FLIR Systems FLIRT5590 Infrared Camera User Manual Part 3

FLIR Systems AB Infrared Camera Part 3

User Manual Part 3

Download: FLIR Systems FLIRT5590 Infrared Camera User Manual Part 3
Mirror Download [FCC.gov]FLIR Systems FLIRT5590 Infrared Camera User Manual Part 3
Document ID3653473
Application IDOuWvp3SsX0Y3/1is3ZsLng==
Document DescriptionUser Manual Part 3
Short Term ConfidentialNo
Permanent ConfidentialNo
SupercedeNo
Document TypeUser Manual
Display FormatAdobe Acrobat PDF - pdf
Filesize418.62kB (5232737 bits)
Date Submitted2017-11-27 00:00:00
Date Available2017-11-27 00:00:00
Creation Date2017-10-31 13:02:37
Producing SoftwareSAMBox 1.1.6 (www.sejda.org)
Document Lastmod2017-11-21 13:45:59
Document TitleUser Manual Part 3
Document CreatorPDFsam Basic v3.3.2
Document Author: Copyright 2017, FLIR Systems, Inc. All rights reserved worldwide.

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Technical data
24.66 FLIR T660 45° (incl. Wi-Fi)
P/N: 55904-8622
Rev.: 43545
General description
The FLIR T660 is designed for the expert requiring the highest performance and the latest technology
available. The camera combines excellent ergonomics and a walk-up-and-use interface with superior
image quality of 640 × 480 pixel infrared resolution. The FLIR T660 is flexible and can meet your every
need.
Benefits:
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Highest performance with the latest technology: The FLIR T660 is equipped with the innovative Multi
Spectral Dynamic Imaging (MSX) feature, which produces an image richer in detail than ever before.
Continuous auto-focus makes the FLIR T660 the first fully automatic infrared camera on the market.
Ground-breaking efficiency: You can highlight objects of interest, on both the infrared and the visual
images, by sketching or adding predefined stamps directly onto the camera’s capacitive touch
screen. The user interface is intuitive and logical for effective operation. Auto-orientation allows you
to tilt between landscape and portrait views.
Extensive communication options: The Wi-Fi connectivity of the FLIR T660 allows you to connect to
smart phones or tablets for the wireless transfer of images or the remote control of the camera. The
Bluetooth-based METERLiNK function transfers readings from external measurement instruments
to the infrared image.
Support for UltraMax: When enabling UltraMax in the camera, the resolution of images can be substantially enhanced when importing the images into FLIR Tools.
Imaging and optical data
IR resolution
640 × 480 pixels
UltraMax
Yes
Thermal sensitivity/NETD
<20 mK @ +30°C (+86°F)
Field of view (FOV)
45° × 34°
Minimum focus distance
0.15 m (0.49 ft.)
Focal length
13 mm (0.52 in.)
Spatial resolution (IFOV)
1.30 mrad
Lens identification
Automatic
F-number
1.0
Image frequency
30 Hz
Focus
Continuous, one shot or manual
Digital zoom
1–8× continuous
Digital image enhancement
Adaptive digital noise reduction
Detector data
Detector type
Focal plane array (FPA), uncooled
microbolometer
Spectral range
7.5–14 µm
Detector pitch
17 µm
Image presentation
Display
Built-in touch screen, 4.3 in. wide screen LCD,
800 × 480 pixels
Display type
Capacitive touch screen
Auto orientation
Automatic landscape or portrait
Viewfinder
Built-in 800 × 480 pixels
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Technical data
Image presentation
Automatic image adjustment
Continuous, histogram based
Manual image adjustment
Linear based; possible to adjust level/span/max./
min.
Image presentation modes
Infrared image
Full-color IR image
Visual image
Full color visual image
Thermal MSX
Thermal image with enhanced detail presentation
Picture in Picture
Resizable and movable IR area on visual image
Measurement
Object temperature range
Accuracy
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–40°C to +150°C (–40°F to +302°F)
+100°C to +650°C (+212°F to +1202°F)
+300°C to +2000°C (+572°F to +3632°F)
•
±1°C (±1.8°F) or ±1% of reading for limited
temperature range.
±2°C (±3.6°F) or 2%, whichever is greater, at
25°C (77°F) nominal.
•
Measurement analysis
Spotmeter
10
Area
5 + 5 areas (boxes or circles) with max./min./average (in post-acquisition analysis)
Profile
1 line profile with max/min temp
Automatic hot/cold detection
Auto hot or cold spotmeter markers within area
and profile
Measurement presets
No measurements, Center spot, Hot spot, Cold
spot, User preset 1, User preset 2
User presets (in live images)
The user can select and combine measurements
from any number of available spots/boxes/circles/
profiles/delta
Difference temperature
Delta temperature between measurement functions or reference temperature
Reference temperature
Manually set using difference temperature
Atmospheric transmission correction
Automatic, based on inputs for distance, atmospheric temperature and relative humidity
Optics transmission correction
Automatic, based on signals from internal sensors
Emissivity correction
Variable from 0.01 to 1.0 or selected from materials list
Emissivity table
Emissivity table of predefined materials
Reflected apparent temperature correction
Automatic, based on input of reflected
temperature
External optics/windows correction
Automatic, based on inputs of window transmission and temperature
Measurement corrections
Emissivity, reflected temperature, relative humidity,
atmospheric temperature, object distance, external IR window compensation
Colors (palettes)
Iron, Rainbow, Rainbow HC, White hot, Black hot,
Arctic, Lava
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Technical data
Alarm
Color Alarm (isotherm)
Above/below/interval
Measurement function alarm
Audible/visual alarms (above/below) on any selected measurement function
Screening
Difference temperature alarm, audible
Set-up
Set-up commands
Define user presets, Save options, Programmable
button, Reset options, Set up camera, Wi-Fi, GPS
& compass, Bluetooth, Language, Time & units,
Camera information
Service functions
Camera software update
Use PC software FLIR Tools
Storage of images
Image storage
Standard JPEG, including digital photo and measurement data, on memory card
Storage media
Removable memory SD card
Image storage mode
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Simultaneous storage of thermal and digital
photo in same JPEG file.
Optional to store digital photo as a separate
JPEG file.
Time lapse
15 seconds to 24 hours
File formats
Standard JPEG, measurement data included
File formats, visual
Standard JPEG, automatically associated with
corresponding thermal image
Image annotations (in still images)
Voice
60 seconds (via Bluetooth) stored with the image
Text
Add table. Select between predefined templates
or create your own in FLIR Tools
Image description
Add short note (stored in JPEG EXIF tag)
Sketch
Draw on thermal/digital photo or add predefined
stamps
METERLiNK
Wireless connection (Bluetooth) to:
FLIR meters with METERLiNK
Report generation
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Instant Report (*.pdf file) in camera
Separate PC software with extensive report
generation
Geographic Information System
GPS
Location data automatically added to every still
image from built-in GPS
Compass
Camera direction automatically added to every
still image
Video recording in camera
Radiometric IR video recording
CSQ to memory card
Non-radiometric IR video recording
MPEG-4 to memory card
Visual video recording
MPEG-4 to memory card
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Technical data
Video streaming
Radiometric IR video streaming
Non-radiometric IR video streaming
Visual video streaming
Full dynamic to PC using USB or to mobile devices using Wi-Fi.
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MPEG-4 using Wi-Fi
Uncompressed colorized video using USB
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MPEG-4 using Wi-Fi
Uncompressed colorized video using USB
Digital camera
Built-in digital camera
5 Mpixels with LED light (photo as separate
image)
Digital camera, FOV
Adapts to the IR lens
Video lamp
Built-in LED light
Laser pointer
Laser
Activated by dedicated button
Laser alignment
Position is automatic displayed on the IR image
Laser classification
Class 2
Laser type
Semiconductor AlGaInP diode laser, 1 mW, 635
nm (red)
Data communication interfaces
Interfaces
USB-mini, USB-A, Bluetooth, Wi-Fi, Digital Video
Output
METERLiNK/Bluetooth
Communication with headset and external
sensors
Wi-Fi
Peer to peer (ad hoc) or infrastructure (network)
SD Card
One card slot for removable SD memory cards
USB
USB
USB, standard
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USB-A: Connect external USB device
USB Mini-B: Data transfer to and from PC / uncompressed colorized video
USB 2.0 high speed
Video output
Video out
Digital video output (DVI)
Video, connector type
HDMI compatible
Radio
Wi-Fi
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Standard: 802.11 b/g
Frequency range: 2412–2462 MHz
Max. output power: 15 dBm
METERLiNK/Bluetooth
Frequency range: 2402–2480 MHz
Antenna
Internal
Power system
Battery type
Rechargeable Li ion battery
Battery operating time
> 2.5 hours at 25°C (+68°F) and typical use
Charging system
In camera (AC adapter or 12 V from a vehicle) or
2-bay charger
Charging time
2.5 h to 90 % capacity, charging status indicated
by LED's
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24
Technical data
Power system
Charging temperature
0°C to +45°C (+32°F to +113°F)
External power operation
AC adapter 90–260 VAC, 50/60 Hz or 12 V from a
vehicle (cable with standard plug, optional)
Environmental data
Operating temperature range
–15°C to +50°C (+5°F to +122°F)
Storage temperature range
–40°C to +70°C (–40°F to +158°F)
Humidity (operating and storage)
IEC 60068-2-30/24 h 95% relative humidity +25°C
to +40°C (+77°F to +104°F) / 2 cycles
EMC
Radio spectrum
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ETSI EN 301 489-1 (radio)
ETSI EN 301 489-17
EN 61000-6-2 (Immunity)
EN 61000-6-3 (Emission)
FCC 47 CFR Part 15 Class B (Emission)
ICES-003
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•
•
ETSI EN 300 328
FCC Part 15.247
RSS-247 Issue 2
Encapsulation
IP 54 (IEC 60529)
Shock
25 g (IEC 60068-2-27)
Vibration
2 g (IEC 60068-2-6)
Safety
EN/UL/CSA/PSE 60950-1
Physical data
Weight
1.3 kg (2.87 lb.)
Camera size, excl. lens (L × W × H)
143 × 195 × 95 mm (5.6 × 7.7 × 3.7 in.)
Tripod mounting
UNC ¼"-20
Housing material
Magnesium
Shipping information
Packaging, type
List of contents
Cardboard box
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Infrared camera with lens
Battery (2 ea.)
Battery charger
Bluetooth headset
Calibration certificate
Printed documentation
HDMI-DVI cable
HDMI-HDMI cable
Hard transport case
Large eyecap
Lens cap
Memory card
Neck strap
Power supply, incl. multi-plugs
Tripod adapter
USB cable, Std A to Mini-B
Packaging, weight
6.6 kg (14.6 lb.)
Packaging, size
495 × 192 × 370 mm (19.49 × 7.56 × 14.57 in.)
EAN-13
7332558008768
UPC-12
845188009281
Country of origin
Sweden
Supplies & accessories:
• T197914; IR lens, f=41.3 mm (15°) with case
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24
Technical data
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T197922; IR lens, f=24.6 mm (25°) with case
T197915; IR lens, f=13.1 mm (45°) with case
T198059; Close-up IR lens, 2.9× (50 µm) with case
T198060; Close-up IR lens, 5.8× (100 µm) with case
T198166; IR lens, f=88.9 mm (7°) with case and support for T6xx
T198065; IR lens, f=6.5 mm (80°) with case
T198066; Close-up IR lens, 1.5× (25 µm) with case
T197896; High temperature option +300°C to 2000°C (+572°F to 3632°F)
T910814; Power supply, incl. multi plugs
T198126; Battery charger, incl. power supply with multi plugs T6xx
T199406ACC; Battery Li-ion 3.7 V, 7.8 Ah, 29 Wh
T911650ACC; Memory card SD Card 8 GB
1910423; USB cable Std A <-> Mini-B
T198509; Cigarette lighter adapter kit, 12 VDC, 1.2 m/3.9 ft.
T910930ACC; HDMI type C to DVI cable 1.5 m
T910891ACC; HDMI type C to HDMI type A cable 1.5 m
T198625ACC; Hard transport case
T198495; Pouch
T198497; Large eyecup
T198498; Tripod Adapter
T198499; Neck strap
T197771ACC; Bluetooth Headset
T911093; Tool belt
19250-100; IR Window 2 in
19251-100; IR Window 3 in.
19252-100; IR Window 4 in.
19250-200; SS IR Window 2 in.
19251-200; SS IR Window 3 in.
19252-200; SS IR Window 4 in.
T198496; Stylus pen
T198586; FLIR Reporter Professional (license only)
T198584; FLIR Tools
T198583; FLIR Tools+ (download card incl. license key)
DSW-10000; FLIR IR Camera Player
APP-10002; FLIR Tools Mobile (Android Application)
APP-10004; FLIR Tools (MacOS Application)
T199233; FLIR Atlas SDK for .NET
T199234; FLIR Atlas SDK for MATLAB
#T559880; r. AL/45866/46124; en-US
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25
Mechanical drawings
[See next page]
#T559880; r. AL/45866/46124; en-US
444
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26
CE Declaration of conformity
[See next page]
#T559880; r. AL/45866/46124; en-US
454
27
Cleaning the camera
27.1 Camera housing, cables, and other items
27.1.1
Liquids
Use one of these liquids:
• Warm water
• A weak detergent solution
27.1.2
Equipment
A soft cloth
27.1.3
Procedure
Follow this procedure:
1. Soak the cloth in the liquid.
2. Twist the cloth to remove excess liquid.
3. Clean the part with the cloth.
CAUTION
Do not apply solvents or similar liquids to the camera, the cables, or other items. This can cause
damage.
27.2 Infrared lens
27.2.1
Liquids
Use one of these liquids:
• A commercial lens cleaning liquid with more than 30% isopropyl alcohol.
• 96% ethyl alcohol (C2H5OH).
27.2.2
Equipment
Cotton wool
CAUTION
If you use a lens cleaning cloth it must be dry. Do not use a lens cleaning cloth with the liquids that are
given in section 27.2.1 above. These liquids can cause material on the lens cleaning cloth to become
loose. This material can have an unwanted effect on the surface of the lens.
27.2.3
Procedure
Follow this procedure:
1. Soak the cotton wool in the liquid.
2. Twist the cotton wool to remove excess liquid.
3. Clean the lens one time only and discard the cotton wool.
WARNING
Make sure that you read all applicable MSDS (Material Safety Data Sheets) and warning labels on containers before you use a liquid: the liquids can be dangerous.
CAUTION
•
•
Be careful when you clean the infrared lens. The lens has a delicate anti-reflective coating.
Do not clean the infrared lens too vigorously. This can damage the anti-reflective coating.
#T559880; r. AL/45866/46124; en-US
456
27
Cleaning the camera
27.3 Infrared detector
27.3.1
General
Even small amounts of dust on the infrared detector can result in major blemishes in the
image. To remove any dust from the detector, follow the procedure below.
Note
• This section only applies to cameras where removing the lens exposes the infrared
detector.
• In some cases the dust cannot be removed by following this procedure: the infrared
detector must be cleaned mechanically. This mechanical cleaning must be carried out
by an authorized service partner.
CAUTION
In Step 2 below, do not use pressurized air from pneumatic air circuits in a workshop, etc., as this air
usually contains oil mist to lubricate pneumatic tools.
27.3.2
Procedure
Follow this procedure:
1. Remove the lens from the camera.
2. Use pressurized air from a compressed air canister to blow off the dust.
#T559880; r. AL/45866/46124; en-US
457
28
Application examples
28.1 Moisture & water damage
28.1.1
General
It is often possible to detect moisture and water damage in a house by using an infrared
camera. This is partly because the damaged area has a different heat conduction property and partly because it has a different thermal capacity to store heat than the surrounding material.
Many factors can come into play as to how moisture or water damage will appear in an
infrared image.
For example, heating and cooling of these parts takes place at different rates depending
on the material and the time of day. For this reason, it is important that other methods are
used as well to check for moisture or water damage.
28.1.2
Figure
The image below shows extensive water damage on an external wall where the water
has penetrated the outer facing because of an incorrectly installed window ledge.
28.2 Faulty contact in socket
28.2.1
General
Depending on the type of connection a socket has, an improperly connected wire can result in local temperature increase. This temperature increase is caused by the reduced
contact area between the connection point of the incoming wire and the socket , and can
result in an electrical fire.
A socket’s construction may differ dramatically from one manufacturer to another. For
this reason, different faults in a socket can lead to the same typical appearance in an infrared image.
Local temperature increase can also result from improper contact between wire and
socket, or from difference in load.
28.2.2
Figure
The image below shows a connection of a cable to a socket where improper contact in
the connection has resulted in local temperature increase.
#T559880; r. AL/45866/46124; en-US
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Keywords                        : Support:, http://support.flir.com, —, Training:, http://www.infraredtraining.com
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