cabled sensor (e.g. - D12EN6FP W/30)
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
619
D12 Expert ™ Teach Mode Fiber Optic Sensors
D12 Expert Series Specifications
Supply Voltage and Current
10 to 30V dc at 45 mA max. (exclusive of load); 10% maximum ripple
Supply Protection Circuitry
Protected against reverse polarity and transient voltages
Output Configuration
NPN open collector (both outputs) or PNP open collector (both outputs), depending on model;
Load output: N.O. and programmable light- or dark-operate;
Alarm output: N.O.
Output Rating
150 mA maximum each output
Off-state leakage current less than 10 microamps at 30V dc
On-state saturation voltage less than 1 volt at 10 mA dc and less than 1.5 volts at 150 mA dc.
The total load may not exceed 150 mA
Output Protection Circuitry
Protected against false pulse on power-up and short circuit of outputs
Output Response Time
200 microseconds on/off (40 milliseconds OFF when OFF-delay selected)
(NOTE: False pulse protection circuit causes a 0.1 second delay on power-up)
Output Operation Mode
Light operate or dark operate: selected by push button
Output Timing Functions
ON/OFF (no delay) or fixed 40 millisecond OFF-delay; selected by push button
Repeatability
66 microseconds
Adjustments
Push button teach mode sensitivity setting; Remote teaching input is provided
Indicators
GREEN LED lights for DC power ON and flashes when ready for teach mode; 1 Hz when ready to learn
first condition; 2 Hz for second condition
YELLOW LED lights for load output ON (conducting)
7-segment moving dot red LED display indicates relative received light signal strength, output program
settings, relative contrast level and alarm
Construction
Black ABS (Cycolac® KJB) housing with acrylic cover, stainless steel M3 x 0.5 hardware for use with
thermoplastic polyester mounting bracket (supplied); the plastic fiber clamping element is Delrin®
Environmental Rating
Rated NEMA 4; IEC IP66
Mounting Bracket
D12 Sensors
mount directly to a
standard DIN rail,
or may be throughhole mounted
using the supplied
mounting bracket
and M3 x 0.5
hardware
2.5 mm
(0.10")
Section A-A
A
ø 4.45 mm (2)
(0.175")
2.3 mm
(0.09")
25.4 mm
(1.00")
15.2 mm
(0.60")
35.0 mm
(1.38")
3.45 mm (2)
(0.136")
ø 7.9 mm x 3.0 mm
deep (2)
(0.31" x 0.12")
9.9 mm
(0.39")
4.8 mm
(0.19")
ø 3.25 mm (2)
(0.128")
A
0.94 mm
(0.037")
8.6 mm
(0.34")
Connections
PVC-jacketed 2 m (6.5') or 9 m (30') cables
Operating Conditions
Temperature:
-20° to +70°C (-5° to +158°F)
Maximum relative humidity: 90% at 50°C (non-condensing)
11.9 mm
(0.47")
Certifications
Cycolac ® is a registered trademark of General Electric Co.; Delrin® is a registered trademark of Dupont
620
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
D12 Expert ™ Teach Mode Fiber Optic Sensors
D12 Expert Series Hookup Diagrams
D12 Expert with NPN (Sinking) Outputs
gy
bu
bn
bk
wh
D12 Expert with PNP (Sourcing) Outputs
Remote programming
(normally open)
gy
bn
bu
bk
wh
-
10-30V dc
+
Load
Alarm
Remote programming
(normally open)
+
10-30V dc
-
Load
Alarm
D12 Expert Series Dimensions
D12 Expert Series - Glass Fiber Optic Models
Fiber Retaining Clip
(Supplied with Sensor)
12.0 mm
(0.47")
7–Segment Display
D12 Expert Series Features
Top View
70.0 mm
(2.76 ")
Output Indicator
35.5 mm
(1.40 in)
Power Indicator
Push Button
30.0 mm
(1.18")
ALM
7
LO
6
DO
5
40 ms
4
0 ms
3
2
7-Segment Bargraph Indicates:
Signal Strength
Sensing Contrast
Programming Status
Diagnostic Display
1
ON
26.0 mm
(1.02')
Pull to Release
Bracket
5.0 mm
(0.20")
Output Indicator
Power “ON” Indicator
Mounting Bracket
(Included)
Glass Fiber
Emitter Port
Push Button for Programming
Glass Fiber
Receiver Port
D12 Expert Series - Plastic Fiber Optic Models
Slide Up
to Release
Fibers
64.0 mm
(2.52")
20.0 mm
(0.79")
Plastic Fiber Emitter Port
Plastic Fiber Receiver Port
Small Fiber
Adapter
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
621
D12 Standard/High Speed/High Power Sensors
D12 Standard, High Speed and High Power Sensors
•
•
•
•
•
D12 Standard, High Speed and High Power
Sensing Mode Options
•
•
•
Models for use with either Banner glass or plastic fiber
optic assemblies
Standard models have fast 500 microsecond (0.5 millisecond)
output response; high speed models (model suffix “Y” or
“Y1”) have selectable 500 or 50 microsecond response
Choice of either NPN (sinking) or PNP (sourcing)
complementary outputs; 150mA output load rating
Normally-closed output of standard models may be wired as a
diagnostic alarm output to alert personnel of marginal sensing
conditions*
7-segment LED bargraph† (all models) indicates: received
signal strength, output overload, and marginal signal strength
(NOTE: bargraph is inoperative in the 50 microsecond mode
of high speed models)
Separate LED indicators for sensor power and output status
“Y1” suffix high speed models include a 20 millisecond output
pulse stretcher
Choose models with integral 2 m (6.5') cable or 150 mm
(6 in) pico-style pigtail QD; 9 m (30') cables are also available
*U.S. Patent #5087838
†
U.S. Patent #4965548
Glass and Plastic Fiber Optic
Visible red, 680 nm
D12 Standard Glass Fiber Optic (500 µs Output Response)
Models
Range
Supply
Voltage
Cable
Output
Type
Excess Gain
Diffuse mode performance based on 90% reflectance white test card
1000
D12SN6FV
D12SN6FVQ
Range
varies by
sensing
mode
and fiber
optics
used
D12SP6FV
D12SP6FVQ
Complementary
NPN
2 m (6.5')
4-Pin Pico Pigtail QD
E
X
C
E
S
S
G
A
I
N
D12FV models
Opposed mode
100
w/IT23S
Fibers
w/IT13S
Fibers
10
1
1 mm
0.04 in
10 mm
0.4 in
100 mm
4.0 in
1000 mm
40 in
DISTANCE
10-30V dc
1000
2 m (6.5')
4-Pin Pico Pigtail QD
Complementary
PNP
E
X
C
E
S
S
D12FV models
Diffuse mode
w/BT23S Fiber
100
w/BT13S Fiber
G
A
I
N
10
1
0.1 mm
0.004 in
1 mm
0.04 in
10 mm
0.4 in
100 mm
4 in
DISTANCE
622
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
D12 Standard/High Speed/High Power Sensors
Visible red, 680 nm
D12 High Speed Glass Fiber Optic (50 µs or 500 µs Output Response)
Models
Range
Cable
Supply
Voltage
Output
Type
Excess Gain
Diffuse mode performance based on 90% reflectance white test card
1000
D12SN6FVY
D12SN6FVYQ
D12SN6FVY1*
D12SN6FVY1Q*
D12SP6FVY
D12SP6FVYQ
D12SP6FVY1*
D12SP6FVY1Q*
2 m (6.5')
4-Pin Pico Pigtail QD
2 m (6.5')
Range 4-Pin Pico Pigtail QD
varies by
sensing
10-30V dc
mode
and fiber
optics
2 m (6.5')
used
4-Pin Pico Pigtail QD
2 m (6.5')
4-Pin Pico Pigtail QD
Complementary
NPN
E
X
C
E
S
S
G
A
I
N
D12 FVY &
FVY1 models
Opposed mode
100
w/IT23S Fibers
10
w/IT13S Fibers
1
1 mm
0.04 in
10 mm
0.4 in
100 mm
4.0 in
1000 mm
40 in
DISTANCE
1000
Complementary
PNP
E
X
C
E
S
S
G
A
I
N
D12FVY & FVY1
models
Diffuse mode
100
w/BT23S Fiber
10
w/BT13S Fiber
1
0.1 mm
0.004 in
1 mm
0.04 in
10 mm
0.4 in
100 mm
4 in
DISTANCE
* Y1 models have 20 ms output pulse stretcher
For D12 Standard, High Speed and High Power Sensors:
i) 9 m (30') cables are available by adding suffix “W/30” to the model number of any cabled sensor (e.g. - D12SP6FV W/30)
ii) Quick disconnect models (suffix “Q”) have a 150 mm (6") long pigtail cable with a Pico-style connector. See page 634 for more information.
iii) A model with a QD connector requires an accessory mating cable. See page 634 and the Accessories section for more information.
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
623
D12 Standard/High Speed/High Power Sensors
Visible red, 680 nm
D12 Standard Plastic Fiber Optic (500 µs Output Response)
Models
Range
Supply
Voltage
Cable
Output
Type
Excess Gain
Diffuse mode performance based on 90% reflectance white test card
1000
D12SN6FP
D12SN6FPQ
Complementary
NPN
2 m (6.5')
4-Pin Pico Pigtail QD
Range
varies by
sensing
mode
and fiber
optics
used
D12SP6FP
D12SP6FPQ
D12FP models
E
X
C
E
S
S
Opposed mode
100
PIT46U Fibers
G
A
I
N
10
PIT26U Fibers
1
1.0 mm
.04 in
10 mm
0.4 in
100 mm
4.0 in
1000 mm
40 in
DISTANCE
10-30V dc
1000
E
X
C
E
S
S
Complementary
PNP
2 m (6.5')
4-Pin Pico Pigtail QD
G
A
I
N
D12FP models
PBT46U Fiber
Diffuse mode
100
10
PBT26U Fiber
1
0.1 mm
.004 in
1.0 mm
.04 in
10 mm
.4 in
100 mm
4 in
DISTANCE
D12 High Speed Plastic Fiber Optic (50 µs or 500 µs Output Response)
Models
Range
Supply
Voltage
Cable
Output
Type
Excess Gain
Diffuse mode performance based on 90% reflectance white test card
1000
D12SN6FPY
D12SN6FPYQ
D12SN6FPY1*
D12SN6FPY1Q*
D12SP6FPY
D12SP6FPYQ
D12SP6FPY1*
D12SP6FPY1Q*
2 m (6.5')
4-Pin Pico Pigtail QD
2 m (6.5')
Range 4-Pin Pico Pigtail QD
varies by
sensing
10-30V dc
mode
and fiber
optics
2 m (6.5')
used
4-Pin Pico Pigtail QD
2 m (6.5')
4-Pin Pico Pigtail QD
Complementary
NPN
E
X
C
E
S
S
D12FPY & FPY1
models
Opposed mode
100
PIT46U Fibers
G
A
I
N
10
PIT26U Fibers
1
1.0 mm
0.04 in
10 mm
0.4 in
100 mm
4.0 in
1000 mm
40 in
DISTANCE
1000
Complementary
PNP
E
X
C
E
S
S
G
A
I
N
D12FPY & FPY1
models
Diffuse mode
100
PBT46U Fiber
10
PBT26U Fiber
1
0.1 mm
.004 in
1.0 mm
.04 in
10 mm
.4 in
100 mm
4 in
DISTANCE
* Y1 models have 20 ms output pulse stretcher
624
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
D12 Standard/High Speed/High Power Sensors
Visible red, 660 nm
D12 High Power Plastic Fiber Optic (500 µs Output Response)
Models
Range
Cable
Supply
Voltage
Output
Type
Excess Gain
Diffuse mode performance based on 90% reflectance white test card
1000
D12SN6FPH
D12SN6FPHQ
2 m (6.5')
4-Pin Pico Pigtail QD
Range
varies by
sensing
mode
and fiber
optics
used
D12SP6FPH
D12SP6FPHQ
Complementary
NPN
E
X
C
E
S
S
G
A
I
N
D12FPH Series
Sensors
100
PIT46U
Fibers
10
PIT26U Fibers
1
1.0 mm
0.04 in
10 mm
0.4 in
100 mm
4.0 in
1000 mm
40 in
DISTANCE
10-30V dc
1000
2 m (6.5')
4-Pin Pico Pigtail QD
Complementary
PNP
E
X
C
E
S
S
G
A
I
N
D12FPH Series
Sensors
100
PBT46U Fiber
10
PBT26U Fiber
1
1 mm
0.04 in
10 mm
0.4 in
100 mm
4.0 in
1000 mm
40 in
DISTANCE
NOTE: D12 High Power models for glass fiber optics are available by special order
For D12 Standard/High Speed/High Power Standard, High Speed and High Power Sensors:
i) 9 m (30') cables are available by adding suffix “W/30” to the model number of any cabled sensor (e.g. - D12SN6FPH W/30)
ii) Quick disconnect models (suffix “Q”) have a 150 mm (6") long pigtail cable with a Pico-style connector. See page 634 for more information.
iii) A model with a QD connector requires an accessory mating cable. See page 634 and the Accessories section for more information.
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
625
D12 Standard/High Speed/High Power Sensors
D12 Standard, High Speed and High Power Specifications
Supply Voltage and Current
10 to 30V dc at 45 mA max. (exclusive of load)
Supply Protection Circuitry
Protected against reverse polarity and transient voltages
Output Configuration
Outputs are NPN (sinking) or PNP (sourcing), depending on model
Complementary: one normally open (N.O.) and the other normally closed (N.C.); N.C.output may be wired
as diagnostic alarm output by reversing power supply connections except high speed “Y” and “Y1” suffix
models (see hookups)
Output Rating
150 mA maximum each output
Off-state leakage current less than 10 microamps at 30V dc
On-state saturation voltage less than 1 volt at 10 mA dc and less than 1.5 volts at 150 mA dc
The total load may not exceed 150 mA
Output Protection Circuitry
Protected against false pulse on power-up and short circuit of outputs
Output Response Time
Standard and High Power Models: 500 microseconds on/off; High Speed Models: selectable 50 or 500
microseconds on/off
(NOTE: False pulse protection circuit causes a 0.1 second delay on power-up)
Output Timing Functions
“Y1” models have fixed 20 ms pulse stretcher (off-delay) when 50 µs mode is used
Repeatability
130 microseconds; “Y” and “Y1” models have selectable 50 µs/500 µs response;repeatability in 50 µs mode is 15 µs
Adjustments
All models have a SENSITIVITY control on top of sensor (15-turn slotted brass screw, clutched at both ends
of adjustment); “Y” and “Y1” (high speed models) also have a top-mounted response mode selector switch
Indicators
Two top-mounted LED indicators, one yellow and one green, and one 7-segment red LED moving dot
bargraph; Note that the 7-segment bargraph and marginal excess gain indication (bargraph segment #7)
are inoperative in the 50µs response mode of “Y” and “Y1” models
GREEN LED lights for DC Power On
YELLOW LED lights for NORMALLY OPEN OUTPUT CONDUCTING
On all models in 500µs response mode, the 7-segment moving dot red LED bargraph lights to indicate
relative received light signal strength; On all models in 50 and 500µs response mode, segment #1 flashes
to indicate OUTPUT OVERLOAD; On all models in the 500 µs response mode, segment #7 flashes to
indicate MARGINAL EXCESS GAIN; On standard and high power models, a flashing LED corresponds to
the “on” state of the alarm output; (Alarm output not available on Y & Y1 models)
Construction
Black ABS (Cycolac® KJB) housing with acrylic cover, stainless steel M3 x 0.5 hardware for use with
thermoplastic polyester mounting bracket (supplied); the plastic fiber clamping element is Delrin®
Mounting Bracket
D12 Sensors mount
directly to a
standard DIN rail, or
may be throughhole mounted using
the supplied
mounting bracket
and M3 x 0.5
hardware
2.5 mm
(0.10")
Section A-A
A
ø 4.45 mm (2)
(0.175")
2.3 mm
(0.09")
25.4 mm
(1.00")
15.2 mm
(0.60")
35.0 mm
(1.38")
3.45 mm (2)
(0.136")
ø 7.9 mm x 3.0 mm
deep (2)
(0.31" x 0.12")
9.9 mm
(0.39")
4.8 mm
(0.19")
ø 3.25 mm (2)
(0.128")
A
0.94 mm
(0.037")
8.6 mm
(0.34")
11.9 mm
(0.47")
Environmental Rating
Rated NEMA 4; IEC IP66
Connections
PVC-jacketed 2 m (6.5') or 9 m (30') cables, or 150 mm 4-pin pico-style quick-disconnect (QD) pigtail
fitting are available. QD cables are ordered separately. See page 634 and the Accessories section.
Operating Conditions
Temperature:
-20° to +70°C (-4° to +158°F)
Maximum relative humidity: 90% at 50°C (non-condensing)
Certifications
Cycolac® is a registered trademark of General Electric Co.; Delrin® is a registered trademark of Dupont
626
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
D12 Standard/High Speed/High Power Sensors
D12 Standard/High Speed/High Power Hookup Diagrams
D12 Sensors with NPN (Sinking) Outputs
Standard Hookup
bu
bn
bk
wh
D12 Sensors with PNP (Sourcing) Outputs
Standard Hookup
bn
bu
bk
wh
-
10-30V dc
+
Load
Load
+
10-30V dc
-
Load
Load
Alarm Hookup*
bn
bu
bk
wh
Alarm Hookup*
bu
bn
bk
wh
-
10-30V dc
+
Load
Alarm
+
10-30V dc
-
Load
Alarm
*NOTE1: High speed models (model suffix “Y” and “Y1”) use Standard Hookup only.
NOTE: Hookups are the same for either and integral cable or QD cable. QD connector pin configuration is as seen below.
4-Pin Pico-Style Pin-out
(Connector on Cable Shown)
Black Wire
White Wire
Blue Wire
Brown Wire
Quick-Disconnect (QD) Option
D12 Standard/High Speed/High Power Sensors are sold either with a 2 m (6.5') or 9 m (30') attached PVC-covered cable or with
a 150 mm (6") 4-pin pico-style pigtail QD cable fitting.
D12 Standard/High Speed/High Power QD sensors are identified by the letter “Q” in their model number suffix. Mating cable for
QD sensors is model PKG4-2 (straight connector). Cables are supplied in a standard length of 2 m (6.5'). For more information
on QD cable, see page 634 and the Accessories section.
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
627
D12 Standard/High Speed/High Power Sensors
D12 Standard/High Speed/High Power Dimensions
D12 Standard/High Speed Sensors - Glass Fiber Optic Models
Fiber Retaining Clip
(Supplied with Sensor)
12.0 mm
(0.47")
Signal Strength and
Diagnostics Indicators
70.0 mm
(2.76")
Response Mode Selector
(High-Speed Models, Only)
Output Indicator
35.5 mm
(1.40")
Power Indicator
Sensitivity Adjustment
26.0 mm
(1.02")
30.0 mm
(1.18")
Mounting Bracket
(Included)
Glass Fiber
Emitter Port
Pull to Release
Bracket
Glass Fiber
Receiver Port
5.0 mm
(0.20")
D12 Standard/High Speed/High Power Sensors - Plastic Fiber Optic Models
Slide Up
to Release
Fibers
64.0 mm
(2.52 ")
20.0 mm
(0.79")
Plastic Fiber Emitter Port
Plastic Fiber Receiver Port
Small Fiber
Adapter
D12 Standard/High Speed/High Power Sensors Features
Top View
7
6
5
Moving Dot Signal Strength
and Diagnostic Display
4
3
2
1
50 S
500 S
ON
Response Mode Selector
(High-Speed Models, Only)
Output Indicator
Power “ON” Indicator
15-Turn Sensitivity
(Gain) Control
628
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
D12 Standard/High Speed/High Power Sensors
NOTES:
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
629
D12 AC-Coupled Series Sensors
D12 AC-Coupled Sensors
•
Highly sensitive to very small signal change; fast response
•
Automatic gain control circuit continually adjusts emitter
output to maintain system gain
•
Ideal for low contrast applications such as web flaw, thread
break and falling part detection
•
Bipolar outputs: one NPN (sinking) and one PNP (sourcing)
•
LED indicators for sensor power, output status and AGC lock
condition
•
Selectable light- or dark-operate; no false pulse on power-up
•
Adjustable output pulse time
•
Models for both plastic and glass fiber optics
D12DAB6FP Plastic Fiber Optic Sensor,
Mounted on a DIN Rail with a Bifurcated
Plastic Fiber Optic Assembly Attached
D12 AC-Coupled Sensing Mode Options
Glass and Plastic Fiber Optic
Visible red, 680 nm
D12 AC-Coupled Series Glass Fiber Optic (50 µs Output Response)
Models
D12DAB6FV
D12DAB6FVQ
Range
Cable
Supply
Voltage
Output
Type
Range
varies by
sensing
2 m (6.5')
Bipolar
10-30V dc
mode
4-Pin Pico Pigtail QD
NPN/PNP
and fiber
optics
used
Maximum Range
Diffuse mode performance based on 90% reflectance white test card
IT23S fibers, opposed mode: 200 mm (8")*
IT13S fibers, opposed mode: 75 mm (3")
BT23S fiber, diffuse mode: 60 mm (2.5")
BT13S fiber, diffuse mode: 25 mm (1")
*Opposed mode range may be extended using optional
lenses (see Accessories in the glass fiber optic section)
For D12 AC-Coupled Sensors:
i) 9 m (30') cables are available by adding suffix “W/30” to the model number of any cabled sensor (e.g. - D12DAB6FV W/30)
ii) Quick disconnect models (suffix “Q”) have a 150 mm (6") long pigtail cable with a Pico-style connector. See page 634 for more information.
iii) A model with a QD connector requires an accessory mating cable. See page 634 and the Accessories section for more information.
630
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
D12 AC-Coupled Series Sensors
Visible red, 680 nm
D12 AC-Coupled Series Plastic Fiber Optic (50 µs Output Response)
Models
D12DAB6FP
D12DAB6FPQ
Range
Cable
Supply
Voltage
Range
varies by
sensing
2 m (6.5')
mode
10-30V dc
4-Pin Pico Pigtail QD
and fiber
optics
used
Output
Type
Maximum Range
Diffuse mode performance based on 90% reflectance white test card
PIT46U fibers, opposed mode: 76 mm (3")*
PIT26U fibers, opposed mode: 13 mm (0.5")
Bipolar
NPN/PNP
PBT46U fiber, diffuse mode: 25 mm (1")
PBT26U fiber, diffuse mode: 5 mm (0.2")
*Opposed mode range may be extended using optional
lenses (see Accessories in the plastic fiber optic section)
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
631
D12 AC-Coupled Series Sensors
D12 AC-Coupled Series Specifications
Supply Voltage and Current
10 to 30V dc at 60 mA max. (exclusive of load)
Supply Protection Circuitry
Protected against reverse polarity and transient voltages
Output Configuration
Bipolar: one NPN (current sinking) and one PNP (current sourcing) open-collector transistor
Output Rating
150 mA maximum each output
Off-state leakage current less than 10 microamps at 30V dc
On-state saturation voltage less than 1 volt at 10 mA dc and less than 1.5 volts at 150 mA dc
The total load may not exceed 150 mA
Output Protection Circuitry
Protected against false pulse on power-up and short circuit of outputs
Output Response Time
50 microseconds on/off
(NOTE: False pulse protection circuit causes a 0.1 second delay on power-up)
Output Operation Mode
Light operate or dark operate: selected by switch
Output Timing Functions
Pulse output; adjustable from 1 to 70 milliseconds
Repeatability
15 microseconds “on”
Adjustments
Three top-panel controls: SENSITIVITY control (15-turn slotted brass screw, clutched at both ends of
adjustment), a light- or dark-operate select switch, and an OUTPUT PULSE adjustment (3/4-turn potentiometer)
Indicators
Three top-mounted LED indicators:
GREEN LED lights to indicate dc Power On
YELLOW LED lights for Output Conducting
RED LED lights whenever AGC system is locked onto the signal
Construction
Black ABS (Cycolac® KJB) housing with acrylic cover, stainless steel M3 x 0.5 hardware for use with
thermoplastic polyester mounting bracket (supplied); the plastic fiber clamping element is Delrin®
Mounting Bracket
D12 Sensors mount
directly to a
standard DIN rail,
or may be throughhole mounted using
the supplied
mounting bracket
and M3 x 0.5
hardware
2.5 mm
(0.10")
Section A-A
A
ø 4.45 mm (2)
(0.175")
2.3 mm
(0.09")
25.4 mm
(1.00")
15.2 mm
(0.60")
35.0 mm
(1.38")
3.45 mm (2)
(0.136")
ø 7.9 mm x 3.0 mm
deep (2)
(0.31" x 0.12")
9.9 mm
(0.39")
4.8 mm
(0.19")
ø 3.25 mm (2)
(0.128")
A
0.94 mm
(0.037")
8.6 mm
(0.34")
11.9 mm
(0.47")
Environmental Rating
Rated NEMA 4; IEC IP66
Connections
PVC-jacketed 2 m (6.5') or 9 m (30') cables, or 150 mm 4-pin pico-style quick-disconnect (QD) pigtail
fitting are available. QD cables are ordered separately. See page 634 and the Accessories section.
Operating Conditions
Temperature:
-40° to +70°C (-40° to +158°F)
Maximum relative humidity: 90% at 50°C (non-condensing)
Application Note
D12 AC-coupled sensors should not be used in areas of known electrical “noise” or RF fields.
®
Cycolac is a registered trademark of General Electric Co.; Delrin® is a registered trademark of Dupont
632
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
D12 AC-Coupled Series Sensors
D12 AC-Coupled Series Hookup Diagrams
D12 AC-Coupled with Attached Cable
bn
D12 AC-Coupled with
Quick-Disconnect
bn
+
10-30V dc
–
bu
wh
bk
+
10-30V dc
–
bu
Load
wh
Load
bk
AGC LOCK Indicator
Black Wire
White Wire
Blue Wire
Brown Wire
Load
Load
D12 AC-Coupled Series - Glass Fiber Optic Models
Fiber Retaining Clip
(Supplied with Sensor)
Output Pulse
Width Adjust
4-Pin Pico-Style Pin-out
(Connector on Cable Shown)
12.0 mm
(0.47")
D12 AC-Coupled Series Features
Top View
70.0 mm
(2.76")
Light/Dark Operate Select
Output Indicator
35.5 mm
(1.40")
Power Indicator
Sensitivity Adjustment
30.0 mm
(1.18")
HOLD
Output Pulse Width Adjust
AGC Lock Indicator
LOCK
LO
DO
ON
26.0 mm
(1.02")
Mounting Bracket
(Included)
Pull to Release
Bracket
5.0 mm
(0.20")
Light /Dark Operate Select
Output Indicator
Power “ON” Indicator
Glass Fiber
Emitter Port
GAIN
15-Turn Sensitivity
(Gain) Control
Glass Fiber
Receiver Port
D12 AC-Coupled Series - Plastic Fiber Optic Models
Slide Up
to Release
Fibers
64.0 mm
(2.52")
20.0 mm
(0.79")
Plastic Fiber
Emitter Port
Plastic Fiber
Receiver Port
Small Fiber
Adapter
Quick-Disconnect (QD) Option
D12 AC-Coupled Sensors are sold either with a 2 m (6.5') or 9 m (30') attached PVC-covered cable or with a 150 mm (6") 4-pin
pico-style pigtail QD cable fitting.
D12 AC-Coupled QD sensors are identified by the letter “Q” in their model number suffix. Mating cable for QD sensors is model
PKG4-2 (straight connector). Cables are supplied in a standard length of 2 m (6.5'). For more information on QD cable, see page
634 and the Accessories section.
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
633
D12 Accessories
Modifications
Model Suffix
Modification
W/30
9 m (30') cable
Q
150 mm 4-Pin PicoStyle Pigtail QuickDisconnect
NOTE: Not available for
D12 Expert Series
Example of Model
Number
Description
All D12 sensors may be ordered with an integral 9 m (30') cable in place of
the standard 2 m (6.5') cable
All D12 sensors (except D12
Expert Series) may be built
with a 150 mm (6") long
integral cable which is
terminated with the
appropriate QD connector.
See the Accessories section
for more information.
D12SN6FP W/30
D12SN6FPHQ
150 mm (6") Pigtail
4-Pin Pico-Style
Quick-Disconnect Connector
Quick-Disconnect (QD) Cables
The following is a selection of cables available for the D12 QD models. See the Accessories section for more information.
Style
4-Pin Pico
634
Model
PKG4-2
Length
Connector
For use with:
2 m (6.5')
Straight
All D12 Sensors (except for D12 Expert Series)
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
PC44 Sensors
PC44 Sensors
PC44 Sensors . . . . . . . . . . . . . . . . . . . . . . . . . . 636
PC44 Accessories . . . . . . . . . . . . . . . . . . . . . . . 638
!
PC44 sensors are not suitable for use in
personnel safety applications! See WARNING on
inside front cover of catalog.
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
635
PC44 Sensors
PC44 Sensors
Plug-in Sensing Controls for Plastic Fiber Optics
Three PC44 Sensors plugged into I/O module
PC44 Sensing Mode Options
•
For use with Banner 1 mm (0.04") diameter plastic fiber optic
assemblies
•
Two models available; select NPN (current sinking) or PNP
(current sourcing) outputs
•
Both models have two outputs: Load and Alarm; both outputs
rated for 100 mA maximum
•
Alarm output conducts whenever excess gain in the light
condition falls below 1.5x
•
PC44 sensors may be soldered directly to a printed circuit
board; optional socket pin kit model PCJ-25 (25 PC board
sockets per kit) is available
•
Connect pin #3 to +V dc for dark operate or leave unconnected
for light operate (see hookup diagrams)
•
Use with any Banner 1 mm (0.04") diameter plastic fiber optic
assembly
•
Easy fiber installation - simply push fibers into place and snap
gripper door closed
Plastic Fiber Optic
Visible red, 680 nm
PC44 Plastic Fiber Optic
Models
Supply
Voltage
Range
Output
Type
Excess Gain
Beam Pattern
Diffuse mode performance based on 90% reflectance white test card
1000
E
X
C
E
S
S
NPN
PC44BN6FP
G
A
I
N
PC44
PC44BP6FP
1.5 in
25 mm
1.0 in
13 mm
0.5 in
0
10
PIT46U Fibers
PIT46U Fibers
10 mm
0.4 in
100 mm
4 in
0
13 mm
0.5 in
25 mm
1.0 in
38 mm
1000 mm
40 in
1.5 in
0
50 mm 100 mm 150 mm 200 mm 250 mm
2 in
4 in
6 in
8 in
10 in
DISTANCE
DISTANCE
10-30V dc
1000
PNP
E
X
C
E
S
S
PC44
Diffuse Mode
PC44
Diffuse Mode
7.5 mm
5 mm
0.2 in
2.5 mm
0.1 in
0
G
A
I
N
0.3 in
100
10
PBT46U Fiber
PBT46U Fiber
1 mm
0.04 in
10 mm
0.4 in
DISTANCE
100 mm
4 in
0
2.5 mm
0.1 in
5 mm
0.2 in
7.5 mm
1
0.1 mm
0.004 in
636
Opposed Mode
38 mm
100
1
1 mm
0.04 in
Range varies by sensing
mode and fiber optics used
PC44
Opposed Mode
0.3 in
0
12.5 mm 25 mm 37.5 mm 50 mm 62.5 mm
0.5 in
1.0 in
1.5 in
2.0 in
2.5 in
DISTANCE
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
PC44 Sensors
PC44 Specifications
Supply Voltage and Current
10 to 30V dc at 25 mA maximum, exclusive of load, at module pins #2 (+V dc) and #5 (dc common);
10% maximum ripple
Supply Protection Circuitry
Protected against reverse polarity
Output Configuration
Solid-state dc output, selectable for light- or dark-operate:
PC44BN6FP = NPN sinking load output plus NPN sinking alarm output
PC44BP6FP = PNP sourcing load output plus PNP sourcing alarm output
Light operate mode: Normally open load output conducts when the receiver sees the emitter’s modulated
visible red light
Dark operate mode: Normally open load output conducts when the receiver does not see the emitter’s
modulated light
Module Output Rating
100 mA maximum each output
Off-state leakage current is less than 1 microamp at 30V dc
On-state saturation voltage is less than 1 volt at 10 mA dc and less than 1.5 volts at 100 mA dc
When the alarm output is used, the total load may not exceed 100 mA
Output Protection Circuitry
Protected against false pulse on power-up and overload or short circuit of outputs
Output Response Time
1 millisecond ON and OFF; independent of signal strength; Repeatability: 0.25 milliseconds
(NOTE: False pulse protection circuit causes 100 millisecond delay on power-up)
Indicators
Two top-mounted LED indicators:
GREEN glowing steadily = dc power “ON”
GREEN flashing = output overloaded
YELLOW glowing steadily = excess gain in light condition is >1.5x
YELLOW flashing = excess gain in light condition is marginal (<1.5x)
Flashing YELLOW corresponds to a conducting (closed) alarm output
Construction
Polypropylene housing, gold-plated copper connecting pins, totally epoxy-encapsulated, sealed and plated
steel mounting (hold-down) screw
Operating Conditions
Temperature:
-20° to +50°C (-5° to +131°F)
Maximum relative humidity: 90% at 50°C (non-condensing)
PC44 DC Hookup Diagrams
Model PC44BN6FP - NPN (Sinking) - Light Operate
3
5
2
4
1
3
5
2
4
1
No Connection
-
10-30V dc
+
Load
Alarm
Model PC44BP6FP - PNP (Sourcing) - Light Operate
3
2
5
4
1
Model PC44BN6FP - NPN (Sinking) - Dark Operate
-
10-30V dc
+
Load
Alarm
Model PC44BP6FP - PNP (Sourcing) - Dark Operate
No Connection
+
10-30V dc
-
Load
Alarm
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
3
2
5
4
1
+
10-30V dc
-
Load
Alarm
637
PC44 Sensors
PC44 Dimensions
PC44 Series Modules Dimensions & Features
PC44 Series Modules Pin Identification
#4-40 Mounting Screw
15.2 mm
(0.60")
43.2 mm (1.70")
21.6 mm (0.85")
20.3 mm (0.80")
17.3 mm (0.68")
Pin 5 (dc Common)
Power Indicator
ø 1.0 mm (0.04")
Plastic Fiber
Emitter Port
Signal Indicator
Sensitivity
(Gain)
Adjustment
ø 1.0 mm (0.04")
Plastic Fiber
Receiver Port
Pin 4 (Output)
Pin 3 (L.O./D.O.)
6.1 mm (0.24")
4.6 mm (0.18")
Pin 2 (+ V dc)
Pin 1 (Alarm)
PC44 Series Modules Dimensions & Pin Locations
43.2 mm (1.70")
Pin Dimensions:
ø 1.02 mm ( 0.040")
x 6.4 mm (0.25") Long
40.6 mm (1.60")
35.6 mm (1.40")
30.5 mm (1.20")
17.8 mm (0.70")
7.6 mm (0.30")
2.5 mm
(0.10")
5
4
3
2
7.6 mm
(0.30")
1
15.2 mm
(0.60")
Fibers
25.4 mm
(1.00")
#4-40
Mounting Screw
Bottom View
PC44 Accessories
Printed Circuit Board Pin Socket
PC44 modules may be soldered directly to a printed circuit board (wave solder or hand solder). A set of socket pins is available for PC board
mounting. PC44 modules plug into standard I/O mounting racks.
Model
PCJ-25
638
Description
Socket pin kit contains 25 socket pins (5 required per module) and 5 hold-down nuts (1 required per module)
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
Fiber Optics
Fiber Optics
Plastic Fiber Optics . . . . . . . . . . . . . . . . . . . . . . 640
Bifurcated Fibers . . . . . . . . . . . . . . . . . . . . . 644
Individual Fibers . . . . . . . . . . . . . . . . . . . . . 653
Special Application Fibers . . . . . . . . . . . . . . . 661
Custom Fibers . . . . . . . . . . . . . . . . . . . . . . . 664
Plastic Fiber Optic Accessories . . . . . . . . . . . . . . 673
Glass Fiber Optics . . . . . . . . . . . . . . . . . . . . . . . 678
Bifurcated and Individual Fibers . . . . . . . . . . . 682
Custom Fibers . . . . . . . . . . . . . . . . . . . . . . . 701
Glass Fiber Optic Accessories . . . . . . . . . . . . . . . 719
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
639
Plastic Fiber Optics
Plastic Fiber Optics
•
Banner plastic fiber optics are an economical alternative to glass
fiber optics for piping photoelectric sensing light into and out of
confined areas where environmental conditions allow
•
Plastic fiber optics are ideal for applications involving smallsized object detection or repeated fiber flexing and bending
•
They are available in individual or bifurcated styles:
- Individual fibers are used in pairs in the opposed sensing
mode; all individual plastic fiber optics are sold in pairs
- Bifurcated fibers are two-way fibers having a single
sensing end that both emits and receives light and dual
control sensor ends which attach separately to the sensor
!
•
DURA-BEND™ fibers were developed to provide improved
flexibility when integrating ø 1.0 mm (0.040") plastic fiber optic
assemblies into difficult-to-access locations. Standard 1.0 mm
plastic fiber optic assemblies are limited to a minimum bend
radius of 25 mm, at which point significant light attenuation
(loss of light) occurs. The minimum bend radius for DURABEND optical fibers is reduced to 1 mm, with no loss of
performance. DURA-BEND optical fiber cable is comprised of
hundreds of tiny individual plastic optical fibers, fused to form
an “effective” optical fiber core of 1.0 mm or 0.5 mm (also
available).
•
Banner plastic fiber optic assemblies are available in the following
core diameters: 0.25 mm (0.010"), 0.50 mm (0.020"),
0.75 mm (0.030"), 1.0 mm (0.40") and 1.5 mm (0.060")
APPLICATION NOTES and WARNINGS
!
1. Plastic fiber assemblies having the letter “U” in the suffix of their model numbers, have unterminated control ends (the end that is
coupled to the photoelectric sensor). These fiber optic assemblies may be cut by the customer to the required length using the
supplied cutter. Use only the supplied cutter to ensure optimal light coupling efficiency.
2. Terminated plastic fiber assemblies are optically ground and polished, and cannot be shortened, spliced, or otherwise modified.
3. Do not subject the plastic fibers to sharp bends, pinching, high tensile loads, or high levels of radiation.
4. When ordering fiber lengths in excess of 2 m (6'), take into account light signal attenuation due to the additional length.
5. Due to their light transmission properties, plastic fiber optics are recommended for use only with visible light fiber optic sensors.
6. Use caution when applying fiber optics in hazardous locations. Although fiber optic assemblies are, by themselves, intrinsically
safe, the sensor and associated electronics must be LOCATED IN A SAFE ENVIRONMENT. Alternatively, fiber optics may be used
with sensor model SMI912FPQD (page 359). This sensor is approved for use inside hazardous areas when used with an
appropriate intrinsic barrier. Also, see NAMUR sensor models Q45AD9FP (page 417). Fiber optics do not necessarily provide a
hermetic seal between a hazardous environment and the safe environment.
640
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
Plastic Fiber Optics
Model Numbering Scheme for Plastic Fiber Optic Assemblies
PLASTIC FIBER FAMILY
designator
P B P 4 6 U C X
MODIFICATIONS designator
Same for all plastic fibers
“MXX” = Sensing end tip modification
STYLE designator
B
I
=
=
Bifurcated fiber
Individual fiber*
CONTROL END designator
(describes end of fiber which attaches to the sensor)
T
TS
TP
TT
T1
TS1
TP1
TT1
U
UC
UHF
=
=
=
=
=
=
=
=
=
=
=
Terminated straight cable (D11, D12)
Terminated Stainless sheath ((D11, D12)
Terminated PVC sheath ((D11, D12)
Terminated Teflon® sheath ((D11, D12)
Terminated straight cable (Q45, OMNI-BEAM)
Terminated Stainless sheath (Q45, OMNI-BEAM)
Terminated PVC sheath (Q45, OMNI-BEAM)
Terminated Teflon® sheath (Q45, OMNI-BEAM)
Unterminated straight cable**
Unterminated Coiled cable
Unterminated DURA-BEND™ (“High Flex”) cable
SENSING END designator
A
AT
AF
AP
CF
CT
EFP
F
FM
FMP
FP
L
P
PF
PM
PMSB
PS
PSB
PSM
R
RS
T
TA
TF
TP
TR
U
=
=
=
=
=
=
=
=
=
=
=
=
=
=
=
=
=
=
=
=
=
=
=
=
=
=
=
Angled
Angled Threaded
Angled Ferrule
Angled Probe
Coaxial Ferrule
Coaxial Threaded
Extended Ferrule Probe
Ferrule
Ferruled Miniature
Ferrule Miniature Probe
Ferrule Probe
Lensed
Probe
Probe Ferrule
Probe Miniature
Probe Miniature Side view Bendable
Probe Side view
Probe Side view Bendable
Probe Side view Miniature
Rectangular
Rectangular Side view
Threaded
Threaded Angle
Threaded Ferrule
Threaded Probe
Threaded Rectangular
Unterminated
FIBER LENGTH designator
3 =
6 =
15 =
1 m (3')
2 m (6')
5 m (15')
CORE FIBER DIAMETER designator
1
1X4
1X8
1X16
1X32
2
3
4
6
=
=
=
=
=
=
=
=
=
0.25 mm (0.01")
0.25 mm (0.01") x 4
0.25 mm (0.01") x 8
0.25 mm (0.01") x 16
0.25 mm (0.01") x 32
0.50 mm (0.02")
0.75 mm (0.03")
1.00 mm (0.04")
1.50 mm (0.06")
* Individual plastic fibers are sold in pairs.
**Plastic fibers having the letter “U” in the suffix of their model numbers have unterminated control ends, and may be cut by the customer to the
required length. Use cutters supplied with fiberoptic cable.
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
641
Plastic Fiber Optics
The following Banner fiber optic products use plastic fibers for sensing applications.
Sensors for Plastic Fiber Optics Quick Reference Guide
D10 Series
OMNI-BEAM
Plastic Fiber Optic Models
Plastic Fiber Optic Models
(pp. 596 & 598)
(pp. 434 & 446)
D11 Series
PC44 Sensors
Plastic Fiber Optic Models
Plastic Fiber Optic Models
(pp. 604, 605, 610 & 611)
(p. 636)
D12 Series
Q23
Plastic Fiber Optic Models
Plastic Fiber Optic Models
(pp. 619, 624, 625 & 631)
(p. 99)
ECONO-BEAM
Q45 & Q45X Series
Plastic Fiber Optic Models
Plastic Fiber Optic Models
(p. 163)
(pp. 386, 403 & 417)
MAXI-BEAM
QM42 Series
Plastic Fiber Optic Models
Plastic Fiber Optic Models
(p. 463)
(p. 244)
MINI-BEAM
R55F
Plastic Fiber Optic Models
Plastic Fiber Optic Models
(pp. 122, 132, 133 & 142)
(p. 307)
VALU-BEAM
WORLD-BEAM™
Plastic Fiber Optic Models
Plastic Fiber Optic Models
(pp. 343, 351 & 359)
(p. 109)
642
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
Plastic Fiber Optics
Plastic Fiber Optics Specifications
Construction
Optical Fiber: acrylic monofilament
Protective Jacket: black polyethylene, except as noted
Threaded End Tips and Hardware: nickel-plated brass
Probe End Tips: annealed (bendable) T304 stainless steel
Angled End tips: hardened T304 stainless steel
Ferruled End Tips: T303 stainless steel
Sensing Range
Refer to the excess gain curves for the fiber optic sensor to be used.
Implied Dimensional Tolerance
All dimensions are in millimeters: x = ±2.5 mm (0.1"), x.x = ±0.25 mm (0.01") and x.xx = ±0.12 mm
(0.005"), unless specified. “L” = ±40 mm per meter
Minimum Bend Radius
8 mm (0.3") for 0.25 mm (0.010") diameter fibers
12 mm (0.5") for 0.5 mm (0.020") diameter fibers (except DURA-BEND™)
25 mm (1.0") for 1.0 mm (0.040") diameter fibers (except DURA-BEND™)
38 mm (1.5") for 1.5 mm ( 0.060") diameter fibers
Repeat Bending/Flexing
Life expectancy of plastic fiber optic cable is in excess of one million cycles at bend radii of no less than the
minimum and a bend of 90° or less. Avoid stress at the point where the cable enters the sensor (“control
end”) and at the sensing end tip. Coiled plastic fiberoptic assemblies are recommended for any application
requiring reciprocating fiber motion.
Chemical Resistance
The acrylic core of the monofilament optical fiber will be damaged by contact with acids, strong bases
(alkalis) and solvents. The polyethylene jacket will protect the fiber from most chemical environments.
However, materials may migrate through the jacket with long term exposure. Samples of fiber optic material
are available from Banner for testing and evaluation.
Temperature Extremes
Temperatures below -30°C will cause embrittlement of the plastic materials but will not cause transmission
loss. Temperatures above +70°C will cause both transmission loss and fiber shrinkage.
Operating Temperature
-30° to +70°C (-20° to +158°F), unless otherwise specified
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
643
Plastic Fiber Optics - Bifurcated
Diffuse Mode Plastic Fibers
Model
Model
PBCF21.7T
Type
Type
Fiber Core
Size
Fiber Core
Size
•
Bifurcated fiber optic assemblies
combine emitted and received light
Dimensions
into a common sensing end
tip
(mm over inches)
•
Bifurcated fiber optic assemblies are used in the (divergent) diffuse
sensing mode
•
Coaxial types which include an M4 x 0.7 threaded sensing tip may be
used in the convergent sensing mode with addition of model L4C6 lens
(see page 673)
•
Model numbers with “U” suffix are cut-to-length assemblies (use only
the supplied cutter)
•
Model numbers with “T” suffix indicate terminated assemblies which
are designed to fit those sensor models which are listed in the
“Construction” column
•
Model number with “HF” suffix indicate DURA-BEND™ high-flex fibers
Construction
Dimensions
(mm over inches)
Construction
Terminated sensor
end; use w/D11 &
Bifurcated
1 x 0.5 mm D12 plastic fiber
Coaxial
9 x 0.25 mm sensors
Ferruled
Non-bendable
ferrule end tip
ø 0.5
(.02)
11.4
(.45)
plastic
stainless steel
DETAIL
polyethylene
ø 1.78
(.070)
19.1
(.75)
ø 2.2
(.09)
500
(20)
42.7
(1.68)
CL
14.0
(.55)
ø 2.5
(.10)
ø 0.5
(.02)
6.0 9X ø 0.25
(.010)
(.24)
9X ø 0.25
(.010)
2X ø 1.0
(.04)
PBCF21X46U
DETAIL
polyethylene
stainless steel
Bifurcated
Cut to length cable
1 x 0.5 mm
Coaxial
Non-bendable
4 x 0.25 mm
Ferruled
ferrule end tip
ø 3.0
(.12)
4X ø 0.25
(.010)
ø 0.5
(.02)
ø 2.0
(.08)
2000
(79)
15.0
(.59)
15.0
(.59)
DETAIL
stainless steel
2X ø 2.2
(.09)
PBCF46U
Bifurcated
Cut to length
1 x 1.0 mm
Coaxial
cable, smooth
16 x 0.265 mm
Ferruled
ferrule end tip
ø 1.0
(.04)
polyethylene
2000
2X ø 1.0
(.04)
Bifurcated
Cut to length cable
1 x 0.5 mm
Coaxial
M3 threaded
4 x 0.25 mm
Threaded
end tip
M3 x 0.5
stainless steel
4X ø 0.25
(.010)
DETAIL
polyethylene
ø 0.5
(.020)
2000
(79)
644
16X ø 0.265
(.010)
17.0
(.67)
(79)
PBCT21X46U
ø 5.1
(.20)
12.0
(.47)
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
Plastic Fiber Optics - Bifurcated
Diffuse Mode Plastic Fibers
Model
PBCT23T
PBCT23T1
PBCT23TM3
Type
Fiber Core
Size
Dimensions
(mm over inches)
Construction
Terminated sensor
end; use w/D11 &
Bifurcated
D12 plastic fiber
1 x 0.5 mm
Coaxial
sensors M4
9 x 0.25 mm
Threaded
threaded end tip,
may be used
w/L4C6 lens
Terminated sensor
end; use w/Q45,
OMNI-BEAM,
Bifurcated
MAXI-BEAM, &
1 x 0.5 mm
Coaxial
VALU-BEAM plastic
9 x 0.25 mm
Threaded
fiber sensors M4
threaded end tip,
may be used
w/L4C6 lens
Terminated sensor
Bifurcated
end; use w/D11 &
1 x 0.5 mm
Coaxial
D12 plastic fiber
9 x 0.25 mm
sensors M3
Threaded
threaded end tip
11.4
ø 0.5
(.45)
(.02)
M4 x 0.7
stainless steel
plastic
19.1
(.75)
PBCT23TS
PBCT23TS1
Terminated sensor
end; use w/Q45,
OMNI-BEAM,
MAXI-BEAM, &
Bifurcated
VALU- BEAM
1 x 0.5 mm
plastic fiber
Coaxial
9 x 0.25 mm
sensors SS
Threaded
protective sheath,
M4 threaded end
tip, may be used
w/L4C6 lens
42.7
(1.68)
CL
9X ø 0.25
(.010)
18.0
(.71)
1000
(39)
9X ø 0.25
(.010)
11.4
ø 0.5
(.02)
(.45)
M4 x 0.7
stainless steel
plastic
ø 0.5
(.02)
polyethylene
24.1
(.95)
DETAIL
ø 2.2
(.09)
CL
53.6
(2.11)
9X ø 0.25
(.010)
18.0
(.71)
1000
(39)
9X ø 0.25
(.010)
11.4
ø 0.5
(.45)
(.02)
M3 x 0.5
stainless steel
plastic
ø 0.5
(.02)
ø 3.0
(.12)
19.1
(.75)
ø 2.2
(.09)
1000
(39)
42.7
(1.68)
CL
DETAIL
9X ø 0.25
(.010)
13.0
(.51)
5.0
(.20)
plastic
ø 0.5
(.02)
11.4
(.45)
ø 5.3 (.21)
stainless steel
M4 x 0.7
stainless steel
ø 7.4
(.29)
ø 0.5
(.02)
DETAIL
19.1
(.75)
14.0
(.55)
CL
42.7
(1.68)
9X ø 0.25
(.010)
11.4
(.45)
ø 0.5
(.02)
1000
(39)
plastic
ø 5.3 (.21)
stainless steel
9X ø 0.25
(.010)
18.0
(.71)
M4 x 0.7
stainless steel
ø 7.4
(.29)
ø 0.5
(.02)
DETAIL
24.1
(.95)
CL
53.6
(2.11)
1000
(39)
14.0
(.55)
18.0
(.71)
9X ø 0.25
(.010)
9X ø 0.25
(.010)
M4 x 0.7
stainless steel
2X ø 1.25
(.049)
PBCT26U
DETAIL
ø 2.2
(.09)
9X ø 0.25
(.010)
Terminated sensor
end; use w/D11 &
D12 plastic fiber
Bifurcated
1 x 0.5 mm sensors SS
Coaxial
9 x 0.25 mm protective sheath,
Threaded
M4 threaded end
tip, may be used
w/L4C6
ø 0.5
(.02)
polyethylene
Cut to length cable
Bifurcated
1 x 0.5 mm M4 threaded end
Coaxial
9 x 0.25 mm tip, may be used
Threaded
with L4C6 lens
ø 0.5
(.02)
DETAIL
polyethylene
9X ø 0.25
(.010)
2000
(79)
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
18.0
(.71)
645
Plastic Fiber Optics - Bifurcated
Diffuse Mode Plastic Fibers
Model
Type
Fiber Core
Size
Dimensions
(mm over inches)
Construction
M3 x 0.5
stainless steel
2X ø 1.25
(.049)
PBCT26UM3
Bifurcated
Coaxial
Threaded
ø 0.5
(.02)
ø 3.0
(.12)
Cut to length
1 x 0.5 mm
cable, M3
9 x 0.25 mm
threaded end tip
polyethylene
5.0
(.20)
2000
(79)
Bifurcated
PBCT26UM4M2.5 Coaxial
Threaded
9X ø 0.25
(.010)
13.0
(.51)
2X ø 1.25
(.049)
M4 x 0.7
stainless steel
Cut to length
cable, M4 & M2.5
1 x 0.5 mm
threaded end tip,
9 x 0.25 mm
may be used
w/L2 lens
DETAIL
M2.5 x 0.45
ø 0.5
(.02)
DETAIL
9X ø 0.25
(.010)
polyethylene
2000
(79)
11.0
(.43)
3.0
(.12)
DETAIL
M6 x 0.75
nickel plated brass
2X ø 2.2
(.09)
PBCT46U
Bifurcated
Cut to length
1 x 1.0 mm
Coaxial
cable, M6
16 x 0.265 mm
Threaded
threaded end tip
ø 1.0
(.04)
polyethylene
2000
14.0
(.55)
(79)
2X ø 1.0
(.04)
PBEFP26U
Bifurcated
Extended
Ferrule
Probe
0.5 mm
Cut to length
cable, nonbendable ferrule &
probe end tip
ø 4.0
(.16)
0.25 mm
DETAIL
20.0
(.79)
stainless steel
(non-bendable) probe
ø 1.65
(.065)
2X ø 1.0
(.04)
Bifurcated
Ferruled
stainless steel
16X ø 0.265
(.010)
3.0
(.12)
polyethylene
2000
(79)
PBF16U
ø 4.0
(.16)
2.0
(.08)
ø 1.27
(.050)
2X ø 0.5
(.02)
15.0
(.59)
polyethylene
stainless steel
Cut to length
cable, smooth
ferrule end tip
ø 3.0
(.12)
2X ø 0.25
(.010)
2000
(79)
2X ø 1.0
(.04)
PBF26U
Bifurcated
Ferruled
0.5 mm
polyethylene
16.0
(.63)
stainless steel
Cut to length
cable, smooth
ferrule end tip
ø 4.1
(.16)
2X ø 0.5
(.02)
2000
(79)
646
16.0
(.63)
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
Plastic Fiber Optics - Bifurcated
Diffuse Mode Plastic Fibers
Model
Type
Fiber Core
Size
Dimensions
(mm over inches)
Construction
2X ø 1.0
M3 x 0.5
stainless steel
(.04)
PBFM16U
Bifurcated
Ferrule
Miniature
0.25 mm
Cut to length
cable, nonbendable ferrule
end tip
stainless steel
(non-bendable) ferrule
polyethylene
2X ø 0.25
ø 0.82
(.010)
(.032)
2000
(79)
2X ø 2.2
15.0
15.0
(.59)
polyethylene
(.59)
stainless steel
(.09)
PBF46U
PBF46UHF
Bifurcated
Ferruled
1.0 mm
Cut to length
cable, smooth
ferrule end tip
2000
(79)
2X ø 1.3
(.05)
PBF46UM3MJ1.3
Bifurcated
Ferruled
1.0 mm
2X ø 1.0
(.04)
ø 5.1
(.20)
17.0
(.67)
stainless steel
polyethylene
Cut to length
cable, smooth
ferrule end tip
ø 3.00
(.118)
2000
(79)
2X ø 2.2
2X ø 1.0
(.04)
17.0
(.67)
polyethylene
stainless steel
(.09)
PBF66U
Bifurcated
Ferruled
1.5 mm
Cut to length
cable, smooth
ferrule end tip
2000
(79)
PBFM1X43T
Terminated sensor
end; use w/D11 &
Bifurcated
D12 series plastic
Ferrule
4 x 0.25 mm
fiber sensor
Miniature
Smooth ferrule
end tip
2X ø 1.5
(.06)
ø 5.1
(.20)
11.4
(.45)
17.0
(.67)
fibers A & C
plastic
stainless steel
DETAIL
polyethylene
19.1
(.75)
ø 1.50
(.059)
ø 1.0
(.04)
1000
(39)
42.7
(1.68)
CL
15.0
(.59)
A
D
B
C
4X ø 0.25
(.010)
fibers B & D
PBFM1X86T
Terminated sensor
end; use w/D11 &
Bifurcated
D12 series plastic
Ferrule
8 x 0.25 mm
fiber sensor
Miniature
Smooth ferrule
end tip
11.4
(.45)
fibers B,D,F & H
plastic
stainless steel
polyethylene
DETAIL
ø 3.00
(.118)
19.1
(.75)
D
CL
42.7
(1.68)
fibers A,C,E & G
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
2X Ø 1.0
(.04)
2000
(79)
15.0
(.59)
A
C
B
H
E
G
F
8X ø 0.25
(.010)
647
Plastic Fiber Optics - Bifurcated
Diffuse Mode Plastic Fibers
Model
Type
Fiber Core
Size
Dimensions
(mm over inches)
Construction
2X ø 2.2
(.09)
PBFM46U
PBFM46UHF
Bifurcated
Ferrule
Miniature
1.0 mm
polyethylene
ø 5.1
stainless steel
Cut to length
cable, smooth
ferrule end tip
2X ø 1.0
(.04)
2000
(79)
PBFMP12T
Bifurcated
Ferrule
Miniature
Probe
Bifurcated
Ferrule
PBFMP12TMP.2
Miniature
Probe
0.25 mm
0.25 mm
ø 3.05
(.120)
(.20)
Terminated sensor
end; use w/D11 &
D12 series plastic
fiber sensor
Non-bendable
probe end tip
Terminated sensor
end; use w/D11 &
D12 series plastic
fiber sensor
Non-bendable
probe end tip
17.0
(.67)
14.0
(.55)
11.4
(.45)
DETAIL
stainless steel
plastic
0.82
(.032)
polyethylene
19.1
(.75)
3.00
(.118)
2X ø 1.0
(.04)
CL
610
(24)
42.7
(1.68)
11.4
(.45)
15.0
(.59)
DETAIL
stainless steel
plastic
0.82
(.032)
polyethylene
19.1
(.75)
3.00
(.118)
2X ø 1.0
(.04)
CL
610
(24)
42.7
(1.68)
15.0
(.59)
5.0
(.20)
2X ø 1.0
(.04)
0.25 mm
Cut to length cable,
non-bendable
probe end tip
0.82
(.032)
3.00
(.118)
polyethylene
15.0
(.59)
2000
(79)
2X ø 1.0
M3 x 0.5
nickel plated brass
(.04)
PBP16U
Bifurcated
Probe
0.25 mm
Cut to length
cable, bendable
probe end tip
polyethylene
2000
(79)
2X ø 1.0
(.04)
PBP26U
Bifurcated
Probe
0.5 mm
Cut to length
cable, bendable
probe end tip
2X ø 0.25
(.010)
5.0
(.20)
annealed stainless
steel (bendable) probe
ø 0.81
(.032)
5.0
(.20)
bendable
area
11.0
(.43)
63
(2.5)
M3 x 0.5
stainless steel
10.0
(.39)
2X 0.25
(.010)
annealed stainless
steel (bendable) probe
polyethylene
2000
(79)
648
2X ø 0.25
(.010)
DETAIL
stainless steel
Bifurcated
Ferrule
PBFMP16UMP.2
Miniature
Probe
2X ø 0.25
(.010)
15.0
(.59)
ø 1.47
(.058)
11.0
(.43)
2X ø 0.5
(.02)
89
(3.5)
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
Plastic Fiber Optics - Bifurcated
Diffuse Mode Plastic Fibers
Model
PBP43TS
Type
Bifurcated
Probe
Fiber Core
Size
1.0 mm
Dimensions
(mm over inches)
Construction
Terminated sensor
end; use w/D11 &
D12 series plastic
fiber sensor
SS protective
sheath, bendable
probe end tip
annealed stainless
steel (bendable) probe
11.4
ø 6.8 (.27)
stainless steel
(.45)
Bifurcated
Probe
1.0 mm
DETAIL
ø 3.0
(.12)
19.1
(.75)
ø 9.6
(.38)
plastic
CL
42.7
(1.68)
2X ø 2.2
(.09)
PBP46U
PBP46UHF
M6 x 0.75
stainless steel
14.0
(.55)
1000
(39)
2X ø 1.0
(.04)
17.0
(.67)
M6 x 0.75
nickel plated brass
polyethylene
89
(3.5)
annealed stainless
steel (bendable) probe
Cut to length
cable, bendable
probe end tip
ø 3.0
(.12)
17.0
(.67)
2000
(79)
2X ø 1.0
(.04)
89
(3.5)
polyethylene
PBP46UC
Cut to length cable
(straight fiber
Bifurcated
1.0 mm,
section only),
Probe
coiled cable
bendable probe
end tip
ø 23
(.9)
ø 3.0
(.12)
2000 fully extended
(79)
200
(7.9)
2X ø 1.0
(.04)
PBPF26U
Bifurcated
Probe
Ferrule
0.5 mm
M4 x 0.7
nickel plated brass
polyethylene
2000
(79)
2X ø 1.0
(.04)
PBPF26UMB
Bifurcated
Probe
Ferrule
0.5 mm
2X ø 3.4
(.13)
bendable
area
15.0
(.59)
65
(2.5)
aluminum
PBPMSB36U
0.75 mm
Cut to to length
cable, bendable
side view probe
end tip
3.0
(.12)
9.5
(.37)
2000
(79)
10.0
(.39)
2X ø 0.5
(.02)
2.0
(.08)
3.0
(.12)
stainless steel
ø 1.65
(.065)
5 bendable
area
(.2)
15.0
(.59)
ø 1.27
(.050)
polyethylene
15.0
(.59)
5*
(.2)
10.0
(.39)
2.0
(.08)
DETAIL
CL
2.50
(.096)
2.30
(.089)
10*
(.4)
65
(2.5)
* Probe not bendable
in these areas
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
2X ø 0.5
(.02)
10
(.4)
65
(2.5)
ø 4.8
(.185)
stainless steel
2000
(79)
89
(3.5)
3.0
(.12)
polyethylene
2X ø 2.2
(.09)
2X ø 1.0
(.04)
stainless steel
ø 1.27
(.050)
5.0
(.20)
annealed (bendable)
stainless steel probe
Bifurcated
Probe
Miniature
Side View
Bendable
17.0
(.67)
280
(11)
ø 1.65
(.065)
Cut to length cable,
bendable probe
ferrule end tip
Cut to length, thin
profile mounting
block, bendable
probe ferrule end
tip
annealed stainless
steel (bendable) probe
M6 x 0.75
nickel plated brass
2X ø 2.2
(.09)
3.1
(.12)
ø 2.1
(.083)
2X ø 0.75
(.03)
649
Plastic Fiber Optics - Bifurcated
Diffuse Mode Plastic Fibers
Model
Type
Fiber Core
Size
Dimensions
(mm over inches)
Construction
2X ø 1.0
(.04)
PBPS26U
Bifurcated
Probe
Side View
0.5 mm
stainless steel
Cut to length
cable, nonbendable side view
probe end tip
DETAIL
2.5
3.0
(.12)
(.10)
ø 3.2
(.12)
2X ø 0.5
(.02)
polyethylene
14.0
(.55)
2000
(79)
ø 1.47
(.058)
51
(2.0)
stainless steel
(non-bendable) probe
PBPS46U
PBPS46UHF
Bifurcated
Probe
Side View
1.0 mm
Cut to length
cable, nonbendable side view
probe end tip
2X ø 2.2
(.09)
polyethylene
3.0
(.12)
stainless steel
ø 5.1
(.20)
ø 3.8
(.15)
2000
(79)
2.5
(.10)
2X ø 1.5
(.06)
51
(2.0)
14.0
(.55)
stainless steel
(non-bendable) probe
PBPS66U
Bifurcated
Probe
Side View
1.5 mm
Cut to length
cable, nonbendable side view
probe end tip
polyethylene
2X ø 2.2
(.09)
stainless steel
3.0
(.12)
ø 5.1
(.20)
ø 3.8
(.15)
2000
(79)
PBR1X326U
Bifurcated
Rectan32 x 0.265 mm
gular
End View
Cut to length
cable, fiber array
exits from end of
aluminum housing
15.0
(.59)
PBRS1X326U
20.0
(.79)
CL
5.0
(.20)
10.85
(.425)
polyethylene
2.5
(.10)
13.0
(.51)
20.0
(.79)
2.5
(.10)
2000
(79)
Cut to length
cable, fiber array
exits from side of
aluminum housing
1.0
(.04)
aluminum
2X ø 2.2
(.09)
2000
(79)
Bifurcated
Rectan32 x 0.265 mm
gular
Side View
2X ø 1.5
(.06)
51
(2.0)
14.0
(.55)
3X M3 x 0.5
2.5
(.10)
32X ø 0.265
(.010)
20.0
(.79)
3X M3 x 0.5
10.85
(.425)
CL
32X ø 0.265
(.010)
CL
1.0
(.04)
5.0
(.20)
aluminum
2X ø 2.2
(.09)
13.0
(.51)
20.0
(.79)
CL
polyethylene
2.5
(.10)
PBRS26U
0.5 mm
Cut to length
cable, low-profile
“flat pack” end tip
7.5
(.296)
Plastic
9
(.354)
20
(.787)
polyethylene
5
(.196)
2x ø0.5 (.020) Fibers
2000
(79)
650
15.0
(.59)
1.6
(.063)
2X ø 1.0
(.04)
Bifurcated
Rectangular
2.5
(.10)
25
(.98)
3.2
(.125)
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
Plastic Fiber Optics - Bifurcated
Diffuse Mode Plastic Fibers
Model
Type
Fiber Core
Size
Dimensions
(mm over inches)
Construction
2X ø 1.0
(.04)
PBT16U
Bifurcated
Threaded
0.25 mm
M3 x 0.5
stainless steel
Cut to length
cable, M3
threaded end tip
polyethylene
2X ø 0.25
(.010)
2000
(79)
2X ø 1.0
(.04)
PBT26U
PBT26UHF
Bifurcated
Threaded
0.5 mm
11.0
(.43)
M3 x 0.5
nickel plated brass
Cut to length
cable, M3
threaded end tip
polyethylene
2X ø 0.5
(.02)
2000
(79)
M3 x 0.5
stainless steel
2X ø 1.0
(.04)
PBT26UHT1
PBT43TS
Bifurcated
Threaded
Bifurcated
Threaded
0.5 mm
1.0 mm
Cut to length
125°C (257°F)
high temperature
cable, M3
threaded end tip
Terminated sensor
end; use w/D11 &
D12 series plastic
fiber sensor
SS protective
sheath, M6
threaded end tip
Bifurcated
Threaded
1.0 mm
2000
(79)
11.4
11.0
(.43)
ø 6.8 (.27)
stainless steel
(.45)
M6 x 0.75
stainless steel
DETAIL
ø 4.0
(.16)
19.1
(.75)
ø 9.6
(.38)
plastic
CL
42.7
(1.68)
1000
(39)
14.0
(.55)
2X ø 1.0
(.04)
14.0
(.55)
M6 x 0.75
nickel plated brass
polyethylene
3.0
(.12)
ø 4.0
(.16)
Cut to length
cable, M6
threaded end tip
2X ø 1.0
(.04)
2000
(79)
14.0
(.55)
polyethylene
PBT46UC
2X ø 0.5
(.02)
cross-linked
polyethylene
2X ø 2.2
(.09)
PBT46U
PBT46UHF
11.0
(.43)
Cut to length cable
Bifurcated
1.0 mm, (straight fiber
Threaded coiled cable section only) , M6
threaded end tip
3.0
(.12)
M6 x 0.75
nickel plated brass
ø 4,0
(.16)
2X ø 2.2
(.09)
ø 23
(.9)
2X ø 1,0
(.04)
200
(7.9)
2000 fully extended
(79)
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
280
(11)
14.0
(.55)
3,0
(.12)
651
Plastic Fiber Optics - Bifurcated
Diffuse Mode Plastic Fibers
Model
PBT46UHT1
Type
Bifurcated
Threaded
Fiber Core
Size
1.0 mm
Dimensions
(mm over inches)
Construction
Cut to length
125°C (257°F)
high temperature
cable, M6
threaded end tip
2X ø 2.2
(.09)
M6 x 0.75
stainless steel
cross-linked
polyethylene
2X ø 1.0
(.04)
2000
(79)
2X ø 2.2
(.09)
PBT66U
Bifurcated
Threaded
1.5 mm
14.0
(.55)
M6 x 0.75
nickel plated brass
polyethylene
3.0
(.12)
ø 4.0
(.16)
Cut to length
cable, M6
threaded end tip
2X ø 1.5
(.06)
2000
(79)
652
ø 4.0
(.16)
14.0
(.55)
3.0
(.12)
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
Plastic Fiber Optics - Individual
Opposed Mode Plastic Fibers
Model
Model
Type
Type
Fiber Core
Size
Construction
•
Individual fiber optic assemblies
Dimensionsare sold in pairs, and are
usually used in the(mm
opposed
overmode
inches)
•
Models which include an M2.5 x 0.45 threaded sensing tip may
be used with optional lenses (see page 673)
•
Model numbers with “U” suffix are cut-to-length assemblies
(use only the supplied cutter)
•
Model number with “T” suffix indicate terminated assemblies
which are designed to fit those sensor models which are listed
in the “Construction” column
•
Model number with “HF” suffix indicate DURA-BEND™ high-flex
fibers
Fiber Core
Size
Construction
Dimensions
(mm over inches)
ø 1.0
(.04)
PIA16U
Individual
Angled
0.25 mm
Cut to length
cable, nonbendable end tip
DETAIL
25
(1.0)
ø 1.42
(.056)
ø 0.91
(.036)
2000
(79)
stainless steel
ø 1.0
(.04)
PIA26U
Individual
Angled
0.5 mm
Cut to length
cable, nonbendable end tip
2000
(79)
PIAT16U
0.25 mm
4.8
(.19)
R 3.5
(.14)
ø 0.91
(.036)
polyethylene
ø 1.0
(.04)
ø 0.25
(.010)
DETAIL
25.4
(1.0)
2000
(79)
Individual
Angled
Threaded
4.8
(.19)
R 3.5
(.14)
7.6
(.30)
polyethylene
25.4
(1.0)
polyethylene
Cut to length
cable, M3
threaded end tip
stainless steel
ø 0.5
(.02)
ø 1.47
(.058)
R 5.1
(.20)
9.6
(.38)
11.0
(.43)
M3 x 0.5 nickel plated brass
ø 0.25
(.010)
2000
(79)
ø 1.0
(.04)
PIAT26U
Individual
Angled
Threaded
0.5 mm
polyethylene
Cut to length
cable, M3
threaded end tip
stainless steel
25.4
(1.0)
R 5.1
ø 1.47 (.20)
(.058)
9.6
(.38)
11.0
(.43)
M3 x 0.5 nickel plated brass
ø 0.5
(.02)
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
653
Plastic Fiber Optics - Individual
Opposed Mode Plastic Fibers
Model
Type
Fiber Core
Size
Construction
Dimensions
(mm over inches)
ø 2.2
(.09)
PIAT46U
PIAT46UHF
Individual
Angled
Threaded
1.0 mm
Cut to length
cable, M4 &
M2.5 threaded
end tip, may be
used w/L2 &
L2RA lens
polyethylene
13.9
(.55)
ø 3.3
(.13)
25.4
(1.0)
R 7.8
(.31)
ø 1.47
(.058)
stainless
steel
2000
(79)
16.5
(.65)
M4 x 0.7
nickel plated brass
10.9
(.43)
M2.5 x 0.45
3.0
(.12)
ø 1.0
(.04)
ø 2.2
(.09)
PIAT66U
Individual
Angled
Threaded
1.5 mm
Cut to length
cable, M4 &
M2.5 threaded
end tip, may be
used w/L2 &
L2RA lens
polyethylene
13.9
(.55)
ø 3.3
(.13)
25.4
(1.0)
stainless
steel
2000
(79)
R 19.1
(.75)
ø 2.10
(.083)
25.4
(1.0)
M4 x 0.7
stainless steel
10.9
(.43)
M2.5 x 0.45
3.0
(.12)
ø 1.5
(.06)
PIF16U
Individual
Ferrule
0.25 mm
Cut to length
cable, smooth
ferrule end tip
ø 1.0
(.04)
polyethylene
stainless steel
ø 2.0
(.08)
ø 1.0
(.04)
PIF26U
Individual
Ferrule
0.5 mm
polyethylene
stainless steel
ø 2.2
(.09)
Cut to length
cable, smooth
ferrule end tip
2000
(79)
PIF26UMLS
Individual
Ferrule
0.5 mm
Cut to length
cable, smooth
ferrule end tip
ø 2.2
(.09)
polyethylene
2000
(79)
PIF46U
PIF46UHF
Individual
Ferrule
1.0 mm
Cut to length
cable, smooth
ferrule end tip
ø 2.2
(.09)
polyethylene
2000
(79)
654
ø 0.25
(.010)
15.0
(.59)
2000
(79)
ø 0.5
(.02)
17.0
(.67)
ø 3.2
(.12)
stainless steel
15.0
(.59)
ø 0.5
(.02)
ø 3.18
(.125)
stainless steel
17.0
(.67)
ø 1.0
(.04)
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
Plastic Fiber Optics - Individual
Opposed Mode Plastic Fibers
Model
PIF66U
Type
Individual
Ferrule
Fiber Core
Size
Construction
1.5 mm
Dimensions
(mm over inches)
Cut to length
cable, smooth
ferrule end tip
stainless steel
polyethylene
ø 2.2
(.09)
ø 1.5
(.06)
2000
(79)
PIFM1X46U
PIFM46U
PIFM46UHF
Individual
Ferrule
Miniature
Individual
Ferrule
Miniature
Cut to length
4 x 0.25 mm cable, smooth
ferrule end tip
1.0 mm
Cut to length
cable, smooth
ferrule end tip
ø 3.0
(.12)
15.0
(.59)
DETAIL
ø 1.0
(.04)
polyethylene
stainless steel
ø 1.50
(.059)
10.0
(.39)
2000
(79)
ø 2.2
(.09)
4X ø 0.25
(.010)
stainless steel
polyethylene
ø 3.0
(.12)
ø 1.0
2000
(79)
(.04)
15.0
(.59)
stainless steel
PIFP26U
Individual
Ferrule
Probe
0.5 mm
Cut to length
cable, ferrule
probe end tip
ø 1.0
(.04)
ø 2.2
(.09)
polyethylene
2000
(79)
PIP16U
Individual
Probe
0.25 mm
Cut to length
cable, nonbendable probe
end tip
17.0
(.67)
Individual
Lensed
1.0 mm
Cut to length
cable, 8 mm lens
ø 0.5
(.02)
stainless steel
(non-bendable) probe
ø 0.91
(.036)
7.6
(.30)
2000
(79)
PIL46U
PIL46UHF
2.5
(.10)
ø 1.3
(.05)
polyethylene
ø 1.0
(.04)
ø 0.91
(.036)
ø 2.2
(.09)
polyethylene
7.6
(.30)
ø 10.8
(.43)
2000
(79)
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
ø 0.25
(.010)
25
(1.0)
19.1
(.75)
12.7
(.50)
M8 x 1 acrylic lens
plastic
655
Plastic Fiber Optics - Individual
Opposed Mode Plastic Fibers
Model
Type
Fiber Core
Size
Construction
Dimensions
(mm over inches)
M3 x 0.5
nickel plated brass
ø 1.0
(.04)
PIP26U
Individual
Probe
0.5 mm
annealed stainless
steel(bendable) probe
Cut to length
cable, bendable
probe end tip
ø 0.91
(.036)
2000
(79)
ø 2.2
(.09)
PIP46U
PIP46UHF
Individual
Probe
1.0 mm
11.0
(.43)
PIP46UC
PIPS16U
PIPS26U
Individual
Probe Side
View
Individual
Probe Side
View
1.0 mm
0.25 mm
0.5 mm
annealed stainless
steel (bendable) probe
Cut to length
cable, bendable
probe end tip
ø 1.47
(.058)
2000
(79)
Individual
Probe,
Coiled
Cable
89
(3.5)
M4 x 0.7
nickel plated brass
polyethylene
Cut to length
cable (straight
fiber section
only), bendable
probe end tip
Cut to length
cable, side view
non-bendable
probe end tip
Cut to length
cable, side view
non-bendable
probe end tip
ø 0.5
(.02)
14.0
(.55)
ø 1.0
(.04)
89
(3.5)
M4 x 0.7
nickel plated brass
ø 2.2
(.09)
annealed stainless
steel (bendable) probe
ø 23
(.9)
ø 1.47
(.058)
200
(7.9)
ø 1.0
(.04)
2000 fully extended
(79)
polyethylene
ø 2.5
(.10)
10.0
(.39)
polyethylene
14.0
(.55)
89
(3.5)
stainless steel
2000
(79)
ø 1.0
(.04)
280
(11)
ø 1.0
(.04)
stainless
steel
DETAIL
ø 0.50
(.020)
51
(2.0)
DETAIL
stainless steel
ø 2.5
(.10)
14.0
(.55)
2000
(79)
stainless
steel
3.0
(.12)
2.5
(.10)
ø 0.91
(.036)
51
(2.0)
stainless steel
(non-bendable) probe
PIPS46U
PIPS46UHF
Individual
Probe Side
View
1.0 mm
Cut to length
cable, side view
non-bendable
probe end tip
ø 2.2
(.09)
polyethylene
3.0
(.12)
ø 3.18
(.125)
2000
(79)
656
stainless steel
ø 1.47
(.058)
14.0
(.55)
2.5
(.10)
ø 1.0
(.04)
51
(2.0)
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
Plastic Fiber Optics - Individual
Opposed Mode Plastic Fibers
Model
Type
Fiber Core
Size
Construction
Dimensions
(mm over inches)
stainless steel
(non-bendable) probe
PIPS46UHT1
Individual
Probe Side
View
1.0 mm
Cut to length
125°C (257°F)
high temperature
cable, side view
non-bendable
probe end tip
cross-linked polyethylene
ø 2.2
(.09)
stainless steel
3.0
(.12)
ø 3.18
(.125)
2.5
(.10)
ø 1.0
(.04)
ø 1.47
(.058)
2000
(79)
14.0
(.55)
51
(2.0)
stainless steel
(non-bendable) probe
PIPS66U
Individual
Probe Side
View
1.5 mm
ø 2.2
(.09)
Cut to length
cable, side view
non-bendable
probe end tip
polyethylene
stainless steel
3.0
(.12)
ø 3.0
(.12)
2.5
(.10)
ø 1.5
(.06)
ø 2.11
(.083)
2000
(79)
15.0
(.59)
51
(2.0)
annealed stainless
steel (bendable) probe
* Probe not bendable
in these areas
PIPSB46U
PIPSB46UHF
Individual
Probe Side
View
Bendable
1.0 mm
Cut to length
cable, side view
bendable probe
end tip
polyethylene
ø 2.2
(.09)
10.2 *
(.40)
5*
(.2)
stainless steel
ø 3.0
(.120)
ø 1.0
(.04)
2000
(79)
ø 1.27
(.050)
2.5
(.10)
15.0
(.59)
2.0
(.078)
65.0
(2.56)
2.3
(.090)
DETAIL
PIPSM26U
Individual
Probe Side
View
Miniature
0.5 mm
Cut to length
cable, side view
non-bendable
probe end tip
stainless
steel
ø 1.0
(.04)
0.8
(.031)
stainless steel
ø 2.49
(.098)
polyethylene
15.0
(.59)
15.0
(.59)
PIR1X166U
16 x 0.265
mm
Cut to length
cable, fiber array
exits from end of
aluminum
housing
ø 2.2
(.09)
10.0
(.39)
CL
2.5
(.10)
2000
(79)
15.0
(.59)
2000
(79)
PIRS1X166U
Individual
Rectangular Side
Exit
16 x 0.265
mm
Cut to length
cable, fiber array
exits from side of
aluminum
housing
8.0
(.31)
5.25
(.207)
16X ø 0.265
(.010)
15.0
(.59)
ø 2.2
(.09)
aluminum
5.25
(.207)
8.0
(.31)
CL
CL
16X ø 0.265
(.010)
CL
3X M3 x 0.5
5.0
(.20)
15.0
(.59)
polyethylene
2.5
(.10)
ø 0.82
(.032)
1.0
(.04)
aluminum
3X M3 x 0.5
Individual
Rectangular
1.5
(.06)
beam exit
2000
(79)
1.0
(.04)
5.0
(.20)
15.0
(.59)
polyethylene
2.5
(.10)
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
2.5
(.10)
10.0
(.39)
657
Plastic Fiber Optics - Individual
Opposed Mode Plastic Fibers
Model
Type
Fiber Core
Size
Construction
Dimensions
(mm over inches)
2.2
(.09)
plastic
5.1
(.20)
CL
2.2
(.09)
PIRS1X166UMPMAL
Individual
Rectangular
Side
Exit
16X ø 0.265
Cut to length
cable, fiber array
16 x 0.265 mm
exits from side of
plastic housing
2X ø 3.0 (.118)
ø 2.2
(.09)
polyethylene
19.0
(.75)
6.3
(.25)
2.5
(.10)
25
(1.0)
2000
(79)
PIT16U
PIT23TS
PIT26U
PIT26UHF
PIT26UHT1
658
Individual
Threaded
Individual
Threaded
Individual
Threaded
Individual
Threaded
0.25 mm
0.5 mm
0.5 mm
0.5 mm
Cut to length
cable, M2.5
threaded
end tip
Terminated
sensor end; use
w/D11 & D12
plastic fiber
sensors
SS protective
sheathing, M3
threaded end tip
Cut to length
cable, M3
threaded
end tip
Cut to length
125°C (257°F)
high temperature
cable, M3
threaded end tip
38
(1.5)
M2.5 x 0.45
stainless steel
polyethylene
ø 1.0
(.04)
R 1.5
(.06)
2000
(79)
10.0
(.39)
ø 0.25
(.010)
ø 5.3 (.21)
stainless steel
ø 7.4
(.29)
M3 x 0.5
stainless steel
ø 7.4
(.29)
ø 0.5
(.02)
30.5
(1.20)
1000
(39)
ø 1.0
(.04)
14.0
(.55)
11.0
(.43)
M3 x 0.5
nickel plated brass
polyethylene
11.0
(.43)
2000
(79)
ø 0.5
(.02)
M3 x 0.5
stainless steel
ø 1.0
(.04)
cross-linked
polyethylene
2000
(79)
11.0
(.43)
ø 0.5
(.02)
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
Plastic Fiber Optics - Individual
Opposed Mode Plastic Fibers
Model
PIT43TS
PIT43TS1
PIT43TT
Type
Individual
Threaded
Individual
Threaded
Individual
Threaded
Fiber Core
Size
Construction
1.0 mm
1.0 mm
1.0 mm
Terminated
sensor end; use
w/D11 & D12
plastic fiber
sensors SS protective sheath, M4
& M2.5 threaded
end tip, may be
used w/L2 &
L2RA Lens
Dimensions
(mm over inches)
ø 5.3 (.21)
stainless steel
ø 7.4
(.29)
30.5
(1.20)
Individual
Threaded
1000
(39)
ø 7.4
(.29)
ø 7.4
(.29)
Individual
Threaded
12.2
(.48)
1.0 mm
M2.5 x 0.45
ø 1.0
(.04)
41.4
(1.63)
1000
(39)
15.2
(.60)
3.0
(.12)
12.2
(.48)
ø 4.7 (.19) Teflon®
ø 7.4
(.29)
ø 7.4
(.29)
M4 x 0.7
stainless steel
M2.5 x 0.45
ø 1.0
(.04)
30.5
(1.20)
1000
(39)
15.2
(.60)
12.2
(.48)
3.0
(.12)
M3 x 0.5
nickel plated brass
polyethylene
Cut to length
4 x 0.25 mm cable, M3
threaded end tip
Cut to length
cable, M4 &
M2.5 threaded
end tip, may be
used w/L2 and
L2RA lens
3.0
(.12)
M4 x 0.7
stainless steel
4X ø 0.25
(.010)
10.0
(.39)
2000
(79)
PIT46U
PIT46UHF
M2.5 x 0.45
15.2
(.60)
ø 5.3 (.21)
stainless steel
ø 1.0
(.04)
PIT1X46U
M4 x 0.7
stainless steel
ø 1.0
(.04)
Terminated
sensor end; use
w/Q45, OMNIBEAM, MAXIBEAM, & VALUBEAM plastic
fiber sensors SS
protective
sheath, M4 &
M2.5 threaded
end tip, may be
used w/L2 &
L2RA Lens
Terminated
sensor end; use
w/D11 & D12
plastic fiber
sensors Teflon®
protective
sheath, M4 &
M2.5 threaded
end tip, may be
used w/L2 &
L2RA Lens
ø 7.4
(.29)
ø 2.2
(.09)
polyethylene
M2.5 x 0.45
M4 x 0.7
nickel plated brass
ø 1.0
(.04)
2000
(79)
11.0
(.43)
3.0
(.12)
Teflon® is a registered trademark of Dupont
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
659
Plastic Fiber Optics - Individual
Opposed Mode Plastic Fibers
Model
PIT46UC
PIT46UHT1
PIT66U
PITF26U
Type
Individual
Threaded
Individual
Threaded
Individual
Threaded
Individual
Threaded
Ferrule
Fiber Core
Size
Construction
1.0 mm,
coiled
cable
1.0 mm
1.5 mm
0.5 mm
Cut to length
cable (straight
fiber section
only), M4 &
M2.5 threaded
end tip, may be
used w/L2 and
L2RA lens
Cut to length
125°C (257°F)
high temperature
cable, M4 &
M2.5 threaded
end tip, may be
used w/L2 &
L2RA lens
Cut to length
cable, M4 &
M2.5 threaded
end tip, may be
used w/L2 &
L2RA lens
Cut to length
cable, nonbendable ferrule
end tip
Dimensions
(mm over inches)
M4 x 0.7
nickel plated brass
ø 2.2
(.09)
ø 23
(.9)
ø 1.0
(.04)
200
(7.9)
ø 2.2
(.09)
2000 fully extended
(79)
PITP16U
0.25 mm
2000
(79)
ø 2.2
(.09)
3.0
(.12)
M2.5 x 0.45
11.0
(.43)
3.0
(.12)
M2.5 x 0.45
M4 x 0.7
nickel plated brass
polyethylene
ø 1.5
(.06)
2000
(79)
11.0
(.43)
M3 x 0.5
nickel plated brass
ø 1.0
(.04)
ø 0.82
(.032)
15.0
(.59)
15.0
(.59)
ø 0.51
(.020)
M2.5 x 0.45
stainless steel
ø 1.0
(.04)
3.0
(.12)
stainless steel
(non-bendable) probe
polyethylene
2000
(79)
660
11.0
(.43)
ø 1.0
(.04)
polyethylene
Cut to length
cable, bendable
probe end tip
280
(11)
M4 x 0.7
stainless steel
cross-linked
polyethylene
2000
(79)
Individual
Threaded
Probe
M2.5 x 0.45
5
(.2)
10.0
(.39)
bendable
area
63
(2.5)
ø 0.5
(.02)
annealed stainless
steel (bendable) probe
10
(.4)
ø 0.25
(.010)
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
Plastic Fiber Optics - Special Application
Special Application Plastic Fibers
Model
Type
Fiber Core
Size
Construction
Model
Type
Fiber Core
Size
Construction
The following plastic fiber opticDimensions
assemblies have been developed to
(mm
over inches)
solve popular special sensing
applications.
They are considered to be
standard fiber assemblies, which are available from stock. They include:
• Teflon-encapsulated fiber optic assemblies, which can survive
harsh environments containing caustic materials, including
acids;
• Liquid level probes which cause the sensor’s output to switch
when liquid contacts the sensing tip;
• Convergent mode sensing heads;
• Slot sensors
Also see the Custom Plastic Fiber Optic Section, beginning on page
664, for additional fiber otpic design ideas which are routinely used
to solve special application requirements.
Dimensions
(mm over inches)
Ø1.57
(0.62)
1.6 mm
BMT16.6S-HT
Bifurcated
Threaded
Glass
Fiber*
Terminated sensor
end; use w/D10
plastic fiber
sensors; SS
protective sheath,
M4 threaded tip
M4 x 0.7
stainless steel
2.2
(0.86)
4.6
(.18)
Ø4.2
(.17)
3
(.12)
15.0
(.59)
38
(1.50)
Stainless Steel
25.4
(1.00)
150
(6)
2000
(79)
1.3 mm
IMT.756.6S-HT
Individual
Threaded
Glass
Fiber*
Terminated sensor
end; use w/D10
plastic fiber
sensors; SS
protective sheath,
M4 & M2.5
threaded end tip,
may be used w/L2
& L2RA lens
Ø1.27
(0.50)
4.6
(.18)
2.2
(0.86)
M4 x 0.7
stainless steel
ø3
(.12)
Ø4.2
(.17)
25.4
(1.00)
2X ø 3.4 (.13)
ø 6 (.24) countersink
P12-C1
Convergent
Side
Exit
0.5 mm
Cut to length cable,
3 mm ± 0.5 mm
convergent range,
plastic housing
12.0
(.47 )
3.0
(.12)
Stainless Steel
2000 (79)
2X ø 1.0
(.04)
M2.5 x 0.45
7.0
(.28)
polyethylene
8.4
(.33)
2000
(79)
14.2
(.56)
5.0
(.20)
3 ± 0.50
(.118 ± .020)
19.0
(.75)
* These fiber optic assemblies have end tips which employ special high temperature epoxy which can withstand up to 315°C (600°F) continuous
environments.
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
661
Plastic Fiber Optics - Special Application
Special Application Plastic Fibers
Model
Type
Fiber Core
Size
Dimensions
(mm over inches)
Construction
2X ø 3.4 (.13)
ø 6 (.24) countersink
P22-C1
Convergent
Straight
Exit
0.5 mm
Cut to length cable,
3 mm ± 0.5 mm
convergent range,
plastic housing
14.2
(.56)
7.0
(.28)
2X ø 1.0
(.04)
5.0
(.20)
19.0
(.75)
polyethylene
2000
(79)
8.4
(.33)
3 ± 0.50
(.118 ± .020)
Plastic
3 (.118)
P32-C2
Convergent
Rectangular
0.5 mm
15
(.591)
2000
(79)
Cut to length cable,
2 mm ±0.5 mm
convergent range,
plastic “flat pack”
housing
7
(.276)
polyethylene
PBE46UTMLLP
PBE46UTMLLPHT1
Bifurcated
Liquid
Level
Probe
Encapsulated
Bifurcated
Liquid
Level
Probe
Encapsulated
1.0 mm
1.0 mm
Cut to length
125°C (257°F)
high temperature
cable, end tip is
completely
encapsulated in
Teflon®
Emitter
2X ø 1.0
(.04)
10
(.394)
6
(.236)
2x ø3.1 (1.22)
ø6 (.236) c'sink
1.5 (0.59) deep
Cut to length cable,
end tip is
completely
encapsulated in
Teflon®, sensor
output switches
when probe
contacts liquid
8
(.295)
Receiver
75*
(3.0)
16.5
(.65)
ø 5.7 (.23)
2X ø 2.2
(.09)
2X ø 1.0
14
(.551)
19
(.748)
FEP Teflon ®
polyethylene
ø 6.0
(.24)
* Do not bend this area
6.0
(.24)
1830
(72)
2000
(79)
2X ø 1.0
75*
(3.0)
ø 5.7 (.23)
2X ø 2.2
(.09)
16.5
(.65)
FEP Teflon ®
cross-linked
polyethylene
ø 6.0
(.24)
* Do not bend this area
6.0
(.24)
1830
(72)
2000
(79)
PBE46UTMNL
Bifurcated
Encapsulated
1.0 mm
Cut to length cable,
end tip is
completely
encapsulated in
Teflon®
2X ø 1.0
(.04)
18
(.7)
ø 5.7 (.23)
2X ø 2.2
(.09)
FEP Teflon ®
ø 6.0
(.24)
polyethylene
1830
(72)
2000
(79)
662
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
Plastic Fiber Optics - Special Application
Special Application Plastic Fibers
Model
Type
Fiber Core
Size
Dimensions
(mm over inches)
Construction
plastic
1.0 mm
Cut to length cable;
slot sensor; 12 mm
(0.47") gap
12.0
(.47)
24.0
(.94)
2X ø 2.2
(.09)
24.0
(.94)
4.00
(.157)
PDIS46UM12
Dual
PDIS46UHFM12 Individual
2X ø 3.5
(.14)
sensing beam
ø 1.0 (.04) fibers
7.0
(.28)
18.0
(.71)
24.0
(.94)
5.00
(.197)
32.0
(1.26)
ø 2.2 polyethylene
(.09)
ø 1.0
(.04)
PIE46UT
Individual
Lensed
Encapsulated
1.0 mm
2000
(79)
ø 4.0 (.156)
FEP Teflon®
Cut to length cable,
end tip is
completely
encapsulated in
Teflon®
ø5
(.2)
lens
22
(.9)
1830
(72)
2000
(79)
ø 2.2 polyethylene
(.09)
ø 1.5
(.06)
PIE66UTMNL
Individual
Encapsulated
1.5 mm
ø 4.0 (.156)
FEP Teflon®
Cut to length cable,
end tip is
completely
encapsulated in
Teflon®
ø5
(.2)
18
(.7)
1830
(72)
2000
(79)
ø 2.2 polyethylene
(.09)
ø 1.0
(.04)
PIES46UT
Individual
Side
View
Encapsulated
1.0 mm
ø 4.0 (.156)
FEP Teflon ®
Cut to length cable,
end tip is
completely
encapsulated in
Teflon®
ø5
(.2)
side-view
prism
22
(.9)
1830
(72)
2000
(79)
TGR3/8MPFMQ
Liquid
Level
Probe
N/A
Polypropylene
housing,quartz
glass rod, use with
PBT46U fiber,
sensor output
switches when
probe contacts
liquid
12.70
A
11.4
(.45)
A
31.6
(1.25)
(.500)
3.0
(.12)
15.7
(.62)
7.6
(.30)
A-A
quartz glass rod
o-ring
90 ∞
6.4
(.25)
3.0
(.12)
3/8 - 32 polypropylene
2 nylon jam nuts included
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
M6 x 0.75
stainless steel
collar
663
Plastic Fiber Optics - Custom
Custom Plastic Fibers
Model
Type
Fiber Core
Size
Model
Type
Fiber Core
Size
Construction
Construction
Banner would like the opportunity
to solve your most
Dimensions
challenging sensing applications,
using
(mm over inches) custom-designed plastic
fiber optics. Following are just a few examples of custom plastic
fiber optic assemblies which have been produced, to date.
Contact your local sales engineer or our factory application
experts to discuss the details of your application requirements.
Dimensions
(mm over inches)
2X ø 1.0
(.04)
PBA26UM3.5X.6
Bifurcated
Angled
0.5 mm
ø 3.2 (.12)
stainless steel
Cut to length cable,
non-bendable,
angled probe end tip
Ø 1.47
.058
89
3.5
15
.6
polyethylene
R 7.9
(.31)
14.0
(.55)
2000
(79)
2X ø 0.5
(.02)
This angled probe fiber has been custom designed to fit a tight sensing area. Banner plastic fibers can be manufactured with almost any
probe bend dimensions. Plastic fibers are ideal for applications where non-conductivity is necessary, such as high voltage.
DETAIL
ø 0.5
(.02)
9X ø 0.25
(.010)
PBCAT23TS
Terminated sensor
end; use w/D11 &
Bifurcated
1 x 0.5 mm D12 plastic fiber
Coaxial
sensors M4
Angled
9 x 0.25 mm threaded end tip,
Threaded
may be used
w/L4C6 lens
11.4
(.45)
ø 0.5
(.02)
plastic
ø 5.3 (.21)
stainless steel
16.0
(.63)
ø 7.4
(.29)
19.1
(.75)
CL
9X ø 0.25
(.010)
42.7
(1.68)
1000
(39)
19.0
(.75)
3.0
(.12)
R 12.7
(.50)
16.0
(.63)
6.4
(.25)
4.0
(.16)
M4 x 0.7
stainless steel
18.0
(.71)
This fiber is an example of a coaxial bundle configuration with a 90° angle probe and a threaded end tip. Stainless steel sheathing and a
D12/D11 style connector have been added.
PBCAT23TS
664
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
Plastic Fiber Optics - Custom
Custom Plastic Fibers
Model
PBCT23TMT7
Type
Fiber Core
Size
Dimensions
(mm over inches)
Construction
Terminated sensor
end; use w/D11 &
D12 plastic fiber
Bifurcated
1 x 0.5 mm sensors
Coaxial
9 x0.25 mm
Threaded
M4 threaded end
tip, may be used
w/L4C6 lens
11.4
ø 0.5
(.45)
(.02)
M4 x 0.7
stainless steel
plastic
ø 0.5
(.02)
polyethylene
19.1
(.75)
DETAIL
ø 2.2
(.09)
42.7
(1.68)
CL
1000
(39)
9X ø 0.25
(.010)
7.0
(.28)
9X ø 0.25
(.010)
Use of the L4C6 convergent lens with fiber model PBCT23TMT7, which has a modified M4 x 0.7 threaded tip, allows for installation of the
fiber in tight locations due to the reduced length of the end tip (7.0 mm as opposed to 18.0 mm). PBCT23TMT7
This is the shortest thread length possible
for the coaxial fiber model PBCT23T.
VIEW A-A
DETAIL
16X ø 0.265
(.010)
16X ø 0.265
(.010)
ø 1.0
(.04)
ø 1.0
(.04)
8.18
(.322)
PBCT46UM7/16HX
Bifurcated
Coaxial
Threaded
1.0 mm
Cut to length cable,
7/16-20 threaded
end tip
2X ø 2.2
(.09)
polyethylene
A
12.7
(.50)
37°
7/16-20 UNF
stainless steel
A
(9.52)
(.375)
31.7
(1.25)
2000
(79)
ø 4.1
(.16)
see
DETAIL
6.35
(.250)
38
(1.5)
This modification to standard fiber PBCT46U employs a larger, 7/16-20 UNF thread size, as well as a hex feature at the back of the end tip
for ease of installation using a wrench.
2000
(79)
2X ø 2.2
(.09)
PBE46UTMLLPMA8
Bifurcated
Liquid
Level
Probe
Encapsulated
Right
Angle
1.0 mm
Cut to length cable,
90° bend, end tip
is completely
encapsulated in
Teflon®, sensor
output switches
when probe
contacts liquid
ø 5.7 (.23)
1829
(72)
75*
(3.0)
FEP Teflon ®
2X ø 1.0
polyethylene
203 (8)*
* Do not bend these areas
ø 6.0
(.24)
6.0
(.24)
16.5
(.65)
The addition of a 90º bend to the Teflon® tubing on model PBE46UTMLLPMA8 allows the customer to mount the liquid level detecting tip
through the wall of a containment vessel. This unit has the shortest possible vertical length of 200 mm (8") on the bend. Longer lengths can
be manufactured upon request.
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
665
Plastic Fiber Optics - Custom
Custom Plastic Fibers
Model
Type
Fiber Core
Size
Dimensions
(mm over inches)
Construction
stainless steel
PBF43TSM.5X.19
Bifurcated
Ferrule
1.0 mm
Terminated sensor
end; use w/D11 &
D12 plastic fiber
sensors
SS protective
sheath, smooth
ferrule end tip
11.4
plastic
(.45)
ø 9.6
(.38)
ø 6.8 (.27)
stainless steel
ø 4.6 ± 0.05
(.182 ± .002)
19.1
(.75)
42.7
(1.68)
CL
14.0
(.55)
1000
(39)
12.7
(.50)
2X ø 1.0
(.04)
This modification to a PBF46U uses a special ferrule which fits into an existing fixture, and stainless steel (SS) sheathing for mechanical
protection.
PBFM450UMNCM1
Bifurcated
Ferrule
Miniature
1.0 mm
Cut to length cable,
smooth ferrule end
tip
2X ø 2.2
(.09)
25
(1.0)
plastic
polyethylene
ø 6.4
(.25)
15000
(591)
ø 3.18
(.125)
2X ø 1.0
(.04)
12.7
(.50)
Plastic fibers are ideal for applications where non-conductivity is necessary, such as high voltage. This modification has a plastic ferrule
with an elongated 25 mm (1") long tip.
DETAIL “ A-A ”
plastic (nonbendable) probe
4.76
(.187)
Bifurcated
PBP26UMTFEMNC Threaded
Probe
0.5 mm
Cut to length cable,
non-bendable
plastic probe,
threaded ferrule,
Teflon® protective
sheath
2X ø 1.0
(.04)
25
(1.0)
Ø 4.76 (.187)
Teflon ®
polyethylene
2000
(79)
1830
(72)
15.7
(.62)
A
A
9.5
(.37)
3.18
(.125)
2X ø 0.5
(.02)
1/4 x 20
plastic
In addition to a non-conductive ferrule and probe, this fiber has a wrench flat on the back end of the 1/4-20 threaded ferrule. Teflon sheathing
is added for ruggedness.
666
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
Plastic Fiber Optics - Custom
Custom Plastic Fibers
Model
Type
Fiber Core
Size
Dimensions
(mm over inches)
Construction
18.0
(.71)
polyethylene
2X ø 2.2
(.09)
PBPS46UM.7X1.5
Bifurcated
Probe
Side View
1.0 mm
Cut to length cable,
non-bendable
angled side view
probe end tip
stainless steel
(non-bendable)
stainless steel
ø 5.1
(.20)
ø 3.00
(.120)
2000
(79)
14.0
(.55)
37.5
(1.48)
R 12.7
(.50)
3.0
(.12)
2X ø 1.0
(.04)
2.5
(.10)
This is an example of a side view type fiber with a 90° angle bend in the probe. Plastic fibers canPBPS46UM.7X1.5
be used in applications involving very tight
mounting constraints.
PBPS46UMT
Bifurcated
Probe
Side View
1.0 mm
2X ø 2.2
(.09)
Cut to length cable,
non-bendable
angled side view
probe end tip
polyethylene
stainless steel
(non-bendable) probe
M6 x 0.75
nickel plated brass
3.0
(.12)
ø 3.00
(.120)
2000
(79)
2.5
(.10)
2X ø 1.0
(.04)
51
(2.0)
14.0
(.55)
This side view type fiber has a threaded ferrule at the base of the probe for ease of mounting.
PBPS46UMT
3X M3 x 0.5
PBR1X166T
Terminated sensor
end; use w/D11 &
Bifurcated
D12 plastic fiber
Rectan- 16 x 0.265 mm sensors
gular
Fiber array exits
from end of
aluminum housing
11.4
(.45)
8X ø 0.265
(.010)
plastic
aluminum
1.0
(.04)
ø 2.2
(.09)
19.1
(.75)
CL
10.0
(.39)
polyethylene
CL
8X ø 0.265
(.010)
42.7
(1.68)
"L"
2.5
(.10)
8.0
(.31)
2.5
(.10)
DETAIL
5.0
(.20)
5.25
(.207)
15.0
(.59)
16X ø 0.265
(.010)
15.0
(.59)
CL
This is a modification of standard plastic fiber PBR1X326U which has a smaller array length and the addition of a connector on the end of
the fibers.
PBR1X166T
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
667
Plastic Fiber Optics - Custom
Custom Plastic Fibers
Model
Type
Fiber Core
Size
Dimensions
(mm over inches)
Construction
ø 7.94 (.312)
®
Teflon
polyethylene
PBT46UMHXMBMP
Bifurcated
Threaded
1.0 mm
Cut to length cable,
M6 threaded end
tip, Teflon®
protective
sheathing
2X ø 2.2
(.09)
M6 x 0.75
polypropylene
ø 4.0
(.16)
10.0
(.39)
1830
(72)
2X ø 1.0
(.04)
2000
(79)
6.0
(.24)
8.1
(.32)
3.0
(.12)
This custom fiber is designed to be used with liquid level detection systems in conjunction with Banner liquid level probe TGR3/8MPFMQ.
Polypropylene ferrule construction and Teflon sheathing provide resistance to harsh chemical environments. A hex feature on the back of
the plastic ferrule aids in mounting.
PBT46UMHXMBMP
PBTPS46UMKC
Bifurcated
Threaded
Probe
Side View
1.0 mm
Cut to length cable,
M6 threaded
ferrule, side view
probe end tip
polyethylene
2X ø 2.2
(.09)
stainless steel
(non-bendable) probe
3.0
2.5
(.12)
(.10)
M6 x 0.75
stainless steel
ø 3.00 2X ø 1.0
(.120) (.04)
2000
(79)
25
(1.0)
ø 4.6
(.18)
clear
PVC
127
(5.0)
This variation of standard fiber PBPS46U includes the addition of a 25 mm (1") long threaded ferrule for mounting ease, and a clear PVC
sleeve over the sensing window in the probe to retard contamination of the fiber strands in dirty environments.
PBTPS46UMKC
plastic
2X ø 2.2
(.09)
4.00
(.157)
PDIS46UM3.2
Dual
Individual
Slot
Sensor
1.0 mm
Cut to length cable,
3.18 mm (.125")
gap, plastic
housing
15.0
(.59)
9.0
(.35)
3.18
(.125)
24.0
(.94)
5.00
(.197)
sensing
beam
ø 1.0 (.04)
fibers
32.0
(1.26)
2000
(79)
PDIS46UM3.2
The PDIS46MUM3.2 is a dual individual fiber optic used for edge guide or label sensing applications where control of a moving web is
necessary. The housing is constructed of plastic with a 3.2 mm (1/8") wide slot to accommodate the 1.0 mm diameter effective opposed light
beam.
668
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
Plastic Fiber Optics - Custom
Custom Plastic Fibers
Model
Type
Fiber Core
Size
Dimensions
(mm over inches)
Construction
R 5.0
(.20)
black plastic
PDIS46UM4.5
Dual
Individual
1.0 mm
Cut to length slot
sensor, 4.5 mm
(0.18") gap
2X ø 2.2
(.09)
3.5
(.14)
2X R 1.60
(.063)
sensing beam
16.0
(.63)
4.57
(.180)
10
(.4)
7.0
(.28)
10.0
(.39)
25.0
(.98)
2000
(79)
This dual individual fiber is used in place of small inductive sensors in coin counting applications. The opposed 1 mm sensing beam can
detect objects of any material that can fit through the 4.5 mm wide slot. Banner can manufacture custom fiber optics with any slot width
PDIS46UM4.5
and any housing shape desired for a particular application.
7.2
(.28)
3.5
(.14)
2X ø 3.2
(.126)
2X 0.8
(.031)
8.3
(.33)
19.0
(.75)
PDISM46UM5MA
Dual
Individual
Right
Angle
1.0 mm
Cut to length cable,
5 mm (.20")
separation, plastic
housing
4X R 1.6
(.06)
polyethylene
5.0 (.20)
13.4
(.53)
18.4
(.72)
26.2
(1.03)
2X ø 2.2
(.09)
3.6
(.14)
2X ø 1.0
(.04) fibers
2000
(79)
6.2
(.24)
14.5
(.57)
plastic
7.0
(.27)
6.4
(.25)
PDISM46UM5MA
Fiber model PDISM46UM5MA is a dual individual style unit with tight right angle packaging, allowing sensing in tight locations. This fiber
has a 5.0 mm gap width and a 1.0 mm beam diameter.
4.00
(.157)
PDIS46UM8MSL30
Dual
Individual
Slot
Sensor
1.0 mm
Cut to length cable,
8 mm (.32") gap,
plastic housing
20.0
(.79)
8.0
(.32)
plastic
2X R 3.0
(.12)
2X R 3.0
(.12)
2X ø 2.2
(.09)
14.0
(.55)
sensing beam
ø 1.0 (.04) fibers
6.0
(.24)
6.3 ± 0.6)
(.25 ± .025)
12.0
(.47)
30.0
(1.18)
60.0
(2.36)
2000
(79)
This is another variation on the edge guide/label sensing fiber, with the addition of a mounting slot. This slot width is 8 mm (.32").
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
669
Plastic Fiber Optics - Custom
Custom Plastic Fibers
Model
PDIT26TP
Type
Dual
Individual
Threaded
Fiber Core
Size
1.0 mm
Dimensions
(mm over inches)
Construction
Terminated sensor
end; use w/D11 &
D12 plastic fiber
sensors PVC
protective sheath,
M3 threaded end
tips
12.7
(.50)
ø 6.4 (.25)
PVC
ø 7.0
(.28)
plastic
25
(1.0)
stainless steel
2X M3 x 0.5
nickel plated brass
2X ø 1.0
(.04)
polyethylene
11.0
(.43)
1000
(39)
2X ø 0.5
(.02)
1000
(39)
The PDIT26TP fiber is designed to be used in the opposed mode to create either “Dark-AND” or “Light-OR” logic functionality. Threaded end tips
are used, as well as a PVC sheathing for protection. This fiber cable is designed to be used with the D11/D12 series of photoelectric sensors.
2X ø 2.2
(.09)
PDIT4100U
Dual
Individual
Threaded
1.0 mm
polyethylene
2X M2.5 x 0.45
2X M4 x 0.7
nickel plated brass
Cut to length, M4
& M2.5 threaded
end tips, may be
used w/L2 and
L2RA lens
305
(12)
2X 3.0
(.12)
2X 11.0
(.43)
2X ø 1.0
(.04)
30480
(1200)
PDIT4100U
The PDIT4100U combines PIT46U-style threaded end tips with 30 m (100') length in a duplex 1.0 mm core fiber optic cable. This is useful in
applications where emitter and receiver fibers can be routed in the same cable run for convenience.
ø 2.2
(.09)
PIAT46UM.4X.4MT
Individual
Angled
Threaded
1.0 mm
Cut to length, M2.5
threaded end tip,
may be used w/L2
and L2RA
ø 3.2 (.125)
stainless steel
12.7
(.50)
10.1
(.40)
R 7.9
(.31) ø 1.47
(.058)
10.1
(.40)
"L"
5.1
(.20)
M2.5 x 0.45
stainless steel
ø 4.00
(.157)
3.0
(.12)
ø 1.0
(.04)
PIAT46UM.4X.4MT
This modification to the PIA46U is for use with L2 lenses for the longest opposed range in a “tight” side view application. The angle tip has
the minimum 7.9 mm (0.31") bend radius allowed for this particular type of steel tubing.
670
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
Plastic Fiber Optics - Custom
Custom Plastic Fibers
Model
PIL415U
Type
Individual
Lensed
Fiber Core
Size
1.0 mm
Dimensions
(mm over inches)
Construction
ø 2.2
(.09)
Cut to length cable,
8 mm lens
7.6
(.30)
polyethylene
19.1
(.75)
12.7
(.50)
ø 10.8
(.43)
M8 x 1 acrylic lens
plastic
5000
(197)
Used with special sensor model D12DAB6FPH High Power AC-Coupled sensor, this, lensed fiber optic cable allows for opposed ranges of up
to 10 m (30'), where small 1 mm (0.040") “thread break” detection is required.
PIL415U
ø 2.2
(.09)
PIPS66UMSQMAP
Individual
Probe
Side View
1.5 mm
Cut to length cable,
apertured side
view end tip
polyethylene
DETAIL
brass
see DETAIL
ø 1.5 fiber
(.06)
2000
(79)
ø 3.2
(.125)
ø 3.2
(.125)
2.5
(.10)
3.2
(.125)
0.79
(.031)
35.1
(1.38)
This special modification to standard fiber model PIPS66U includes an apertured slot through which the fiber optic light beam passes. This
allows for more reliable detection of an object passing through the opposed beam which may have an irregular edge profile, such as a
postage stamp.
9.5
(.37)
19 (REF)
(.75)
5.1
(.20)
CL
16X ø 0.265
PIRS1X166UMPM.75
Individual
Rectan16 x 0.265 mm
gular Side
Exit
Cut to length cable,
fiber array exits
from side of plastic
housing
plastic
1.25
(.05)
2X ø 3.0 (.118)
ø 2.2
(.09)
polyethylene
19.0
(.75)
2.5
(.10)
6.3
(.25)
2000
(79)
25
(1.0)
38
(1.5)
R 1.5
(.06)
PIRS1X166UMPM.75
Similar to standard fiber PIRS1X166UMPMAL, this modified “array” style fiber has a plastic housing and a different spacing between the
individual light beams. Banner can design any configuration desired with any beam spacing needed for achieving a particular fiber “line” that
suits the application.
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
671
Plastic Fiber Optics - Custom
Custom Plastic Fibers
Model
Type
Fiber Core
Size
Dimensions
(mm over inches)
Construction
6.6
(.26)
57 (REF)
(2.2)
5.1
(.20)
CL
PIRS1X166UMPM2.2
Individual
Rectan16 x 0.265 mm
gular Side
Exit
Cut to length cable,
fiber array exits
from side of plastic
housing
plastic
3.8
(.15)
16X ø 0.265
2X ø 3.0
(.118)
ø 2.2
(.09)
19.0
(.75)
polyethylene
6.3
(.25)
2.5
(.10)
57
(2.25)
2000
(79)
70
(2.75)
R 1.5
(.06)
PIRS1X166UMPM2.2
Modified array fiber with longer housing and 3.8 mm (.15") beam spacing, yielding an overall array length of 57 mm (2.2").
ø 6.4 (.25) PVC
PTIU216TP
Triindividual
Unterminated
0.5 mm
Terminated sensor
end; use w/D11 &
D12 plastic fiber
sensors PVC
protective sheath,
unterminated
end tips
ø 7.0
(.28)
12.7
(.50)
stainless steel
polyethylene
3X ø 1.0
(.04)
25.4
(1.0)
ø 0.5
(.02)
4000
(158)
914
(36)
This Tri-Individual fiber is used with one photoelectric sensor to create three opposed beams. When
the sensor is used in the dark operate
PTIU216TP
mode, a “DARK-AND” logic function results. The sensor output energizes only when all three branches are completely blocked. This model
can be produced with virtually any standard 0.5 mm (0.020" ) end tip configuration, to satisfy particular sensing requirements. Note: Two
are required per sensor.
672
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
Lenses
Model
L2
Description
• Lens for extended range operation
with opposed mode fibers.
• Use with PIT46U or PIT46UC
• The housing is made of nickel plated
brass; the lens is glass
• -60° to +350°C (-60° to +662°F)
Glass lens
9.2 mm
(0.36")
ø 4.0 mm
(0.16")
ø 4.3 mm
(0.17")
M2.5 x 0.45
Internal thread
ø 4.0 mm
L2RA
• Right angle prism for 90° beam
deflection; reduces range
• Use with model PIT46U or PIT46UC
• The housing is made of nickel plated
brass; the prism is glass
• -60° to +300°C (-60° to +572°F)
(0.16")
2.5 mm
(.10")
8.0 mm (0.32")
ø 2.8 mm
(0.11")
M2.5 x 0.45 mm
Internal thread
L4C6
L08FP
PIL46U
PIL46UHF
• Convergent lens for use with
0.5 mm/9 x 0.25 mm coaxial fiber
optic assemblies with M4 x 0.7
threaded end tip
• Focal distance is 6 mm ±1 mm
(0.24" ±0.04")
• Spot size is 0.25 mm (0.010")
• The housing is made of anodized
aluminum; the lens is acrylic
• -40° to +70°C (-40° to +158°F)
• The easily-installed L08FP lens
assembly may be used to extend the
opposed mode sensing range of
1 mm (0.04") unterminated plastic
fiber optic models PIU430U or
PIU460U
• A pair of 6-foot long 1 mm (0.04")
diameter individual fibers with factoryinstalled model model L08FP lenses is
available as plastic fiber optic
assembly model PIL46U
Plastic lens
ø 4.0 mm
(0.16")
20.2 mm
(0.80")
11.0 mm (0.44")
M4 x 0.7
Aluminum
Internal thread
ø 6.0 mm
(0.24")
ø 1 mm (.04") core diameter
Plastic Fiber
Nut
Compression Washer
Compression Gasket
Lens, M8 x 1
Mounting Nuts
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
673
Plastic Fiber Optic Accessories
Plastic Fiber Field-Installable Sheathing
Using model PFS69S6T as an example, the model numbering scheme for field-installable sheathing is as follows:
First three digits are alpha “PFS”
= Plastic Fiber Field-installable Sheathing
Next two digits are numerical “69”
= Outside Diameter (OD) in mm (e.g. 6.9 mm)
Next digit is alpha “S”
= Stainless Steel (S) or PVC (P) sheathing material
Next digit is numerical “6”
= Length of cable assembly in' (e.g. 6')
The last digit is alpha “T”
= Modification Designator (on special models only) (e.g. T = Threaded)
Model
Description
• Stainless steel sheathing with plastic compression fitting is used in applications
where protection is required for plastic fiber optic cables
• PFS69S6 is used with bifurcated 1 mm (0.04") or 1.5 mm (0.06") diameter core
fibers
PFS69S6
PFS53S6
PFS44S6
• PFS53S6 is used with individual 1 mm (0.04") or 1.5 mm (0.06") diameter or
bifurcated 0.25 mm (0.01") and 0.5 mm (0.02") diameter core fibers
• PFS44S6 is used with individual 0.25 mm (0.01") and 0.5 mm (0.02") diameter
core fibers
• All models listed are 2 m (6') in length
• Other lengths are available by contacting Banner Applications Department
• PVC sheathing with plastic compression fitting is used in applications where
protection is required for plastic fiber optic cables
• PFS95P6 is used with bifurcated 1 mm (0.04") or 1.5 mm (0.06") diameter core
fibers
PFS95P6
PFS64P6
PFS40P6
• PFS64P6 is used with individual 1 mm (0.04") or 1.5 mm (0.06") diameter or
bifurcated 0.25 mm (0.01") and 0.5 mm (0.02") diameter core fibers
• PFS40P6 is used with individual 0.25 mm (0.01") and 0.5 mm (0.02") diameter
core fibers
• All models listed are 2 m (6') in length
• Other lengths are available by contacting Banner Applications Department
• Stainless steel sheathing with stainless steel end fittings (one end internally
threaded to capture fiber end tips, other end non-threaded), is used in
applications where protection is required for plastic fiber optic cables
• PFS69S6T may be used with bifurcated fiber assemblies having M6 x 0.75
threaded end tips (PBCT46U, PBP46U, PBT46UHT1, and PBT66U)
PFS69S6T
PFS53S6T
PFS44S6T
• PFS53S6T may be used with individual or bifurcated fiber assemblies having
M4 x 0.7 threaded end tips (PBCT26U, PBPF26U, PIP46U, PIT46U, PIT46UHT1,
and PIT66U)
• PFS44S6T may be used with individual fiber assemblies having M3 x 0.5
threaded end tips (PIP26U, PIT26U, PIT1X46U, and PITF26U)
• All models listed are 2 m (6') in length
• Other lengths are available by contacting Banner Applications Department
674
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
Plastic Fiber Optic Accessories
Raw Plastic Fiber Field-Installable Sheathing
Banner also offers individual field-installable sheathing components for customized assembly. These components are for stainless steel
sheathing only. Assembly is the responsibility of the customer. Tools or assembly materials are NOT supplied.
Sheathing
Model
FS69S30
FS53S30
FS44S30
Description
Roll of raw SS sheathing, 6.9 mm OD (PFS69S6), 9 m (30') long
Roll of raw SS sheathing, 5.3 mm OD (PFS53S6), 9 m (30') long
Roll of raw SS sheathing, 4.4 mm OD (PFS44S6), 9 m (30') long
Fittings
RCF69-10
RCF69MSST-10
RCF69MSS-10
Plastic compression fittings (PFS69S6), bag of 10
Stainless steel end fittings, internally threaded M6 x 0.75, bag of 10
Stainless steel end fittings, non-threaded, bag of 10
}
Same parts as used on model PFS69S6T
RCF53-10
RCF53MSST-10
RCF53MSS-10
Plastic compression fittings (PFS53S6), bag of 10
Stainless steel end fittings, internally threaded M4 x 0.7, bag of 10
Stainless steel end fittings, non-threaded, bag of 10
}
Same parts as used on model PFS53S6T
RCF44-10
RCF44MSST-10
RCF44MSS-10
Plastic compression fittings (PFS44S6), bag of 10
Stainless steel end fittings, internally threaded M3 x 0.5, bag of 10
Stainless steel end fittings, non-threaded, bag of 10
}
Same parts as used on model PFS44S6T
Unterminated Individual and Bifurcated Plastic Fibers
Model
PIU230U
PIU260U
PIU430U
PIU460U
PIU630U
PIU660U
PBU43OU
PBU460U
Core
0.5 mm (0.02")
0.5 mm (0.02")
1.0 mm (0.04")
1.0 mm (0.04")
1.5 mm (0.06")
1.5 mm (0.06")
1.0 mm (0.04")
1.0 mm (0.04")
Length
Type
9 m (30')
18 m (60')
9 m (30')
18 m (60')
9 m (30')
18 m (60')
9 m (30')
18 m (60')
Single
Single
Single
Single
Single
Single
Duplex
Duplex
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
675
Plastic Fiber Optic Accessories
Plastic Fiber Kits
Model
PFK20
PFK40
UPFA-1-100
UPFA-2-100
676
Description
• These kits are used with the unterminated plastic fiber
cables
• The PFK20 is for use with 0.25mm (0.01") and 0.5 mm
(0.02") diameter cables
• The PFK40 is for use with the 1 mm (0.04") and 1.5 mm
(0.06") diameter cables
• Each kit contains 40 bushings and 10 cutter assemblies
(cutters can be purchased separately in packages of
25 - reference model PFC-1-25)
• Compression fitting adapters used with small diameter
unterminated plastic fiber cables
• Use when interfacing small diameter plastic fibers to
D11, D12, D10, MINI-BEAM and R55F plastic fiber
sensor families
• Use UPFA-1 to adapt plastic fiber optic cables with
outside jacket diameter of 1.0 mm (4.0")
• Use UPFA-2 to adapt plastic fiber optic cables with
outside jacket diameter of 1.25 mm or 1.3 mm (0.05")
• Each kit contains 100 pairs of adapters. One pair will
interface either one bifurcated fiber optic cable or a pair
of individual cables to a fiber optic amplifier.
NOTE: Bushings are not used with D11, D12, PC44, QM42, or
MINI-BEAM sensors.
Fiber end
Adapter
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
Plastic Fiber Optic Accessories
Mounting Brackets
Model
Description
Dimensions
SMBFP3
3.2 mm
(0.13")
4x R2.5 mm
(0.10")
2 x ø 3.3 mm
(0.13")
25.4 mm
(1.00")
• Right angle bracket for plastic
fiber optics with
3 mm threaded tip
• 18-gauge stainless steel
3.2 mm
(.126")
12.7 mm
(0.50")
6.4 mm
(0.25")
3.3 mm
(0.13")
5.8 mm
(0.23")
1.2 mm
(0.05")
12.7 mm
(0.50")
19.1 mm
(0.75")
10.6 mm
(0.65")
SMBFP4
3.2 mm
(0.13")
4x R2.5 mm
(0.10")
• Right angle bracket for plastic
fiber optics with
4 mm threaded tip
• 18-gauge stainless steel
2 x ø 3.3 mm
(0.13")
25.4 mm
(1.00")
4.2 mm
(.165")
12.7 mm
(0.50")
6.4 mm
(0.25")
3.3 mm
(0.13")
5.8 mm
(0.23")
1.2 mm
(0.05")
12.7 mm
(0.50")
19.1 mm
(0.75")
10.6 mm
(0.65")
SMBFP4N
ø4.2 mm
(0.17")
4.6 mm
(0.35")
12.00 mm
(0.47")
1.5 mm
(0.06")
2x Full R
4.6 mm
(0.18")
8.9 mm
(0.35")
• Low profile bracket for plastic
fiber optics with
4 mm threaded tip
• 18-gauge stainless steel
5.1 mm
(0.20")
7.6 mm
(0.30")
15.2 mm
(0.60")
1.2 mm
(0.05")
25.4 mm
(1.00")
90º
SMBFP6
4x R2.5 mm
(0.10")
2 x ø 3.3 mm
(0.13")
25.4 mm
(1.00")
• Right angle bracket for plastic
fiber optics with
6 mm threaded tip
• 18-gauge stainless steel
6.2 mm
(.244")
12.7 mm
(0.50")
6.4 mm
(0.25")
1.2 mm
(0.05")
12.7 mm
(0.50")
3.2 mm
(0.13")
19.1 mm
(0.75")
3.3 mm
(0.13")
5.8 mm
(0.23")
10.6 mm
(0.65")
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677
Glass Fiber Optics
Glass Fiber Optics
!
•
Banner glass fibers solve numerous challenging sensing
requirements including the most hostile environments such as
high temperatures up to 480°C (900°F), corrosive materials
and extreme moisture
•
Due to low mass of the fibers, glass fibers can withstand
high levels of shock and vibration; they are also immune to
extreme electrical noise
•
Glass fibers are constructed of a combination of optical
glass fiber, stainless steel, PVC, brass, silicone rubber,
Teflon®, molded thermoplastics, and optical grade epoxy
APPLICATION NOTES and WARNINGS
!
1. The ends of glass fiber optic assemblies are optically ground and polished. Care taken in this manufacturing process accounts for
the light coupling efficiency of the fiber optic assembly. As a result, glass fiber assemblies cannot be shortened, spliced, or
otherwise modified.
2. Use caution when applying fiber optics in hazardous locations. Although fiber optic assemblies are, by themselves, intrinsically
safe, the sensor and associated electronics must be LOCATED IN A SAFE ENVIRONMENT. Alternatively, fiber optics may be used
with sensor model SMI912FQD (page 359). This sensor is approved for use inside hazardous areas when used with an appropriate
intrinsic barrier. Also, see NAMUR sensor models Q45AD9F (page 416) and MIAD9F (page 148). Fiber optics do not necessarily
provide a hermetic seal between a hazardous environment and the safe environment.
3. In applications where glass fibers are being used to insulate the control from high voltage, specify silicone rubber, teflon, or highdensity polyethylene sheathing with no reinforcing wire in the cable. It is the responsibility of the user to test each fiber optic
assembly for insulation capacity.
4. Do not subject the fibers to sharp bends, pinching, repeated flexing, or high levels of radiation.
5. When ordering fiber lengths in excess of 1 m (3'), take into account light signal reduction of 5 percent per foot of additional length.
Teflon® is a registered trademark of Dupont
678
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
Glass Fiber Optics
Model Numbering Scheme for Glass Fiber Optic Assemblies
ASSEMBLY STYLE designator
(one or two letters)
B
DB
H
HB
I
O
OB
P
PB
Q
QB
T
TB
=
=
=
=
=
=
=
=
=
=
=
=
=
Bifurcated: emitter & receiver to one sensing point
Double bifurcated: emitter & receiver to two sensing points
Hex-individual: emitter or receiver to six sensing points
Hex-bifurcated: emitter & receiver to six sensing points
Individual: emitter or receiver to one sensing point
Octa-individual: emitter or receiver to eight sensing points
Octa-bifurcated: emitter & receiver to eight sensing points
Penta-individual: emitter or receiver to five sensing points
Penta-bifurcated: emitter & receiver to five sensing points
Quad-individual: emitter or receiver to four sensing points
Quad-bifurcated: emitter & receiver to four sensing points
Tri-individual: emitter or receiver to three sensing points
Tri-bifurcated: emitter & receiver to three sensing points
SHEATHING MATERIAL designator
S
P
= Stainless steel flexible conduit
= PVC with galvanized monocoil
reinforcing wire
L
= Silicone rubber tubing (max. flexibility,
min. fiber protection)
T
= Teflon tubing (max. chemical resistance,
min. flexibility)
HDP = High-density polyethylene (max.
electrical isolation, min. flexibility)
FIBER BUNDLE DIAMETER designator
(in 1/16 of an inch)
.44
.5
.75
1
1.5
2
2.5
=
=
=
=
=
=
=
0.027" (0.7 mm)
0.032" (0.8 mm )
0.046" (1.2 mm )
0.062" (1.6 mm )
0.090" (2.3 mm )
0.125" (3.2 mm )
0.156" (4.0 mm ), max bundle ø
I A T 2 3 S X X
MODIFICATIONS designator
(suffix may be any length)
SENSING END TIP STYLE designator
(one to five letters)
A
=
AC
=
AM
=
AMM =
AR
=
AT
=
ATR
=
F
=
FR
=
HA
=
HAR =
HAT
=
HATR =
M
=
MAP =
MHAP =
MM
=
MP
=
MT
=
MTAP =
MTHAP =
MTP =
P
=
R
=
RC
=
T
=
TA
=
TAR
=
THA =
THAR =
TR
=
Angled tip (90°)
Axial circular (ring-shaped) fiber termination
Angled tip (90°); miniature probe (ø0.059")
Angled tip (90°); micro-miniature probe (ø0.043")
Angled tip (90°); rectangular bundle termination (plastic insert)
Angled (90°) & threaded (5/16 -24 x 11/2" long) brass tip
Angled (90°)& threaded tip; miniature rectangular bundle (plastic insert)
Ferruled (ø 3/16 x 1/2" long) tip; same as sensor end tip
Ferruled tip; miniature rectangular bundle termination (plastic insert)
Half-angled tip (45°)
Half-angled tip (45°); miniature rectangular bundle (plastic insert)
Half-angled (45°) & threaded (5/16 -24 x 11/2" long) brass tip
Half-angled and threaded tip; miniature rectangular bundle (plastic insert)
Miniature (ø0.059 x 1" long) tip
Miniature angled (90°) probe tip
Miniature half-angled (45°) probe tip
Micro-miniature (ø0.043 x 1" long) probe tip
Miniature (ø0.059 x 1" long) probe, ø0.15 x 0.5" long ferrule
Threaded (#8-32 x 0.5" long) brass end tip
Threaded (#8-32 x 0.5" long) brass, miniature angled (90°) tip
Threaded (#8-32 x 0.5" long) brass, miniature half-angled (45°) tip
Threaded (#8-32) brass, miniature (ø0.059 x 1" long) probe
Probe (ø0.09 x 3" long) bendable tip
Rectangular bundle termination
Radial circular light image around perimeter of tip
Threaded (5/16 -24 x 11/2" long), brass end tip
Threaded (5/16 -24 x 11/2" long), angled (90°) end tip
Threaded (5/16 -24) angled (90°); miniature rectangular bundle (plastic insert)
Threaded (5/16 -24 x 11/2" long), half-angled (45°) end tip
Threaded & half-angled (45°); miniature rectangular bundle (plastic insert)
Threaded end tip; miniature rectangular bundle termination (plastic insert)
“M600” suffix = Cable available in 600°F version
“M900” suffix = Cable available in 900°F version
OVERALL LENGTH
designator
Length of the complete fiber
optic assembly in feet
SHORT FIBER OPTIC MODEL NUMBERING
The overall length dimensions of short fiber optic
assemblies may be specified to the nearest inch.
Use the numbers below to specify lengths that
are not an even multiple of 12 inches
Overall
Model
Length
Number
1"
=
.1
2"
=
.2
3"
=
.3
4"
=
.33
5"
=
.4
6"
=
.5
7"
=
.6
8"
=
.7
9"
=
.8
10"
=
.83
11"
=
.9
e.g. to order model number IA23S in a 10"
length, order “IA2.83S”
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
679
Glass Fiber Optics
The following Banner fiber optic products use glass fibers for sensing applications.
Sensors for Glass Fiber Optics Quick Reference Guide
D12 Series
OMNI-BEAM
Glass Fiber Optic Models
Glass Fiber Optic Models
(pp. 618, 622, 623 & 630)
(pp. 430-433, & 447)
ECONO-BEAM
Q45 Series
Glass Fiber Optic Models
Glass Fiber Optic Models
(p. 162)
(pp. 385 & 416)
LR/PT400
with FOF-400 Glass Fiber Optic
Fittings
(p. 587)
MAXI-BEAM
Q45X Bus Network Sensors
Glass Fiber Optic Models
(p. 403)
R55F
Glass Fiber Optic Models
Glass Fiber Optic Models
(pp. 461 & 462)
(p. 306)
MINI-BEAM
Glass Fiber Optic Models
(pp. 120, 121, 131, 132,
143 & 148)
MULTI-BEAM
Glass Fiber Optic Models
(pp. 485-488, 503 & 509)
680
SM512
Glass Fiber Optic Models
(p. 278)
VALU-BEAM
Glass Fiber Optic Models
(pp. 331, 342, 350, 358 & 359)
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
Glass Fiber Optics
Glass Fiber Optics Specifications
Construction
Combination of optical glass fiber, stainless steel or PVC, brass silicone rubber, Teflon®, molded
thermoplastics, and optical grade epoxy. Optical fiber is F2 core, EN1 clad, except where noted. Flexible
steel interlock sheathing is 302 stainless, except where noted.
Sensing Range
Refer to the excess gain curves for the fiber optic sensor to be used.
Bend Radius
Inside bend radius must be 0.5" (12 mm ) or greater for PVC covered fiberoptic assemblies, and 1" ( 25 mm) or
greater for stainless steel armored cable covered fibers.
Length
Standard length for assemblies is 24" (610 mm) or 36" (915 mm); see dimension diagrams
Most models are available from the factory with shorter or longer cable lengths, up to 60' (18 m) max
Length Dimension Tolerance
Overall assembly length is ± 0.5" (12 mm) per 1' of length
Bifurcation dimensions: ±0.5" (12 mm)
Implied Dimensional Tolerance
All glass fiber optic dimensions are in inches: 0.xxx = ±0.005 in; 0.xx = ±0.01; 0.x = ±0.1, unless specified
Operating Conditions
Fiber assemblies with stainless steel (SS) sheathing and metal end tips: -140° to +249°C (-220° to +480°F)
Fiber assemblies with PVC sheathing and/or plastic end tips: -40° to +105°C (-40° to +220°F)
Special order assemblies with SS sheathing and metal end tips and model suffix “M600”:
-140° to +315°C (-220° to +600°F) *sensing end tip only
Special order assemblies with SS sheathing and metal end tips and model suffix “M900”:
-140° to +480°C (-220° to +900°F); note dimensional changes from STD models * sensing end tip only
Teflon® is a registered trademark of Dupont
Glass Fiber Optic Construction
Bifurcated Fiber Construction
.50
.50
Ferrule
Diameter
.29 (.32 max)
Sheath
Diameter
(see models)
.185
.182
1.5 ± .25
7.5 ± .5
Individual Fiber Construction
NOTE: Two individual glass fibers are
required per sensor for opposed mode
sensing.
.50
.50
Ferrule
Diameter
.29 (.32 max)
Sheath
Diameter
(see models)
.185
.182
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681
Glass Fiber Optics - Standard
Standard Glass Fibers
Model
Final
Bundle
Sensing Assembly Size or SheathFollowing
Sheathis the listing of Banner standard, stocked glass fiber optic
Mode Lgth (in) Dia. (in) Material
Dia.
(in) Sensing end tips
Sensing
End TiptoDimensions
(in)(“B”
assemblies.
are common
both bifurcated
model prefix) and individual (“I” model prefix) type assemblies. See
page 681 for sensor end dimensions.
Contact your local sales engineer or factory applications expert for
information on variations not listed, including: different final assembly
lengths, additional bundle sizes, and alternate sheathing materials.
Model
Final
Bundle
Sensing Assembly Size or Sheath Sheath
Mode Lgth (in) Dia. (in) Material Dia. (in)
Sensing End Tip Dimensions (in)
Model
Final
Bundle
Sensing Assembly Size or Sheath Sheath
Mode Lgth (in) Dia. (in) Material Dia. (in)
Sensing End Tip Dimensions (in)
BA1.53PMETA
BA.753PMETA
BA13PMETA
BA1.53SMETA*
BA.753SMETA*
BA13SMETA*
Diffuse
36
0.090
0.046
0.062
0.090
0.046
0.062
PVC
PVC
PVC
SS
SS
SS
.19
.19
.19
.21
.21
.21
1.00
.50
.21
.12
IA1.53PMETA
IA.753PMETA
IA13PMETA
IA1.53SMETA*
IA.753SMETA*
IA13SMETA*
BA1.53PMTA
BA.753PMTA
BA13PMTA
BA1.53SMTA*
BA.753SMTA*
BA13SMTA*
Opposed
Diffuse
36
0.090
0.046
0.062
0.090
0.046
0.062
PVC
PVC
PVC
SS
SS
SS
.19
.19
.19
.21
.21
.21
36
0.090
0.046
0.062
0.090
0.046
0.062
PVC
PVC
PVC
SS
SS
SS
.19
.19
.19
.21
.21
.21
.21
Bundle
Diameter
.187 dia.
1.38
.28
.12
IA1.53PMTA
IA.753PMTA
IA13PMTA
IA1.53SMTA*
IA.753SMTA*
IA13SMTA*
Opposed
36
0.090
0.046
0.062
0.090
0.046
0.062
PVC
PVC
PVC
SS
SS
SS
.19
.19
.19
.21
.21
.21
.25 dia.
Bundle
Diameter
* Available in 600°F version by adding suffix “M600” to model number
** Available in 900°F version by adding suffix “M900” to model number (some dimensions may change)
682
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
Glass Fiber Optics - Standard
Standard Glass Fibers
Model
BA23S* **
BA13P
BA13S* **
BA23P
Final
Bundle
Sensing Assembly Size or Sheath Sheath
Mode Lgth (in) Dia. (in) Material Dia. (in)
Diffuse
36
0.125
0.062
0.062
0.125
SS
PVC
SS
PVC
Sensing End Tip Dimensions (in)
.25
1.1
.50
.8
.5 R
.29
IA23S* **
IA13P
IA13S* **
IA23P
Opposed
BA2.53S*
BA2.53P
Diffuse
36
0.125
0.062
0.062
0.125
SS
PVC
SS
PVC
36
0.156
SS
PVC
.25
Bundle
Diameter
.30
.32
IA2.53S*
IA2.53P
BAM.752S*
BAM.752P
BAM.753S*
Opposed
36
0.156
SS
PVC
Diffuse
24
24
36
0.046
SS
PVC
SS
.187
1.1
.50
.30
.5 R
1.0
Bundle
Diameter
.218
.25
1.4
1.0
.19
.310
IAM.752S*
IAM.752P
IAM.753S*
Opposed
24
24
36
0.046
SS
PVC
SS
.060
.12 R
Bundle
Diameter
.25
* Available in 600°F version by adding suffix “M600” to model number
** Available in 900°F version by adding suffix “M900” to model number (some dimensions may change)
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
683
Glass Fiber Optics - Standard
Standard Glass Fibers
Model
BAMM.442S*
BAMM.442P
Final
Bundle
Sensing Assembly Size or Sheath Sheath
Mode Lgth (in) Dia. (in) Material Dia. (in)
Diffuse
24
0.027
SS
PVC
Sensing End Tip Dimensions (in)
.25
.50
1.0
.50
.19
.29
IAMM.442S*
IAMM.442P
BAR.753S†
BAR.753P
Opposed
24
0.027
SS
PVC
Diffuse
36
0.02 x 0.10
SS
PVC
.18
.043
.25
BAR.753SMRA* †
BAR.753PMRA
Diffuse
36
36
0.02 x 0.10
0.02 x 0.10
SS
PVC
.25
SS
PVC
.25
1.1
.5 R
.29
Opposed
.29
Opposed
36
0.02 x 0.10
SS
PVC
1.1
Bundle
Size
.50
IAR.753SMRA†
IAR.753PMRA
Bundle
Diameter
.25
.50
IAR.753S†
IAR.753P
.09 R
.187
1.1
.5 R
1.1
.25
Bundle
Size
.187
†
* Available in 600°F version by adding suffix “M600” to model number
M600 version uses aluminum instead of plastic insert
** Available in 900°F version by adding suffix “M900” to model number (some dimensions may change)
684
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
Glass Fiber Optics - Standard
Standard Glass Fibers
Model
BAR.753SMTA* †
BAR.752SMTA* †
Final
Bundle
Sensing Assembly Size or Sheath Sheath
Mode Lgth (in) Dia. (in) Material Dia. (in)
Diffuse
36
24
0.02 x 0.10
SS
Sensing End Tip Dimensions (in)
.25
1.38
.28
.156
IAR.753SMTA* †
IAR.752SMTA* †
Opposed
36
24
.25 dia.
0.02 x 0.10
SS
Bundle
Size
.21
BAR.753SMTAMRA
BAR.753SMTAMRA* †
BAR.752SMTAMRA* †
Diffuse
36
24
0.02 x 0.10
SS
.21
1.38
.28
0.8 dimension changes for M900 (see p. 547xx)
.156
IAR.753SMTAMRA* †
IAR.752SMTAMRA* †
Opposed
36
24
.25 dia.
0.02 x 0.10
SS
.21
SS
PVC
SS
PVC
.25
Bundle
Size
0.8 dimension changes for M900 (see p. 560xx)
BAT23S* **
BAT13P
BAT13S**
BAT23P
Diffuse
36
0.125
0.062
0.062
0.125
1.1
.50
.29
.8
.187
IAT23S* **
IAT13P
IAT13S* **
IAT23P
Opposed
36
0.125
0.062
0.062
0.125
SS
PVC
SS
PVC
.5 R
5/16 x 24 Thd Brass
2 Jam Nuts included
.25
1.5
Bundle
Diameter
†
M600 version uses aluminum instead of plastic insert
* Available in 600°F version by adding suffix “M600” to model number
** Available in 900°F version by adding suffix “M900” to model number (some dimensions may change)
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
685
Glass Fiber Optics - Standard
Standard Glass Fibers
Model
BAT2.53S* **
BAT2.53P
Final
Bundle
Sensing Assembly Size or Sheath Sheath
Mode Lgth (in) Dia. (in) Material Dia. (in)
Diffuse
36
0.156
SS
PVC
Sensing End Tip Dimensions (in)
.32
.50
1.1
.30
.8
.218
.5 R
5/16 x 24 Thd Brass
2 Jam Nuts included
IAT2.53S* **
IAT2.53P
BATR.753S* †
BATR.753P
Opposed
Diffuse
36
36
0.156
SS
PVC
0.02 x 0.10
SS
PVC
.30
1.5
Bundle
Diameter
1.1
.50
.29
.25
.8
.187
.5 R
5/16 x 24 Thd Brass
2 Jam Nuts included
IATR.753S* †
IATR.753P
BATR.753SMRA* †
BATR.753PMRA
Opposed
36
0.02 x 0.10
SS
PVC
.25
Diffuse
36
0.02 x 0.10
SS
PVC
.25
1.5
Bundle
Size
1.1
.50
.29
.8
.187
.5 R
5/16 x 24 Thd Brass
2 Jam Nuts included
IATR.753SMRA* †
Opposed
IATR.753PMRA
36
0.02 x 0.10
SS
PVC
1.5
.25
Bundle
Size
0.8 dimension changes with M900 (see p. 560)
* Available in 600°F version by adding suffix “M600” to model number
** Available in 900°F version by adding suffix “M900” to model number
686
†
M600 version uses aluminum instead of plastic insert
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
Glass Fiber Optics - Standard
Standard Glass Fibers
Model
BF23S* **
BF13S*
BF13P
BF23P
Final
Bundle
Sensing Assembly Size or Sheath Sheath
Mode Lgth (in) Dia. (in) Material Dia. (in)
Diffuse
36
0.125
0.062
0.062
0.125
SS
SS
PVC
PVC
Sensing End Tip Dimensions (in)
.25
.29
IF23S* **
IF13S*
IF13P
IF23P
Opposed
BF2.53S*
BF2.53P
Diffuse
36
0.125
0.062
0.062
0.125
SS
SS
PVC
PVC
.25
36
0.156
SS
PVC
.30
.50
.50
.187
Bundle
Diameter
.32
.50
.50
.187
IF2.53S*
IF2.53P
BFR.753P
BFR.753S* †
Opposed
36
0.156
SS
PVC
Diffuse
36
0.02 x 0.10
0.02 x 0.10
PVC
SS
.30
.25
.29
IFR.753P
IFR.753S* †
Opposed
36
0.02 x 0.10
0.02 x 0.10
PVC
SS
Bundle
Diameter
.50
.50
.187
Bundle
Size
.25
* Available in 600°F version by adding suffix “M600” to model number
** Available in 900°F version by adding suffix “M900” to model number
†
M600 version uses aluminum instead of plastic insert
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
687
Glass Fiber Optics - Standard
Standard Glass Fibers
Model
BHA23S*
BHA13P
BHA13S*
BHA23P
Final
Bundle
Sensing Assembly Size or Sheath Sheath
Mode Lgth (in) Dia. (in) Material Dia. (in)
Diffuse
36
0.125
0.062
0.062
0.125
SS
PVC
SS
PVC
Sensing End Tip Dimensions (in)
.25
.29
.50 .38 ± .030
45°
.5 R
IHA23S*
IHA13P
IHA13S*
IHA23P
BHA2.53S*
BHA2.53P
Opposed
36
0.125
0.062
0.062
0.125
Diffuse
36
0.156
SS
PVC
SS
PVC
.25
SS
PVC
.30
.75
± .030
.187
.32
.50 .38 ± .030
45°
.5 R
IHA2.53S*
IHA2.53P
Diffuse
36
0.156
SS
PVC
.30
BHAR.753S* †
BHAR.753P
Diffuse
36
0.02 x 0.10
SS
PVC
.25
.75
± .030
.29
.50
.38 ± .030
.5 R
Diffuse
36
0.02 x
0.100.02 x
0.10
SS
PVC
688
Bundle
Size
.75
± .030
.25
* Available in 600°F version by adding suffix “M600” to model number
** Available in 900°F version by adding suffix “M900” to model number
Bundle
Diameter
.218
45°
IHAR.753S* †
IHAR.753P
Bundle
Diameter
.187
†
M600 version uses aluminum instead of plastic insert
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
Glass Fiber Optics - Standard
Standard Glass Fibers
Model
BHAR.753SMRA* †
BHAR.753PMRA
Final
Bundle
Sensing Assembly Size or Sheath Sheath
Mode Lgth (in) Dia. (in) Material Dia. (in)
Diffuse
36
0.02 x 0.10
SS
PVC
Sensing End Tip Dimensions (in)
.25
.50
.29
.38 ± .030
45°
Bundle
Size
.5 R
IHAR.753SMRA* †
IHAR.753PMRA
BHAT23S*
BHAT13P
BHAT13S*
BHAT23P
Diffuse
Diffuse
36
36
0.02 x 0.10
0.125
0.062
0.062
0.125
SS
PVC
.25
SS
PVC
SS
PVC
.25
.75
± .030
.50 .38 ± .030
.29
.187
5/16 x 24 Thd Brass
2 Jam Nuts included
45°
.187
IHAT23S*
IHAT13P
IHAT13S*
IHAT23P
Diffuse
BHAT2.53S
BHAT2.53P
Diffuse
36
36
.5 R
Bundle
Diameter
.75
± .030
0.125
0.062
0.062
0.125
SS
PVC
SS
PVC
.25
0.156
SS
PVC
.30
1.5
.32
.50
.38 ± .030 5/16 x 24 Thd Brass
2 Jam Nuts included
45°
.218
.5 R
Bundle
Diameter
.75
± .030
IHAT2.53S*
IHAT2.53P
Diffuse
36
0.156
SS
PVC
1.5
.30
* Available in 600°F version by adding suffix “M600” to model number
** Available in 900°F version by adding suffix “M900” to model number
†
M600 version uses aluminum instead of plastic insert
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
689
Glass Fiber Optics - Standard
Standard Glass Fibers
Model
BHATR.753S* †
BHATR.753P
Final
Bundle
Sensing Assembly Size or Sheath Sheath
Mode Lgth (in) Dia. (in) Material Dia. (in)
Diffuse
36
0.02 x 0.10
SS
PVC
.25
Sensing End Tip Dimensions (in)
.29
.50
.38 ± .030
5/16 x 24 Thd Brass
2 Jam Nuts included
45°
.187
.5 R
Bundle
Size
.75
± .030
IHATR.753S* †
IHATR.753P
Diffuse
BHATR.753SMRA* †
BHATR.753PMRA
Diffuse
36
36
0.02 x 0.10
0.02 x 0.10
SS
PVC
.25
SS
PVC
.25
1.5
.29
.50 .38 ± .030
5/16 x 24 Thd Brass
2 Jam Nuts included
45°
.187
.5 R
Bundle
Size
.75
± .030
IHATR.753SMRA* †
Opposed
IHATR.753PMRA
36
0.02 x 0.10
SS
PVC
.25
BM.752P
BM.753P
24
36
0.046
PVC only
.09
Diffuse
1.5
.060
1.0
IM.752P
IM.753P
Opposed
24
36
0.046
PVC
only
.09
* Available in 600°F version by adding suffix “M600” to model number
** Available in 900°F version by adding suffix “M900” to model number
690
Bundle
Diameter
†
M600 version uses aluminum instead of plastic insert
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
Glass Fiber Optics - Standard
Standard Glass Fibers
Model
BM.752S*
BM.753S*
Final
Bundle
Sensing Assembly Size or Sheath Sheath
Mode Lgth (in) Dia. (in) Material Dia. (in)
Diffuse
24
36
0.046
SS
Sensing End Tip Dimensions (in)
.25
.50
.29
IM.752S*
IM.753S*
BMAP.753P
BMAP.442P1
Opposed
24
36
0.046
0.027
SS
.25
Diffuse
36
24
0.046
0.027
PVC
.12
.50 1.0 ± .030
.18
.060
Bundle
Diameter
1.0
(1 Probe diameter for this model is 0.043")
.19
.50
.15
IMAP.753P
IMAP.442P1
Opposed
36
24
.060
Bundle
Diameter
.12 R
0.046
0.027
PVC
.12
0.046
0.027
PVC
.12
(1 Probe diameter for this model is 0.043")
BMHAP.753P
BMHAP.442P
Diffuse
36
24
.15
.50
.38 ± .030
45°
.75
± .030
.5 R
IMHAP.753P
IMHAP.442P
Opposed
36
24
0.046
0.027
PVC
Bundle
Diameter
.060
.12
* Available in 600°F version by adding suffix “M600” to model number
** Available in 900°F version by adding suffix “M900” to model number
1
Probe-style fibers may be modified for different probe lengths and angles
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
691
Glass Fiber Optics - Standard
Standard Glass Fibers
Model
BMM.442P
BMM.443P
Final
Bundle
Sensing Assembly Size or Sheath Sheath
Mode Lgth (in) Dia. (in) Material Dia. (in)
Diffuse
24
36
0.027
PVC only
Sensing End Tip Dimensions (in)
.09
.043
Bundle
Diameter
1.0
IMM.442P
IMM.443P
BMM.442S*
BMM.443S*
Opposed
24
36
0.027
PVC
.09
Diffuse
24
36
0.027
SS
.25
.50
.29
IMM.442S*
IMM.443S*
Opposed
24
36
0.027
SS
.25
BMP.753P
BMP.442P
Diffuse
36
24
0.046
0.027
PVC
.12
.50 1.0 ± .030
.18
.043
Bundle
Diameter
.060
.15
IMP.753P
IMP.442P
Opposed
36
24
0.046
0.027
PVC
.50
1.00
± .030
Bundle
Diameter
.12
* Available in 600°F version by adding suffix “M600” to model number
** Available in 900°F version by adding suffix “M900” to model number
692
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
Glass Fiber Optics - Standard
Standard Glass Fibers
Model
BMT.753P
BMT.442P
Final
Bundle
Sensing Assembly Size or Sheath Sheath
Mode Lgth (in) Dia. (in) Material Dia. (in)
Diffuse
36
24
0.046
0.027
PVC
Sensing End Tip Dimensions (in)
.12
#8-32 Thd Brass
2 Jam Nuts included
(1Probe diameter for this model is 0.043 in)
.15
IMT.753P
IMT.442P
BMTAP.753P
BMTAP.442P1
Opposed
36
24
0.046
0.027
PVC
.12
Diffuse
36
24
0.046
0.027
PVC
.12
Bundle
Diameter
.50
.50
#8-32 Thd Brass
2 Jam Nuts included
1.0
(1Probe diameter for this model is 0.043")
.19
.15
IMTAP.753P
IMTAP.442P1
Opposed
36
24
.50
.50
.060
Bundle
Diameter
.12 R
0.046
0.027
PVC
.12
0.046
0.027
PVC
.12
(1Probe diameter for this model is 0.043")
BMTHAP.753P
BMTHAP.442P
Diffuse
36
24
.15
.50
.50
.38 ± .030
45°
.75
± .030
#8-32 Thd Brass
2 Jam Nuts included
IMTHAP.753P
IMTHAP.442P
Opposed
36
24
0.046
0.027
PVC
Bundle
Diameter
.5 R
.060
.12
* Available in 600°F version by adding suffix “M600” to model number
** Available in 900°F version by adding suffix “M900” to model number
1
Probe-style fibers may be modified for different probe lengths and angles
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
693
Glass Fiber Optics - Standard
Standard Glass Fibers
Model
BMTP.753P
BMTP.442P
Final
Bundle
Sensing Assembly Size or Sheath Sheath
Mode Lgth (in) Dia. (in) Material Dia. (in)
Diffuse
36
24
0.046
0.027
PVC
Sensing End Tip Dimensions (in)
.12
#8-32 Thd Brass
2 Jam Nuts included
.15
IMTP.753P
IMTP.442P
BP13S*
BP12P
BP12S*
BP13P
Opposed
36
24
Diffuse
36
24
24
36
0.046
0.027
PVC
.12
0.062
SS
PVC
SS
PVC
.25
.50
.060
.50
Bundle
Diameter
1.00
± .030
3.0
1.4
Bendable probe sensing tip: R 6 mm (.24"), 12 mm (.47") min from either end
.310 dia.
IP13S*
IP12P
IP12S*
IP13P
BR13P
BR12P
Opposed
36
24
24
36
Diffuse
36
24
0.062
SS
PVC
SS
PVC
.25
0.020 x 0.154
PVC
.23
.093 dia.
1.00
.25
.46
.125 (2)
IR13P
IR12P
Opposed
36
24
0.020 x 0.154
PVC
.75
Bundle
Diameter
.75
.154
.020
.23
* Available in 600°F version by adding suffix “M600” to model number (IR13S & IR23S)
** Available in 900°F version by adding suffix “M900” to model number
694
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
Glass Fiber Optics - Standard
Standard Glass Fibers
Model
BR13S*
BR12S*
Final
Bundle
Sensing Assembly Size or Sheath Sheath
Mode Lgth (in) Dia. (in) Material Dia. (in)
Diffuse
36
24
0.020 x 0.154
SS
Sensing End Tip Dimensions (in)
.25
1.00
.25
.46
.125 (2)
IR13S*
IR12S*
Opposed
36
24
0.020 x 0.154
SS
.25
BR23P
BR26P
Diffuse
36
72
0.032 x 0.382
PVC
.23
.75
.020
.75
1.00
.25
.46
.125 (2)
IR23P
IR26P
BR23S*
BR26S*
Opposed
36
72
0.032 x 0.382
PVC
.23
Diffuse
36
72
0.032 x 0.382
PVC
.25
.75
.25
.46 .75
IR23S*
IR26S*
Opposed
36
72
0.032 x 0.382
PVC
.75
.382
.032
.75
1.00
.125 (2)
.154
.382
.032
.25
* Available in 600°F version by adding suffix “M600” to model number (the plastic head on the BR13S and BR23S is replaced with an aluminum housing)
** Available in 900°F version by adding suffix “M900” to model number, brass threads are replaced with stainless steel with brass insert
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
695
Glass Fiber Optics - Standard
Standard Glass Fibers
Model
BR2.53P
BR2.56P
BR2.53S*
BR2.56S*
Final
Bundle
Sensing Assembly Size or Sheath Sheath
Mode Lgth (in) Dia. (in) Material Dia. (in)
Diffuse
36
72
36
72
0.010 x 1.50
PVC
PVC
SS
SS
Sensing End Tip Dimensions (in)
.30
1.50
.37
.25
.32
1.00
1.50 2.00
.50
IR2.53P
IR2.56P
IR2.53S*
IR2.56S*
BT13P
BT.752P
BT13S*
BT.752S*
BT23S* **
BT23P
BT26S* **
IT13P
IT.752P
IT13S*
IT.752S*
IT23S* **
IT23P
IT26S* **
BT23SMSS*
BT23PMSS
Opposed
36
72
36
72
0.010 x 1.50
PVC
PVC
SS
SS
.30
Diffuse
36
24
36
24
36
36
72
0.062
0.046
0.062
0.046
0.125
0.125
0.125
PVC
PVC
SS
SS
SS
PVC
SS
.23
.23
.25
.25
.25
.25
Opposed
36
24
36
24
36
36
72
0.046
0.046
0.062
0.046
0.125
0.125
0.125
PVC
PVC
SS
SS
SS
PVC
SS
.23
.23
.25
.25
.25
.25
Diffuse
36
0.125
SS
PVC
.25
.187 dia.
thru (2)
.010
5/16 x 24 Thd Brass
2 Jam Nuts included
.31
.50
1.5
Bundle
Diameter
5/16 x 24 Thd Stainless Steel
2 Jam Nuts included
.31
IT23SMSS*
IT23PMSS
Opposed
36
0.125
SS
PVC
.50
1.5
Bundle
Diameter
.25
* Available in 600°F version by adding suffix “M600” to model number
** Available in 900°F version by adding suffix “M900” to model number
696
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
Glass Fiber Optics - Standard
Standard Glass Fibers
Model
BT23SM900
BT26SM900
BT210SM900
Final
Bundle
Sensing Assembly Size or Sheath Sheath
Mode Lgth (in) Dia. (in) Material Dia. (in)
Diffuse
36
72
120
0.125
SS
Sensing End Tip Dimensions (in)
.25
5/16 x 24 Thd Stainless Steel
2 Jam Nuts included
.29
IT23SM900
IT26SM900
IT210SM900
BT2.53S*
BT2.53P
Opposed
36
72
120
0.125
SS
.25
Diffuse
36
0.156
SS
PVC
.30
.50
Bundle
Diameter
1.5
5/16 x 24 Thd Brass
2 Jam Nuts included
.32
IT2.53S*
IT2.53P
BTA23S* **
BTA13P
BTA13S*
BTA23P
Opposed
Diffuse
36
0.156
SS
PVC
.30
36
0.125
0.062
0.062
0.125
SS
PVC
SS
PVC
.25
.31
.50
1.5
.50
1.5
Bundle
Diameter
.62 ± .050
1.1" dimension changes with M900 (see p. 708)
ITA23S* ** ††
ITA13P
ITA13S*
ITA23P
Opposed
36
0.125
0.062
0.062
0.125
SS
PVC
SS
PVC
5/16 x 24 Thd Brass
2 Jam Nuts included
.25
* Available in 600°F version by adding suffix “M600” to model number
** Available in 900°F version by adding suffix “M900” to model number
Bundle
Diameter
†
††
1.1
.38 R
.187
M600 version uses aluminum instead of plastic insert
M900 uses stainless steel threads
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
697
Glass Fiber Optics - Standard
Standard Glass Fibers
Model
BTA2.53S*
BTA2.53P
Final
Bundle
Sensing Assembly Size or Sheath Sheath
Mode Lgth (in) Dia. (in) Material Dia. (in)
Diffuse
36
0.156
SS
PVC
Sensing End Tip Dimensions (in)
.30
.32
ITA2.53S*
ITA2.53P
BTAR.753S* †
BTAR.753P
Opposed
Diffuse
36
36
0.156
0.02 x 0.10
SS
PVC
SS
PVC
.50
1.5
1.1
.5 R
5/16 x 24 Thd Brass
2 Jam Nuts included
.30
.7 ± .050
Bundle
Diameter
.218
.25
.31
.50
.62 ± .050
1.5
.38 R
ITAR.753S* †
ITAR.753P
BTAR.753SMRA* †
BTAR.753PMRA
Opposed
Diffuse
36
36
0.02 x 0.10
0.02 x 0.10
SS
PVC
SS
PVC
1.1
5/16 x 24 Thd Brass
2 Jam Nuts included
.25
Bundle
Size
.187
.25
.31
.50
.62 ± .050
1.5
.38 R
1.1
5/16 x 24 Thd Brass
2 Jam Nuts included
ITAR.753SMRA* †
ITAR.753PMRA
Opposed
36
0.02 x 0.10
SS
PVC
* Available in 600°F version by adding suffix “M600” to model number
** Available in 900°F version by adding suffix “M900” to model number
698
Bundle
Size
.25
†
.187
M600 version uses aluminum instead of plastic insert
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
Glass Fiber Optics - Standard
Standard Glass Fibers
Model
BTETA1.53S*
BTETA.753S*
BTETA13S*
Final
Bundle
Sensing Assembly Size or Sheath Sheath
Mode Lgth (in) Dia. (in) Material Dia. (in)
Diffuse
36
0.090
0.046
0.062
SS
.25
Sensing End Tip Dimensions (in)
5/16 x 24 Thd Brass
2 Jam Nuts included
.31
ITETA1.53S*
ITETA.753S*
ITETA13S*
BTHA23S*
BTHA13P
BTHA13S*
BTHA23P
Opposed
Diffuse
36
0.090
0.046
0.062
SS
.25
36
0.125
0.062
0.062
0.125
SS
PVC
SS
PVC
.25
.21
1.00
.50
.12
1.5
Bundle
Diameter
.187 dia.
.50
.31
1.5
.06 ± .030
45°
ITHA23S*
ITHA13P
ITHA13S*
ITHA23P
Opposed
36
0.125
0.062
0.062
0.125
SS
PVC
SS
PVC
Diffuse
36
0.156
SS
PVC
.38 R
5/16 x 24 Thd Brass
2 Jam Nuts included
.75
± .030
.187
.25
.32
BTHA2.53S*
BTHA2.53P
Bundle
Diameter
.50
1.5
.06 ± .030
.30
45°
5/16 x 24 Thd Brass
2 Jam Nuts included
.5 R
.75
± .030
Bundle
Diameter
ITHA2.53S*
ITHA2.53P
Opposed
36
0.156
SS
PVC
.30
.218
* Available in 600°F version by adding suffix “M600” to model number
** Available in 900°F version by adding suffix “M900” to model number
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
699
Glass Fiber Optics - Standard
Standard Glass Fibers
Final
Bundle
Sensing Assembly Size or Sheath Sheath
Mode Lgth (in) Dia. (in) Material Dia. (in)
Model
Sensing End Tip Dimensions (in)
.31
BTHAR.753S* †
BTHAR.753P
Diffuse
36
0.02 x 0.10
SS
PVC
.50
1.5
.06 ± .030
SS
PVC
45°
.38 R
5/16 x 24 Thd Brass
2 Jam Nuts included
ITHAR.753S*
ITHAR.753P
†
Opposed
36
0.02 x 0.10
SS
PVC
.75
± .030
Bundle
Size
SS
PVC
.187
.31
BTHAR.753SMRA* †
BTHAR.753PMRA
Diffuse
36
0.02 x 0.10
SS
PVC
.50
1.5
.06 ± .030
.25
45°
5/16 x 24 Thd Brass
2 Jam Nuts included
ITHAR.753SMRA*
ITHAR.753PMRA
†
Opposed
36
0.02 x 0.10
SS
PVC
.38 R
.75
± .030
Bundle
Size
.25
.187
BTR.753S* †
BTR.753P
Diffuse
36
0.02 x 0.10
SS
PVC
.25
5/16 X 24 Thd Brass
2 Jam Nuts included
.31
ITR.753S* †
ITR.753P
1
Opposed
36
0.02 x 0.10
SS
PVC
Probe-style fibers may be modified for different probe lengths and angles
700
.50
1.5
Bundle
Size
.25
†
M600 version uses aluminum instead of plastic insert
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
Glass Fiber Optics - Custom
Custom Glass Fibers
Banner would like the opportunity to solve your most challenging
sensing applications, using custom-designed glass fiber optics.
Following are just a few examples of custom glass fiber optic
assemblies which have been produced, to date. Contact your local
sales engineer or our factory applications experts to discuss the
details of your application requirements.
Model
Bundle Sheath/
Length Diameter Construc(in)
tion
(in)
Dimensions (in)
.50
.50
.29
.25 dia.
1.1
.50
.185
.182
BA23SM1.38
36
0.125
.29
SS
.5 R
1.38
1.5
7.5
.125 dia.
bundle
.187
36
This is a modified version of standard model BA23S. The length of the ferrule after the angle is extended from 0.8" to 1.38". This dimension
can be made longer or can be made as short as 0.5". The smallest bend radius for the 3/16" stainless steel tubing is 3/8". The 1.1" dimension
(before the angle) can also be modified.
.50
.50
.29
.25 dia.
.62
1.88
.185
.182
BA23SM1.9SQM900
36
0.125
.29
SS
.5 R
1.5
1.88
7.5
.125 dia.
bundle
.187
36
This modification of the BA23S is for high temperature environments, up to 900° F. The angle end does not contain epoxy, which might
break down at high temperatures. The high temperature construction of the scanning end requires 1.88" (or more) after the angle. The
length of the tubing (before the angle, 1.88") can be made longer or modified to as short as 1.1". The shrink junction is made of PVC and
should not be exposed to temperatures above 220°F.
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
701
Glass Fiber Optics - Custom
Custom Glass Fibers
Model
Bundle Sheath/
Length Diameter Construc(in)
tion
(in)
Dimensions (in)
.50
.50
.29
.25 dia.
.29
.50
.9
.185
.182
.187
.5 R
1.1
1.5
BAT23SM900
36
0.125
SS
7.5
5/16 x 24 Thd Stainless
2 Jam Nuts included
1.5
.125 dia.
bundle
36
The BAT23SM900 is the 900° F version of standard model BAT23S. The high temperature version requires a mechanical modification to
eliminate the use of epoxy on the sensing end. The shrink junction is made of PVC tubing and should not be exposed to temperatures
above 220° F. The material used for the threaded portion of the assembly is changed from brass to stainless steel, with brass insert.
.50
.50
.29
3
.24 dia.
silicone
BF13LMSRE
36
0.125
.50
.50
.187
.185
.182
Silicone
1.5
silicone sheath w/3" long
monocoil underneath, all 3 ends
.29
.06 dia.
bundle
7.5
36
Silicone rubber sheathing is used for this modification of standard model BF13S. The non-conductive rubber is very soft and flexible. A
short length (3") of interlocking stainless steel is used inside the silicone sheathing on all three ends to protect the glass bundle. Silicone
sheathing is used for its electrical insulating properties.
.50
.50
.29
.25 dia.
BF23SM1.06
36
0.125
SS
.29
.50
1.06
.187
.185
.182
1.5
.125 dia.
bundle
7.5
36
This special assembly is an example of a modification to the sensing end ferrule of standard model BF23S. Here, the ferrule length is 1.06". A
ferruled end tip can be ordered in nearly any length. The ferrule diameter can also be modified. This style of end tip is hard stainless steel, and
is not bendable.
702
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
Glass Fiber Optics - Custom
Custom Glass Fibers
Model
Bundle Sheath/
Length Diameter Construc(in)
(in)
tion
Dimensions (in)
.50
.50
.29
.29
.25 dia.
.50
.187
2.0
.185
.182
BF23SM2
36
0.125
SS
1.5
.125 dia.
bundle
7.5
36
This modification of the ferruled end tip extends for a total length of two inches. A ferrule-style fiber is typically mounted through a 3/16"
diameter hole, using a setscrew to secure it. By using a long ferruled tip, easy adjustment of sensing distance is possible by sliding the
ferrule in and out through the mounting hole.
.50
.50
.29
.25 dia.
1.4
3.0
.185
.182
BF23SM3FMB
36
0.125
SS
.187
.310 dia
1.5
.125 dia.
bundle
7.5
36
This BF23S with a three inch ferrule also has a mounting "bullet" found on probe style fibers. This allows use of the FMB-1 mounting
bracket.
.50
.50
.29
.25 dia.
BF23SM900
36
0.125
SS
.32
.62
.50
.187
.185
.182
1.5
.125 dia.
bundle
7.5
36
This modification of standard model BF23S is for high temperature environments. The maximum allowable temperature for the standard
fiber is 249° C (480° F). This modification allows the sensing end tip to survive in temperatures up to 900° F (480° C). The fiber bundle is
randomly mixed at the sensing end tip. Specify a longer cable length if necessary.
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
703
Glass Fiber Optics - Custom
Custom Glass Fibers
Model
Bundle Sheath/
Length Diameter Construc(in)
tion
(in)
Dimensions (in)
5/16 x 24 Thd Brass
2 Jam Nuts included (2)
.50
BF23SMTTULB
36
0.090
SS
.50
.29
.31 (2)
.25 dia.
.185
.182
.50
(2)
1.5 (2)
1.5
6
.09 dia.
bundle (2)
12
36
Most bifurcated fiber assemblies are used in the diffuse (proximity) sensing mode, but this one is used (in pairs) in the opposed mode. The
common end of one cable connects to an emitter, and the common end of the other cable, to a receiver. The two opposed beams created
with the branched ends must both be broken in order to obtain an output from the sensor ("dark-AND" logic). Threaded ends are used to
extend the opposed sensing range with addition of lenses L9 or L16F.
aluminum
BF2M300
2.3
0.125
1.0
.50
.185
.182
.50
.187
SS and
Aluminum
.125 dia.
bundle
.63
.300
.47
2.3
Most fiber optic assemblies use flexible sheathing to allow the sensing end to reach areas which are inaccessible to a larger self-contained
photoelectric sensor. This assembly is a block which is used with MINI-BEAM fiber optic sensors. This fiber was designed for systems which
require the sensor to be mounted on a movable arm. When a part is in place, the sensor moves to the inspection point. This type of
assembly eliminates breakage caused by flexing of the sheathing of a standard fiber.
.50
.65
.29
.09 dia. PVC
1.0
.185
.182
BM.752PMA.25
24
0.046
.25
PVC
.060
.12 R
1.5
.046 dia.
bundle
7.5
24
This Bifurcated Miniature Probe with a Modified Angle is used in applications where space is limited. It can be built either as a bifurcated
(shown) or an individual fiber (IM.752PMA.25). The PVC sheathing used on miniature probe style fibers does not have a monocoil
reinforcing wire. Care should be taken not to exceed the 12 mm (0.5") minimum bend radius of this small sheathing.
704
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
Glass Fiber Optics - Custom
Custom Glass Fibers
Model
Bundle Sheath/
Length Diameter Construc(in)
(in)
tion
Dimensions (in)
.50
.50
.29
.25 dia.
.29
.50
.50
2.0
.185
.182
BM.753SM2
36
0.046
SS
.060
.187
1.5
7.5
36
Standard model BM.752S is modified to create this special assembly. The overall length is extended to 36" and the miniature sensing end is
two inches long. Miniature ends are made of stainless steel and are not bendable. We can pre-bend the tubing before assembling the fiber
in order to create a particular design. Multiple bends in the sensing end can also be made.
1.1 (2)
.50 (2)
.8 (2)
.25 dia.
.50
.50
1.0
.185
.182 (2)
BM.754SMAMA
48
0.046
.29
1.5
SS
.5 R (2)
.18
.060
.046 dia.
bundle
.29 (2)
.50 (2)
7.5
48
Fiberoptic assemblies may be designed to exactly fit a space-restricted area. This application required the fiber to exit the photoelectric
sensor and turn a sharp right angle. The minimum bend radius of the sheathing of a standard fiber assembly would have been exceeded in
this application. This modification can be made to virtually any standard fiberoptic assembly.
.50
.50
.29
.25 dia.
BP12SMA1X.25
24
0.060
SS
1.4
1.0
.185
.182
.25
.310
1.5
.093 .12 R
.06 dia.
bundle
7.5
24
This modification of standard model BP12S shows the minimum bend radius of the 0.09" diameter tubing used on standard probe fibers.
The 1/4" distance after the angle is the minimum allowable for a true 90° angle. Standard probe length is three inches, with the middle two
inches bendable. One half inch on each end of the probe is not bendable due to the optical epoxy used. The one inch probe on model
BP12SMA1X.25 is not bendable.
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
705
Glass Fiber Optics - Custom
Custom Glass Fibers
Model
Bundle Sheath/
Length Diameter Construc(in)
(in)
tion
Dimensions (in)
.50
.50
.29
.125 dia.
.25 dia.
.14
.185
.182
BR23SMRA
36
0.125
.75
SS
1.00
1.5
.032
.25
.382
7.5
.75
36
Model BR23SMRA is a cable exit modification of standard model BR23S. This assembly was designed for a register mark sensing
application where there was very limited space for the sensor. The fiber optic sensing end could not be close to the surface of the web.
Therefore, a large rectangular fiber bundle was required. The fiber optic cable exits from the side of the plastic housing. Note that one of the
two mounting holes is lost due to this modification.
.50
.50
.29
.25
BR23SMCCE
36
0.125
1.00
plastic housing
.25
.185
.182
SS
.19
.382 .75
1.5 ± .25
.125
.75
.032
.14
7.5 ± .5
36
Model BR23SMCCE is a cable exit modification to BR23S and has a Corner Cable Exit. This modification is also available on individual fiber
optic assemblies, and fibers with a smaller rectangular bundle size. This model loses one of the two available mounting holes due to its
modification.
.50
.50
.29
.032
.25
1.00
plastic housing
.25
.185
.182
BR23SMCSE
36
0.125
SS
.382 .75
.25
.06
1.5 ± .25
.125
.75
.12
7.5 ± .25
36
Model BR23SMCSE is a cable exit modification to BR23S and has a Cable Side Exit. This modification is also available on individual fiber
optic assemblies, and fibers with a smaller rectangular bundle size. This model loses one of the two available mounting holes due to its
modification.
706
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
Glass Fiber Optics - Custom
Custom Glass Fibers
Model
Bundle Sheath/
Length Diameter Construc(in)
(in)
tion
Dimensions (in)
.50
.50
.29
.032
plastic housing
1.00
.25
.25
BR23SMCSC
36
0.125
SS
C
L
.185
.182
.46
.382 .75
.29
.125 (2)
.75
.50
1.5 ± .25
7.5 ± .5
36
Model BR23SMCSC is a cable exit modification to BR23S and has a Cable Side Center. This modification is also available on individual fiber
optic assemblies, and fibers with a smaller rectangular bundle size.
sensing window randomized
from (2) .156 dia. bundles
36
.008
.75
5.00
45º
.125
aluminum
BR53PM5X.008
36
0.156 (2)
.50
PVC
.62
.32
.50
2.75
.5
.5
.185
.182
.30 PVC
w/ monocoil
.25
3.00
3.00
.50
CL
.32
M4 x 0.7
.25 deep (3)
6.5
This special rectangular fiber assembly uses the maximum bundle size (0.156" diameter) in each ferrule to obtain this large sensing area.
The assembly requires the use of one photoelectric sensor to cover the five inch wide window. The fiber optic block is beveled on the end
where the fiber slot is located. The object being detected in this application is folded paper which is placed on top of this fiber assembly. This
configuration is used to allow the fibers to "look" at the object being sensed at a perpendicular angle.
.50
.50
.29
2.85
.30 dia.
stainless steel
.32
.50
.50
2.25
2.00
.185
.182
BRSE2.53S
36
0.156
CL
SS
.010
.12
.12
stainless steel
1.5 ± .25
.28 dia.
7.5 ± .5
.38
36
aluminum
The model BRSE2.53S Bifurcated Rectangular Side Exit assembly is used in applications where space is limited. This assembly can be built
as a bifurcated fiber assembly (shown above) or as an individual fiber assembly (model IRSE2.53S).
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
707
Glass Fiber Optics - Custom
Custom Glass Fibers
Model
Bundle Sheath/
Length Diameter Construc(in)
(in)
tion
Dimensions (in)
.50
.50
.29
2.85
.30 dia.
stainless steel
.32
.50
1.0
.50
2.25
2.00
.185
.182
BTRSE2.53S
36
0.156
CL
.010
SS
.12
.12
1.5 ± .25
3/8-24 thrd brass
jam nuts included
stainless steel
.28 dia.
7.5 ± .5
.38
aluminum
36
The model BTRSE2.53S is a threaded version of the the model BRSE2.53S (previous page).
.50
.50
.29
.24 dia silicone rubber
.38
.62
1.5
.185
.182
BT23LMNC
36
0.125
Silicone
1.5
.125 dia.
bundle
5/16 - 24 Thd Nylon
2 Nylon Jam Nuts included
7.5
36
The BT23LMNC has basically the same configuration as a standard BT23P, with a few exceptions to conform to a particular application need.
The BT23P has a steel reinforcing coil, which has been eliminated in the BT23LMNC, and the PVC sheath has been replaced with a sheath of
silicone rubber. The threaded brass end tip has been replaced with a nylon tip. It is for use in a high-voltage area, where the fiber must be of
a non-conductive construction. This option can be applied to most standard fiber bundles, for similar environments.
.50
.50
.29
.25 dia.
.29
.50
1.5
.62 ± .050
.185
.182
BTA26SM900
72
0.125
SS
1.5
5/16 x 24 Thd Brass
.38 R
1.5
2 Jam Nuts included
7.5
.125 dia.
bundle
.187
72
This modification of standard model BTA23S is used for high temperature applications. The maximum temperature limit of this special fiber
assembly is 900° F (+480° C). The threaded portion of the fiber is changed from brass (on the standard model) to stainless steel (on this
special). Stainless steel tubing has brass insert. The overall length has also been changed from 36 to 72".
708
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
Glass Fiber Optics - Custom
Custom Glass Fibers
Model
Bundle Sheath/
Length Diameter Construc(in)
(in)
tion
Dimensions (in)
.50
.50
.29
1.5
.185
.182
.29 (2)
DBA23S
36
0.125
.50 (2)
1.1 (2)
SS
.8 (2)
10
.5 R (2)
.187 (2)
.125 dia. bundle (2)
half from each sensor end
36
This Double Bifurcated Angle fiber assembly is used for sensing at two locations with one photoelectric sensor. Since the fiber is used in the
diffuse mode of sensing, an object is detected if light is returned to either end of the fiber. When the photoelectric sensor is programmed for
light operate, a "light-OR" logic function is established. In dark operate, a "dark-AND" logic function results.
0.078 dia.
Bundle (4)
Aluminum Housing
1.0
3
0.156
B
C
D
.50 (4)
CL
1. 25
Aluminum
CL
.015 fiber
.400
DBRC2.5M300
A
.185
.182 (4)
.56
0.300
.06
.25 (4)
1.0
3.0
This Double Bifurcated Radial Circle fiber assembly is used to inspect the inside of a cylinder wall to detect the absence of a black coating.
The M300 suffix indicates that the assembly is designed for use with SM312 Series sensors. The circular bundle is split between two model
SM312FV sensors, which (in this instance) provide a visible light source that yields a higher contrast ratio than would an infrared source in
color sensing applications.
.50
.50
.29
.185
.182
DBT23S
36
0.125
SS
.25 dia.
stainless steel
1.5
5/16 x 24 Thd Brass
2 Jam Nuts included
10
.31
.50
1.5
.125 dia.
bundle (2)
half from each
sensor end
36
This Double Bifurcated Threaded fiber optic cable is a popular special assembly. Mounting the sensing ends is easy using the jam nuts.
Each sensing end has a 1/8" diameter fiber bundle and performance equal to a single bifurcated assembly, like model BT23S. If the
photoelectric sensor is programmed for light operate, a "light-OR" logic function results.
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
709
Glass Fiber Optics - Custom
Custom Glass Fibers
Model
Bundle Sheath/
Length Diameter Construc(in)
(in)
tion
Dimensions (in)
reflective
surface
FARA
0.75
N/A
.15 dia.
SS
.187 slip fit
to ferrule
.218
.58
.75
This special fiber attachment is typically used with model IF23S fibers to "bend" the light at a right angle to the length of the fiber ferrule. It is
also used with model BF23SM2 when model BA1.53SMTA is too large in diameter to fit in the allocated space. The FARA slips over the
ferrule and is held in place with an adhesive, (not supplied). The highly-polished reflective surface of the FARA is recessed in the stainless
tube. Therefore, this assembly should not be used in a dirty environment. Excess gain is reduced 50% when using the model FARA.
5/16 x 24 Thd Brass
2 Jam Nuts included
aluminum block,
1.75 square X .38 wide
.50
.62
.32
1.00
HF2.53SMTT
36
0.062 (6)
SS
.185
.182
.30 dia.
stainless steel
.32
.50
.25 dia.
stainless steel
1.25
.14 dia.
thru (2)
.31
.50
1.5
.06 dia.
bundle (6)
12
36
The HF2.53SMTT is used in pairs (in the opposed mode) as a six-input “AND” gate, where all six beams must be broken before the sensor
responds. The fiber bundle diameter at the photoelectric sensor end is the largest (0.156" diameter) available. At each of the sensing ends,
the bundle diameter is 0.06". When determining the maximum sensing distance, use the excess gain curve for model IT13S. The number of
legs on the fiber is not limited to six, and can be of different lengths. The end tip design may also be modified.
.50
.30
.185
.182
IA2.15MSS
1.66
0.125
.8
SS
.125 dia.
bundle
.5 R
.187
1.66
sensing end
This special fiber assembly is the shortest possible modification to model IA23S. The entire ferrule is stainless steel and is not bendable. It is
used in pairs with FOF-400 fiber optic fittings and LR400/PT400 sensors where space limitations prevent the use of right angle sensors.
They may also be used with other sensors to provide various degrees of convergent-proximity mode sensing. The bundle diameter and
overall length can be modified for your application.
710
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
Glass Fiber Optics - Custom
Custom Glass Fibers
Model
Bundle Sheath/
Length Diameter Construc(in)
tion
(in)
Dimensions (in)
.50
IA23SM1.9SQM900
36
0.125
SS
.50
.50
.25 dia.
.29
.185
.182
1.88
.29
1.88
.5R
.125 dia.
bundle
1.87
36
This fiberoptic assembly is an individual fiber version of model BA23SM1.9SQM900. This assembly is modified for high temperature applications,
up to 900° F (480°C). They are used in pairs in the opposed mode, and usually with high powered infrared sensors. A typical application is part
presence detection in small kilns and ovens. One IA23SM1.9SQM900 may also be used with model SBAR1GHF to sense hot metal or hot glass.
36
.50
IAC23SM.500
36
0.125
SS
.50
.29
.25 dia.
.29
.50
1.1
.8
.187
.185
.182
R .38
1.25
aluminum
fiber ring
.500 O.D.
.484 I.D.
1.000
This Individual Axial Circle fiber was designed for a special application to inspect the entire circumference of small opaque discs for chips and
cracks. The disc is stopped momentarily between an opposed pair of fibers at the inspection station. The size of the fiber circle is slightly less
than that of the disc. If no light passes to the receiver, the disc is accepted and advanced to the assembly area. This circular style of fiber can be
made in a wide variety of diameters and line widths. The only restriction is the maximum bundle size per sensor ferrule (0.156" diameter).
36
1.1
.50
.29
.25 dia.
.29
.50
.8
.187
R .5
1.6
IAR23SMA
36
0.125
plastic
R .5
.125 dia. (2)
SS
.50
.185
.182
1.50
1.00
.75
.46
.382
.032
.25
.75
This modification of standard model IR23S has an angle at both ends. Both modifications were due to space limitations. The angle of the
stainless steel tubing can be modified to suit a particular application. This type of modification can also be made to larger rectangular fibers
like models IR2.53S and BR2.53S.
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
711
Glass Fiber Optics - Custom
Custom Glass Fibers
Model
Bundle Sheath/
Length Diameter Construc(in)
tion
(in)
Dimensions (in)
Carpenter 20 Stainless
.50
.50
.50
.29
.75
.75
.29
.23 dia. PVC
w/ monocoil
.75
.185
.182
IAT23PMC20
36
0.125
Nylon Jam Nuts (2)
PVC
1.5
5/16 x 24 Thd
Carpenter 20
Stainless
.125 dia.
bundle
36
This special purpose fiber optic assembly is used in the manufacture of automobile batteries. It is subjected to continuous splash of
electrolyte (acid). Carpenter 20 grade stainless steel is used for the threaded portion and for the right-angle block to withstand the acid
environment. Modifications of the length, sheathing, and sensing end tip material are possible on this model.
.50
.50
.29
.25 dia.
.29
36
0.125
.9
.187
.185
.182
IAT23SM900
.50
1.1
R .5
SS
5/16 x 24 Thd Stainless
2 Jam Nuts included
1.5
.125 dia.
bundle
36
Model IAT23S is modified for high temperature operation to make this special fiber. Optical grade epoxy is eliminated at the sensing end of
the fiber so that it can operate at up to 900° F (480° C). This change in manufacturing requires a slight dimensional change in the length of
the angled portion of the sensing end. The material for the threaded portion is changed from brass to stainless steel, with brass insert.
.50
.50
.29
.32
.185
.182
IF23SM900
36
0.125
.60
1.25
.187
.125 dia.
bundle
SS
36
This fiber optic assembly is a high temperature modification of standard model IF23S. Suffix "M900" stands for modified for 900° F (480° C).
Dimensional differences include crimp collar diameter and ferrule length. These changes are necessary for manufacturing of the end tip
without epoxy. Ferrule length can be extended like model BF23SM2.
712
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
Glass Fiber Optics - Custom
Custom Glass Fibers
Model
Bundle Sheath/
Length Diameter Construc(in)
(in)
tion
Dimensions (in)
aluminum
.25
.50
.50
.29
.25 dia.
.29
.50
.25
.87
.37
.185
.140 dia. (2)
IR1.73SMSE.006
36
0.106
SS
.25
36
1.50
.006
.37
2.00
Model IR2.53S was too large to for an application requiring a long, thin rectangular fiber window. A machined housing was needed to fit the
space allocated for the sensing end. The rectangular window is modified to only 0.006" wide, the smallest available. The mounting holes also
had to be moved to allow the cable to exit from the side of the housing. The 1.5" length of the fiber window cannot be made longer in this
housing style, but the window width can increase up to 0.013".
2.50
.375
.008
3.50
.25
.125 dia.
thru (2)
.50
aluminum housing
IR2.53SM2.5
36
0.156
SS
2.50
.50
.62
.32
.32
.30 dia.
stainless steel
.50
.185
.182
4.00
36
Model IR2.53SM2.5 is used in applications where the required beam size is greater than 1.5" long. This model incorporates a different
housing and cable exit than the standard IR2.53S. The 0.156" diameter fiber bundle on the photoelectric sensor end is the largest possible
for efficient coupling of the light from the LED source into the fiber optic bundle. A typical application is counting small parts falling through
the fiber window using sensor model OSBFAC. Also available is model IR2.53SM3. It has a fiber window 3.00 x .006".
.50
.185
.182
IR2.53SMRAMP
36
0.156
.62
.32
.32
.30 dia.
stainless steel
.50 .25
2.00
.87
aluminum housing
1.75
.187 dia.
thru (2)
SS
2.50
36
.375
.010
1.50
This customer-designed fiber is a modification of standard model IR2.53S. The cable exit and the mounting hole location are changed. This
is one of many modifications possible to the large rectangular fiber optic assemblies.
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
713
Glass Fiber Optics - Custom
Custom Glass Fibers
Model
Bundle Sheath/
Length Diameter Construc(in)
(in)
tion
Dimensions (in)
.50
.50
.29
.25 dia.
.29
.50
1.5
.185
.182
ITA26SM900
72
0.125
.62 ± .050
1.5
R .38
5/16 x 24 Thd Stainless
2 Jam Nuts included
SS
.125 dia.
bundle
.187
72
This assembly is a high temperature modification of standard fiber ITA23S. The length of the fiber is increased to 6' to allow the photoelectric
control to reside outside of the high temperature environment. The end tip is constructed without the use of epoxy, allowing the fiber to operate
in 900°F (+480°C) heat. Stainless steel is substituted for brass on the threaded end tip. This cable can be built in any length up to 60'.
.055 dia.
bundle (8)
Aluminum block
1.75 x 2.31 x .38 wide
.185
.50
.62
.30 stainless
.32
.25 dia. stainless
.29
.50
.50
1.5
5/16 x 24 Thd Brass
2 Jam Nuts included
.182
1.00
OF2.53SMTT
36
0.055 (8)
.32
SS
.14 dia. (2)
.50
1.38
12
36
This Octa-Ferruled fiber Modified with Threaded Tips is used in pairs to set up an eight input “AND” gate, where all eight fiber beams must
be broken to obtain an output (when the photoelectric sensor is used in the "dark operate" mode). This fiber is similar to model HF2.53SMTT,
except it has eight ends instead of six. The maximum fiber bundle diameter (0.156") is used on the photoelectric sensor end, which creates
0.055" diameter bundles at all eight scanning ends.
.098 dia.
bundle (5)
Aluminum block
1.75 x 1.75 x .38 wide
.185
.50
.62
.30 stainless
.32 (2)
.25 dia. stainless
.29
.50
1.5
.50
.182
5/16 x 24 Thd Brass
2 Jam Nuts included
1.25
PBF2.52SMTT
24
0.098 (5)
SS
.14 dia. (2)
.50
1.50
10
24
This model is a Penta-Bifurcated Ferruled assembly that is Modified with Threaded Tip. It is used to set up a five input “OR” gate where if any one of
the five sensing ends has light returned to it, an output occurs (when the photoelectric sensor is used in the "light operate" mode). The overall length
of this assembly can be modified to suit your application. The ferruled ends which are used at the photoelectric sensor have the maximum allowable
bundle size: 0.156" diameter. If more than five sensing ends are desired, the 0.098" diameter fiber bundles will be reduced in diameter.
714
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
Glass Fiber Optics - Custom
Custom Glass Fibers
Model
Bundle Sheath/
Length Diameter Construc(in)
(in)
tion
Dimensions (in)
1.25
Aluminum block, epoxy filled
1.75 square x .38 wide
.50
.62
.32
.32
.29
.50
.50
.50
.187
1.00
PF2.53S
36
0.070 (5)
.185
.182
SS
.30 dia.
stainless
.07 dia.
bundle (5)
.25 dia.
stainless steel
.14 dia.
thru (2)
.187 dia. (4)
12
36
This five-ferruled fiber is used in pairs to create 5 opposed beams using one photoelectric sensor. If the sensor is used in the light operate
mode, a “light-or” logic function results. If “A” or “B” or “C”, etc. senses light, the output is energized. To determine the sensing range of the
fiber, use the excess gain curve for model IT13S, located with the photoelectric sensor used for the application. The fiber optic cable uses
the largest possible fiber optic bundle at the sensor end: 0.156" diameter.
.50
.50
.29
.185
.182
QBM.53P
36
0.032 (4)
SS/PVC
.060
1.5
7.5
.09
.12
.50
1.00
.032 dia.
bundle (4)
36
This Quad-Bifurcated Miniature fiberoptic assembly with PVC sheathing allows a sensor to inspect four positions at one time. It was designed to
detect when a hole is not centered in a metal washer. The four sensing ends are positioned 90° apart around the inside diameter of the washer.
As the washer falls, guided through the inspection area, an interrogate (“gate”) signal tells the photoelectric sensor when to “look”. If the hole is
off-center, one or more of the sensing ends will sense light reflected from the washer. The PVC sheathing on the sensing end legs of this
assembly does not have a monocoil reinforcing wire.
5/16 x 24 Thd Brass
2 Jam Nuts included
.50
.62
.32
1.5
.185
.182
QBT23S
36
0.110 (4)
SS
.30 dia.
stainless steel
.25 dia.
stainless steel
7.5
.63 dia.
aluminum junction
.31
.50
1.5
.110 dia.
bundle (4)
1/4 from both
sensor ends
36
This fiber is similar to model DBT23S except it has four sensing ends. It is used in the diffuse sensing mode to set up a “light-OR” logic
scheme. Both of the ferruled sensor ends contain the maximum bundle (0.156" diameter), and each sensing end has a fiber bundle diameter
of 0.110". The fiber strands are fully randomized from each ferrule, so that each sensing end contains 1/4 of the bundle from each ferrule. An
aluminum tube is used instead of a flat block at the bifurcation junction.
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
715
Glass Fiber Optics - Custom
Custom Glass Fibers
Model
Bundle Sheath/
Length Diameter Construc(in)
(in)
tion
Dimensions (in)
1.4
aluminum block,
1.75 square X .38 wide
.50
.50
.29
1.0
.25 dia.
stainless steel
1.00
QF1.53SMAM
36
0.046
SS
.185
.182
.19
.25 dia.
stainless steel
1.25
.14 dia.
thru (2)
.060
.310
.12 R
.046 dia.
bundle (4)
7.5
36
This fiber is an example of using multiple opposed miniature beams with one photoelectric sensor. Each sensing end has the same end tip as model
IAM.752S for easy mounting via the “bullet” and the FMB-1 mounting bracket. This model is used in pairs, typically with a high powered infrared
sensor. A pair of opposed 0.046" diameter fibers have 1/4 of the excess gain of a pair of 0.06" diameter fibers (e.g. IT13S); this corresponds to a range
reduction of 50%.
aluminum block,
1.25 square X .38 wide
.19
.50
.50
.29
.50
.50 1.00 ± .030
.19
.25 dia.
stainless steel
.88
QF1.53SMM
36
0.046 (4)
SS
.185
.182
.25 dia.
stainless steel
.14 dia.
thru (2)
.29
.18
.060
.046 dia.
bundle (4)
12
36
This assembly is similar to model QF1.53SMAM, shown on the previous page. The sensing end tips on this model have a one" long straight
probe, without a right angle. The miniature end tips are not bendable. A typical application for this style of fiber is to determine if all parts are in
place. When using a sensor in the dark-operate mode, an output will occur only when all four beams are blocked (“dark-AND” logic).
5/16 x 24 Thd Brass
2 Jam Nuts included
aluminum block,
1.75 square X .38 wide
.50
.62
.32
1.25
QF2.53SMTT
36
0.078 (4)
SS
.185
.182
.30 dia.
stainless steel
.32
.50
.25 dia.
stainless steel
1.50
.14 dia.
thru (2)
.31
.50
1.5
.078 dia.
bundle (4)
12
36
The QF2.53SMTT is a four-channel version of model HF2.53SMTT. It has slightly larger fiber bundles on the sensing ends, allowing more
excess gain. It was designed for use on a rotary index table to insure that all four parts were in place before the table could advance. Using
two fibers and one sensor set for dark operate, a programmable controller “looks” for a signal from the sensor when the parts should be in
place. If the controller does not receive a signal, the controller stops the machine and sounds an alarm.
716
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
Glass Fiber Optics - Custom
Custom Glass Fibers
Model
Bundle Sheath/
Length Diameter Construc(in)
(in)
tion
Dimensions (in)
.50
.50
.23 dia. PVC
w/ monocoil
.29
.185
.182
1.1
.50
.29
1.5
TBAT13PMSS
36
0.060 (3)
.8
SS
7.5
.187
.5 R
5/16 x 24 Thd Stainless
2 Jam Nuts included
1.5
.06 dia.
bundle (3)
36
This fiber is a Triple-Bifurcated Angle Threaded assembly with PVC sheathing and Modified Stainless Steel threads. It is designed for a machine
requiring a three input “dark-AND” sensor. The machine punches out parts from a large sheet of plastic. The sensing ends are located just below
the parts, in the die. At the end of a punch stroke, an interrogate (“gate”) signal occurs to check the output from the photoelectric sensor. If any
one of the three sensing ends sense a part (light operate) during the gate signal, the machine is shut down to avoid damage to the die.
5/16 x 24 Thd Brass
2 Jam Nuts included
.50
.62
.32
.185
.182
TBT23S
36
0.125 (3)
SS
.30 dia.
stainless steel
1.5
.25 dia.
stainless steel
7.5
.31
.50
.125 dia.
bundle (3)
1/3 from both
sensor ends
1.5
36
This Trifurcated-Bifurcated Threaded assembly is a three-legged version of the popular standard model BT23S. When determining the range
of this fiber, use the excess gain curve for fiber model BT23S across from the photoelectric sensor you have chosen.
.29
.50
1.1
.187
.185
.50
.62
.5 R
.30 stainless
.182
.32
1.5
.25 dia.
stainless steel
12
TF2.53SMAT
36
0.090 (3)
.8
SS
5/16 x 24 Thd Brass
2 Jam Nuts included
1.5
.09 dia.
bundle
36
This assembly was designed as a Trifurcated-Ferruled version of model IAT23S. However, the bundle size on the sensing end tips is 0.09" in
diameter. Opposed sensing range can be increased with the use of L9 or L16F lenses. The lenses should be used on all three ends of the two
opposed fibers to achieve the maximum sensing range.
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
717
Glass Fiber Optics - Custom
Custom Glass Fibers
Model
Bundle Sheath/
Length Diameter Construc(in)
(in)
tion
Dimensions (in)
10.00
3.00
2.28
3.00
.185
.50 (3)
.182 (3)
.50
.33 dia. (4)
TIR2.5M9X.006
10
(3) 0.006 x SS and
3.00
Aluminum
3.25
.50
3.00
3.00
3.00
aluminum
.50
.006
This Triple-Individual Rectangular assembly is used in the opposed mode (2 required) to cover an area nine inches wide. It may be used with
high- powered sensor pair SM51EB6 and SM51RB6 equipped with FOF-500 fittings, for detecting small holes in opaque webs.
718
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
Glass Fiber Optic Accessories
Glass Fiber Optic Accessories
Model
L10
Description
• Glass lens with anodized red
aluminum housing
• Used with bifurcated threaded fibers
primarily for register mark sensing
• The L10 lens focuses the light to a
point as small as 1/32" when used with
a 0.06 in diameter fiber bundle
• Should not be used with high-powered
infrared sensors
• Maximum temperature: 600°F (315°C)
• Focal distance is 5 mm (±1 mm)
(0.20" ±0.04")
ø 14.3 mm (0.56")
7.9 mm
5/16" - 24 Thread
45.7 mm
(1.8")
ø 28.6 mm (1.12")
L16F
Delrin® housing; 220°F (105°C) max temp
L16FAL
Anodized aluminum housing; 600°F
(315°C) max temp
Stainless steel housing; 900°F (480°C)
max temp
L16FSS
7.9 mm
5/16" - 24 Thread
58.4 mm
(2.3")
Used for long range opposed or
retroreflective sensing
• Tubular glass rod
• Used for liquid level sensing
brass
brass
.130
ø .128
5/16 - 24 Thrd
.25
TGR
• When used with bifurcated threaded
fiber, the light is reflected back to the
sensor when the probe is not in the
liquid
90º
ø .38
.06
• Used where chemical and acid
resistance is required
.09
.50
4.00 ± .06
brass
TLR
• Tubular lucite rod
• Used for liquid level sensing
• It is less fragile than glass version
(TGR) and is used in general purpose
applications
• Probe length modifications of both
models are available by special order
brass
.130
ø .128
5/16 - 24 Thrd
.25
TGRMSSMCG-4
ø .125 lucite rod
90°
ø .38
.09
.06
.50
4.00 ± .06
stainless steel
• Tubular glass rod, modified stainless
steel, covered glass
• Liquid level probe same as TGR,
except inside stainless steel tubing
and more durable than TGR
• Epoxy used to bond the tubing to the
rod is not acid or solvent resistant
ø .125 clad glass rod
stainless steel
ø .160
.158
5/16 - 24 Thrd
.25
ø .156 stainless steel
tubing over
ø .125 clad glass rod
.12
90º
ø .38
.06
.50
.09
4.00 ± .06
Delrin® is a registered trademark of Dupont
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
719
Glass Fiber Optic Accessories
Glass Fiber Optics Accessories
Model
Description
6.4 mm
(0.25")
19.1 mm (0.75")
• Fiber mounting bracket
• Can be used with many probe style fibers
• The bracket eliminates the need to mount the fiber
using its smaller and more fragile bendable probe
• The fiber is held in place by two setscrews
(wrench included)
FMB-1
19.1 mm
(0.75")
4.8 mm
(0.19")
#6-32
Thread (2)
6.4 mm (0.25")
ø 7.9 mm (0.31")
9.6 mm (0.38")
ø 3.2 mm
(0.125") (2)
9.6 mm (0.38")
6.4 mm (0.25")
35.1 (1.38")
ø 14.3 mm (0.56")
• Glass lens with anodized blue aluminum housing
• Used to extend the range of opposed mode fiber
optics systems
• Used also with a bifurcated fiber (BT13S) for
short-range retroreflective sensing
• The smaller fiber bundle (0.06" diameter) is
desirable for retroreflective use
• Maximum temperature: 600°F (315°C)
L9
7.9 mm
5/16" - 24 Thread
45.7 mm
(1.8")
Mounting Brackets
Model
Description
Dimensions
2 x ø4.6 mm (0.18")
SMBF
2 x R5 mm
(0.2")
28.6 mm
(1.13")
• Right angle bracket for glass
fiber optics with
5
/16" - 24 threaded tip
• 18-gauge stainless steel
19.1 mm
(0.75")
14.2 mm
(0.56")
3.3 mm
(0.13")
4.8 mm
(0.19")
6.4 mm
(0.25")
8.3 mm
(0.33")
1.2mm
(0.05")
21.6 mm
(0.85")
15.2 mm
(0.60")
720
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
Accessories
Accessories
Retroreflective Targets . . . . . . . . . . . . . . . . . . . . 722
Retroreflective Tape . . . . . . . . . . . . . . . . . . . . . . 731
Cables . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 732
Brackets. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 740
BEAM TRACKER™ . . . . . . . . . . . . . . . . . . . . . . . . 755
LAT-1 Laser Alignment Tool . . . . . . . . . . . . . . . . . 756
DBQ5 Demo Box . . . . . . . . . . . . . . . . . . . . . . . . 757
SPS100 Sensor Power Supply . . . . . . . . . . . . . . . 758
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
721
Accessories – Retroreflectors
Retroreflectors
•
High-quality acrylic targets, high-temperature targets, and
adhesive-backed retro tapes
•
Comprehensive selection of sizes, shapes and mounting options
•
Banner also offers several "micro-prism" reflectors, for use with
laser retroreflective sensors and Banner VS3 models.
NOTE: Sensing range and signal strength at any given sensor-to-target
distance will vary due to target reflectivity and target area. A
"Reflectivity Factor" is included for each target model to help
predict sensor performance, relative to the excess gain curve
plotted for target model BRT-3. Consider, also, target area when
predicting performance. Changing to a high reflectivity reflector
(like BRT-92x92C) may also extend sensor range and/or reduce
the need for frequent reflector maintenance.
Retroreflective Targets
Model
Reflectivity
Factor
Maximum
Temperature
Dimensions
9 mm
(0.35")
BRT-3*
1.0
65°C (150°F)
Clear
Acrylic
Lens
84 mm
(3.30")
ø 4.8 mm
(0.19")
Mounting Hole
7.4 mm
(0.29")
BRT-84*
1.4
65°C (150°F)
Clear
Acrylic
Lens
84 mm
(3.30")
ø 4.5 mm
(0.18")
Mounting Hole
7.6 mm
(0.30")
BRT-2A
1.0
65°C (150°F)
Clear
Acrylic
Lens
56 mm
(2.20")
ø 5.8 mm
(0.23")
Mounting Hole
* Optional brackets are available. See Brackets on pages 740 and 741.
722
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
Accessories – Retroreflectors
Retroreflective Targets
Model
Reflectivity
Factor
Maximum
Temperature
Dimensions
7.2 mm
(.28")
2.8 mm
(.11")
BRT-50
1.0
65°C (150°F)
Clear
Acrylic
Lens
50.8 mm
(2.00")
2.5 mm
(0.10")
BRT-1.5
1.0
65°C (150°F)
Clear
Acrylic
Lens
40 mm
(1.60")
46 mm
(1.80")
7.6 mm
(0.30")
2.5 mm
(0.10")
BRT-1
1.0
65°C (150°F)
Clear
Acrylic
Lens
23 mm
(0.90")
25 mm
(1.00")
5.1 mm
(0.20")
2.5 mm
(0.10")
BRT-.6
1.0
Clear
Acrylic
Lens
65°C (150°F)
18 mm
(0.70")
5.1 mm
(0.20")
10.2 mm
(.40")
50.8 mm
(2.00")
BRT-50D*
1.0
20 mm
(0.80")
2.8 mm
(.11")
65°C (150°F)
Clear
Acrylic
Lens
10 mm
(.4")
M5 X 0.8
* Optional brackets are available. See Brackets on pages 740 and 741.
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
723
Accessories – Retroreflectors
Retroreflective Targets
Model
Reflectivity
Factor
Maximum
Temperature
Dimensions
9.0 mm
(0.35")
M5 x 0.8
BRT-42D
1.0
Clear
Acrylic
Lens
50°C (120°F)
42 mm
(1.7")
10.0 mm
(0.39")
9.2 mm
(.36")
34.5 mm
(1.36")
BRT-35DM
1.2
50°C (120°F)
Clear
Acrylic
Lens
NOTE: This target has micro-prism geometry
M5 X 0.8
8.4 mm
(.33")
5.5 mm
(0.21")
50.8 mm
(2.00")
BRT-50R*
1.0
2.8 mm
(.11")
13 mm
(.5")
50°C (120°F)
Clear
Acrylic
Lens
2 mm
(.08")
5.5 mm
(.21")
2.8 mm
(.11")
25.2 mm
(.99")
BRT-25R
1.0
6.5 mm
(.26")
13 mm
(.5")
50°C (120°F)
Clear
Acrylic
Lens
2 mm
(.08")
6.5 mm
(.26")
6.8 mm
(0.27")
BRT-42A
1.0
50°C (120°F)
42 mm
(1.7")
ø 3.5 mm (2)
(0.14")
724
50.0 mm
(1.97") 60 mm
(2.4")
Clear
Acrylic
Lens
3.5 mm
(0.14")
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
Accessories – Retroreflectors
Retroreflective Targets
Model
Reflectivity
Factor
Maximum
Temperature
Dimensions
ø 5.0 mm (2)
(0.20")
116 mm
(4.57")
BRT-100X55A
1.5
50°C (120°F)
132 mm
(5.2")
55.5 mm
(2.20")
Clear
Acrylic
Lens
9.0 mm
(0.35")
100 mm
(3.9")
92 mm
(3.6")
BRT-92X92C*
3.0
9 mm
(0.4")
100 mm
(3.9")
50°C (120°F)
92 mm
(3.6")
Clear
Acrylic
Lens
3.5 mm
(0.13")
84.5 mm
(3.3")
77 mm
(3.0")
BRT-77X77C*
2.0
9 mm
(0.4")
84.5 mm
(3.3")
50°C (120°F)
77 mm
(3.0")
Clear
Acrylic
Lens
3.5 mm
(0.13")
BRT-100X50
1.5
101 mm
(4.0")
50°C (120°F)
50.6 mm
(2.00")
Clear
Acrylic
Lens
8.0 mm
(0.32")
* Optional brackets are available. See Brackets on pages 740 and 741.
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
725
Accessories – Retroreflectors
Retroreflective Targets
Model
Reflectivity
Factor
Maximum
Temperature
Dimensions
50 mm
(1.97")
42 mm
(1.65")
BRT-80X50C
1.4
65°C (150°F)
7.2 mm
(0.28")
72.0 mm
(2.83")
Clear
Acrylic
Lens
ø 3.5 mm (2)
(0.14")
51 mm
(2.0")
BRT-2X2*
1.0
50°C (120°F)
10 mm
(0.4")
30 mm
(1.2")
3.5 mm
(0.14")
8.9 mm
(0.40")
51 mm
(2.0")
56 mm
(2.2")
80 mm
(3.15")
Clear
Acrylic
Lens
4.2 mm x 14.2 mm Slot (2)
(0.16" x 0.56")
61 mm
(2.4")
3.5 mm
(0.14")
51 mm
(2.0")
38 mm
(1.5")
BRT-36X40BM
1.2
NOTE: This target has micro-prism geometry
51 mm
(2.0")
40 mm
(1.6")
50°C (120°F)
4.3 mm
(0.16")
10 mm
(0.4")
7 mm
(0.3")
Clear
Acrylic
Lens
20 mm
(0.8")
61 mm
(2.4")
3.5 mm
(0.14")
10 mm
(0.4")
40.5 mm
(1.60")
7.2 mm
(0.28")
34 mm
(1.34")
BRT-60X40C*
1.4
50°C (120°F)
52.0 mm
(2.05")
60 mm
(2.40")
Clear
Acrylic
Lens
ø 3.5 mm (2)
(0.14")
BRT-48X32
1.0
50°C (120°F)
3.5 mm
(0.14")
Clear
Acrylic
Lens
32.5 mm
(1.28")
48.0 mm
(1.90")
8.0 mm
(0.32")
* Optional brackets are available. See Brackets on pages 740 and 741.
726
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
Accessories – Retroreflectors
Retroreflective Targets
Model
Reflectivity
Factor
Maximum
Temperature
Dimensions
32.5 mm
(1.28")
BRT-48X32A
1.0
8.0 mm
(0.32")
48.0 mm
(1.90")
50°C (120°F)
56.0 mm
(2.20")
65 mm
(2.5")
Clear
Acrylic
Lens
ø 3.5 mm (2)
(0.14")
8.0 mm
(0.32")
32.5 mm
(1.28")
48 mm
(1.90")
BRT-48X32B
1.0
50°C (120°F)
4.5 mm
(0.18")
17.0 mm
(0.67")
3.5 mm
(0.14")
4 x 10 mm (2)
(0.16 x .39")
Clear
Acrylic
Lens
3.5 mm
(0.14")
13.8 mm
(0.54")
4.9 mm
(0.19")
9.7 mm
(0.38")
BRT-23X14CM
1.2
65°C (150°F)
57 mm
(2.20")
23.0 mm
(0.91")
19.0 mm
(0.75")
NOTE: This target has micro-prism geometry
ø2 mm
(0.08")
BRT-40X23
BRT-40X23B
1.4
1.4
1.0 mm
(0.04")
Clear
Acrylic
Lens
50°C (120°F)
23.5 mm
(0.93")
8.0 mm
(0.32")
23.5 mm
(0.93")
8.0 mm
(0.32")
40.0 mm
(1.60")
50°C (120°F)
Clear
Acrylic
Lens
ø 3.5 mm (2)
(0.14")
12.1 mm
(0.48")
3.5 mm
(0.14")
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
40.0 mm
(1.60")
47.5 mm
(1.90")
3.5 mm
(0.14")
727
Accessories – Retroreflectors
Retroreflective Targets
Model
Reflectivity
Factor
Maximum
Temperature
Dimensions
3.0 mm
(.12")
20 mm
(0.8")
BRT-32X20AM
1.2
65°C (150°F)
26 mm 20 mm
32 mm (1.0")
(0.8")
(1.1")
NOTE: This target has micro-prism geometry
ø3.5 mm
(0.14")
2.0 mm
(0.08")
23.5 mm
(0.93")
8 mm
(0.3")
ø 3.5 mm (2)
(0.14")
BRT-35X20A
1.4
50°C (120°F)
40 mm
(1.6")
48 mm
(1.9")
3.8 mm
(0.15")
1.0
8.0 mm
(0.32")
60 mm
(2.4")
50.0 mm
(1.97")
50°C (120°F)
55 mm
(2.2")
3.5 mm
(0.14")
18 mm
(0.7")
BRT-40X18A
Clear
Acrylic
Lens
Clear
Acrylic
Lens
ø 3.5 mm (2)
(0.14")
7.3 mm
(0.29 ")
19.3 mm
(0.76")
BRT-40X19A
1.3
50°C (120°F)
50.0 mm
(1.97")
3.5 mm
(0.14")
60.2 mm
(2.37")
ø4.0 mm
(0.16")
19.3 mm
(0.76")
BRT-40X19AM
1.2
50°C (120°F)
50.0 mm
(1.97")
3.2 mm
(0.13")
60.2 mm
(2.37")
NOTE: This target has micro-prism geometry
ø4.0 mm
(0.16")
728
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
Accessories – Retroreflectors
Retroreflective Targets
Model
Reflectivity
Factor
Maximum
Temperature
Dimensions
3.5 mm
20.0 mm
(0.79")
BRT-40X20AM
1.2
50°C (120°F)
NOTE: This target has micro-prism geometry
30.0 mm
(1.18")
37.0 mm
(1.46")
42.0 mm
(1.65")
2.0 mm
ø3.0 mm
(0.12")
32.0 mm
(1.26")
3.6 mm
(0.14")
BRT-40X23A
1.4
10.0 mm
(0.39")
1.9 mm
(0.75")
50°C (120°F)
23.1 mm
(0.91")
2x ø1.9mm
(0.8")
39.1 mm
(1.54")
8.2 mm
(0.32")
10 mm
(0.4")
BRT-62X10AM
1.2
65°C (150°F)
50 mm
(1.97"
3.5 mm
(0.14")
62 mm
(2.4")
56 mm
(2.21")
NOTE: This target has micro-prism geometry
19 mm
(0.75")
BRT-53X19A
1.4
50°C (120°F)
53.0 mm
(2.10")
8.0 mm
(0.32")
63.0 mm
(2.48")
72 mm
(2.80")
Clear
Acrylic
Lens
ø 3.5 mm (2)
(0.14")
3.5 mm
(0.14")
†
These targets are not recommended for polarized retroreflective sensors
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
729
Accessories – Retroreflectors
Retroreflective Targets
Model
Reflectivity
Factor
Maximum
Temperature
Dimensions
6.5 mm
(0.26")
18.5 mm
(0.73")
BRT-100X18A
1.4
50°C (120°F)
110 mm
(4.33")
120 mm
(4.70")
Clear
Acrylic
Lens
ø 4 mm (2)
(0.16")
3.8 mm
(0.15")
19 mm (0.75")
BRT-L
0.8
65°C (150°F)
Clear
Acrylic
Lens
Adhesive
Backing
165 mm
(6.50")
ø 10 mm (2)
(0.4")
BRT-41AHT
1.0
200°C (390°F)
41 mm
(1.6")
72 mm
(2.8")
102 mm
(4.0") 128 mm
(5.0")
40 mm
(1.6")
Glass
Lens
45 mm
(1.8")
100 mm
(4.00")
BRT-4HT†
0.15
480°C (900°F)
100 mm
(4.00")
†
0.5 mm
(0.02")
Aluminum
These targets are not recommended for polarized retroreflective sensors.
730
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
Accessories – Retroreflectors
Retroreflective Tape
Note: for maximum adhesion of all tape products, surfaces must be clean.
Model
BRT-THG-3X3-10
BRT-THG-4X4-5
BRT-THG-8.5X11-2
BRT-THG-18X36
BRT-THG-1-100
BRT-THG-2-100
BRT-THG-3-100
BRT-T-100†
BRT-THT-100†
BRT-TVHG2X2*
Reflectivity
Maximum
Factor
Temperature
0.7
0.7
0.7
0.7
0.7
0.7
0.7
0.2
0.07
0.8
60°C (140°F)
60°C (140°F)
60°C (140°F)
60°C (140°F)
60°C (140°F)
60°C (140°F)
60°C (140°F)
65°C (150°F)
175°C (350°F)
60°C (140°F)
Size
75 x 75 mm (3 x 3")
100 x 100 mm (4 x 4")
216 x 280 mm (8.5 x 11")
457 x 914 mm (18 x 36")
25 mm (1") wide
50 mm (2") wide
75 mm (3") wide
25 mm (1") wide
25 mm (1") wide
50 x 50 mm (2 x 2")
Unit
Package of 10
Package of 5
Package of 2
Single Sheet
2.5 m (100") length
2.5 m (100") length
2.5 m (100") length
2.5 m (100") length
2.5 m (100") length
Package of 4
†
These targets are not recommended for polarized retroreflective sensors.
* These are sealed micro-prism style pieces and may not be cut.
Suitable for use with Laser sensors, VS3 sensors and SME312LPC model sensors.
Not suggested for close range (less than 4") except with VS3 sensors.
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
731
Accessories – Cables and Connectors
Cables and Connectors
Quick-disconnect (QD) cables allow sensors to be replaced or
moved quickly, minimizing down-time
•
Pico-, euro-, and mini-styles are available for dc-powered sensors
•
Micro- and mini-styles are available for ac-powered sensors
•
Choose straight or right-angle connectors
•
Mini-style receptacles are available for creating quick-disconnect
MULTI-BEAM, MAXI-BEAM and Q85 Series sensors
•
Pico- and euro-style field-wireable connectors
From bottom left to top right: Right-angle
Micro-, Straight Micro-, Right-angle Pico-,
Straight Pico- and Mini-style cables
Pico-Style Quick-Disconnect Cables
Cable: PUR jacket, polyurethane connector body, POM snap-lock coupling
Conductors: 26 or 24 AWG high-flex stranded, gold-plated contacts
Temperature: -40 to +90°C (-40 to +194°F)
Voltage Rating: 30V ac/36V dc
Style
Model
Length
Connection
Type
Used with:
Dimensions
Pin-out
ø 10 mm max.
(0.4")
3-Pin
Straight
3-Pin
Right-angle
PKG3-2
2 m (6.5')
Snap-on
• M12 Laser emitters
• Q08 Diffuse Mode
sensors
• Q10 series
• Q14 series
PKW3-2
2 m (6.5')
28 mm max.
(1.1")
Black Wire
Blue Wire
Brown Wire
27.9 mm
(1.10")
14.6 mm
(0.57")
Snap-on
ø 8.3 mm
(0.33")
3-Pin
Straight
PKG3M-2
PKG3M-9
2 m (6.5')
9 m (30')
34.7 mm
(1.37")
M8 x 1
Threaded
9.6 mm
(0.38")
Black Wire
• VS1 series
• VS2 series
• VS3 series
3-Pin
Right-angle
PKW3M-2
PKW3M-9
2 m (6.5')
9 m (30')
Blue Wire
Brown Wire
Black Wire
White Wire
Blue Wire
Brown Wire
23.5 mm
(0.93")
16.5 mm
(0.65")
Threaded
ø9.6 mm
(0.38")
M8 x 1
ø 10 mm max.
(0.4")
4-Pin
Straight
4-Pin
Right-angle
PKG4-2
PKW4-2
2 m (6.5')
2 m (6.5')
Snap-on
Snap-on
• MINI-BEAM 2
• Q23 series
• D11 series
• D12 series
• EZ-BEAM S12 series
• PICO-AMP
28 mm max.
(1.1")
27.9 mm
(1.10")
14.6 mm
(0.57")
ø 8.3 mm
(0.33")
732
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
Accessories – Cables and Connectors
Pico-Style Quick-Disconnect Cables (continued)
Style
Model
Length
Connection
Type
Used with:
Dimensions
Pin-out
ø 10 mm max.
(0.4")
6-Pin
Straight
PKG6Z-2
PKG6Z-9
2 m (6.5')
9 m (30')
Snap-on
28 mm max.
(1.1")
Brown Wire
Gray Wire
• D10 Series sensors
Pink Wire
White Wire
Blue Wire
Black Wire
25 mm max.
(1.0")
6-Pin
Right-angle
PKW6Z-2
PKW6Z-9
2 m (6.5')
9 m (30')
Snap-on
20 mm
(0.8")
ø12 mm max.
(0.5")
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
733
Accessories – Cables and Connectors
Euro-Style Quick-Disconnect Cables
Cable: PVC jacket, polyurethane connector body, chrome-plated brass coupling nut
Conductors: 22 or 20 AWG high-flex stranded, PVC insulation, gold-plated contacts
Temperature: -40 to +90°C (-40 to +194°F)
Voltage Rating: 250V ac/300V dc
Style
4-Pin
Straight
Model
Length
MQD9-406
MQD9-415
2 m (6.5')
5 m (15')
Used with:
Dimensions
Pin-out
ø 15 mm
(0.6")
44 mm max.
(1.7")
M12 x 1
Blue Wire
• MINI-BEAM and Q45 series
NAMUR sensors
4-Pin
Right-angle
MQD9-406RA
MQD9-415RA
Brown Wire
38 mm max.
(1.5")
2 m (6.5')
5 m (15')
38 mm max.
(1.5")
M12 x 1
ø 15 mm
(0.6")
4-Pin
Straight
4-Pin
Right-angle
MQDC-406
MQDC-415
MQDC-430
MQDC-406RA
MQDC-415RA
MQDC-430RA
2 m (6.5')
5 m (15')
9 m (30')
2 m (6.5')
5 m (15')
9 m (30')
ø 15 mm
(0.6")
• Standard OMNI-BEAM (QDH
suffix)
• Q45 dc sensors (Q5 suffix)
• MINI-BEAM dc SM312 series
• EZ-BEAM dc (Q suffix except
S12)
• SP12 series
• QM42 series
• PVA sensors
44 mm max.
(1.7")
M12 x 1
White Wire
Brown Wire
38 mm max.
(1.5")
Blue Wire
Black Wire
38 mm max.
(1.5")
M12 x 1
ø 15 mm
(0.6")
5-Pin
Straight
5-Pin
Right-angle
MQDC1-506
MQDC1-515
MQDC1-530
MQDC1-506RA
MQDC1-515RA
MQDC1-530RA
2 m (6.5')
5 m (15')
9 m (30')
2 m (6.5')
5 m (15')
9 m (30')
ø 15 mm
(0.6")
• MINI-BEAM Expert
• PicoDot
• Q45 Laser Retro
• R55
• R55F
• SL30, SL30E
• SL10, SL10E
• Q60
44 mm max.
(1.7")
M12 x 1
White Wire
Brown Wire
38 mm max.
(1.5")
Blue Wire
Black Wire
Gray Wire
38 mm max.
(1.5")
M12 x 1
ø 15 mm
(0.6")
6-Pin
Straight
MQDC-606
MQDC-615
MQDC-630
2 m (6.5')
5 m (15')
9 m (30')
ø 15 mm
(0.6")
44 mm max.
(1.7")
M12 x 1
White Wire
Brown Wire
• R55 Expert series
6-Pin
Right-angle
MQDC-606RA
MQDC-615RA
MQDC-630RA
38 mm max.
(1.5")
2 m (6.5')
5 m (15')
9 m (30')
Blue Wire
Black Wire
Gray Wire
Pink Wire
38 mm max.
(1.5")
M12 x 1
ø 15 mm
(0.6")
734
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
Accessories – Cables and Connectors
Micro-Style Quick-Disconnect Cables
Cable: PVC jacket, polyurethane connector body, chrome-plated brass coupling nut
Conductors: 22 or 20 AWG high-flex stranded, PVC insulation, gold-plated contacts
Temperature: -40 to +80°C (-40 to +176°F)
Voltage Rating: 250V ac/300V dc (3-pin), 125V ac/150V dc (4-pin)
Style
3-Pin
Straight
Model
MQDC-306
MQDC-315
MQDC-330
Length
Used with:
2 m (6.5')
5 m (15')
9 m (30')
Dimensions
Pin-out
ø15 mm
(0.6")
44 mm max.
(1.7")
ø 1/2-20UNF-2B
Green Wire
• MINI-BEAM ac SM2A312
series
3-Pin
Right-angle
MQDC-306RA
MQDC-315RA
MQDC-330RA
38 mm max.
(1.5")
2 m (6.5')
5 m (15')
9 m (30')
Red/White
Wire
Red/Black
Wire
38 mm max.
(1.5")
1/2-20UNF-2B
ø 15 mm
(0.6")
4-Pin
Straight
MQAC-406
MQAC-415
MQAC-430
2 m (6.5')
5 m (15')
9 m (30')
ø15 mm
(0.6")
44 mm max.
(1.7")
ø 1/2-20UNF-2B
Green Wire
• Q45 ac series (suffix Q1)
• EZ-BEAM ac series (suffix Q1)
4-Pin
Right-angle
MQAC-406RA
MQAC-415RA
MQAC-430RA
2 m (6.5')
5 m (15')
9 m (30')
Red Wire
38 mm max.
(1.5")
Red/White
Wire
Red/Black
Wire
38 mm max.
(1.5")
1/2-20UNF-2B
ø 15 mm
(0.6")
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
735
Accessories – Cables and Connectors
Mini-Style Quick-Disconnect Cables
61 mm max.
(2.4")
Cable: PVC jacket, polyurethane connector body, nylon coupling nut
Conductors: 18 AWG high-flex stranded, PVC insulation, gold plated contacts
Temperature: -40 to +80°C (-40 to +176°F)
Voltage Rating: 250V ac/300V dc
Style
Model
Length
3-Pin
Female Pinout
Straight
MBCC-306
MBCC-312
MBCC-330
2 m (6.5')
4 m (12')
9 m (30')
• Q45 3-wire ac (Q suffix)
• VALU-BEAM 2-wire
• VALU-BEAM emitters
• VALU-BEAM 990 series
3-Pin
Female Pinout
Straight
SM30CC-306
SM30CC-312
2 m (6.5')
4 m (12')
• SM30 2-wire ac
4-Pin
Female Pinout
Straight
5-Pin
Female Pinout
Straight
736
ø 28 mm max.
(1.1")
Used with:
Pin-out
Black Wire
Blue Wire
MBCC-506
MBCC-512
MBCC-530
Brown Wire
Green Wire
Red/White Wire
MBCC-406
MBCC-412
MBCC-430
7/8-16UN-2B
2 m (6.5')
4 m (12')
9 m (30')
• Q45 dc (Q suffix)
• OMNI-BEAM dc power blocks
• VALU-BEAM 912 dc series
• SM30 dc series
• Optical Touch Button (OTB)
w/solid-state output
2 m (6.5')
4 m (12')
9 m (30')
• Q45 Laser Retro
• OMNI-BEAM ac power blocks
• OMNI-BEAM dc with e/m relay
• VALU-BEAM 915 series
• OTB & LTB w/SPDT relay
• Q45 series 5-wire ac
• Q45X series
White Wire
Brown Wire
White Wire
Brown Wire
Red/Black Wire
Black Wire
Blue Wire
Black Wire
Blue Wire
Yellow Wire
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
Accessories – Cables and Connectors
Pico-Style Field-Wireable Connectors
Contacts: Gold-plated; rated 60V ac/dc max., 4 A max.
Cable Diameter: 4.0 to 5.0 mm (0.16 to 0.20")
Temperature: -25 to +70°C (-13 to +156°F)
Environmental Rating: NEMA 6P, IP 67
Style
Model
Gender
Dimensions
Pin-out
43.5 mm
(1.7")
FIC-M8M3
M8 x 1 mm
Male
3-Pin
Straight
13 mm
(0.5")
43.5 mm
(1.7")
FIC-M8F3
Female
M8 x 1 mm
25mm
(1.0")
FIC-M8M3A
3-Pin
Right-angle
13 mm
(0.5")
M8 x 1 mm
13 mm
(0.5")
M8 x 1 mm
13 mm
(0.5")
41.5 mm
(1.6")
25mm
(1.0")
FIC-M8F3A
M8 x 1 mm
Male
12 mm
(0.5")
Female
12 mm
(0.5")
13 mm
(0.5")
41.5 mm
(1.6")
43.5 mm
(1.7")
FIC-M8M4
Male
4-Pin
Straight
43.5 mm
(1.7")
FIC-M8F4
Female
M8 x 1 mm
25mm
(1.0")
FIC-M8M4A
4-Pin
Right-angle
13 mm
(0.5")
M8 x 1 mm
13 mm
(0.5")
41.5 mm
(1.6")
25mm
(1.0")
FIC-M8F4A
M8 x 1 mm
Male
12 mm
(0.5")
Female
12 mm
(0.5")
13 mm
(0.5")
41.5 mm
(1.6")
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
737
Accessories – Cables and Connectors
Euro-Style Field-Wireable Connectors
Contacts: Gold-plated; 4-pin models rated 250V ac/dc max., 4 A max.; 5-pin models rated 50V ac/dc max., 4A max.
Cable Diameter: 4.0 to 5.0 mm (0.16 to 0.20")
Temperature: -25 to +90°C (-13 to +194°F)
Environmental Rating: NEMA 6P, IP 67
Style
Model
Gender
Dimensions
Pin-out
60 mm
(2.4")
10 mm
(0.4")
FIC-M12M4
15.0 mm
(0.59")
4-Pin
Straight
FIC-M12F4
M12 x 1
60 mm
(2.4")
10 mm
(0.4")
Female
15.0 mm
(0.59")
FIC-M12M4A
20 mm
(0.8")
Male
M12 x 1
20 mm
(0.8")
41 mm
(1.6")
Male
M12 x 1
30.5 mm
(1.20")
4-Pin
Right-angle
20 mm
(0.8")
20 mm
(0.8")
FIC-M12F4A
Female
15.0 mm
(0.59")
60 mm
(2.4")
10 mm
(0.4")
FIC-M12M5
20 mm
(0.8")
Male
15.0 mm
(0.59")
5-Pin
Straight
M12 x 1
60 mm
(2.4")
10 mm
(0.4")
FIC-M12F5
20 mm
(0.8")
Female
15.0 mm
(0.59")
M12 x 1
20 mm
(0.8")
FIC-M12M5A
41 mm
(1.6")
Male
M12 x 1
30.5 mm
(1.20")
5-Pin
Right-angle
20 mm
(0.8")
FIC-M12F5A
Female
15.0 mm
(0.59")
738
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
Accessories – Cables and Connectors
Mini-Style Quick-Disconnect Receptacles
Housing: Nickel chrome-plated brass or zinc alloy
Conductors: 20 AWG (3- and 4-pin), or 24 AWG (5-pin), PVC insulation, gold plated pins
Temperature: -40 to +70°C (-40 to +158°F)
Voltage Rating: 600V ac (3-pin), 300V ac (5-pin)
Style
Model
Wire
Length
Used with:
Dimensions
Pin-out
Male Pinout
3-Pin
Male Pin-out
MBC-3
300 mm
(12")
Black
wire
• MULTI-BEAM
• MAXI-BEAM
• Q85 series (emitters)
Brown
wire
Side View
Blue
wire
28 mm
(1.1 in)
1/2-14NPSM
4-Pin
Male Pin-out
MBC-4
300 mm
(12")
• MULTI-BEAM
• MAXI-BEAM
• Q85 series
7/8-16UN-2A
Male Pinout
25 mm Hex
(1.0 in)
Black
wire
White
wire
O-ring
Blue
wire
Brown
wire
Side View
20 mm
(0.8 in)
5-Pin
Male Pin-out
MBC-5
60 mm
(2.5")
• Q85 series
1/2-14NPSM
7/8-16UN-2A
Male Pinout
Black
wire
Blue
wire
White
wire
Brown
wire
Yellow wire
O-ring
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
739
Accessories – Cables and Connectors
Brackets
•
Choose from a wide selection of sensor mounting brackets
•
Most metal brackets are constructed of stainless steel
•
Most non-metallic brackets are molded from reinforced
thermoplastic polyester,, including versatile swivel models
NOTE: See the accessories listing at the end of each product
section for additional brackets which are designed
specifically for one product family
Mounting Brackets
Model
Description
Used with:
Dimensions
DIN - 35-70:
Approx.70 mm ( 2.7")
DIN-35-70
DIN-35-105
DIN-35-140
35 mm
DIN Rail
DIN - 35-105:
Approx. 105 mm (4.1")
DIN - 35-140:
Approx. 140 mm (5.5")
DIN-35-70: 70 mm (2.7")
DIN-35-105: 105 mm (4.1")
DIN-35-140: 140 mm (5.5")
• D12
• D11
• RS-11 socket
• PICO-AMP
35 mm
(1.4")
25.4 mm (1.00")
35 mm (1.4")
5.3 mm
(0.21")
7.6 mm (0.30")
68 mm
(2.7")
52 mm
(2.0")
RMB50
• Protective mounting bracket
for retroreflective targets
• 14-gauge 316 stainless
steel
• Stainless steel M3 x 0.5
hardware is included
The following
reflectors:
•
•
•
•
6 mm
(0.2")
30º
15º
R18 mm
13 mm
(0.5")
62 mm
(2.4")
BRT-60X40C
BRT-2X2
BRT-50D
BRT-50R
54 mm
(2.1")
34 mm
(1.3")
26 mm
(1.0")
ø 4.5 mm
(0.18")
4 x M3 x0.5
ø 6.3 mm
(0.25")
32 mm
(1.26")
31 mm
(1.2")
6 x 4.5 mm
(0.18")
11 mm
(0.4")
26 mm
(1.0")
12 mm (0.47")
92 mm
(3.6")
RMB85
30º
15º
77 mm
(3.0")
6 mm
(0.2")
R28 mm
• Protective mounting bracket
for retroreflective targets
• 14-gauge 316 stainless
steel
• Stainless steel M3 x 0.5
hardware is included
The following
reflectors:
• BRT-3
• BRT-77X77C
95 mm
(3.7")
77 mm
(3.0")
46 mm
(1.0")
38.5 mm
(1.5")
4 x M3 x 0.5
ø 4.8 mm
(0.19")
47.5 mm
(1.87")
6 x 4.5 mm
(0.18")
44 mm
(1.7")
12 mm (0.47")
740
ø 4.5 mm
(0.18")
23 mm
(0.9")
13 mm
(0.51")
30 mm
(1.2")
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
Accessories – Brackets
Mounting Brackets
Model
Description
Used with:
Dimensions
RMB100
107 mm
(4.2")
92 mm
(3.6")
30º
15º
6 mm
(0.2")
R33 mm
• Protective mounting
bracket for retroreflective
targets
• 14-gauge 316 stainless
steel
• Stainless steel M3 x 0.5
hardware is included
The following
reflectors:
•
•
•
•
BRT-92X92C
BRT-77X77C
BRT-3
BRT-84
77 mm
(3.0")
92 mm
(3.6")
8 x M3 x 0.5
ø 4.5 mm
(0.18")
28 mm
(1.1")
4.5 mm
(0.18")
13.5 mm
(0.53")
ø 4.8 mm
(0.19")
110 mm
(4.3")
56 mm
(2.2")
38.5 mm
55 mm (1.5")
(2.1")
46 mm
(1.8")
50 mm
(2.0")
15 mm
(0.59")
77 mm
(3.0")
34 mm
(1.3")
12 mm (0.47")
SMB127
Mounting Block
36 mm
(1.4")
12.9 mm
(0.508")
10.6 mm
(0.42")
21.1 mm
(0.83")
23.6 mm
(0.93")
• Mounting block
• Comes with: 3/64" hex
wrench, 4 set screws
3x #4-40 Thru
21.6 mm
(0.85")
• M12 Laser
emitters
10.6 mm
(0.42 ")
2x M3
or #4 Clearance
12.9 mm
(0.508")
12.9 mm
(0.508")
26.9 mm
(1.06")
22.9 mm
(0.90")
36 mm
(1.4")
17.8 mm
(0.70")
13.5 mm
(0.53")
SMB12MM
• 12-gauge, stainless steel,
right angle mounting
bracket for barrel style
sensors with 12 mm
threads
• Curved mounting slot
allows the bracket ±10° of
lateral movement
• Mounting holes
accommodate M4 (#8)
hardware
6.4 mm
(0.25")
5.1 mm
(0.20")
18.5 mm
(0.73")
21.6 mm
(0.85")
17.8 mm
(0.70")
12.3 mm
(0.49")
25.4 mm
(1.00")
12.7 mm
(0.50")
• S12
• SP12
ø 12.3 mm
(0.49")
38.1 mm
(1.50")
10°
Slot 4.6 mm
(0.18")
R 24.1 mm
(0.95")
R 3.1 mm
(0.12")
42.9 mm
(1.69")
20°
R 5.1 mm
(0.20")
ø 4.6 mm
(0.18")
SMB1812SF
• 12 mm swivel
• Black reinforced
thermoplastic polyester
• Includes stainless steel
swivel locking hardware
36.0 mm
(1.42")
• S12
• SP12
10.6 mm
(0.42")
M12 x 1
Internal
Thread
42.0 mm
(1.65")
22.9 mm
(0.9")
50.8 mm
(2.00")
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
25.4 mm
(1.00")
741
Accessories – Brackets
Mounting Brackets
Model
Description
Used with:
Dimensions
SMB1815SF
• Swivel with set screws for
mounting of T18 or T30 by
its cable hub
• Black reinforced
• T18
thermoplastic polyester
• T30
• Includes stainless steel
swivel locking hardware
and 3/64"3 hex wrench
36.0 mm
(1.42")
10.6 mm
(0.42")
ø15.0 mm
(0.59")
42.0 mm
(1.65")
22.9 mm
(0.9")
50.8 mm
(2.00")
SMB18A
• 12-gauge, stainless steel,
right angle mounting
bracket with a curved
mounting slot for versatility
and orientation
• Clearance for M4 (#8)
hardware
• MINI-BEAM
• M18
• Q25
• S18
• T18
• QS18 (select
models only)
25.4 mm
(1.00")
* Use 4 mm (#8) screws
to mount bracket.
Drill screw holes
24.2 mm (0.95") apart.
18.5 mm
(0.73")
25.4 mm
(1.00")
30°
30 mm
(1.2")
41 mm
(1.6")
R 24.2 mm
(0.95")
46 mm
(1.8")
4.6 mm*
(0.18")
ø 4.6 mm*
(0.18")
7.6 mm
(0.30")
SMB18C
40.0 mm
(1.60")
• 18 mm split clamp bracket
• Black thermoplastic
polyester
• Includes stainless steel
mounting hardware
• MINI-BEAM
• M18
• Q25
• S18
• T18
13 mm
(0.5")
42.4 mm
(1.67")
21.1 mm
(0.83")
14.0 mm
(0.55")
Nut Plate
2.5 mm
(0.10")
30.0 mm
(1.18")
M5 x 0.8
x 60 mm
Screw (2)
SMB18Q
* Use 4 mm (#8) screws
to mount bracket.
Drill screw holes
24.2 mm (0.95") apart.
• 18 mm angled flanged
bracket for Q25 sensors
• 12 ga stainless steel
19 mm
(0.75")
25.4 mm
(1.00")
30°
30 mm
(1.2 in)
• Q25
41 mm
(1.60")
R 24.2 mm
(0.95")
4.6 mm
(0.18")*
ø 4.6 mm
(0.18")*
742
46 mm
(1.80")
10 mm
(0.40')
7.6 mm
(0.30")
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
Accessories – Brackets
Mounting Brackets
Model
Description
Used with:
Dimensions
SMB18S
46.0 mm
(1.81")
• 18 mm swivel bracket
• black thermoplastic
polyester
• Includes stainless steel
mounting hardware
• MINI-BEAM
• M18
• Q25
• S18
• T18
• 18 mm swivel bracket
• Black thermoplastic
polyester
• Includes stainless steel
swivel locking hardware
• MINI-BEAM
• M18
• Q25
• S18
• T18
10.9 mm
(0.43")
44.5 mm
(1.75")
Spacer
(If Required)
25.4 mm
(1.00")
13.0 mm (0.50")
36.0 mm
(1.42")
6.4 mm
(0.25")
Nut Plate
2.5 mm
(0.10")
M5 x 0.8
x 60 mm
Screw (2)
SMB18SF
36.0 mm
(1.42")
M18 x 1
internal
thread
10.6 mm
(0.42")
42.0 mm
(1.65")
22.9 mm
(0.9")
50.8 mm
(2.00")
SMB18UR
25.4 mm
(1.00")
16.0 mm
(0.63 ")
SMB18UR Top
ø18.3 mm
(0.72")
66.0 mm
(2.60")
45.2 mm
(1.78")
27.2 mm
(1.07")
50.8 mm
(2.0")
60º
• MINI-BEAM
• M18
• S18
• T18
R2.5 mm
(0.10")
24.6 mm
(0.97")
46.7 mm
(1.84")
25.4 mm
(1.00")
9.7 mm
(0.38")
SMB18UR Bottom
60º
4X 6.9 mm
(0.27")
41.7 mm
(1.64")
8.1 mm
(0.32")
41.7 mm
(1.64")
60º
ø20.3 mm
(0.80")
ø30.5 mm
(1.20")
• 2-piece universal swivel
bracket for 18 mm sensors
• 300 series stainless steel
• Includes stainless steel
swivel locking hardware
20.8 mm
(0.82")
2.7 mm
(0.10")
20.3 mm
(0.80")
20.3 mm
(0.80")
ø30.5 mm
(1.20")
6X #10-32 Thru
25.4 mm
(1.00")
20.8 mm
(0.82")
33.8 mm
(1.33")
63.5 mm
(2.50")
71.1 mm
(2.80")
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
2.7 mm
(0.10")
743
Accessories – Brackets
Mounting Brackets
Model
Description
Used with:
Dimensions
31.8 mm
SMB300
Mounting Slot for: LF/PT/400
LP400WB
(1.25")
6.4 mm
M5 (#10) Screw Clearance (2)
(0.25")
Mounting Slot for: SP300D
SP300L
SP300EL/RL
4 mm (#6) Screw Clearance (4)
41.4 mm
(1.63")
• Steel right angle bracket
designed for 2-axis
mounting
• Clearance slot for
mounting LR/PT400
• SP300
• LR/PT400
• LP400WB
• LR/PT200
47.8 mm
(1.88")
25.4 mm (1.00")
90°
9.7 mm
(0.38")
M4.5 (#8) Screw
Clearance (2)
25° (2)
12.7 mm (0.50")
30° (2)
M5 (#10) Screw
Clearance (2)
38.1 mm
(1.50")
Mounting for LR/PT200
22.4 mm
(0.88")
SMB3018SC
• 18 mm swivel barrel or
side mount bracket
• Black reinforced
thermoplastic polyester
• Includes stainless steel
swivel locking hardware
• MINI-BEAM
• Q23
• QM42/QMT42
• Q25
• S18
• T18
50.8 mm
(2.00")
66.5 mm
(2.62")
M18 x 1
internal
thread
56.7 mm
(2.31")
Assembled
68.0 mm
(2.68")
29.0 mm
(1.14")
SMB30A
• 12-gauge, stainless steel,
right angle mounting
bracket with a curved
mounting slot for versatility
and orientation
• Clearance for M6 (1/4")
hardware
* Use 5 mm (#10) screws to mount bracket.
Drill screw holes 40.0 mm (1.58") apart.
69 mm
(2.70")
6.3 mm
(0.25")*
ø 6.3 mm
(0.25")*
SMB30C
• 30 mm split clamp bracket
• Black reinforced
thermoplastic polyester
• Includes stainless steel
mounting hardware
744
ø 30.5 mm
(1.20")
61 mm
(2.40")
30°
R 40 mm
(1.58")
• OMNI-BEAM
• Q45
• VALU-BEAM
• SM30
• S30
• Q40
• T30
• OTB
38.5 mm
(1.52")
45 mm
(1.8")
• SM30
• Q40
• S30
• T30
7.6 mm
(0.30")
56.0 mm
(2.20")
13 mm
(0.5")
63.0 mm
(2.48")
31.5 mm
(1.24")
13.5 mm (0.53")
Nut Plate
45.0 mm
(1.77")
2.5 mm
(0.10")
M5 x 0.8
x 80 mm
Screw (2)
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
Accessories – Brackets
Mounting Brackets
Model
Description
Used with:
Dimensions
SMB30MM
25.4 mm
(1.00")
• 30 mm, 12-gauge,
stainless steel bracket with
curved mounting slots for
versatility and orientation
• Clearance for M6 (1/4")
hardware
ø30.1 mm
(1.19")
• OMNI-BEAM
• Q45
• VALU-BEAM
• SM30
• OTB
35.1 mm
(1.38")
7.1 mm
.28 x 90° (2 Slots)
ø 6.4 mm
(0.25" dia.)
57.2 mm
(2.25")
25.4 mm
(1.00")
R 25.4 mm
(1.00")
57.2 mm
35.1 mm
(2.25")
(1.38")
69.9 mm
(2.75")
SMB30Q
* Use 5 mm (#10 screws to mount bracket.
Drill screw holes 40.0 mm (1.58") apart.
• 30 mm angled flanged
mounting bracket
• Black reinforced
thermoplastic polyester
• Includes stainless steel
hardware
30°
ø 30.7 mm
(1.21")
38.5 mm
(1.52")
45 mm
(1.8")
61 mm
(2.40")
• Q40
10 mm (0.40")
R 40 mm
(1.58")
69 mm (2.70")
6.3 mm
(0.25")*
ø 6.3 mm
(0.25")*
7.6 mm
(0.30")
SMB30S
• 30 mm swivel bracket
• Black reinforced
thermoplastic polyester
• Includes stainless steel
mounting and swivel
locking hardware
• OMNI-BEAM
• Q45
• VALU-BEAM
• SM30
• S30
• Q40
• T30
• OTB
63.5 mm
(2.50")
Not Shown:
(2) M5 x 0.8 x 60 mm
screws are supplied for
clamping bracket together
12.2 mm
(0.48")
82.5 mm
(3.25")
43.2 mm
(1.70")
50.8 mm
(2.00")
25.4 mm
(1.00")
M5 x 0.8
x 30 mm
Screw (2)
SMB30SC
• 30 mm swivel bracket
• Black reinforced
thermoplastic polyester
• Includes stainless steel
mounting and swivel
locking hardware
• OMNI-BEAM
• Q45
• VALU-BEAM
• SM30
• S30
• Q40
• T30
• OTB
50.8 mm
(2.00")
M30 x 1.5
internal
thread
12.7 mm
(0.50")
58.7 mm
(2.31")
30.0 mm
(1.18")
66.5 mm
(2.62")
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
29.0 mm
(1.14")
745
Accessories – Brackets
Mounting Brackets
Model
Description
Used with:
• Flat-mount swivel bracket
with extended range of
motion
• Black reinforced
thermoplastic polyester and
316 stainless steel
• Includes stainless steel
swivel locking hardware
• MINI-BEAM
• Q23
• QM42/QMT42
• S18
• M18
• T18
Dimensions
SMB30SK
50.8 mm
(2.00")
78.0 mm
(3.07")
66.5 mm
(2.62")
56.7 mm
(2.31")
Assembled
29.0 mm
(1.14")
68.0 mm
(2.68")
SMB30SUS
• Side mount swivel bracket
– extended range of motion
• MINI-BEAM
• Black reinforced
• Q23
thermoplastic polyester
• QM42
• Includes stainless steel
swivel locking hardware
50.8 mm
(2.00")
66.5 mm
(2.62")
56.7 mm
(2.31")
Assembled
2 x Hole for
#6 Machine Screw
68.0 mm
(2.68")
29.0 mm
(1.14")
SMB30UR Top
SMB30UR
59.9 mm
(2.36")
60º
8X #10-32
38.1 mm 30.0 mm
(1.50") (1.18")
ø38.1 mm
(1.50")
76.2 mm
(3.00")
23.1 mm
(0.91")
2X ø7.1
(0.28")
15.2 mm
(0.60")
15.2 mm
(0.60")
57.1 mm
(2.25")
27.9 mm
(1.11")
31.8 mm
(1.25")
3.4 mm
(0.14")
• 2-piece universal swivel
bracket for limit-switch
style sensors
• 300 series stainless steel
• Includes stainless steel
swivel locking hardware
82.2 mm
(3.24")
• MULTI-BEAM
• MAXI-BEAM
• Q45
• OMNI-BEAM
• LS10
SMB30UR Bottom
31.8 mm
(1.75")
50.8 mm
(2.00")
90º
5X 7.1 mm
(0.28")
31.8 mm
(1.25")
6X 1/4-28
ø57.2 (2.25")
50.8 mm
(2.00")
25.4 mm
(1.0")
70.0 mm
(2.75")
9.7 mm
(0.38")
22.4 mm
(0.88")
66.0 mm
(2.6")
89.8 mm
(3.54")
9.7 mm
(0.38")
12.7 mm
(0.50")
25.4 mm
1.00")
77.1 mm
(3.04")
3.4 mm
(0.14")
746
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
Accessories – Brackets
Mounting Brackets
Model
Description
Used with:
Dimensions
SMB42F
5.0 mm
(0.20")
10.0 mm
(0.40")
2x M4 x 0.7
12.7 mm
(0.50")
• 13-gauge stainless steel
• Includes mounting
hardware
28.3 mm
(1.12")
25.4 mm
(1.00")
25.4 mm
(1.00")
9.6 mm
(0.38")
• QM42/QMT42
6.4 mm
(0.25")
20.0 mm
(0.79")
2.3 mm
(0.09")
4x M3 x 0.5
12.7 mm
(0.50")
23.3 mm
(0.92")
37.1 mm
(1.46")
48.4 mm
(1.91")
40.0 mm
(1.58")
SMB42L
4x M4 x 0.7
6.4 mm
(0.25")
2.3 mm
(0.09")
5.0 mm
(0.20")
• 13-gauge stainless steel
• Includes mounting
hardware
12.7 mm
(0.50")
3x 10.0 mm
(0.40")
23.3 mm
(0.92")
• QM42/QMT42
3.0 mm
(0.12")
33.0 mm
(1.30")
25.4 mm
(1.00")
2x M3 x 0.5
9.6 mm
(0.38")
SMB42T
R 24.1 mm
(0.95")
R 5.1 mm
(0.20")
• 2-axis side mounting
bracket
• Stainless steel
• Includes M3 sensor
mounting hardware
15°
(2)
CL 31.8 mm
(1.25")
10° (TYP)
4.32 mm
(0.170")
Slot (2)
20.3 mm
(0.80")
20°
• QM42/QMT42
ø 3.05 mm Slot
(0.120")
ø 3.05 mm
(0.120")
90°
2.5 mm
(0.10")
R 3.1 mm
(0.12") (2)
20.1 mm
(0.79")
45.5 mm
(1.79")
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
747
Accessories – Brackets
Mounting Brackets
Model
Description
Used with:
Dimensions
SMB42U
38.9 mm
(1.53")
2x 8.9 mm
(0.35")
2x M4 x 0.7
6.5 mm
(0.25")
• 13-gauge stainless steel
• Includes mounting
hardware
• QM42/QMT42
12.7 mm
(0.50")
30.0 mm
(1.18")
25.4 mm
(1.00")
25.4 mm
(1.00")
3.1 mm
(0.12")
12.7 mm
(0.50")
23.3 mm
(0.92")
2.3 mm
(0.09")
3.1 mm
(0.12")
9.6 mm
(0.38")
4x M3 x 0.5
2x 11.4 mm
(0.45")
2x 7.1 mm
(0.28")
SMB46A
31.8 mm
(1.25")
• 2-piece 12-gauge, stainless
steel bracket assembly with
precision sensor alignment • S186ELD
adjustment
• PicoDot
• Includes 2 mm hex key
14.0 mm
(0.55")
60º
8x M5 or #10 clearance
ø6.6mm
(0.26")
ø30.5mm
(1.20")
60º
64.5 mm
(2.54")
ø18.3 mm
(0.72")
43.0 mm
(1.69")
61.0 mm
(2.40")
CL
6 mm
(0.2")
SMB46DF
• “L” bracket
• 14-gauge 316 stainless
steel
• MINI-BEAM
• PicoDot
• Q23 Series
• QM42/QMT42
• Q14
6 mm
(0.2")
5 mm (0.2")
(2x)
15 mm
(0.6")
8 mm
(0.3")
ø 36 mm (1.4")
ø 6.5 mm (0.26") (6x)
16 mm
(0.6")
65 mm
(2.6")
54 mm
(2.1")
748
2 mm
(.1")
27 mm
(1.1")
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
Accessories – Brackets
Mounting Brackets
Model
Description
Used with:
Dimensions
34 mm
(1.3")
CL
17 mm
(0.7")
SMB46S
10 mm
(0.4")
3.5 mm
(0.14")
6 mm
(0.2")
• “S” bracket
• 14-gauge 316 stainless steel
6 mm
(0.2")
5 mm (0.2")
(4x)
• MINI-BEAM
• PicoDot
• Q23/QH23
• QM42/QMT42
• Q14
15 mm
(0.6")
ø 36 mm (1.4")
ø 6.5 mm (0.26") (6x)
8 mm
(0.3") 16 mm
(0.6")
65 mm
(2.6")
2 mm
(.1")
54 mm
(2.1")
27 mm
(1.1")
16 mm
(0.6")
34 mm
(1.3")
CL
17 mm
(0.7")
SMB46U
13 mm
(0.5")
3.5 mm
(0.14")
6 mm
(0.2")
• “U” bracket
• 14-gauge 316 stainless steel
• “U” bracket
• 14-gauge 316
stainless steel
6 mm
(0.2")
5 mm (0.2")
(4x)
15 mm
(0.6")
ø 36 mm (1.4")
ø 6.5 mm (0.26") (6x)
8 mm
(0.3") 16 mm
(0.6")
16 mm
(0.6")
65 mm
(2.6")
2 mm
(.1")
54 mm
(2.1")
27 mm
(1.1")
70 mm
(2.8")
2x 11.4 mm
(0.45")
2x 7.1 mm
(0.28")
SMB46X3
31.8 mm
(1.25")
• Assembly with mounting
block and adjustable
bracket
• Includes:
- 2 mm hex key
- 3/64" hex key 4 set screws
14.0 mm
(0.55")
60º
8x M5 or #10 clearance
• M12 Laser
emitters
ø6.6mm
(0.26")
ø30.5mm
(1.20")
60º
64.5 mm
(2.54")
61 mm to 64 mm
(2.4" to 2.5")
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
61.0 mm
(2.40")
749
Accessories – Brackets
Mounting Brackets
Model
Description
Used with:
Dimensions
12.7 mm
(0.50")
SMB500
50.8 mm
(2.00")
6.4 mm
(0.25")
22.4 mm
(0.88")
19.1 mm
(0.75")
50.8 mm
(2.00")
• Universal steel mounting
bracket
76.2 mm
(3.00")
38.1 mm
(1.50")
63.5 mm
(2.50")
• SM512
5.6 mm x 25.4 mm
(0.22" x 1.00")
(2 Places)
4.8 mm (0.19") x 40° Slot (6 Places)
17.5 mm
(0.69")
38.1 mm
(1.50")
90°
1.9 mm #14 GA
(0.75")
85.9 mm
(3.38")
24.1 mm
(0.95")
SMB55A
2.6 mm
(0.10")
31.8 mm
(1.25")
11.4 mm
(0.45")
13.3 mm
(0.53")
12.7 mm
(0.50")
15.2 mm
(0.60")
8 x R 3.3 mm
(0.13")
50.8 mm
(2.00")
• 15° offset bracket
• 12-gauge stainless steel
• R55
15.0°
24.8 mm
2 x 12.4 mm
(0.98")
(0.49")
5.4 mm
(0.21")
12 x R 2.6 mm
(0.10")
25.4mm
(1.00")
2 x 5.6 mm
(0.22")
2 x 7.6 mm
(0.30")
4 x R 6.4 mm
(0.25")
CL
27.9 mm
(1.10")
50.8 mm
(2.00")
24.1 mm
(0.95")
SMB55F
2.6 mm
(0.10")
4 x R 6.4 mm
(0.25")
11.4 mm
(0.45")
13.3 mm
(0.53")
12.7 mm
(0.50")
15.2 mm
(0.60")
82.6 mm
(3.25")
• Flat mount bracket
• 12-gauge stainless steel
8 x R 3.3 mm
(0.13")
• R55
24.8 mm
(0.98")
2 x 12.4 mm
(0.49")
2 x 5.6 mm
(0.22")
5.4 mm
(0.21")
2 x 7.6 mm
(0.30")
25.4mm
(1.00")
CL
12 X R 2.6 mm
(0.10")
27.9 mm
(1.10")
50.8 mm
(2.00")
5.4 mm
(0.21")
SMB55RA
12 X R 2.6 mm
(0.10")
25.4mm
(1.00")
CL
• 90° offset bracket
• 12-gauge stainless steel
• R55
2 x 12.4 mm
(0.49")
24.8 mm
(0.98")
27.9 mm 50.8 mm
(2.00")
(1.10")
2 x 7.6 mm
(0.30")
2 x 5.6 mm
(0.22")
24.1 mm
(0.95")
2.6 mm
(0.10")
11.4 mm
(0.45")
15.2 mm
(0.60")
4 x R6.4 mm
(0.25")
13.3 mm
(0.53")
12.7 mm
(0.50")
8 x R 3.3 mm
(0.13")
750
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
Accessories – Brackets
Mounting Brackets
Model
Description
Used with:
Dimensions
SMB55S
30.5 mm
(1.20")
2x 10.2 mm
(0.40")
8.1 mm
(0.32")
7.1 mm
(0.28")
4x R6.4 mm (0.25")
8x R3.3 mm (0.13")
10.2 mm
(0.40")
• 15° offset bracket
• 12-gauge stainless steel
2.6 mm
(0.10")
• R55
44.5 mm
(1.75")
25.4 mm
(1.00")
34.3 mm
(1.35")
7.9 mm
3.8 mm (0.31")
(0.15")
4x R2.6
(0.10")
15.0°
28.0 mm
(1.10")
8.2 mm
(0.32")
2 x ø4.6 mm (0.18")
SMBF
2 x R5 mm
(0.2")
28.6 mm
(1.13")
• Right angle bracket for
glass fiber optics with
5
/16" - 24 threaded tip
• 18-gauge stainless steel
19.1 mm
(0.75")
14.2 mm
(0.56")
• Glass fiber
with 5/16" - 24
tip
3.3 mm
(0.13")
4.8 mm
(0.19")
6.4 mm
(0.25")
8.3 mm
(0.33")
21.6 mm
(0.85")
1.2mm
(0.05")
15.2 mm
(0.60")
4x R2.5 mm
(0.10")
SMBFP3
2 x ø 3.3 mm
(0.13")
25.4 mm
(1.00")
• Right angle bracket for
plastic fiber optics with
3 mm threaded tip
• 18-gauge stainless steel
• Plastic fiber
with M3 tip
3.2 mm
(.126")
12.7 mm
(0.50")
6.4 mm
(0.25")
19.1 mm
(0.75")
3.3 mm
(0.13")
5.8 mm
(0.23")
1.2 mm
(0.05")
12.7 mm
(0.50")
10.6 mm
(0.65")
4x R2.5 mm
(0.10")
SMBFP4
2 x ø 3.3 mm
(0.13")
25.4 mm
(1.00")
• Right angle bracket for
plastic fiber optics with
4 mm threaded tip
• 18-gauge stainless steel
4.2 mm
(.165")
• Plastic fiber
with M4 tip
12.7 mm
(0.50")
3.2 mm
(0.13")
6.4 mm
(0.25")
1.2 mm
(0.05")
12.7 mm
(0.50")
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
3.2 mm
(0.13")
19.1 mm
(0.75")
3.3 mm
(0.13")
5.8 mm
(0.23")
10.6 mm
(0.65")
751
Accessories – Brackets
Mounting Brackets
Model
Description
Used with:
Dimensions
SMBFP4N
ø4.2 mm
(0.17")
4.6 mm
(0.35")
12.00 mm
(0.47")
1.5 mm
(0.06")
2x Full R
4.6 mm
(0.18")
8.9 mm
(0.35")
• Low profile bracket for
plastic fiber optics with
4 mm threaded tip
• 18-gauge stainless steel
5.1 mm
(0.20")
• Plastic fiber
with M4 tip
7.6 mm
(0.30")
15.2 mm
(0.60")
1.2 mm
(0.05")
25.4 mm
(1.00")
90º
4x R2.5 mm
(0.10")
SMBFP6
2 x ø 3.3 mm
(0.13")
25.4 mm
(1.00")
• Right angle bracket for
plastic fiber optics with
6 mm threaded tip
• 18-gauge stainless steel
6.2 mm
(.244")
• Plastic fiber
with M6 tip
12.7 mm
(0.50")
6.4 mm
(0.25")
19.1 mm
(0.75")
3.3 mm
(0.13")
5.8 mm
(0.23")
1.2 mm
(0.05")
12.7 mm
(0.50")
3.2 mm
(0.13")
10.6 mm
(0.65")
34.0 mm
(1.34")
SMBPVA2
17.0 mm
(0.67")
ø4.4 mm (0.18")
• Set of 4 molded brackets
• Snaps onto standard
28 mm diameter pipe
• 2 required per PVA sensor
66 mm
(2.6")
• PVA
2 x ø4.4 mm (0.18")
18.0 mm
(0.71")
20.1 mm
(0.79")
7.4 mm
(0.29")
7.6 mm
(0.30")
18.8 mm
(0.74")
SMBPVA5
SMBPVA10
SMBPVA13
SMBPVA16
35.6 mm
(1.40")
• Set of 2 heavy-duty
protective brackets for PVA
• PVA
sensors
• Cold-rolled plated steel
L
Model
Used With
“L”
SMBPVA5
PVA100
139.7 mm
SMBPVA10
PVA225
268.2 mm
SMBPVA13
PVA300
343.3 mm
SMBPVA16
PVA375
418.2 mm
19.3 mm
(0.76")
752
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
Accessories – Brackets
Mounting Brackets
Model
Description
Used with:
Dimensions
8.3 mm
(0.33")
SMBSP3
7.5 mm
(0.30")
4 x M2 x 0.4
4 x ø3.2 mm
(0.126")
1.2 mm
(0.05")
• Right angle bracket
• Stainless steel
• SP3
• SP8
7.5 mm
(0.30")
14.0 mm
(0.55")
6.5 mm
(0.26")
3.3 mm
(0.13")
18.0 mm
(0.71")
6.5 mm
(0.26")
3.1 mm
(0.12")
9.9 mm
(0.39")
SMBVS1S
1.7 mm
(0.7")
4x R1.1 mm
(0.44")
2x R5.6 mm
(0.22")
6.5 mm
(0.26")
• Short bracket
• 18-gauge stainless steel
• VS1
12.5 mm
(0.50")
2x 7.4 mm
(0.29")
8x R1.6 mm
(0.06")
2x R6.4 mm
22.0 mm
(0.25")
(0.87")
2x 1 mm
(0.04")
2x 4.6 mm
(0.18")
10.0 mm
(0.40")
12.5 mm
(0.49")
12.0 mm
(0.47")
0.9 mm
(0.04")
4x R4 mm (0.15")
25.0 mm
(0.98")
SMBVS1SC
2 x ø2.8 mm (0.11")
10.0 mm
(0.39")
4.7 mm
(0.19")
• Short bracket
• 18-gauge stainless steel
• VS1
11.0 mm
(0.43")
13.5 mm
(0.53")
4.5 mm
3.0 mm
(0.18")
(0.12")
0.9 mm
(0.04")
2.0 mm
(0.08")
5.5 mm
(0.22")
2.3 mm (0.9")
9.0 mm
(0.35")
19.5 mm
(0.77")
12.5 mm
(0.49")
8x R1.6 mm
(0.06")
SMBVS1T
2x R6.4 mm
(0.25")
2x 7.6 mm
(0.29")
• Tall bracket
• Stainless steel
10.2 mm
(0.40")
4.6 mm
(0.18")
25.0 mm
(0.98")
• VS1
22.0 mm
(0.87")
13.5 mm
(0.53")
4x R5.6 mm
(0.22")
8x R1.1 mm
(0.44")
10.8 mm
(0.43")
13.5 mm
(0.53")
32.0 mm
(1.26")
0.9 mm
(0.04")
5.6 mm
(0.23")
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
753
Accessories – Brackets
Mounting Brackets
Model
Description
Used with:
Dimensions
SMBVS1TC
4.5 mm
(0.18")
• Tall compact bracket
• 300 Stainless steel
• VS1
31.0 mm
(1.22")
2x ø2.8mm (0.11)
5.5 mm
(0.22")
3.0 mm
(0.12")
2.3 mm
3.0 mm
(0.09")
(0.12")
2.3 mm
(0.9")
13.5 mm
(0.53")
0.9 mm
(0.04")
9.0 mm
(0.35")
10.0 mm
(0.39")
8.0 mm
(0.32")
SMBVS2RA
2x 3.2 mm
(0.13")
3.0 mm
(0.12")
• Right-angle bracket
• Stainless steel
• VS2
7.0 mm
(0.28")
5.5 mm
(0.22")
8.0 mm
(0.32")
3.0 mm
(0.12")
8.0 mm
(0.32")
0.9 mm
(0.04")
20.0 mm
(0.79")
9.0 mm
(0.35")
20.0 mm
(0.79")
14.0 mm
(0.55")
4 x ø2.3 mm
(0.09")
SMH241F
30.0 mm
(1.18")
• Nut strap replaces two
M3 mounting nuts and
washers
• 16-gauge stainless steel
1.5 mm
(0.06")
• MINI-BEAM
• Q23
• QM42/QMT42
24.0 mm
(0.95")
2x M3 x 0.5
6.0 mm
(0.24")
2x Full Radius
754
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
Accessories – BEAM TRACKER™
BT-1 BEAM-TRACKER
Wireless Photoelectric Diagnostics Sensor
•
•
•
•
•
•
A quick and simple way to evaluate photoelectric system
performance
Receives light from all modulated photoelectric emitters and
transmits light to receivers to check system operation
Built-in high frequency emitter that will be detected by any
Banner photoelectric receiver, as well as by those of most other
photoelectric manufacturers
A valuable tool for locating the center of the beam when
installing long-range opposed mode photoelectric sensor pairs
Locates sources of severe EMI or RFI “noise”
Low cost, battery operated, and completely self-contained
BT-1 BEAM TRACKER Specifications
Model Number
BT-1
Supply Voltage and Current
9V battery which provides about 10 hours of continuous use (or, typically hundreds of tests)
Indicators
Exclusive, patented Alignment Indicating Device system (AID™, US patent #4356393) which displays the
relative strength of the light which it receives from a modulated source. When the receive button is depressed,
an LED indicates the presence of a modulated light beam and flashes at a rate which corresponds directly to
the beam’s intensity. As a result, a suspected weak or failed light source is easily verified.
Beam
BEAM TRACKER emits a 70kHz modulated infrared beam
Most modulated photoelectric receivers, if functioning properly, will respond to this beam at close range.
Construction
Housed in a rugged Cycolac T® case, which includes an aiming sight, plus a convenient mounting hole for a
strap or cord. Totally self-contained.
Application Notes
In the receive mode, the BEAM TRACKER will respond to a severe level of electromagnetic or radio
frequency interference. The path of the “noise” source can be traced by observing the flash rate of the
BEAM TRACKER’s Alignment Indicating Device.
Cycolac® is a registered trademark of General Electric Co.
BT-1 BEAM-TRACKER Features
LED Indicator (includes
AID™ signal strength
measurement system)
Receiver Mode Button
Depress and hold to:
1. Check operation of emitter
2. Track beam for receiver alignment
3. Track "noise" interference source
Transmit Mode Button
Depress and hold to check
operation of a photoelectric
receiver
Remove (2) screws
to replace battery
Alignment Sight
Receiver Lens
Pickup area for
"noise" tracking
Emitter Lens
Hole for cord
or strap
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
755
Accessories – LAT-1 Laser Alignment Tool
LAT-1 Laser Alignment Tool
Visible Laser Device for Aligning Light Screen Systems
•
Totally self-contained visible-beam laser tool simplifies the
alignment of any opposed-mode sensor pair
•
Uses one common 9-volt battery (included)
•
Built-in circular bubble level
•
Retroreflective target material included for easy viewing of
the laser spot at long distances
LAT-1 Laser Alignment Tool Specifications
Supply Voltage and Current
One standard 9V battery, included (replaceable); approximately 20 hours of continuous operation
Sensing Beam
Class 2 laser, 640-660 nm visible red IEC
Pulse Width: 7µs
Rep rate: 30µs
Peak output power: 2.8 mW, 33kHz, 25% duty cycle
Beam Size at Aperture
Approximately 2 mm (0.08") diameter
Beam Divergence
± 1.0 milliradian within specified temperature range
± 0.5 milliradians at room temperature
Beam Placement
Within ± 4 milliradians (approximately ±0.25 degrees) of parallel to front, back, top and bottom of housing
Construction
Aluminum housing; black anodized finish
Black polypropylene cover with flexible hinge for battery access
Environmental Rating
NEMA 1; IEC IP50
Operating Conditions
Temperature:
Maximum Relative Humidity:
Laser Classification
U.S. Safety Standards 21 CFR 1040.10
European Standards EN 60825-1:1994
0° to +40°C (+32° to 104°F)
90% @ +50°C (non-condensing)
LAT-1 Laser Alignment Tool Dimensions and Features
LASER LIGHT
LAT - 1
DO NOT STARE INTO BEAM. CLASS 2 LASER PRODUCT.
ON/OFF Switch
Peak Power: 2.8mW, 640-660nm
33kHz 25% duty cycle
COMPLIES WITH 21 CFR PART
1040.10 AND EN60825-1; 1994
AVOID EXPOSURE - LASER LIGHT
EMITTED FROM THIS APERTURE
REQUIRES ONE 9V BATTERY
REMOVE TWO PHILLIPS SCREWS FOR BATTERY ACCESS BELOW
LA
DO
75 mm
(3.0")
SE
NO
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Bubble
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Pea
LA
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RE
Emitter
Centerline
1
QU
IRE
S
ON
E
9V
B
AT
TE
RY
40 mm
(1.6")
W
75 mm
(3.0")
756
21 mm
(0.8")
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
Accessories – DBQ5 Demo Box
DBQ5 Portable Demo Box
•
•
•
•
•
•
Used to power dc self-contained photoelectric sensors for
testing purposes
Designed around the 4-pin euro-style connector
Powered by three standard 9V batteries (27V dc) for very
long service life
Features bi-color LEDs which indicate not only sensor output
status, but also output type (NPN or PNP)
Cable adapters are available to convert to pico-style or ministyle connectors
A 4-pin wiring barrier is mounted on the top of the box to
allow connection of cabled dc sensors
Demo Box
Model
Dimensions
DBQ5
114 mm wide x 62 mm deep x 47 mm high (4.5" x 2.4" x 1.9")
Cable Adapters
Part Number
Type
Used for:
39536
Euro-to-pico
D11, D12, Q23, S12, MINI-BEAM2 and PICO-AMP series sensors
39537
Euro-to-mini
VALU-BEAM, Q45 series, SM30 dc series OPTO-TOUCH and OMNI-BEAM
sensors
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
757
Accessories – SPS100 DC Sensor Power Supply
SPS100 DC Sensor Power Supply
•
Converts 120V ac line voltage to low voltage dc for powering
any Banner dc sensor which has either 4- or 5-pin Euro-style
quick-disconnect (QD)
†
•
SPS100 models include 5 amp-rated SPDT relay for switching
ac loads or large dc loads
•
SPS100S models include an optically-isolated SPST solidstate output for switching ac or dc loads
•
Models with “Q” suffix require a sensor with a pigtail QD
connector; models with “QP” suffix connect to a sensor with
either an integral or pigtail quick-disconnect
†
Note: SPS power supplies are not for use with NAMUR sensors or personal
safety products.
SPS100 Sensor Power Supply Models
Model
Supply Voltage
Sensor Connection
SPS100Q
5-pin Euro-style QD*
SPS100QP
5-pin Pigtail Euro-style QD
SPS100SQ
105-130V ac
60 Hz
SPS100SQP
Supply/Output Cable
Output Type
5-pin Mini QD
“Form C” (SPDT) electromechanical relay
(see specifications for rating information)
4-pin Mini QD
SPST Optically-isolated solid-state switch
(see specifications for rating information)
5-pin Euro-style QD*
5-pin Pigtail Euro-style QD
*Requires 4- or 5-pin Pigtail Euro QD on sensor.
SPS100 Sensor Power Supply Dimensions
Model Suffix “Q”
Model Suffix “QP”
5-pin female Euro-style
QD connector
5-pin female Euro-style
QD connector
50.0 mm
(1.97")
48.8 mm
(1.92")
500 mm (19.7")
pigtail cable
132.5 mm
(5.20")
107.4 mm
(4.23")
142.5 mm
(5.61")
89.9 mm
(3.54")
Output Indicator
Power Indicator
64.5 mm
(2.54")
45.0 mm
(1.77")
ø 38.1 mm (1.50")
14 mm
(0.6")
M5 (#10)
Screw Clearance (2)
Threaded Base M30 x 1.5
Mini-Style QD Connector
758
4.8 mm
(0.19")
40.1 mm
(1.58")
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
Accessories – SPS100 DC Sensor Power Supply
SPS100 Sensor Power Supply Specifications
Supply Voltage
105V ac to 130V ac, 60Hz
Output Power
120mA maximum: 12V dc minimum, 30V dc maximum (dependent on load)
Output Configuration
SPS100Q(P) models: “Form C” (SPDT) electromechanical relay
SPS100SQ(P) models: Optically isolated SPST solid-state switch
Output Rating
SPS100Q(P) models:
Max. switching power (resistive load) = 150 W, 600 VA
Max. switching voltage (resistive load) = 250V ac or 30 V dc (120V ac max. per UL & CSA)
Max. switching current (resistive load) = 5A
Min.. voltage and current = 1 amp at 5V dc, 0.1 amp at 24V dc
Peak switching voltage = 750V ac (transient suppression recommended)
Mechanical life of relay = 10,000,000 operations
SPS100SQ(P) models:
Max. switching voltage = 250V ac or 250V dc
Max. switching current = 150mA at 25°C, derated to 80 mA at 50°C
On-state saturation voltage = less than 3V at 150 mA; less than 1V at 10 mA
Status Indicators
Power On (green) and Output On (red)
Connections
Power connector:
SPS100Q(P) models: 5-pin Mini-style quick disconnect
SPS100SQ(P) models: 4-pin Mini-style quick disconnect
Sensor connector:
“Q” version: 5-pin Euro-style quick-disconnect mounted on housing
“QP” version: PVC jacketed 5-pin pigtail Euro-style quick-disconnect 0.5 meter long
Environmental Rating
IEC IP54
Operating Conditions
Temperature:
Maximum Relative Humidity:
Additional Notes
Compatible with Banner dc sensors with NPN or PNP output, equipped with 4- or 5-pin Euro-style quickdisconnect (except NAMUR sensors).
Model SPS100Q: connects only to sensors equipped with a pigtail Euro-style quick-disconnect
Model SPS100QP: connects to sensors equipped with either a pigtail or sensor-mounted Euro-style quick-disconnect
Model SPS100SQ: connects only to sensors equipped with a pigtail Euro-style quick-disconnect
Model SPS100SQP: connects to sensors equipped with either a pigtail or sensor-mounted Euro-style quick-disconnect
-20° to +50°C (-20° to 122°F)
90% @ +50°C (non-condensing)
SPS100 Sensor Power Supply Hookups
SPS100 Mechanical Relay
SPS100 Solid-State Relay
bn
bu
wh
ye
bk
bn
bu
105-130V ac
NC
bk
C
wh
105-130V ac
Isolated
Solid State
SPST Switch
NO
Quick-Disconnect (QD) Cables
Following is the selection of cables available for SPS100 models. See the Accessories on page 726 for more information.
Style
Model
Length
Connector
Used with:
4-Pin Mini
MBCC-406
MBCC-412
MBCC-430
2 m (6.5')
4 m (12')
9 m (30')
Straight
SPS100SQ, SPS100SQP
5-Pin Mini
MBCC-506
MBCC-512
MBCC-530
2 m (6.5')
4 m (12')
9 m (30')
Straight
SPS100Q, SPS100QP
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
759
Accessories
NOTES:
760
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
Accessories
NOTES:
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
761
Accessories
NOTES:
762
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Supplemental Information
Understanding
Sensing Terms
Data Reference
Tables
Sensing Modes . . . . . . . . . . . . . . . . . . . . .764
Output Types . . . . . . . . . . . . . . . . . . . . . . .766
Performance Specifications . . . . . . . . . . . . .767
Environmental Ratings . . . . . . . . . . . . . . . .768
Table 1 - Units for Photoelectric Specs . . . . . .769
Table 2 - Unit Prefixes . . . . . . . . . . . . . . . . .769
Table 3 - English Metric Conversion . . . . . . . .770
Table 4 - Drill Sizes for Mounting Hardware . .770
Table 5 - Velocity Conversion . . . . . . . . . . . .771
Table 6 - Velocity Conversion Factors . . . . . . .772
Table 7 - Length Conversion Factors . . . . . . .772
Table 8 - Temperature Conversion . . . . . . . . .773
Table 9 - Trig Functions & Formulas . . . . . . .774
Basic Electrical Formulas . . . . . . . . . . . . . .775
Table 10 - Resistor Color Codes . . . . . . . . . .775
Table 11 - Copper Wire Information . . . . . . . .776
Table 12 - Hazardous Classifications . . . . . . .777
Table 13 - Nema Ratings . . . . . . . . . . . . . . .778
Table 14 - IP Enclosure Ratings . . . . . . . . . .778
Table 15 - Chemical Resistance of Sensor . . .779
Housing Materials & Lenses
Other Banner
Products
International
Distributor List
Banner Machine Safety Products . . . . . . . . . .780
Banner Measurement & Inspection Products . .786
North America . . . . . . . . . . . . . . . . . . . . . .792
Europe . . . . . . . . . . . . . . . . . . . . . . . . . . .792
Africa and Middle East . . . . . . . . . . . . . . . .793
Asia and the Pacific Rim . . . . . . . . . . . . . . .793
Latin America . . . . . . . . . . . . . . . . . . . . . .794
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
763
Understanding Sensing Terms – Sensing Modes
MBIENT LIGHT RECEIVERS: Ambient light receivers, such as
MULTI-BEAM model SBAR1, are operated by sunlight, room light,
or laser light sources. These sensors are also used to sense the large
amounts of infrared light (heat energy) emitted by hot or molten
glass, metal, or plastic during processing of these materials.
A
PPOSED (A.K.A. “THROUGH-BEAM”) SENSING MODE:
The opposed mode requires a separate emitter and receiver that are
positioned opposite each other so that the light from the emitter shines
directly on the receiver. An object is sensed when it interrupts the light
beam. The opposed mode is the most efficient use of photoelectric sensing energy, and offers the highest level of excess gain for reliable sensing through dirt, fog, or other challenging environments.
O
ETROREFLECTIVE (A.K.A. “RETRO”) SENSING MODE:
R
Retroreflective mode sensors have both the emitter and the receiver in the same housing. A light beam is established between the sensor
P
and a special retroreflective target (see page 722). An object is sensed
when it interrupts the light beam. Retro is the most popular sensing
mode for conveyor control and similar applications where there is an
advantage to have a sensor on only one side of the sensing process.
Polarized retroreflective sensors are used when the object to be
detected is highly reflective. Special laser retro sensors, such as Q45LL
(page 382), offer very long range and accurate sensing repeatability.
IFFUSE (A.K.A. “PROXIMITY”) SENSING MODE: Diffuse mode
D
sensors contain both the emitter and the receiver in the same
housing. An object is detected when the receiver captures the small
percentage of emitted light that is reflected back to the sensor from
the surface of the object itself. Minimal lensing is used so as to project the emitted light in a broad (diffused) pattern and give the receiver a wide field of view. Special models called divergent mode sensors
use no lenses at all for extremely forgiving alignment to objects that
are difficult for reflective sensors to sense, such as clear materials
and very small parts.
ONVERGENT BEAM SENSING MODE: The convergent mode is
C
similar to the diffuse sensing mode because an object is sensed
when the receiver sees light reflected back to the sensor by the
object itself. Unlike diffuse mode sensors, however, convergent sensors use additional optics to produce a small and well-defined sensing area, focused at a fixed point ahead of the sensor lens. Because
convergent sensors make much more efficient use of sensing light
energy, they can sense relatively non-reflective materials and objects
with small reflective surfaces. They are, however, much less forgiving
to sensing distance, as compared to diffuse mode sensors.
764
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
Understanding Sensing Terms – Sensing Modes
IXED-FIELD AND ADJUSTABLE FIELD SENSING MODES: FixedFsensing
field sensors use two receivers and a comparator circuit to cancel
response whenever the intensity of the reflected light reaching the long-range receiver exceeds the intensity of the reflected light
reaching the close-range receiver. As a result, any object lying beyond
the sensor’s fixed “cutoff point” can be reliably ignored. Adjustable
field sensors use an array of multiple receiver elements, which allows
the sensor circuitry to move the locations of the cutoff point with a
simple adjustment.
IBER OPTIC SENSING MODES: Transparent fibers of glass or plastic may be used for conducting and guiding photoelectric sensing
light energy. Individual fibers are usually used in pairs for opposed
mode sensing. Bifurcated fibers combine the emitted and received
light in the same assembly, and are usually used for diffuse mode
sensing. Bifurcated fiber optics are sometimes fitted with an optional
lens for retroreflective mode sensing. Fiber optics comprise the
smallest photoelectric sensors and can fit into extremely tight spaces.
Most glass fiber optics are able to withstand sensing environments
where there are corrosive materials and/or where the temperature is
too high for sensor electronics. Most sensor families include models
for use with fiber optics.
F
IGHT SCREENS (A.K.A. LIGHT CURTAINS): A light screen is an
Lanywhere
array of photoelectric beams configured to sense objects passing
through an area (i. e. - through a sensing plane). Some
light screens, such as MINI-ARRAY or BEAM-ARRAY™ models work
together with a microprocessor-based controller to measure and/or
profile one dimension of an object that passes through the sensing
plane (See the Banner Measurement and Inspection Sensor Catalog).
Other light screens, such as LS Series sensors (page 526), are
designed simply for sensing the presence of a part in the sensing
plane, and are usually used for parts counting or die ejection verification. Safety light screens, such as the MINI-SCREEN®, include the
necessary self-checking redundant circuitry necessary to allow their
use in personnel safety applications. See the Banner Machine Safety
Products Catalog and the “Important Safety Warning” inside the front
cover of this catalog.
LTRASONIC SENSING MODES: Ultrasound may be used for
U
opposed mode or reflective proximity mode detection of clear
materials and other objects that are difficult to detect with photoelectric sensors. Ultrasonic proximity mode sensors measure the time
delay between the emitted sound and the returned echo, and produce
an accurate measurement of sensing distance. Ultrasonic analog
proximity sensors produce an output that has a highly linear relationship to sensing distance. Ultrasonic proximity sensors with switched
outputs, such a OMNI-BEAM™ and Q45U models, offer a “high/low
level” mode that can directly control fill level of liquids or solids. (See
the Banner Measurement and Inspection Sensor Catalog)
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
765
Understanding Sensing Terms – Output Types
NALOG RESPONSE: Most sensors offer a switched (discrete) output. Sensors with an analog output produce a variable voltage or
current that is proportional to some sensing parameter. The output of
an analog photoelectric sensor is proportional to the strength of the
received light signal (see Analog OMNI-BEAM™ sensors, page 444). The
output of an analog ultrasonic proximity mode sensor is proportional to
the distance from the sensor to the object that is returning the sound
echo. (See the Banner Measurement and Inspection Sensor Catalog)
A
WITCHED (A.K.A. DISCRETE OR BINARY) OUTPUT: Most senS
sors are used for presence sensing and offer a relay as an output
switching device. The relay switch is always in either one of two
states: open or closed (“ON” or “OFF”).
LECTROMECHANICAL (“E/M”) RELAYS offer one or more “hard”
contacts (metal-to-metal) and are switched to the opened or
closed position by applying voltage to an electromagnetic coil. E/m
relays can switch the highest power levels. They are limited by slow
switching speed and a finite mechanical life.
E
Collector
Base
Emitter
766
OLID-STATE RELAYS use switching elements such as transistors
S
for dc loads and SCRs or FETs for ac loads. Solid-state relays
offer fast switching speed and infinite life. They are limited by their
power ratings, and are protected in most sensors against damage
from overload by additional circuitry.
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
Understanding Sensing Terms – Performance Specifications
XCESS GAIN: Excess gain is a photoelectric sensor specification. It
is a measurement of the amount of light falling on the receiver over
and above the minimum amount of light required to just operate the
sensor’s amplifier. Excess gain is plotted versus sensing distance.
Excess gain values are used to predict the reliability of a photoelectric
sensor operating in a known sensing environment (see, below).
E
1000
SM312DBZ
SM2A312DBZ
E
X
C
E
S
S
Diffuse Mode
100
Excess Gain Guidelines
Operating Environment
10
G
A
I
N
CLEAN AIR: No dirt buildup on lenses or reflectors
1
1 mm
.04 in
10 mm
.40 in
100 mm
4.0 in
1000 mm
40 in
DISTANCE
Excess Gain Required
1.5
SLIGHTLY DIRTY: Slight buildup of lint, paper, dust,
moisture, or film on lenses or reflectors; lenses cleaned
regularly
5
MODERATELY DIRTY: Obvious contamination of lenses
and reflector, but not obscured; lenses cleaned occasionally or when necessary
10
VERY DIRTY: Heavy contamination of lenses; fog, mist
or dust; minimal cleaning of lenses
50 or more
EAM PATTERN: Beam patterns are two-dimensional plots of sensor
response versus sensing distance. They can be helpful in predicting
sensor performance. A beam pattern for an opposed mode sensor pair
represents the boundary within which the receiver will effectively “see”
the emitted light beam, assuming no angular misalignment between
the emitter and receiver. Retroreflective beam patterns are plotted
using a model BRT-3 retroreflective target. Diffuse and convergent
mode beam patterns represent the boundary within which the edge of
200 x 250 mm (8 x 10 in) Kodak 90% reflectance white test card is
detected as it moves into the sensing area. A beam pattern is affected
by many sensing variables, and should be considered as a guideline
and not as an exact specification.
B
SM312DBZ/SM2A312DBZ
15 mm
Diffuse Mode
0.6 in
10 mm
0.4 in
5 mm
0.2 in
0
0
5 mm
0.2 in
10 mm
0.4 in
0.6 in
15 mm
0
75 mm 150 mm 225 mm 300 mm 375 mm
3.0 in
6.0 in
9.0 in 12.0 in 15.0 in
DISTANCE
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
767
Understanding Sensing Terms – Environmental Ratings
RATING: Banner sensors and modules are rated
EtwoforNVIRONMENTAL
their suitability for use in various sensing environments using
rating systems: National Electrical Manufacturers Association
(NEMA) and The International Electrotechnical Commission (IEC).
NEMA Standards Publication No. 250 guidelines are outlined:
NEMA 1
NEMA 2
NEMA 3
NEMA 3S
NEMA 4
NEMA 4X
NEMA 6
NEMA 6P
NEMA 7
NEMA 9
NEMA 12
NEMA 13
Indoor Use
Indoor Use
Outdoor Use
Outdoor Use
In- or Outdoor
In- or Outdoor
In- or Outdoor
In- or Outdoor
Indoor Use
Indoor Use
Indoor Use
Indoor Use
Protects against accidental contact by personnel & falling dirt
Protects against falling dirt, liquid & light splash
Protects against rain, sleet, snow, dirt & dust
Protects against rain, sleet, snow, dirt, dust & ice buildup
Protects against dirt, dust, hosedown (and heavy splash)
Protects against dirt, dust, hosedown & corrosion
Protects against dirt, dust, hosedown & occasional submersion
Protects against dirt, dust, hosedown & prolonged submersion
For use in areas of explosive gases or vapors or combustible dust
For use in areas of atmospheres containing combustible dust
Protects against dirt, dust, light splash & oil or coolant seepage
Protects against dirt, dust, light splash & oil or coolant spray
The rating system established by IEC Publications 144 and 529 define
the following “IP” ratings:
1ST CHARACTERISTIC: Protection against contact and penetration of solid bodies
Numeral
Short Description
0
Non-protected
1
Protected against solid objects greater than 50 mm
2
Protected against solid objects greater than 12 mm
3
Protected against solid objects greater than 2.5 mm
4
Protected against solid objects greater than 1.0 mm
5
Dust protected
6
Dust-tight
2ND CHARACTERISTIC: Protection against the penetration of liquids
Numeral
0
1
2
3
4
5
6
7
8
Short Description
Non-protected
Protected against dripping water
Protected against dripping water when tilted up to 15°
Protected against spraying water
Protected against splashing water
Protected against water jets
Protected against heavy seas
Protected against the effects of immersion
Protected against submersion
(A.K.A. “I.S.”) SENSORS: Intrinsic safety is a
IuseNTRINSICALLY-SAFE
design technique applied to electrical equipment, including sensors, for
in hazardous (explosive) locations. The technique involves limiting
electrical and thermal energy to a level below that required to ignite a
specific hazardous atmosphere. I.S. sensors are used with intrinsic safety
barriers, which are protective components designed to limit the voltage
and current within the hazardous atmosphere. See the SMI912 Series,
page 356 and the SMI30 Series, page 290.
AMUR SENSORS: NAMUR photoelectric sensors are 2-wire devices
N
that change their internal resistance relative to the intensity of the
received light. They are designed for use with certified switching ampli-
LISTE D
768
fiers with intrinsically-safe circuits, which convert this change to a binary
output signal. NAMUR sensors are most commonly used in hazardous
(explosive) sensing environments. See the Q45AD9 Series, page 414 and
the MIAD9 Series, page 146.
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
Data Reference Tables
TABLE 1. Units for Photoelectric Specifications
Unit
Symbol
ac volts
V ac
ampere
A
dc volts
V dc
Physical Quantity
electrical potential – alternating current
electrical current
electrical potential – direct current
degrees Celsius
°C
temperature (see Table 8 )
degrees Fahrenheit
°F
temperature (see Table 8 )
Hertz
Hz
frequency
lumen*
lm
light energy
lux
lx
illumination (lm/m2)
meter
m
length
microamp
µA
electrical current (10-6 A)
microsecond
µs
time (10-6 s)
milliamp
mA
electrical current (10-3 A)
millimeter
mm
length (10-3 m)
millisecond
ms
time (10-3 s)
nanometer
nm
length (light wavelength)
ohm
Ω
electrical resistance
second
s
time
volt
V
electrical potential
volt-amp
VA
power
watt
W
power
*1 lumen = 0.001496 watt of monochromatic light at a wavelength of 546 nm
TABLE 2. Unit Prefixes
Decimal
Equivalent
Prefix
Symbol
1 000 000 000 000
tera
T
1012
1 000 000 000
giga
G
109
1 000 000
mega
M
106
kilo
k
103
100
hecto
h
102
10
deka
da
10
0.1
deci
d
10-1
0.01
centi
c
10-2
0.001
milli
m
10-3
0.000 001
micro
µ
10-6
0.000 000 001
nano
n
10-9
0.000 000 000 001
pico
p
10-12
1 000
Exponential
Expression
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
769
Data Reference Tables
TABLE 3. English-Metric Conversion
Inch
Fraction
Inch
Decimal
------1/64
--------1/32
------3/64
1/16
5/64
--3/32
7/64
--1/8
9/64
5/32
--11/64
3/16
--13/64
7/32
15/64
--1/4
17/64
---
.0039
.0079
.0118
.0156
.0157
.0197
.0236
.0276
.0312
.0315
.0354
.0394
.0469
.0625
.0781
.0787
.0938
.1094
.1181
.1250
.1406
.1562
.1575
.1719
.1875
.1968
.2031
.2188
.2344
.2362
.2500
.2656
.2756
Inch
Fraction
Millimeter
0.1
0.2
0.3
0.397
0.4
0.5
0.6
0.7
0.794
0.8
0.9
1
1.191
1.588
1.984
2
2.381
2.778
3
3.175
3.572
3.969
4
4.366
4.762
5
5.159
5.556
5.953
6
6.350
6.747
7
9/32
19/64
5/16
--21/64
11/32
--23/64
3/8
25/64
--13/32
27/64
--7/16
29/64
15/32
--31/64
1/2
--33/64
17/32
35/64
--9/16
37/64
--19/32
39/64
5/8
--41/64
Inch
Decimal
.2812
.2969
.3125
.3150
.3281
.3438
.3543
.3594
.375
.3906
.3937
.4062
.4219
.4331
.4375
.4531
.4688
.4724
.4844
.500
.5118
.5156
.5312
.5469
.5512
.5625
.5781
.5905
.5938
.6094
.625
.6299
.6406
To convert millimeters to inches, multiply by 0.0394.
Millimeter
Inch
Fraction
7.144
7.541
7.938
8
8.334
8.731
9
9.128
9.525
9.922
10
10.319
10.716
11
11.112
11.509
11.906
12
12.303
12.700
13
13.097
13.494
13.891
14
14.288
14.684
15
15.081
15.478
15.875
16
16.272
21/32
--43/64
11/16
45/64
--23/32
47/64
--3/4
49/64
25/32
--51/64
13/16
--53/64
27/32
55/64
--7/8
57/64
--29/32
59/64
15/16
--61/64
31/32
--63/64
1
---
Inch
Decimal
Millimeter
.6562
.6693
.6719
.6875
.7031
.7087
.7188
.7344
.7480
.750
.7656
.7812
.7874
.7969
.8125
.8268
.8281
.8438
.8594
.8661
.875
.8906
.9055
.9062
.9219
.9375
.9449
.9531
.9688
.9842
.9844
1.000
---
16.669
17
17.066
17.462
17.859
18
18.256
18.653
19
19.050
19.447
19.844
20
20.241
20.638
21
21.034
21.431
21.828
22
22.225
22.622
23
23.019
23.416
23.812
24
24.209
24.606
25
25.003
25.400
---
To convert inches to millimeters, multiply by 25.4.
TABLE 4. Drill Sizes for Mounting Hardware
Thread Size
Tap Drill
Clearance Drill
#2-56
#50 (0.0700")
#42 (0.0935")
#4-40
#43 (0.0890")
#31 (0.1200")
#6-32
#36 (0.1065")
#25 (0.1495")
#6-40
#33 (0.1130")
#25 (0.1495")
#8-32
#29 (0.1360")
#16 (0.1770")
#10-24
#25 (0.1495")
#7 (0.2010")
#10-32
#21 (0.1590")
#7 (0.2010")
#1/4"-20
#7 (0.2010")
#H (0.2660")
#5.16"-24
#I (0.2720")
#Q (0.3320")
#3/8"-32
11/32 (0.3438")
25/64" (0.3906")
#7/16"-20
25/64" (0.3906")
15/32" (0.4687")
#1/2"-14 NPSM
23/32" (0.7188")
55/64" (0.8594")
#1/2"-32
15/32" (0.4688")
17/32"(0.5312")
770
Thread Size
Tap Drill
Clearance Drill
M2.5 x 0.45
2.05mm (0.0807")
or #46 (0.0810")
2.9mm (0.1142")
or #32 (0.1160")
M3 x 0.5
2.50mm (0.0984")
or #39 (0.0995")
3.4mm (0.1339")
or #29 (0.1360")
M4 x 0.7
3.30mm (0.1299")
or #29 (0.1360")
4.5mm (0.1772")
#15 (0.1800")
M6 x 0.75
5.00mm (0.1969")
or #8 (0.1990")
6.6mm (0.2598")
or #G (0.2610")
M18 x 1
15.5mm (0.6102")
or 39/64" (0.6094")
20.0mm (0.7874")
or 51/64" (0.7969")
M30 x 1.5
26.5 mm (1.0433")
or 1-3/64" (1.0469")
33.0mm (1.2992")
or 1-5/16" (1.3125")
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
Data Reference Tables
TABLE 5. Velocity Conversion
1
2
3
4
Feet/minute
Meters/
minute
Inches/
minute
Millimeters/
minute
Inches/
second
Millimeters/
second
Seconds/
inch
Seconds/
millimeter
.5
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
30
40
50
60
70
80
90
100
125
150
175
200
225
250
275
300
325
350
375
400
450
500
600
700
800
900
1000
1250
1665
2500
5000
.152
.305
.610
.914
1.22
1.52
1.83
2.13
2.44
2.74
3.05
3.35
3.66
3.96
4.27
4.57
4.88
5.18
5.49
5.79
6.10
6.40
6.71
7.01
7.31
7.62
9.14
12.19
15.24
18.29
21.34
24.38
27.43
30.48
38.10
45.72
53.34
60.96
68.58
76.20
83.82
91.44
99.06
106.7
114.3
121.9
137.2
152.4
182.9
213.4
243.8
274.3
304.8
381.0
507.5
762.0
1524
6
12
24
36
48
60
72
84
96
108
120
132
144
156
168
180
192
204
216
228
240
252
264
276
288
300
360
480
600
720
840
960
1080
1200
1500
1800
2100
2400
2700
3000
3300
3600
3900
4200
4500
4800
5400
6000
7200
8400
9600
10800
12000
15000
19980
30000
60000
152.4
304.8
609.6
914.4
1219.2
1524.0
1828.8
2133.6
2438.4
2743.2
3048.0
3352.8
3657.6
3962.4
4267.2
4572.0
4876.8
5181.6
5486.4
5791.2
6096.0
6400.8
6705.6
7010.4
7315.2
7620.0
9144.0
12192
15240
18288
21336
24384
27432
30480
38100
45720
53340
60960
68580
76200
83820
91440
99060
106680
114300
121920
137160
152400
182880
213360
243840
274320
304800
381000
507492
762000
1524000
.10
.20
.40
.60
.80
1.0
1.2
1.4
1.6
1.8
2.0
2.2
2.4
2.6
2.8
3.0
3.2
3.4
3.6
3.8
4.0
4.2
4.4
4.6
4.8
5.0
6.0
8.0
10
12
14
16
18
20
25
30
35
40
45
50
55
60
65
70
75
80
90
100
120
140
160
180
200
250
333
500
1000
2.540
5.080
10.16
15.24
20.32
25.40
30.48
35.56
40.64
45.72
50.8
55.88
60.96
66.04
71.12
76.20
81.28
86.36
91.44
96.52
101.6
106.7
111.8
116.8
121.9
127.0
152.4
203.2
254.0
304.8
355.6
406.4
457.2
508.0
635.0
762.0
889.0
1016
1143
1270
1397
1524
1651
1778
1905
2032
2286
2540
3048
3556
4064
4572
5080
6350
8458
12700
25400
10.0
5.0
2.50
1.67
1.25
1.00
.833
.714
.625
.555
.500
.455
.417
.385
.357
.333
.313
.294
.278
.263
.250
.238
.227
.217
.208
.200
.167
.125
.100
.083
.071
.063
.056
.050
.040
.033
.029
.025
.022
.020
.018
.016
.015
.014
.013
.012
.011
.010
.0083
.0071
.0063
.0055
.0050
.0040
.0030
.0020
.0010
.394
.197
.098
.0656
.0492
.0394
.0328
.0281
.0246
.0219
.0197
.0179
.0164
.0151
.0141
.0131
.0123
.0116
.0109
.0104
.00984
.00937
.00895
.00856
.00820
.00787
.00656
.00492
.00394
.00328
.00281
.00246
.00219
.00197
.00157
.00131
.00112
.00098
.00087
.00079
.00072
.00066
.00061
.00056
.00052
.00049
.00044
.00039
.00033
.00028
.00025
.00022
.000197
.000157
.000118
.000079
.000039
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
771
Data Reference Tables
TABLE 6. Velocity Conversion Factors
To:
Miles/
hour
Feet/
minute
Inches/
minute
Meters/
minute
Centimeters/
minute
Feet/
second
Inches/
second
Meters/
second
Millimeters/
second
1.0
88
1056
26.822
2682.24
1.4667
17.60
0.4470
447.0
foot/
minute
1.1364x10-2
1.0
12.0
0.3048
30.48
1.6667x10-2
20.000
5.08x10-3
5.08
inch/
minute
9.470x10-4
8.333x10-2
1.0
2.540x10-2
2.54
1.3888x10-3
1.6666x10-2
4.23x10-4
0.0423
meter/
minute
3.7282x10-2
3.281
39.372
1.0
100.0
5.468x10-2
0.6562
1.667x10-2
16.667
centi1 minute
meter/
3.7282x10-4
3.281x10-2
0.3937
0.01
1.0
5.468x10-4
6.5616x10-3
1.667x10-4
0.1667
0.6818
60
720
18.29
1829
1.0
12
0.3048
304.8
5.6818x10-2
5
60
1.524
152.4
8.333x10-2
1.0
2.540x10-2
25.40
2.2369
196.85
2362.2
60.0
6000.0
3.281
39.372
1.0
1000
2.2369x10-3
0.1969
2.3622
6.0x10-2
6.000
3.281x10-3
3.937x10-2
1x10-3
1.0
Meters
Kilometers
Miles
(imperial)
3.2808x10-10 1.0936x10-10
1.0x10-10
1.0x10-13
6.2137x10-14
From:
1
1
1
1
1
mile/
hour
foot/
second
1 inch/
second
1
meter/
second
milli1 second
meter/
TABLE 7. Length Conversion Factors
To:
Angstroms
Millimeters
Centimeters
Inches
Angstrom
(Å)
1.0
1.0x10-7
1.0x10-8
3.937x10-9
millimeter
(mm)
1.0x107
1.0
0.1
0.0394
3.2808x10-3
1.0936x10-3
1.0x10-3
1.0x10-6
6.2137x10-7
centimeter
(cm)
1.0x108
10.0
1.0
0.3937
0.0328
0.0109
0.01
1.0x10-5
6.2137x10-6
inch
(in)
2.54x108
25.4
2.54
1.0
0.0833
0.0278
0.0254
2.54x10-5
1.5783x10-5
foot
(ft)
3.048x109
304.8
30.48
12.0
1.0
0.3333
0.3048
3.048x10-4
1.8939x10-4
yard
(yd)
9.144x109
914.4
91.44
36.0
3.0
1.0
0.9144
9.144x10-4
5.6818x10-4
meter
(m)
1.0x1010
1.0x103
100.0
39.3701
3.2808
1.0936
1.0
1.0x10-3
6.2137x10-4
kilometer
(km)
1.0x1013
1.0x106
1.0x105
3.937x104
3.2808x103
1.0936x103
1.0x103
1.0
0.6214
1.6093x105
6.336x104
5.280x103
1.760x103
1.6093x103
1.6093
1.0
From:
1
1
1
1
1
1
1
1
1
772
mile
1.6093x1013 1.6093x106
(imperial)
Feet
Yards
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
Data Reference Tables
TABLE 8. Temperature Conversion: °C
°F
Celsius°
Fahrenheit°
Celsius°
Fahrenheit°
Celsius°
Fahrenheit°
-62
-57
-51
-46
-40
-34
-29
-23
-17.8
-17.2
-16.7
-16.1
-15.6
-15.0
-14.4
-13.9
-13.3
-12.8
-12.2
-11.7
-11.1
-10.6
-10.0
-9.4
-8.9
-8.3
-7.8
-7.2
-6.7
-6.1
-5.6
-5.0
-4.4
-3.9
-3.3
-2.8
-2.2
-1.7
-1.1
-0.6
-80
-70
-60
-50
-40
-30
-20
-10
0
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
0.0
0.6
1.1
1.7
2.2
2.8
3.3
3.9
4.4
5.0
5.6
6.1
6.7
7.2
7.8
8.3
8.9
9.4
10.0
10.6
11.1
11.7
12.2
12.8
13.3
13.9
14.4
15.0
15.6
16.1
16.7
17.2
17.8
18.3
18.9
19.4
20.0
20.6
21.1
21.7
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
51
52
53
54
55
56
57
58
59
60
61
62
63
64
65
66
67
68
69
70
71
22.2
22.8
23.3
23.9
24.4
25.0
25.6
26.1
26.7
27.2
27.8
28.3
28.9
29.4
30.0
30.6
31.1
31.7
32.2
32.8
33.3
33.9
34.4
35.0
35.6
36.1
36.7
37.2
37.8
43
49
54
60
66
71
77
82
88
93
100
72
73
74
75
76
77
78
79
80
81
82
83
84
85
86
87
88
89
90
91
92
93
94
95
96
97
98
99
100
110
120
130
140
150
160
170
180
190
200
212
NOTE: For temperatures not given in
the table, use the conversion
information at the right.
Water
Boiling
Point
Water
Freezing
Point
To Convert
Scales:
°F
(Fahrenheit)
212°F
32°F
°F = (°C x 9/5) + 32
°C
(Celsius or
Centigrade)
100°F
0°C
°C = (°F - 32) x 5/9
Temperature
Scale
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
773
Data Reference Tables
TABLE 9. Trigonometric Functions and Formulas
Degrees
sin
cos
tan
cot
sec
csc
0
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
0.0000
0.0174
0.0349
0.0523
0.0698
0.0872
0.1045
0.1219
0.1392
0.1564
0.1736
0.1908
0.2079
0.2250
0.2419
0.2588
0.2756
0.2924
0.3090
0.3256
0.3420
0.3584
0.3746
0.3907
0.4067
0.4226
0.4384
0.4540
0.4695
0.4848
0.5000
0.5150
0.5299
0.5446
0.5592
0.5736
0.5878
0.6018
0.6157
0.6293
0.6428
0.6561
0.6691
0.6820
0.6947
0.7071
1.0000
0.9998
0.9994
0.9986
0.9976
0.9962
0.9945
0.9925
0.9903
0.9877
0.9848
0.9816
0.9781
0.9744
0.9703
0.9659
0.9613
0.9563
0.9511
0.9455
0.9397
0.9336
0.9272
0.9205
0.9135
0.9063
0.8988
0.8910
0.8829
0.8746
0.8660
0.8572
0.8580
0.8387
0.8290
0.8192
0.8090
0.7986
0.7880
0.7771
0.7660
0.7547
0.7431
0.7314
0.7193
0.7071
0.0000
0.0175
0.0349
0.0524
0.0699
0.0875
0.1051
0.1228
0.1405
0.1584
0.1763
0.1944
0.2126
0.2309
0.2493
0.2679
0.2867
0.3057
0.3249
0.3443
0.3640
0.3839
0.4040
0.4245
0.4452
0.4663
0.4877
0.5095
0.5317
0.5543
0.5774
0.6009
0.6249
0.6494
0.6745
0.7002
0.7265
0.7536
0.7813
0.8098
0.8391
0.8693
0.9004
0.9325
0.9567
1.0000
–
57.290
28.636
19.081
14.301
11.430
9.5144
8.1443
7.1154
6.3138
5.6713
5.1446
4.7046
4.3315
4.0108
3.7320
3.4874
3.2708
3.0777
2.9042
2.7475
2.6051
2.4751
2.3558
2.2460
2.1445
2.0503
1.9626
1.8807
1.8040
1.7320
1.6643
1.6003
1.5399
1.4826
1.4281
1.3764
1.3270
1.2799
1.2349
1.1918
1.1504
1.1106
1.0724
1.0355
1.0000
1.0000
1.0002
1.0006
1.0014
1.0024
1.0038
1.0055
1.0075
1.0098
1.0125
1.0154
1.0187
1.0223
1.0263
1.0306
1.0353
1.0403
1.0457
1.0515
1.0576
1.0642
1.0711
1.0785
1.0864
1.0946
1.1034
1.1126
1.1223
1.1326
1.1434
1.1547
1.1666
1.1792
1.1924
1.2062
1.2208
1.2361
1.2521
1.2690
1.2868
1.3054
1.3250
1.3456
1.3673
1.3902
1.4142
–
57.299
28.654
19.107
14.336
11.474
9.5668
8.2055
7.1853
6.3924
5.7588
5.2408
4.8097
4.4454
4.1336
3.8637
3.6280
3.4203
3.2361
3.0715
2.9238
2.7904
2.6695
2.5593
2.4586
2.3662
2.2812
2.2027
2.1300
2.0627
2.0000
1.9416
1.8871
1.8361
1.7883
1.7434
1.7013
1.6616
1.6243
1.5890
1.5557
1.5242
1.4945
1.4663
1.4396
1.4142
90
89
88
87
86
85
84
83
82
81
80
79
78
77
76
75
74
73
72
71
70
69
68
67
66
65
64
63
62
61
60
59
58
57
56
55
54
53
52
51
50
49
48
47
46
45
Degrees
cos
sin
cot
tan
csc
sec
Degrees
Trigonometric Formulas for Distance or Angle Calculation
Relationships:
Z
Y
Ø
X
Given ø and X:
Given ø and Y:
774
Y = X tan ø
X = Y cot ø
Z = X sec ø
Z = Y csc ø
sin ø = Y/Z
cos ø = X/Z
tan ø = X/Y
csc ø = Z/Y = 1/sin ø
sec ø = Z/X = 1/cos ø
cot ø = X/Y = 1/tan ø
Given ø and Z:
Given X and Y:
X = Z cos ø
Z = √X2 + Y2
Y = Z sin ø
ø = arctan (Y/X)
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
Data Reference Tables
Basic Electrical Formulas
Ohm’s Law describes the relationship between voltage, resistance, and current in electrical circuits. As stated by Ohm’s Law,
the current in the figure below is directly proportional to the
applied voltage and inversely proportional to the resistance of
the circuit. This relationship, in the form of an equation, is written as follows:
IR
P
I
Ohm's Law Circuit
I (amperes)
I2 R
P
R
P=ExI
As an example, if R=100 ohms and E=10 volts, then the current
in the circuit is equal to:
EI
Digit
Multiplier
Tolerance
0
1
2
3
4
5
6
7
8
9
1
10
100
1000
10000
100000
1000000
10000000
100000000
±1%
±2%
±3 %
±4%
0.1
0.01
±5%
±10%
±20%
P = E2
R
P = I2 x R
As an example, if R = 1000 ohms and E = 10 volts, the power
used in the circuit is:
P = E2 = 100 = 1/10 watt = 100 milliwatts
R 1000
or 1/10 amp, or 100 milliamps
TABLE 10. Resistor Color Codes
black
brown
red
orange
yellow
green
blue
violet
gray
white
gold
silver
no color
E2
R
P
P
E
–
Color
I
Electrical power may also be quantified in terms of a single
equation. Power is the rate of doing work, and is measured in
units called watts. Watts are equal to voltage x current. DC
power equations relate power (in watts), current (in amperes),
and resistance (in ohms), as follows:
E
(volts)
I = 10
100
P
I2
R
(amps) (watts)
R=E
I
R (ohms)
+
E2
P
(volts) (ohms)
E
R
where I is the current (in amperes), E is the electromotive force
(in volts), and R is the resistance (in ohms). It follows that:
and
E
PR
I=E
R
E=IxR
E
I
The colored bands on the bodies of resistors denote their value (in
ohms), and their tolerance (in ±%). With the resistor positioned as
shown below, the first two color bands are digits ,the next is the multiplier, and the next (if present) is the tolerance.
As an example ,a resistor color-coded YELLOW-VIOLET-BROWN-GOLD
would be 47 x 10, ±5% tolerance or: 470 ohms (±5% tolerance).
Precision resistors usually have their values stamped on the resistor
body. Some film-type resistors may have three significant figures and,
therefore, use five color bands (including 3 digit bands and 1 multiplier
band).
Digit 1
Tolerance
Digit 2
Multiplier
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
775
Data Reference Tables
TABLE 11. Copper Wire Information
AWG
0000
000
00
0
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
Solid Wire Diameter
American Wire or
Brown and Sharpe Gage
Approximate
Stranded Wire Diameter1
Approximate
Resistance per 100 feet
(30 meters)2
Inches
Millimeters
Inches
Millimeters
Ohms
.4601
.4097
.3648
.3249
.2893
.2576
.2294
.2043
.1819
.1620
.1443
.1285
.1144
.1019
.0907
.0808
.0720
.0641
.0571
.0508
.0453
.0403
.0359
.0320
.0285
.0253
.0226
.0201
.0179
.0159
.0142
.0126
.0113
.0100
.00892
.00795
.00708
.00630
.00561
.00500
.00445
.00396
.00353
.00314
.00280
.00249
.00222
.00198
.00176
.00157
11,687
10.406
9.266
8.252
7.348
6.543
5.827
5.189
4.620
4.115
3.665
3.264
2.906
2.588
2.304
2.052
1.829
1.628
1.450
1.290
1.151
1.024
0.912
0.813
0.724
0.643
0.574
0.511
0.455
0.404
0.361
0.320
0.287
0.254
0.227
0.202
0.180
0.160
0.142
0.127
0.113
0.101
0.090
0.080
0.071
0.063
0.056
0.050
0.045
0.040
.522
.464
.414
.368
.328
.292
13.26
11.79
10.52
9.35
8.33
7.42
.232
5.89
.184
4.67
.147
3.73
.116
2.95
.095
2.41
.073
1.85
.059
1.50
.048
1.22
.036
0.91
.030
0.76
.024
0.61
.020
.018
.015
0.51
0.46
0.38
.012
0.30
.008
0.20
.007
0.18
.006
0.15
.0050
.0060
.0080
.010
.012
.016
.020
.025
.030
.040
.050
.060
.080
.10
.13
.16
.20
.25
.32
.40
.50
.64
.80
1.0
1.3
1.6
2.0
2.6
3.2
4.1
5.2
6.5
8.2
10
13
16
20
26
33
42
52
66
83
105
130
170
210
270
330
420
1
Exact diameter is dependent upon the wire gage used for the strands. Diameter listed represents the most common
wire type for AWG.
2
Resistance values assume the resistivity of solid copper wire. Stranding and/or copper alloy increase the resistance values.
776
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
Locations in which there is the presence of
easily-ignited fibers or flyings, but where the
fibers or flyings are not likely to be in suspension in the air in quantities great enough to
produce ignitable mixtures.
CLASS III
Locations in which there are explosive mixtures of air and combustible dust.
CLASS II
Locations in which flammable gases or vapors are (or may be) present in the air in
quantities great enough to produce explosive
or ignitable mixtures.
CLASS I
CLASS
DIVISION 2: Locations in which easily ignitable
fibers are stored or handled (except in a manufacturing process).
DIVISION 1: Locations in which easily ignitable
fibers or materials producing flyings are handled,
manufactured, or used.
-or- Locations where combustible dust deposits
may be ignited by arcs, sparks, or burning material
from electric equipment.
DIVISION 2: Locations where combustible dust deposits exist but are not likely to be thrown into suspension in the air, but where the dust deposits may
be heavy enough to interfere with safe heat dissipation from electric equipment.
-or- Locations in which combustible electrically
conductive dust is present.
-or- Locations where mechanical failure or abnormal operation of machinery or equipment might
cause explosive or ignitable mixtures to be produced.
DIVISION 1: Locations in which explosive or
ignitible amounts of combustible dust is or may be
in suspension in the air continuously, intermittently,
or periodically under normal operating conditions.
-or- Locations that are adjacent to Class I, Division
1 locations.
-or- Locations in which hazardous concentrations of
gases or vapors are normally prevented by mechanical ventilation and might become hazardous
due to failure of the ventilating equipment.
DIVISION 2: Locations in which volatile flammable
liquids or flammable gases are handled, processed,
or used, but are normally kept in closed containers
and can only escape due to accidental rupture.
-or- Locations in which breakdown or faulty operation of equipment or processes might release hazardous concentrations of flammable gases or vapors.
-or- Locations in which hazardous concentrations of
flammable gases or vapors may exist frequently
because of repair or maintenance operations or because of leakage.
DIVISION 1: Locations in which hazardous concentrations of flammable gases or vapors exist continuously, intermittently, or periodically under normal
conditions.
DIVISION
GROUP D:
Atmospheres containing:
acetone
ammonia
benzene
butane
butyl alcohol
ethane
ethyl alcohol
gasoline
heptanes
hexanes
methane (natural gas)
methyl alcohol
methyl ethyl ketone (MEK)
naphtha
octanes
pentanes
propane
styrene
toluene
xylenes
or gas or vapors of equivalent hazard
Easily ignitable fibers include: cotton, rayon, sisal, hemp, jute
Manufacturers include: textile mills, clothing plants, fiber processing plants
(NOT GROUPED)
GROUP G:
Atmospheres containing dusts having resistivity of 100,000,000 ohm-centimeter or greater (nonconductive dusts)
-or- carbon black, charcoal, or coke dusts sensitized by other materials so that they present an
explosion hazard, and having a resistivity greater than 100 ohm-centimeter but equal to or less
than 100,000,000 ohm-centimeter
GROUP F:
atmospheres containing combustible:
carbon black, charcoal, or coke dusts which have more than 8% total volatile material
-or- dusts of similarly hazardous characteristics having resistivity of less than 100,000 ohm-centimeter
GROUP E:
Atmospheres containing combustible:
metal dusts regardless of resistivity
GROUP C:
Atmospheres containing:
allyl alcohol
carbon monoxide
cyclopropane
diethyl ether
ethylene
hydrogen sulfide
methyl ether
n-propyl ether
or gas or vapors of equivalent hazard
GROUP B:
Atmospheres containing:
acrolein (inhibited)
butadiene
ethylene oxide
hydrogen
manufactured gases containing more than
30% hydrogen by volume
propylene oxide
GROUP A:
Atmospheres containing acetylene
GROUP
TABLE 12. Hazardous Location Classifications per National Electrical Code (NEC) Article 500
Data Reference Tables
777
Data Reference Tables
Accidental
bodily contact
Falling dirt
Dust, lint, fibers
(non-volatile)
Windblown dust
Falling liquid,
light splash
Hosedown and
heavy splash
Rain, snow,
and sleet
Ice buildup
Oil or coolant
seepage
Oil or coolant
spray and splash
Occasional
submersion
Prolonged submersion
Corrosive
agents
TABLE 13. NEMA Enclosure Ratings for Nonhazardous Locations
NEMA 1
(IP10)
Indoor
Yes
Yes
...
...
...
...
...
...
...
...
...
...
...
NEMA 2
(IP11)
Indoor
Yes
Yes
...
...
Yes
...
...
...
...
...
...
...
...
NEMA 3
(IP54)
Outdoor
Yes
Yes
Yes
Yes
Yes
...
Yes
...
...
...
...
...
...
NEMA 3S
(IP54)
Outdoor
Yes
Yes
Yes
Yes
Yes
...
Yes
Yes
...
...
...
...
...
NEMA 4
(IP56)
Indoor or
Outdoor
Yes
Yes
Yes
Yes
Yes
Yes
Yes
...
...
...
...
...
...
NEMA 4X
(IP56)
Indoor or
Outdoor
Yes
Yes
Yes
Yes
Yes
Yes
Yes
...
...
...
...
...
Yes
NEMA 6
(IP67)
Indoor or
Outdoor
Yes
Yes
Yes
Yes
Yes
Yes
Yes
...
...
...
Yes
...
...
NEMA 6P
(IP67)
Indoor or
Outdoor
Yes
Yes
Yes
Yes
Yes
Yes
Yes
...
...
...
Yes
Yes
Yes
NEMA 12
(IP52)
Indoor
Yes
Yes
Yes
...
Yes
...
...
...
Yes
...
...
...
...
NEMA 13
(IP54)
Indoor
Yes
Yes
Yes
...
Yes
...
...
...
Yes
Yes
...
...
...
Standard
NEMA
(IEC)*
Intended
Use
*The IEC equivalents listed in this column are approximate: NEMA types meet or exceed the test requirements for the associated IEC classifications.
TABLE 14. IP Enclosure Ratings for Nonhazardous Locations
1ST CHARACTERISTIC: Protection against contact and penetration of solid bodies
Numeral
0
1
2
3
4
5
6
Short Description
Non-protected
Protected against solid objects greater than 50 mm
Protected against solid objects greater than 12 mm
Protected against solid objects greater than 2.5 mm
Protected against solid objects greater than 1.0 mm
Dust protected
Dust-tight
2ND CHARACTERISTIC: Protection against the penetration of liquids
Numeral
0
1
2
3
4
5
6
7
8
778
Short Description
Non-protected
Protected against dripping water
Protected against dripping water when tilted up to 15°
Protected against spraying water
Protected against splashing water
Protected against water jets
Protected against heavy seas
Protected against the effects of immersion
Protected against submersion
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
Data Reference Tables
TABLE 15. Relative Chemical Resistance of Sensor Housing Materials and Lenses
RESISTANCE TO:
Housing
Material
Industrial
Solvents
Dilute
Acids
Concentrated
Acids
Dilute
Caustic
Alkalis
Thermoplastic Polyester
FAIR
Attacked by: acetone,
MEK, and methylene
chloride
EXCELLENT
GOOD
POOR
POOR
POOR
GOOD
POOR
Attacked by: acetone,
MEK, and methylene
chloride
GOOD
FAIR
POOR
POOR
POOR
GOOD
Polyphenylene oxide (PPO)
FAIR
Attacked by: chlori- 1
nated hydrocarbons
GOOD
FAIR
EXCELLENT
GOOD
GOOD
EXCELLENT
Delrin®
GOOD
FAIR
POOR
FAIR
POOR
FAIR
GOOD
Epoxy-coated
zinc-aluminumalloy
GOOD
GOOD
FAIR
GOOD
FAIR
FAIR
EXCELLENT
Anodized aluminum
EXCELLENT
FAIR
POOR
GOOD
FAIR
FAIR
GOOD
Stainless steel
EXCELLENT
FAIR
POOR
EXCELLENT
GOOD
GOOD
GOOD
PVC (Polyvinyl- chloride)
Attacked by: acetone,
MEK, and methylene
chloride
GOOD
FAIR
EXCELLENT
EXCELLENT
EXCELLENT
GOOD
FAIR
Attacked by: chlorinated hydrocarbons1
EXCELLENT
EXCELLENT
GOOD
GOOD
GOOD
POOR
POOR
Attacked by: acetone,
MEK, esters, ketones,
& some chlorinated
hydrocarbons
GOOD
POOR
GOOD
GOOD
GOOD
FAIR
Industrial
Solvents
Dilute
Acids
Concentrated
Acids
Dilute
Caustic
Alkalis
EXCELLENT
GOOD
FAIR
EXCELLENT
GOOD
GOOD
EXCELLENT
POOR
FAIR
POOR
GOOD
FAIR
FAIR
GOOD
FAIR
Attacked by: chlorinated
hydrocarbons3
FAIR
POOR
FAIR
POOR
POOR
POOR
POOR
GOOD
FAIR
POOR
POOR
POOR
GOOD
Lexan®
Polycarbonate
NORYL®
Acetal
Concentrated 10% Sodium
Caustic
Hydroxide in Sunlight and
Alkalis
Steam
Weathering
FAIR
Polyethylene
Cycolac® ABS
Lens
Material
Glass2
Acrylic3
Polysulfone
Lexan®
(see Lexan®, above)
Polycarbonate
Key to Performance
Rating
Percent Retention
to Strength
Degree of Attack
Excellent
85 to 100%
Slight (or no) attack
Good
75 to 84%
Moderate attack
Fair
50 to 74%
Poor
<50%
Noticeable swelling,
softening, etching, or
corrosion
Severe degradation
Concentrated 10% Sodium
Caustic
Hydroxide in Sunlight and
Alkalis
Steam
Weathering
NOTES:
NOTE 1: Chlorinated hydrocarbons include Freon, methylene chloride, trichlorethane,
and trichloroethylene.
NOTE 2: Plastic lens covers are available for some sensors to meet FDA requirements.
NOTE 3: Glass covers are available for some sensors to protect the acrylic lens.
Lexan®, Cycolac® and NORYL® are registered trademarks of General Electric Co.
Delrin® is a registered trademark of Dupont Co.
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
779
Banner Machine Safety Products
Optical Safety Systems
Product
www.bannerengineering.com/sg
Emitters and Receivers
Type
Controllers
MICRO-SCREEN®
/ezguard
/microscreen
Point
Grid
Standard
V-Series
Description
Single Beam
Two Beam
Three Beam
Four Beam
Screen
Screen
Detection Capability
Torso, Body
Torso, Body
Finger, Hand, Ankle
Hand, Ankle
N/A
N/A
19 mm (0.75")
32 mm (1.25")
0.8 m to 20 m
(2.6' to 65')
0.8 m to 20 m
(2.6' to 65')
9 m (30')
15 m to 70 m
(49' to 230')
15 m to 70 m
(49' to 230')
9 m (30')
6 m (20')
N/A
2 beams – 500 mm (19.7") total
3 beams – 800 mm (31.5") total
4 beams – 900 mm (35.4") total
2 beams – 584 mm (23") total
3 beams – 1066 mm (42") total
Minimum Object Detection Size
Emitter/Receiver Range
Protective Heights
102 to 1219 mm
(4" to 48")
610 to 1219 mm
(24" to 48")
1422 to 1829 mm
(56" to 72")
Controller Housing
In Receiver
In Receiver
Metal box
DIN
Metal box
DIN
Available Control Functions
Selectable
Trip or Latch
Selectable
Trip or Latch
Trip,
Blanking,
Mute,
EDM
Trip,
Latch,
DeviceNet™,
EDM,
Blanking
Trip,
Blanking,
Mute,
EDM
Trip,
Latch,
DeviceNet™,
EDM,
Blanking
24V dc
24V dc
115V ac,
230V ac, or
24V dc
24V dc
115V ac,
230V ac, or
24V dc
24V dc
Supply Voltage
780
EZ-GUARD™
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
Banner Machine Safety Products
Optical Safety Systems
Product
MINI-SCREEN®
MACHINE- and PERIMETER-GUARD™
/miniscreen
/machineguard
www.bannerengineering.com/sg
Type
Emitters and Receivers
Description
Detection Capability
Minimum Object Detection Size
Emitter/Receiver Range
Protective Heights
Controllers
Controller Housing
Standard
Long-Range
Machine-Guard
Perimeter-Guard
Screen
Screen
Screen
Screen
Finger, Hand, Ankle
Hand, Ankle
Hand, Ankle
Hand, Ankle
19 mm (.75")
25 mm (1")
38 mm (1.5")
38 mm (1.5")
9 m (30')
18 m (60')
14 m (45')
14 m (45')
114 to 1219 mm
(4.5" to 48")
114 to 1219 mm
(4.5" to 48")
152 to 1829 mm
(6" to 72")
152 to 1829 mm
(6" to 72")
Metal box
Metal box
Metal box
DIN
Metal box
DIN
Available Control Functions
Trip,
Trip,
Trip,
Trip,
Latch, EDM, Latch, EDM, Latch, EDM, Latch, EDM,
Dual Trip, Dual Trip, Dual Trip, Dual Trip,
Mute,
Dual Latch,
Mute,
Dual Latch,
Blanking
Blanking
Blanking
Blanking
Supply Voltage
115V ac,
230V ac, or
24V dc
24V dc
115V ac,
230V ac, or
24V dc
24V dc
Trip,
Blanking
Dual Trip
115V ac,
115V ac or 230V
ac, or
230V ac
24V dc
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
Latch
Blanking
115V ac or
230V ac
781
Banner Machine Safety Products
Emergency Stop Safety Modules Selection Chart
www.bannerengineering.com/sg/safetymodules
Models
ES-FA-6G
Stop
Supply
Category Voltage
0
24V ac/dc
Inputs
Safety
Outputs
1 Single
3 @ 6 amps
Channel
Aux.
Outputs
Delay
Options
1 N.C.
N/A
Housing
Width Terminals
22.5 mm
Certifications
Fixed
R
ES-FA-9AA
0
24V ac/dc
1 Dual
3 @ 6 amps
Channel
N/A
N/A
22.5 mm Removable
R
ES-FL-2A
0
24V ac/dc
1 Dual
2 @ 4 amps
Channel
1 N.C.
N/A
45 mm
ES-..A-5A
0
N/A
ES-TN-1H..
0&1
24V dc
0-20 sec or
1 N.C.
0-200 sec
1 Dual or
2 delayed @ delayed adjustable
1 Single
4 amps;
&
(.5, 1, 2, 4,
45 mm
(select2 immediate 1 N.C. 6, 8, 10, 15,
able)
@ 4 amps imme- 20 sec fixed
Channel
diate options available)
ES-TA-3..1*
0
24V dc
6 or 10
Dual 2 @ 4 amps
Channels
N/A
Removable
R
Emergency
Stop
Devices
Approvals in process.
107 mm
or
Removable
149 mm
R
782
Emergency
Stop
Devices
45 mm
Removable
N/A
Emergency
Stop
Devices
Fixed
R
115V ac &
1 N.C. &
24V dc;
1 Dual
4 @ 5 amps 2 Solid230V ac & Channel
state
24V dc
Emergency
Stop
Devices
Emergency
Stop
Devices
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
Banner Machine Safety Products
Safety Gate Monitoring Modules Selection Chart
www.bannerengineering.com/sg/safetymodules
Models
Interlock
Type
Supply
Voltage
Inputs
Safety
Outputs
Aux.
Outputs
Delay
Options
Housing
Width Terminals
GM-FA-10J
Mechanical
1 or 2
&
24V ac/dc
Dual 2 @ 6 amps
Magnetic
Channel
N/A
N/A
22.5 mm Removable
ES-FA-9AA
Mechanical 24V ac/dc
1 Dual
3 @ 6 amps
Channel
N/A
N/A
22.5 mm Removable
Certifications
Approvals in process.
R
ES-FL-2A
Mechanical 24V ac/dc
1 Dual
2 @ 4 amps
Channel
1 N.C.
Reed
N/A
45 mm
Fixed
R
ES-..A-5A
115V ac &
1 N.C.
1 Dual
24V dc;
Reed &
Mechanical
4 @ 5 amps
230V ac & Channel
2 Solid24V dc
state
N/A
45 mm
Magnetic
ES-TN-1H.. Mechanical
24V dc
1 Dual
1 @ 4 amps
Channel
1 N.C.
Reed
24V dc
0-20 sec or
1 N.C. 0-200 sec
1 Dual or
2 delayed @ delayed adjustable
1 Single
4 amps;
&
(.5, 1, 2, 4,
(select45 mm
2 immediate 1 N.C. 6, 8, 10, 15,
able)
@ 4 amps imme- 20 sec fixed
Channel
diate
options
available)
N/A
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
22.5 mm
Emergency
Stop
Devices
Removable
R
SI-MAG1C
Emergency
Stop
Devices
Emergency
Stop
Devices
Fixed
Approvals in process.
Removable
Approvals in process.
783
Banner Machine Safety Products
Two-Hand-Control Modules Selection Chart
www.bannerengineering.com/sg/safetymodules
Models
Models
Supply
Voltage
Type
Touch
Input Button
Type Type
Safety
Outputs
Aux.
Outputs
Housing
Width
Terminals
Certifications
Approvals in process.
AT-FM-10K
III C
24V ac/dc
Two
Dual
N.O./
N.C
AT-AM-2A
III B
115V ac
Two
N.O.
OTB
2 @ 4 amps
1 N.C.
Reed
45 mm
Fixed
AT-BM-2A
III B
230V ac
Two
N.O.
OTB
2 @ 4 amps
1 N.C.
Reed
45 mm
Fixed
AT-FM-2A
III B
24V ac/dc
Two
N.O.
OTB
2 @ 4 amps
1 N.C.
Reed
45 mm
Fixed
STB
2 @ 6 amps
–
22.5 mm
Removable
R
Presence
Sensing
Device
R
Safety In
Electronics
Safety Extension Modules Selection Chart
www.bannerengineering.com/sg/safetymodules
Models
EM-T-7A
Supply
Voltage
Input
Type
Safety
Outputs
24V dc
1 Dual or
1 Single
Channel
4 @ 6 amps
Output
Response Housing
/Delay
Width
20 ms
22.5 mm
Terminals
Certifications
Removable
R
EM-F-7G
24V ac/dc
1 Single
Channel
4 @ 6 amps
20 ms
22.5 mm
24V ac/dc
1 Single
Channel
4 @ 6 amps
.5 sec
1.0 sec
2.0 sec
22.5 mm
Emergency
Stop
Devices
R
Fixed
R
784
R
Fixed
R
EM-FD-7G2
EM-FD-7G3
EM-FD-7G4
Emergency
Stop
Devices
Emergency
Stop
Devices
R
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
Banner Machine Safety Products
Safety Interlock Switch Selection Chart
www.bannerengineering.com/sg/safetyswitches
Package
Style
Housing Protection
Material
Rating
Actuator
Position
Actuator
Types
IP 65;
NEMA 4
Top, front
& back
1 N.C.,
Straight,
1 N.C./1 N.O.,
Flexible &
2 N.C.,
Adjustable
2 N.C./1 N.O.
Bottom
&
Sides
N/A
Plastic
IP 65;
NEMA 4
Top, front
& back
Straight, 1 N.C./1 N.O.,
Flexible &
2 N.C.,
Adjustable 2 N.C./1 N.O.
Bottom
N/A
Limit
Metal
IP 65;
NEMA 4
Side, front
& back
1 N.C./1 N.O.,
2 N.C.
Bottom
N/A
Limit
Plastic
IP 65;
NEMA 4
N/A
Hinged,left,
1 N.C./1 N.O.,
right and
2 N.C.
up, rotary
Bottom
N/A
Type
Family
Standard
Mechanical
QS75 &
QS90
Flat Pack
Plastic
Standard
Mechanical
LS83 &
LS100
Limit
Standard
Mechanical
LM40 &
LS40
Standard
Mechanical
LS31
Guard
Locking
Guard
Locking
LS42
QM100
Limit
Limit
Straight
&
Flexible
Plastic
IP 65;
NEMA 4
Top, side, front
& back
Straight
&
Flexible
Metal
IP 67;
NEMA 6
Side, front
& back
Straight
&
Flexible
Contact
Options
Cable
Entry Solenoid Voltage
See page
218 & 219
Bottom
&
Sides
24V ac/dc
or
24-48V dc
&
24-230V ac
*1 N.C.,
1 N.0./1 N.C.,
1 N.O.
Bottom
&
Sides
24V ac/dc,
or
120V ac,
or
230V ac
N/A
N/A
Magnetic
Mag 1 & 2
Rectangular
Plastic
IP 67
NEMA 4X
N/A
Coded
Magnet
N/A
Standard
& Cable
Opposite
(Mag 1
only)
Magnetic
Mag 3
Cylindrical
Plastic
IP 67
NEMA 4X
N/A
Coded
Magnet
N/A
Standard
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
785
Banner Measurement & Inspection Products
A-GAGE™
Measuring Light
Screens
Series
www.bannerengineering.com/sg
Sensing Range
Description
Opposed mode measuring
light screens
Minimum object
detection size
MINI-ARRAY™
High-resolution
MINI-ARRAY™
BEAM-ARRAY™
/miniarray
/miniarray
/beamarray
Compact array housings with
flexible output configurations,
long range.
High-speed, high resolution
scanning with 2.5 mm (0.1")
minimum object detection.
Rugged construction, separate
controller not required.
1.8 m
3m
2.5 mm
11.4 mm
For arrays with 9.5 mm
beam spacing:
6.1 m for ≤ 905 mm arrays
4.6 m for > 905 mm arrays
For arrays with 19 mm
beam spacing:
17 m for ≤ 905 mm arrays
14 m for > 905 mm arrays
19 mm for arrays with 9.5 mm
beam spacing
38 mm for arrays with
19 mm beam spacing
Sensors
38.1 x 38.1 x height
Dimensions
Controllers
Construction
786
Approximate array heights:
140 mm
900 mm
290 mm
1050 mm
440 mm
1210 mm
600 mm
1510 mm
750 mm
1810 mm
38.1 x 38.1 x height
Array heights:
163 mm
325 mm
488 mm
650 mm
813 mm
975 mm
1138 mm
1300 mm
1463 mm
1626 mm
1788 mm
1951 mm
58 mm dia. x height
Array heights:
305 mm
915 mm
610 mm
1220 mm
Black anodized aluminum
Black anodized aluminum
Black anodized aluminum
Protection rating
IP65; NEMA 4
IP65; NEMA 4
IP66; NEMA 4
Operating temperature
-20° to +70°C
0° to +50°C
0° to +50°C
Power supply
12V dc supplied by controller
12V dc supplied by controller
15 to 20V dc
(available from BC2A or
BC2B controller)
Power supply
MACNX DeviceNet
MACPX DeviceNet
16 to 30V dc
Output configuration
MAC-1: One reed relay + one NPN
MACN-1: Two NPN
MAC16N-1: 16 NPN
MACP-1: Two PNP
MAC16P-1: 16 PNP
MACV-1: One 0-10V dc sourcing analog + one NPN
MACI-1: One 4-20 mA sinking
analog + one NPN
Serial RS-232
RS-485
BC2A: 105 to 125V ac
BC2B: 210 to 250V ac
BC1T: 15 to 20 V dc
MAHCP-1: Two PNP
MAHCN-1: Two NPN
MAHCV-1: Two 0-10V dc
sourcing analog + one NPN
MAHCI-1: Two 4-20 mA sinking analog + one NPN
Serial RS-232
RS-485
BC2A and BC2B:
4 discrete outputs: AC or DC,
depending on I/O module
selected; 2 analog outputs:
0 to 10V dc sourcing or
4 to 20 mA sinking; RS-232C;
RS-422; and RS-485 serial data
outputs
BC1T: RS-232C serial data output
Protection rating
IP 20; NEMA 1
IP 20; NEMA 1
IP 10; NEMA 1
Operating temperature
-20° to +70°C
0° to +50°C
0° to +50°C
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
Banner Measurement & Inspection Products
A-GAGE™
Part Sensing
Light Screens
Series
PVA Series
LS Series
BMLV Series
/pva
/ls
/bmlv
Visible “pick” light & reliable
error-proofing for assembly
operations
Fast, reliable detection
over a 90 mm (3.5”)
Retroreflective, self-contained
light curtain
www.bannerengineering.com/sg
Description
Opposed mode part
sensing light screens
LS4: 2.3 mm
LS10: 1.2 mm
LS10SR: 0.2 mm
Sensing Range
2m
Retroreflective mode part
sensing light screens
3m
Minimum object
detection size
35 mm
LS4: 25 mm
LS10: 7.6 mm
LS10SR: 5.6 mm
Sensors
30 x 15 mm x height
Dimensions
Array heights:
100 mm
225 mm
50 mm
58 mm x height
116 x 40 x 49 mm
300 mm
375 mm
Array heights:
305 mm
915 mm
610 mm
1220 mm
Black anodized aluminum
PBT Polyester
Black anodized aluminum
IP62; NEMA 2
IP54; NEMA 12
IP56; NEMA 4
Operating temperature
0° to +50°C
0° to +50°C
0° to +50°C
Power supply
12 to 30V dc
12 to 30V dc
10 to 30V dc
Bipolar NPN + PNP;
125 mA each output;
dark operate
One discrete Bi-modal™
output: NPN or PNP,
depending on hookup;
200 mA max.;
light or dark operate
Construction
Protection rating
Controllers
Output configuration
Connections
One discrete NPN or PNP
output, depending on model;
50 mA max.; programmable for
light or dark operate
Integral 2 m cable with or
without quick-disconnect
Outputs have 5 ms pulse
stretcher (OFF-delay)
LS4: Integral cable or
quick-disconnect
LS10 & LS10SR:
Quick-disconnect
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
Quick-disconnect.
787
Banner Measurement & Inspection Products
Ultrasonic Sensors
U-GAGE™
Ultrasonic Sensors
Series
T18U
T30U
Q45UR
www.bannerengineering.com/sg
/t18u
/t30u
/q45u
0.15 to 1 m
0.3 to 2 m
0.5 to 0.25 m
Opposed-mode
0.6 m
Proximity mode
M18 x 1 x 45 mm
28 x 28 x 12 mm
s.steel (M18 sensor)
PBT Polyester (all others)
IP67; NEMA 6P (controller)
IP65; NEMA 4 (sensor)
52 x 40 x 30 mm
52 x 40 x 45 mm
Housing material
PBT polyester
PBT polyester
Protection rating
IP67; NEMA 6P
IP67; NEMA 6P
-40° to +70°C
-20° to +70°C
-25° to +70°C
12 to 30
12 to 24 (discrete/
analog current)
15 to 24 (analog voltage)
12 to 24 (discrete)
15 to 24 (analog)
NPN (sinking)
150 mA
100 mA
PNP (sourcing)
150 mA
100 mA
Dimensions (h x w x d)
Operating temperature
Power supply:
V dc
V ac
(50/60 Hz)
V ac/dc
Output:
Bipolar, 150 mA
NPN + PNP
SCR or FET
E/M relay
Analog
0 to 10V dc or
4 to 20 mA
0 to 10V dc or
4 to 20 mA
Cable
✓
✓
✓
Quick-disconnect (QD)
✓
✓
✓
Teach-mode programming
✓
✓
Windowing
✓
✓
Connections:
Wiring chamber
High/low limit control
788
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
Banner Measurement & Inspection Products
Ultrasonic Sensors
Q45U
OMNI-BEAM™
ULTRA-BEAM™
/q45u
/sonicomni
/ultrabeam
0.1 to 1.4 m
0.25 to 3.0 m
0.1 to 0.66 m
0.5 to 6 m
88 x 45 x 55 or 79 mm
111 X 45 X 74 mm
120 x 50 x 49 mm
PBT polyester
PBT polyester
PBT polyester
IP67; NEMA 6P
IP66; NEMA 4
IP54; NEMA 12
-40° to +70°C
0° to +50°C
0° to +50°C
12 to 24 (discrete)
15 to 24 (analog)
18 to 30 (discrete)
15 to 30 (analog)
18 to 30 (analog)
105 to 130 or
210 to 250
105 to 130 or
210 to 260
7A
5A
0 to 10V dc or
4 to 20 mA
0 to 10V dc
0 to 10V dc or
4 to 20 mA
✓
✓
✓
✓
✓
✓
✓
✓
✓ (analog)
✓
✓
Bipolar, 150 mA
✓
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
789
Banner Measurement & Inspection Products
L-GAGE® Light Gauging
Sensors
Series
www.bannerengineering.com/sg
Description
Technology
Sensing Range
LG Series
PD Series PicoDot®
QM Series
Adjustable-Field Sensors
Q50
/lg
/picodot
/qmaf
/q50
LED-based distance
sensors with single
switchpoint
LED-based linear displacement sensors
LED/PSD triangulation
LED/PSD triangulation
Ultra-precise laser trianCompact laser triangulagulation sensor with
tion sensor for precise
both analog and
part detection
discrete outputs
Laser/dual PD
Laser/PSD triangulation
triangulation
Programmable
sensing window:
LG5: 45 to 60 mm
LG10: 75 to 125 mm
PD50: 10 to 55 mm
PD100: 10 to 110 mm
PD200: 5 to 220 mm
QM150: 5 to 150 mm
QMT400: 25 to 400 mm Q50BV: 100 to 300 mm
QM150: 50 to 150 mm Q50B: 100 to 400 mm
QMT400: 125 to 400 mm
Class II Laser
Class II Laser
Dimensions
55 x 20 x 82 mm
41 x 13 x 46 mm
Housing material
Zinc alloy die-cast;
black painted finish
Black Cycolac® ABS
Protection rating
IP67, NEMA 6
IP54, NEMA 3
IP67, NEMA 6
IP67, NEMA 6P
Operating temperature
-10° to +50°C
-10° to +45°C
-20° to +55°C
-10° to +55°C
Power supply
12 to 30V dc
10 to 30V dc
10 to 30V dc
12 to 30V dc (discrete)
15 to 30V dc (analog)
One NPN or PNP
(100 mA max.)
Complementary NPN
or PNP (100 mA max.)
Complementary NPN
or PNP (100 mA max.)
0 to 10V dc or
4 to 20 mA
None
None
LG5: 3 µm @ 50 mm
LG10: 10 µm @ 100 mm
N/A
QM150: 0.5 mm @ 100 mm
QMT400: 1.5 mm @ 250 mm
0.5 mm @ 200 mm
1 ms (fast)
10 ms (medium)
100 ms (slow)
200 µs
1 ms
4 ms (fast)
64 ms (slow)
Near and far window
limits; response speed
12-turn sensitivity
(Gain) adjustment
12-turn switchpoint
adjustment
Near and far window
limits; response speed
Discrete output(s)
Analog output
Analog resolution or
discrete repeatability
Response speed
Adjustments
790
Visible red LED
Visible red or
infrared LED
Light Source
QM150: 42 x 13 x 42 mm
QMT400: 58 x 18 x 42 mm
Zinc alloy die-cast;
black painted finish
50 x 15 x 60 mm
ABS/Polycarbonate
Complementary
NPN or PNP,
0 to 10V dc or
4 to 20 mA
(depending on model)
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
Banner Measurement & Inspection Products
™
Banner
has more
coloroptical
mark sensing
registration
Presence
PLUSsolutions
: Bannerfortakes
to thecontrol.
next level.
An easy-to-use pixel-counting
sensor.
PresencePLUS™ is the world’s most user-friendly camera-based sensor. It can economically solve your
inspection applications as a simpler alternative to vision
systems or
by eliminating the need for multiple discrete sensor
configurations that are often mechanically impractical.
Accurate, reliable inspection of a
defined area
of interest.
The PresencePLUS sensor is an advanced inspection
system that captures a 256-level gray-scale image of a
defined area, converts the image to white and black pixels, and renders a PASS or FAIL judgement of the
image by comparing the number of pixels to a reference count.
Advanced, microprocessor-based
sensing functions at a price you
can afford.
The PresencePLUS system offers both QUICK START
setup for basic applications, and user-programmable
functions to solve your more exacting applications, for
an exceptionally low price. A PresencePLUS sensor
starts at under $1000, and you can order a complete
system, consisting of a CMOS pixel array with programmable microprocessor, lens, lighting, mounting
bracket and cable, for under $1600.
Green: power ON;
sensor in RUN mode
Flashing Yellow: power
ON; sensor powering up
Red: power ON;
hardware fault
detected
Solid Yellow: power
ON; sensor ready to
accept setup operations
Green: Product
PASSED inspection
Red: Product FAILED
inspection
Status indicators keep you
informed.
Two highly-visible LEDs on
top of the sensor provide
sensor and judgement status information at a
glance.
Plug into any Windows PC serial port
for easy setup.
The PresencePLUS2 sensor connects to any standard serial port
on a PC running Windows 95, 98 or NT. User-friendly graphics
make setup fast and easy. The PresencePLUS2 includes three
easy-to-navigate windows making the sensor extremely easy to
setup and maintain.
Or use the convenient PresencePLUS
handheld controller.
PresencePLUS setup programming can also be accomplished
using the PRC1; a convenient hand-held, remote controller that
attaches to the sensor with a coiled cord. The PRC1 features a
built-in LCD screen that displays programming options, monitoring options, compressed captured images, and diagnostics during sensor operation. A single hand-held controller can set up
multiple sensors.
Visit www.bannerengineering.com/sg/presenceplus
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
791
International Sales Representative List
WORLDWIDE Representation
For the most current listing, go to www.bannerengineering.com
North America
UNITED STATES
More than 150 Representatives and Distributors covering all States. For a complete listing, go to bannerengineering.com
CANADA
R.G. Shelley Limited (Ontario)
41 Coldwater Road
North York, Ontario M3B 1Y8
Tel: 1-416-447-6471
Fax: 1-416-447-9313
Email: info@shelley.com
Rotalec (Le Groupe) (Quebec)
850 McCaffrey
Ville St-Laurent, Quebec H4T 1N1
Tel: 1-514-341-3685
Fax: 1-514-341-5205
Email: sales@rotalec.com
E.B. Horsman & Son Ltd. (British Columbia)
13385 Comber Way
Surrey, British Columbia V3W 5V8
Tel: 1-604-596-7111
Fax: 1-604-596-3139
Landel Controls (Alberta)
239 Midpark Way SE/Ste 115
Calgary, Alberta T2X 1M2
Tel: 1-403-254-8900
Fax: 1-403-254-8903
Email: landel@cybersurf.net
Seltron Atlantic Controls (New Brunswick)
122 Driscoll Crescent
Moncton, New Brunswick E1E 3R8
Tel: 1-506-858-9884
Fax: 1-506-853-4185
Seltron Atlantic Controls (Nova Scotia)
57 Fielding Avenue, Suite 64
Dartmouth, Nova Scotia B3B 1E3
Tel: 1-902-829-3666
Fax: 1-902-829-2525
Europe
REGIONAL OFFICES
Banner Engineering
Belgium B.V.B.A.
Koning Albert 1 laan, 50
B-1780 Wemmel
Belgium
Tel: 32-2-456 07 80
Fax: 32-2-456 07 89
Email: mail@bannerengineering.be
AUSTRIA
Intermadox GmbH
Josef Mosergasse 1
A-1170 Vienna
Tel: 43-1-48 61 5870
Fax: 43-1-48 61 587 23
Email: imax.office@intermadox.at
BELGIUM
Multiprox N.V.
Postbus 71
Lion d'Orweg, 12
B-9300 Aalst
Tel: 32-53-766 566
Fax: 32-53-783 977
Email: mail@multiprox.be
CZECH REPUBLIC
TURCK s.r.o.
Hradecká 1151
CZ-500 03 Hradec Králové
Tel: 420-49-52 10 766
Fax: 420-49-52 10 767
Email: turck@turck.cz
DENMARK
Hans Folsgaard A.S.
Ejby Industrivej 30
Dk-2600 Glostrup
Tel: 45-43-20 86 00
Fax: 45-43-96 88 55
Email: hf@hf.net
FINLAND
Oy E. Sarlin AB
P.O. Box 750
SF-00101 Helsinki 10
Tel: 358-9-50 44 41
Fax: 358-9-56 33 227
Email: sales.automation@sarlin.com
FRANCE
TURCK S.A.R.L.
47 Avenue de l'Europe
Marne la Vallée
77184 Emerainville
Tel: 33-1-64-61 96 40
Fax: 33-1-64-61 68 62
Email: info@turck.fr
GERMANY
Hans Turck GmbH & Co KG
Witzlebenstrasse 7
45472 Mulheim an der Ruhr
Tel: 49-208-49 520
Fax: 49-208-49 52 264
Email: turckmh@mail.turck-globe.de
GREECE
2Kappa Ltd.
Sofokli Venuzeloy 13
Menemeni Lahanagora
54628 Thessaloniki
Tel: 30-31-77 55 10
Fax: 30-31-77 55 14
Email: 2kappa@mob.forthnet.gr
HUNGARY
TURCK Hungary Kft.
Hidegkuti ut 282
H-1028 Budapest
Tel: 36-1-39 10 119 or 36-1-39 10 129
Fax: 36-1-39 75 461
Email: turck@turck.hu
ICELAND
ESTONIA, LATVIA, LITHUANIA
Osaühing "System Test"
Pirita tee 20
EE-10127 Tallinn
Estonia
Tel: 37-2-64 05 423
Fax: 37-2-64 05 422
Email: systemtest@systemtest.stalz.ee
792
K M Stáhl ehf.
Bildshöfda 16
110 Reykjavik
Tel: 354-56 78 939
Fax: 354-56 78 938
Email: kalle@kmstal.is
IRELAND
Process Control & Automation Systems Ltd.
Strawhall Industrial Estate
Carlow
Tel: 353-503-70 900
Fax: 353-503-41 500
Email: info@turckbanner.co.uk or
sales@pcas.ie
ITALY
TURCK s.r.l.
Via Adamello, 9
20010 Bareggio
Milano
Tel: 390-2-90 36 42 91
Fax: 390-2-90 36 48 38
Email: turcksrl@bigfoot.com
LUXEMBOURG
Sogel SA 1
Dernier Sol BP 1941
L-1019
Tel: 352-40-05-05-360
Fax: 352-40-05-05-305
Email: sogel@sogel.lu
NETHERLANDS/HOLLAND
TURCK B.V.
Ruiterlaan 7
NL-8019 BN Zwolle
Tel: 31-38-42 27 750
Fax: 31-38-42 27 451
Email: info@turck.nl
NORWAY
Danyko A.S.
Tønnevoldsgt 29
P.O. Box 48
N-4891 Grimstad
Tel: 47-37-04 02 88
Fax: 47-37-04 14 26
Email:danyko@hf.net
POLAND
Projekt s.c.
ul Wroclawska 170
PL-45 836 Opole 5
Tel: 48-77-457 23 13
Fax: 48-77-457 23 18
Email: projekt@projekt.com.pl
PORTUGAL
Salmon & Cia Lda.
Rua Cova da Moura, 2-6º
1350 Lisboa
Tel: 351-21-39 20 130
Fax: 351-21-39 20 189
Email: salmon@mail.telepac.pt
ROMANIA
TURCK Office Romania
Calea Plevnei 139, sector 6
RO - 77131 Bucharest
Tel: 40-1-3 10 26 -78, -79
Fax: 40-1-2 22 91 -76
Email: turck@cdn-gw.pub.ro
RUSSIA AND CIS
TURCK Office Minsk
ul. Engelsa, 30
BY-220030 Minsk
Republic of Belarus
Tel: 375-17-210 59 57
Fax: 375-17-227 53 13
Email: turck@infonet.by
TURCK Office Moskau
2-oj Werchne-Michaijlovskijproesd, 9
117419 Moskau
Russia
Tel: 7-095-95-20-820
Fax: 7-095-95 57 348
Email: cimturck@cityline.ru
SLOVAKIA
MARPEX, s.r.o.
Centrum I - 57/132
SK-018 41 Dubnica Nad Váhom
Tel: 421-827-442 69 87
Fax: 421-827-442 69 86
Email: marpex@marpex.sk
SPAIN
Mecco Medicion y Control SA
Gran Via de les Corts Catalanes 133, 4°
08014 Barcelona
Tel: 34-93-42 27 700
Fax: 34-93-43 22 847
Email: industrial@mecco.org
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
International Sales Representative List
Europe (Continued)
SWEDEN
HF Sverige AB
Kanalvaegen 10C
S.19461 Upplands Vaesby
Sverige
Tel: 46-8-55-540-985
Fax: 46-8-59-071-781
Email: sverige@hf.net
SWITZERLAND
Comat AG
Bernstrasse 4
CH-3076 Worb
Tel: 41-31-83 93 811
Fax: 41-31-83 97 396
Email: info@comat.ch
TURKEY
General Teknik Elektronik
Iskender Cad. No. 44
Artmak Han Kat 2
Sishane Karaköy Istanbul
Tel: 90-212-253 40 41
Fax: 90-212-253 18 47
Email: generalteknik@turk.net
UNITED KINGDOM
TURCK Banner Limited
Stephenson Road
Leigh On Sea
Essex SS9 5LS
Tel: 44-1702-52 51 86
Fax: 44-1702-42 09 34
Email: info@turckbanner.co.uk
Africa/Middle East
EGYPT
Egyptian Trading and Engineering Co.
3, Hassan Sadek St.
Ouroba - Heliopolis Cairo
Tel: 20-2-290 83 80
Fax: 20-2-290 39 96
Email: ete@brainy1.ie.eg.com
PAKISTAN
Lasani Techno Impex
SR 3/18, G/4 Serai Road
P.O.B. 13543
Karachi, 74000
Tel: 92-21-242 34 11
Fax: 92-21-241 78 41
Email: lasanipak@cyber.net.pk
ISRAEL
Robkon Industrial Control &
Automation Ltd.
12-A Elimelech St.
Ramat-gan, 52424
Tel: 972-3-673 28 21
Fax: 972-3-673 84 20
Email: robkonfr@inter.net.il
REPUBLIC OF SOUTH
AFRICA
RET Automation Controls Pty. LTD
130 Boeing Road East,
Bedfordview, 2008 (shipping address)
P.O. Box 8378
Edenglen 1613 (mailing address)
Tel: 27-11-453 24 68
Fax: 27-11-453 24 06
Email: info@retauto.co.za
SAUDI ARABIA
M.H. Sherbiny for Commerce
P.O. Box 3082
Alkhobar 31952
Tel: 966 3 89 44 298
Fax: 966 3 86 47 278
Email: sales@sherbinyforcommerce.com
Asia/Pacific
AUSTRALIA
Micro Max Pty Ltd (Headquarters)
P.O. Box 1238
5 Orange Grove Avenue
Unanderra NSW 2526
Tel: 61-2-4271-1300 or
Toll free within Australia: 1-300-362626
Fax 61-24-271-8091
Email: micromax@micromax.com.au
Branch Offices:
111 Arden St.
North Melbourne VIC 3051
Tel/Fax: Call headquarters
112 Beaconsfield St.
Auburn NSW 2144
Tel/Fax: Call headquarters
1/101 President St.
Carlisle WA 6101
Tel/Fax: Call headquarters
CHINA
Turck China (Headquarters)
Turck (Tianjin) Sensor Co. LTD
No. 40 Yibin Road
Nankai District
Tianjin TJ-300113
Tel: 86-222-764-1588 & 86-222-769-6360
Fax: 86-222-761-4650
Email: turcktj@public.tpt.tj.cn
Branch Offices:
E. 16/F, Office Building
B, Jing Gang City Plaza
No. 3 A Shilipu
Chaoyang District
Beijing 100025
Tel: 86-106-556-16-46
Fax: 86-106-556-16-45
Email: turcktbb@public.fhnet.cn.net
No. 2203A Universal Mansion
No. 168-172, Yuyuan Road
Shanghai 200040
Tel: 86-216-249-1838
Fax: 86-216-248-5189
Rm F, the 21st Floor
Yeuhai Bldg,
No. 472 Huanshi Road East
Guangzhou 510075
Tel: 86-208-776-9178
Fax: 86-208-776-9187
RM 110, Office Building
No. 114, Jiankang Road
Wuxi 214031
Tel: 86-510-276-2565
Fax: 86-510-273-9497
Rm 718, Hubei Instrument Corp.
No. 80, ZhoNgnan Road
Wuchang District
Wuhan 430071
Tel/Fax: 86-278-732-1546
Rm. 203, Silk Building
Mozi Qiao, 2 Duan (South)
1 Huan Road
Chengdu 610041
Tel: 86-285-23-8065
Fax: 86-285-23-4993
Rm. 1204, Huahong Building
No. 638 Ziqiang Road East
Xi'an 710015
Tel/Fax: 86-296-239-559
No.128 Jiefang Road East
Tiedong District
Anshan 114002
Tel/Fax: 86-412-882-5272
HONG KONG
Honour Force Engineering Ltd.
Room 705, 7/F., Wah Wai Industrial Building
53-61 Pak Tin Par St.
Tsuen Wan, NT
Tel: 852-24 09 19 97
Fax: 852-24 09 13 89
Email: honourfc@chevalier.net
INDONESIA
PT. Unitama Sentosa Gemilang
Komplek Perkantoran
Greenville Blok AX-31
Jakarta-Barat 11510
Tel: 62-21-569-64973
Fax: 62-21-565-7656
Email: ptusg@indosat.net.id
JAPAN
Banner Engineering International
Incorporated - Japan Branch
Shin-Yokohama Town Building 502
3-19-11 Shin-Yokohama
Kohoku-ku, Yokohama 222-0033
Tel: 81-45-478-5060
Fax: 81-45-478-5063
Email: mail@bannerengineering.co.jp
Koyo Electronics Industries Co., LTD
1-171 Tenjin-Cho
Kodaira, Tokyo 187
Tel: 81-423-413-114
Fax: 81-423-470-356
Email: sales@koyoele.co.jp
KOREA
Turck Korea
Sangwoo Building 4th Floor, 1576-1
Jeongwang - Dong, Shiheung - City
Kyunggi - Do
Tel: 82 345-498-8433
Fax: 82 345-498-8436
Email: turckbo@chollian.net
MALAYSIA
UST Technology Pte. Ltd.
998 Toa Payoh North
#05-25
Singapore 318993
Tel: 65-252-2272
Fax: 65-253-8773
Email: ust@ust.com.sq
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
NEW ZEALAND
W. Arthur Fisher Ltd.
11 Te Apunga Place
Mt. Wellington, Auckland
Tel: 64-9-27 00 100
Fax: 64-9-27 00 900
Email: waf@waf.co.nz
PHILIPPINES
AG Bolinao Corporation
Unit 205 Fedman Suite
199 Salcedo St., Legaspi Village
Makati City, Philippines 1229
Tel: 632-813-3988 or 632-813-6703
Fax: 632-817-5802
Email: bolinao@attglobal.com
SINGAPORE
UST Technology Pte. Ltd.
998 Toa Payoh North
#05-25
Singapore 318993
Tel: 65-252-2272
Fax: 65-253-8773
Email: ust@ust.com.sq
TAIWAN
E-Sensors International Corp.
6F-2, No. 109, Chien Kuo 1st Rd.
Kaohsiung
Tel: 886-7-72 20 371
Fax: 886-7-77 18 161
Email: esensors@ms48.hinet.net
THAILAND
Compomax Company Limited
54/6-7-8 Soi Sangchan-Rubia
Sukhumvit 42
Bangkok 10110
Tel: 66-2-712-2911-22
Fax: 66-2-712-28 83
Email: compomax@samart.co.th
793
International Sales Representative List
Latin America
REGIONAL OFFICES
Automation International (USA)
12705 S. Kirkwood, Suite 214
Stafford, Texas 77477, USA
Tel: 1-281-240-5777
Fax: 1-281-240-5888
Email: automatn@swbell.net
ARGENTINA
Aumeco SRL
Acassuso 4768
1605 Munro
Prov. Buenos Aires
Tel: 54-11-4756-1251
Fax: 54-11-4762-6331
Email: aumeco@ciudad.com.ar
BRAZIL
DECO: Detecção e Controle Industrial
Ltda.
Rua Deputado Estefano Mikilita, 125
Sala 705
81070-430 Curitiba, PR
Tel: 55-41-229-3311
Fax: 55-41-229-3312
Email: deco.pr@uol.com.br
Spheric Componentes Opticos Ltda.
Rua Imperatriz Leopoldina 355, Sala 03
93310-060 Novo Hamburgo, RS
Tel/Fax: 55-51-5948036
Email: spheric@terra.com.br
Sensorville Automacão Ltda.
Rua Gothard Kaesemodel 657
89203-400 Joinville, SC
Tel: 55-47-422-5111
Fax: 55-47-433-5298
Email: sensorville@netville.com.br
Sensor do Brasil
R. Pr. Oswaldo Rodrigues de Azevedo, 115
13184-071 Hortolandia, SP
Tel: 55-193-897-2509
Fax: 55-193-897 5030
Email: sensor@sensordobrasil.com.br
Sensor Rio Equip. Ind. Ltda.
Av. Armando Lombardi 205
Sala 207, Barra de Tijuca
22621-200 Rio de Janeiro, RJ
Tel: 55-21-491-2966
Fax: 55-21 -491-2967
Email: sensor@connection.com.br
SGS Components e Serv. Ind.
Av. Pres. Castelo Branco, 1448
Bairro Cachoeirinha
69065-011 Manaus AM
Tel/Fax: 55-92-663-7662
Email: sgs.comp@argo.com.br
Weber Automacao e Controle Industrial
Av. Silviano Brandão 786 - Bairro Floresta
31015-000 Belo Horizonte, MG
Tel: 55-313-461-4222
Fax: 55-313-481-7925
Email: webercom@gold.com.br
CHILE
Seiman S.A.
1 Norte 1511
Vina del Mar
Tel: 56-32-699-310
Fax: 56-32-699-318
Email: seimanvm@chilesat.net
794
Seiman S.A.
Suárez Mujica 282 – Ñuñoa
Santiago
Tel: 56-2-237-2865
Fax: 56-2-237-2830
Email: seimanst@chilesat.net
CIISA
Ave. Chapultepec 1804 Fracc.
Buenos Aires
Monterrey, NL 64800
Tel: 52-83-5 80 700
Fax: 52-83-5 87 700
Email: reyesroberto@usa.net
Sensortrol S.A. de C.V.
Dr. Coss #313 Nte.
Monterrey, Nuevo Leon 64000
Tel: 52-8-114-8515 and 8516
Fax: 52-8-114-8517
Email: sensortrol@infosel.net.mx
Redes Electricas
Calle 17A No. 25-60
Sante Fe de Bogota
Tel: 571-360-9288
Fax: 571-220-4600
Email: redes@openway.com.co
Calvek S.A. de C.V.
Carretera 57, Km 426
San Luis Potosi, S.L.P. 78434
Tel: 52-48 18-5030
Fax: 52-48-223-935
Email: calvek@infosel.net.mx
Technologia Electronica y Appl
Ottawa #`167
Col. Valle del Canada
Escobedo, N.L. 66050
Tel: 52-83-300-939
Fax: 52-83-531-919
Email: catalinaret@team-sa.com
EE-Hitech
Avenida Bolivariana #39-22
Medellin
Tel/Fax: 57-4-265-5358
Email: hitech@pereira.multi.net.com
Eciosa
Rio Balsas #1095
Col. Quinta Velarde
Sector Reforma
Guadalajara, Jal. 64800
Tel: 52-3-619-8339 or 52-3-619-8391
Fax: 52-3-619-8391
Email: eciosa@jal1.telmex.net.mx
COLOMBIA
COSTA RICA
Tec de Costa Rica S.A.
Pizza Hut en Pasco Colon 100°
San Jose
Tel: 50-6-221-4466
Fax: 50-6-222-8737
Email: teccsa@sol.racsa.co.cr
ECUADOR
Krahuer S.A.
Av. Juan Tanca Marenfo km 3.5, Bodega#9
2 cuadras atras de Coca Cola
P.O. Box 09-01-9910
ICQ #23003123
Guayaquil
Tel: 593-9-874-683
Fax: 593-4-850-454
Email: krahuer@gye.satnet.net
Cybertronica
Plaza Dañin 903
Guayaquil
Tel: 593-4 288-713
fax: 593-4-287-634
Email: xalvarez@cybertronica.com
GUATEMALA
Enersys Co.
5 Calle 35-01, Zona 11
Utatlán II
Guatemala City
Tel/Fax: 502-2-594-6876
Email: enersys@guate.net
MEXICO
AEEC
Tripoli #221-1
Col. Portales
Mexico, C.P. 03300
Tel: 52-5-605-2048 or 1794
Fax: 52-5-605-2164
Email:jemaaeec@iserve.net.mx
Automatizaciones De Mexico
Av Ocotlan 1103-3 Altos
Fracc. Jardines de San Marcos
Mexicali, Baja California 21050
Tel: 52-65-55 1175
Fax: 52-65-55 2522
Email: automati@telnor.net
Besser Electronica S.A. de C.V.
Ave. Ixtacala 188, Los Reyes Ixtacala
Tlalneplantla Edo de Mex. 54070
Tel: 52-5-382-0006
Fax: 52-5-382-8399
Email: besser@prodigy.net.mx
Ferreteria Hernandez
Bravo y 10 #137 Zona Centro
H. Matamoros
Tampico, Mexico 87300
Tel: 8-816-7020 or 7338
Fax: 8-813-3830
Email: japaci@prodigy.net.mx
Hobby Electronica S.A. de C.V.
Retorno Corregidora 173-D
Col Balaustradas, Santiago De
Queretaro, Qro. 76060
Tel: 52-42-13-8790
Fax: 52-42-23-48-44
Email: ventas@hobbyelectronica.com
Indicon
Aldama #4304
Col. Centro
Chihuahua, Chi 31130
Tel/Fax: 52-14-241-167
Email: indicon@prodigy.net.mx
Ricasa
18 Oriente 2606-A
Col. Humboldt
Puebla, Pue. 72370
Tel: 52-22-36-3959
Fax: 52-22-36-3948
Email: ricasa@datasys.com.mx
Rodela
Blvd. Revolucion 1403 Oriente
Colonia Centro
Torrion, Quahuila Mexico, Qu 27000
Tel: 521-713-9292
Fax: 521-713-8226
Email: rodela_industrial@yahoo.com
Tecnoaplicacion Industral
Calle Puerto #73-B
Col. Olivio II
Tlainepantla, Edo de Mexico 54110
Tel/Fax: 52-5-311-6544
Email: tecnoa@iwm.com.mx
Tesla
Encinos Ote 13 Arcos del Alba
Cuatitlan Izcalli
Edo de Mexico
Tel: 5-871-3468
Fax: 5-873-2454
Email: tesla@att.net.mx
PERU
Saeg Peru S.A.
Ugarte y Moscoso 450 Of. 501
Magdalena del Mar
Lima
Tel: 511-461-5050
Fax: 511-461-2015
Email: peru@saeg.com
Neotronics del Peru E.I.R.L.
Alcanfores 471 / 18A, Miraf.
Lima 18
Tel: 511-241-3648
Fax: 511-445-2557
Email: npiperu@blockbuster.com.pe
URUGUAY
Fidemar
Minas 1634-CP 11.200
Montevideo
Tel: 5982-402 1717
Fax: 5982-402 1719
Email: alvaro@fidemar.com.uy
VENEZUELA
Cadeci C.A.
Centro Comercial Ara. Nave G
No. 80-A-18
Valencia
Tel: 58-41-345-667 or 335-843
Fax: 58-41-348-364
Email: cadeci@telcel.net.ve
Saft. America S.A. de C.V.
Av. Calidad #4
Parque Industrial International Tijuana
Tijuana, BC, Mexico 22575
Tel: 52-66-249-2020
Fax: 52-66-249-203
Email: marcoh@index.net
Seguridad y Control S.A.
Av. Ninos Heroes 1207
Guadalajara, Jal. 44190
Tel: 52-3-614-5544
Fax: 52-3-614-1253
Email: ventas@seguridadycontrol.com.mx
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
Photoelectric Sensor Product Index by Model Number
MODEL
P/N
PAGE
39536 . . . . . . . . . . . . . . . 39536 . . . . .757
39537 . . . . . . . . . . . . . . . 39537 . . . . .757
2LM3 . . . . . . . . . . . . . . 16536 . . . . .506
2LM4-2 . . . . . . . . . . . . . 16537 . . . . .506
2LM5 . . . . . . . . . . . . . . . 16539 . . . . .506
2LM5-14 . . . . . . . . . . . . 16544 . . . . .507
2LM5R . . . . . . . . . . . . . . 16542 . . . . .507
2LM5T . . . . . . . . . . . . . . 16540 . . . . .507
2PBA . . . . . . . . . . . . . . . 16546 . . . . .504
2PBB . . . . . . . . . . . . . . . 16547 . . . . .504
2PBD . . . . . . . . . . . . . . . 17581 . . . . .504
2PBR . . . . . . . . . . . . . . . 25535 . . . . .505
2PBR2 . . . . . . . . . . . . . . 26611 . . . . .505
2SBC1 . . . . . . . . . . . . . . 17667 . . . . .502
2SBC1-4 . . . . . . . . . . . . . 18708 . . . . .502
2SBD1 . . . . . . . . . . . . . . 18560 . . . . .501
2SBDX1 . . . . . . . . . . . . . 17484 . . . . .501
2SBF1 . . . . . . . . . . . . . . 17152 . . . . .503
2SBL1 . . . . . . . . . . . . . . 17669 . . . . .501
2SBR1. . . . . . . . . . . . . . . 17668 . . . . .500
2SBR1 . . . . . . . . . . . . . . 17668 . . . . .500
3GA5-14 . . . . . . . . . . . . 16557 . . . . .512
3GB5-14 . . . . . . . . . . . . 26290 . . . . .512
45AS1 . . . . . . . . . . . . . . . 40058 . . . . .405
45ASE1 . . . . . . . . . . . . . . 40906 . . . . .405
45DN1. . . . . . . . . . . . . . . 40059 . . . . .405
45DN2. . . . . . . . . . . . . . . 49215 . . . . .405
45DNE1 . . . . . . . . . . . . . . 40907 . . . . .405
45LM58. . . . . . . . . . . . . . 63420 . . . . .422
45LM58D . . . . . . . . . . . . 63421 . . . . .422
45LMD . . . . . . . . . . . . . . 35497 . . . . .422
45SD1 . . . . . . . . . . . . . . . 40060 . . . . .405
A
AC-30 . . . . . . . . . . . . . . . 16003 . . . . .587
AC-6 . . . . . . . . . . . . . . . 16001 . . . . .369
AP12SC . . . . . . . . . . . . . 27634 . . . . .588
AP12SR. . . . . . . . . . . . . . 27633 . . . . .588
AP18SC . . . . . . . . . . . . . 32689 . . . . .233
AP18SCN. . . . . . . . . . . . . 50934 . . . . .233
AP18SR . . . . . . . . . . . . . 32707 . . . . .233
AP18SRN . . . . . . . . . . . . 50935 . . . . .233
AP19-00 . . . . . . . . . . . . . 35733 . . . . .103
AP23-0203 . . . . . . . . . . . 59747 . . . . .103
AP23-0404 . . . . . . . . . . . 59748 . . . . .103
AP23-0406 . . . . . . . . . . . 59749 . . . . .103
AP23-04S . . . . . . . . . . . . 59743 . . . . .103
AP23-06S . . . . . . . . . . . . 59744 . . . . .103
AP23-1012 . . . . . . . . . . . 59750 . . . . .103
AP23-10S . . . . . . . . . . . . 59745 . . . . .103
AP23-12S . . . . . . . . . . . . 59746 . . . . .103
AP31-020 . . . . . . . . . . . 27127 . . . . .153
AP31-020H . . . . . . . . . . 27130 . . . . .153
AP31-020V . . . . . . . . . . 27134 . . . . .153
AP31-040 . . . . . . . . . . . 27128 . . . . .153
AP31-040H . . . . . . . . . . 27131 . . . . .153
AP31-040V . . . . . . . . . . 27135 . . . . .153
AP31-100 . . . . . . . . . . . 27129 . . . . .153
AP31-100H . . . . . . . . . . 27132 . . . . .153
AP31-100V . . . . . . . . . . 27136 . . . . .153
AP31-200H . . . . . . . . . . 27133 . . . . .153
AP31-200V . . . . . . . . . . 27137 . . . . .153
AP31-DVHX2 . . . . . . . . . 27138 . . . . .153
AP400-010 . . . . . . . . . . 16784 . . . . .588
AP400-015 . . . . . . . . . . 18705 . . . . .588
AP400-030R . . . . . . . . . . 16006 . . . . .588
AP400-040 . . . . . . . . . . 16007 . . . . .588
APG18S. . . . . . . . . . . . . . 42703 . . . . .233
APG30S . . . . . . . . . . . . . 27533 . . . . .295
APQS18-020 . . . . . . . . . . 67551 . . . . .112
APQS18-020H . . . . . . . . . 67552 . . . . .112
APQS18-020V . . . . . . . . . 67553 . . . . .112
APQS18-040 . . . . . . . . . . 67554 . . . . .112
APQS18-040H . . . . . . . . 67555 . . . . .112
APQS18-040V . . . . . . . . . 67556 . . . . .112
APQS18-100 . . . . . . . . . . 67557 . . . . .112
APQS18-100H . . . . . . . . 67558 . . . . .112
APQS18-100V . . . . . . . . . 67559 . . . . .112
APQS18-DVHX2. . . . . . . . 67560 . . . . .112
APVS2-0204 . . . . . . . . . . 58931 . . . . .69
APVS2-02R . . . . . . . . . . . 58933 . . . . .69
APVS2-04R . . . . . . . . . . . 58934 . . . . .69
MODEL
P/N
PAGE
APVS2-0608 . . . . . . . . . . 58932 . . . . .69
B
BA.753PMETA . . . . . . . . 21210 . . . . .682
BA.753PMTA . . . . . . . . . 21758 . . . . .682
BA.753SMETA . . . . . . . . 21363 . . . . .682
BA.753SMTA . . . . . . . . . 21274 . . . . .682
BA1.53PMETA . . . . . . . . . 21084 . . . . .682
BA1.53PMTA . . . . . . . . . 20325 . . . . .682
BA1.53SMETA . . . . . . . . 21085 . . . . .682
BA1.53SMTA . . . . . . . . . 20879 . . . . .682
BA13P . . . . . . . . . . . . . . 17200 . . . . .683
BA13PMETA . . . . . . . . . 21250 . . . . .682
BA13PMTA . . . . . . . . . . 21777 . . . . .682
BA13S . . . . . . . . . . . . . . 17201 . . . . .683
BA13SMETA . . . . . . . . . 21362 . . . . .682
BA13SMTA . . . . . . . . . . 21224 . . . . .682
BA2.53P . . . . . . . . . . . . 21332 . . . . .683
BA2.53S . . . . . . . . . . . . 20276 . . . . .683
BA23P . . . . . . . . . . . . . . 17209 . . . . .683
BA23S . . . . . . . . . . . . . . 17210 . . . . .683
BA23SM1.38 . . . . . . . . . 17208 . . . . .701
BA23SM1.9SQM900 . . . . 21456 . . . . .701
BAM.752P . . . . . . . . . . . 17399 . . . . .683
BAM.752S . . . . . . . . . . . 17220 . . . . .683
BAM.753S . . . . . . . . . . . 17397 . . . . .683
BAMM.442P . . . . . . . . . 20059 . . . . .684
BAMM.442S . . . . . . . . . 20183 . . . . .684
BAR.752SMTA . . . . . . . . . 21778 . . . . .685
BAR.752SMTAMRA . . . . . 21779 . . . . .685
BAR.753P . . . . . . . . . . . . 21775 . . . . .684
BAR.753PMRA . . . . . . . . 21651 . . . . .684
BAR.753S . . . . . . . . . . . . 21086 . . . . .684
BAR.753SMRA . . . . . . . . 21087 . . . . .684
BAR.753SMTA . . . . . . . . . 21497 . . . . .685
BAR.753SMTAMRA . . . . . 21498 . . . . .685
BAT13P . . . . . . . . . . . . . 20860 . . . . .685
BAT13S . . . . . . . . . . . . . 20021 . . . . .685
BAT2.53P . . . . . . . . . . . . 21200 . . . . .686
BAT2.53S . . . . . . . . . . . . 21089 . . . . .686
BAT23P . . . . . . . . . . . . . 20117 . . . . .685
BAT23S . . . . . . . . . . . . . 17222 . . . . .685
BAT23SM900. . . . . . . . . . 20656 . . . . .702
BATR.753P . . . . . . . . . . . 21315 . . . . .686
BATR.753PMRA . . . . . . . 21776 . . . . .686
BATR.753S . . . . . . . . . . . 20919 . . . . .686
BATR.753SMRA . . . . . . . 21088 . . . . .686
BENC-4 . . . . . . . . . . . . . . 26683 . . . . .593
BF13LMSRE . . . . . . . . . . 20832 . . . . .702
BF13P . . . . . . . . . . . . . . . 17226 . . . . .687
BF13S . . . . . . . . . . . . . . . 17227 . . . . .687
BF2.53P. . . . . . . . . . . . . . 21284 . . . . .687
BF2.53S. . . . . . . . . . . . . . 21090 . . . . .687
BF23P . . . . . . . . . . . . . . . 17233 . . . . .687
BF23S . . . . . . . . . . . . . . . 17237 . . . . .687
BF23SM1.06 . . . . . . . . . . 17238 . . . . .702
BF23SM2. . . . . . . . . . . . . 17239 . . . . .703
BF23SM3FMB . . . . . . . . . 20572 . . . . .703
BF23SM900. . . . . . . . . . . 21466 . . . . .703
BF23SMTTULB . . . . . . . . 17836 . . . . .704
BF2M300. . . . . . . . . . . . . 20856 . . . . .704
BFR.753P . . . . . . . . . . . . 21780 . . . . .687
BFR.753S . . . . . . . . . . . . 21390 . . . . .687
BHA13P. . . . . . . . . . . . . . 21737 . . . . .688
BHA13S. . . . . . . . . . . . . . 21248 . . . . .688
BHA2.53P . . . . . . . . . . . . 21611 . . . . .688
BHA2.53S . . . . . . . . . . . . 21092 . . . . .688
BHA23P. . . . . . . . . . . . . . 21186 . . . . .688
BHA23S. . . . . . . . . . . . . . 21091 . . . . .688
BHAR.753P . . . . . . . . . . . 21781 . . . . .688
BHAR.753PMRA . . . . . . 21641 . . . . .689
BHAR.753S . . . . . . . . . . . 21093 . . . . .688
BHAR.753SMRA . . . . . . . 21094 . . . . .689
BHAT13P . . . . . . . . . . . . . 21782 . . . . .689
BHAT13S . . . . . . . . . . . . . 21650 . . . . .689
BHAT2.53P . . . . . . . . . . . 21783 . . . . .689
BHAT2.53S . . . . . . . . . . . 21096 . . . . .689
BHAT23P . . . . . . . . . . . . . 21784 . . . . .689
BHAT23S . . . . . . . . . . . . . 21095 . . . . .689
BHATR.753P . . . . . . . . . . 21785 . . . . .690
BHATR.753PMRA . . . . . . 21786 . . . . .690
BHATR.753S . . . . . . . . . . 21097 . . . . .690
MODEL
P/N
PAGE
BHATR.753SMRA . . . . . . 21098 . . . . .690
BM.752P . . . . . . . . . . . . . 17245 . . . . .690
BM.752PMA.25 . . . . . . . . 17246 . . . . .704
BM.752S . . . . . . . . . . . . . 17248 . . . . .691
BM.753P . . . . . . . . . . . . . 17250 . . . . .690
BM.753S . . . . . . . . . . . . . 17251 . . . . .691
BM.753SM2 . . . . . . . . . . 17252 . . . . .705
BM.754SMAMA . . . . . . . . 20108 . . . . .705
BMAP.442P . . . . . . . . . . . 21331 . . . . .691
BMAP.753P . . . . . . . . . . . 21099 . . . . .691
BMHAP.442P . . . . . . . . . . 21787 . . . . .691
BMHAP.753P . . . . . . . . . . 21100 . . . . .691
BMM.442P . . . . . . . . . . . 20205 . . . . .692
BMM.442S . . . . . . . . . . . 20283 . . . . .692
BMM.443P . . . . . . . . . . . 20935 . . . . .692
BMM.443S . . . . . . . . . . . 21374 . . . . .692
BMP.442P . . . . . . . . . . . . 21755 . . . . .692
BMP.753P . . . . . . . . . . . . 21101 . . . . .692
BMT.442P . . . . . . . . . . . . 21310 . . . . .693
BMT.753P . . . . . . . . . . . . 21102 . . . . .693
BMT16.6S-HT . . . . . . . . . 64397 . . . . .661
BMTAP.442P . . . . . . . . . . 21317 . . . . .693
BMTAP.753P . . . . . . . . . . 21103 . . . . .693
BMTHAP.442P . . . . . . . . . 21788 . . . . .693
BMTHAP.753P . . . . . . . . . 21104 . . . . .693
BMTP.442P . . . . . . . . . . . 21143 . . . . .694
BMTP.753P . . . . . . . . . . . 21105 . . . . .694
BP12P . . . . . . . . . . . . . . . 21789 . . . . .694
BP12S . . . . . . . . . . . . . . . 17875 . . . . .694
BP12SMA1X.25 . . . . . . . . 20098 . . . . .705
BP13P . . . . . . . . . . . . . . . 17254 . . . . .694
BP13S . . . . . . . . . . . . . . . 17255 . . . . .694
BR12P. . . . . . . . . . . . . . . 21599 . . . . .694
BR12S. . . . . . . . . . . . . . . 21790 . . . . .695
BR13P. . . . . . . . . . . . . . . 20048 . . . . .694
BR13S. . . . . . . . . . . . . . . 17258 . . . . .695
BR2.53P . . . . . . . . . . . . . 21106 . . . . .696
BR2.53S . . . . . . . . . . . . . 17379 . . . . .696
BR2.56P . . . . . . . . . . . . . 21791 . . . . .696
BR2.56S . . . . . . . . . . . . . 17393 . . . . .696
BR23P. . . . . . . . . . . . . . . 17260 . . . . .695
BR23S. . . . . . . . . . . . . . . 17261 . . . . .695
BR23SMCCE . . . . . . . . . . 21380 . . . . .706
BR23SMCSC . . . . . . . . . . 21289 . . . . .707
BR23SMCSE . . . . . . . . . . 21381 . . . . .706
BR23SMRA . . . . . . . . . . . 20490 . . . . .706
BR26P. . . . . . . . . . . . . . . 17846 . . . . .695
BR26S. . . . . . . . . . . . . . . 17812 . . . . .695
BR53PM5X.008 . . . . . . . . 20498 . . . . .707
BRSE2.53S . . . . . . . . . . . 22823 . . . . .708
BRT-.6 . . . . . . . . . . . . . . . 16161 . . . . .723
BRT-1 . . . . . . . . . . . . . . . 16162 . . . . .723
BRT-1.5 . . . . . . . . . . . . . . 16163 . . . . .723
BRT-100X18A . . . . . . . . . 44998 . . . . .730
BRT-100X50 . . . . . . . . . . 45000 . . . . .725
BRT-100X55A . . . . . . . . . 45001 . . . . .725
BRT-23X14CM . . . . . . . . . 58981 . . . . .727
BRT-25R . . . . . . . . . . . . . 49809 . . . . .724
BRT-2A . . . . . . . . . . . . . . 15970 . . . . .722
BRT-2X2 . . . . . . . . . . . . . 40071 . . . . .726
BRT-3 . . . . . . . . . . . . . . . 16164 . . . . .722
BRT-32X20AM . . . . . . . . . 58982 . . . . .728
BRT-35DM. . . . . . . . . . . . 58980 . . . . .724
BRT-35X20A . . . . . . . . . . 49810 . . . . .728
BRT-36X40BM . . . . . . . . . 49811 . . . . .726
BRT-40X18A . . . . . . . . . . 44991 . . . . .728
BRT-40X19A . . . . . . . . . . 67492 . . . . .728
BRT-40X19AM . . . . . . . . . 67493 . . . . .728
BRT-40X20AM . . . . . . . . . 67494 . . . . .729
BRT-40X23 . . . . . . . . . . . 44993 . . . . .727
BRT-40X23A . . . . . . . . . . 67495 . . . . .729
BRT-40X23B . . . . . . . . . . 44992 . . . . .727
BRT-41AHT . . . . . . . . . . . 45007 . . . . .730
BRT-42A . . . . . . . . . . . . . 45005 . . . . .724
BRT-42D . . . . . . . . . . . . . 45006 . . . . .724
BRT-48X32 . . . . . . . . . . . 44994 . . . . .726
BRT-48X32A . . . . . . . . . . 44995 . . . . .727
BRT-48X32B . . . . . . . . . . 44999 . . . . .727
BRT-4HT . . . . . . . . . . . . . 18528 . . . . .730
BRT-50 . . . . . . . . . . . . . . 49812 . . . . .723
BRT-50D . . . . . . . . . . . . . 49813 . . . . .723
BRT-50R . . . . . . . . . . . . . 49814 . . . . .724
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
MODEL
P/N
PAGE
BRT-53X19A . . . . . . . . . . 44996 . . . . .729
BRT-60X40C . . . . . . . . . . 44997 . . . . .726
BRT-77X77C . . . . . . . . . . 49816 . . . . .725
BRT-80X50 . . . . . . . . . . . 58978 . . . . .726
BRT-84 . . . . . . . . . . . . . . 58979 . . . . .722
BRT-92X92C . . . . . . . . . . 49808 . . . . .725
BRT-L . . . . . . . . . . . . . . . 16167 . . . . .730
BRT-T-100 . . . . . . . . . . . . 26949 . . . . .731
BRT-THG-1-100 . . . . . . . . 26619 . . . . .731
BRT-THG-18X36 . . . . . . . 26618 . . . . .731
BRT-THG-2-100 . . . . . . . . 26620 . . . . .731
BRT-THG-3-100 . . . . . . . . 26621 . . . . .731
BRT-THG-3X3-10 . . . . . . . 26069 . . . . .731
BRT-THG-4X4-5 . . . . . . . . 26616 . . . . .731
BRT-THG-8.5X11-2 . . . . . 26617 . . . . .731
BRT-THT-100 . . . . . . . . . . 27451 . . . . .731
BRT-TVHG2X2 . . . . . . . . . 67496 . . . . .731
BRT62X10AM . . . . . . . . . 58983 . . . . .729
BT-1 . . . . . . . . . . . . . . . . 26809 . . . . .755
BT.752P. . . . . . . . . . . . . . 21124 . . . . .696
BT.752S. . . . . . . . . . . . . . 17862 . . . . .696
BT13P . . . . . . . . . . . . . . . 17263 . . . . .696
BT13S . . . . . . . . . . . . . . . 17264 . . . . .696
BT2.53P . . . . . . . . . . . . . 21576 . . . . .697
BT2.53S . . . . . . . . . . . . . 17867 . . . . .697
BT210SM900. . . . . . . . . . 20128 . . . . .697
BT23LMNC . . . . . . . . . . . 17930 . . . . .708
BT23P . . . . . . . . . . . . . . . 17275 . . . . .696
BT23PMSS . . . . . . . . . . . 20032 . . . . .696
BT23S . . . . . . . . . . . . . . . 17276 . . . . .696
BT23SM900. . . . . . . . . . . 20196 . . . . .697
BT23SMSS . . . . . . . . . . . 20030 . . . . .696
BT26S . . . . . . . . . . . . . . . 17285 . . . . .696
BT26SM900. . . . . . . . . . . 20224 . . . . .697
BTA13P . . . . . . . . . . . . . . 21222 . . . . .697
BTA13S . . . . . . . . . . . . . . 20195 . . . . .697
BTA2.53P. . . . . . . . . . . . . 21679 . . . . .698
BTA2.53S. . . . . . . . . . . . . 21107 . . . . .698
BTA23P . . . . . . . . . . . . . . 21303 . . . . .697
BTA23S . . . . . . . . . . . . . . 20008 . . . . .697
BTA26SM900. . . . . . . . . . 21272 . . . . .708
BTAR.753P . . . . . . . . . . . 21792 . . . . .698
BTAR.753PMRA. . . . . . . . 21793 . . . . .698
BTAR.753S . . . . . . . . . . . 20880 . . . . .698
BTAR.753SMRA. . . . . . . . 21108 . . . . .698
BTETA.753S. . . . . . . . . . . 21794 . . . . .699
BTETA1.53S. . . . . . . . . . . 21496 . . . . .699
BTETA13S . . . . . . . . . . . . 21762 . . . . .699
BTHA13P. . . . . . . . . . . . . 21796 . . . . .699
BTHA13S. . . . . . . . . . . . . 21600 . . . . .699
BTHA2.53P . . . . . . . . . . . 21797 . . . . .699
BTHA2.53S . . . . . . . . . . . 21110 . . . . .699
BTHA23P. . . . . . . . . . . . . 21798 . . . . .699
BTHA23S. . . . . . . . . . . . . 21109 . . . . .699
BTHAR.753P . . . . . . . . . . 21799 . . . . .700
BTHAR.753PMRA . . . . . . 21800 . . . . .700
BTHAR.753S . . . . . . . . . . 21111 . . . . .700
BTHAR.753SMRA . . . . . . 21112 . . . . .700
BTR.753P . . . . . . . . . . . . 21157 . . . . .700
BTR.753S . . . . . . . . . . . . 21113 . . . . .700
BTRSE2.53S . . . . . . . . . . 22824 . . . . .708
BZ500 . . . . . . . . . . . . . . . 16198 . . . . .282
C
CD3A. . . . . . . . . . . . . . . . 27551 . . . . .568
CD3B. . . . . . . . . . . . . . . . 27552 . . . . .568
CD3RA . . . . . . . . . . . . . . 27547 . . . . .568
CD3RB . . . . . . . . . . . . . . 27548 . . . . .568
CD5A. . . . . . . . . . . . . . . . 27553 . . . . .568
CD5B. . . . . . . . . . . . . . . . 27554 . . . . .568
CD5RA . . . . . . . . . . . . . . 27549 . . . . .568
CD5RB . . . . . . . . . . . . . . 27550 . . . . .568
CF3-8 . . . . . . . . . . . . . . . 16201 . . . . .587
CF7-16 . . . . . . . . . . . . . . 16202 . . . . .587
CI2B-1 . . . . . . . . . . . . . . 36865 . . . . .361
CI2BK-1 . . . . . . . . . . . . . 36860 . . . . .361
CI2BK-2 . . . . . . . . . . . . . 36605 . . . . .361
CI3RC2 . . . . . . . . . . . . . . 36606 . . . . 582
CIB-1. . . . . . . . . . . . . . . . 27030 . . . . .361
CL3A . . . . . . . . . . . . . . . . 26679 . . . . .576
CL3B . . . . . . . . . . . . . . . . 26680 . . . . .576
CL3RA. . . . . . . . . . . . . . . 26454 . . . . .576
795
Photoelectric Sensor Product Index by Model Number
MODEL
P/N
PAGE
CL3RB. . . . . . . . . . . . . . . 26455 . . . . .576
CL5A . . . . . . . . . . . . . . . . 26681 . . . . .576
CL5B . . . . . . . . . . . . . . . . 26682 . . . . .576
CL5RA. . . . . . . . . . . . . . . 26419 . . . . .576
CL5RB. . . . . . . . . . . . . . . 26456 . . . . .576
CM3A . . . . . . . . . . . . . . . 26671 . . . . .564
CM3B . . . . . . . . . . . . . . . 26672 . . . . .564
CM3RA . . . . . . . . . . . . . . 26451 . . . . .564
CM3RB . . . . . . . . . . . . . . 26452 . . . . .564
CM5A . . . . . . . . . . . . . . . 26673 . . . . .564
CM5B . . . . . . . . . . . . . . . 26674 . . . . .564
CM5RA . . . . . . . . . . . . . . 26418 . . . . .564
CM5RB . . . . . . . . . . . . . . 26453 . . . . .564
CP12C . . . . . . . . . . . . . . . 26420 . . . . .584
CP12RC. . . . . . . . . . . . . . 26421 . . . . .584
CR3A. . . . . . . . . . . . . . . . 26675 . . . . .560
CR3B. . . . . . . . . . . . . . . . 26676 . . . . .560
CR3RA . . . . . . . . . . . . . . 26422 . . . . .560
CR3RB . . . . . . . . . . . . . . 26423 . . . . .560
CR5A. . . . . . . . . . . . . . . . 26677 . . . . .560
CR5B. . . . . . . . . . . . . . . . 26678 . . . . .560
CR5RA . . . . . . . . . . . . . . 26424 . . . . .560
CR5RB . . . . . . . . . . . . . . 26425 . . . . .560
D
D10DNFP. . . . . . . . . . . . . 62379 . . . . .596
D10DNFPG . . . . . . . . . . . 64561 . . . . .596
D10DNFPGQ . . . . . . . . . . 64562 . . . . .596
D10DNFPQ . . . . . . . . . . . 62380 . . . . .596
D10DPFP. . . . . . . . . . . . . 62382 . . . . .596
D10DPFPG. . . . . . . . . . . . 64564 . . . . .596
D10DPFPGQ . . . . . . . . . . 64565 . . . . .596
D10DPFPQ . . . . . . . . . . . 62383 . . . . .596
D10INFP . . . . . . . . . . . . . 62385 . . . . .596
D10INFPG . . . . . . . . . . . . 64567 . . . . .596
D10INFPGQ . . . . . . . . . . . 64568 . . . . .596
D10INFPQ . . . . . . . . . . . . 64386 . . . . .596
D10IPFP . . . . . . . . . . . . . 62388 . . . . .596
D10IPFPG . . . . . . . . . . . . 64570 . . . . .596
D10IPFPGQ . . . . . . . . . . . 64571 . . . . .596
D10IPFPQ . . . . . . . . . . . . 62389 . . . . .596
D10UNFP. . . . . . . . . . . . . 63992 . . . . .596
D10UNFPG . . . . . . . . . . . 64573 . . . . .596
D10UNFPGQ . . . . . . . . . . 64574 . . . . .596
D10UNFPQ . . . . . . . . . . . 63993 . . . . .596
D10UPFP. . . . . . . . . . . . . 63995 . . . . .596
D10UPFPG. . . . . . . . . . . . 64576 . . . . .596
D10UPFPGQ . . . . . . . . . . 64577 . . . . .596
D10UPFPQ. . . . . . . . . . . . 63996 . . . . .596
D11E2N6FP . . . . . . . . . . . 50832 . . . . .604
D11E2N6FP W/30 . . . . . . 50836 . . . . .604
D11E2N6FPQ . . . . . . . . . . 50834 . . . . .604
D11E2P6FP . . . . . . . . . . . 50833 . . . . .604
D11E2P6FP W/30 . . . . . . 50837 . . . . .604
D11E2P6FPQ . . . . . . . . . . 50835 . . . . .604
D11EN6FP . . . . . . . . . . . . 44271 . . . . .604
D11EN6FP W/30 . . . . . . . 44272 . . . . .604
D11EN6FPB . . . . . . . . . . . 50207 . . . . .605
D11EN6FPB W/30 . . . . . . 51169 . . . . .605
D11EN6FPBQ. . . . . . . . . . 51168 . . . . .605
D11EN6FPG. . . . . . . . . . . 50379 . . . . .605
D11EN6FPG W/30 . . . . . . 51173 . . . . .605
D11EN6FPGQ . . . . . . . . . 51172 . . . . .605
D11EN6FPQ. . . . . . . . . . . 44273 . . . . .605
D11EN6FPW . . . . . . . . . . 59799 . . . . .605
D11EN6FPW W/30 . . . . . . 59801 . . . . .605
D11EN6FPWQ . . . . . . . . . 59800 . . . . .605
D11EP6FP . . . . . . . . . . . . 44274 . . . . .604
D11EP6FP W/30 . . . . . . . 44275 . . . . .604
D11EP6FPB . . . . . . . . . . . 50381 . . . . .605
D11EP6FPB W/30 . . . . . . 51171 . . . . .605
D11EP6FPBQ . . . . . . . . . . 51170 . . . . .605
D11EP6FPG . . . . . . . . . . . 50380 . . . . .605
D11EP6FPG W/30 . . . . . . 51175 . . . . .605
D11EP6FPGQ. . . . . . . . . . 51174 . . . . .605
D11EP6FPQ . . . . . . . . . . . 44276 . . . . .604
D11EP6FPW . . . . . . . . . . 59802 . . . . .605
D11EP6FPW W/30 . . . . . . 59804 . . . . .605
D11EP6FPWQ . . . . . . . . . 59803 . . . . .605
D11SN6FP . . . . . . . . . . . . 43342 . . . . .610
D11SN6FP W/30 . . . . . . . 43343 . . . . .610
D11SN6FPB. . . . . . . . . . . 48603 . . . . .611
796
MODEL
P/N
PAGE
D11SN6FPB W/30 . . . . . . 51165 . . . . .611
D11SN6FPBQ . . . . . . . . . 51164 . . . . .611
D11SN6FPG. . . . . . . . . . . 48604 . . . . .611
D11SN6FPG W/30 . . . . . . 49415 . . . . .611
D11SN6FPGQ . . . . . . . . . 48628 . . . . .611
D11SN6FPQ. . . . . . . . . . . 43344 . . . . .610
D11SN6FPW . . . . . . . . . . 59793 . . . . .611
D11SN6FPW W/30. . . . . . 59795 . . . . .611
D11SN6FPWQ . . . . . . . . . 59794 . . . . .611
D11SP6FP . . . . . . . . . . . . 43348 . . . . .610
D11SP6FP W/30 . . . . . . . 43349 . . . . .610
D11SP6FPB . . . . . . . . . . . 50244 . . . . .611
D11SP6FPB W/30 . . . . . . 51167 . . . . .611
D11SP6FPBQ. . . . . . . . . . 51166 . . . . .611
D11SP6FPG. . . . . . . . . . . 49416 . . . . .611
D11SP6FPG W/30 . . . . . . 49418 . . . . .611
D11SP6FPGQ . . . . . . . . . 49417 . . . . .611
D11SP6FPQ. . . . . . . . . . . 43350 . . . . .610
D11SP6FPW . . . . . . . . . . 59796 . . . . .611
D11SP6FPW W/30 . . . . . . 59798 . . . . .611
D11SP6FPWQ . . . . . . . . . 59797 . . . . .611
D12DAB6FP . . . . . . . . . . 38382 . . . . .631
D12DAB6FP W/30 . . . . . . 39544 . . . . .631
D12DAB6FPQ . . . . . . . . . 39543 . . . . .631
D12DAB6FV . . . . . . . . . . 39545 . . . . .630
D12DAB6FV W/30 . . . . . . 39547 . . . . .630
D12DAB6FVQ . . . . . . . . . 39546 . . . . .630
D12E2N6FP . . . . . . . . . . . 50838 . . . . .619
D12E2N6FP W/30 . . . . . . 50842 . . . . .619
D12E2N6FV . . . . . . . . . . . 50840 . . . . .618
D12E2N6FV W/30 . . . . . . 50844 . . . . .618
D12E2P6FP . . . . . . . . . . . 50839 . . . . .619
D12E2P6FP W/30 . . . . . . 50843 . . . . .619
D12E2P6FV . . . . . . . . . . . 50841 . . . . .618
D12E2P6FV W/30 . . . . . . 50845 . . . . .618
D12EN6FP . . . . . . . . . . . . 41959 . . . . .619
D12EN6FV . . . . . . . . . . . . 41962 . . . . .618
D12EN6FV W/30 . . . . . . . 41963 . . . . .618
D12EP6FP . . . . . . . . . . . . 41965 . . . . .619
D12EP6FV . . . . . . . . . . . . 41968 . . . . .618
D12EP6FV W/30 . . . . . . . 41969 . . . . .618
D12SN6FP . . . . . . . . . . . . 32820 . . . . .624
D12SN6FP W/30 . . . . . . . 35932 . . . . .624
D12SN6FPH. . . . . . . . . . . 34464 . . . . .625
D12SN6FPH W/30 . . . . . . 35934 . . . . .625
D12SN6FPHQ . . . . . . . . . 34973 . . . . .625
D12SN6FPQ. . . . . . . . . . . 33712 . . . . .624
D12SN6FPY. . . . . . . . . . . 34869 . . . . .624
D12SN6FPY W/30 . . . . . . 35936 . . . . .624
D12SN6FPY1 . . . . . . . . . . 35501 . . . . .624
D12SN6FPY1 W/30 . . . . . 36061 . . . . .624
D12SN6FPY1Q. . . . . . . . . 35503 . . . . .624
D12SN6FPYQ . . . . . . . . . 35347 . . . . .624
D12SN6FV . . . . . . . . . . . . 33710 . . . . .622
D12SN6FV W/30 . . . . . . . 35883 . . . . .622
D12SN6FVQ . . . . . . . . . . 33714 . . . . .622
D12SN6FVY. . . . . . . . . . . 35400 . . . . .623
D12SN6FVY W/30 . . . . . . 35890 . . . . .623
D12SN6FVY1 . . . . . . . . . . 35505 . . . . .623
D12SN6FVY1 W/30 . . . . . 36062 . . . . .623
D12SN6FVY1Q. . . . . . . . . 35507 . . . . .623
D12SN6FVYQ . . . . . . . . . 35402 . . . . .623
D12SP6FP . . . . . . . . . . . . 32821 . . . . .624
D12SP6FP W/30 . . . . . . . 35933 . . . . .624
D12SP6FPH. . . . . . . . . . . 34972 . . . . .625
D12SP6FPH W/30 . . . . . . 35935 . . . . .625
D12SP6FPHQ . . . . . . . . . 34974 . . . . .625
D12SP6FPQ. . . . . . . . . . . 33713 . . . . .624
D12SP6FPY . . . . . . . . . . . 35348 . . . . .624
D12SP6FPY W/30 . . . . . . 35937 . . . . .624
D12SP6FPY1 . . . . . . . . . . 35502 . . . . .624
D12SP6FPY1 W/30 . . . . . 36063 . . . . .624
D12SP6FPY1Q. . . . . . . . . 35504 . . . . .624
D12SP6FPYQ. . . . . . . . . . 35349 . . . . .624
D12SP6FV . . . . . . . . . . . . 33711 . . . . .622
D12SP6FV W/30 . . . . . . . 35884 . . . . .622
D12SP6FVQ. . . . . . . . . . . 33715 . . . . .623
D12SP6FVY . . . . . . . . . . . 35401 . . . . .623
D12SP6FVY W/30 . . . . . . 35931 . . . . .623
D12SP6FVY1 . . . . . . . . . . 35506 . . . . .623
D12SP6FVY1 W/30 . . . . . 36064 . . . . .623
D12SP6FVY1Q. . . . . . . . . 35508 . . . . .623
MODEL
P/N
PAGE
D12SP6FVYQ. . . . . . . . . . 35403 . . . . .623
DBA23S. . . . . . . . . . . . . . 20864 . . . . .709
DBQ5. . . . . . . . . . . . . . . . 39535 . . . . .757
DBRC2.5M300 . . . . . . . . . 21709 . . . . .709
DBT23S . . . . . . . . . . . . . . 17813 . . . . .709
DIN-35-105 . . . . . . . . . . . 30470 . . . . .740
DIN-35-140 . . . . . . . . . . . 26605 . . . . .740
DIN-35-70 . . . . . . . . . . . . 26604 . . . . .740
E
EC19E-100. . . . . . . . . . . . 44706 .590, 593
EC19R-100 . . . . . . . . . . . 40423 . . . . .232
EC300E-100. . . . . . . . . . . 26698 . . . . .587
EC300R-100 . . . . . . . . . . 26699 . . . . .587
EC312-100. . . . . . . . . . . . 26369 .167, 232
EC312A-100 . . . . . . . . . . 26472 .167, 232
EC320-100. . . . . . . . . . . . 26700 . . . . .587
EC512-100. . . . . . . . . . . . 27866 . . . . .281
EC900A-100 . . . . . . . . . . 26701 .167, 232
EC915-100. . . . . . . . . . . . 26747 .369, 422
ECAD9-100 . . . . . . . . . . . 44714 .155, 422
EM3T-1M. . . . . . . . . . . . . 18547 . . . . .510
EO60-Q08-AN6X . . . . . . . 27759 . . . . .74
EO60-Q08-AN6X W/30 . . . 35930 . . . . .74
EO60-Q08-AP6X . . . . . . . 27761 . . . . .74
EO60-Q08-AP6X W/30 . . . 28884 . . . . .74
EO60-Q08-RN6X . . . . . . . 27758 . . . . .74
EO60-Q08-RN6X W/30. . . 35870 . . . . .74
EO60-Q08-RP6X . . . . . . . 27760 . . . . .74
EO60-Q08-RP6X W/30 . . . 30970 . . . . .74
ESC-100 . . . . . . . . . . . . . 19289 . . . . .587
F
FARA . . . . . . . . . . . . . . . . 20014 . . . . .710
FIC-M12F4. . . . . . . . . . . . 58912 . . . . .738
FIC-M12F4A. . . . . . . . . . . 58913 . . . . .738
FIC-M12F5. . . . . . . . . . . . 58914 . . . . .738
FIC-M12F5A. . . . . . . . . . . 58915 . . . . .738
FIC-M12M4 . . . . . . . . . . . 58910 . . . . .738
FIC-M12M4A . . . . . . . . . . 58911 . . . . .738
FIC-M12M5 . . . . . . . . . . . 58916 . . . . .738
FIC-M12M5A . . . . . . . . . . 58917 . . . . .738
FIC-M8F3. . . . . . . . . . . . . 58903 . . . . .737
FIC-M8F3A. . . . . . . . . . . . 58905 . . . . .737
FIC-M8F4. . . . . . . . . . . . . 58907 . . . . .737
FIC-M8F4A. . . . . . . . . . . . 58909 . . . . .737
FIC-M8M3 . . . . . . . . . . . . 58902 . . . . .737
FIC-M8M3A . . . . . . . . . . . 58904 . . . . .737
FIC-M8M4 . . . . . . . . . . . . 58906 . . . . .737
FIC-M8M4A . . . . . . . . . . . 58908 . . . . .737
FMB-1 . . . . . . . . . . . . . . . 16220 . . . . .720
FOF-400. . . . . . . . . . . . . . 16227 . . . . .587
FOF-500. . . . . . . . . . . . . . 16282 . . . . .282
FPA20 . . . . . . . . . . . . . . . 27418 . . . . .154
FPA40 . . . . . . . . . . . . . . . 27419 . . . . .154
FS44S100 . . . . . . . . . . . . 48078 . . . . .676
FS44S1000 . . . . . . . . . . . 48077 . . . . .676
FS44S30 . . . . . . . . . . . . . 48079 . . . . .676
FS53S100 . . . . . . . . . . . . 48075 . . . . .676
FS53S1000 . . . . . . . . . . . 48074 . . . . .676
FS53S30 . . . . . . . . . . . . . 48076 . . . . .676
FS69S100 . . . . . . . . . . . . 42866 . . . . .676
FS69S1000 . . . . . . . . . . . 42865 . . . . .676
FS69S30 . . . . . . . . . . . . . 42867 . . . . .676
H
HF1-2NPS . . . . . . . . . . . . 27329 . . . . .453
HF2.53SMTT . . . . . . . . . . 17918 . . . . .710
I
IA.753PMETA. . . . . . . . . . 21136 . . . . .682
IA.753PMTA . . . . . . . . . . 21306 . . . . .682
IA.753SMETA. . . . . . . . . . 21294 . . . . .682
IA.753SMTA . . . . . . . . . . 21158 . . . . .682
IA1.53PMETA. . . . . . . . . . 21057 . . . . .682
IA1.53PMTA . . . . . . . . . . 20085 . . . . .682
IA1.53SMETA. . . . . . . . . . 20501 . . . . .682
IA1.53SMTA . . . . . . . . . . 21056 . . . . .682
IA13P . . . . . . . . . . . . . . . 17289 . . . . .683
IA13PMETA . . . . . . . . . . . 21134 . . . . .682
IA13PMTA . . . . . . . . . . . . 21324 . . . . .682
MODEL
P/N
PAGE
IA13S . . . . . . . . . . . . . . . 17290 . . . . .683
IA13SMETA . . . . . . . . . . . 21172 . . . . .682
IA13SMTA . . . . . . . . . . . . 21196 . . . . .682
IA2.15MSS . . . . . . . . . . . 17911 . . . . .710
IA2.53P . . . . . . . . . . . . . . 21146 . . . . .683
IA2.53S . . . . . . . . . . . . . . 17854 . . . . .683
IA23P . . . . . . . . . . . . . . . 17298 . . . . .683
IA23S . . . . . . . . . . . . . . . 17299 . . . . .683
IA23SM1.9SQM900 . . . . . 20750 . . . . .711
IAC23SM.500 . . . . . . . . . 20795 . . . . .711
IAM.752P . . . . . . . . . . . . 17837 . . . . .683
IAM.752S . . . . . . . . . . . . 17304 . . . . .683
IAM.753S . . . . . . . . . . . . 17926 . . . . .683
IAMM.442P . . . . . . . . . . . 21199 . . . . .684
IAMM.442S . . . . . . . . . . . 20184 . . . . .684
IAR.752SMTA . . . . . . . . . 21801 . . . . .685
IAR.752SMTAMRA. . . . . . 21802 . . . . .685
IAR.753P . . . . . . . . . . . . . 21803 . . . . .684
IAR.753PMRA . . . . . . . . . 21804 . . . . .684
IAR.753S . . . . . . . . . . . . . 20829 . . . . .684
IAR.753SMRA . . . . . . . . . 21058 . . . . .684
IAR.753SMTA . . . . . . . . . 21355 . . . . .685
IAR.753SMTAMRA. . . . . . 21354 . . . . .685
IAR23SMA. . . . . . . . . . . . 17305 . . . . .711
IAT13P . . . . . . . . . . . . . . 20058 . . . . .685
IAT13S . . . . . . . . . . . . . . 17913 . . . . .685
IAT2.53P . . . . . . . . . . . . . 21606 . . . . .686
IAT2.53S . . . . . . . . . . . . . 20101 . . . . .686
IAT23P . . . . . . . . . . . . . . 20053 . . . . .685
IAT23PMC20 . . . . . . . . . . 20633 . . . . .712
IAT23S . . . . . . . . . . . . . . 17307 . . . . .685
IAT23SM900 . . . . . . . . . . 20083 . . . . .712
IATR.753P . . . . . . . . . . . . 21245 . . . . .686
IATR.753PMRA . . . . . . . . 21805 . . . . .686
IATR.753S . . . . . . . . . . . . 21059 . . . . .686
IATR.753SMRA . . . . . . . . 21060 . . . . .686
IF13P. . . . . . . . . . . . . . . . 17310 . . . . .687
IF13S. . . . . . . . . . . . . . . . 17311 . . . . .687
IF2.53P . . . . . . . . . . . . . . 21529 . . . . .687
IF2.53S . . . . . . . . . . . . . . 17955 . . . . .687
IF23P. . . . . . . . . . . . . . . . 17316 . . . . .687
IF23S. . . . . . . . . . . . . . . . 17317 . . . . .687
IF23SM900 . . . . . . . . . . . 21761 . . . . .712
IFR.753P . . . . . . . . . . . . . 21806 . . . . .687
IFR.753S . . . . . . . . . . . . . 21462 . . . . .687
IHA13P . . . . . . . . . . . . . . 21807 . . . . .688
IHA13S . . . . . . . . . . . . . . 21288 . . . . .688
IHA2.53P . . . . . . . . . . . . . 21258 . . . . .688
IHA2.53S . . . . . . . . . . . . . 21062 . . . . .688
IHA23P . . . . . . . . . . . . . . 21524 . . . . .688
IHA23S . . . . . . . . . . . . . . 21061 . . . . .688
IHAR.753P. . . . . . . . . . . . 21689 . . . . .688
IHAR.753PMRA . . . . . . . . 21808 . . . . .689
IHAR.753S. . . . . . . . . . . . 21063 . . . . .688
IHAR.753SMRA . . . . . . . . 21064 . . . . .689
IHAT13P . . . . . . . . . . . . . 21809 . . . . .689
IHAT13S . . . . . . . . . . . . . 21394 . . . . .689
IHAT2.53P . . . . . . . . . . . . 21810 . . . . .689
IHAT2.53S . . . . . . . . . . . . 21066 . . . . .689
IHAT23P . . . . . . . . . . . . . 21811 . . . . .689
IHAT23S . . . . . . . . . . . . . 21065 . . . . .689
IHATR.753P . . . . . . . . . . . 21812 . . . . .690
IHATR.753PMRA . . . . . . 21813 . . . . .690
IHATR.753S . . . . . . . . . . . 21067 . . . . .690
IHATR.753SMRA . . . . . . 21068 . . . . .690
IM.752P . . . . . . . . . . . . . 17324 . . . . .690
IM.752S . . . . . . . . . . . . . 17325 . . . . .691
IM.753P . . . . . . . . . . . . . 17327 . . . . .690
IM.753S . . . . . . . . . . . . . 17328 . . . . .691
IMAP.442P. . . . . . . . . . . . 21347 . . . . .691
IMAP.753P. . . . . . . . . . . . 21070 . . . . .691
IMHAP.442P . . . . . . . . . . 21344 . . . . .691
IMHAP.753P . . . . . . . . . . 21071 . . . . .691
IMM.442P . . . . . . . . . . . . 21069 . . . . .692
IMM.442S . . . . . . . . . . . . 20561 . . . . .692
IMM.443P . . . . . . . . . . . . 20983 . . . . .692
IMM.443S . . . . . . . . . . . . 21189 . . . . .692
IMP.442P. . . . . . . . . . . . . 21481 . . . . .692
IMP.753P. . . . . . . . . . . . . 21072 . . . . .692
IMT.442P. . . . . . . . . . . . . 21249 . . . . .693
IMT.753P. . . . . . . . . . . . . 21073 . . . . .693
IMT.756.6S-HT. . . . . . . . . 64398 . . . . .661
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
Photoelectric Sensor Product Index by Model Number
MODEL
P/N
PAGE
IMTAP.442P . . . . . . . . . . . 21482 . . . . .693
IMTAP.753P . . . . . . . . . . . 21074 . . . . .693
IMTHAP.442P . . . . . . . . . 21637 . . . . .693
IMTHAP.753P . . . . . . . . . 21075 . . . . .693
IMTP.442P . . . . . . . . . . . . 21704 . . . . .694
IMTP.753P . . . . . . . . . . . . 21076 . . . . .694
IP12P . . . . . . . . . . . . . . . 20851 . . . . .694
IP12S . . . . . . . . . . . . . . . 20586 . . . . .694
IP13P . . . . . . . . . . . . . . . 17330 . . . . .694
IP13S . . . . . . . . . . . . . . . 17331 . . . . .694
IR1.73SMSE.006 . . . . . . . 20925 . . . . .713
IR12P . . . . . . . . . . . . . . . 21615 . . . . .694
IR12S . . . . . . . . . . . . . . . 21156 . . . . .695
IR13P . . . . . . . . . . . . . . . 17999 . . . . .694
IR13S . . . . . . . . . . . . . . . 20046 . . . . .695
IR2.53P . . . . . . . . . . . . . . 20484 . . . . .696
IR2.53S . . . . . . . . . . . . . . 17332 . . . . .696
IR2.53SM2.5 . . . . . . . . . . 17879 . . . . .713
IR2.53SMRAMP. . . . . . . . 20166 . . . . .713
IR2.56P . . . . . . . . . . . . . . 21528 . . . . .696
IR2.56S . . . . . . . . . . . . . . 21322 . . . . .696
IR23P . . . . . . . . . . . . . . . 17335 . . . . .695
IR23S . . . . . . . . . . . . . . . 17336 . . . . .695
IR26P . . . . . . . . . . . . . . . 21320 . . . . .695
IR26S . . . . . . . . . . . . . . . 17982 . . . . .695
IT.752P . . . . . . . . . . . . . . 21814 . . . . .696
IT.752S . . . . . . . . . . . . . . 20179 . . . . .696
IT13P . . . . . . . . . . . . . . . 17341 . . . . .696
IT13S . . . . . . . . . . . . . . . 17342 . . . . .696
IT2.53P . . . . . . . . . . . . . . 20257 . . . . .697
IT2.53S . . . . . . . . . . . . . . 17344 . . . . .697
IT210SM900 . . . . . . . . . . 20661 . . . . .697
IT23P . . . . . . . . . . . . . . . 17354 . . . . .696
IT23PMSS . . . . . . . . . . . . 17807 . . . . .696
IT23S . . . . . . . . . . . . . . . 17355 . . . . .696
IT23SM900 . . . . . . . . . . . 20028 . . . . .697
IT23SMSS . . . . . . . . . . . . 20554 . . . . .696
IT26S . . . . . . . . . . . . . . . 17360 . . . . .696
IT26SM900 . . . . . . . . . . . 20029 . . . . .697
ITA13P . . . . . . . . . . . . . . 21154 . . . . .697
ITA13S . . . . . . . . . . . . . . 20180 . . . . .697
ITA2.53P . . . . . . . . . . . . . 21313 . . . . .698
ITA2.53S . . . . . . . . . . . . . 21077 . . . . .698
ITA23P . . . . . . . . . . . . . . 21155 . . . . .697
ITA23S . . . . . . . . . . . . . . 17967 . . . . .697
ITA26SM900 . . . . . . . . . . 20764 . . . . .714
ITAR.753P . . . . . . . . . . . . 21621 . . . . .697
ITAR.753PMRA . . . . . . . . 21141 . . . . .697
ITAR.753S . . . . . . . . . . . . 21078 . . . . .697
ITAR.753SMRA . . . . . . . . 21079 . . . . .697
ITETA.753S . . . . . . . . . . . 21815 . . . . .699
ITETA1.53S . . . . . . . . . . . 21495 . . . . .699
ITETA13S. . . . . . . . . . . . . 21745 . . . . .699
ITHA13P . . . . . . . . . . . . . 21816 . . . . .699
ITHA13S . . . . . . . . . . . . . 21181 . . . . .699
ITHA2.53P . . . . . . . . . . . . 21817 . . . . .699
ITHA2.53S . . . . . . . . . . . . 21081 . . . . .699
ITHA23P . . . . . . . . . . . . . 21818 . . . . .699
ITHA23S . . . . . . . . . . . . . 21080 . . . . .699
ITHAR.753P. . . . . . . . . . . 22825 . . . . .700
ITHAR.753PMRA . . . . . . . 21687 . . . . .700
ITHAR.753S. . . . . . . . . . . 21082 . . . . .700
ITHAR.753SMRA . . . . . . . 21083 . . . . .700
ITR.753P . . . . . . . . . . . . . 21688 . . . . .700
ITR.753S . . . . . . . . . . . . . 20905 . . . . .700
L
L08FP . . . . . . . . . . . . . . . 33266 . . . . .673
L10 . . . . . . . . . . . . . . . . . 16278 . . . . .719
L16F . . . . . . . . . . . . . . . . 16280 . . . . .719
L16FAL . . . . . . . . . . . . . . 17576 . . . . .719
L16FSS . . . . . . . . . . . . . . 17567 . . . . .719
L2 . . . . . . . . . . . . . . . . . . 26343 . . . . .673
L2RA . . . . . . . . . . . . . . . . 26344 . . . . .673
L4C6 . . . . . . . . . . . . . . . . 41517 . . . . .673
L51 . . . . . . . . . . . . . . . . . 16281 . . . . .282
L52 . . . . . . . . . . . . . . . . . 16842 . . . . .282
L52AB . . . . . . . . . . . . . . . 11440 . . . . .282
L9 . . . . . . . . . . . . . . . . . . 16277 . . . . .720
LAT-1. . . . . . . . . . . . . . . . 52150 . . . . .756
LCMB . . . . . . . . . . . . . . . 16283 . . . . .516
LCMBMTA . . . . . . . . . . . . 18932 . . . . .516
MODEL
P/N
PAGE
LM1 . . . . . . . . . . . . . . . . 16286 . . . . .495
LM10. . . . . . . . . . . . . . . . 18988 . . . . .498
LM2 . . . . . . . . . . . . . . . . 18820 . . . . .495
LM3 . . . . . . . . . . . . . . . . 26665 . . . . .495
LM4-2 . . . . . . . . . . . . . . . 16290 . . . . .496
LM4-2NR. . . . . . . . . . . . . 16293 . . . . .496
LM5 . . . . . . . . . . . . . . . . 16294 . . . . .496
LM5-14 . . . . . . . . . . . . . . 16299 . . . . .496
LM5R . . . . . . . . . . . . . . . 16297 . . . . .496
LM5T. . . . . . . . . . . . . . . . 16295 . . . . .497
LM6-1 . . . . . . . . . . . . . . . 18782 . . . . .497
LM8 . . . . . . . . . . . . . . . . 16768 . . . . .497
LM8-1 . . . . . . . . . . . . . . . 16302 . . . . .497
LM8A . . . . . . . . . . . . . . . 16301 . . . . .497
LMT . . . . . . . . . . . . . . . . 16304 . . . . .498
LP400WB . . . . . . . . . . . . 25605 . . . . .543
LR200 . . . . . . . . . . . . . . . 16307 . . . . .541
LR250 . . . . . . . . . . . . . . . 16310 . . . . .541
LR300 . . . . . . . . . . . . . . . 26542 . . . . .541
LR400 . . . . . . . . . . . . . . . 16312 . . . . .541
LS10E . . . . . . . . . . . . . . . 27462 . . . . .526
LS10ESR . . . . . . . . . . . . . 30181 . . . . .526
LS10R . . . . . . . . . . . . . . . 27661 . . . . .526
LS10RSR. . . . . . . . . . . . . 30182 . . . . .526
LS4EL . . . . . . . . . . . . . . 39679 . . . . .527
LS4ELQ . . . . . . . . . . . . . 38429 . . . . .527
LS4RL . . . . . . . . . . . . . . 39680 . . . . .527
LS4RLQ . . . . . . . . . . . . . 38430 . . . . .527
LTBA5 . . . . . . . . . . . . . . . 28455 . . . . .533
LTBA5 W/G . . . . . . . . . . . 35135 . . . . .533
LTBA5 W/R . . . . . . . . . . . 35119 . . . . .533
LTBA5 W/Y . . . . . . . . . . . 35127 . . . . .533
LTBA5L . . . . . . . . . . . . . . 34950 . . . . .533
LTBA5L W/G . . . . . . . . . . 35137 . . . . .533
LTBA5L W/R . . . . . . . . . . 35121 . . . . .533
LTBA5L W/Y . . . . . . . . . . 35129 . . . . .533
LTBA5LQD . . . . . . . . . . . . 35010 . . . . .533
LTBA5LQD W/G . . . . . . . . 35138 . . . . .533
LTBA5LQD W/R . . . . . . . . 35122 . . . . .533
LTBA5LQD W/Y . . . . . . . . 35130 . . . . .533
LTBA5QD . . . . . . . . . . . . . 28456 . . . . .533
LTBA5QD W/G . . . . . . . . . 35136 . . . . .533
LTBA5QD W/R . . . . . . . . . 35120 . . . . .533
LTBA5QD W/Y . . . . . . . . . 35128 . . . . .533
LTBB5 . . . . . . . . . . . . . . . 28457 . . . . .533
LTBB5 W/G . . . . . . . . . . . 35139 . . . . .533
LTBB5 W/R . . . . . . . . . . . 35123 . . . . .533
LTBB5 W/Y . . . . . . . . . . . 35131 . . . . .533
LTBB5L . . . . . . . . . . . . . . 34951 . . . . .533
LTBB5L W/G . . . . . . . . . . 35141 . . . . .533
LTBB5L W/R . . . . . . . . . . 35125 . . . . .533
LTBB5L W/Y . . . . . . . . . . 35133 . . . . .533
LTBB5LQD . . . . . . . . . . . . 35118 . . . . .533
LTBB5LQD W/G . . . . . . . . 35142 . . . . .533
LTBB5LQD W/R . . . . . . . . 35126 . . . . .533
LTBB5LQD W/Y . . . . . . . . 35134 . . . . .533
LTBB5QD . . . . . . . . . . . . . 28458 . . . . .533
LTBB5QD W/G . . . . . . . . . 35140 . . . . .533
LTBB5QD W/R . . . . . . . . . 35124 . . . . .533
LTBB5QD W/Y . . . . . . . . . 35132 . . . . .533
M
M126E1LD. . . . . . . . . . . . 52959 . . . . .170
M126E1LD W/30 . . . . . . . 53811 . . . . .170
M126E1LDQ . . . . . . . . . . 53810 . . . . .170
M126E2LD. . . . . . . . . . . . 51279 . . . . .170
M126E2LD W/30 . . . . . . . 52991 . . . . .170
M126E2LDQ . . . . . . . . . . 53801 . . . . .170
M186E. . . . . . . . . . . . . . . 48346 . . . . .186
M186EQ . . . . . . . . . . . . . 48347 . . . . .186
M18SN6D . . . . . . . . . . . . 48660 . . . . .187
M18SN6D W/30. . . . . . . . 50468 . . . . .187
M18SN6DL . . . . . . . . . . . 48664 . . . . .187
M18SN6DL W/30. . . . . . . 50469 . . . . .187
M18SN6DLQ . . . . . . . . . . 48665 . . . . .187
M18SN6DQ . . . . . . . . . . . 48661 . . . . .187
M18SN6FF100 . . . . . . . . . 48672 . . . . .188
M18SN6FF100 W/30. . . . 50472 . . . . .188
M18SN6FF100Q. . . . . . . . 48673 . . . . .188
M18SN6FF25 . . . . . . . . . . 58428 . . . . .188
M18SN6FF25 W/30 . . . . . 58430 . . . . .188
M18SN6FF25Q. . . . . . . . . 58432 . . . . .188
MODEL
P/N
PAGE
M18SN6FF50 . . . . . . . . . . 48668 . . . . .188
M18SN6FF50 W/30. . . . . 50471 . . . . .188
M18SN6FF50Q. . . . . . . . . 48669 . . . . .188
M18SN6L . . . . . . . . . . . . 48652 . . . . .187
M18SN6L W/30 . . . . . . . . 50467 . . . . .187
M18SN6LP . . . . . . . . . . . 48656 . . . . .187
M18SN6LP W/30 . . . . . . . 50470 . . . . .187
M18SN6LPQ . . . . . . . . . . 48657 . . . . .187
M18SN6LQ . . . . . . . . . . . 48653 . . . . .187
M18SN6R . . . . . . . . . . . . 48348 . . . . .186
M18SN6R W/30. . . . . . . . 50466 . . . . .186
M18SN6RQ . . . . . . . . . . . 48349 . . . . .186
M18SP6D . . . . . . . . . . . . 48662 . . . . .187
M18SP6D W/30 . . . . . . . . 50475 . . . . .187
M18SP6DL . . . . . . . . . . . 48666 . . . . .187
M18SP6DL W/30 . . . . . . . 50476 . . . . .187
M18SP6DLQ . . . . . . . . . . 48667 . . . . .187
M18SP6DQ . . . . . . . . . . . 48663 . . . . .187
M18SP6FF100 . . . . . . . . . 48674 . . . . .188
M18SP6FF100 W/30 . . . . 50479 . . . . .188
M18SP6FF100Q . . . . . . . . 48675 . . . . .188
M18SP6FF25 . . . . . . . . . . 58429 . . . . .188
M18SP6FF25 W/30 . . . . . 58431 . . . . .188
M18SP6FF25Q. . . . . . . . . 58433 . . . . .188
M18SP6FF50 . . . . . . . . . . 48670 . . . . .188
M18SP6FF50 W/30 . . . . . 50478 . . . . .188
M18SP6FF50Q. . . . . . . . . 48671 . . . . .188
M18SP6FF51 . . . . . . . . . . 50478 . . . . .188
M18SP6L . . . . . . . . . . . . 48654 . . . . .187
M18SP6L W/30 . . . . . . . . 50474 . . . . .187
M18SP6LP . . . . . . . . . . . 48658 . . . . .187
M18SP6LP W/30 . . . . . . . 50477 . . . . .187
M18SP6LPQ . . . . . . . . . . 48659 . . . . .187
M18SP6LQ . . . . . . . . . . . 48655 . . . . .187
M18SP6R . . . . . . . . . . . . 48350 . . . . .186
M18SP6R W/30 . . . . . . . . 50473 . . . . .186
M18SP6RQ . . . . . . . . . . . 48351 . . . . .186
MA3 . . . . . . . . . . . . . . . . 19724 . . . . .552
MA3-4 . . . . . . . . . . . . . . . 19718 . . . . .553
MA3-4P . . . . . . . . . . . . . . 25218 . . . . .553
MA3AF . . . . . . . . . . . . . . 33168 . . . . .556
MA3DB . . . . . . . . . . . . . . 25002 . . . . .591
MA3P . . . . . . . . . . . . . . . 25220 . . . . .552
MA4-2 . . . . . . . . . . . . . . . 25486 . . . . .572
MA4G . . . . . . . . . . . . . . . 25417 . . . . .572
MA4L . . . . . . . . . . . . . . . 25332 . . . . .573
MA5 . . . . . . . . . . . . . . . . 25483 . . . . .572
MBC-3. . . . . . . . . . . . . . . 25237 . . . . .739
MBC-4. . . . . . . . . . . . . . . 25227 . . . . .739
MBC-5. . . . . . . . . . . . . . . 25495 . . . . .739
MBCC-306 . . . . . . . . . . . . 45132 . . . . .736
MBCC-312 . . . . . . . . . . . 25236 . . . . .736
MBCC-330 . . . . . . . . . . . 33599 . . . . .736
MBCC-406 . . . . . . . . . . . . 45134 . . . . .736
MBCC-412 . . . . . . . . . . . 25226 . . . . .736
MBCC-430 . . . . . . . . . . . 29951 . . . . .736
MBCC-506 . . . . . . . . . . . . 32297 . . . . .736
MBCC-512 . . . . . . . . . . . 25496 . . . . .736
MBCC-530 . . . . . . . . . . . 29950 . . . . .736
MD14BB6 . . . . . . . . . . . . 50421 . . . . .550
MD14BB6Q . . . . . . . . . . . 51628 . . . . .550
MI9E . . . . . . . . . . . . . . . 40141 . . . . .146
MI9E W/30 . . . . . . . . . . . 40142 . . . . .146
MI9EQ . . . . . . . . . . . . . . 40143 . . . . .146
MIAD9CV . . . . . . . . . . . . 37713 . . . . .148
MIAD9CV W/30 . . . . . . . . 38022 . . . . .148
MIAD9CV2 . . . . . . . . . . . 37712 . . . . .148
MIAD9CV2 W/30 . . . . . . . 38021 . . . . .148
MIAD9CV2Q . . . . . . . . . . 35235 . . . . .148
MIAD9CVQ . . . . . . . . . . . 35234 . . . . .148
MIAD9D . . . . . . . . . . . . . 37714 . . . . .147
MIAD9D W/30 . . . . . . . . . 38023 . . . . .147
MIAD9DQ . . . . . . . . . . . . 34625 . . . . .147
MIAD9F . . . . . . . . . . . . . 37715 . . . . .148
MIAD9F W/30 . . . . . . . . . 38024 . . . . .148
MIAD9FQ. . . . . . . . . . . . . 34626 . . . . .148
MIAD9LV . . . . . . . . . . . . 37717 . . . . .147
MIAD9LV W/30 . . . . . . . . 38026 . . . . .147
MIAD9LVAG . . . . . . . . . . 37716 . . . . .147
MIAD9LVAG W/30 . . . . . . 38025 . . . . .147
MIAD9LVAGQ . . . . . . . . . 37294 . . . . .147
MIAD9LVQ. . . . . . . . . . . . 34474 . . . . .147
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
MODEL
P/N
PAGE
MIAD9R . . . . . . . . . . . . . 40144 . . . . .146
MIAD9R W/30 . . . . . . . . . 40145 . . . . .146
MIAD9RQ . . . . . . . . . . . . 40146 . . . . .146
MIAD9W . . . . . . . . . . . . . 37718 . . . . .147
MIAD9W W/30. . . . . . . . . 38027 . . . . .147
MIAD9WQ . . . . . . . . . . . . 35233 . . . . .147
MPC3 . . . . . . . . . . . . . . . 19725 . . . . .558
MPC3-DB . . . . . . . . . . . . 19813 . . . . .591
MPS-15 . . . . . . . . . . . . . . 25528 . . . . .592
MPS-15-230 . . . . . . . . . . 25540 . . . . .592
MQAC-406. . . . . . . . . . . . 45138 . . . . .735
MQAC-406RA . . . . . . . . . 47103 . . . . .735
MQAC-415. . . . . . . . . . . . 32952 . . . . .735
MQAC-415RA . . . . . . . . . 32953 . . . . .735
MQAC-430. . . . . . . . . . . . 44651 . . . . .735
MQAC-430RA . . . . . . . . . 44652 . . . . .735
MQD9-406. . . . . . . . . . . . 45135 . . . . .734
MQD9-406RA . . . . . . . . . 47106 . . . . .734
MQD9-415. . . . . . . . . . . . 35617 . . . . .734
MQD9-415RA . . . . . . . . . 35618 . . . . .734
MQDC-306. . . . . . . . . . . . 45137 . . . . .735
MQDC-306RA . . . . . . . . . 47105 . . . . .735
MQDC-315. . . . . . . . . . . . 26849 . . . . .735
MQDC-315RA . . . . . . . . . 26847 . . . . .735
MQDC-330 . . . . . . . . . . . 34848 . . . . .735
MQDC-330RA . . . . . . . . . 31148 . . . . .735
MQDC-406. . . . . . . . . . . . 45136 . . . . .734
MQDC-406RA . . . . . . . . . 47104 . . . . .734
MQDC-415. . . . . . . . . . . . 26850 . . . . .734
MQDC-415RA . . . . . . . . . 26848 . . . . .734
MQDC-430. . . . . . . . . . . . 27142 . . . . .734
MQDC-430RA . . . . . . . . . 27080 . . . . .734
MQDC-606. . . . . . . . . . . . 56913 . . . . .734
MQDC-606RA . . . . . . . . . 61323 . . . . .734
MQDC-615. . . . . . . . . . . . 56914 . . . . .734
MQDC-615RA . . . . . . . . . 61324 . . . . .734
MQDC-630. . . . . . . . . . . . 56915 . . . . .734
MQDC-630RA . . . . . . . . . 61325 . . . . .734
MQDC1-506. . . . . . . . . . . 51127 . . . . .734
MQDC1-506RA . . . . . . . . 51128 . . . . .734
MQDC1-515. . . . . . . . . . . 47812 . . . . .734
MQDC1-515RA . . . . . . . . 47813 . . . . .734
MQDC1-530. . . . . . . . . . . 47814 . . . . .734
MQDC1-530RA . . . . . . . . 47815 . . . . .734
MQDEC2-506. . . . . . . . . . 60810 . . . . .265
MQDEC2-506RA . . . . . . . 60813 . . . . .265
MQDEC2-515. . . . . . . . . . 60811 . . . . .265
MQDEC2-515RA . . . . . . . 60814 . . . . .265
MQDEC2-530. . . . . . . . . . 60812 . . . . .265
MQDEC2-530RA . . . . . . . 60815 . . . . .265
N
NO5-Q08-AN7 . . . . . . . . . 27390
NO5-Q08-AN7 W/30. . . . . 34680
NO5-Q08-AN7-V1131 . . . 27394
NO5-Q08-AP7 . . . . . . . . . 27392
NO5-Q08-AP7 W/30. . . . . 27970
NO5-Q08-AP7-V1131. . . . 27396
NO5-Q08-RN7 . . . . . . . . . 27389
NO5-Q08-RN7 W/30 . . . . 35872
NO5-Q08-RN7-V1131 . . . 27393
NO5-Q08-RP7 . . . . . . . . . 27391
NO5-Q08-RP7 W/30. . . . . 35873
NO5-Q08-RP7-V1131. . . . 27395
. . . . .75
. . . . .75
. . . . .75
. . . . .75
. . . . .75
. . . . .75
. . . . .75
. . . . .75
. . . . .75
. . . . .75
. . . . .75
. . . . .75
O
OASBCV . . . . . . . . . . . . . 27605 . . . . .445
OASBD . . . . . . . . . . . . . . 27602 . . . . .445
OASBDX . . . . . . . . . . . . . 27603 . . . . .445
OASBF. . . . . . . . . . . . . . . 27600 . . . . .447
OASBFP. . . . . . . . . . . . . . 27604 . . . . .446
OASBFV. . . . . . . . . . . . . . 27624 . . . . .447
OASBFX. . . . . . . . . . . . . . 27601 . . . . .447
OF2.53SMTT . . . . . . . . . . 20027 . . . . .714
OLM5 . . . . . . . . . . . . . . . 27098 . . . . .436
OLM8 . . . . . . . . . . . . . . . 27099 . . . . .436
OLM8M1 . . . . . . . . . . . . . 27257 . . . . .436
OPBA2. . . . . . . . . . . . . . . 27093 . . . . .437
OPBA2 W/30 . . . . . . . . . . 27426 . . . . .437
OPBA2QD . . . . . . . . . . . . 27094 . . . . .437
OPBA3. . . . . . . . . . . . . . . 27415 . . . . .449
OPBA3 W/30 . . . . . . . . . . 30183 . . . . .449
797
Photoelectric Sensor Product Index by Model Number
MODEL
P/N
PAGE
OPBA3QD . . . . . . . . . . . . 27331 . . . . .449
OPBAE. . . . . . . . . . . . . . . 27163 . . . . .437
OPBAE W/30 . . . . . . . . . . 35945 . . . . .437
OPBAEQD . . . . . . . . . . . . 27164 . . . . .437
OPBB2. . . . . . . . . . . . . . . 27096 . . . . .437
OPBB2 W/30 . . . . . . . . . . 35624 . . . . .437
OPBB2QD . . . . . . . . . . . . 27097 . . . . .437
OPBB3. . . . . . . . . . . . . . . 27417 . . . . .449
OPBB3 W/30 . . . . . . . . . . 35628 . . . . .449
OPBB3QD . . . . . . . . . . . . 27414 . . . . .449
OPBBE. . . . . . . . . . . . . . . 27167 . . . . .437
OPBBE W/30 . . . . . . . . . . 35625 . . . . .437
OPBBEQD . . . . . . . . . . . . 27168 . . . . .437
OPBT2. . . . . . . . . . . . . . . 27073 . . . . .437
OPBT2 W/30 . . . . . . . . . . 28567 . . . . .437
OPBT2QD . . . . . . . . . . . . 27095 . . . . .437
OPBT2QDH . . . . . . . . . . . 27189 . . . . .437
OPBT3. . . . . . . . . . . . . . . 27416 . . . . .449
OPBT3 W/30 . . . . . . . . . . 35629 . . . . 449
OPBT3QD . . . . . . . . . . . . 27330 . . . . 449
OPBTE. . . . . . . . . . . . . . . 27165 . . . . .437
OPBTE W/30 . . . . . . . . . . 35626 . . . . .437
OPBTEQD . . . . . . . . . . . . 27166 . . . . .437
OPBTEQDH . . . . . . . . . . . 27190 . . . . .437
OSBCV . . . . . . . . . . . . . . 27088 . . . . .429
OSBCVB . . . . . . . . . . . . . 30209 . . . . .430
OSBCVG . . . . . . . . . . . . . 53397 . . . . .430
OSBD . . . . . . . . . . . . . . . 27086 . . . . .429
OSBDX . . . . . . . . . . . . . . 27087 . . . . .429
OSBE. . . . . . . . . . . . . . . . 27089 . . . . .427
OSBEF . . . . . . . . . . . . . . . 27328 . . . . .433
OSBF . . . . . . . . . . . . . . . . 27083 . . . . .430
OSBFAC. . . . . . . . . . . . . . 27402 . . . . .432
OSBFP. . . . . . . . . . . . . . . 27085 . . . . .434
OSBFPB. . . . . . . . . . . . . . 50554 . . . . .434
OSBFPG. . . . . . . . . . . . . . 50553 . . . . .434
OSBFV. . . . . . . . . . . . . . . 27183 . . . . .431
OSBFVB. . . . . . . . . . . . . . 50555 . . . . .431
OSBFVG. . . . . . . . . . . . . . 53400 . . . . .431
OSBFX. . . . . . . . . . . . . . . 27072 . . . . .432
OSBLV . . . . . . . . . . . . . . . 27081 . . . . .428
OSBLVAG. . . . . . . . . . . . . 27082 . . . . .428
OSBLVAGC. . . . . . . . . . . . 33795 . . . . .428
OSBR . . . . . . . . . . . . . . . 27091 . . . . .427
OSBRF. . . . . . . . . . . . . . . 27327 . . . . .433
OTBA5. . . . . . . . . . . . . . . 27986 . . . . .532
OTBA5 W/30 . . . . . . . . . . 28631 . . . . .532
OTBA5 W/G . . . . . . . . . . . 35098 . . . . .532
OTBA5 W/R . . . . . . . . . . . 35058 . . . . .532
OTBA5 W/Y . . . . . . . . . . . 35078 . . . . .532
OTBA5L . . . . . . . . . . . . . . 32167 . . . . .532
OTBA5L W/30 . . . . . . . . . 36480 . . . . .532
OTBA5L W/G . . . . . . . . . . 35100 . . . . .532
OTBA5L W/R . . . . . . . . . . 35060 . . . . .532
OTBA5L W/Y . . . . . . . . . . 35080 . . . . .532
OTBA5LQD . . . . . . . . . . . 32255 . . . . .532
OTBA5LQD W/G. . . . . . . . 35101 . . . . .532
OTBA5LQD W/R. . . . . . . . 35061 . . . . .532
OTBA5LQD W/Y . . . . . . . 35081 . . . . .532
OTBA5QD . . . . . . . . . . . . 28149 . . . . .532
OTBA5QD W/G. . . . . . . . . 35099 . . . . .532
OTBA5QD W/R. . . . . . . . . 35059 . . . . .532
OTBA5QD W/Y. . . . . . . . . 35079 . . . . .532
OTBB5. . . . . . . . . . . . . . . 27987 . . . . .532
OTBB5 W/30 . . . . . . . . . . 44674 . . . . .532
OTBB5 W/G . . . . . . . . . . . 35102 . . . . .532
OTBB5 W/R . . . . . . . . . . . 35062 . . . . .532
OTBB5 W/Y . . . . . . . . . . . 35082 . . . . .532
OTBB5L . . . . . . . . . . . . . . 32254 . . . . .532
OTBB5L W/30 . . . . . . . . . 47866 . . . . .532
OTBB5L W/G . . . . . . . . . . 35104 . . . . .532
OTBB5L W/R . . . . . . . . . 35064 . . . . .532
OTBB5L W/Y . . . . . . . . . . 35084 . . . . .532
OTBB5LQD . . . . . . . . . . . 32256 . . . . .532
OTBB5LQD W/G. . . . . . . . 35105 . . . . .532
OTBB5LQD W/R. . . . . . . . 35065 . . . . .532
OTBB5LQD W/Y . . . . . . . . 35085 . . . . .532
OTBB5QD . . . . . . . . . . . . 28150 . . . . .532
OTBB5QD W/G. . . . . . . . . 35103 . . . . .532
OTBB5QD W/R. . . . . . . . . 35063 . . . . .532
OTBB5QD W/Y. . . . . . . . . 35083 . . . . .532
OTBVN6. . . . . . . . . . . . . . 28591 . . . . .532
798
MODEL
P/N
PAGE
OTBVN6 W/30 . . . . . . . . . 29000 . . . . .532
OTBVN6 W/G . . . . . . . . . . 35110 . . . . .532
OTBVN6 W/R . . . . . . . . . . 35070 . . . . .532
OTBVN6 W/Y . . . . . . . . . . 35090 . . . . .532
OTBVN6L. . . . . . . . . . . . . 33706 . . . . .532
OTBVN6L W/G . . . . . . . . . 35112 . . . . .532
OTBVN6L W/R . . . . . . . . . 35072 . . . . .532
OTBVN6L W/Y . . . . . . . . . 35092 . . . . .532
OTBVN6LQD . . . . . . . . . . 35057 . . . . .532
OTBVN6LQD W/G . . . . . . 35113 . . . . .532
OTBVN6LQD W/R . . . . . . 35073 . . . . .532
OTBVN6LQD W/Y. . . . . . . 35093 . . . . .532
OTBVN6LQDH . . . . . . . . . 67222 . . . . .532
OTBVN6QD . . . . . . . . . . . 28585 . . . . .532
OTBVN6QD W/G . . . . . . . 35111 . . . . .532
OTBVN6QD W/R . . . . . . . 35071 . . . . .532
OTBVN6QD W/Y . . . . . . . 35091 . . . . .532
OTBVN6QDH . . . . . . . . . . 62415 . . . . .532
OTBVP6. . . . . . . . . . . . . . 28589 . . . . .532
OTBVP6 W/30 . . . . . . . . . 29644 . . . . .532
OTBVP6 W/G . . . . . . . . . . 35114 . . . . .532
OTBVP6 W/R . . . . . . . . . . 35074 . . . . .532
OTBVP6 W/Y . . . . . . . . . . 35094 . . . . .532
OTBVP6L. . . . . . . . . . . . . 34110 . . . . .532
OTBVP6L W/G . . . . . . . . . 35116 . . . . .532
OTBVP6L W/R . . . . . . . . . 35076 . . . . .532
OTBVP6L W/Y . . . . . . . . 35096 . . . . .532
OTBVP6LQD . . . . . . . . . . 34997 . . . . .532
OTBVP6LQD W/G. . . . . . . 35117 . . . . .532
OTBVP6LQD W/R. . . . . . . 35077 . . . . .532
OTBVP6LQD W/Y . . . . . . 35097 . . . . .532
OTBVP6LQDH . . . . . . . . . 67223 . . . . .532
OTBVP6QD . . . . . . . . . . . 28590 . . . . .532
OTBVP6QD W/G . . . . . . . 35115 . . . . .532
OTBVP6QD W/R . . . . . . . 35075 . . . . .532
OTBVP6QD W/Y. . . . . . . . 35095 . . . . .532
OTBVP6QDH . . . . . . . . . . 46169 . . . . .532
OTBVR81. . . . . . . . . . . . . 33080 . . . . .532
OTBVR81 W/30 . . . . . . . . 44052 . . . . .532
OTBVR81 W/G . . . . . . . . . 35106 . . . . .532
OTBVR81 W/R . . . . . . . . . 35066 . . . . .532
OTBVR81 W/Y . . . . . . . . 35086 . . . . .532
OTBVR81L. . . . . . . . . . . . 34040 . . . . .532
OTBVR81L W/G . . . . . . . . 35108 . . . . .532
OTBVR81L W/R . . . . . . . . 35068 . . . . .532
OTBVR81L W/Y . . . . . . . . 35088 . . . . .532
OTBVR81LQD . . . . . . . . . 34041 . . . . .532
OTBVR81LQD W/G . . . . . 35109 . . . . .532
OTBVR81LQD W/R . . . . . 35069 . . . . .532
OTBVR81LQD W/Y . . . . . 35089 . . . . .532
OTBVR81QD . . . . . . . . . . 34078 . . . . .532
OTBVR81QD W/G . . . . . . 35107 . . . . .532
OTBVR81QD W/R . . . . . . 35067 . . . . .532
OTBVR81QD W/Y. . . . . . . 35087 . . . . .532
OTC-1-BK . . . . . . . . . . . . 30221 . . . . .537
OTC-1-GN . . . . . . . . . . . . 30979 . . . . .537
OTC-1-RD . . . . . . . . . . . . 30977 . . . . .537
OTC-1-YW . . . . . . . . . . . . 30978 . . . . .537
OUC-C . . . . . . . . . . . . . . . 27248 . . . . .453
OUC-D. . . . . . . . . . . . . . . 27249 . . . . .453
OUC-F . . . . . . . . . . . . . . . 27250 . . . . .453
OUC-FP . . . . . . . . . . . . . . 27251 . . . . .453
OUC-L . . . . . . . . . . . . . . 27252 . . . . .453
OUC-LAG . . . . . . . . . . . . 27253 . . . . .453
P
P12-C1 . . . . . . . . . . . . . . 51832 . . . . .661
P22-C1 . . . . . . . . . . . . . . 56058 . . . . .662
P32-C2 . . . . . . . . . . . . . . 61217 . . . . .662
PBA. . . . . . . . . . . . . . . . . 16384 . . . . .492
PBA-1 . . . . . . . . . . . . . . . 16385 . . . . .494
PBA26UM3.5X.6 . . . . . . . 34918 . . . . .664
PBAM . . . . . . . . . . . . . . . 18823 . . . . .493
PBAQ. . . . . . . . . . . . . . . . 16603 . . . . .492
PBAT . . . . . . . . . . . . . . . . 16386 . . . . .493
PBB. . . . . . . . . . . . . . . . . 16387 . . . . .492
PBB-1 . . . . . . . . . . . . . . . 16389 . . . . .494
PBBT . . . . . . . . . . . . . . . . 16388 . . . . .493
PBCAT23TS . . . . . . . . . . . 48047 . . . . .664
PBCF21.7T . . . . . . . . . . . 38637 . . . . .644
PBCF21X46U . . . . . . . . . . 40414 . . . . .644
PBCF46U . . . . . . . . . . . . . 42888 . . . . .644
MODEL
P/N
PAGE
PBCT21X46U . . . . . . . . . . 45071 . . . . .644
PBCT23T . . . . . . . . . . . . 39146 . . . . .645
PBCT23T1 . . . . . . . . . . . . 42870 . . . . .645
PBCT23T4 . . . . . . . . . . . . 42871 . . . . .645
PBCT23TM3 . . . . . . . . . . 39132 . . . . .645
PBCT23TMT7 . . . . . . . . . 45067 . . . . .665
PBCT23TS . . . . . . . . . . . . 42794 . . . . .645
PBCT23TS1 . . . . . . . . . . . 42795 . . . . .645
PBCT26U. . . . . . . . . . . . . 45091 . . . . .645
PBCT26UM3 . . . . . . . . . . 45090 . . . . .646
PBCT26UM4M2.5 . . . . . . 56125 . . . . .646
PBCT46U . . . . . . . . . . . . 35214 . . . . .646
PBCT46UM7/16HX. . . . . . 48034 . . . . .665
PBD. . . . . . . . . . . . . . . . . 16390 . . . . .492
PBD-1 . . . . . . . . . . . . . . . 16755 . . . . .494
PBD-2 . . . . . . . . . . . . . . . 17156 . . . . .492
PBE46UTMLLP . . . . . . . . 48056 . . . . .662
PBE46UTMLLPHT1 . . . . . 51830 . . . . .662
PBE46UTMLLPMA8 . . . . . 51778 . . . . .665
PBE46UTMNL . . . . . . . . . 48055 . . . . .662
PBEFP26U . . . . . . . . . . . 39100 . . . . .646
PBF16U . . . . . . . . . . . . . . 45073 . . . . .646
PBF2.52SMTT . . . . . . . . . 20512 . . . . .714
PBF26U . . . . . . . . . . . . . . 28131 . . . . .646
PBF43TSM.5X.19. . . . . . . 45056 . . . . .666
PBF46U . . . . . . . . . . . . . . 26035 . . . . .647
PBF46UHF . . . . . . . . . . . . 51786 . . . . .647
PBF46UM3MJ1.3 . . . . . . . 56109 . . . . .647
PBF46UM3MJ1.3 . . . . . . . 65882 . . . . .647
PBF66U . . . . . . . . . . . . . 39981 . . . . .647
PBFM16U . . . . . . . . . . . . 39115 . . . . .647
PBFM1X43T . . . . . . . . . . 38328 . . . . .647
PBFM1X86T . . . . . . . . . . 39629 . . . . .647
PBFM450UMNCM1 . . . . . 48059 . . . . .666
PBFM46U . . . . . . . . . . . . 39110 . . . . .648
PBFM46UHF . . . . . . . . . . 51850 . . . . .648
PBFMP12T. . . . . . . . . . . . 40416 . . . . .648
PBFMP12TMP.2 . . . . . . . 38710 . . . . .648
PBFMP16UMP.2. . . . . . . . 61220 . . . . .648
PBOBL. . . . . . . . . . . . . . . 17794 . . . . .493
PBOL. . . . . . . . . . . . . . . . 17767 . . . . .493
PBP. . . . . . . . . . . . . . . . . 16392 . . . . .491
PBP16U . . . . . . . . . . . . . 39992 . . . . .648
PBP26U. . . . . . . . . . . . . . 26082 . . . . .648
PBP26UMTFEMNC. . . . . . 45095 . . . . .666
PBP43TS . . . . . . . . . . . . . 42800 . . . . .649
PBP46U. . . . . . . . . . . . . . 26084 . . . . .649
PBP46UC. . . . . . . . . . . . . 26088 . . . . .649
PBP46UHF. . . . . . . . . . . . 51788 . . . . .649
PBP48 . . . . . . . . . . . . . . . 26305 . . . . .491
PBPF26U . . . . . . . . . . . . 39127 . . . . .649
PBPF26UMB . . . . . . . . . . 39116 . . . . .649
PBPMSB36U . . . . . . . . . 38711 . . . . .649
PBPS26U. . . . . . . . . . . . . 35042 . . . . .650
PBPS46U. . . . . . . . . . . . . 35040 . . . . .650
PBPS46UHF. . . . . . . . . . . 51824 . . . . .650
PBPS46UM.7X1.5 . . . . . . 48018 . . . . .667
PBPS46UMT . . . . . . . . . . 48005 . . . . .667
PBPS66U. . . . . . . . . . . . . 48015 . . . . .650
PBR1X166T . . . . . . . . . . . 42830 . . . . .667
PBR1X326U . . . . . . . . . . 39987 . . . . .650
PBRS1X326U . . . . . . . . . 39986 . . . . .650
PBRS26U . . . . . . . . . . . . 61216 . . . . .650
PBT . . . . . . . . . . . . . . . . . 16393 . . . . .490
PBT-1 . . . . . . . . . . . . . . . 16394 . . . . .491
PBT-1M . . . . . . . . . . . . . . 16396 . . . . .511
PBT16U . . . . . . . . . . . . . . 42822 . . . . .651
PBT2 . . . . . . . . . . . . . . . . 16395 . . . . .490
PBT26U . . . . . . . . . . . . . . 26080 . . . . .651
PBT26UHF . . . . . . . . . . . . 61208 . . . . .651
PBT26UHT1. . . . . . . . . . . 56119 . . . . .651
PBT43TS . . . . . . . . . . . . . 42809 . . . . .651
PBT46U . . . . . . . . . . . . . . 25967 . . . . .651
PBT46UC. . . . . . . . . . . . . 26086 . . . . .651
PBT46UHF . . . . . . . . . . . . 51784 . . . . .651
PBT46UHT1. . . . . . . . . . . 42799 . . . . .652
PBT46UMHXMBMP . . . . . 48060 . . . . .668
PBT48 . . . . . . . . . . . . . . . 16397 . . . . .490
PBT48-1 . . . . . . . . . . . . . 19779 . . . . .491
PBT66U . . . . . . . . . . . . . 39982 . . . . .652
PBTPS46UMKC . . . . . . . . 48023 . . . . .668
PBU430U. . . . . . . . . . . . . 26229 . . . . .676
MODEL
P/N
PAGE
PBU460U. . . . . . . . . . . . . 26749 . . . . .676
PC44BN6FP . . . . . . . . . . . 32274 . . . . .636
PC44BP6FP . . . . . . . . . . . 32275 . . . . .636
PCJ-25 . . . . . . . . . . . . . . 33036 . . . . .638
PD45VN6C100. . . . . . . . . 46286 . . . . .254
PD45VN6C100 W/30 . . . . 48566 . . . . .254
PD45VN6C100Q . . . . . . . 46287 . . . . .254
PD45VN6C200. . . . . . . . . 47296 . . . . .254
PD45VN6C200 W/30 . . . . 48568 . . . . .254
PD45VN6C200Q . . . . . . . 48322 . . . . .254
PD45VN6C50. . . . . . . . . . 64959 . . . . .254
PD45VN6C50Q . . . . . . . . 64960 . . . . .254
PD45VN6LLP. . . . . . . . . . 57202 . . . . .255
PD45VN6LLP W/30 . . . . . 58618 . . . . .255
PD45VN6LLPQ . . . . . . . . 58619 . . . . .255
PD45VP6C100 . . . . . . . . . 46288 . . . . .254
PD45VP6C100 W/30 . . . . 48567 . . . . .254
PD45VP6C100Q. . . . . . . . 46289 . . . . .254
PD45VP6C200 . . . . . . . . . 48323 . . . . .254
PD45VP6C200 W/30 . . . . 48569 . . . . .254
PD45VP6C200Q. . . . . . . . 48324 . . . . .254
PD45VP6C50 . . . . . . . . . . 64962 . . . . .254
PD45VP6C50Q. . . . . . . . . 64963 . . . . .254
PD45VP6CLLP. . . . . . . . . 58620 . . . . .255
PD45VP6CLLP W/30 . . . . 58621 . . . . .255
PD45VP6CLLPQ . . . . . . . 58622 . . . . .255
PD45VP6LLP . . . . . . . . . . 58620 . . . . .255
PD45VP6LLPQ. . . . . . . . . 58622 . . . . .255
PD49VN6C100. . . . . . . . . 66990 . . . . .254
PD49VN6C100Q . . . . . . . 66991 . . . . .254
PD49VN6C200. . . . . . . . . 66994 . . . . .254
PD49VN6C200Q . . . . . . . 66995 . . . . .254
PD49VN6C50. . . . . . . . . . 66986 . . . . .254
PD49VN6C50Q . . . . . . . . 66987 . . . . .254
PD49VN6LLP. . . . . . . . . . 66998 . . . . .255
PD49VN6LLPQ . . . . . . . . 66999 . . . . .255
PD49VP6C100 . . . . . . . . . 66992 . . . . .254
PD49VP6C100Q. . . . . . . . 66993 . . . . .254
PD49VP6C200 . . . . . . . . . 66996 . . . . .254
PD49VP6C200Q. . . . . . . . 66997 . . . . .254
PD49VP6C50 . . . . . . . . . . 66988 . . . . .254
PD49VP6C50Q. . . . . . . . . 66989 . . . . .254
PD49VP6LLP . . . . . . . . . . 67000 . . . . .255
PD49VP6LLPQ. . . . . . . . . 67001 . . . . .255
PDIS46UHFM12. . . . . . . . 56094 . . . . .663
PDIS46UM12. . . . . . . . . . 42880 . . . . .663
PDIS46UM3.2 . . . . . . . . . 48012 . . . . .668
PDIS46UM4.5 . . . . . . . . . 48061 . . . . .669
PDIS46UM8MSL30 . . . . . 48090 . . . . .669
PDISM46UM5MA. . . . . . . 51829 . . . . .669
PDIT26TP . . . . . . . . . . . . 48062 . . . . .670
PDIT4100U . . . . . . . . . . . 56075 . . . . .670
PF2.53S. . . . . . . . . . . . . . 20140 . . . . .715
PFC-1-25 . . . . . . . . . . . . . 34094 . . . . .675
PFK20 . . . . . . . . . . . . . . . 26227 . . . . .675
PFK40 . . . . . . . . . . . . . . . 26226 . . . . .675
PFS40P6 . . . . . . . . . . . . . 42841 . . . . .674
PFS44S6 . . . . . . . . . . . . . 42826 . . . . .674
PFS44S6T . . . . . . . . . . . . 48029 . . . . .674
PFS53S6 . . . . . . . . . . . . . 42825 . . . . .674
PFS53S6T . . . . . . . . . . . . 48028 . . . . .674
PFS64P6 . . . . . . . . . . . . . 42840 . . . . .674
PFS69S6 . . . . . . . . . . . . . 42824 . . . . .674
PFS69S6T . . . . . . . . . . . . 48027 . . . . .674
PFS95P6 . . . . . . . . . . . . . 42839 . . . . .674
PIA16U . . . . . . . . . . . . . . 26637 . . . . .653
PIA26U . . . . . . . . . . . . . . 25905 . . . . .653
PIAT16U . . . . . . . . . . . . . 48022 . . . . .653
PIAT26U . . . . . . . . . . . . . 28235 . . . . .653
PIAT46U . . . . . . . . . . . . . 27336 . . . . .654
PIAT46UHF . . . . . . . . . . . 56090 . . . . .654
PIAT46UM.4X.4MT . . . . . 45077 . . . . .670
PIAT66U . . . . . . . . . . . . . 42885 . . . . .654
PIE46UT . . . . . . . . . . . . . 48040 . . . . .663
PIE66UTMNL . . . . . . . . . . 48052 . . . . .663
PIES46UT . . . . . . . . . . . . 51758 . . . . .663
PIF16U . . . . . . . . . . . . . . 42821 . . . . .654
PIF26U . . . . . . . . . . . . . . 27367 . . . . .654
PIF26UMLS . . . . . . . . . . . 39130 . . . . .654
PIF46U . . . . . . . . . . . . . . 26036 . . . . .654
PIF46UHF . . . . . . . . . . . . 51785 . . . . .654
PIF66U . . . . . . . . . . . . . . 39898 . . . . .655
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
Photoelectric Sensor Product Index by Model Number
MODEL
P/N
PAGE
PIFM1X46U . . . . . . . . . . 38636 . . . . .655
PIFM46U . . . . . . . . . . . . 39113 . . . . .655
PIFM46UHF . . . . . . . . . . . 56091 . . . . .655
PIFP26U . . . . . . . . . . . . . 29001 . . . . .655
PIL415U . . . . . . . . . . . . . 45059 . . . . .671
PIL46U . . . . . . . . . . . . . . 34080 . . . . .655
PIL46UHF . . . . . . . . . . . . 56092 . . . . .655
PIP16U . . . . . . . . . . . . . . 35044 . . . . .655
PIP26U . . . . . . . . . . . . . . 26081 . . . . .656
PIP46U . . . . . . . . . . . . . . 26083 . . . . .656
PIP46UC . . . . . . . . . . . . . 26087 . . . . .656
PIP46UHF . . . . . . . . . . . . 51787 . . . . .656
PIPS16U . . . . . . . . . . . . . 48017 . . . . .656
PIPS26U . . . . . . . . . . . . . 35041 . . . . .656
PIPS46U . . . . . . . . . . . . . 35039 . . . . .656
PIPS46UHF . . . . . . . . . . . 51789 . . . . .656
PIPS46UHT1 . . . . . . . . . . 42890 . . . . .657
PIPS66U . . . . . . . . . . . . . 48016 . . . . .657
PIPS66UMSQMAP . . . . . . 48063 . . . . .671
PIPSB46U . . . . . . . . . . . . 38625 . . . . .657
PIPSB46UHF . . . . . . . . . . 56093 . . . . .657
PIPSM26U . . . . . . . . . . . 38237 . . . . .657
PIR1X166U . . . . . . . . . . . 39152 . . . . .657
PIRS1X166U . . . . . . . . . 39155 . . . . .657
PIRS1X166UMPM.75. . . . 56068 . . . . .671
PIRS1X166UMPM2.2. . . . 51819 . . . . .672
PIRS1X166UMPMAL . . . . 48066 . . . . .658
PIT16U . . . . . . . . . . . . . . 39983 . . . . .658
PIT1X46U . . . . . . . . . . . . 39138 . . . . .659
PIT23TS . . . . . . . . . . . . . 48007 . . . . .658
PIT26U . . . . . . . . . . . . . . 26079 . . . . .658
PIT26UHF . . . . . . . . . . . . 61210 . . . . .658
PIT26UHT1 . . . . . . . . . . . 56118 . . . . .658
PIT43TS . . . . . . . . . . . . . 39999 . . . . .659
PIT43TS1 . . . . . . . . . . . . 45074 . . . . .659
PIT43TT. . . . . . . . . . . . . . 45076 . . . . .659
PIT46U . . . . . . . . . . . . . . 26034 . . . . .659
PIT46UC . . . . . . . . . . . . . 26085 . . . . .660
PIT46UHF . . . . . . . . . . . . 51783 . . . . .659
PIT46UHT1 . . . . . . . . . . . 42804 . . . . .660
PIT66U . . . . . . . . . . . . . . 39899 . . . . .660
PITF26U . . . . . . . . . . . . . 39104 . . . . .660
PITP16U . . . . . . . . . . . . . 39993 . . . . .660
PIU230U . . . . . . . . . . . . . 26750 . . . . .676
PIU260U . . . . . . . . . . . . . 26231 . . . . .676
PIU430U . . . . . . . . . . . . . 26751 . . . . .676
PIU460U . . . . . . . . . . . . . 26230 . . . . .676
PIU630U . . . . . . . . . . . . . 39997 . . . . .676
PIU660U . . . . . . . . . . . . . 39998 . . . . .676
PKG3-2 . . . . . . . . . . . . . . 27490 . . . . .732
PKG3M-2. . . . . . . . . . . . . 63977 . . . . .732
PKG3M-9. . . . . . . . . . . . . 63978 . . . . .732
PKG4-2 . . . . . . . . . . . . . . 32438 . . . . .732
PKG6Z-2 . . . . . . . . . . . . . 62985 . . . . .733
PKG6Z-9 . . . . . . . . . . . . . 62986 . . . . .733
PKW3-2. . . . . . . . . . . . . . 27491 . . . . .732
PKW3M-2 . . . . . . . . . . . . 63979 . . . . .732
PKW3M-9 . . . . . . . . . . . . 63980 . . . . .732
PKW4-2. . . . . . . . . . . . . . 34462 . . . . .732
PKW6Z-2. . . . . . . . . . . . . 62998 . . . . .733
PKW6Z-9. . . . . . . . . . . . . 62999 . . . . .733
PT200 . . . . . . . . . . . . . . . 16411 . . . . .541
PT250 . . . . . . . . . . . . . . . 16413 . . . . .541
PT300 . . . . . . . . . . . . . . . 26540 . . . . .541
PT400 . . . . . . . . . . . . . . . 16415 . . . . .541
PTIU216TP . . . . . . . . . . . 42876 . . . . .672
PVA100N6 . . . . . . . . . . . . 52902 . . . . .520
PVA100N6E . . . . . . . . . . . 51925 . . . . .520
PVA100N6EQ. . . . . . . . . . 51929 . . . . .520
PVA100N6Q. . . . . . . . . . . 52904 . . . . .520
PVA100N6R. . . . . . . . . . . 51909 . . . . .520
PVA100N6RQ . . . . . . . . . 51921 . . . . .520
PVA100P6 . . . . . . . . . . . . 52901 . . . . .520
PVA100P6E . . . . . . . . . . . 50784 . . . . .520
PVA100P6EQ . . . . . . . . . . 51913 . . . . .520
PVA100P6Q . . . . . . . . . . . 52903 . . . . .520
PVA100P6R . . . . . . . . . . . 50788 . . . . .520
PVA100P6RQ. . . . . . . . . . 51917 . . . . .520
PVA225N6 . . . . . . . . . . . . 52906 . . . . .521
PVA225N6E . . . . . . . . . . . 51926 . . . . .521
PVA225N6EQ. . . . . . . . . . 51930 . . . . .521
PVA225N6Q. . . . . . . . . . . 52908 . . . . .521
MODEL
P/N
PAGE
PVA225N6R. . . . . . . . . . . 51910 . . . . .521
PVA225N6RQ . . . . . . . . . 51922 . . . . .521
PVA225P6 . . . . . . . . . . . . 52905 . . . . .521
PVA225P6E . . . . . . . . . . . 50785 . . . . .521
PVA225P6EQ . . . . . . . . . . 51914 . . . . .521
PVA225P6Q . . . . . . . . . . . 52907 . . . . .521
PVA225P6R . . . . . . . . . . . 50789 . . . . .521
PVA225P6RQ. . . . . . . . . . 51918 . . . . .521
PVA300N6 . . . . . . . . . . . . 52910 . . . . .521
PVA300N6E . . . . . . . . . . . 51927 . . . . .521
PVA300N6EQ. . . . . . . . . . 51931 . . . . .521
PVA300N6Q. . . . . . . . . . . 52912 . . . . .521
PVA300N6R. . . . . . . . . . . 51911 . . . . .521
PVA300N6RQ . . . . . . . . . 51923 . . . . .521
PVA300P6 . . . . . . . . . . . . 52909 . . . . .521
PVA300P6E . . . . . . . . . . . 50786 . . . . .521
PVA300P6EQ . . . . . . . . . . 51915 . . . . .521
PVA300P6Q . . . . . . . . . . . 52911 . . . . .521
PVA300P6R . . . . . . . . . . . 50790 . . . . .521
PVA300P6RQ. . . . . . . . . . 51919 . . . . .521
PVA375N6 . . . . . . . . . . . . 52914 . . . . .521
PVA375N6E . . . . . . . . . . . 51928 . . . . .521
PVA375N6EQ. . . . . . . . . . 51932 . . . . .521
PVA375N6Q. . . . . . . . . . . 52916 . . . . .521
PVA375N6R. . . . . . . . . . . 51912 . . . . .521
PVA375N6RQ . . . . . . . . . 51924 . . . . .521
PVA375P6 . . . . . . . . . . . . 52913 . . . . .521
PVA375P6E . . . . . . . . . . . 50787 . . . . .521
PVA375P6EQ . . . . . . . . . . 51916 . . . . .521
PVA375P6Q . . . . . . . . . . . 52915 . . . . .521
PVA375P6R . . . . . . . . . . . 50791 . . . . .521
PVA375P6RQ. . . . . . . . . . 51920 . . . . .521
PVC-30 . . . . . . . . . . . . . . 16424 . . . . 587
PVC-6 . . . . . . . . . . . . . . . 16422 . . . . .369
Q
Q106E . . . . . . . . . . . . . . . 44756
Q106EQ . . . . . . . . . . . . . . 44856
Q10AN6D . . . . . . . . . . . . 44857
Q10AN6DQ . . . . . . . . . . . 44858
Q10AN6R . . . . . . . . . . . . 44748
Q10AN6RQ . . . . . . . . . . . 44749
Q10AP6D. . . . . . . . . . . . . 44861
Q10AP6DQ . . . . . . . . . . . 44862
Q10AP6R. . . . . . . . . . . . . 44752
Q10AP6RQ . . . . . . . . . . . 44753
Q10RN6D . . . . . . . . . . . . 44859
Q10RN6DQ . . . . . . . . . . . 44860
Q10RN6R . . . . . . . . . . . . 44750
Q10RN6RQ . . . . . . . . . . . 44751
Q10RP6D . . . . . . . . . . . . 44863
Q10RP6DQ . . . . . . . . . . . 44864
Q10RP6R . . . . . . . . . . . . 44754
Q10RP6RQ . . . . . . . . . . . 44755
Q146E . . . . . . . . . . . . . . . 45151
Q146EQ . . . . . . . . . . . . . . 45731
Q14AN6R . . . . . . . . . . . . 45152
Q14AN6RQ . . . . . . . . . . . 45732
Q14AP6R. . . . . . . . . . . . . 45387
Q14AP6RQ . . . . . . . . . . . 45733
Q14RN6R . . . . . . . . . . . . 45388
Q14RN6RQ . . . . . . . . . . . 45734
Q14RP6R . . . . . . . . . . . . 45389
Q14RP6RQ . . . . . . . . . . . 45735
Q236E . . . . . . . . . . . . . . . 46435
Q236E W/30 . . . . . . . . . . 46457
Q236EQ . . . . . . . . . . . . . . 46446
Q23SN6CV50. . . . . . . . . . 48403
Q23SN6CV50 W/30 . . . . . 59131
Q23SN6CV50Q . . . . . . . . 48401
Q23SN6D . . . . . . . . . . . . 46436
Q23SN6D W/30 . . . . . . . . 46458
Q23SN6DL. . . . . . . . . . . . 46431
Q23SN6DL W/30 . . . . . . . 46453
Q23SN6DLQ . . . . . . . . . . 46442
Q23SN6DQ . . . . . . . . . . . 46447
Q23SN6FP . . . . . . . . . . . . 46438
Q23SN6FP W/30 . . . . . . . 46460
Q23SN6FPQ. . . . . . . . . . . 46449
Q23SN6FPY. . . . . . . . . . . 46462
Q23SN6FPY W/30 . . . . . . 46466
Q23SN6FPYQ . . . . . . . . . 46464
. . . . .80
. . . . .80
. . . . .81
. . . . .81
. . . . .80
. . . . .80
. . . . .81
. . . . .81
. . . . .80
. . . . .80
. . . . .81
. . . . .81
. . . . .80
. . . . .80
. . . . .81
. . . . .81
. . . . .80
. . . . .80
. . . . .84
. . . . .84
. . . . .84
. . . . .84
. . . . .84
. . . . .84
. . . . .84
. . . . .84
. . . . .84
. . . . .84
. . . . .96
. . . . .96
. . . . .96
. . . . .98
. . . . .98
. . . . .98
. . . . .97
. . . . .97
. . . . .97
. . . . .97
. . . . .97
. . . . .97
. . . . .99
. . . . .99
. . . . .99
. . . . .99
. . . . .99
. . . . .99
MODEL
P/N
PAGE
Q23SN6LP. . . . . . . . . . . . 46429 . . . . .97
Q23SN6LP W/30 . . . . . . . 46451 . . . . .97
Q23SN6LPQ . . . . . . . . . . 46440 . . . . .97
Q23SN6R . . . . . . . . . . . . 46433 . . . . .96
Q23SN6R W/30 . . . . . . . . 46455 . . . . .96
Q23SN6RQ . . . . . . . . . . . 46444 . . . . .96
Q23SP6CV50 . . . . . . . . . . 48404 . . . . .98
Q23SP6CV50 W/30 . . . . . 52297 . . . . .98
Q23SP6CV50Q. . . . . . . . . 48402 . . . . .98
Q23SP6D. . . . . . . . . . . . . 46437 . . . . .97
Q23SP6D W/30 . . . . . . . . 46459 . . . . .97
Q23SP6DL. . . . . . . . . . . . 46432 . . . . .97
Q23SP6DL W/30 . . . . . . . 46454 . . . . .97
Q23SP6DLQ . . . . . . . . . . 46443 . . . . .97
Q23SP6DQ . . . . . . . . . . . 46448 . . . . .97
Q23SP6FP . . . . . . . . . . . . 46439 . . . . .99
Q23SP6FP W/30 . . . . . . . 46461 . . . . .99
Q23SP6FPQ. . . . . . . . . . . 46450 . . . . .99
Q23SP6FPY . . . . . . . . . . . 46463 . . . . .99
Q23SP6FPY W/30 . . . . . . 46467 . . . . .99
Q23SP6FPYQ. . . . . . . . . . 46465 . . . . .99
Q23SP6LP . . . . . . . . . . . . 46430 . . . . .97
Q23SP6LP W/30 . . . . . . . 46452 . . . . .97
Q23SP6LPQ. . . . . . . . . . . 46441 . . . . .97
Q23SP6R. . . . . . . . . . . . . 46434 . . . . .96
Q23SP6R W/30 . . . . . . . . 46456 . . . . .96
Q23SP6RQ . . . . . . . . . . . 46445 . . . . .96
Q253E . . . . . . . . . . . . . . . 31966 . . . . .194
Q253E W/30 . . . . . . . . . . 33878 . . . . .194
Q253EQ1 . . . . . . . . . . . . . 31971 . . . . .194
Q256E . . . . . . . . . . . . . . . 31926 . . . . .194
Q256E W/30 . . . . . . . . . . 33866 . . . . .194
Q256EQ . . . . . . . . . . . . . . 31935 . . . . .222
Q25AW3FF100 . . . . . . . . . 31918 . . . . .195
Q25AW3FF100 W/30 . . . . 33862 . . . . .195
Q25AW3FF100Q1. . . . . . . 31922 . . . . .195
Q25AW3FF25. . . . . . . . . . 58402 . . . . .195
Q25AW3FF25 W/30 . . . . . 58406 . . . . .195
Q25AW3FF25Q1. . . . . . . . 58410 . . . . .195
Q25AW3FF50. . . . . . . . . . 31916 . . . . .195
Q25AW3FF50 W/30 . . . . . 33860 . . . . .195
Q25AW3FF50Q1. . . . . . . . 31920 . . . . .195
Q25AW3LP . . . . . . . . . . . 31964 . . . . .194
Q25AW3LP W/30 . . . . . . . 33876 . . . . .194
Q25AW3LPQ1 . . . . . . . . . 31969 . . . . .194
Q25AW3R . . . . . . . . . . . . 31967 . . . . .194
Q25AW3R W/30. . . . . . . . 33879 . . . . .194
Q25AW3RQ1 . . . . . . . . . . 31972 . . . . .194
Q25RW3FF100. . . . . . . . . 31919 . . . . .195
Q25RW3FF100 W/30 . . . . 33863 . . . . .195
Q25RW3FF100Q1 . . . . . . 31923 . . . . .195
Q25RW3FF25 . . . . . . . . . 58403 . . . . .195
Q25RW3FF25 W/30 . . . . . 58407 . . . . .195
Q25RW3FF25Q1 . . . . . . . 58411 . . . . .195
Q25RW3FF50 . . . . . . . . . 31917 . . . . .195
Q25RW3FF50 W/30 . . . . . 33861 . . . . .195
Q25RW3FF50Q1 . . . . . . . 31921 . . . . .195
Q25RW3LP . . . . . . . . . . . 31965 . . . . .194
Q25RW3LP W/30. . . . . . . 33877 . . . . .194
Q25RW3LPQ1 . . . . . . . . . 31970 . . . . .194
Q25RW3R . . . . . . . . . . . . 31968 . . . . .194
Q25RW3R W/30 . . . . . . . 33880 . . . . .194
Q25RW3RQ1 . . . . . . . . . . 31973 . . . . .194
Q25S2P6FF100Q . . . . . . . 45160 . . . . .224
Q25S2P6FF25Q . . . . . . . . 58414 . . . . .224
Q25S2P6FF50Q . . . . . . . . 45159 . . . . .224
Q25S2P6LPQ. . . . . . . . . . 45158 . . . . .223
Q25S2P6RQ . . . . . . . . . . 45157 . . . . .222
Q25SN6FF100 . . . . . . . . . 31931 . . . . .195
Q25SN6FF100 W/30. . . . . 33871 . . . . .195
Q25SN6FF100Q . . . . . . . . 31940 . . . . .195
Q25SN6FF25 . . . . . . . . . . 58400 . . . . .195
Q25SN6FF25 W/30 . . . . . 58404 . . . . .195
Q25SN6FF25Q . . . . . . . . . 58408 . . . . .195
Q25SN6FF50 . . . . . . . . . . 31929 . . . . .195
Q25SN6FF50 W/30 . . . . . 33869 . . . . .195
Q25SN6FF50Q . . . . . . . . . 31938 . . . . .195
Q25SN6LP. . . . . . . . . . . . 31924 . . . . .194
Q25SN6LP W/30 . . . . . . . 33864 . . . . .194
Q25SN6LPQ . . . . . . . . . . 31933 . . . . .194
Q25SN6R . . . . . . . . . . . . 31927 . . . . .194
Q25SN6R W/30 . . . . . . . . 33867 . . . . .194
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
MODEL
P/N
PAGE
Q25SN6RQ . . . . . . . . . . . 31936 . . . . .194
Q25SP6FF100 . . . . . . . . . 31932 . . . . .195
Q25SP6FF100 W/30. . . . . 33872 . . . . .195
Q25SP6FF100Q . . . . . . . . 31941 . . . . .195
Q25SP6FF25 . . . . . . . . . . 58401 . . . . .195
Q25SP6FF25 W/30. . . . . . 58405 . . . . .195
Q25SP6FF25Q . . . . . . . . . 58409 . . . . .195
Q25SP6FF50 . . . . . . . . . . 31930 . . . . .195
Q25SP6FF50 W/30. . . . . . 33870 . . . . .195
Q25SP6FF50Q . . . . . . . . . 31939 . . . . .195
Q25SP6LP . . . . . . . . . . . . 31925 . . . . .194
Q25SP6LP W/30 . . . . . . . 33865 . . . . .194
Q25SP6LPQ. . . . . . . . . . . 31934 . . . . .194
Q25SP6R. . . . . . . . . . . . . 31928 . . . . .194
Q25SP6R W/30 . . . . . . . . 33868 . . . . .194
Q25SP6RQ . . . . . . . . . . . 31937 . . . . .194
Q403E . . . . . . . . . . . . . . . 32376 . . . . .196
Q403E W/30 . . . . . . . . . . 33914 . . . . .196
Q403EQ1 . . . . . . . . . . . . . 33401 . . . . .196
Q406E . . . . . . . . . . . . . . . 32375 . . . . .196
Q406E W/30 . . . . . . . . . . 33913 . . . . .196
Q406EQ . . . . . . . . . . . . . . 33398 . . . . .222
Q40AW3FF200 . . . . . . . . . 32365 . . . . .197
Q40AW3FF200 W/30 . . . . 33903 . . . . .197
Q40AW3FF200Q1. . . . . . . 33386 . . . . .197
Q40AW3FF400 . . . . . . . . . 32368 . . . . .197
Q40AW3FF400 W/30 . . . . 33906 . . . . .197
Q40AW3FF400Q1. . . . . . . 33387 . . . . .197
Q40AW3FF600 . . . . . . . . . 32371 . . . . .197
Q40AW3FF600 W/30 . . . . 33909 . . . . .197
Q40AW3FF600Q1. . . . . . . 34341 . . . . .197
Q40AW3LP . . . . . . . . . . . 32362 . . . . .198
Q40AW3LP W/30 . . . . . . . 33900 . . . . .198
Q40AW3LPQ1 . . . . . . . . . 33396 . . . . .198
Q40AW3R . . . . . . . . . . . . 32374 . . . . .196
Q40AW3R W/30. . . . . . . . 33912 . . . . .196
Q40AW3RQ1 . . . . . . . . . . 33402 . . . . .196
Q40RW3FF200. . . . . . . . . 33382 . . . . .197
Q40RW3FF200 W/30 . . . . 33953 . . . . .197
Q40RW3FF200Q1 . . . . . . 33388 . . . . .197
Q40RW3FF400. . . . . . . . . 33383 . . . . .197
Q40RW3FF400 W/30 . . . . 33954 . . . . .197
Q40RW3FF400Q1 . . . . . . 33389 . . . . .197
Q40RW3FF600. . . . . . . . . 34563 . . . . .197
Q40RW3FF600 W/30 . . . . 34564 . . . . .197
Q40RW3FF600Q1 . . . . . . 34565 . . . . .198
Q40RW3LP . . . . . . . . . . . 33384 . . . . .198
Q40RW3LP W/30. . . . . . . 33955 . . . . .198
Q40RW3LPQ1 . . . . . . . . . 33397 . . . . .198
Q40RW3R . . . . . . . . . . . . 33385 . . . . .196
Q40RW3R W/30 . . . . . . . 33956 . . . . .196
Q40RW3RQ1 . . . . . . . . . . 33403 . . . . .197
Q40S2P6FF200Q . . . . . . . 45171 . . . . .197
Q40S2P6FF400Q . . . . . . . 45172 . . . . .197
Q40S2P6LPQ. . . . . . . . . . 45170 . . . . .223
Q40S2P6RQ . . . . . . . . . . 45169 . . . . .222
Q40SN6FF200 . . . . . . . . . 32363 . . . . .197
Q40SN6FF200 W/30. . . . . 33901 . . . . .197
Q40SN6FF200Q . . . . . . . . 33390 . . . . .197
Q40SN6FF400 . . . . . . . . . 32366 . . . . .197
Q40SN6FF400 W/30. . . . . 33904 . . . . .197
Q40SN6FF400Q . . . . . . . . 33391 . . . . .197
Q40SN6FF600 . . . . . . . . . 32369 . . . . .197
Q40SN6FF600 W/30. . . . . 33907 . . . . .197
Q40SN6FF600Q . . . . . . . . 34342 . . . . .197
Q40SN6LP. . . . . . . . . . . . 32360 . . . . .198
Q40SN6LP W/30 . . . . . . . 33898 . . . . .198
Q40SN6LPQ . . . . . . . . . . 33394 . . . . .198
Q40SN6R . . . . . . . . . . . . 32372 . . . . .196
Q40SN6R W/30 . . . . . . . . 33910 . . . . .196
Q40SN6RQ . . . . . . . . . . . 33399 . . . . .196
Q40SP6FF200 . . . . . . . . . 32364 . . . . .197
Q40SP6FF200 W/30. . . . . 33902 . . . . .197
Q40SP6FF200Q . . . . . . . . 33392 . . . . .197
Q40SP6FF400 . . . . . . . . . 32367 . . . . .197
Q40SP6FF400 W/30. . . . . 33905 . . . . .197
Q40SP6FF400Q . . . . . . . . 33393 . . . . .197
Q40SP6FF600 . . . . . . . . . 32370 . . . . .197
Q40SP6FF600 W/30. . . . . 33908 . . . . .197
Q40SP6FF600Q . . . . . . . . 34343 . . . . .197
Q40SP6LP . . . . . . . . . . . . 32361 . . . . .198
Q40SP6LP W/30 . . . . . . . 33899 . . . . .198
799
Photoelectric Sensor Product Index by Model Number
MODEL
P/N
PAGE
Q40SP6LPQ. . . . . . . . . . . 33395 . . . . .198
Q40SP6R. . . . . . . . . . . . . 32373 . . . . .196
Q40SP6R W/30 . . . . . . . . 33911 . . . . .196
Q40SP6RQ . . . . . . . . . . . 33400 . . . . .196
Q452E . . . . . . . . . . . . . . . 35442 . . . . .380
Q452E W/30 . . . . . . . . . . 38462 . . . . .380
Q452EQ . . . . . . . . . . . . . . 37003 . . . . .380
Q452EQ1 . . . . . . . . . . . . . 40222 . . . . .380
Q456E . . . . . . . . . . . . . . . 36563 . . . . .380
Q456E W/30 . . . . . . . . . . 38472 . . . . .380
Q456EQ . . . . . . . . . . . . . . 36732 . . . . .380
Q456EQ5 . . . . . . . . . . . . . 38659 . . . . .380
Q459E . . . . . . . . . . . . . . . 37625 . . . . .414
Q459E W/30 . . . . . . . . . . 40813 . . . . 414
Q459EQ . . . . . . . . . . . . . . 37635 . . .3 414
Q45AD9CV. . . . . . . . . . . . 37623 . . . . .416
Q45AD9CV W/30 . . . . . . . 40819 . . . . .416
Q45AD9CV4. . . . . . . . . . . 37624 . . . . .416
Q45AD9CV4 W/30 . . . . . . 40820 . . . . .416
Q45AD9CV4Q . . . . . . . . . 37634 . . . . .416
Q45AD9CVQ . . . . . . . . . . 37633 . . . . .416
Q45AD9D . . . . . . . . . . . . 37617 . . . . .415
Q45AD9D W/30 . . . . . . . . 40817 . . . . .415
Q45AD9DL. . . . . . . . . . . . 37618 . . . . .415
Q45AD9DL W/30 . . . . . . . 40818 . . . . .415
Q45AD9DLQ . . . . . . . . . . 37628 . . . . .415
Q45AD9DQ . . . . . . . . . . . 37627 . . . . .415
Q45AD9F . . . . . . . . . . . . . 37621 . . . . .416
Q45AD9F W/30 . . . . . . . . 40821 . . . . .416
Q45AD9FP . . . . . . . . . . . . 37622 . . . . .417
Q45AD9FP W/30 . . . . . . . 40822 . . . . .417
Q45AD9FPQ. . . . . . . . . . . 37632 . . . . .417
Q45AD9FQ. . . . . . . . . . . . 37631 . . . . .416
Q45AD9LP. . . . . . . . . . . . 37619 . . . . .415
Q45AD9LP W/30 . . . . . . . 40816 . . . . .415
Q45AD9LPQ . . . . . . . . . . 37629 . . . . .415
Q45AD9LV . . . . . . . . . . . . 37620 . . . . .415
Q45AD9LV W/30 . . . . . . . 40815 . . . . .415
Q45AD9LVQ. . . . . . . . . . . 37630 . . . . .415
Q45AD9R . . . . . . . . . . . . 37626 . . . . .414
Q45AD9R W/30 . . . . . . . . 40814 . . . . .414
Q45AD9RQ . . . . . . . . . . . 37636 . . . . .414
Q45BB4CV4Q5 . . . . . . . . 38662 . . . . .384
Q45BB6CV. . . . . . . . . . . . 36836 . . . . .384
Q45BB6CV W/30 . . . . . . . 38476 . . . . .384
Q45BB6CV4. . . . . . . . . . . 36837 . . . . .384
Q45BB6CV4 W/30 . . . . . . 38477 . . . . .384
Q45BB6CV4Q . . . . . . . . . 37010 . . . . .384
Q45BB6CV4Q5. . . . . . . . . 38662 . . . . .384
Q45BB6CVQ . . . . . . . . . . 37009 . . . . .384
Q45BB6CVQ5 . . . . . . . . . 38661 . . . . .384
Q45BB6D. . . . . . . . . . . . . 36558 . . . . .383
Q45BB6D W/30 . . . . . . . . 38468 . . . . .383
Q45BB6DL. . . . . . . . . . . . 36559 . . . . .383
Q45BB6DL W/30 . . . . . . . 38469 . . . . .383
Q45BB6DLQ . . . . . . . . . . 36564 . . . . .383
Q45BB6DLQ5 . . . . . . . . . 38664 . . . . .383
Q45BB6DQ . . . . . . . . . . . 36728 . . . . .383
Q45BB6DQ5 . . . . . . . . . . 38663 . . . . .383
Q45BB6DX. . . . . . . . . . . . 42476 . . . . .383
Q45BB6DXQ . . . . . . . . . . 47137 . . . . .383
Q45BB6DXQ5 . . . . . . . . . 47138 . . . . .383
Q45BB6F . . . . . . . . . . . . 36560 . . . . .385
Q45BB6F W/30 . . . . . . . . 38474 . . . . .385
Q45BB6FP . . . . . . . . . . . 36561 . . . . .386
Q45BB6FP W/30 . . . . . . . 38475 . . . . .386
Q45BB6FPQ . . . . . . . . . . 36730 . . . . .386
Q45BB6FPQ5 . . . . . . . . . 38668 . . . . .386
Q45BB6FQ . . . . . . . . . . . 36729 . . . . .386
Q45BB6FQ5 . . . . . . . . . . 38667 . . . . .385
Q45BB6FV . . . . . . . . . . . . 43545 . . . . .385
Q45BB6FVQ. . . . . . . . . . . 42971 . . . . .385
Q45BB6FVQ5 . . . . . . . . . . 43546 . . . . .385
Q45BB6LL . . . . . . . . . . . . 37248 . . . . .382
Q45BB6LL W/30 . . . . . . . 40823 . . . . .382
Q45BB6LLP . . . . . . . . . . . 39551 . . . . .382
Q45BB6LLP W/30 . . . . . . 40824 . . . . .382
Q45BB6LLPQ. . . . . . . . . . 39550 . . . . .382
Q45BB6LLPQ6. . . . . . . . . 41033 . . . . .382
Q45BB6LLQ. . . . . . . . . . . 39552 . . . . .382
Q45BB6LLQ6 . . . . . . . . . . 41032 . . . . .382
Q45BB6LP . . . . . . . . . . . . 36556 . . . . .381
800
MODEL
P/N
PAGE
Q45BB6LP W/30 . . . . . . . 38470 . . . . .381
Q45BB6LPQ. . . . . . . . . . . 36726 . . . . .381
Q45BB6LPQ5. . . . . . . . . . 38666 . . . . .381
Q45BB6LV . . . . . . . . . . . . 36557 . . . . .381
Q45BB6LV W/30 . . . . . . . 38471 . . . . .381
Q45BB6LVQ . . . . . . . . . . . 36727 . . . . .381
Q45BB6LVQ5 . . . . . . . . . . 38665 . . . . .381
Q45BB6R. . . . . . . . . . . . . 36562 . . . . .380
Q45BB6R W/30 . . . . . . . . 38473 . . . . .380
Q45BB6RQ . . . . . . . . . . . 36731 . . . . .380
Q45BB6RQ5 . . . . . . . . . . 38660 . . . . .380
Q45BW13CV . . . . . . . . . . 53983 . . . . .384
Q45BW13CV4 . . . . . . . . . 53984 . . . . .384
Q45BW13CV4Q . . . . . . . . 54318 . . . . .384
Q45BW13CVQ . . . . . . . . . 54317 . . . . .384
Q45BW13D . . . . . . . . . . . 53985 . . . . .381
Q45BW13DL . . . . . . . . . . 53986 . . . . .381
Q45BW13DLQ . . . . . . . . . 54320 . . . . .381
Q45BW13DQ . . . . . . . . . . 54319 . . . . .381
Q45BW13DX . . . . . . . . . . 53987 . . . . .381
Q45BW13DXQ . . . . . . . . . 54321 . . . . .381
Q45BW13F . . . . . . . . . . . 53988 . . . . .385
Q45BW13FP . . . . . . . . . . 53989 . . . . .386
Q45BW13FP W/30 . . . . . . 38475 . . . . .386
Q45BW13FPQ . . . . . . . . . 54323 . . . . .386
Q45BW13FQ . . . . . . . . . . 54322 . . . . .385
Q45BW13FV . . . . . . . . . . 53990 . . . . .385
Q45BW13FVQ . . . . . . . . . 54324 . . . . .385
Q45BW22CV . . . . . . . . . . 36845 . . . . .384
Q45BW22CV W/30. . . . . . 38485 . . . . .384
Q45BW22CV4 . . . . . . . . . 36846 . . . . .384
Q45BW22CV4 W/30. . . . . 38486 . . . . .384
Q45BW22CV4Q . . . . . . . 37019 . . . . .384
Q45BW22CV4Q1 . . . . . . . 40220 . . . . .384
Q45BW22CVQ . . . . . . . . 37018 . . . . .384
Q45BW22CVQ1 . . . . . . . 40219 . . . . .384
Q45BW22D . . . . . . . . . . . 36838 . . . . .383
Q45BW22D W/30. . . . . . . 38478 . . . . .383
Q45BW22DL . . . . . . . . . . 36839 . . . . .383
Q45BW22DL W/30. . . . . . 38479 . . . . .383
Q45BW22DLQ . . . . . . . . 37012 . . . . .383
Q45BW22DLQ1 . . . . . . . 40214 . . . . .383
Q45BW22DQ . . . . . . . . . 37011 . . . . .383
Q45BW22DQ1 . . . . . . . . 40213 . . . . .383
Q45BW22DX . . . . . . . . . . 47140 . . . . .383
Q45BW22DXQ . . . . . . . . . 47141 . . . . .383
Q45BW22DXQ1 . . . . . . . . 47142 . . . . .383
Q45BW22F . . . . . . . . . . . 36843 . . . . .385
Q45BW22F W/30 . . . . . . . 38483 . . . . .385
Q45BW22FP . . . . . . . . . . 36844 . . . . .386
Q45BW22FP W/30 . . . . . . 38484 . . . . .386
Q45BW22FPQ . . . . . . . . . 37017 . . . . .386
Q45BW22FPQ1 . . . . . . . . 40216 . . . . .386
Q45BW22FQ . . . . . . . . . . 37016 . . . . .385
Q45BW22FQ1 . . . . . . . . . 40215 . . . . .385
Q45BW22FV . . . . . . . . . . 53814 . . . . .385
Q45BW22FVQ . . . . . . . . . 53815 . . . . .385
Q45BW22FVQ1 . . . . . . . . 53816 . . . . .385
Q45BW22LP . . . . . . . . . . 36840 . . . . .381
Q45BW22LP W/30 . . . . . . 38480 . . . . .381
Q45BW22LPQ . . . . . . . . . 37013 . . . . .381
Q45BW22LPQ1 . . . . . . . . 40218 . . . . .381
Q45BW22LV . . . . . . . . . . 36841 . . . . .381
Q45BW22LV W/30 . . . . . . 38481 . . . . .381
Q45BW22LVQ . . . . . . . . . 37014 . . . . .381
Q45BW22LVQ1 . . . . . . . . 40217 . . . . .381
Q45BW22R . . . . . . . . . . . 36842 . . . . .380
Q45BW22R W/30. . . . . . . 38482 . . . . .380
Q45BW22RQ . . . . . . . . . 37015 . . . . .380
Q45BW22RQ1 . . . . . . . . 40221 . . . . .380
Q45VR2CV. . . . . . . . . . . . 35446 . . . . .384
Q45VR2CV W/30 . . . . . . . 38466 . . . . .384
Q45VR2CV4. . . . . . . . . . . 35447 . . . . .384
Q45VR2CV4 W/30 . . . . . . 38467 . . . . .384
Q45VR2CV4Q . . . . . . . . . 37008 . . . . .384
Q45VR2CVQ . . . . . . . . . . 37007 . . . . .384
Q45VR2D . . . . . . . . . . . . 35438 . . . . .383
Q45VR2D W/30 . . . . . . . . 38459 . . . . .383
Q45VR2DL. . . . . . . . . . . . 35439 . . . . .383
Q45VR2DL W/30 . . . . . . . 38460 . . . . .383
Q45VR2DLQ . . . . . . . . . . 36025 . . . . .383
Q45VR2DQ . . . . . . . . . . . 37000 . . . . .383
MODEL
P/N
PAGE
Q45VR2DX . . . . . . . . . . . 44550 . . . . .383
Q45VR2DXQ . . . . . . . . . . 47139 . . . . .383
Q45VR2F . . . . . . . . . . . . 35444 . . . . .385
Q45VR2F W/30 . . . . . . . . 38464 . . . . .385
Q45VR2FP . . . . . . . . . . . . 35445 . . . . .386
Q45VR2FP W/30 . . . . . . . 38465 . . . . .386
Q45VR2FPQ. . . . . . . . . . . 37006 . . . . .386
Q45VR2FQ. . . . . . . . . . . . 37005 . . . . .385
Q45VR2FV . . . . . . . . . . . . 43543 . . . . .385
Q45VR2FVQ. . . . . . . . . . . 43544 . . . . .385
Q45VR2LP. . . . . . . . . . . . 35440 . . . . .381
Q45VR2LP W/30 . . . . . . . 38461 . . . . .381
Q45VR2LPQ . . . . . . . . . . 37001 . . . . .381
Q45VR2LV . . . . . . . . . . . 35441 . . . . .381
Q45VR2LV W/30 . . . . . . . 38581 . . . . .381
Q45VR2LVQ. . . . . . . . . . . 37002 . . . . .381
Q45VR2R . . . . . . . . . . . . 35443 . . . . .380
Q45VR2R W/30 . . . . . . . . 38463 . . . . .380
Q45VR2RQ . . . . . . . . . . . 37004 . . . . .380
Q45VR3CV. . . . . . . . . . . . 53972 . . . . .384
Q45VR3CV4. . . . . . . . . . . 53973 . . . . .384
Q45VR3CV4Q . . . . . . . . . 54307 . . . . .384
Q45VR3CVQ . . . . . . . . . . 54306 . . . . .384
Q45VR3D . . . . . . . . . . . . 53974 . . . . .383
Q45VR3DL. . . . . . . . . . . . 53975 . . . . .383
Q45VR3DLQ . . . . . . . . . . 54309 . . . . .383
Q45VR3DQ . . . . . . . . . . . 54308 . . . . .383
Q45VR3DX . . . . . . . . . . . 53976 . . . . .383
Q45VR3DXQ . . . . . . . . . . 54310 . . . . .383
Q45VR3DXQ W/30 . . . . . . 56005 . . . . .383
Q45VR3F . . . . . . . . . . . . . 53977 . . . . .385
Q45VR3FP . . . . . . . . . . . . 53978 . . . . .386
Q45VR3FPQ. . . . . . . . . . . 54312 . . . . .386
Q45VR3FQ. . . . . . . . . . . . 54311 . . . . .385
Q45VR3FV . . . . . . . . . . . . 53979 . . . . .385
Q45VR3FVQ. . . . . . . . . . . 53979 . . . . .385
Q45X6EQ. . . . . . . . . . . . . 37879 . . . . .400
Q45XAS1CV4Q . . . . . . . . 40785 . . . . .411
Q45XAS1CVQ . . . . . . . . . 40784 . . . . .411
Q45XAS1DLQ . . . . . . . . . 40777 . . . . .411
Q45XAS1DQ . . . . . . . . . . 40056 . . . . .411
Q45XAS1EQ. . . . . . . . . . . 40780 . . . . .411
Q45XAS1FPQ. . . . . . . . . . 40783 . . . . .411
Q45XAS1FQ. . . . . . . . . . . 40782 . . . . .411
Q45XAS1LPQ . . . . . . . . . 40778 . . . . .411
Q45XAS1LVQ. . . . . . . . . . 40779 . . . . .411
Q45XAS1RQ . . . . . . . . . . 40781 . . . . .411
Q45XB6CV4Q . . . . . . . . . 37886 . . . . .402
Q45XB6CVQ . . . . . . . . . . 37885 . . . . .402
Q45XB6DLQ . . . . . . . . . . 37884 . . . . .401
Q45XB6DQ . . . . . . . . . . . 37883 . . . . .401
Q45XB6FPQ. . . . . . . . . . . 37888 . . . . .403
Q45XB6FQ . . . . . . . . . . . . 37887 . . . . .403
Q45XB6LPQ. . . . . . . . . . . 37882 . . . . .401
Q45XB6LVQ . . . . . . . . . . . 37881 . . . . .401
Q45XB6RQ . . . . . . . . . . . 37880 . . . . .400
Q45XDN1CV4Q6 . . . . . . . 46837 . . . . .408
Q45XDN1CVQ6 . . . . . . . . 46838 . . . . .408
Q45XDN1DLQ6 . . . . . . . . 46839 . . . . .408
Q45XDN1DQ6 . . . . . . . . . 46840 . . . . .408
Q45XDN1EQ6 . . . . . . . . . 46841 . . . . .408
Q45XDN1FPQ6 . . . . . . . . 46843 . . . . .408
Q45XDN1FQ6 . . . . . . . . . 46844 . . . . .408
Q45XDN1LPQ6 . . . . . . . . 46845 . . . . .408
Q45XDN1LVQ6 . . . . . . . . 46846 . . . . .408
Q45XDN1RQ6 . . . . . . . . . 46842 . . . . .408
Q45XDN2CV4Q6 . . . . . . . 49172 . . . . .408
Q45XDN2CVQ6 . . . . . . . . 49171 . . . . .408
Q45XDN2DLQ6 . . . . . . . . 49170 . . . . .408
Q45XDN2DQ6 . . . . . . . . . 49169 . . . . .408
Q45XDN2FPQ6 . . . . . . . . 49174 . . . . .408
Q45XDN2FQ6 . . . . . . . . . 49173 . . . . .408
Q45XDN2LPQ6 . . . . . . . . 49168 . . . . .408
Q45XDN2LVQ6 . . . . . . . . 49167 . . . . .408
Q45XDN2RQ6 . . . . . . . . . 49166 . . . . .408
Q50BI . . . . . . . . . . . . . . . 63865 . . . . .262
Q50BIQ . . . . . . . . . . . . . . 63866 . . . . .262
Q50BU. . . . . . . . . . . . . . . 63871 . . . . .262
Q50BUQ . . . . . . . . . . . . . 63872 . . . . .262
Q50BVI . . . . . . . . . . . . . . 65273 . . . . .262
Q50BVIQ . . . . . . . . . . . . . 65274 . . . . .262
Q50BVU. . . . . . . . . . . . . . 65276 . . . . .262
MODEL
P/N
PAGE
Q50BVUQ . . . . . . . . . . . . 65277 . . . . .262
Q60BB6AF2000 . . . . . . . . 63000 . . . . .268
Q60BB6AF2000Q . . . . . . . 63001 . . . . .268
Q853E . . . . . . . . . . . . . . . 31648 . . . . .372
Q8562E . . . . . . . . . . . . . . 34262 . . . . .372
Q85BB62D. . . . . . . . . . . . 34269 . . . . .373
Q85BB62D-T9 . . . . . . . . . 34268 . . . . .373
Q85BB62DL. . . . . . . . . . . 34259 . . . . .373
Q85BB62DL-T9 . . . . . . . . 34258 . . . . .373
Q85BB62LP . . . . . . . . . . . 34255 . . . . .373
Q85BB62LP-T9 . . . . . . . . 34254 . . . . .373
Q85BB62R. . . . . . . . . . . . 34265 . . . . .372
Q85BB62R-T9 . . . . . . . . . 34264 . . . . .372
Q85BW13D . . . . . . . . . . . 35576 . . . . .373
Q85BW13D-T9 . . . . . . . . 35575 . . . . .373
Q85BW13DL . . . . . . . . . . 35568 . . . . .373
Q85BW13DL-T9 . . . . . . . 35567 . . . . .373
Q85BW13LP . . . . . . . . . . 35564 . . . . .373
Q85BW13LP-T9 . . . . . . . 35563 . . . . .373
Q85BW13R . . . . . . . . . . . 35572 . . . . .372
Q85BW13R-T9 . . . . . . . . 35571 . . . . .372
Q85VR3D . . . . . . . . . . . . 31655 . . . . .373
Q85VR3D-T9 . . . . . . . . . . 31654 . . . . .373
Q85VR3DL. . . . . . . . . . . . 31539 . . . . .373
Q85VR3DL-T9 . . . . . . . . . 31537 . . . . .373
Q85VR3LP. . . . . . . . . . . . 31213 . . . . .373
Q85VR3LP-T9 . . . . . . . . . 30872 . . . . .373
Q85VR3R . . . . . . . . . . . . 31651 . . . . .372
Q85VR3R-T9 . . . . . . . . . . 31650 . . . . .372
QBM.53P . . . . . . . . . . . . . 17978 . . . . .715
QBT23S . . . . . . . . . . . . . . 20687 . . . . .715
QF1.53SMAM . . . . . . . . . 20896 . . . . .716
QF1.53SMM. . . . . . . . . . . 20691 . . . . .716
QF2.53SMTT . . . . . . . . . . 20834 . . . . .716
QH236E . . . . . . . . . . . . . . 48807 . . . . .96
QH236E W/30 . . . . . . . . . 48829 . . . . .96
QH236EQ. . . . . . . . . . . . . 48818 . . . . .96
QH23SN6CV50 . . . . . . . . 48872 . . . . .98
QH23SN6CV50Q . . . . . . . 48873 . . . . .98
QH23SN6D . . . . . . . . . . . 48808 . . . . .97
QH23SN6D W/30 . . . . . . . 48830 . . . . .97
QH23SN6DL . . . . . . . . . . 48803 . . . . .97
QH23SN6DL W/30 . . . . . . 48825 . . . . .97
QH23SN6DLQ . . . . . . . . . 48814 . . . . .97
QH23SN6DQ . . . . . . . . . . 48819 . . . . .97
QH23SN6FP. . . . . . . . . . . 48810 . . . . .99
QH23SN6FP W/30 . . . . . . 48832 . . . . .99
QH23SN6FPQ . . . . . . . . . 48821 . . . . .99
QH23SN6FPY . . . . . . . . . 48834 . . . . .99
QH23SN6FPY W/30 . . . . . 48838 . . . . .99
QH23SN6FPYQ . . . . . . . . 48836 . . . . .99
QH23SN6LP . . . . . . . . . . 48801 . . . . .97
QH23SN6LP W/30 . . . . . . 48823 . . . . .97
QH23SN6LPQ . . . . . . . . . 48812 . . . . .97
QH23SN6R . . . . . . . . . . . 48805 . . . . .96
QH23SN6R W/30 . . . . . . . 48827 . . . . .96
QH23SN6RQ . . . . . . . . . . 48816 . . . . .96
QH23SP6CV50. . . . . . . . . 48874 . . . . .98
QH23SP6CV50 W/30 . . . . 54120 . . . . .98
QH23SP6CV50Q . . . . . . . 48875 . . . . .98
QH23SP6D . . . . . . . . . . . 48809 . . . . .97
QH23SP6D W/30 . . . . . . . 48831 . . . . .97
QH23SP6DL . . . . . . . . . . 48804 . . . . .97
QH23SP6DL W/30 . . . . . . 48826 . . . . .97
QH23SP6DLQ . . . . . . . . . 48815 . . . . .97
QH23SP6DQ . . . . . . . . . . 48820 . . . . .97
QH23SP6FP. . . . . . . . . . . 48811 . . . . .99
QH23SP6FP W/30 . . . . . . 48833 . . . . .99
QH23SP6FPQ . . . . . . . . . 48822 . . . . .99
QH23SP6FPY. . . . . . . . . . 48835 . . . . .99
QH23SP6FPY W/30 . . . . . 48839 . . . . .99
QH23SP6FPYQ . . . . . . . . 48837 . . . . .99
QH23SP6LP. . . . . . . . . . . 48802 . . . . .97
QH23SP6LP W/30 . . . . . . 48824 . . . . .97
QH23SP6LPQ . . . . . . . . . 48813 . . . . .97
QH23SP6R . . . . . . . . . . . 48806 . . . . .96
QH23SP6R W/30 . . . . . . . 48828 . . . . .96
QH23SP6RQ . . . . . . . . . . 48817 . . . . .96
QM426E . . . . . . . . . . . . . 44331 . . . . .240
QM426EQ . . . . . . . . . . . . 44334 . . . . .240
QM42VN6AFV150 . . . . . . 48694 . . . . .243
QM42VN6AFV150 W/30 . . 48941 . . . . .243
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
Photoelectric Sensor Product Index by Model Number
MODEL
P/N
PAGE
QM42VN6AFV150Q . . . . . 48696 . . . . .243
QM42VN6D . . . . . . . . . . 44338 . . . . .241
QM42VN6DQ . . . . . . . . . . 44340 . . . . .241
QM42VN6FP . . . . . . . . . . 45785 . . . . .244
QM42VN6FPQ . . . . . . . . . 45786 . . . . .244
QM42VN6LP . . . . . . . . . . 44902 . . . . .241
QM42VN6LPQ . . . . . . . . . 44904 . . . . .241
QM42VN6R . . . . . . . . . . 44337 . . . . .240
QM42VN6RQ . . . . . . . . . . 44339 . . . . .240
QM42VP6AFV150 . . . . . . 45688 . . . . .243
QM42VP6AFV150 W/30 . . 48942 . . . . .243
QM42VP6AFV150Q . . . . . 45690 . . . . .243
QM42VP6D . . . . . . . . . . . 44333 . . . . .241
QM42VP6DQ . . . . . . . . . 44336 . . . . .241
QM42VP6FP . . . . . . . . . . 45783 . . . . .244
QM42VP6FPQ . . . . . . . . . 45784 . . . . .244
QM42VP6LP . . . . . . . . . . 44901 . . . . .241
QM42VP6LPQ . . . . . . . . . 44903 . . . . .241
QM42VP6R . . . . . . . . . . . 44332 . . . . .240
QM42VP6RQ . . . . . . . . . . 44335 . . . . .240
QMT42VN6AFV400 . . . . . 46855 . . . . .243
QMT42VN6AFV400 W/30 . 48944 . . . . .243
QMT42VN6AFV400Q . . . . 46857 . . . . .243
QMT42VN6DX . . . . . . . . . 56894 . . . . .241
QMT42VN6DXQ . . . . . . . . 56895 . . . . .241
QMT42VN6FF1000. . . . . . 49231 . . . . .242
QMT42VN6FF1000Q. . . . . 49232 . . . . .242
QMT42VN6FF1500. . . . . . 57543 . . . . .242
QMT42VN6FF1500Q. . . . . 57544 . . . . .242
QMT42VN6FF2000. . . . . . 49235 . . . . .242
QMT42VN6FF2000 W/30 . 57961 . . . . .242
QMT42VN6FF2000Q. . . . . 49236 . . . . .242
QMT42VN6FF500. . . . . . . 49227 . . . . .242
QMT42VN6FF500Q . . . . . 49228 . . . . .242
QMT42VN6FF750. . . . . . . 57541 . . . . .242
QMT42VN6FF750Q . . . . . 57542 . . . . .242
QMT42VP6AFV400 . . . . . 46856 . . . . .243
QMT42VP6AFV400Q . . . . 46858 . . . . .243
QMT42VP6DX . . . . . . . . . 56896 . . . . .241
QMT42VP6DXQ . . . . . . . . 56897 . . . . .241
QMT42VP6FF1000 . . . . . . 49233 . . . . .242
QMT42VP6FF1000Q. . . . . 49234 . . . . .242
QMT42VP6FF1500 . . . . . . 57545 . . . . .242
QMT42VP6FF1500Q. . . . . 57546 . . . . .242
QMT42VP6FF500 . . . . . . . 49229 . . . . .242
QMT42VP6FF500 W/30 . . 56628 . . . . .242
QMT42VP6FF500Q. . . . . . 49230 . . . . .242
QMT42VP6FF750 . . . . . . . 57540 . . . . .242
QMT42VP6FF750Q. . . . . . 57371 . . . . .242
QS126E . . . . . . . . . . . . . . 58623 . . . . .90
QS126EQ. . . . . . . . . . . . . 58624 . . . . .90
QS12VN6CV10. . . . . . . . . 58644 . . . . .91
QS12VN6CV10Q . . . . . . . 58645 . . . . .91
QS12VN6CV20. . . . . . . . . 58650 . . . . .91
QS12VN6CV20Q . . . . . . . 58651 . . . . .91
QS12VN6D . . . . . . . . . . . 58656 . . . . .92
QS12VN6DBZ . . . . . . . . . 58668 . . . . .92
QS12VN6DBZQ . . . . . . . . 58669 . . . . .92
QS12VN6DQ . . . . . . . . . . 58657 . . . . .92
QS12VN6LP. . . . . . . . . . . 58632 . . . . .91
QS12VN6LPQ . . . . . . . . . 58633 . . . . .91
QS12VN6LV . . . . . . . . . . . 58638 . . . . .91
QS12VN6LVQ. . . . . . . . . . 58639 . . . . .91
QS12VN6R . . . . . . . . . . . 58626 . . . . .90
QS12VN6RQ . . . . . . . . . . 58627 . . . . .90
QS12VN6W . . . . . . . . . . . 58662 . . . . .92
QS12VN6WQ . . . . . . . . . . 58663 . . . . .92
QS12VP6CV10. . . . . . . . . 58647 . . . . .91
QS12VP6CV10Q . . . . . . . 58648 . . . . .91
QS12VP6CV20. . . . . . . . . 58653 . . . . .91
QS12VP6CV20Q . . . . . . . 58654 . . . . .91
QS12VP6D. . . . . . . . . . . . 58659 . . . . .92
QS12VP6DBZ . . . . . . . . . 58671 . . . . .92
QS12VP6DBZQ . . . . . . . . 58672 . . . . .92
QS12VP6DQ . . . . . . . . . . 58660 . . . . .92
QS12VP6LP. . . . . . . . . . . 58635 . . . . .91
QS12VP6LPQ . . . . . . . . . 58636 . . . . .91
QS12VP6LV . . . . . . . . . . . 58641 . . . . .91
QS12VP6LVQ. . . . . . . . . . 58642 . . . . .91
QS12VP6R. . . . . . . . . . . . 58629 . . . . .90
QS12VP6RQ . . . . . . . . . . 58630 . . . . .90
QS12VP6W . . . . . . . . . . . 58665 . . . . .92
MODEL
P/N
PAGE
QS12VP6WQ . . . . . . . . . . 58666 . . . . .92
QS186E . . . . . . . . . . . . . . 61618 . . . . .222
QS186EB . . . . . . . . . . . . . 61675 . . . . .106
QS186EBQ. . . . . . . . . . . . 61676 . . . . .106
QS186EQ. . . . . . . . . . . . . 61619 . . . . .106
QS18VN6AF100 . . . . . . . . 65500 . . . . .109
QS18VN6AF100Q. . . . . . . 65501 . . . . .109
QS18VN6CV15. . . . . . . . . 61639 . . . . .107
QS18VN6CV15Q . . . . . . . 61640 . . . . .107
QS18VN6CV45. . . . . . . . . 61645 . . . . .107
QS18VN6CV45Q . . . . . . . 61646 . . . . .107
QS18VN6D . . . . . . . . . . . 61651 . . . . .108
QS18VN6DB . . . . . . . . . . 61663 . . . . .108
QS18VN6DBQ . . . . . . . . . 61664 . . . . .108
QS18VN6DQ . . . . . . . . . . 61652 . . . . .108
QS18VN6FP. . . . . . . . . . . 66222 . . . . .109
QS18VN6FPQ . . . . . . . . . 66223 . . . . .109
QS18VN6LP. . . . . . . . . . . 61627 . . . . .107
QS18VN6LPQ . . . . . . . . . 61628 . . . . .107
QS18VN6LV . . . . . . . . . . . 61633 . . . . .107
QS18VN6LVQ. . . . . . . . . . 61634 . . . . .107
QS18VN6R . . . . . . . . . . . 61621 . . . . .106
QS18VN6RB . . . . . . . . . . 61669 . . . . .106
QS18VN6RBQ . . . . . . . . . 61670 . . . . .106
QS18VN6RQ . . . . . . . . . . 61622 . . . . .106
QS18VN6W . . . . . . . . . . . 61657 . . . . .108
QS18VN6WQ . . . . . . . . . . 61658 . . . . .108
QS18VP6AF100 . . . . . . . . 65502 . . . . .109
QS18VP6AF100Q . . . . . . . 65503 . . . . .109
QS18VP6CV15. . . . . . . . . 61642 . . . . .107
QS18VP6CV15Q . . . . . . . 61643 . . . . .107
QS18VP6CV45. . . . . . . . . 61648 . . . . .107
QS18VP6CV45Q . . . . . . . 61649 . . . . .107
QS18VP6D. . . . . . . . . . . . 61654 . . . . .108
QS18VP6DB . . . . . . . . . . 61666 . . . . .108
QS18VP6DBQ . . . . . . . . . 61667 . . . . .108
QS18VP6DQ . . . . . . . . . . 61655 . . . . .108
QS18VP6FP . . . . . . . . . . . 66224 . . . . .109
QS18VP6FPQ. . . . . . . . . . 66225 . . . . .109
QS18VP6LP. . . . . . . . . . . 61630 . . . . .107
QS18VP6LPQ . . . . . . . . . 61631 . . . . .107
QS18VP6LV . . . . . . . . . . . 61636 . . . . .107
QS18VP6LVQ. . . . . . . . . . 61637 . . . . .107
QS18VP6R. . . . . . . . . . . . 61624 . . . . .106
QS18VP6RB . . . . . . . . . . 61672 . . . . .106
QS18VP6RBQ . . . . . . . . . 61673 . . . . .106
QS18VP6RQ . . . . . . . . . . 61625 . . . . .106
QS18VP6W . . . . . . . . . . . 61660 . . . . .108
QS18VP6WQ . . . . . . . . . . 61661 . . . . .108
R
R1P3 . . . . . . . . . . . . . . . . 28101 . . . . .109
R1T3 . . . . . . . . . . . . . . . . 19644 . . . . .510
R2PBA. . . . . . . . . . . . . . . 26485 . . . . .465
R2PBB. . . . . . . . . . . . . . . 26486 . . . . .465
R55CG1. . . . . . . . . . . . . . 48301 . . . . .302
R55CG1 W/30 . . . . . . . . . 51383 . . . . .302
R55CG1Q . . . . . . . . . . . . 51393 . . . . .302
R55CG1QP . . . . . . . . . . . 48303 . . . . .302
R55CG2. . . . . . . . . . . . . . 48302 . . . . .302
R55CG2 W/30 . . . . . . . . . 51384 . . . . .302
R55CG2Q . . . . . . . . . . . . 51394 . . . . .302
R55CG2QP . . . . . . . . . . . 48304 . . . . .302
R55CW1 . . . . . . . . . . . . . 57286 . . . . .303
R55CW1 W/30. . . . . . . . . 59128 . . . . .303
R55CW1Q . . . . . . . . . . . . 52285 . . . . .303
R55CW1QP . . . . . . . . . . . 59132 . . . . .303
R55CW2 . . . . . . . . . . . . . 59129 . . . . .303
R55CW2 W/30. . . . . . . . . 59130 . . . . .303
R55CW2Q . . . . . . . . . . . . 53369 . . . . .303
R55CW2QP . . . . . . . . . . . 59133 . . . . .303
R55ECB1 . . . . . . . . . . . . . 59497 . . . . .299
R55ECB1Q. . . . . . . . . . . . 59498 . . . . .299
R55ECB2 . . . . . . . . . . . . . 59500 . . . . .299
R55ECB2Q. . . . . . . . . . . . 59501 . . . . .299
R55ECG1. . . . . . . . . . . . . 59491 . . . . .298
R55ECG1Q. . . . . . . . . . . . 59492 . . . . .298
R55ECG2. . . . . . . . . . . . . 59494 . . . . .298
R55ECG2Q. . . . . . . . . . . . 59495 . . . . .298
R55ECW1 . . . . . . . . . . . . 59485 . . . . .299
R55ECW1Q . . . . . . . . . . . 59486 . . . . .299
R55ECW2 . . . . . . . . . . . . 59488 . . . . .299
MODEL
P/N
PAGE
R55ECW2Q . . . . . . . . . . . 59489 . . . . .299
R55F . . . . . . . . . . . . . . . . 66379 . . . . .306
R55FP . . . . . . . . . . . . . . . 58018 . . . . .307
R55FPB . . . . . . . . . . . . . . 58024 . . . . .307
R55FPBQ. . . . . . . . . . . . . 58026 . . . . .307
R55FPG . . . . . . . . . . . . . . 58021 . . . . .307
R55FPGQ. . . . . . . . . . . . . 58023 . . . . .307
R55FPQ . . . . . . . . . . . . . . 58020 . . . . .307
R55FPW . . . . . . . . . . . . . 58027 . . . . .307
R55FPWQ . . . . . . . . . . . . 58029 . . . . .307
R55FQ . . . . . . . . . . . . . . . 64634 . . . . .306
R55FV . . . . . . . . . . . . . . . 58006 . . . . .306
R55FVB . . . . . . . . . . . . . . 58012 . . . . .306
R55FVBQ. . . . . . . . . . . . . 58014 . . . . .306
R55FVG . . . . . . . . . . . . . . 58009 . . . . .306
R55FVGQ. . . . . . . . . . . . . 58011 . . . . .306
R55FVQ . . . . . . . . . . . . . . 58008 . . . . .306
R55FVW . . . . . . . . . . . . . 58015 . . . . .306
R55FVWQ . . . . . . . . . . . . 58017 . . . . .306
RAR300FM . . . . . . . . . . . 26517 . . . . .154
RAR300SM . . . . . . . . . . . 26518 . . . . .154
RAR500. . . . . . . . . . . . . . 16425 . . . . .281
RCF44-10 . . . . . . . . . . . . 48085 . . . . .676
RCF44MSS-10 . . . . . . . . . 48086 . . . . .676
RCF44MSST-10 . . . . . . . . 48087 . . . . .676
RCF53-10 . . . . . . . . . . . . 48082 . . . . .676
RCF53MSS-10 . . . . . . . . . 48083 . . . . .676
RCF53MSST-10 . . . . . . . . 48084 . . . . .676
RCF69-10 . . . . . . . . . . . . 42868 . . . . .676
RCF69MSS-10 . . . . . . . . . 48080 . . . . .676
RCF69MSST-10 . . . . . . . . 48081 . . . . .676
RF1-2NPS . . . . . . . . . . . . 19183 .369, 471
RLM5 . . . . . . . . . . . . . . . 25548 . . . . .468
RLM8 . . . . . . . . . . . . . . . 25575 . . . . .468
RMB100 . . . . . . . . . . . . . 49840 . . . . .741
RMB50 . . . . . . . . . . . . . . 49838 . . . . .740
RMB85 . . . . . . . . . . . . . . 49839 . . . . .740
RPBA. . . . . . . . . . . . . . . . 25545 . . . . .466
RPBA-1 . . . . . . . . . . . . . . 25696 . . . . .466
RPBB. . . . . . . . . . . . . . . . 26100 . . . . .466
RPBB-1 . . . . . . . . . . . . . . 26148 . . . . .466
RPBR . . . . . . . . . . . . . . . 26132 . . . . .467
RPBR2 . . . . . . . . . . . . . . 26610 . . . . .467
RPBT. . . . . . . . . . . . . . . . 25643 . . . . .465
RPBT-1 . . . . . . . . . . . . . . 25697 . . . . .465
RPBTLM . . . . . . . . . . . . . 26373 . . . . .465
RPBU . . . . . . . . . . . . . . . 27267 . . . . .467
RS-11 . . . . . . . . . . . . . . . 26489 . . . . .593
RS8. . . . . . . . . . . . . . . . . 19745 . . . . .591
RS8K. . . . . . . . . . . . . . . . 25346 . . . . .591
RSBC. . . . . . . . . . . . . . . . 27028 . . . . .460
RSBCV . . . . . . . . . . . . . . 26180 . . . . .460
RSBD . . . . . . . . . . . . . . . 25574 . . . . .459
RSBDSR . . . . . . . . . . . . . 26274 . . . . .459
RSBE. . . . . . . . . . . . . . . . 25603 . . . . .457
RSBEF . . . . . . . . . . . . . . . 26222 . . . . .461
RSBESR . . . . . . . . . . . . . 26966 . . . . .457
RSBF . . . . . . . . . . . . . . . . 25576 . . . . .461
RSBFF100 . . . . . . . . . . . . 32198 . . . . .460
RSBFF50 . . . . . . . . . . . . . 32197 . . . . .460
RSBFP. . . . . . . . . . . . . . . 26994 . . . . .463
RSBFV. . . . . . . . . . . . . . . 26993 . . . . .462
RSBLV . . . . . . . . . . . . . . . 25547 . . . . .458
RSBLVAG. . . . . . . . . . . . . 25812 . . . . .458
RSBR . . . . . . . . . . . . . . . 25604 . . . . .457
RSBRF. . . . . . . . . . . . . . . 26223 . . . . .461
RSBRSR . . . . . . . . . . . . . 26965 . . . . .457
RSC-100 . . . . . . . . . . . . . 19290 . . . . .587
RUC-AG. . . . . . . . . . . . . . 26091 . . . . .471
RUC-C . . . . . . . . . . . . . . . 26181 . . . . .471
RUC-DSR . . . . . . . . . . . . 26531 . . . . .471
RUC-F . . . . . . . . . . . . . . . 26396 . . . . .471
RUC-FP . . . . . . . . . . . . . . 31576 . . . . .471
RUC-L . . . . . . . . . . . . . . . 25892 . . . . .471
RWB4 . . . . . . . . . . . . . . . 25546 . . . . .464
S
S126E . . . . . . . . . . . . . . 35409 . . . . .176
S126EQP . . . . . . . . . . . . . 42493 . . . . .176
S12SN6R . . . . . . . . . . . . 35410 . . . . .176
S12SN6RQP . . . . . . . . . . 42495 . . . . .176
S12SP6R . . . . . . . . . . . . 35411 . . . . .176
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
MODEL
P/N
PAGE
S12SP6RQP . . . . . . . . . . 42497 . . . . .176
S183E . . . . . . . . . . . . . . . 29823 . . . . .178
S183E W/30 . . . . . . . . . . 30828 . . . . .178
S183EQ1 . . . . . . . . . . . . . 33687 . . . . .178
S186E . . . . . . . . . . . . . . . 29409 . . . . .178
S186E W/30 . . . . . . . . . . 30679 . . . . .178
S186ELD . . . . . . . . . . . . . 31407 . . . . .182
S186ELD W/30 . . . . . . . . 35006 . . . . .182
S186ELDQ . . . . . . . . . . . . 36393 . . . . .182
S186EQ . . . . . . . . . . . . . . 29507 . . . . .178
S18AW3D . . . . . . . . . . . . 29821 . . . . .181
S18AW3D W/30. . . . . . . . 30822 . . . . .181
S18AW3DL . . . . . . . . . . . 31302 . . . . .181
S18AW3DL W/30 . . . . . . . 35928 . . . . .181
S18AW3DLQ1 . . . . . . . . . 35147 . . . . .181
S18AW3DQ1 . . . . . . . . . . 35146 . . . . .181
S18AW3FF100 . . . . . . . . . 30328 . . . . .180
S18AW3FF100 W/30 . . . . 32719 . . . . .180
S18AW3FF100Q1 . . . . . . . 33691 . . . . .180
S18AW3FF25 . . . . . . . . . . 58416 . . . . .180
S18AW3FF25 W/30 . . . . . 58420 . . . . .180
S18AW3FF25Q1. . . . . . . . 58063 . . . . .180
S18AW3FF50 . . . . . . . . . . 30327 . . . . .180
S18AW3FF50 W/30 . . . . . 33859 . . . . .180
S18AW3FF50Q1. . . . . . . . 33690 . . . . .180
S18AW3L . . . . . . . . . . . . 29819 . . . . .179
S18AW3L W/30 . . . . . . . . 30820 . . . . .179
S18AW3LP . . . . . . . . . . . 32727 . . . . .179
S18AW3LP W/30 . . . . . . . 33948 . . . . .179
S18AW3LPQ1 . . . . . . . . . 33451 . . . . .179
S18AW3LQ1 . . . . . . . . . . 35148 . . . . .179
S18AW3R . . . . . . . . . . . . 29824 . . . . .178
S18AW3R W/30. . . . . . . . 30824 . . . . .178
S18AW3RQ1 . . . . . . . . . . 33688 . . . . .178
S18RW3D . . . . . . . . . . . . 29822 . . . . .181
S18RW3D W/30 . . . . . . . 30823 . . . . .181
S18RW3DL . . . . . . . . . . . 34525 . . . . .181
S18RW3DL W/30. . . . . . . 35929 . . . . .181
S18RW3DLQ1 . . . . . . . . . 35150 . . . . .181
S18RW3DQ1 . . . . . . . . . . 35149 . . . . .181
S18RW3FF100. . . . . . . . . 30330 . . . . .180
S18RW3FF100 W/30 . . . . 32066 . . . . .180
S18RW3FF100Q1. . . . . . . 33693 . . . . .180
S18RW3FF25. . . . . . . . . . 58417 . . . . .180
S18RW3FF25 W/30 . . . . . 58421 . . . . .180
S18RW3FF25Q1 . . . . . . . 58422 . . . . .180
S18RW3FF50. . . . . . . . . . 30329 . . . . .180
S18RW3FF50 W/30 . . . . . 35859 . . . . .180
S18RW3FF50Q1 . . . . . . . 33692 . . . . .180
S18RW3L . . . . . . . . . . . . 29820 . . . . .179
S18RW3L W/30 . . . . . . . . 30821 . . . . .179
S18RW3LP . . . . . . . . . . . 33448 . . . . .179
S18RW3LP W/30. . . . . . . 33965 . . . . .179
S18RW3LPQ1 . . . . . . . . . 33452 . . . . .179
S18RW3LQ1 . . . . . . . . . . 35151 . . . . .179
S18RW3R . . . . . . . . . . . . 29825 . . . . .178
S18RW3R W/30 . . . . . . . 30827 . . . . .178
S18RW3RQ1 . . . . . . . . . . 33689 . . . . .178
S18S2P6FF100Q . . . . . . . 45156 . . . . .224
S18S2P6FF25Q . . . . . . . . 58427 . . . . .224
S18S2P6FF50Q . . . . . . . . 45155 . . . . .224
S18S2P6LPQ . . . . . . . . . . 45154 . . . . 223
S18S2P6RQ. . . . . . . . . . . 45153 . . . . .222
S18SN6D. . . . . . . . . . . . . 29407 . . . . .181
S18SN6D W/30 . . . . . . . . 30811 . . . . .181
S18SN6DL. . . . . . . . . . . . 31173 . . . . .181
S18SN6DL W/30 . . . . . . . 35869 . . . . .181
S18SN6DLQ . . . . . . . . . . 31174 . . . . .181
S18SN6DQ . . . . . . . . . . . 29505 . . . . .181
S18SN6FF100 . . . . . . . . . 29086 . . . . .180
S18SN6FF100 W/30. . . . . 33857 . . . . .180
S18SN6FF100Q . . . . . . . . 30866 . . . . .180
S18SN6FF25 . . . . . . . . . . 56607 . . . . .180
S18SN6FF25 W/30. . . . . . 58418 . . . . .180
S18SN6FF25Q . . . . . . . . . 37298 . . . . .180
S18SN6FF50 . . . . . . . . . . 28940 . . . . .180
S18SN6FF50 W/30. . . . . . 31614 . . . . .180
S18SN6FF50Q . . . . . . . . . 30867 . . . . .180
S18SN6L . . . . . . . . . . . . . 28556 . . . . .179
S18SN6L W/30 . . . . . . . . 30809 . . . . .179
S18SN6LP . . . . . . . . . . . . 32725 . . . . .179
S18SN6LP W/30 . . . . . . . 33946 . . . . .179
801
Photoelectric Sensor Product Index by Model Number
MODEL
P/N
PAGE
S18SN6LPQ. . . . . . . . . . . 33449 . . . . .179
S18SN6LQ. . . . . . . . . . . . 29511 . . . . .179
S18SN6R. . . . . . . . . . . . . 29408 . . . . .178
S18SN6R W/30 . . . . . . . . 30680 . . . . .178
S18SN6RQ . . . . . . . . . . . 29506 . . . . .178
S18SP6D. . . . . . . . . . . . . 29410 . . . . .181
S18SP6D W/30 . . . . . . . . 30813 . . . . .181
S18SP6DL . . . . . . . . . . . . 31175 . . . . .181
S18SP6DL W/30 . . . . . . . 32296 . . . . .181
S18SP6DLQ. . . . . . . . . . . 31176 . . . . .181
S18SP6DQ. . . . . . . . . . . . 29508 . . . . .181
S18SP6FF100 . . . . . . . . . 30326 . . . . .180
S18SP6FF100 W/30 . . . . . 32956 . . . . .180
S18SP6FF100Q . . . . . . . . 30884 . . . . .180
S18SP6FF25 . . . . . . . . . . 58415 . . . . .180
S18SP6FF25 W/30 . . . . . . 58419 . . . . .180
S18SP6FF25Q . . . . . . . . . 50561 . . . . .180
S18SP6FF50 . . . . . . . . . . 30325 . . . . .180
S18SP6FF50 W/30 . . . . . . 33858 . . . . .180
S18SP6FF50Q . . . . . . . . . 30883 . . . . .180
S18SP6L . . . . . . . . . . . . . 29411 . . . . .179
S18SP6L W/30 . . . . . . . . 30810 . . . . .179
S18SP6LP . . . . . . . . . . . . 32726 . . . . .179
S18SP6LP W/30 . . . . . . . 33947 . . . . .179
S18SP6LPQ. . . . . . . . . . . 33450 . . . . .179
S18SP6LQ . . . . . . . . . . . . 29509 . . . . .179
S18SP6R. . . . . . . . . . . . . 29412 . . . . .178
S18SP6R W/30 . . . . . . . . 30797 . . . . .178
S18SP6RQ. . . . . . . . . . . . 29510 . . . . .178
S303E . . . . . . . . . . . . . . . 32342 . . . . .190
S303E W/30 . . . . . . . . . . 33897 . . . . .190
S303EQ1 . . . . . . . . . . . . . 33379 . . . . .190
S306E . . . . . . . . . . . . . . . 32341 . . . . .190
S306E W/30 . . . . . . . . . . 33896 . . . . .190
S306EQ . . . . . . . . . . . . . . 33376 . . . . .222
S30AW3FF200 . . . . . . . . . 32331 . . . . .192
S30AW3FF200 W/30 . . . . 33886 . . . . .192
S30AW3FF200Q1 . . . . . . . 33364 . . . . .192
S30AW3FF400 . . . . . . . . . 32334 . . . . .192
S30AW3FF400 W/30 . . . . 33889 . . . . .192
S30AW3FF400Q1 . . . . . . . 33365 . . . . .192
S30AW3FF600 . . . . . . . . . 32337 . . . . .192
S30AW3FF600 W/30 . . . . 33892 . . . . .192
S30AW3FF600Q1 . . . . . . . 34344 . . . . .192
S30AW3LP . . . . . . . . . . . 32328 . . . . .191
S30AW3LP W/30 . . . . . . . 33883 . . . . .191
S30AW3LPQ1 . . . . . . . . . 33374 . . . . .191
S30AW3R . . . . . . . . . . . . 32340 . . . . .190
S30AW3R W/30. . . . . . . . 33895 . . . . .190
S30AW3RQ1 . . . . . . . . . . 33380 . . . . .190
S30RW3FF200. . . . . . . . . 33360 . . . . .192
S30RW3FF200 W/30 . . . . 33949 . . . . .192
S30RW3FF200Q1. . . . . . . 33366 . . . . .192
S30RW3FF400. . . . . . . . . 33361 . . . . .192
S30RW3FF400 W/30 . . . . 33950 . . . . .192
S30RW3FF400Q1. . . . . . . 33367 . . . . .192
S30RW3FF600. . . . . . . . . 34566 . . . . .192
S30RW3FF600 W/30 . . . . 34567 . . . . .192
S30RW3FF600Q1. . . . . . . 34568 . . . . .192
S30RW3LP . . . . . . . . . . . 33362 . . . . .191
S30RW3LP W/30. . . . . . . 33951 . . . . .191
S30RW3LPQ1 . . . . . . . . . 33375 . . . . .191
S30RW3R . . . . . . . . . . . . 33363 . . . . .190
S30RW3R W/30 . . . . . . . 33952 . . . . .190
S30RW3RQ1 . . . . . . . . . . 33381 . . . . .190
S30S2P6FF200Q . . . . . . . 45167 . . . . .192
S30S2P6FF400Q . . . . . . . 45168 . . . . .192
S30S2P6LPQ . . . . . . . . . . 45166 . . . . .223
S30S2P6RQ. . . . . . . . . . . 45165 . . . . .222
S30SN6FF200 . . . . . . . . . 32329 . . . . .192
S30SN6FF200 W/30. . . . . 33884 . . . . .192
S30SN6FF200Q . . . . . . . . 33368 . . . . .192
S30SN6FF400 . . . . . . . . . 32332 . . . . .192
S30SN6FF400 W/30. . . . . 33887 . . . . .192
S30SN6FF400Q . . . . . . . . 33369 . . . . .192
S30SN6FF600 . . . . . . . . . 32335 . . . . .192
S30SN6FF600 W/30. . . . . 33890 . . . . .192
S30SN6FF600Q . . . . . . . . 34345 . . . . .192
S30SN6LP . . . . . . . . . . . . 32326 . . . . .191
S30SN6LP W/30 . . . . . . . 33881 . . . . .191
S30SN6LPQ. . . . . . . . . . . 33372 . . . . .191
S30SN6R. . . . . . . . . . . . . 32338 . . . . .190
802
MODEL
P/N
PAGE
S30SN6R W/30 . . . . . . . . 33893 . . . . .190
S30SN6RQ . . . . . . . . . . . 33377 . . . . .190
S30SP6FF200 . . . . . . . . . 32330 . . . . .192
S30SP6FF200 W/30 . . . . . 33885 . . . . .192
S30SP6FF200Q . . . . . . . . 33370 . . . . .192
S30SP6FF400 . . . . . . . . . 32333 . . . . .192
S30SP6FF400 W/30 . . . . . 33888 . . . . .192
S30SP6FF400Q . . . . . . . . 33371 . . . . .192
S30SP6FF600 . . . . . . . . . 32336 . . . . .192
S30SP6FF600 W/30 . . . . 33891 . . . . .192
S30SP6FF600Q . . . . . . . . 34346 . . . . .192
S30SP6LP . . . . . . . . . . . . 32327 . . . . .191
S30SP6LP W/30 . . . . . . . 33882 . . . . .191
S30SP6LPQ. . . . . . . . . . . 33373 . . . . .191
S30SP6R. . . . . . . . . . . . . 32339 . . . . .190
S30SP6R W/30 . . . . . . . . 33894 . . . . .190
S30SP6RQ. . . . . . . . . . . . 33378 . . . . .190
SBAR1. . . . . . . . . . . . . . . 17670 . . . . .508
SBAR1GH . . . . . . . . . . . . 16890 . . . . .508
SBAR1GHF . . . . . . . . . . . 16891 . . . . .509
SBC1 . . . . . . . . . . . . . . . . 17623 . . . . .483
SBC1-4 . . . . . . . . . . . . . . 18548 . . . . .483
SBC1-6 . . . . . . . . . . . . . . 18549 . . . . .483
SBCV1. . . . . . . . . . . . . . . 17624 . . . . .482
SBCVG1. . . . . . . . . . . . . . 18833 . . . . .482
SBCX1. . . . . . . . . . . . . . . 18616 . . . . .484
SBCX1-4 . . . . . . . . . . . . . 18530 . . . . .484
SBCX1-6 . . . . . . . . . . . . . 17169 . . . . .484
SBD1. . . . . . . . . . . . . . . . 17625 . . . . .481
SBDL1. . . . . . . . . . . . . . . 17626 . . . . .481
SBDX1. . . . . . . . . . . . . . . 16648 . . . . .481
SBDX1MD . . . . . . . . . . . . 25267 . . . . .481
SBE . . . . . . . . . . . . . . . . . 16441 . . . . .500
SBED. . . . . . . . . . . . . . . . 16442 . . . . .478
SBEF . . . . . . . . . . . . . . . . 16443 . . . . .485
SBEM3 . . . . . . . . . . . . . . 17750 . . . . .511
SBEV . . . . . . . . . . . . . . . . 18672 . . . . .477
SBEX . . . . . . . . . . . . . . . . 16445 . . . . .478
SBEXD. . . . . . . . . . . . . . . 19810 . . . . .478
SBEXF . . . . . . . . . . . . . . . 16446 . . . . .485
SBF1 . . . . . . . . . . . . . . . . 17627 . . . . .487
SBF1MHS . . . . . . . . . . . . 18811 . . . . .487
SBFV1 . . . . . . . . . . . . . . . 19692 . . . . .488
SBFVG1 . . . . . . . . . . . . . . 25038 . . . . .488
SBFX1 . . . . . . . . . . . . . . . 16652 . . . . .486
SBL1 . . . . . . . . . . . . . . . . 17562 . . . . .479
SBLV1 . . . . . . . . . . . . . . . 17632 . . . . .479
SBLVAG1 . . . . . . . . . . . . . 19061 . . . . .480
SBLX1 . . . . . . . . . . . . . . . 16647 . . . . .479
SBR1. . . . . . . . . . . . . . . . 17628 . . . . .478
SBRD1 . . . . . . . . . . . . . . 17629 . . . . .478
SBRF1 . . . . . . . . . . . . . . . 17630 . . . . .485
SBRX1. . . . . . . . . . . . . . . 16654 . . . . .478
SBRXD1 . . . . . . . . . . . . . 25006 . . . . .478
SBRXF1 . . . . . . . . . . . . . . 16457 . . . . .485
SE611E . . . . . . . . . . . . . . 35833 . . . . .160
SE611E W/30 . . . . . . . . . 41090 . . . . .160
SE612C . . . . . . . . . . . . . 26107 . . . . .162
SE612C W/30 . . . . . . . . . 26118 . . . . .162
SE612CMHS . . . . . . . . . . 26119 . . . . .162
SE612CMHS W/30. . . . . . 35926 . . . . .162
SE612CNC . . . . . . . . . . . 26121 . . . . .162
SE612CNC W/30 . . . . . . . 27857 . . . . .162
SE612CNCMHS . . . . . . . . 35903 . . . . .162
SE612CNCMHS W/30 . . . 35887 . . . . .162
SE612CV . . . . . . . . . . . . . 26533 . . . . .162
SE612CV W/30 . . . . . . . . 26870 . . . . .162
SE612CVMHS . . . . . . . . . 35904 . . . . .162
SE612CVMHS W/30. . . . . 35888 . . . . .162
SE612CVNC. . . . . . . . . . . 27664 . . . . .162
SE612CVNC W/30 . . . . . . 26871 . . . . .162
SE612CVNCMHS . . . . . . . 35905 . . . . .162
SE612CVNCMHS W/30 . . 35889 . . . . .162
SE612D . . . . . . . . . . . . . . 26063 . . . . .161
SE612D W/30 . . . . . . . . . 26122 . . . . .161
SE612DMHS . . . . . . . . . . 26548 . . . . .161
SE612DMHS W/30. . . . . . 35921 . . . . .161
SE612DNC. . . . . . . . . . . . 26125 . . . . .161
SE612DNC W/30 . . . . . . . 35922 . . . . .161
SE612DNCMHS . . . . . . . . 35946 . . . . .161
SE612DNCMHS W/30 . . . 35927 . . . . .161
SE612F . . . . . . . . . . . . . . 26534 . . . . .162
MODEL
P/N
PAGE
SE612F W/30. . . . . . . . . . 26124 . . . . .162
SE612FMHS . . . . . . . . . . 30344 . . . . .162
SE612FMHS W/30 . . . . . . 35925 . . . . .162
SE612FNC . . . . . . . . . . . . 27349 . . . . .162
SE612FNC W/30 . . . . . . . 35857 . . . . .162
SE612FNCMHS . . . . . . . . 35906 . . . . .162
SE612FNCMHS W/30. . . . 35853 . . . . .162
SE612FP . . . . . . . . . . . . . 26535 . . . . .163
SE612FP W/30. . . . . . . . . 31291 . . . . .163
SE612FPMHS . . . . . . . . . 32955 . . . . .163
SE612FPMHS W/30 . . . . . 35855 . . . . .163
SE612FPNC . . . . . . . . . . . 28931 . . . . .163
SE612FPNC W/30 . . . . . . 35856 . . . . .163
SE612FPNCMHS . . . . . . . 27301 . . . . .163
SE612FPNCMHS W/30. . . 35858 . . . . .163
SE612LV . . . . . . . . . . . . . 26532 . . . . .161
SE612LV W/30. . . . . . . . . 26984 . . . . .161
SE612LVMHS . . . . . . . . . 27514 . . . . .161
SE612LVMHS W/30 . . . . . 35919 . . . . .161
SE612LVNC . . . . . . . . . . . 26568 . . . . .161
SE612LVNC W/30 . . . . . . 32960 . . . . .161
SE612LVNCMHS . . . . . . . 27675 . . . . .161
SE612LVNCMHS W/30. . . 35920 . . . . .161
SE612W . . . . . . . . . . . . . 26126 . . . . .161
SE612W W/30 . . . . . . . . . 27656 . . . . .161
SE612WMHS . . . . . . . . . . 26410 . . . . .161
SE612WMHS W/30 . . . . . 35923 . . . . .161
SE612WNC . . . . . . . . . . . 35901 . . . . .161
SE612WNC W/30. . . . . . . 35885 . . . . .161
SE612WNCMHS . . . . . . . 35902 . . . . .161
SE612WNCMHS W/30 . . . 35886 . . . . .161
SE61AW1D . . . . . . . . . . . 37388 . . . . .161
SE61AW1D W/30 . . . . . . . 41093 . . . . .161
SE61AW1LV. . . . . . . . . . . 37389 . . . . .161
SE61AW1LV W/30 . . . . . . 41095 . . . . .161
SE61AW1R . . . . . . . . . . . 35832 . . . . .160
SE61AW1R W/30 . . . . . . . 41091 . . . . .160
SE61E . . . . . . . . . . . . . . . 26073 . . . . .160
SE61E W/30 . . . . . . . . . . 26127 . . . . .160
SE61EMHS . . . . . . . . . . . 25971 . . . . .160
SE61EMHS W/30 . . . . . . . 26354 . . . . .160
SE61R . . . . . . . . . . . . . . . 26128 . . . . .160
SE61R W/30 . . . . . . . . . . 26129 . . . . .160
SE61RMHS . . . . . . . . . . . 25972 . . . . .160
SE61RMHS W/30. . . . . . . 26353 . . . . .160
SE61RNC. . . . . . . . . . . . . 26130 . . . . .160
SE61RNC W/30 . . . . . . . . 26102 . . . . .160
SE61RNCMHS . . . . . . . . . 27060 . . . . .160
SE61RNCMHS W/30 . . . . 29224 . . . . .160
SE61RW1D . . . . . . . . . . . 38407 . . . . .161
SE61RW1D W/30. . . . . . . 41094 . . . . .161
SE61RW1LV . . . . . . . . . . 38408 . . . . .161
SE61RW1LV W/30 . . . . . . 41096 . . . . .161
SE61RW1R . . . . . . . . . . . 38406 . . . . .161
SE61RW1R W/30. . . . . . . 41092 . . . . .161
SL10VB6V . . . . . . . . . . . . 58323 . . . . .318
SL10VB6VQ. . . . . . . . . . . 58324 . . . . .318
SL10VB6VY . . . . . . . . . . . 60367 . . . . .318
SL10VB6VYQ. . . . . . . . . . 60368 . . . . .318
SL30VB6V . . . . . . . . . . . . 56565 . . . . .314
SL30VB6V W/30 . . . . . . . 56569 . . . . .314
SL30VB6VQ. . . . . . . . . . . 56567 . . . . .314
SL30VB6VY . . . . . . . . . . . 56566 . . . . .314
SL30VB6VY W/30 . . . . . . 56570 . . . . .314
SL30VB6VYQ. . . . . . . . . . 56568 . . . . .314
SLC1BB6 . . . . . . . . . . . . . 56177 . . . . .322
SLC1BB6Q. . . . . . . . . . . . 56178 . . . . .322
SLE10B6V . . . . . . . . . . . . 60380 . . . . .319
SLE10B6VQ . . . . . . . . . . . 60381 . . . . .319
SLE10B6VY . . . . . . . . . . . 60382 . . . . .319
SLE10B6VYQ . . . . . . . . . . 60383 . . . . .319
SLE30B6V . . . . . . . . . . . . 55474 . . . . .315
SLE30B6V W/30 . . . . . . . 56563 . . . . .315
SLE30B6VQ . . . . . . . . . . . 55476 . . . . .315
SLE30B6VY . . . . . . . . . . . 55475 . . . . .315
SLE30B6VY W/30 . . . . . . 56564 . . . . .315
SLE30B6VYQ . . . . . . . . . . 55477 . . . . .315
SLO30VB6 . . . . . . . . . . . . 59768 . . . . .315
SLO30VB6Q. . . . . . . . . . . 59769 . . . . .315
SLO30VB6Y. . . . . . . . . . . 59771 . . . . .315
SLO30VB6YQ . . . . . . . . . 59772 . . . . .315
SM2A30PRL . . . . . . . . . . 27297 . . . . .284
MODEL
P/N
PAGE
SM2A30PRL W/30. . . . . . 27787 . . . . .284
SM2A30PRLB . . . . . . . . . 27384 . . . . .285
SM2A30PRLB W/30. . . . . 30240 . . . . .285
SM2A30PRLC . . . . . . . . . 33190 . . . . .285
SM2A30PRLC W/30. . . . . 35940 . . . . .285
SM2A30PRLNC . . . . . . . . 27299 . . . . .284
SM2A30PRLNC W/30 . . . 27797 . . . . .284
SM2A30PRLNCB . . . . . . . 27386 . . . . .285
SM2A30PRLNCB W/30 . . 35942 . . . . .285
SM2A30PRLNCC . . . . . . . 36122 . . . . .285
SM2A30PRLNCC W/30 . . 35943 . . . . .285
SM2A30PRLNCQD. . . . . . 27300 . . . . .284
SM2A30PRLNCQDB. . . . . 27387 . . . . .285
SM2A30PRLNCQDC. . . . . 32092 . . . . .285
SM2A30PRLQD . . . . . . . . 27298 . . . . .284
SM2A30PRLQDB . . . . . . 27385 . . . . .285
SM2A30PRLQDC . . . . . . . 35911 . . . . .285
SM2A30SRL . . . . . . . . . . 27293 . . . . .284
SM2A30SRL W/30. . . . . . 27410 . . . . .284
SM2A30SRLB . . . . . . . . . 27380 . . . . .285
SM2A30SRLB W/30. . . . . 32837 . . . . .285
SM2A30SRLC . . . . . . . . . 28463 . . . . .285
SM2A30SRLC W/30. . . . . 35941 . . . . .285
SM2A30SRLNC . . . . . . . . 27295 . . . . .284
SM2A30SRLNC W/30 . . . 27413 . . . . .284
SM2A30SRLNCB . . . . . . . 27382 . . . . .285
SM2A30SRLNCB W/30 . . 32987 . . . . .285
SM2A30SRLNCC . . . . . . . 32127 . . . . .285
SM2A30SRLNCC W/30 . . 35944 . . . . .285
SM2A30SRLNCQD. . . . . . 27296 . . . . .284
SM2A30SRLNCQDB. . . . . 27383 . . . . .285
SM2A30SRLNCQDC. . . . . 35913 . . . . .285
SM2A30SRLQD . . . . . . . . 27294 . . . . .284
SM2A30SRLQDB . . . . . . . 27381 . . . . .285
SM2A30SRLQDC . . . . . . . 34367 . . . . .285
SM2A312C . . . . . . . . . . . 30645 . . . . .129
SM2A312C W/30 . . . . . . . 35968 . . . . .129
SM2A312C2 . . . . . . . . . . 34065 . . . . .129
SM2A312C2 W/30 . . . . . . 35975 . . . . .129
SM2A312C2QD . . . . . . . . 27628 . . . . .129
SM2A312C2QDP . . . . . . . 35976 . . . . .129
SM2A312CQD . . . . . . . . . 33730 . . . . .129
SM2A312CQDP . . . . . . . . 35724 . . . . .129
SM2A312CV . . . . . . . . . . 25992 . . . . .129
SM2A312CV W/30 . . . . . . 26292 . . . . .129
SM2A312CV2 . . . . . . . . . 26185 . . . . .129
SM2A312CV2 W/30 . . . . . 27034 . . . . .129
SM2A312CV2QD . . . . . . . 26911 . . . . .129
SM2A312CV2QDP . . . . . . 29561 . . . . .129
SM2A312CVG . . . . . . . . . 27057 . . . . .130
SM2A312CVG W/30. . . . . 35891 . . . . .130
SM2A312CVGQD . . . . . . . 27332 . . . . .130
SM2A312CVGQDP . . . . . . 29567 . . . . .130
SM2A312CVQD . . . . . . . . 26840 . . . . .130
SM2A312CVQDP . . . . . . . 29560 . . . . .130
SM2A312D . . . . . . . . . . . 25965 . . . . .127
SM2A312D W/30 . . . . . . . 26319 . . . . .127
SM2A312DBZ . . . . . . . . . 26473 . . . . .127
SM2A312DBZ W/30 . . . . . 35662 . . . . .127
SM2A312DBZQD . . . . . . . 27429 . . . . .127
SM2A312DBZQDP . . . . . . 29568 . . . . .127
SM2A312DQD . . . . . . . . . 26841 . . . . .127
SM2A312DQDP . . . . . . . . 29558 . . . . .127
SM2A312F. . . . . . . . . . . . 25966 . . . . .131
SM2A312F W/30 . . . . . . . 26358 . . . . .131
SM2A312FP. . . . . . . . . . . 26057 . . . . .133
SM2A312FP W/30 . . . . . . 27074 . . . . .133
SM2A312FPQD . . . . . . . . 26844 . . . . .133
SM2A312FPQDP . . . . . . . 29563 . . . . .133
SM2A312FQD . . . . . . . . . 26843 . . . . .131
SM2A312FQDP . . . . . . . . 29562 . . . . .131
SM2A312FV. . . . . . . . . . . 26863 . . . . .131
SM2A312FV W/30 . . . . . . 35917 . . . . .131
SM2A312FVQD . . . . . . . . 35549 . . . . .131
SM2A312FVQDP . . . . . . . 29566 . . . . .131
SM2A312LP . . . . . . . . . . 49773 . . . . .128
SM2A312LP W/30 . . . . . . 49774 . . . . .128
SM2A312LPQD . . . . . . . . 49775 . . . . .128
SM2A312LPQDP . . . . . . . 49776 . . . . .128
SM2A312LV. . . . . . . . . . . 25964 . . . . .128
SM2A312LV W/30 . . . . . . 26376 . . . . .128
SM2A312LVAG . . . . . . . . 26055 . . . . .128
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
Photoelectric Sensor Product Index by Model Number
MODEL
P/N
PAGE
SM2A312LVAG W/30 . . . . 26291 . . . . .128
SM2A312LVAGQD . . . . . . 26865 . . . . .128
SM2A312LVAGQDP . . . . . 29557 . . . . .128
SM2A312LVQD . . . . . . . . 26845 . . . . .128
SM2A312LVQDP . . . . . . . 29556 . . . . .128
SM2A312W . . . . . . . . . . . 26265 . . . . .127
SM2A312W W/30 . . . . . . 26887 . . . . .127
SM2A312WQD. . . . . . . . . 26893 . . . . .127
SM2A312WQDP . . . . . . . 29559 . . . . .127
SM2A31R . . . . . . . . . . . . 26060 . . . . .126
SM2A31R W/30 . . . . . . . . 26857 . . . . .126
SM2A31RL . . . . . . . . . . . 26061 . . . . .126
SM2A31RL W/30 . . . . . . . 26562 . . . . .126
SM2A31RLQD . . . . . . . . . 26991 . . . . .127
SM2A31RLQDP . . . . . . . . 29555 . . . . .127
SM2A31RPD . . . . . . . . . . 26566 . . . . .127
SM2A31RPD W/30 . . . . . 27194 . . . . .127
SM2A31RPDQD . . . . . . . . 26968 . . . . .127
SM2A31RPDQDP. . . . . . . 29565 . . . . .127
SM2A31RQD . . . . . . . . . . 26846 . . . . .126
SM2A31RQDP . . . . . . . . . 29553 . . . . .126
SM2A912C . . . . . . . . . . . 26641 . . . . .330
SM2A912C W/30 . . . . . . . 35632 . . . . .330
SM2A912CQD . . . . . . . . . 26646 . . . . .330
SM2A912CV . . . . . . . . . . 26642 . . . . .330
SM2A912CV W/30 . . . . . . 27075 . . . . .330
SM2A912CVQD . . . . . . . . 26647 . . . . .330
SM2A912D . . . . . . . . . . . 26569 . . . . .330
SM2A912D W/30 . . . . . . . 30668 . . . . .330
SM2A912DQD . . . . . . . . . 26570 . . . . .330
SM2A912DSR . . . . . . . . . 26571 . . . . .330
SM2A912DSR W/30. . . . . 27026 . . . . .330
SM2A912DSRQD . . . . . . . 26572 . . . . .330
SM2A912F. . . . . . . . . . . . 26573 . . . . .331
SM2A912F W/30 . . . . . . . 27076 . . . . .331
SM2A912FQD . . . . . . . . . 26574 . . . . .331
SM2A912LV. . . . . . . . . . . 26575 . . . . .329
SM2A912LV W/30 . . . . . . 27062 . . . . .329
SM2A912LVAG . . . . . . . . 26643 . . . . .329
SM2A912LVAG W/30 . . . . 27679 . . . . .329
SM2A912LVAGQD . . . . . . 26653 . . . . .329
SM2A912LVQD . . . . . . . . 26577 . . . . .329
SM2A91R . . . . . . . . . . . . 26579 . . . . .328
SM2A91R W/30 . . . . . . . . 27625 . . . . .328
SM2A91RF . . . . . . . . . . . 26644 . . . . .331
SM2A91RF W/30 . . . . . . . 35635 . . . . .331
SM2A91RFQD . . . . . . . . . 26649 . . . . .331
SM2A91RQD . . . . . . . . . . 26648 . . . . .328
SM2A91RSR . . . . . . . . . . 26645 . . . . .328
SM2A91RSR W/30 . . . . . 28207 . . . . .328
SM2A91RSRQD . . . . . . . . 26650 . . . . .328
SM303E. . . . . . . . . . . . . . 34131 . . . . .210
SM303E W/30 . . . . . . . . . 34167 . . . . .210
SM303EQ1 . . . . . . . . . . . 34161 . . . . .210
SM306E. . . . . . . . . . . . . . 33315 . . . . .210
SM306E W/30 . . . . . . . . . 34164 . . . . .210
SM306EQ . . . . . . . . . . . . 34158 . . . . .210
SM30AW3R . . . . . . . . . . . 34132 . . . . .210
SM30AW3R W/30 . . . . . . 34168 . . . . .210
SM30AW3RQ1. . . . . . . . . 34162 . . . . .210
SM30CC-306 . . . . . . . . . . 45133 . . . . .295
SM30CC-312 . . . . . . . . . . 27388 . . . . .295
SM30PRL . . . . . . . . . . . . 27291 . . . . .284
SM30PRL W/30 . . . . . . . . 27729 . . . . .284
SM30PRLB . . . . . . . . . . . 27378 . . . . .285
SM30PRLB W/30. . . . . . . 32150 . . . . .285
SM30PRLC . . . . . . . . . . . 28295 . . . . .285
SM30PRLC W/30. . . . . . . 33175 . . . . .285
SM30PRLQD . . . . . . . . . . 27292 . . . . .284
SM30PRLQDB . . . . . . . . . 27379 . . . . .285
SM30PRLQDC . . . . . . . . . 33220 . . . . .285
SM30RW3R. . . . . . . . . . . 34133 . . . . .210
SM30RW3R W/30 . . . . . . 34169 . . . . .210
SM30RW3RQ1 . . . . . . . . 34163 . . . . .210
SM30SN6R . . . . . . . . . . . 33316 . . . . .210
SM30SN6R W/30. . . . . . . 34165 . . . . .210
SM30SN6RQ . . . . . . . . . . 34159 . . . . .210
SM30SP6R . . . . . . . . . . . 33558 . . . . .210
SM30SP6R W/30. . . . . . . 34166 . . . . .210
SM30SP6RQ . . . . . . . . . . 34160 . . . . .210
SM30SRL . . . . . . . . . . . . 27289 . . . . .284
SM30SRL W/30 . . . . . . . . 27411 . . . . .284
MODEL
P/N
PAGE
SM30SRLB . . . . . . . . . . . 27376 . . . . .285
SM30SRLB W/30. . . . . . . 34753 . . . . .285
SM30SRLC . . . . . . . . . . . 28568 . . . . .285
SM30SRLC W/30. . . . . . . 35939 . . . . .285
SM30SRLQD . . . . . . . . . . 27290 . . . . .284
SM30SRLQDB . . . . . . . . . 27377 . . . . .285
SM30SRLQDC . . . . . . . . . 27563 . . . . .285
SM312C . . . . . . . . . . . . . 28302 . . . . .129
SM312C W/30 . . . . . . . . . 33856 . . . . .129
SM312C2 . . . . . . . . . . . . 27337 . . . . .129
SM312C2 W/30 . . . . . . . . 35970 . . . . .129
SM312C2MHS . . . . . . . . . 29319 . . . . .129
SM312C2MHSQD . . . . . . 35973 . . . . .129
SM312C2MHSQDP . . . . . 35974 . . . . .129
SM312C2QD . . . . . . . . . . 27444 . . . . .129
SM312C2QDP . . . . . . . . . 35971 . . . . .129
SM312CMHS . . . . . . . . . . 35722 . . . . .129
SM312CMHS W/30 . . . . . 35665 . . . . .129
SM312CMHSQD . . . . . . . 32959 . . . . .129
SM312CMHSQDP . . . . . . 35723 . . . . .129
SM312CQD . . . . . . . . . . . 29184 . . . . .129
SM312CQDP . . . . . . . . . . 35721 . . . . .129
SM312CV . . . . . . . . . . . . 25621 . . . . .129
SM312CV W/30 . . . . . . . . 26113 . . . . .129
SM312CV2 . . . . . . . . . . . 26159 . . . . .129
SM312CV2 W/30 . . . . . . . 26273 . . . . .129
SM312CV2B . . . . . . . . . . 50386 . . . . .130
SM312CV2B W/30 . . . . . . 51251 . . . . .130
SM312CV2BMHS. . . . . . . 50387 . . . . .130
SM312CV2BMHS W/30 . . 51252 . . . . .130
SM312CV2BMHSQD . . . . 51254 . . . . .130
SM312CV2BMHSQDP . . . 51256 . . . . .130
SM312CV2BQD . . . . . . . . 51253 . . . . .130
SM312CV2G . . . . . . . . . . 50384 . . . . .130
SM312CV2G W/30. . . . . . 50978 . . . . .130
SM312CV2GMHS. . . . . . . 50385 . . . . .130
SM312CV2GMHS W/30 . . 50982 . . . . .130
SM312CV2GMHSQD . . . . 50990 . . . . .130
SM312CV2GMHSQDP . . . 50998 . . . . .130
SM312CV2GQD . . . . . . . . 50986 . . . . .130
SM312CV2GQDP . . . . . . . 50994 . . . . .130
SM312CV2MHS . . . . . . . . 30398 . . . . .129
SM312CV2MHS W/30 . . . 35914 . . . . .129
SM312CV2MHSQD . . . . . 27606 . . . . .129
SM312CV2MHSQDP . . . . 35895 . . . . .129
SM312CV2QD . . . . . . . . . 26903 . . . . .129
SM312CV2QDP . . . . . . . . 29542 . . . . .129
SM312CVB . . . . . . . . . . . 47271 . . . . .130
SM312CVB W/30 . . . . . . . 49079 . . . . .130
SM312CVBMHS. . . . . . . . 47274 . . . . .130
SM312CVBMHS W/30 . . . 49082 . . . . .130
SM312CVBMHSQD . . . . . 47280 . . . . .130
SM312CVBMHSQDP . . . . 49076 . . . . .130
SM312CVBQD . . . . . . . . . 47277 . . . . .130
SM312CVBQDP . . . . . . . . 49073 . . . . .130
SM312CVG . . . . . . . . . . . 26442 . . . . .130
SM312CVG W/30. . . . . . . 27066 . . . . .130
SM312CVGMHS . . . . . . . 26543 . . . . .130
SM312CVGMHS W/30 . . . 35017 . . . . .130
SM312CVGMHSQD . . . . . 35892 . . . . .130
SM312CVGMHSQDP . . . . 35893 . . . . .130
SM312CVGQD . . . . . . . . . 26912 . . . . .130
SM312CVGQDP . . . . . . . . 29550 . . . . .130
SM312CVMHS. . . . . . . . . 26357 . . . . .129
SM312CVMHS W/30 . . . . 27652 . . . . .129
SM312CVMHSQD . . . . . . 27571 . . . . .129
SM312CVMHSQDP . . . . . 35725 . . . . .129
SM312CVQD . . . . . . . . . . 26832 . . . . .129
SM312CVQDP . . . . . . . . . 29541 . . . . .129
SM312D . . . . . . . . . . . . . 25619 . . . . .127
SM312D W/30 . . . . . . . . . 25801 . . . . .127
SM312DBZ . . . . . . . . . . . 26372 . . . . .127
SM312DBZ W/30 . . . . . . . 30987 . . . . .127
SM312DBZMHS. . . . . . . . 35715 . . . . .127
SM312DBZMHS W/30 . . . 35716 . . . . .127
SM312DBZMHSQD . . . . . 35717 . . . . .127
SM312DBZMHSQDP . . . . 35718 . . . . .127
SM312DBZQD . . . . . . . . . 26914 . . . . .127
SM312DBZQDP . . . . . . . . 29551 . . . . .127
SM312DMHS. . . . . . . . . . 26909 . . . . .127
SM312DMHS W/30 . . . . . 27161 . . . . .127
SM312DMHSQD . . . . . . . 28793 . . . . .127
MODEL
P/N
PAGE
SM312DMHSQDP . . . . . . 35714 . . . . .127
SM312DQD . . . . . . . . . . . 26834 . . . . .127
SM312DQDP . . . . . . . . . . 29539 . . . . .127
SM312F. . . . . . . . . . . . . . 25620 . . . . .131
SM312F W/30 . . . . . . . . . 25802 . . . . .131
SM312FMHS . . . . . . . . . . 26106 . . . . .131
SM312FMHS W/30 . . . . . 35915 . . . . .131
SM312FMHSQD. . . . . . . . 27000 . . . . .131
SM312FMHSQDP. . . . . . . 35897 . . . . .131
SM312FP. . . . . . . . . . . . . 25916 . . . . .133
SM312FP W/30 . . . . . . . . 26632 . . . . .133
SM312FPB. . . . . . . . . . . . 47273 . . . . .132
SM312FPBQD . . . . . . . . . 47279 . . . . .132
SM312FPG . . . . . . . . . . . 50968 . . . . .132
SM312FPG W/30 . . . . . . . 50980 . . . . .132
SM312FPGMHS . . . . . . . . 50382 . . . . .132
SM312FPGMHS W/30 . . . 50984 . . . . .132
SM312FPGMHSQD . . . . . 50992 . . . . .132
SM312FPGMHSQDP . . . . 51000 . . . . .132
SM312FPGQD . . . . . . . . . 50988 . . . . .132
SM312FPGQDP . . . . . . . . 50996 . . . . .132
SM312FPMHS . . . . . . . . . 26071 . . . . .132
SM312FPMHS W/30 . . . . 35918 . . . . .132
SM312FPMHSQD. . . . . . . 27033 . . . . .132
SM312FPMHSQDP . . . . . 35900 . . . . .132
SM312FPQD . . . . . . . . . . 26837 . . . . .133
SM312FPQDP . . . . . . . . . 29544 . . . . .133
SM312FQD . . . . . . . . . . . 26836 . . . . .131
SM312FQDP . . . . . . . . . . 29543 . . . . .131
SM312FV. . . . . . . . . . . . . 25649 . . . . .131
SM312FV W/30 . . . . . . . . 27362 . . . . .131
SM312FVB. . . . . . . . . . . . 47272 . . . . .132
SM312FVB W/30 . . . . . . . 49080 . . . . .132
SM312FVBMHS . . . . . . . . 47275 . . . . .132
SM312FVBMHS W/30 . . . 49083 . . . . .132
SM312FVBMHSQD . . . . . 47281 . . . . .132
SM312FVBMHSQDP . . . . 49077 . . . . .132
SM312FVBQD . . . . . . . . . 47278 . . . . .132
SM312FVG . . . . . . . . . . . 50969 . . . . .132
SM312FVG W/30 . . . . . . . 50979 . . . . .132
SM312FVGMHS . . . . . . . . 50383 . . . . .132
SM312FVGMHS W/30 . . . 50983 . . . . .132
SM312FVGMHSDQP . . . . 50999 . . . . .132
SM312FVGMHSQD . . . . . 50991 . . . . .132
SM312FVGQD . . . . . . . . . 50987 . . . . .132
SM312FVGQDP . . . . . . . . 50995 . . . . .132
SM312FVMHS . . . . . . . . . 26586 . . . . .131
SM312FVMHS W/30 . . . . 35916 . . . . .131
SM312FVMHSQD. . . . . . . 27143 . . . . .131
SM312FVMHSQDP . . . . . 35898 . . . . .131
SM312FVQD . . . . . . . . . . 26990 . . . . .131
SM312FVQDP . . . . . . . . . 29549 . . . . .131
SM312LP . . . . . . . . . . . . 49769 . . . . .128
SM312LPQD . . . . . . . . . . 49771 . . . . .128
SM312LV. . . . . . . . . . . . . 25618 . . . . .128
SM312LV W/30 . . . . . . . . 25876 . . . . .128
SM312LVAG . . . . . . . . . . 25776 . . . . .128
SM312LVAG W/30 . . . . . . 26320 . . . . .128
SM312LVAGMHS . . . . . . . 28905 . . . . .128
SM312LVAGMHS W/30 . . 35661 . . . . .128
SM312LVAGMHSQD . . . . 34921 . . . . .128
SM312LVAGMHSQDP . . . 35713 . . . . .128
SM312LVAGQD . . . . . . . . 26913 . . . . .128
SM312LVAGQDP . . . . . . . 29538 . . . . .128
SM312LVMHS . . . . . . . . . 26200 . . . . .128
SM312LVMHS W/30 . . . . 27222 . . . . .128
SM312LVMHSQD. . . . . . . 28279 . . . . .128
SM312LVMHSQDP. . . . . . 30134 . . . . .128
SM312LVQD . . . . . . . . . . 26838 . . . . .128
SM312LVQDP . . . . . . . . . 28155 . . . . .128
SM312W . . . . . . . . . . . . . 26264 . . . . .127
SM312W W/30 . . . . . . . . 26417 . . . . .127
SM312WMHS . . . . . . . . . 27079 . . . . .127
SM312WMHS W/30. . . . . 35664 . . . . .127
SM312WMHSQD . . . . . . . 35719 . . . . .127
SM312WMHSQDP . . . . . . 35720 . . . . .127
SM312WQD. . . . . . . . . . . 26892 . . . . .127
SM312WQDP . . . . . . . . . 29540 . . . . .127
SM31E . . . . . . . . . . . . . . 25623 . . . . .126
SM31E W/30 . . . . . . . . . . 25718 . . . . .126
SM31EL. . . . . . . . . . . . . . 25724 . . . . .126
SM31EL W/30 . . . . . . . . . 26104 . . . . .126
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
MODEL
P/N
PAGE
SM31ELMHS . . . . . . . . . . 27345 . . . . .126
SM31ELMHS W/30 . . . . . 28875 . . . . .126
SM31ELMHSQD . . . . . . . 30236 . . . . .126
SM31ELMHSQDP . . . . . . 35669 . . . . .126
SM31ELQD . . . . . . . . . . . 26952 . . . . .126
SM31ELQDP . . . . . . . . . . 29535 . . . . .126
SM31EPD . . . . . . . . . . . . 26537 . . . . .127
SM31EPD W/30 . . . . . . . . 27067 . . . . .127
SM31EPDMHS. . . . . . . . . 27334 . . . . .127
SM31EPDMHS W/30 . . . . 35657 . . . . .127
SM31EPDMHSQD . . . . . . 35710 . . . . .127
SM31EPDMHSQDP . . . . . 35711 . . . . .127
SM31EPDQD . . . . . . . . . . 26891 . . . . .127
SM31EPDQDP . . . . . . . . . 29547 . . . . .127
SM31EQD . . . . . . . . . . . . 26835 . . . . .127
SM31EQDP . . . . . . . . . . . 28550 . . . . .127
SM31R . . . . . . . . . . . . . . 25622 . . . . .126
SM31R W/30 . . . . . . . . . . 25719 . . . . .126
SM31RL . . . . . . . . . . . . . 25725 . . . . .126
SM31RL W/30 . . . . . . . . . 26105 . . . . .126
SM31RLMHS. . . . . . . . . . 27626 . . . . .126
SM31RLMHS W/30 . . . . . 27346 . . . . .126
SM31RLMHSQD . . . . . . . 30232 . . . . .126
SM31RLMHSQDP . . . . . . 35708 . . . . .126
SM31RLQD . . . . . . . . . . . 26951 . . . . .126
SM31RLQDP . . . . . . . . . . 29536 . . . . .126
SM31RMHS. . . . . . . . . . . 26412 . . . . .126
SM31RMHS W/30 . . . . . . 31220 . . . . .126
SM31RMHSQD . . . . . . . . 29269 . . . . .126
SM31RMHSQDP . . . . . . . 35668 . . . . .126
SM31RPD . . . . . . . . . . . . 26536 . . . . .127
SM31RPD W/30 . . . . . . . 27068 . . . . .127
SM31RPDMHS . . . . . . . . 27333 . . . . .127
SM31RPDMHS W/30 . . . . 35658 . . . . .127
SM31RPDMHSQD . . . . . . 35709 . . . . .127
SM31RPDMHSQDP . . . . . 35712 . . . . .127
SM31RPDQD . . . . . . . . . . 26890 . . . . .127
SM31RPDQDP. . . . . . . . . 29548 . . . . .127
SM31RQD . . . . . . . . . . . . 26839 . . . . .127
SM31RQDP . . . . . . . . . . . 28551 . . . . .127
SM502A . . . . . . . . . . . . . 16658 . . . . .275
SM512C1 . . . . . . . . . . . . 19175 . . . . .277
SM512CV1 . . . . . . . . . . . 19176 . . . . .277
SM512DB . . . . . . . . . . . . 17577 . . . . .276
SM512DBCV . . . . . . . . . . 18783 . . . . .277
SM512DBX . . . . . . . . . . . 19062 . . . . .276
SM512LB . . . . . . . . . . . . 18589 . . . . .275
SM512LBDX . . . . . . . . . . 19798 . . . . .276
SM512LBFO . . . . . . . . . . 17578 . . . . .278
SM51EB . . . . . . . . . . . . . 18585 . . . . .274
SM51EB6 . . . . . . . . . . . . 18587 . . . . .275
SM51EB6FO . . . . . . . . . . 18650 . . . . .278
SM51RB . . . . . . . . . . . . . 18586 . . . . .274
SM51RB6 . . . . . . . . . . . . 18588 . . . . .275
SM51RB6FO . . . . . . . . . . 18652 . . . . .278
SM912C . . . . . . . . . . . . . 26012 . . . . .330
SM912C W/30 . . . . . . . . . 35631 . . . . .330
SM912CQD . . . . . . . . . . . 26802 . . . . .330
SM912CV . . . . . . . . . . . . 26031 . . . . .330
SM912CV W/30 . . . . . . . . 28453 . . . . .330
SM912CVQD . . . . . . . . . . 26030 . . . . .330
SM912D . . . . . . . . . . . . . 25172 . . . . .330
SM912D W/30 . . . . . . . . . 25969 . . . . .330
SM912DQD . . . . . . . . . . . 25361 . . . . .330
SM912DSR . . . . . . . . . . . 25290 . . . . .330
SM912DSR W/30. . . . . . . 29608 . . . . .330
SM912DSRQD . . . . . . . . . 26397 . . . . .330
SM912F. . . . . . . . . . . . . . 25516 . . . . .331
SM912F W/30 . . . . . . . . . 26293 . . . . .331
SM912FQD . . . . . . . . . . . 25509 . . . . .331
SM912LV. . . . . . . . . . . . . 25171 . . . . .329
SM912LV W/30 . . . . . . . . 25924 . . . . .329
SM912LVAG . . . . . . . . . . 26186 . . . . .329
SM912LVAG W/30 . . . . . . 27182 . . . . .329
SM912LVAGQD . . . . . . . . 26398 . . . . .329
SM912LVQD . . . . . . . . . . 25336 . . . . .329
SM91EAN . . . . . . . . . . . . 39515 . . . . .364
SM91EAN W/30 . . . . . . . . 41290 . . . . .364
SM91EANQD . . . . . . . . . . 39517 . . . . .364
SM91EBN . . . . . . . . . . . . 41282 . . . . .365
SM91EBN W/30 . . . . . . . . 41292 . . . . .365
SM91EBNQD . . . . . . . . . . 41284 . . . . .365
803
Photoelectric Sensor Product Index by Model Number
MODEL
P/N
PAGE
SM91ECN . . . . . . . . . . . . 41286 . . . . .365
SM91ECN W/30 . . . . . . . . 41294 . . . . .365
SM91ECNQD . . . . . . . . . . 41288 . . . . .365
SM91R . . . . . . . . . . . . . . 25173 . . . . .328
SM91R W/30 . . . . . . . . . . 25948 . . . . .328
SM91RAN . . . . . . . . . . . . 39516 . . . . .364
SM91RAN W/30 . . . . . . . 41291 . . . . .364
SM91RANQD . . . . . . . . . . 39554 . . . . .364
SM91RBN . . . . . . . . . . . . 41283 . . . . .365
SM91RBN W/30 . . . . . . . 41293 . . . . .365
SM91RBNQD . . . . . . . . . . 41285 . . . . .365
SM91RCN . . . . . . . . . . . . 41287 . . . . .365
SM91RCN W/30 . . . . . . . 41295 . . . . .365
SM91RCNQD . . . . . . . . . . 41289 . . . . .365
SM91RF . . . . . . . . . . . . . 27005 . . . . .331
SM91RF W/30 . . . . . . . . . 36329 . . . . .331
SM91RFQD . . . . . . . . . . . 25530 . . . . .331
SM91RQD . . . . . . . . . . . . 25360 . . . . .328
SM91RSR . . . . . . . . . . . . 25288 . . . . .328
SM91RSR W/30 . . . . . . . 27238 . . . . .328
SM91RSRQD . . . . . . . . . . 25443 . . . . .328
SMA30PEL . . . . . . . . . . . 27287 . . . . .284
SMA30PEL W/30 . . . . . . . 27730 . . . . .284
SMA30PELB . . . . . . . . . . 27374 . . . . .285
SMA30PELB W/30 . . . . . . 30239 . . . . .285
SMA30PELC . . . . . . . . . . 28294 . . . . .285
SMA30PELC W/30 . . . . . . 33174 . . . . .285
SMA30PELQD . . . . . . . . . 27288 . . . . .284
SMA30PELQDB . . . . . . . . 27375 . . . . .285
SMA30PELQDC . . . . . . . . 32093 . . . . .285
SMA30SEL . . . . . . . . . . . 27285 . . . . .284
SMA30SEL W/30 . . . . . . . 27412 . . . . .284
SMA30SELB . . . . . . . . . . 27372 . . . . .285
SMA30SELB W/30 . . . . . . 32836 . . . . .285
SMA30SELC . . . . . . . . . . 28464 . . . . .285
SMA30SELC W/30 . . . . . . 35938 . . . . .285
SMA30SELQD . . . . . . . . . 27286 . . . . .284
SMA30SELQDB . . . . . . . . 27373 . . . . .285
SMA30SELQDC . . . . . . . . 27562 . . . . .285
SMA31E . . . . . . . . . . . . . 26058 . . . . .126
SMA31E W/30 . . . . . . . . . 26856 . . . . .126
SMA31EL . . . . . . . . . . . . 26059 . . . . .126
SMA31EL W/30 . . . . . . . . 26563 . . . . .126
SMA31ELQD . . . . . . . . . . 26992 . . . . .126
SMA31ELQDP . . . . . . . . . 29554 . . . . .127
SMA31EPD . . . . . . . . . . . 26567 . . . . .127
SMA31EPD W/30. . . . . . . 27195 . . . . .127
SMA31EPDQD . . . . . . . . . 26969 . . . . .127
SMA31EPDQDP . . . . . . . . 29564 . . . . .127
SMA31EQD . . . . . . . . . . . 26842 . . . . .126
SMA31EQDP . . . . . . . . . . 29552 . . . . .126
SMA915CV . . . . . . . . . . . 25883 . . . . .342
SMA915CV W/30 . . . . . . . 26622 . . . . .342
SMA915CVQD . . . . . . . . . 25884 . . . . .342
SMA915D . . . . . . . . . . . . 25881 . . . . .341
SMA915D W/30 . . . . . . . . 26090 . . . . .341
SMA915DQD . . . . . . . . . . 25882 . . . . .341
SMA915DSR . . . . . . . . . . 26019 . . . . .341
SMA915DSR W/30 . . . . . 35645 . . . . .341
SMA915DSRQD . . . . . . . . 26020 . . . . .341
SMA915F. . . . . . . . . . . . . 25885 . . . . .342
SMA915F W/30 . . . . . . . . 26476 . . . . .342
SMA915FP. . . . . . . . . . . . 26487 . . . . .343
SMA915FP W/30 . . . . . . . 28979 . . . . .343
SMA915FPQD . . . . . . . . . 26895 . . . . .343
SMA915FQD . . . . . . . . . . 25886 . . . . .342
SMA915LV. . . . . . . . . . . . 25879 . . . . .340
SMA915LV W/30 . . . . . . . 26851 . . . . .340
SMA915LVAG . . . . . . . . . 26017 . . . . .340
SMA915LVAG W/30 . . . . . 26833 . . . . .340
SMA915LVAGQD . . . . . . . 26018 . . . . .340
SMA915LVQD . . . . . . . . . 25880 . . . . .340
SMA91E . . . . . . . . . . . . . 25174 . . . . .338
SMA91E W/30 . . . . . . . . . 25947 . . . . .338
SMA91EF. . . . . . . . . . . . . 25563 . . . . .331
SMA91EF W/30 . . . . . . . . 35633 . . . . .331
SMA91EFQD . . . . . . . . . . 25529 . . . . .331
SMA91EQD . . . . . . . . . . . 25312 . . . . .338
SMA91ESR . . . . . . . . . . . 25286 . . . . .339
SMA91ESR W/30. . . . . . . 27118 . . . . .339
SMA91ESRQD . . . . . . . . 25444 . . . . .339
SMA95R . . . . . . . . . . . . . 25887 . . . . .338
804
MODEL
P/N
PAGE
SMA95R W/30. . . . . . . . . 27520 . . . . .338
SMA95RQD . . . . . . . . . . . 25888 . . . . .338
SMA95RSR . . . . . . . . . . . 26021 . . . . .339
SMA95RSR W/30 . . . . . . 27737 . . . . .339
SMA95RSRQD. . . . . . . . . 26022 . . . . .339
SMA990CV . . . . . . . . . . . 26550 . . . . .350
SMA990CV W/30 . . . . . . . 35654 . . . . .350
SMA990CVQD . . . . . . . . . 26896 . . . . .350
SMA990F. . . . . . . . . . . . . 26551 . . . . .350
SMA990F W/30 . . . . . . . . 35656 . . . . .350
SMA990FP. . . . . . . . . . . . 26552 . . . . .351
SMA990FP W/30 . . . . . . . 35655 . . . . .351
SMA990FPQD . . . . . . . . . 26898 . . . . .351
SMA990FQD . . . . . . . . . . 26897 . . . . .350
SMA990LT. . . . . . . . . . . . 26553 . . . . .349
SMA990LT W/30 . . . . . . . 32684 . . . . .349
SMA990LTQD . . . . . . . . . 26858 . . . . .349
SMA990LV. . . . . . . . . . . . 26554 . . . . .349
SMA990LV W/30 . . . . . . . 35652 . . . . .349
SMA990LVAG . . . . . . . . . 26555 . . . . .349
SMA990LVAG W/30 . . . . . 35653 . . . . .349
SMA990LVAGQD . . . . . . . 26899 . . . . .349
SMA990LVQD . . . . . . . . . 26868 . . . . .349
SMA99R . . . . . . . . . . . . . 26556 . . . . .348
SMA99R W/30. . . . . . . . . 35650 . . . . .348
SMA99RQD . . . . . . . . . . . 26900 . . . . .348
SMA99RSR . . . . . . . . . . . 26557 . . . . .348
SMA99RSR W/30 . . . . . . 35651 . . . . .348
SMA99RSRQD. . . . . . . . . 26901 . . . . .348
SMB127 . . . . . . . . . . . . . 53394 . . . . .741
SMB12MM . . . . . . . . . . . 27635 . . . . 741
SMB1812SF. . . . . . . . . . . 52520 . . . . .741
SMB1815SF. . . . . . . . . . . 53279 . . . . .742
SMB18A . . . . . . . . . . . . . 33200 . . . . .742
SMB18C . . . . . . . . . . . . . 32635 . . . . .742
SMB18Q . . . . . . . . . . . . . 32721 . . . . .742
SMB18S . . . . . . . . . . . . . 33203 . . . . .743
SMB18SF . . . . . . . . . . . . 52519 . . . . .743
SMB18UR . . . . . . . . . . . . 52517 . . . . .743
SMB300 . . . . . . . . . . . . . 16697 . . . . .744
SMB3018SC . . . . . . . . . . 53952 . . . . .744
SMB30A . . . . . . . . . . . . . 32723 . . . . .744
SMB30C . . . . . . . . . . . . . 32636 . . . . 744
SMB30MM . . . . . . . . . . . 27162 . . . . .745
SMB30Q . . . . . . . . . . . . . 32722 . . . . .745
SMB30S . . . . . . . . . . . . . 33204 . . . . .745
SMB30SC . . . . . . . . . . . . 52521 . . . . 745
SMB30SK . . . . . . . . . . . . 52523 . . . . 746
SMB30SUS . . . . . . . . . . . 52522 . . . . 746
SMB30UR . . . . . . . . . . . . 52516 . . . . 746
SMB312B . . . . . . . . . . . . 25519 . . . . .157
SMB312PD . . . . . . . . . . . 26651 . . . . .157
SMB312S . . . . . . . . . . . . 25518 . . . . 157
SMB42F. . . . . . . . . . . . . . 48344 . . . . 747
SMB42L . . . . . . . . . . . . . 48343 . . . . .747
SMB42T . . . . . . . . . . . . . 54137 . . . . .747
SMB42U . . . . . . . . . . . . . 48345 . . . . 748
SMB46A . . . . . . . . . . . . . 52518 . . . . 748
SMB46L . . . . . . . . . . . . . 48747 . . . . 748
SMB46S . . . . . . . . . . . . . 48748 . . . . .749
SMB46U . . . . . . . . . . . . . 48746 . . . . .749
SMB46X3 . . . . . . . . . . . . 53395 . . . . .749
SMB500 . . . . . . . . . . . . . 16696 . . . . .750
SMB500SS . . . . . . . . . . . 18512 . . . . .281
SMB55A . . . . . . . . . . . . . 53259 . . . . 750
SMB55F. . . . . . . . . . . . . . 53260 . . . . 750
SMB55RA . . . . . . . . . . . . 53261 . . . . 750
SMB55S . . . . . . . . . . . . . 53265 . . . . 751
SMB700 . . . . . . . . . . . . . 16640 . . . . 517
SMB700F. . . . . . . . . . . . . 26475 . . . . 517
SMB700M . . . . . . . . . . . . 17726 . . . . 517
SMB700P . . . . . . . . . . . . 16489 . . . . 518
SMB700SS . . . . . . . . . . . 17720 . . . . 517
SMB85B . . . . . . . . . . . . . 32799 . . . . .377
SMB85R . . . . . . . . . . . . . 32798 . . . . .378
SMB915CV . . . . . . . . . . . 26953 . . . . .342
SMB915CV W/30 . . . . . . . 35978 . . . . .342
SMB915CVQD . . . . . . . . . 31579 . . . . .342
SMB915D . . . . . . . . . . . . 26955 . . . . .341
SMB915D W/30 . . . . . . . . 35643 . . . . .341
SMB915DQD . . . . . . . . . . 31580 . . . . .341
SMB915DSR . . . . . . . . . . 26962 . . . . .341
MODEL
P/N
PAGE
SMB915DSR W/30 . . . . . 35646 . . . . .341
SMB915DSRQD . . . . . . . . 30143 . . . . .341
SMB915F. . . . . . . . . . . . . 26956 . . . . .342
SMB915F W/30 . . . . . . . . 35647 . . . . .342
SMB915FP. . . . . . . . . . . . 26957 . . . . .343
SMB915FP W/30 . . . . . . . 35649 . . . . .343
SMB915FPQD . . . . . . . . . 31582 . . . . .343
SMB915FQD . . . . . . . . . . 31581 . . . . .342
SMB915LV. . . . . . . . . . . . 26954 . . . . .340
SMB915LV W/30 . . . . . . . 35640 . . . . .340
SMB915LVAG . . . . . . . . . 26958 . . . . .340
SMB915LVAG W/30 . . . . . 35641 . . . . .340
SMB915LVAGQD . . . . . . . 31583 . . . . .340
SMB915LVQD . . . . . . . . . 27406 . . . . .340
SMB95R . . . . . . . . . . . . . 26959 . . . . .338
SMB95R W/30. . . . . . . . . 35637 . . . . .338
SMB95RQD . . . . . . . . . . . 31584 . . . . .338
SMB95RSR . . . . . . . . . . . 26961 . . . . .339
SMB95RSR W/30 . . . . . . 35639 . . . . .339
SMB95RSRQD. . . . . . . . . 31585 . . . . .339
SMBF . . . . . . . . . . . . . . . 53258 . . . . .751
SMBFP3 . . . . . . . . . . . . . 53264 . . . . .751
SMBFP4 . . . . . . . . . . . . . 53263 . . . . .751
SMBFP4N . . . . . . . . . . . . 53257 . . . . .752
SMBFP6 . . . . . . . . . . . . . 53262 . . . . .752
SMBLS . . . . . . . . . . . . . . 26284 . . . . .530
SMBPVA10 . . . . . . . . . . . 56809 . . . . .752
SMBPVA13 . . . . . . . . . . . 56810 . . . . .752
SMBPVA16 . . . . . . . . . . . 56811 . . . . .752
SMBPVA2 . . . . . . . . . . . . 54451 . . . . .752
SMBPVA5 . . . . . . . . . . . . 56500 . . . . .752
SMBQ50 . . . . . . . . . . . . . 66226 . . . . .265
SMBQS12PD . . . . . . . . . . 59606 . . . . .95
SMBQS12S . . . . . . . . . . . 59607 . . . . .95
SMBR55F01 . . . . . . . . . . 67104 . . . . .311
SMBR55FRA . . . . . . . . . . 58809 . . . . .311
SMBSL . . . . . . . . . . . . . . 58335 . . . . .325
SMBSP3 . . . . . . . . . . . . . 53256 . . . . .753
SMBVS1S . . . . . . . . . . . . 55554 . . . . .753
SMBVS1SC . . . . . . . . . . . 56797 . . . . .753
SMBVS1T . . . . . . . . . . . . 55496 . . . . .753
SMBVS1TC . . . . . . . . . . . 56795 . . . . 754
SMBVS2RA . . . . . . . . . . . 58603 . . . . .754
SMBVS3S . . . . . . . . . . . . 62618 . . . . .73
SMBVS3T . . . . . . . . . . . . 62617 . . . . .73
SME311LPCMHSQD . . . . 56639 . . . . .117
SME312CV . . . . . . . . . . . 53701 . . . . .119
SME312CV W/30 . . . . . . . 53703 . . . . .119
SME312CV2 . . . . . . . . . . 53704 . . . . .119
SME312CV2 W/30 . . . . . . 53706 . . . . .119
SME312CV2MHS . . . . . . . 56646 . . . . .119
SME312CV2MHS W/30 . . 56648 . . . . .119
SME312CV2MHSQD . . . . 56647 . . . . .119
SME312CV2QD . . . . . . . . 58058 . . . . .119
SME312CVB . . . . . . . . . . 53725 . . . . .119
SME312CVB W/30 . . . . . . 53727 . . . . .119
SME312CVBMHS. . . . . . . 56666 . . . . .119
SME312CVBMHS W/30 . . 56668 . . . . .119
SME312CVBMHSQD . . . . 56667 . . . . .119
SME312CVBQD . . . . . . . . 53726 . . . . .119
SME312CVG . . . . . . . . . . 53722 . . . . .119
SME312CVG W/30. . . . . . 53724 . . . . .119
SME312CVGMHS. . . . . . . 56663 . . . . .119
SME312CVGMHS W/30 . . 56665 . . . . .119
SME312CVGMHSQD . . . . 56664 . . . . .119
SME312CVGQD . . . . . . . . 53723 . . . . .119
SME312CVQD . . . . . . . . . 53705 . . . . .119
SME312CVQDP . . . . . . . . 57840 . . . . .119
SME312CVW . . . . . . . . . . 55526 . . . . .119
SME312CVW W/30 . . . . . 55528 . . . . .119
SME312CVWMHS . . . . . . 57504 . . . . .119
SME312CVWMHS W/30. . 58297 . . . . .119
SME312CVWMHSQD . . . . 58296 . . . . .119
SME312CVWQD . . . . . . . 55527 . . . . .119
SME312D . . . . . . . . . . . . 53707 . . . . .117
SME312D W/30 . . . . . . . . 53709 . . . . .117
SME312DMHS. . . . . . . . . 56649 . . . . .117
SME312DMHS W/30 . . . . 56651 . . . . .117
SME312DMHSQD . . . . . . 56650 . . . . .117
SME312DQD . . . . . . . . . . 53708 . . . . .117
SME312DQDP . . . . . . . . . 56640 . . . . .117
SME312DV . . . . . . . . . . . 64083 . . . . .117
MODEL
P/N
PAGE
SME312DVQD . . . . . . . . . 60335 . . . . .117
SME312F. . . . . . . . . . . . . 53713 . . . . .120
SME312F W/30 . . . . . . . . 53715 . . . . .120
SME312FMHS . . . . . . . . . 56654 . . . . .120
SME312FMHS W/30 . . . . 56656 . . . . .120
SME312FMHSQD. . . . . . . 56655 . . . . .120
SME312FP. . . . . . . . . . . . 53731 . . . . .122
SME312FP W/30 . . . . . . . 54593 . . . . .122
SME312FPB. . . . . . . . . . . 54622 . . . . .122
SME312FPB W/30 . . . . . . 54624 . . . . .122
SME312FPBMHS . . . . . . . 58284 . . . . .122
SME312FPBMHS W/30 . . 58286 . . . . .122
SME312FPBMHSQD. . . . . 58285 . . . . .122
SME312FPBQD . . . . . . . . 54623 . . . . .122
SME312FPG . . . . . . . . . . 54628 . . . . .122
SME312FPG W/30 . . . . . . 54630 . . . . .122
SME312FPGMHS . . . . . . . 58290 . . . . .122
SME312FPGMHS W/30 . . 58292 . . . . .122
SME312FPGMHSQD . . . . 58291 . . . . .122
SME312FPGQD . . . . . . . . 54629 . . . . .122
SME312FPMHS . . . . . . . . 56672 . . . . .122
SME312FPMHS W/30 . . . 56674 . . . . .122
SME312FPMHSQD. . . . . . 56673 . . . . .122
SME312FPQD . . . . . . . . . 53732 . . . . .122
SME312FPW . . . . . . . . . . 55520 . . . . .122
SME312FPW W/30 . . . . . 55522 . . . . .122
SME312FPWMHS . . . . . . 58293 . . . . .122
SME312FPWMHS W/30 . . 58295 . . . . .122
SME312FPWMHSQD . . . . 58294 . . . . .122
SME312FQD . . . . . . . . . . 53714 . . . . .120
SME312FV. . . . . . . . . . . . 53728 . . . . .121
SME312FV W/30 . . . . . . . 53730 . . . . .121
SME312FVB. . . . . . . . . . . 54594 . . . . .121
SME312FVB W/30 . . . . . . 54596 . . . . .121
SME312FVBMHS . . . . . . . 56675 . . . . .121
SME312FVBMHS W/30 . . 56677 . . . . .121
SME312FVBMHSQD. . . . . 56676 . . . . .121
SME312FVBQD . . . . . . . . 54595 . . . . .121
SME312FVG . . . . . . . . . . 54625 . . . . .121
SME312FVG W/30 . . . . . . 54627 . . . . .121
SME312FVGMHS . . . . . . . 58287 . . . . .121
SME312FVGMHS W/30 . . 58289 . . . . .121
SME312FVGMHSQD . . . . 58288 . . . . .121
SME312FVGQD . . . . . . . . 54626 . . . . .121
SME312FVMHS . . . . . . . . 56669 . . . . .121
SME312FVMHS W/30 . . . 56671 . . . . .121
SME312FVMHSQD. . . . . . 56670 . . . . .121
SME312FVQD . . . . . . . . . 53729 . . . . .121
SME312FVW . . . . . . . . . . 55523 . . . . .121
SME312FVW W/30 . . . . . 55525 . . . . .121
SME312FVWMHS . . . . . . 58346 . . . . .121
SME312FVWMHS W/30 . . 58348 . . . . .121
SME312FVWMHSQD . . . . 58347 . . . . .121
SME312FVWQD . . . . . . . . 55524 . . . . .121
SME312LP. . . . . . . . . . . . 53716 . . . . .116
SME312LP W/30 . . . . . . . 53718 . . . . .116
SME312LPC . . . . . . . . . . 53710 . . . . .116
SME312LPC W/30 . . . . . . 53712 . . . . .116
SME312LPCMHS . . . . . . . 56652 . . . . .117
SME312LPCMHS W/30 . . 56653 . . . . .117
SME312LPCQD . . . . . . . . 53711 . . . . .116
SME312LPQD . . . . . . . . . 53717 . . . . .116
SME312W . . . . . . . . . . . . 53719 . . . . .117
SME312W W/30 . . . . . . . 53721 . . . . .117
SME312WMHS . . . . . . . . 56660 . . . . .117
SME312WMHS W/30. . . . 56662 . . . . .117
SME312WMHSQD . . . . . . 56661 . . . . .117
SME312WQD. . . . . . . . . . 53720 . . . . .117
SMH241F . . . . . . . . . . . . 53266 . . . . .754
SMI306EBQ . . . . . . . . . . 35269 . . . . .291
SMI306ECQ . . . . . . . . . . 35270 . . . . .291
SMI306EQ . . . . . . . . . . . 35268 . . . . .290
SMI306EYCQ . . . . . . . . . 35278 . . . . .291
SMI306EYQ . . . . . . . . . . 35277 . . . . .290
SMI30AN6RBQ . . . . . . . . 35272 . . . . .291
SMI30AN6RCQ . . . . . . . . 35273 . . . . .291
SMI30AN6RQ . . . . . . . . . 35271 . . . . .290
SMI30AN6RYCQ . . . . . . . 35280 . . . . .291
SMI30AN6RYQ . . . . . . . . 35279 . . . . .290
SMI30RN6RBQ . . . . . . . . 35275 . . . . .291
SMI30RN6RCQ . . . . . . . . 35276 . . . . .291
SMI30RN6RQ . . . . . . . . . 35274 . . . . .290
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
Photoelectric Sensor Product Index by Model Number
MODEL
P/N
PAGE
SMI30RN6RYCQ . . . . . . . 35282 . . . . .291
SMI30RN6RYQ . . . . . . . . 35281 . . . . .290
SMI912CVQD . . . . . . . . . 27217 . . . . .358
SMI912DQD . . . . . . . . . . 25682 . . . . .357
SMI912DSRQD . . . . . . . . 25683 . . . . .357
SMI912FPQD . . . . . . . . . . 27219 . . . . .359
SMI912FQD . . . . . . . . . . . 25684 . . . . .329
SMI912LVAGQD . . . . . . . 27218 . . . . .357
SMI912LVQD . . . . . . . . . . 25681 . . . . .357
SMI91EFQD . . . . . . . . . . . 25690 . . . . .358
SMI91EQD. . . . . . . . . . . . 25688 . . . . .356
SMI91ESRQD . . . . . . . . . 25689 . . . . .356
SMI91RFQD. . . . . . . . . . . 25687 . . . . .358
SMI91RQD . . . . . . . . . . . 25685 . . . . .356
SMI91RSRQD . . . . . . . . . 25686 . . . . .356
SMICC-306 . . . . . . . . . . . 48728 . . . . .295
SMICC-312 . . . . . . . . . . . 36356 . . . . .295
SMICC-330 . . . . . . . . . . . 36357 . . . . .295
SMU315CV . . . . . . . . . . . 55248 . . . . .142
SMU315CV2 . . . . . . . . . . 55249 . . . . .142
SMU315D . . . . . . . . . . . . 52570 . . . . .141
SMU315DQDP . . . . . . . . . 59144 . . . . .141
SMU315F . . . . . . . . . . . . 52577 . . . . .143
SMU315FP . . . . . . . . . . . 55043 . . . . .142
SMU315FV . . . . . . . . . . . 52573 . . . . .143
SMU315LP . . . . . . . . . . . 52574 . . . . .141
SMU315LV . . . . . . . . . . . 52572 . . . . .141
SMU315W . . . . . . . . . . . . 52571 . . . . .141
SMU31E . . . . . . . . . . . . . 52575 . . . . .140
SMU31EL . . . . . . . . . . . . 55898 . . . . .140
SMU31R . . . . . . . . . . . . . 52576 . . . . .140
SMU31RL . . . . . . . . . . . . 55897 . . . . .140
SMW915CV . . . . . . . . . . . 26162 . . . . .342
SMW915CV W/30 . . . . . . 35977 . . . . .342
SMW915CVQD . . . . . . . . 26163 . . . . .342
SMW915D . . . . . . . . . . . . 26164 . . . . .341
SMW915D W/30 . . . . . . . 35642 . . . . .341
SMW915DQD . . . . . . . . . 26165 . . . . .341
SMW915DSR . . . . . . . . . 26166 . . . . .341
SMW915DSR W/30 . . . . . 35644 . . . . .341
SMW915DSRQD . . . . . . . 26167 . . . . .341
SMW915F . . . . . . . . . . . . 26168 . . . . .342
SMW915F W/30 . . . . . . . 28604 . . . . .342
SMW915FP . . . . . . . . . . . 26495 . . . . .343
SMW915FP W/30 . . . . . . 35648 . . . . .343
SMW915FPQD. . . . . . . . . 26902 . . . . .343
SMW915FQD . . . . . . . . . . 26169 . . . . .342
SMW915LV . . . . . . . . . . . 26170 . . . . .340
SMW915LV W/30 . . . . . . 29037 . . . . .340
SMW915LVAG . . . . . . . . . 26172 . . . . .340
SMW915LVAG W/30 . . . . 32131 . . . . .340
SMW915LVAGQD. . . . . . . 26173 . . . . .340
SMW915LVQD. . . . . . . . . 26171 . . . . .340
SMW95R. . . . . . . . . . . . . 26174 . . . . .338
SMW95R W/30 . . . . . . . . 35636 . . . . .338
SMW95RQD . . . . . . . . . . 26175 . . . . .338
SMW95RSR . . . . . . . . . . 26178 . . . . .339
SMW95RSR W/30 . . . . . . 35638 . . . . .339
SMW95RSRQD . . . . . . . . 26179 . . . . .339
SO60-Q08 . . . . . . . . . . . . 27757 . . . . .74
SO60-Q08 W/30 . . . . . . . 28885 . . . . .74
SP1000V . . . . . . . . . . . . . 16501 . . . . .544
SP100AF . . . . . . . . . . . . . 33170 . . . . .544
SP100C . . . . . . . . . . . . . . 19706 . . . . .544
SP100CCF . . . . . . . . . . . . 25151 . . . . .544
SP100D . . . . . . . . . . . . . . 19707 . . . . .543
SP100DB. . . . . . . . . . . . . 25189 . . . . .543
SP100E . . . . . . . . . . . . . . 19708 . . . . .541
SP100R . . . . . . . . . . . . . . 19709 . . . . .541
SP12PEL . . . . . . . . . . . . . 27524 . . . . .542
SP12PRL. . . . . . . . . . . . . 27526 . . . . .542
SP12SEL . . . . . . . . . . . . . 27523 . . . . .542
SP12SELQD. . . . . . . . . . . 27744 . . . . .542
SP12SRL. . . . . . . . . . . . . 27525 . . . . .542
SP12SRLQD . . . . . . . . . . 27743 . . . . .542
SP300D . . . . . . . . . . . . . . 16488 . . . . .543
SP300EL . . . . . . . . . . . . . 16493 . . . . .542
SP300L . . . . . . . . . . . . . . 16494 . . . . .542
SP300RL . . . . . . . . . . . . . 16496 . . . . .542
SP320D . . . . . . . . . . . . . . 26541 . . . . .543
SP3D1. . . . . . . . . . . . . . . 50404 . . . . .543
SP3ER1 . . . . . . . . . . . . . . 50405 . . . . .540
MODEL
P/N
PAGE
SP3ER2 . . . . . . . . . . . . . . 50406 . . . . .540
SP8ER1 . . . . . . . . . . . . . . 51620 . . . . .540
SP8ER2 . . . . . . . . . . . . . . 51621 . . . . .540
SPS100Q. . . . . . . . . . . . . 65837 . . . . .758
SPS100QP. . . . . . . . . . . . 65848 . . . . .758
SPS100SQ. . . . . . . . . . . . 65849 . . . . .758
SPS100SQP. . . . . . . . . . . 65850 . . . . .758
SSC-100 . . . . . . . . . . . . . 19344 . . . . .587
T
T183E . . . . . . . . . . . . . . . 32477 . . . . .200
T183E W/30. . . . . . . . . . . 33927 . . . . .200
T183EQ1 . . . . . . . . . . . . . 33423 . . . . .200
T186E . . . . . . . . . . . . . . . 32468 . . . . .200
T186E W/30. . . . . . . . . . . 33918 . . . . .200
T186EQ . . . . . . . . . . . . . . 33420 . . . . .222
T186UE . . . . . . . . . . . . . . 38269 . . . . .228
T186UEQ . . . . . . . . . . . . . 38509 . . . . .228
T18AW3D . . . . . . . . . . . . 34922 . . . . .202
T18AW3D W/30 . . . . . . . . 35866 . . . . .202
T18AW3DQ1 . . . . . . . . . . 34923 . . . . .202
T18AW3FF100 . . . . . . . . . 32475 . . . . .203
T18AW3FF100 W/30 . . . . 33925 . . . . .203
T18AW3FF100Q1 . . . . . . . 33410 . . . . .203
T18AW3FF25 . . . . . . . . . . 58386 . . . . .203
T18AW3FF25 W/30 . . . . . 58390 . . . . .203
T18AW3FF25Q1 . . . . . . . . 58393 . . . . .203
T18AW3FF50 . . . . . . . . . . 32474 . . . . .203
T18AW3FF50 W/30 . . . . . 33924 . . . . .203
T18AW3FF50Q1 . . . . . . . . 33408 . . . . .203
T18AW3L. . . . . . . . . . . . . 34926 . . . . .201
T18AW3L W/30 . . . . . . . . 35864 . . . . .201
T18AW3LP . . . . . . . . . . . 32476 . . . . .201
T18AW3LP W/30 . . . . . . . 33926 . . . . .201
T18AW3LPQ1 . . . . . . . . . 33418 . . . . .201
T18AW3LQ1 . . . . . . . . . . 34927 . . . . .201
T18AW3R . . . . . . . . . . . . 32478 . . . . .200
T18AW3R W/30 . . . . . . . . 33928 . . . . .200
T18AW3RQ1 . . . . . . . . . . 33424 . . . . .200
T18RW3D . . . . . . . . . . . . 34924 . . . . .202
T18RW3D W/30. . . . . . . . 35867 . . . . .202
T18RW3DQ1 . . . . . . . . . . 34925 . . . . .202
T18RW3FF100 . . . . . . . . . 33405 . . . . .203
T18RW3FF100 W/30 . . . . 33958 . . . . .203
T18RW3FF100Q1. . . . . . . 33411 . . . . .203
T18RW3FF25 . . . . . . . . . . 58387 . . . . .203
T18RW3FF25 W/30 . . . . . 58391 . . . . .203
T18RW3FF25Q1. . . . . . . . 58394 . . . . .203
T18RW3FF50 . . . . . . . . . . 33404 . . . . .203
T18RW3FF50 W/30 . . . . . 33957 . . . . .203
T18RW3FF50Q1. . . . . . . . 33409 . . . . .203
T18RW3L . . . . . . . . . . . . 34928 . . . . .201
T18RW3L W/30 . . . . . . . . 35865 . . . . .201
T18RW3LP . . . . . . . . . . . 33406 . . . . .201
T18RW3LP W/30 . . . . . . . 33959 . . . . .201
T18RW3LPQ1 . . . . . . . . . 33419 . . . . .201
T18RW3LQ1 . . . . . . . . . . 34929 . . . . .201
T18RW3R . . . . . . . . . . . . 33407 . . . . .200
T18RW3R W/30. . . . . . . . 33960 . . . . .200
T18RW3RQ1 . . . . . . . . . . 33425 . . . . .200
T18S2P6FF100Q . . . . . . . 45164 . . . . .224
T18S2P6FF25Q . . . . . . . . 58397 . . . . 224
T18S2P6FF50Q . . . . . . . . 45163 . . . . .224
T18S2P6LPQ . . . . . . . . . . 45162 . . . . .223
T18S2P6RQ. . . . . . . . . . . 45161 . . . . .222
T18SN6D. . . . . . . . . . . . . 33814 . . . . .202
T18SN6D W/30 . . . . . . . . 35862 . . . . .202
T18SN6DQ. . . . . . . . . . . . 34630 . . . . .202
T18SN6FF100 . . . . . . . . . 32466 . . . . .203
T18SN6FF100 W/30 . . . . . 33916 . . . . .203
T18SN6FF100Q . . . . . . . . 33413 . . . . .203
T18SN6FF25 . . . . . . . . . . 58110 . . . . .203
T18SN6FF25 W/30 . . . . . . 58388 . . . . .203
T18SN6FF25Q . . . . . . . . . 58392 . . . . .203
T18SN6FF50 . . . . . . . . . . 32465 . . . . .203
T18SN6FF50 W/30 . . . . . . 33915 . . . . .203
T18SN6FF50Q . . . . . . . . . 33412 . . . . .203
T18SN6L . . . . . . . . . . . . . 34655 . . . . .201
T18SN6L W/30 . . . . . . . . 35860 . . . . .201
T18SN6LP . . . . . . . . . . . . 32467 . . . . .201
T18SN6LP W/30 . . . . . . . 33917 . . . . .201
T18SN6LPQ. . . . . . . . . . . 33416 . . . . .201
MODEL
P/N
PAGE
T18SN6LQ . . . . . . . . . . . . 34739 . . . . .201
T18SN6R. . . . . . . . . . . . . 32469 . . . . .200
T18SN6R W/30 . . . . . . . . 33919 . . . . .200
T18SN6RQ. . . . . . . . . . . . 33421 . . . . .200
T18SP6D . . . . . . . . . . . . . 34629 . . . . .202
T18SP6D W/30 . . . . . . . . 35863 . . . . .202
T18SP6DQ. . . . . . . . . . . . 34631 . . . . .202
T18SP6FF100 . . . . . . . . . 32471 . . . . .203
T18SP6FF100 W/30 . . . . . 33921 . . . . .203
T18SP6FF100Q . . . . . . . . 33415 . . . . .203
T18SP6FF25 . . . . . . . . . . 56559 . . . . .203
T18SP6FF25 W/30 . . . . . . 58389 . . . . .203
T18SP6FF25Q . . . . . . . . . 41618 . . . . .203
T18SP6FF50 . . . . . . . . . . 32470 . . . . .203
T18SP6FF50 W/30 . . . . . . 33920 . . . . .203
T18SP6FF50Q . . . . . . . . . 33414 . . . . .203
T18SP6L . . . . . . . . . . . . . 34683 . . . . .201
T18SP6L W/30 . . . . . . . . 35861 . . . . .201
T18SP6LP . . . . . . . . . . . . 32472 . . . . .201
T18SP6LP W/30 . . . . . . . 33922 . . . . .201
T18SP6LPQ . . . . . . . . . . . 33417 . . . . .201
T18SP6LQ . . . . . . . . . . . . 34740 . . . . .201
T18SP6R . . . . . . . . . . . . . 32473 . . . . .200
T18SP6R W/30 . . . . . . . . 33923 . . . . .200
T18SP6RQ. . . . . . . . . . . . 33422 . . . . .200
T18VN6UR. . . . . . . . . . . . 38512 . . . . .228
T18VN6URQ . . . . . . . . . . 38513 . . . . .228
T18VP6UR. . . . . . . . . . . . 38510 . . . . .228
T18VP6URQ . . . . . . . . . . 38511 . . . . .228
T18XDN1DQ6 . . . . . . . . . 47800 . . . . .216
T18XDN1EQ6. . . . . . . . . . 47939 . . . . .216
T18XDN1FF100Q6 . . . . . . 47804 . . . . .218
T18XDN1FF25Q6 . . . . . . . 58398 . . . . .218
T18XDN1FF50Q6 . . . . . . . 47803 . . . . .218
T18XDN1LPQ6. . . . . . . . . 47802 . . . . .217
T18XDN1LQ6. . . . . . . . . . 47801 . . . . .217
T18XDN1RQ6 . . . . . . . . . 47799 . . . . .216
T18XSD1DQ . . . . . . . . . . 60476 . . . . .217
T18XSD1EQ. . . . . . . . . . . 60478 . . . . .216
T18XSD1FF100Q . . . . . . . 52478 . . . . .218
T18XSD1FF100Q6 . . . . . . 47804 . . . . .218
T18XSD1FF25Q . . . . . . . . 58399 . . . . .218
T18XSD1FF50Q . . . . . . . . 60473 . . . . .218
T18XSD1LPQ. . . . . . . . . . 60474 . . . . .217
T18XSD1LQ. . . . . . . . . . . 61783 . . . . .217
T18XSD1RQ . . . . . . . . . . 60477 . . . . .216
T303E . . . . . . . . . . . . . . . 32494 . . . . .206
T303E W/30. . . . . . . . . . . 33944 . . . . .206
T303EQ1 . . . . . . . . . . . . . 33445 . . . . .206
T306E . . . . . . . . . . . . . . . 32483 . . . . .206
T306E W/30. . . . . . . . . . . 33933 . . . . .206
T306EQ . . . . . . . . . . . . . . 33442 . . . . .222
T30AW3FF200 . . . . . . . . . 32490 . . . . .207
T30AW3FF200 W/30 . . . . 33940 . . . . .207
T30AW3FF200Q1 . . . . . . . 33430 . . . . .207
T30AW3FF400 . . . . . . . . . 32491 . . . . .207
T30AW3FF400 W/30 . . . . 33941 . . . . .207
T30AW3FF400Q1 . . . . . . . 33431 . . . . .207
T30AW3FF600 . . . . . . . . . 32492 . . . . .207
T30AW3FF600 W/30 . . . . 33942 . . . . .207
T30AW3FF600Q1 . . . . . . . 34347 . . . . .207
T30AW3LP . . . . . . . . . . . 32493 . . . . .208
T30AW3LP W/30 . . . . . . . 33943 . . . . .208
T30AW3LPQ1 . . . . . . . . . 33440 . . . . .208
T30AW3R . . . . . . . . . . . . 32495 . . . . .206
T30AW3R W/30 . . . . . . . . 33945 . . . . .206
T30AW3RQ1 . . . . . . . . . . 33446 . . . . .206
T30RW3FF200 . . . . . . . . . 33426 . . . . .207
T30RW3FF200 W/30 . . . . 33961 . . . . .207
T30RW3FF200Q1. . . . . . . 33432 . . . . .207
T30RW3FF400 . . . . . . . . . 33427 . . . . .207
T30RW3FF400 W/30 . . . . 33962 . . . . .207
T30RW3FF400Q1. . . . . . . 33433 . . . . .207
T30RW3FF600 . . . . . . . . . 34569 . . . . .207
T30RW3FF600 W/30 . . . . 34570 . . . . .207
T30RW3FF600Q1. . . . . . . 34571 . . . . .207
T30RW3LP . . . . . . . . . . . 33428 . . . . .208
T30RW3LP W/30 . . . . . . . 33963 . . . . .208
T30RW3LPQ1 . . . . . . . . . 33441 . . . . .208
T30RW3R . . . . . . . . . . . . 33429 . . . . .206
T30RW3R W/30. . . . . . . . 33964 . . . . .206
T30RW3RQ1 . . . . . . . . . . 33447 . . . . .206
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
MODEL
P/N
PAGE
T30S2P6FF200Q . . . . . . . 45175 . . . . .207
T30S2P6FF400Q . . . . . . . 45176 . . . . .207
T30S2P6LPQ . . . . . . . . . . 45174 . . . . .223
T30S2P6RQ. . . . . . . . . . . 45173 . . . . .222
T30SN6FF200 . . . . . . . . . 32479 . . . . .207
T30SN6FF200 W/30 . . . . . 33929 . . . . .207
T30SN6FF200Q . . . . . . . . 33434 . . . . .207
T30SN6FF400 . . . . . . . . . 32480 . . . . .207
T30SN6FF400 W/30 . . . . . 33930 . . . . .207
T30SN6FF400Q . . . . . . . . 33435 . . . . .207
T30SN6FF600 . . . . . . . . . 32481 . . . . .207
T30SN6FF600 W/30 . . . . . 33931 . . . . .207
T30SN6FF600Q . . . . . . . . 34348 . . . . .207
T30SN6LP . . . . . . . . . . . . 32482 . . . . .208
T30SN6LP W/30 . . . . . . . 33932 . . . . .208
T30SN6LPQ. . . . . . . . . . . 33438 . . . . .208
T30SN6R. . . . . . . . . . . . . 32484 . . . . .206
T30SN6R W/30 . . . . . . . . 33934 . . . . .206
T30SN6RQ. . . . . . . . . . . . 33443 . . . . .206
T30SP6FF200 . . . . . . . . . 32485 . . . . .207
T30SP6FF200 W/30 . . . . . 33935 . . . . .207
T30SP6FF200Q . . . . . . . . 33436 . . . . .207
T30SP6FF400 . . . . . . . . . 32486 . . . . .207
T30SP6FF400 W/30 . . . . . 33936 . . . . .207
T30SP6FF400Q . . . . . . . . 33437 . . . . .207
T30SP6FF600 . . . . . . . . . 32487 . . . . .207
T30SP6FF600 W/30 . . . . . 33937 . . . . .207
T30SP6FF600Q . . . . . . . . 34349 . . . . .207
T30SP6LP . . . . . . . . . . . . 32488 . . . . .208
T30SP6LP W/30 . . . . . . . 33938 . . . . .208
T30SP6LPQ . . . . . . . . . . . 33439 . . . . .208
T30SP6R . . . . . . . . . . . . . 32489 . . . . .206
T30SP6R W/30 . . . . . . . . 33939 . . . . .206
T30SP6RQ. . . . . . . . . . . . 33444 . . . . .206
TBAT13PMSS . . . . . . . . . 20663 . . . . .717
TBT23S . . . . . . . . . . . . . . 20417 . . . . .717
TF2.53SMAT . . . . . . . . . . 20390 . . . . .717
TGR. . . . . . . . . . . . . . . . . 20077 . . . . .719
TGR3/8MPFMQ . . . . . . . . 23268 . . . . .663
TGRMSSMCG-4 . . . . . . . . 24326 . . . . .719
TIR2.5M9X.006 . . . . . . . . 20189 . . . . .718
TLR . . . . . . . . . . . . . . . . . 15239 . . . . .719
TR100-1 . . . . . . . . . . . . . 09253 . . . . .591
TR100-12 . . . . . . . . . . . . 25098 . . . . .591
TR100-4 . . . . . . . . . . . . . 09325 . . . . .591
TR100-6 . . . . . . . . . . . . . 25198 . . . . .591
U
UC-300AG . . . . . . . . . . . . 26092 . . . . .154
UC-300BZ . . . . . . . . . . . . 26471 . . . . .154
UC-300C.7. . . . . . . . . . . . 26029 . . . . .154
UC-300C2 . . . . . . . . . . . . 26160 . . . . .154
UC-300E . . . . . . . . . . . . . 26470 . . . . .154
UC-300EL . . . . . . . . . . . . 26099 . . . . .154
UC-300EPD . . . . . . . . . . . 27504 . . . . .154
UC-300F . . . . . . . . . . . . . 26028 . . . . .154
UC-300FP . . . . . . . . . . . . 26271 . . . . .154
UC-300FP2 . . . . . . . . . . . 59726 . . . . .154
UC-300L . . . . . . . . . . . . . 26027 . . . . .154
UC-300LP . . . . . . . . . . . . 52273 . . . . .154
UC-300RPD . . . . . . . . . . . 27503 . . . . .154
UC-45C . . . . . . . . . . . . . . 46137 . . . . .422
UC-45C4 . . . . . . . . . . . . . 46139 . . . . .422
UC-45D . . . . . . . . . . . . . . 46131 . . . . .422
UC-45F . . . . . . . . . . . . . . 46133 . . . . .422
UC-45FP . . . . . . . . . . . . . 46135 . . . . .422
UC-45L . . . . . . . . . . . . . . 44705 . . . . .422
UC-45LL . . . . . . . . . . . . . 44673 . . . . .422
UC-45LLP . . . . . . . . . . . . 46141 . . . . .422
UC-45LP . . . . . . . . . . . . . 46126 . . . . .422
UC-900AG . . . . . . . . . . . . 25592 . . . . .369
UC-900C . . . . . . . . . . . . . 26026 . . . . .369
UC-900DSR . . . . . . . . . . . 25624 . . . . .369
UC-900F . . . . . . . . . . . . . 26025 . . . . .369
UC-900FP . . . . . . . . . . . . 26777 . . . . .369
UC-900J . . . . . . . . . . . . . 25796 . . . . .369
UC-900L . . . . . . . . . . . . . 26002 . . . . .369
UC-C . . . . . . . . . . . . . . . . 16523 . . . . .516
UC-C4 . . . . . . . . . . . . . . . 16699 . . . . .516
UC-C6 . . . . . . . . . . . . . . . 16524 . . . . .516
UC-D . . . . . . . . . . . . . . . . 16526 . . . . .516
UC-DJ . . . . . . . . . . . . . . . 19127 . . . . .516
805
Photoelectric Sensor Product Index by Model Number
MODEL
P/N
PAGE
UC-DMB . . . . . . . . . . . . . 19270 . . . . .516
UC-EF . . . . . . . . . . . . . . . 16527 . . . . .516
UC-F . . . . . . . . . . . . . . . . 16528 . . . . .516
UC-L . . . . . . . . . . . . . . . . 16530 . . . . .516
UC-LAG . . . . . . . . . . . . . . 18795 . . . . .516
UC-LG . . . . . . . . . . . . . . . 16851 . . . . .516
UC-LJ . . . . . . . . . . . . . . . 16531 . . . . .516
UC-LS10 . . . . . . . . . . . . . 27586 . . . . .529
UC-LS10SR . . . . . . . . . . . 32241 . . . . .529
UC-LS4EL . . . . . . . . . . . . 44679 . . . . .529
UC-LS4RL . . . . . . . . . . . . 44684 . . . . .529
UC-R55 . . . . . . . . . . . . . . 55009 . . . . .309
UC-RF . . . . . . . . . . . . . . . 16532 . . . . .516
UPFA-1-100 . . . . . . . . . . . 65888 . . . . .675
UPFA-2-100 . . . . . . . . . . . 65889 . . . . .675
V
VS1AN5C10. . . . . . . . . . . 54744
VS1AN5C10Q . . . . . . . . . 63082
VS1AN5C20. . . . . . . . . . . 55297
VS1AN5C20Q . . . . . . . . . 63089
VS1AN5CV10. . . . . . . . . . 56492
VS1AN5CV10Q . . . . . . . . 63083
VS1AN5CV20. . . . . . . . . . 56496
VS1AN5CV20Q . . . . . . . . 63090
VS1AP5C10 . . . . . . . . . . . 55295
VS1AP5C10Q. . . . . . . . . . 63086
VS1AP5C20 . . . . . . . . . . . 55299
VS1AP5C20Q. . . . . . . . . . 63093
VS1AP5CV10 . . . . . . . . . . 56494
VS1AP5CV10Q. . . . . . . . . 59177
VS1AP5CV20 . . . . . . . . . . 56498
VS1AP5CV20Q. . . . . . . . . 59178
VS1RN5C10. . . . . . . . . . . 55294
VS1RN5C10Q . . . . . . . . . 63084
VS1RN5C20. . . . . . . . . . . 55298
VS1RN5C20Q . . . . . . . . . 63091
VS1RN5CV10 . . . . . . . . . 56493
VS1RN5CV10Q . . . . . . . . 63085
VS1RN5CV20 . . . . . . . . . 56497
VS1RN5CV20Q . . . . . . . . 63092
VS1RP5C10. . . . . . . . . . . 55296
VS1RP5C10Q . . . . . . . . . 63087
VS1RP5C20. . . . . . . . . . . 55300
VS1RP5C20Q . . . . . . . . . 63094
VS1RP5CV10. . . . . . . . . . 56495
VS1RP5CV10Q . . . . . . . . 63088
VS1RP5CV20. . . . . . . . . . 56499
VS1RP5CV20Q . . . . . . . . 63095
VS25EV . . . . . . . . . . . . . . 55401
VS25EVQ. . . . . . . . . . . . . 59161
VS2AN5CV15. . . . . . . . . . 61744
VS2AN5CV15Q . . . . . . . . 63074
VS2AN5CV30. . . . . . . . . . 61748
VS2AN5CV30Q . . . . . . . . 63078
VS2AN5R . . . . . . . . . . . . 55402
VS2AN5RQ . . . . . . . . . . . 63097
VS2AP5CV15 . . . . . . . . . . 61745
VS2AP5CV15Q. . . . . . . . . 63075
VS2AP5CV30 . . . . . . . . . . 61749
VS2AP5CV30Q. . . . . . . . . 63079
VS2AP5R. . . . . . . . . . . . . 55404
VS2AP5RQ . . . . . . . . . . . 61596
VS2KAN5V. . . . . . . . . . . . 58220
VS2KAN5VQ . . . . . . . . . . 63099
VS2KAP5V. . . . . . . . . . . . 58222
VS2KAP5VQ . . . . . . . . . . 63100
VS2KRN5V . . . . . . . . . . . 58221
VS2KRN5VQ . . . . . . . . . . 63101
VS2KRP5V. . . . . . . . . . . . 58223
VS2KRP5VQ . . . . . . . . . . 60894
VS2RN5CV15 . . . . . . . . . 61746
VS2RN5CV15Q . . . . . . . . 63076
VS2RN5CV30 . . . . . . . . . 61750
VS2RN5CV30Q . . . . . . . . 63080
VS2RN5R . . . . . . . . . . . . 55403
VS2RN5RQ . . . . . . . . . . . 63098
VS2RP5CV15. . . . . . . . . . 61747
VS2RP5CV15Q . . . . . . . . 63077
VS2RP5CV30. . . . . . . . . . 61751
VS2RP5CV30Q . . . . . . . . 63081
VS2RP5R . . . . . . . . . . . . 55405
806
. . . . .61
. . . . .61
. . . . .61
. . . . .61
. . . . .60
. . . . .60
. . . . .60
. . . . .60
. . . . .61
. . . . .61
. . . . .61
. . . . .61
. . . . .60
. . . . .60
. . . . .60
. . . . .60
. . . . .61
. . . . .61
. . . . .61
. . . . .61
. . . . .60
. . . . .60
. . . . .60
. . . . .60
. . . . .61
. . . . .61
. . . . .61
. . . . .61
. . . . .60
. . . . .60
. . . . .60
. . . . .60
. . . . .64
. . . . .64
. . . . .65
. . . . .65
. . . . .65
. . . . .65
. . . . .64
. . . . .64
. . . . .65
. . . . .65
. . . . .65
. . . . .65
. . . . .64
. . . . .64
. . . . .64
. . . . .64
. . . . .64
. . . . .64
. . . . .64
. . . . .64
. . . . .64
. . . . .64
. . . . .65
. . . . .65
. . . . .65
. . . . .65
. . . . .64
. . . . .64
. . . . .65
. . . . .65
. . . . .65
. . . . .65
. . . . .64
MODEL
P/N
VS2RP5RQ . . . . . . . . . . . 59175
VS35EV . . . . . . . . . . . . . . 62635
VS35EVQ. . . . . . . . . . . . . 62636
VS3AN5R . . . . . . . . . . . . 62627
VS3AN5RQ . . . . . . . . . . . 62628
VS3AN5XLP. . . . . . . . . . . 62619
VS3AN5XLPQ . . . . . . . . . 62620
VS3AN5XLV. . . . . . . . . . . 63711
VS3AN5XLVQ. . . . . . . . . . 63713
VS3AP5R. . . . . . . . . . . . . 62631
VS3AP5RQ . . . . . . . . . . . 62632
VS3AP5XLP. . . . . . . . . . . 62623
VS3AP5XLPQ . . . . . . . . . 62624
VS3AP5XLV . . . . . . . . . . . 63715
VS3AP5XLVQ. . . . . . . . . . 63716
VS3KAN5V . . . . . . . . . . . 62637
VS3KAN5VQ . . . . . . . . . . 62638
VS3KAP5V. . . . . . . . . . . . 62641
VS3KAP5VQ . . . . . . . . . . 62642
VS3KRN5V . . . . . . . . . . . 62639
VS3KRN5VQ . . . . . . . . . . 62640
VS3KRP5V . . . . . . . . . . . 62643
VS3KRP5VQ . . . . . . . . . . 62644
VS3RN5R . . . . . . . . . . . . 62629
VS3RN5RQ . . . . . . . . . . . 62630
VS3RN5XLP . . . . . . . . . . 62621
VS3RN5XLPQ . . . . . . . . . 62622
VS3RN5XLV. . . . . . . . . . . 63713
VS3RN5XLVQ . . . . . . . . . 63714
VS3RP5R . . . . . . . . . . . . 62633
VS3RP5RQ . . . . . . . . . . . 62634
VS3RP5XLP. . . . . . . . . . . 62625
VS3RP5XLPQ . . . . . . . . . 62626
VS3RP5XLV. . . . . . . . . . . 63717
VS3RP5XLVQ. . . . . . . . . . 63718
PAGE
. . . . .64
. . . . .70
. . . . .70
. . . . .70
. . . . .70
. . . . .71
. . . . .71
. . . . .71
. . . . .71
. . . . .70
. . . . .70
. . . . .71
. . . . .71
. . . . .71
. . . . .71
. . . . .70
. . . . .70
. . . . .70
. . . . .70
. . . . .70
. . . . .70
. . . . .70
. . . . .70
. . . . .70
. . . . .70
. . . . .71
. . . . .71
. . . . .71
. . . . .71
. . . . .70
. . . . .70
. . . . .71
. . . . .71
. . . . .71
. . . . .71
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
Notes
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
807
Notes
808
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
Notes
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
809
Notes
810
Banner Engineering Corp. • Minneapolis, U.S.A. • www.bannerengineering.com • Tel: 763.544.3164
Banner Engineering Corporation
9714 10th Avenue North • Minneapolis, MN 55441
Phone: (763) 544-3164 • Fax: (763) 544-3213 • TOLL FREE 1-888-3-SENSOR • (1-888-373-6767)
www.bannerengineering.com • email: sensors@bannerengineering.com
BANNER ENGINEERING CORPORATION
9714 10TH AVENUE NORTH • MINNEAPOLIS, MINNESOTA 55441 (763) 544-3164
FAX: (763) 544-3213
TOLL FREE 1-888-3-SENSOR (1-888-373-6767) www.bannerengineering.com
e-mail:sensors@bannerengineering.com
P/N 63942
PRINTED IN USA
Source Exif Data:
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