Siemens RF660 RFID reader User Manual SIMATIC RF620A

Siemens AG RFID reader SIMATIC RF620A

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User Manual

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SIMATIC RF620A
SIMATIC sensors
RFID systems
SIMATIC RF620A
Description
Ordering data
Installation and assembly
Connecting an antenna to
the reader
Alignment of transponders to
the antenna
Parameterization of RF620A
for RF660R
Antenna patterns
Read/write ranges
Technical data
Operating Instructions
01/2010
J31069-D0216-U001-A1-7618
Dimension drawing
10
Approvals & certificates
11
Legal information
Legal information
Warning notice system
This manual contains notices you have to observe in order to ensure your personal safety, as well as to prevent
damage to property. The notices referring to your personal safety are highlighted in the manual by a safety alert
symbol, notices referring only to property damage have no safety alert symbol. These notices shown below are
graded according to the degree of danger.
DANGER
indicates that death or severe personal injury will result if proper precautions are not taken.
WARNING
indicates that death or severe personal injury may result if proper precautions are not taken.
CAUTION
with a safety alert symbol, indicates that minor personal injury can result if proper precautions are not taken.
CAUTION
without a safety alert symbol, indicates that property damage can result if proper precautions are not taken.
NOTICE
indicates that an unintended result or situation can occur if the corresponding information is not taken into
account.
If more than one degree of danger is present, the warning notice representing the highest degree of danger will
be used. A notice warning of injury to persons with a safety alert symbol may also include a warning relating to
property damage.
Qualified Personnel
The product/system described in this documentation may be operated only by personnel qualified for the specific
task in accordance with the relevant documentation for the specific task, in particular its warning notices and
safety instructions. Qualified personnel are those who, based on their training and experience, are capable of
identifying risks and avoiding potential hazards when working with these products/systems.
Proper use of Siemens products
Note the following:
WARNING
Siemens products may only be used for the applications described in the catalog and in the relevant technical
documentation. If products and components from other manufacturers are used, these must be recommended
or approved by Siemens. Proper transport, storage, installation, assembly, commissioning, operation and
maintenance are required to ensure that the products operate safely and without any problems. The permissible
ambient conditions must be adhered to. The information in the relevant documentation must be observed.
Trademarks
All names identified by ÂŽ are registered trademarks of the Siemens AG. The remaining trademarks in this
publication may be trademarks whose use by third parties for their own purposes could violate the rights of the
owner.
Disclaimer of Liability
We have reviewed the contents of this publication to ensure consistency with the hardware and software
described. Since variance cannot be precluded entirely, we cannot guarantee full consistency. However, the
information in this publication is reviewed regularly and any necessary corrections are included in subsequent
editions.
Siemens AG
Industry Sector
Postfach 48 48
90026 NÜRNBERG
GERMANY
J31069-D0216-U001-A1-7618
Ⓟ 02/2010
Copyright Š Siemens AG 2010.
Technical data subject to change
Table of contents
Description................................................................................................................................................. 5
Ordering data............................................................................................................................................. 7
Installation and assembly .......................................................................................................................... 9
3.1
RF620A mounting types ................................................................................................................9
Connecting an antenna to the reader....................................................................................................... 11
4.1
Overview ......................................................................................................................................11
4.2
Connecting RF620A to RF630R ..................................................................................................12
4.3
Connecting RF620A to RF660R ..................................................................................................13
Alignment of transponders to the antenna ............................................................................................... 15
Parameterization of RF620A for RF660R ................................................................................................ 19
Antenna patterns ..................................................................................................................................... 21
7.1
Antenna pattern ETSI ..................................................................................................................21
7.2
Antenna pattern FCC ...................................................................................................................24
7.3
Interpretation of directional radiation patterns .............................................................................27
Read/write ranges.................................................................................................................................... 29
Technical data ......................................................................................................................................... 33
10
Dimension drawing .................................................................................................................................. 35
11
Approvals & certificates ........................................................................................................................... 37
11.1
CE mark .......................................................................................................................................37
11.2
FCC approvals .............................................................................................................................37
SIMATIC RF620A
Operating Instructions, 01/2010, J31069-D0216-U001-A1-7618
Table of contents
SIMATIC RF620A
Operating Instructions, 01/2010, J31069-D0216-U001-A1-7618
1
Description
SIMATIC RF620A
Features
Field of application
The SIMATIC RF620A is an
antenna of compact, industrystandard design.
It is suitable for UHF transponders
with normal (far field) antenna
characteristics, e.g.
SIMATIC RF630L,
SIMATIC RF620T.
Antenna field
Designed for transponders that are
uniformly aligned whilst directed
past the antenna.
See Chapter Alignment of
transponders to the antenna
(Page 15)
Writing/reading range
Approx. 0.5 m depending on the
transponder
(see Chapter Read/write ranges
(Page 29) )
Connecting cable
30 cm movable connecting cable
and RTNC coupling (an antenna
cable, e.g. 6GT2815-0BH30 is
required for connection to the
reader)
Readers that can be
connected


RF660R (at least 2 antennas)
RF630R (1 or 2 antennas)
Polarization
Linear
Degree of protection
IP67
Frequency bands
The antenna is available for two different frequency bands that have been specified for the
regions of Europe, and China, USA respectively.
● The antenna for Europe operates in the frequency band of 865 to 868 MHz.
● The antenna for China and the USA operates in the frequency band of 902 to 928 MHz.
Function
The SIMATIC RF620A is used for transmitting and receiving RFID signals in the UHF
frequency band. The antennas are connected to the SIMATIC RF600 readers via antenna
cables that are available in different lengths.
SIMATIC RF620A
Operating Instructions, 01/2010, J31069-D0216-U001-A1-7618
Description
SIMATIC RF620A
Operating Instructions, 01/2010, J31069-D0216-U001-A1-7618
2
Ordering data
Table 2- 1
Ordering data RF620A
Product
Order No.
SIMATIC RF620A (ETSI)
6GT2812-1EA00
SIMATIC RF620A (FCC)
6GT2812-1EA01
Accessories
Table 2- 2
Ordering data (accessories)
Product
Connecting cable between
reader and antenna
SIMATIC RF620A
Operating Instructions, 01/2010, J31069-D0216-U001-A1-7618
Order No.
3 m (cable loss 1.0 dB)
6GT2815-0BH30
10 m (cable loss 2.0 dB)
6GT2815-1BN10
10 m (cable loss 4.0 dB)
6GT2815-0BN10
20 m (cable loss 4.0 dB)
6GT2815-0BN20
Ordering data
SIMATIC RF620A
Operating Instructions, 01/2010, J31069-D0216-U001-A1-7618
Installation and assembly
3.1
RF620A mounting types
Two holes for M5 screws are provided for mounting the antenna. This is therefore suitable
for:
● Mounting on metallic and non-metallic backgrounds
Note
To achieve optimum wave propagation, the antenna should not be surrounded by
conducting objects. The area between antenna and transponder should also allow wave
propagation without interference.
SIMATIC RF620A
Operating Instructions, 01/2010, J31069-D0216-U001-A1-7618
Installation and assembly
3.1 RF620A mounting types
10
SIMATIC RF620A
Operating Instructions, 01/2010, J31069-D0216-U001-A1-7618
4
Connecting an antenna to the reader
4.1
Overview
The SIMATIC RF620A antenna must be connected to the reader using an antenna cable.
Requirement
Note
Use of Siemens antenna cable
To ensure optimum functioning of the antenna, it is recommended that a Siemens antenna
cable is used in accordance with the list of accessories.
Strain relief
The antenna cable is provided with strain relief as shown in the following diagram:
①
②
③
RF620A connecting cable
RF600 antenna cable
Strain relief (should take place at this position)
Figure 4-1
Strain relief
Bending radii of the cables
Cable
designation
Order No.
Length [m]
Cable loss [dB]
RF620A
connecting cable
Antenna cable
Bending radius
[mm]
15
6GT2815-0BH30
51
Antenna cable
6GT2815-1BN10
10
77
Antenna cable
6GT2815-0BN10
10
51
Antenna cable
6GT2815-0BN20
20
77
SIMATIC RF620A
Operating Instructions, 01/2010, J31069-D0216-U001-A1-7618
11
Connecting an antenna to the reader
4.2 Connecting RF620A to RF630R
4.2
Connecting RF620A to RF630R
Preassembled standard cables (Page 7) in lengths of 3 m, 10 m and 20 m are available for
the connection.
The read range is limited by the cable loss. The maximum range can be achieved with the
6GT2815-0BH30 cable (length 3 m) since this has the lowest cable loss.
Connection of one antenna
When one antenna is used, we recommend that the remaining antenna connection on the
RF630R reader be sealed using the supplied protective cap.
Connection of two antennas
When using two antennas on the RF630R, there are no limitations to the positioning.
12
SIMATIC RF620A
Operating Instructions, 01/2010, J31069-D0216-U001-A1-7618
Connecting an antenna to the reader
4.3 Connecting RF620A to RF660R
4.3
Connecting RF620A to RF660R
Preassembled standard cables (Page 7) in lengths of 3 m, 10 m and 20 m are available for
the connection.
The read range is limited by the cable loss. The maximum range can be achieved with the
6GT2815-0BH30 cable (length 3 m) since this has the lowest cable loss.
At least two antennas must be connected in order to guarantee correct functioning.
Connection of two antennas
When two antennas are used, we recommend that the antennas be connected to the reader
as follows:
6,0$7,&
5)5
6,0$7,&
5)$
PP
6,0$7,&
5)$
Figure 4-2
Configuration with RF660R
The RF620A antennas must always be arranged in pairs with the RF660R since one
antenna is needed for transmitting signals to the transponder whereas the other antenna
receives the signals from the transponder.
Note
Operation of the RF660R with more than two RF620A antennas does not offer optimum
performance!
More than two antennas should not be connected due to the functional design of the reader.
The optimum read rates cannot be achieved if you connect more than two RF620A
antennas.
SIMATIC RF620A
Operating Instructions, 01/2010, J31069-D0216-U001-A1-7618
13
Connecting an antenna to the reader
4.3 Connecting RF620A to RF660R
14
SIMATIC RF620A
Operating Instructions, 01/2010, J31069-D0216-U001-A1-7618
Alignment of transponders to the antenna
Polarization axis
Since the RF620A antenna has linear polarization, it is necessary to consider the alignment
of the transponders with regard to the polarization axis of the antenna.
The polarization axes of antenna and transponder must always be parallel. The symbol on
the antenna indicates the polarization axis.
3RODUL]DWLRQD[LV
Figure 5-1
Polarization axis
SIMATIC RF620A
Operating Instructions, 01/2010, J31069-D0216-U001-A1-7618
15
Alignment of transponders to the antenna
Alignment
The following diagram shows the optimum alignment of the RF600 transponders to the
RF620A antenna.
6,0$7,&5)$
5)7
5)7
Figure 5-2
16
5)7
5)7
5)7*HQ
5)/
Antenna/transponder alignment
SIMATIC RF620A
Operating Instructions, 01/2010, J31069-D0216-U001-A1-7618
Alignment of transponders to the antenna
Angle deviation diagram for alignment
The following diagram shows the dependence of the following factors.
● Alignment angle of transponder to antenna
● Maximum range of antenna
6,0$7,&5)$


0D[UDQJH>@









r r r r r r r r r 
r r r r r r r r r
$QJOHGHYLDWLRQRISRODUL]DWLRQD[HVRIDQWHQQDDQGWDJ>GHJUHHV@
Figure 5-3
Angle deviation diagram for alignment
SIMATIC RF620A
Operating Instructions, 01/2010, J31069-D0216-U001-A1-7618
17
Alignment of transponders to the antenna
18
SIMATIC RF620A
Operating Instructions, 01/2010, J31069-D0216-U001-A1-7618
6
Parameterization of RF620A for RF660R
ETSI antenna
The actual antenna gain for parameterization cannot be directly set.
The maximum range with the SIMATIC RF620A antenna can be achieved with the default
values of 7 dBi antenna gain and 4 dB cable loss. With these settings the RF600 system
complies with the applicable directives and standards.
Antenna cable
Order No.
Actual cable loss
Set cable loss
3m
6GT2815-0BH30
1 dB
4 dB
10 m
6GT2815-1BN10
2 dB
4 dB
10 m
6GT2815-0BN10
4 dB
4 dB
20 m
6GT2815-0BN20
4 dB
4 dB
NOTICE
The actual cable loss and the set cable loss differ
The maximum range can only be achieved with a 3 m cable with 1 dB loss and setting
4 dB.
FCC antenna and parameterization
Make sure that the values for the actual cable loss are set correctly.
The maximum range with the SIMATIC RF620A antenna can only be achieved with the
following settings. With these settings the RF600 system complies with the applicable
directives and standards.
Antenna cable
Order No.
Actual cable loss
Set cable loss
3m
6GT2815-0BH30
1 dB
1 dB
10 m
6GT2815-1BN10
2 dB
2 dB
10 m
6GT2815-0BN10
4 dB
4 dB
20 m
6GT2815-0BN20
4 dB
4 dB
SIMATIC RF620A
Operating Instructions, 01/2010, J31069-D0216-U001-A1-7618
19
Parameterization of RF620A for RF660R
20
SIMATIC RF620A
Operating Instructions, 01/2010, J31069-D0216-U001-A1-7618
7
Antenna patterns
7.1
Antenna pattern ETSI
Directional radiation pattern Europe (ETSI)
The directional radiation pattern is shown for nominal alignment and a center frequency of
866.3 MHz. The nominal antenna alignment is given when the antenna elevation is provided
as shown in the following figure.
r
r
r
r
r
r
Figure 7-1
Reference system
The half-power beamwidth of the antenna is defined by the angle between the two -3 dB
points. Which range (in %) corresponds to the dB values in the patterns can be obtained
from this table (Page 27).
Note that the measurements presented graphically below were carried out in a low-reflection
environment. Deviations can therefore occur in a normally reflecting environment.
SIMATIC RF620A
Operating Instructions, 01/2010, J31069-D0216-U001-A1-7618
21
Antenna patterns
7.1 Antenna pattern ETSI
Directional radiation pattern ETSI on metallic mounting surface (15 cm x 15 cm)
*DLQG%L







































$QJOHGHJUHHV
Pattern of the vertical plane of the antenna
Pattern of the horizontal plane of the antenna
Figure 7-2
22
Directional radiation pattern RF620A ETSI on metallic mounting surface
SIMATIC RF620A
Operating Instructions, 01/2010, J31069-D0216-U001-A1-7618
Antenna patterns
7.1 Antenna pattern ETSI
Directional radiation pattern ETSI on non-metallic mounting surface
*DLQG%L







































$QJOHGHJUHHV
Pattern of the vertical plane of the antenna
Pattern of the horizontal plane of the antenna
Figure 7-3
Directional radiation pattern RF620A ETSI on non-metallic mounting surface
SIMATIC RF620A
Operating Instructions, 01/2010, J31069-D0216-U001-A1-7618
23
Antenna patterns
7.2 Antenna pattern FCC
7.2
Antenna pattern FCC
Directional radiation pattern USA (FCC)
The directional radiation pattern is shown for nominal alignment and a center frequency of
915 MHz.
r
r
r
r
r
r
Figure 7-4
Reference system
The half-power beamwidth of the antenna is defined by the angle between the two -3 dB
points (corresponding to half the power referred to the maximum power). Which range (in %)
corresponds to the dB values in the patterns can be obtained from this table (Page 27).
Note that the measurements presented graphically below were carried out in a low-reflection
environment. Low deviations can therefore occur in a normally reflecting environment.
24
SIMATIC RF620A
Operating Instructions, 01/2010, J31069-D0216-U001-A1-7618
Antenna patterns
7.2 Antenna pattern FCC
Directional radiation pattern of the RF620A (FCC) on metallic mounting surface (15 cm x 15 cm)
*DLQG%L








































$QJOHGHJUHHV
Pattern of the vertical plane of the antenna
Pattern of the horizontal plane of the antenna
Figure 7-5
Directional radiation pattern of the RF620A (FCC) on metallic mounting surface
SIMATIC RF620A
Operating Instructions, 01/2010, J31069-D0216-U001-A1-7618
25
Antenna patterns
7.2 Antenna pattern FCC
Directional radiation pattern of the RF620A (FCC) on non-metallic mounting surface
*DLQG%L







































$QJOHGHJUHHV
Pattern of the vertical plane of the antenna
Pattern of the horizontal plane of the antenna
Figure 7-6
26
Directional radiation pattern of the RF620A (FCC) on non-metallic mounting surface
SIMATIC RF620A
Operating Instructions, 01/2010, J31069-D0216-U001-A1-7618
Antenna patterns
7.3 Interpretation of directional radiation patterns
7.3
Interpretation of directional radiation patterns
The following overview table will help you with the interpretation of directional radiation
patterns.
The table shows which dBi values correspond to which read/write ranges (in %): You can
read the radiated power depending on the reference angle from the directional radiation
patterns, and thus obtain information on the read/write range with this reference angle with
regard to a transponder.
The dBr values correspond to the difference between the maximum dBi value and a second
dBi value.
Deviation from maximum antenna gain [dBr]
Read/write range [%]
100
-3
70
-6
50
-9
35
-12
25
-15
18
-18
13
Example
As one can see from the Antenna pattern ETSI (Page 22), the maximum antenna gain is 5 dBi. In the vertical plane, the antenna gain has dropped to approx. -11 dBi at +40° and
320°. Therefore the dBr value is -6. The antenna range is only 50% of the maximum range at
¹ 40° from the Z axis within the vertical plane (see values shown in blue in the directional
radiation pattern: characteristic of the vertical plane of the antenna (Page 22) and the
associated representation of the reference system (Page 21)).
SIMATIC RF620A
Operating Instructions, 01/2010, J31069-D0216-U001-A1-7618
27
Antenna patterns
7.3 Interpretation of directional radiation patterns
28
SIMATIC RF620A
Operating Instructions, 01/2010, J31069-D0216-U001-A1-7618
8
Read/write ranges
The following tables show the typical read/write ranges of RF600 readers which are
connected to the RF620A antenna via the 3 m antenna cable (1 dB loss) and various types
of tags.
Tolerances of Âą20% are admissible due to production and temperature conditions.
When using other antenna cables, the ranges listed here are reduced as a result of the
higher antenna cable losses in the following manner:
Cable
designation
Order No.
Length [m]
Cable loss [dB]
Read/write range [%]
Antenna cable
6GT2815-0BH30
100
Antenna cable
6GT2815-1BN10
10
90
Antenna cable
6GT2815-0BN10
10
70
Antenna cable
6GT2815-0BN20
20
70
The measuring tolerances in the following tables are Âą3 cm.
Read distances RF630R
Table 8- 1
Read distances RF630R
Transponder
Connection to RF630R
RF620A ETSI
on metal [cm]
RF620A ETSI on
non-metal [cm]
RF620A FCC on
metal [cm]
RF620A FCC on
non-metal [cm]
RF630L
(6GT2810-2AB00,
-2AB01, -2AB02)
90 1)
70 1)
60 1)
50 1)
RF630L
(6GT2810-2AB03)
55
50
55
45
RF680L
55
50
55
45
RF610T
55
50
55
45
RF620T
55
45
70
60
RF630T
25 2)
20 2)
35 2)
25 2)
RF640T Gen 2
55
45
40
35 2)
RF680T
60
1)
2)
2)
50
2)
90
2)
70
Transponder mounted on cardboard
Transponder mounted on metal
SIMATIC RF620A
Operating Instructions, 01/2010, J31069-D0216-U001-A1-7618
29
Read/write ranges
Write distances RF630R
Table 8- 2
Write distances RF630R
Transponder
Connection to RF630R
RF620A ETSI
on metal [cm]
RF620A ETSI on
non-metal [cm]
RF620A FCC on
metal [cm]
RF620A FCC on
non-metal [cm]
RF630L
(6GT2810-2AB00,
-2AB01, -2AB02)
45 1)
40 1)
35 1)
30 1)
RF630L
(6GT2810-2AB03)
35
30
20
25
RF680L
35
30
20
25
RF610T
35
30
20
25
RF620T
30
30
40
35
RF630T
15 2)
5 2)
15 2)
10 2)
RF640T Gen 2
35 2)
20 2)
20 2)
15 2)
RF680T
40
30
40
35
1)
2)
Transponder mounted on cardboard
Transponder mounted on metal
Read distances RF660R
Table 8- 3
Read distances RF660R
Transponder
RF620A ETSI
on metal [cm]
RF620A ETSI on
non-metal [cm]
RF620A FCC on
metal [cm]
RF620A on nonmetal [cm]
RF630L
(6GT2810-2AB00,
-2AB01, -2AB02)
135 1)
120 1)
100 1)
90 1)
RF630L
(6GT2810-2AB03)
85
70
75
65
RF680L
85
70
75
65
RF610T
85
70
75
65
RF620T
85
85
95
95
RF630T
40 2)
35 2)
50 2)
35 2)
RF640T
40
35
40
2)
30 2)
RF640T Gen 2
90 2)
70 2)
70 2)
50 2)
RF680T
90
90
135
95
1)
2)
30
Connection to RF660R
2)
2)
Transponder mounted on cardboard
Transponder mounted on metal
SIMATIC RF620A
Operating Instructions, 01/2010, J31069-D0216-U001-A1-7618
Read/write ranges
Write distances RF660R
Table 8- 4
Write distances RF660R
Transponder
Connection to RF660R
RF620A ETSI
on metal
RF620A ETSI on
non-metal
RF620A FCC on
metal
RF620A on nonmetal
RF630L
(6GT2810-2AB00,
-2AB01, -2AB02)
110 1)
90 1)
55 1)
50 1)
RF630L
(6GT2810-2AB03)
75
70
60
55
RF680L
75
70
60
55
RF610T
75
70
60
55
RF620T
60
55
60
45
RF630T
30 2)
25 2)
35 2)
25 2)
RF640T
35 2)
30 2)
25 2)
25 2)
RF640T Gen 2
70
60
50
40 2)
RF680T
80
1)
2)
2)
75
2)
2)
100
80
Transponder mounted on cardboard
Transponder mounted on metal
SIMATIC RF620A
Operating Instructions, 01/2010, J31069-D0216-U001-A1-7618
31
Read/write ranges
32
SIMATIC RF620A
Operating Instructions, 01/2010, J31069-D0216-U001-A1-7618
9
Technical data
Table 9- 1
General technical data RF620A
Feature
SIMATIC RF620A ETSI
Dimensions in mm (L x W x H)
75 x 75 x 20
Color
Pastel turquoise
Material
PA 12 (polyamide 12)
SIMATIC RF620A FCC
Silicone-free
Frequency range
865 to 868 MHz
Plug connection
30 cm coaxial cable with RTNC coupling
(for connection of antenna cable)
Max. radiated power
< 500 mW ERP
No limitation
(since antenna gain ≪ 6 dBi)
Max. power
2W
1W
Impedance
50 Ohm
Antenna gain
-10 dBi ... -5 dBi
Depends on background, see
Chapter Directional radiation
pattern ETSI (Page 22)
902 to 928 MHz
Depends on background, see
Chapter Directional radiation
pattern FCC (Page 25)
VSWR (standing wave ratio)
Max. 2:1
Polarization
Linear
Radiating/receiving angle
Depends on background,
Depends on background,
see Chapter Directional
see Chapter Directional
radiation pattern ETSI (Page 22) radiation pattern FCC (Page25)
Shock resistant to EN 60068-227
50 g
Vibration resistant to EN 600682-6
20 g
Attachment of the antenna
2 x M5 screws
Tightening torque
≤ 2 Nm
(at room temperature)
Ambient temperature
 Operation
 Transport and storage


MTBF
25 ¡ 107 h
Degree of protection according
to EN 60529
IP67
Weight, approx.
90 g
SIMATIC RF620A
Operating Instructions, 01/2010, J31069-D0216-U001-A1-7618
-20 °C to +70 °C
-40 °C to +85 °C
33
Technical data
34
SIMATIC RF620A
Operating Instructions, 01/2010, J31069-D0216-U001-A1-7618
10
s
ࡘ


s


s
Dimension drawing
s
s
s
Figure 10-1
s
Dimension drawing RF620A
All dimensions in mm
SIMATIC RF620A
Operating Instructions, 01/2010, J31069-D0216-U001-A1-7618
35
Dimension drawing
36
SIMATIC RF620A
Operating Instructions, 01/2010, J31069-D0216-U001-A1-7618
11
Approvals & certificates
11.1
CE mark
Table 11- 1
6GT2812-1EA00
Certificate
Designation
Conformity in accordance with R&TTE directive
in association with the readers and accessories used
11.2
FCC approvals
Table 11- 2
6GT2812-1EA01
Standard
FCC CFR 47, Part 15 sections 15.247
Federal Communications
Commission
Industry Canada Radio
Standards Specifications
Radio Frequency Interference Statement
This equipment has been tested and found to comply with the limits
for a Class B digital device, pursuant to Part 15 of the FCC Rules.
The FCC approval is granted in association with the FCC approval of
the following RF600 readers:
 FCC ID: NXW-RF630R
 FCC ID: NXW-RF660
RSS-210 Issue 7, June 2007, Sections 2.2, A8
IC: 267X-RF630
The approval for Industry Canada is granted in association with the
Industry Canada approval of the following RF600 readers:
 IC: 267X-RF630
 IC: 267X-RF660
This product is UL-certified for the USA and Canada.
It meets the following safety standard(s):
UL 60950-1 - Information Technology Equipment Safety - Part 1:
General Requirements
CSA C22.2 No. 60950 -1 - Safety of Information Technology
Equipment
UL Report E 205089
SIMATIC RF620A
Operating Instructions, 01/2010, J31069-D0216-U001-A1-7618
37
Approvals & certificates
11.2 FCC approvals
38
SIMATIC RF620A
Operating Instructions, 01/2010, J31069-D0216-U001-A1-7618

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Title                           : SIMATIC RF620A
Description                     : Operating Instructions
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System                          : SIMATIC sensors
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Company-short                   : Siemens
Company-long                    : Siemens AG
Page Mode                       : UseOutlines
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Author                          : I IA CE ITS POI 4
Keywords                        : J31069-D0216-U001-A1-7618;, 01/2010
Subject                         : Operating Instructions
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FCC ID Filing: NXW-RF660

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