Siemens RF310R02 RFID Reader 13.56 MHz User Manual SIMATIC RF300

Siemens AG RFID Reader 13.56 MHz SIMATIC RF300

User Manual part 2

Download: Siemens RF310R02 RFID Reader 13.56 MHz User Manual SIMATIC RF300
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Date Submitted2016-08-09 00:00:00
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Document TitleSIMATIC RF300
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Document Author: SIEMENS AG

Antennas
6.1
Features
For the RF350R and RF350M readers, you can use the following plug-in antennas:
Antenna
Product photo
ANT 1
Limit distance Sg 1)
Dimensions
Up to 140 mm
75 x 75 x 20 mm
(L x W x H)
ANT 3
Up to 50 mm
50 x 75 x 10 mm
(L x W x H)
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Antennas
6.1 Features
Antenna
Product photo
ANT 3S
Limit distance Sg 1)
Dimensions
Up to 5 mm
50 × 28 × 10 mm
(L x W x H)
ANT 8 2)
Up to 4 mm
M8 x 1.0 x 39 mm
(∅ x thread x L)
ANT 12
Up to 16 mm
M12 x 1.0 x 40 mm
(∅ x thread x L)
ANT 18
Up to 35 mm
M18 x 1.0 x 55 mm
(Ø x thread x L)
ANT 30
Up to 55 mm
M30 x 1.5 x 61 mm
(Ø x thread x L)
1)
Depending on the transponder used
2)
only released with RF350M und RF350R - second generation
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Antennas
6.1 Features
Note
Use of the antennas in hazardous areas
The antennas ANT 1, ANT 12, ANT 18 and ANT 30 are approved for use in hazardous
locations. For more information, refer to the section "Use of the reader in hazardous areas
(Page 149)".
ANT 1
The ANT 1 is an antenna in the mid performance range and can be used to the customer's
advantage in production and assembly lines due to its manageable housing shape. The
antenna dimensions make it possible to read/write large quantities of data dynamically
from/to the transponder during operation. The antenna cable can be connected at the reader
end.
ANT 3
The ANT 3 is designed for use in small assembly lines. The extremely compact design of the
antenna allows extremely accurate positioning. The antenna cable can be connected at the
reader end.
ANT 3S
The ANT 3S is designed for use in small assembly lines. The extremely compact design of
the antenna allows extremely accurate positioning even with small transponders. The
antenna cable can be connected at the reader end.
ANT 8
The ANT 8 is primarily envisaged for tool identification applications. The extremely small
design of the antenna allows extremely accurate positioning. The antenna cable can be
connected at the reader end and screwed to the antenna.
The antenna ANT 8 has currently only been tested and released for use in conjunction with
the mobile reader RF350M and the reader RF350R - second generation.
ANT 12
The ANT 12 is primarily envisaged for tool identification applications. The very small size of
the antenna means that highly exact positioning is possible using the plastic nuts included in
the scope of delivery. The antenna cable can be connected at the reader end.
ANT 18
The ANT 18 is designed for use in small assembly lines. Due to its small, compact
construction, the antenna can be easily positioned for any application using two plastic nuts
(included in the package). The antenna cable can be connected at the reader end.
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Antennas
6.2 Ordering data
ANT 30
The ANT 30 is designed for use in small assembly lines. In comparison to ANT 18, the
maximum write/read distance is approximately 60 % larger. Due to its compact construction,
the antenna can be easily positioned for any application using two plastic nuts (included in
the package). The antenna cable can be connected at the reader end.
6.2
Ordering data
Table 6- 1
Ordering data for antennas
Article number
ANT 1
incl. integrated antenna cable 3 m
6GT2398-1CB00
ANT 3
without antenna connecting cable
6GT2398-1CD30-0AX0
incl. plug-in antenna cable 3 m
6GT2398-1CD40-0AX0
without antenna connecting cable
6GT2398-1CD50-0AX0
incl. plug-in antenna cable 3 m
6GT2398-1CD60-0AX0
without antenna connecting cable
6GT2398-1CF00
ANT 3S
ANT 8
incl. plug-in antenna cable 3 m
6GT2398-1CF10
ANT 12
incl. plug-in antenna cable 3 m
6GT2398-1CC00
ANT 18
incl. plug-in antenna cable 3 m
6GT2398-1CA00
ANT 30
incl. plug-in antenna cable 3 m
6GT2398-1CD00
Table 6- 2
Antenna accessories ordering data
Article number
Antenna connecting cable
6.3
3m
6GT2398-0AH30
Ensuring reliable data exchange
The "center point" of the transponder must be situated within the transmission window.
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Antennas
6.4 Metal-free area
6.4
Metal-free area
The antennas ANT 1, ANT 8, ANT 12, ANT 18 and ANT 30 can be flush-mounted in metal.
Please allow for a possible reduction in the field data values. During installation, maintain the
minimum distances (a and b) on/flush with the metal.
Note
Reduction of range if the metal-free space is not maintained
At values lower than a and b, the field data changes significantly, resulting in a reduction in
the limit distance and operating distance. Therefore, during installation, maintain the
minimum distances (a and b) on/flush with the metal.
Metal-free space for flush-mounted installation of ANT 1
a=
40 mm
Figure 6-1
ANT 1 flush-mounted in metal
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Antennas
6.4 Metal-free area
Metal-free space for flush-mounted installation of ANT 3 and ANT 3S
①
②
ANT 3
= 10 mm
Metal
Figure 6-2
ANT 3 and ANT 3S flush-mounted in metal
Flush-mounting of ANT 8
Figure 6-3
ANT 8 flush-mounted in metal
The ANT 8 can be flush-mounted in metal.
Flush-mounting of ANT 12
Figure 6-4
ANT 12 flush-mounted in metal
The ANT 12 can be flush-mounted in metal.
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Antennas
6.4 Metal-free area
Metal-free space for flush-mounted installation of ANT 18
a=
10 mm
b=
10 mm
Figure 6-5
ANT 18 flush-mounted in metal
Metal-free space for flush-mounted installation of ANT 30
a=
20 mm
b=
20 mm
Figure 6-6
ANT 30 flush-mounted in metal
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Antennas
6.5 Minimum distance between antennas
6.5
Table 6- 3
Minimum distance between antennas
Minimum distance between antennas
Diagram (example)
Minimum distance [mm]
Antennas next to each other
ANT 1
D ≥ 100 mm
ANT 3
D ≥ 80 mm
ANT 3S
D ≥ 20 mm
ANT 8
D ≥ 50 mm
ANT 12
D ≥ 70 mm
ANT 18
D ≥ 100 mm
ANT 30
D ≥ 100 mm
Antennas face to face
ANT 1
D ≥ 500 mm
ANT 3
D ≥ 100 mm
ANT 3S
D ≥ 50 mm
ANT 8
D ≥ 50 mm
ANT 12
D ≥ 100 mm
ANT 18
D ≥ 100 mm
ANT 30
D ≥ 200 mm
The reader electronics can be mounted directly alongside each other.
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Antennas
6.6 Technical specifications
6.6
Table 6- 4
Technical specifications
Technical specifications of the antennas ANT 1, ANT 3 , ANT 3S and ANT 8
ANT 1
ANT 3
ANT 3S
ANT 8
140 mm
50 mm
5 mm
4 mm
75 x 75 x 20 mm
(L x W x H)
50 x 28 x 10 mm
(L x W x H)
50 x 28 x 10 mm
(L x W x H)
M8 x 1.0 x 39 mm
(Ø x thread x L)
Anthracite
Black
Black
silver-metallic
Plastic
PA 12
Plastic
PA6-V0
Plastic
PA6-V0
Stainless steel
M8, 4-pin;
(pins on antenna
side)
M8, 4-pin;
socket on antenna
side
M8, 4-pin;
socket on antenna
side
M8, 4-pin;
(pins on antenna
side)
Max. write/read distance
antenna ↔ transponder (Sg)
Housing dimensions
Color
Material
Plug connection
Degree of protection to EN
60529
IP67
Shock-resistant acc. to
EN 60721-3-7, Class 7M2
50 g 1)
Vibration-resistant to
EN 60721-3-7, Class 7M2
20 g (3 to 50 Hz) 1)
Attachment of the antenna
2 x M5 screws
IP67 (front)
2 x M4 screws
2 x M4 screws
2x stainless steel
nuts
M8 x 1.0 mm
Ambient temperature
•
During operation
•
-25 ℃ ... +70 ℃
•
During transportation
and storage
•
-40 °C ... +85 °C
Weight, approx.
•
without antenna cable
•
--
•
35 g
•
35 g
•
10 g
•
with antenna cable
(3.0 m)
•
225 g
•
160 g
•
160 g
•
140 g
1)
Warning: The values for shock and vibration are maximum values and must not be applied continuously.
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Antennas
6.6 Technical specifications
Table 6- 5
Technical specifications of the antennas ANT 12, ANT 18 and ANT 30
ANT 12
ANT 18
ANT 30
16 mm
35 mm
55 mm
M12 x 1.0 x 40 mm
(Ø x thread x L)
M18 x 1.0 x 55 mm
(Ø x thread x L)
M30 x 1.5 x 61 mm
(Ø x thread x L)
Max. write/read distance
antenna ↔ transponder (Sg)
Housing dimensions
Color
Pale turquoise
Material
Plastic
Crastin
Plug connection
M8, 4-pin;
(pins on antenna side)
Degree of protection to EN
60529
IP67 (front)
Shock-resistant acc. to
EN 60721-3-7, Class 7M2
50 g 1)
Vibration-resistant to
EN 60721-3-7, Class 7M2
20 g (3 to 50 Hz) 1)
Attachment of the antenna
2 plastic nuts
M12 x 1.0 mm
2 plastic nuts
M18 x 1.0 mm
2 plastic nuts
M30 x 1.5 mm
Ambient temperature
•
During operation
•
-25 ℃ to +70 ℃
•
During transportation
and storage
•
-40 ℃ to +85 ℃
Approx. weight
•
without antenna cable
•
--
•
--
•
--
•
with antenna cable
(3.0 m)
•
145 g
•
130 g
•
180 g
1)
Warning: The values for shock and vibration are maximum values and must not be applied continuously.
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Antennas
6.7 Dimensional drawings
6.7
Dimensional drawings
The cable length is 3 m. All dimensions are in mm.
ANT 1
Figure 6-7
Dimension drawing for ANT 1
Figure 6-8
Dimension drawing ANT 3 7 ANT 3S
ANT 3 / ANT 3S
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Antennas
6.7 Dimensional drawings
ANT 8
Figure 6-9
Dimension drawing for ANT 8
Figure 6-10
Dimension drawing for ANT 12
Figure 6-11
Dimension drawing for ANT 18
ANT 12
ANT 18
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Antennas
6.7 Dimensional drawings
ANT 30
Figure 6-12
Dimension drawing for ANT 30
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Antennas
6.7 Dimensional drawings
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RF300 transponder
Features of the RF300 transponders
The RF300 transponders (RF3xxT) stand out particularly for their extremely fast data
exchange with the RF300 readers (RF3xxR). With the exception of the RF320T transponder,
all of the RF300 transponders have 8 to 64 KB of FRAM memory, which has an almost
unlimited capacity for reading and writing.
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RF300 transponder
7.1 Memory configuration of the RF300 transponders
7.1
1)
Memory configuration of the RF300 transponders
Physically identical memory When the OTP area is used, the corresponding user area (FF00-FF13) can no longer
be modified (read only).
Figure 7-1
Memory configuration of the RF300 transponders
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RF300 transponder
7.1 Memory configuration of the RF300 transponders
EEPROM area
The memory configuration of an RF300 transponder always comprises an EEPROM that has
20 bytes for user data (read/write) and a 4-byte unique serial number (UID, read only). For
reasons of standardization, the UID is transferred as an 8 byte value through a read
command to address FFF0 with a length of 8. The unused 4 high bytes are filled with zeros.
Note
Write speed
The EEPROM user memory (address FF00-FF13, or FF80-FF90) requires significantly more
time for writing (approx. 11 ms/byte) than the high-speed FRAM memory. For time-critical
applications with write functions, it is advisable to use FRAM transponders (e.g. RF330T,
RF340T, RF350T, RF360T, RF370T, RF380T).
FRAM area
Depending on the tag type, high-speed FRAM memory is available. (8 KB, 32 KB, 64 KB).
This area does not exist for the RF320T.
In the case of RF3xxT transponders with FRAM memory, the data carrier initialization
command (INIT) is only effective on this memory area but not on the EEPROM area (FF00FF13).
OTP area
The EEPROM memory area (address FF00-FF13) can also be used as a so-called "OTP"
memory (One Time Programmable). The 5 block addresses FF80, FF84, FF88, FF8C and
FF90 are used for this purpose. A write command to this block address with a valid length (4,
8, 12, 16, 20 depending on the block address) protects the written data from subsequent
overwriting.
Note
Seamless use of the OTP area
When the OTP area is used, it must be ensured that the blocks are used starting from Block
0 consecutively.
Examples:
• 3 blocks (with write command), Block 0, 1, 2 (FF80, length = 12): valid
• 2 blocks (consecutive), Block 0 (FF80, length =4), Block 1 (FF84, length = 4): valid
• 2 blocks (consecutive), Block 0 (FF80, length =4), Block 2 (FF88, length = 4): Invalid
• 1 Block, Block 4 (FF90, length = 4): Invalid
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RF300 transponder
7.1 Memory configuration of the RF300 transponders
Note
Use of the OTP area is not reversible
If you use the OPT area, you cannot undo it, because the OPT area can only be written to
once.
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RF300 transponder
7.2 SIMATIC RF320T
7.2
SIMATIC RF320T
7.2.1
Features
RF320T
7.2.2
Characteristics
Area of application
Identification tasks on small assembly lines in harsh
industrial environments
Memory size
20 bytes of EEPROM user memory
Write/read range
See section Field data of RF300 transponders
(Page 49)
Mounting on metal
Yes, with spacer
Degree of protection
IP67/IPx9K
Ordering data
Table 7- 1
Ordering data RF320T
Article number
RF320T
Table 7- 2
6GT2800-1CA00
Ordering data for RF320T accessories
Article number
Spacer
6GT2690-0AK00
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RF300 transponder
7.2 SIMATIC RF320T
7.2.3
Mounting on metal
Mounting on metal
≥ 15 mm
Figure 7-2
Mounting the MDS D124/D324/D424/D524/E624 and RF320T on metal with spacer
Flush-mounting
≥ 15 mm
≥ 25 mm
Figure 7-3
Flush-mounting of the MDS D124/D324/D424/D524/E624 and RF320T in metal with
spacer
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RF300 transponder
7.2 SIMATIC RF320T
Note
Going below the distances
If the distances (a and h) are not observed, a reduction of the field data results. It is possible
to mount the MDS with metal screws (M3 countersunk head screws). This has no tangible
impact on the range.
7.2.4
Technical data
Table 7- 3
Technical specifications for RF320T
6GT2800-1CA00
Product type designation
SIMATIC RF320T
Memory
Memory organization
Byte-oriented, write protection possible in 4-byte
blocks
Memory configuration
•
UID
•
4 bytes EEPROM
•
User memory
•
20 bytes EEPROM
•
OPT memory
•
20 bytes EEPROM
Read cycles (at < 40 ℃)
> 1014
Write cycles (at < 40 ℃)
> 105
Data retention time (at < 40 ℃)
> 10 years
Write/read distance (Sg)
Dependent on the reader used, see section "Field
data of RF300 transponders (Page 49)"
MTBF (Mean Time Between Failures)
1800 years
Mechanical specifications
Housing
•
Material
•
Epoxy resin
•
Color
•
Black
Recommended distance to metal
≥ 20 mm
Power supply
Inductive, without battery
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RF300 transponder
7.2 SIMATIC RF320T
6GT2800-1CA00
Permitted ambient conditions
Ambient temperature
•
During operation
•
-25 to +125 ℃
•
During transportation and storage
•
-40 to +140 ℃
•
IP67
•
IPx9K
Degree of protection to EN 60529
Shock-resistant to EN 60721-3-7, Class 7 M3
100 g 1)
Vibration-resistant to EN 60721-3-7, Class 7 M3
20 g 1)
Torsion and bending load
Not permitted
Design, dimensions and weight
7.2.5
Dimensions (Ø x H)
27 x 4 mm
Weight
5g
Type of mounting
•
1 x M3 screw 2)
≤ 1.0 Nm
•
Glued
1)
The values for shock and vibration are maximum values and must not be applied continuously.
) To prevent it loosening during operation, secure the screw with screw locking varnish.
Dimension drawing
Figure 7-4
RF320T dimension drawing
Dimensions in mm
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RF300 transponder
7.3 SIMATIC RF330T
7.3
SIMATIC RF330T
7.3.1
Features
Table 7- 4
RF330T
7.3.2
Characteristics
Area of application
In production automation for identification of
metallic workpiece holders, workpieces or
containers.
Memory size
32 KB EEPROM user memory
Write/read range
See section "Field data of RF300 transponders (Page 49)"
Mounting on metal
Yes flush mounted on/in metal
Degree of protection
IP68/IPx9K
Ordering data
Table 7- 5
Ordering data RF330T
Article number
RF330T
Table 7- 6
6GT2800-5BA00
Ordering data for RF330T accessories
Article number
Fixing hood RF330T / MDS D423
6GT2690-0EA00
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RF300 transponder
7.3 SIMATIC RF330T
7.3.3
Mounting on/in metal
Direct mounting of the RF330T on metal is permitted.
Mounting of the RF330T on metal
Figure 7-5
Mounting of the RF330T on metal
Flush-mounting of RF330T in metal
≥ 10 mm
Figure 7-6
Mounting of the RF330T in metal with 10 mm clearance
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RF300 transponder
7.3 SIMATIC RF330T
Figure 7-7
Mounting of the RF330T in metal without clearance
Note
Reduction of the write/read range
Note that when the device is flush-mounted in metal without a surrounding clearance ≥ 10
mm, the write/read range is significantly reduced.
7.3.4
Technical specifications
Table 7- 7
RF330T technical specifications
6GT2800-5BA00
Product type designation
SIMATIC RF330T
Memory
Memory organization
in bytes
Memory configuration
•
UID
•
4 bytes EEPROM
•
User memory
•
8 KB FRAM
•
OPT memory
•
20 bytes EEPROM
Read cycles (at < 40 ℃)
> 1014
Write cycles (at < 40 ℃)
> 1014
Data retention time (at < 40 ℃)
> 10 years
Write/read distance (Sg)
Dependent on the reader used, see section "Field
data of RF300 transponders (Page 49)"
MTBF (Mean Time Between Failures)
1200 years
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RF300 transponder
7.3 SIMATIC RF330T
6GT2800-5BA00
Mechanical specifications
Housing
•
Material
•
Plastic PPS
•
Color
•
Black
Recommended distance to metal
≥ 0 mm
Power supply
Inductive, without battery
Permitted ambient conditions
Ambient temperature
•
During operation
•
-25 to +85 ℃
•
During transportation and storage
•
-40 to +100 ℃
•
IP68
2 hours, 2 m, 20 ℃
•
IPx9K
steam jet: 150 mm; 10 to 15 l/min; 100 bar; 75
°C
•
Low pressure resistant
vacuum dryer: up to 20 mbar
•
high pressure resistant (see degree of protection IPx9K)
Degree of protection to EN 60529
Pressure resistance
Shock-resistant to EN 60721-3-7, Class 7 M3
50 g 1)
Vibration-resistant to EN 60721-3-7, Class 7 M3
20 g 1)
Torsion and bending load
Not permitted
Design, dimensions and weight
Dimensions (Ø x H)
30 x 8 mm
Weight
10 g
Type of mounting
1 x M4 screw 2)
≤ 1.5 Nm
1)
The values for shock and vibration are maximum values and must not be applied continuously.
) To prevent it loosening during operation, secure the screw with screw locking varnish.
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RF300 transponder
7.3 SIMATIC RF330T
7.3.5
Dimension drawing
Figure 7-8
RF330T dimension drawing
Dimensions in mm
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RF300 transponder
7.4 SIMATIC RF340T
7.4
SIMATIC RF340T
7.4.1
Features
Table 7- 8
RF340T
7.4.2
Characteristics
Area of application
Identification tasks on small assembly lines
in harsh industrial environments
Memory size
•
8 KB FRAM user memory
•
32 KB FRAM user memory
Write/read range
See section Field data of RF300 transponders (Page 49)
Mounting on metal
Yes
Degree of protection
IP68/IPx9K
Ordering data
Table 7- 9
Ordering data RF340T
Article number
RF340T
8 KB FRAM user memory
6GT2800-4BB00
RF340T
32 KB FRAM user memory
6GT2800-5BB00
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RF300 transponder
7.4 SIMATIC RF340T
7.4.3
Mounting on metal
Direct mounting of the RF340T on metal is permitted.
Mounting of RF340T on metal
Figure 7-9
Mounting of RF340T on metal
Flush-mounting of RF340T in metal:
Figure 7-10
Flush-mounting of RF340T in metal
The standard value for a is ≥ 20 mm. At lower values, the field data change significantly,
resulting in a reduction in the range.
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RF300 transponder
7.4 SIMATIC RF340T
7.4.4
Technical specifications
Table 7- 10
Technical specifications for RF340T
6GT2800-4BB00
Product type designation
SIMATIC RF340T
Memory
Memory organization
in bytes
Memory configuration
•
UID
•
4 bytes EEPROM
•
User memory
•
8 KB FRAM
•
OPT memory
•
20 bytes EEPROM
Read cycles (at < 40 ℃)
> 1010
Write cycles (at < 40 ℃)
> 1010
Data retention time (at < 40 ℃)
> 10 years
Write/read distance (Sg)
Dependent on the reader used, see section "Field
data of RF300 transponders (Page 49)"
MTBF (Mean Time Between Failures)
1200 years
Mechanical specifications
Housing
•
Material
•
Plastic PA 12
•
Color
•
Anthracite
Recommended distance to metal
≥ 0 mm
Power supply
Inductive, without battery
Permitted ambient conditions
Ambient temperature
•
During operation
•
-25 to +85 ℃
•
During transportation and storage
•
-40 to +85 ℃
•
IP68
•
IPx9K
Degree of protection to EN 60529
Shock-resistant to EN 60721-3-7, Class 7 M3
50 g 1)
Vibration-resistant to EN 60721-3-7, Class 7 M3
20 g 1)
Torsion and bending load
Not permitted
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7.4 SIMATIC RF340T
6GT2800-4BB00
Design, dimensions and weight
Dimensions (L x W x H)
48 x 25 x 15 mm
Weight
25 g
Type of mounting
2 x M3 screws
≤ 1.0 Nm
1)
7.4.5
The values for shock and vibration are maximum values and must not be applied continuously.
Dimension drawing
Figure 7-11
RF340T dimension drawing
Dimensions in mm
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RF300 transponder
7.5 SIMATIC RF350T
7.5
SIMATIC RF350T
7.5.1
Features
RF350T
7.5.2
Characteristics
Area of application
Identification tasks on small assembly lines
in harsh industrial environments
Memory size
32 KB FRAM user memory
Write/read range
See section Field data of RF300 transponders (Page 49)
Mounting on metal
Yes
Degree of protection
IP68
Ordering data
Table 7- 11
Ordering data RF350T
Article number
7.5.3
6GT2800-5BD00
•
IP68
•
Memory size: 32 KB FRAM (read/write) and 4 bytes EEPROM (read
only)
•
Operating temperature: -25 °C to +85 °C
•
Dimensions: 50 x 50 x 20 (L x W x H, in mm)
•
incl. securing frame
Mounting on metal
Direct mounting of the RF350T on metal is permitted.
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7.5 SIMATIC RF350T
Mounting of RF350T on metal
Figure 7-12
Mounting of RF350T on metal
Flush-mounting of RF350T in metal:
Figure 7-13
RF350T flush-mounted in metal
The standard value for a is ≥ 20 mm. At lower values, the field data change significantly,
resulting in a reduction in the range.
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RF300 transponder
7.5 SIMATIC RF350T
7.5.4
Mounting options
Mounting with fixing frame
The RF350T transponder can be mounted as shown with the fixing frame:
Figure 7-14
Installation diagram
Dimensions of the fixing frame
Figure 7-15
RF350T fixing frame
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7.5 SIMATIC RF350T
7.5.5
Technical data
Table 7- 12
Technical specifications for RF350T
6GT2800-5BD00
Product type designation
SIMATIC RF350T
Memory
Memory organization
in bytes
Memory configuration
•
UID
•
4 bytes EEPROM
•
User memory
•
32 KB FRAM
•
OPT memory
•
20 bytes EEPROM
Read cycles (at < 40 ℃)
> 1010
Write cycles (at < 40 ℃)
> 1010
Data retention time (at < 40 ℃)
> 10 years
Write/read distance (Sg)
Dependent on the reader used, see section "Field
data of RF300 transponders (Page 49)"
MTBF (Mean Time Between Failures)
1200 years
Mechanical specifications
Housing
•
Material
•
Plastic PA 12
•
Color
•
Anthracite
Recommended distance to metal
≥ 0 mm
Power supply
Inductive, without battery
Permitted ambient conditions
Ambient temperature
•
During operation
•
-25 to +85 ℃
•
During transportation and storage
•
-40 to +85 ℃
Degree of protection to EN 60529
IP68
Shock-resistant to EN 60721-3-7, Class 7 M3
50 g 1)
Vibration-resistant to EN 60721-3-7, Class 7 M3
20 g 1)
Torsion and bending load
Not permitted
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RF300 transponder
7.5 SIMATIC RF350T
6GT2800-5BD00
Design, dimensions and weight
Dimensions (L x W x H)
50 x 50 x 20 mm
Weight
25 g
Type of mounting
2 x M4 screws
≤ 1.5 Nm
1)
7.5.6
The values for shock and vibration are maximum values and must not be applied continuously.
Dimension drawing
Figure 7-16
RF350T dimension drawing
Dimensions in mm
SIMATIC RF300
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7.6 SIMATIC RF360T
7.6
SIMATIC RF360T
7.6.1
Features
RF360T
7.6.2
Characteristics
Area of application
Identification tasks on small assembly lines
in harsh industrial environments
Memory size
•
8 KB FRAM user memory
•
32 KB FRAM user memory
Write/read range
see section Field data of RF300 transponders (Page 49)
Mounting on metal
Yes, with spacer
Degree of protection
IP67
Ordering data
Table 7- 13
Ordering data RF360T
Article number
RF360T
8 KB FRAM user memory
6GT2800-4AC00
RF360T
32 KB FRAM user memory
6GT2800-5AC00
Table 7- 14
Ordering data for RF360T accessories
Article number
7.6.3
Spacer
(in conjunction with fixing pocket 6GT2190-0AB00)
6GT2190-0AA00
Fixing pocket
(in conjunction with spacer 6GT2190-0AA00)
6GT2190-0AB00
Mounting on metal
Direct mounting of the RF360T on metal is not allowed. A distance ≥ 20 mm is
recommended. This can be achieved using the spacer 6GT2190-0AA00 in combination with
the fixing pocket 6GT2190-0AB00.
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7.6 SIMATIC RF360T
Mounting of RF360T on metal
Figure 7-17
Mounting of RF360T with spacer
The standard value for h is ≥ 20 mm.
Flush-mounting of RF360T in metal:
Figure 7-18
Flush-mounting of RF360T with spacer
The standard value for a is ≥ 20 mm. At lower values, the field data change significantly,
resulting in a reduction in the range.
SIMATIC RF300
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7.6 SIMATIC RF360T
Dimensions of spacer and fixing pocket for RF360T
Figure 7-19
Dimensions of spacer and fixing pocket for RF360T
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RF300 transponder
7.6 SIMATIC RF360T
7.6.4
Technical data
Table 7- 15
Technical specifications for RF360T
6GT2800-4AC00
6GT2800-5AC00
Product type designation
SIMATIC RF360T
Memory
Memory organization
in bytes
Memory configuration
•
UID
•
4 bytes EEPROM
•
User memory
•
8 KB FRAM
•
OPT memory
•
20 bytes EEPROM
Read cycles (at < 40 ℃)
> 1010
Write cycles (at < 40 ℃)
> 1010
Data retention time (at < 40 ℃)
> 10 years
Write/read distance (Sg)
Dependent on the reader used, see section "Field
data of RF300 transponders (Page 49)"
MTBF (Mean Time Between Failures)
1200 years
Mechanical specifications
Housing
•
Material
•
Epoxy resin
•
Color
•
Anthracite
Recommended distance to metal
≥ 20 mm
Power supply
Inductive, without battery
Permitted ambient conditions
Ambient temperature
•
During operation
•
-25 to +75 ℃
•
During transportation and storage
•
-40 to +85 ℃
Degree of protection to EN 60529
IP67
Shock-resistant to EN 60721-3-7, Class 7 M3
50 g
Vibration-resistant to EN 60721-3-7, Class 7 M3
20 g
Torsion and bending load
Not permitted
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7.6 SIMATIC RF360T
6GT2800-4AC00
6GT2800-5AC00
Design, dimensions and weight
7.6.5
Dimensions (L x W x H)
86 x 55 x 2.5 mm
Weight
25 g
Type of mounting
•
2 x M3 screws
≤ 1.0 Nm
•
Fixing pocket (6GT2190-0AB00)
Dimension drawing
Figure 7-20
RF360T dimension drawing
Dimensions in mm
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RF300 transponder
7.7 SIMATIC RF370T
7.7
SIMATIC RF370T
7.7.1
Features
The SIMATIC RF370T transponder is a passive (i.e. battery-free) data carrier in a square
type of construction.
RF370T
7.7.2
Characteristics
Area of application
Identification tasks on assembly lines in
harsh industrial environments, due to high
resistance to oils, lubricants and cleaning
agents, and suitable for larger ranges, e.g.
automotive industry
Memory size
•
32 KB FRAM user memory
•
64 KB FRAM user memory
Write/read range
see section Field data of RF300 transponders (Page 49)
Mounting on metal
Yes
Degree of protection
IP68/IPx9K
Ordering data
Table 7- 16
Ordering data RF370T
Article number
RF370T
32 KB FRAM user memory
6GT2800-5BE00
RF370T
76 KB FRAM user memory
6GT2800-6BE00
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7.7 SIMATIC RF370T
7.7.3
Mounting on metal
Direct mounting of the RF370T on metal is permitted.
Mounting of RF370T on metal
Figure 7-21
Mounting of RF370T on metal
Flush-mounting of RF370T in metal:
Figure 7-22
RF370T flush-mounted in metal
The standard value for a is ≥ 20 mm. At lower values, the field data change significantly,
resulting in a reduction in the range.
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RF300 transponder
7.7 SIMATIC RF370T
7.7.4
Mounting instructions
It is essential that you observe the instructions in the Section Installation guidelines
(Page 62).
7.7.5
Properties
Description
Type of installation
Screw fixing (two M5 screws)
Tightening torque
< 1.2 Nm (at room temperature)
Technical specifications
Table 7- 17
Technical specifications RF370T
6GT2800-5BE00
6GT2800-6BE00
Product type designation
SIMATIC RF370T
Memory
Memory organization
in bytes
Memory configuration
•
UID
•
4 bytes EEPROM
•
User memory
•
32 or 64 KB FRAM
•
OPT memory
•
20 bytes EEPROM
Read cycles (at < 40 ℃)
> 1010
Write cycles (at < 40 ℃)
> 1010
Data retention time (at < 40 ℃)
> 10 years
Write/read distance (Sg)
Dependent on the reader used, see section "Field
data of RF300 transponders (Page 49)"
MTBF (Mean Time Between Failures)
1200 years
Mechanical specifications
Housing
•
Material
•
Plastic PA 12
•
Color
•
Anthracite
Recommended distance to metal
≥ 0 mm
Power supply
Inductive, without battery
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7.7 SIMATIC RF370T
6GT2800-5BE00
6GT2800-6BE00
Permitted ambient conditions
Ambient temperature
•
During operation
•
-25 to +85 ℃
•
During transportation and storage
•
-40 to +85 ℃
Degree of protection to EN 60529
IPx9K
Shock-resistant to EN 60721-3-7, Class 7 M3
50 g 1)
Vibration-resistant to EN 60721-3-7, Class 7 M3
20 g 1)
Torsion and bending load
Not permitted
Design, dimensions and weight
Dimensions (L x W x H)
75 x 75 x 41 mm
Weight
200 g
Type of mounting
2 x M5 screws
≤ 1.5 Nm
1)
7.7.6
The values for shock and vibration are maximum values and must not be applied continuously.
Dimensional drawing
Figure 7-23
RF370T dimension drawing
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RF300 transponder
7.8 SIMATIC RF380T
Dimensions in mm
7.8
SIMATIC RF380T
7.8.1
Features
The SIMATIC RF380T transponder is an extremely rugged and heat-resistant round data
carrier suitable e.g. for applications in the automotive industry.
SIMATIC RF380T transponder
Characteristics
Area of application
Identification tasks in applications (e.g. automotive industry)
with cyclic high temperature stress > 85 °C and < 220 °C
Highly resistant to mineral oils, lubricants and cleaning
agents
Typical applications:
7.8.2
•
Primer coat, electrolytic dip area, cataphoresis with the
associated drying furnaces
•
Top coat area with drying furnaces
•
Washing areas at temperatures > 85°C
•
Other applications with higher temperatures
Memory size
32 KB FRAM user memory
Write/read range
see section "Field data of RF300 transponders (Page 49)"
Mounting on metal
Yes, flush-mounted in metal
Degree of protection
IP68
Ordering data
Table 7- 18
Ordering data RF380T
Article number
RF380T
User memory 32 KB FRAM (read/write) and 4 bytes EEPROM
Table 7- 19
6GT2800-5DA00
Ordering data for RF380T
Article number
Holder (short version)
6GT2090-0QA00
Holder (long version)
6GT2090-0QA00-0AX3
Shrouding cover
6GT2090-0QB00
Universal holder
6GT2590-0QA00
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7.8 SIMATIC RF380T
7.8.3
Installation guidelines for RF380T
It is essential that you observe the instructions in the Section Installation guidelines
(Page 62).
The following section only deals with features specific to the SIMATIC RF380T.
7.8.3.1
Mounting instructions
Note
Only use tag with original holder
You are strongly recommended to only use the tag with the original holder specified. Only
this holder guarantees that the data memory observes the listed values for shock, vibration
and temperature. A protective cover is recommendable for applications in paint shops.
Data memory holder
Short version (6GT2 090-0QA00)
Long version (6GT2090-0QA00-0AX3)
Material: V2A sheet-steel with thickness 2.5 mm BI 2.5 DIN 59382 1.4541
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RF300 transponder
7.8 SIMATIC RF380T
Assembly of data memory with holder
Figure 7-24
Assembly of tag with holder
Scope of supply
The holder is provided with all mounting parts and a mounting diagram. Mounting screws for
securing the holder are not included. The mounting screws are of diameter M 10. The
minimum length is 25 mm. The optional cover can be used for the long and short versions of
the holder.
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7.8 SIMATIC RF380T
Universal holder
Figure 7-25
Universal holder 6GT2590-0QA00
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RF300 transponder
7.8 SIMATIC RF380T
7.8.3.2
Metal-free area
Direct mounting of the RF380T on metal is permitted.
Mounting of RF380T on metal
Figure 7-26
Mounting of RF380T on metal
Flush-mounting of RF380T in metal:
Figure 7-27
RF380T flush-mounted in metal
The standard value for a is ≥ 40 mm. At lower values, the field data change significantly,
resulting in a reduction in the range.
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7.8 SIMATIC RF380T
7.8.4
Configuring instructions
7.8.4.1
Temperature dependence of the transmission window
The guidelines in the section "Planning the RF300 system" apply to configuration of heatresistant data memories, with the exception of the limit distance and field length at
temperatures above 85 °C. At temperatures above 85 °C, the length of the transmission
window is reduced by up to 10%.
7.8.4.2
Temperature response in cyclic operation
At ambient temperatures (Tu) up to 110 °C, cyclic operation is not necessary, i.e. up to this
temperature, the transponder can be in constant operation.
Note
Calculation of the temperature curves
Calculation of the temperature curves or of a temperature profile can be carried out on
request by Siemens AG. Exact knowledge of the internal temperature facilitates
configuration for time-critical applications.
You can also carry out the calculation with the aid of the "SIMATIC RF Temperature
Calculator" on the "Ident Systems Software & Documentation" DVD (refer to the section
"DVD "Ident Systems Software & Documentation" (Page 416)").
Ambient temperatures > 110 °C
Note
Cancellation of warranty
The internal temperature of the data memory must not exceed the critical threshold of 110
°C. Each heating phase must be followed by a cooling phase. No warranty claims will
otherwise be accepted.
Some limit cycles are listed in the table below:
Table 7- 20
Limit cycles of data memory temperature
Tu (heating up)
Heating up
Tu (cooling down)
Cooling down
220 °C
0.5 h
25 °C
>2h
200 °C
1h
25 °C
>2h
190 °C
1h
25 °C
> 1 h 45 min
180 °C
2h
25 °C
>5h
170 °C
2h
25 °C
>4h
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RF300 transponder
7.8 SIMATIC RF380T
The internal temperature of the tag follows an exponential function with which the internal
temperature and the operability of the tag can be calculated in advance. This is particularly
relevant to temperature-critical applications or those with a complex temperature profile.
Ambient temperatures > 220°C
Note
Cancellation of warranty
The data memory must not be exposed to ambient temperatures > 220 °C. No warranty
claims will otherwise be accepted.
However, the mechanical stability is retained up to 230 °C!
Example of a cyclic sequence
Table 7- 21
Typical temperature profile of an application in the paint shop
Start of tag at initial point
Duration (min)
Ambient temperature (°C)
Electrolytic dip
20
30
Electrolytic dip dryer
60
200
Transport
60
25
PVC dryer
25
170
Transport
60
25
Filler dryer
60
160
Transport
60
25
Top coat dryer
60
120
Transport
60
25
Wax dryer
25
100
Transport
150
25
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7.8 SIMATIC RF380T
Figure 7-28
Graphic trend of temperature profile from above table
The simulation results in the following:
Following a simulation time of 36.5 hours, a total of 3 cycles were carried out, and an internal
temperature of 90 degrees Celsius was reached.
Figure 7-29
Complete temperature response due to simulation
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RF300 transponder
7.8 SIMATIC RF380T
7.8.5
Use of the transponder in the Ex protection area
The TÜV SÜD Automotive GmbH as approved test center as well as the TÜV SÜD Product
Service GmbH as certification center, identification number 0123, as per Article 9 of the
Directive of the European Council of 23 March 1994 (94/9/EC), has confirmed the
compliance with the essential health and safety requirements relating to the design and
construction of equipment and protective systems intended for use in hazardous areas as
per Annex II of the Directive. The essential health and safety requirements are satisfied in
accordance with the following standards:
Table 7- 22
Approvals
Document
Title
EN 60079-0: 2006
Electrical equipment for hazardous gas atmospheres Part 0: General requirements
EN 60079-15: 2005
Electrical equipment for hazardous gas atmospheres Part 15: Design, testing and identification of electrical equipment
with type of protection "n"
DIN VDE 0848-5: 2001
(in parts)
Safety in electrical, magnetic and electromagnetic fields Part 5: Explosion protection
ZLS SK 107.1
Central office of the states for safety; test components
Identification
Table 7- 23
The identification of the electrical equipment as an encapsulated unit
II 3G Ex nC IIB T5
-25°C to +70°C
Um=30Vdc
The equipment is assigned the following references:
XXXYYYZZZ
[= serial number, is assigned during production]
TPS 09 ATEX 1 459 X [= certificate number]
"No use of the equipment in the vicinity of processes generating high charges"
7.8.5.1
Use of the transponder in hazardous areas for gases
Temperature class delineation for gases
The temperature class of the transponder for hazardous areas depends on the ambient
temperature range:
Ambient temperature range
Temperature class
-25 °C to +70 °C
T5
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7.8 SIMATIC RF380T
WARNING
Ignitions of gas-air mixtures
• When using the RF380T transponder, check that the temperature class is kept to in
conjunction with the requirements of the area of application.
If the temperature ranges are exceeded during use of the transponder, gas-air mixtures
may be ignited.
• The maximum transmit power of the transmitter used to operate the transponder must
not exceed 2 W.
If the transmit power id not kept to, gas-air mixtures may ignite.
7.8.5.2
Installation and operating conditions for the hazardous area
a) Use of the equipment in the vicinity of processes generating high charges is not allowed.
b) The equipment must be mechanically protected when installed.
7.8.6
Cleaning the mobile data memory
Note
Do not clean the transponder with mechanical tools, sand-blasting or pressure hose. These
cleaning methods result in damage to the transponder.
Clean the transponder only with the chemical cleansing agents listed in Chapter Chemical
resistance of the transponders (Page 90).
7.8.7
Technical specifications
Table 7- 24
RF380T technical specifications
6GT2800-5DA00
Product type designation
SIMATIC RF380T
Memory
Memory organization
in bytes
Memory configuration
•
UID
•
4 bytes EEPROM
•
User memory
•
32 KB FRAM
•
OPT memory
•
20 bytes EEPROM
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RF300 transponder
7.8 SIMATIC RF380T
6GT2800-5DA00
Read cycles (at < 40 ℃)
> 1010
Write cycles (at < 40 ℃)
> 1010
Data retention time (at < 40 ℃)
> 10 years
Write/read distance (Sg)
Dependent on the reader used, see section "Field
data of RF300 transponders (Page 49)"
MTBF (Mean Time Between Failures)
1177 years
Mechanical specifications
Housing
•
Material
•
PPS
•
Color
•
Anthracite
Recommended distance to metal
≥ 0 mm
Power supply
Inductive, without battery
Permitted ambient conditions
Ambient temperature
•
•
During operation
During transportation and storage
•
-25 to +110 ℃
•
-25 … +220 ℃: cyclic operation possible
•
-40 to +110 ℃
Degree of protection to EN 60529
IP68
Shock-resistant to EN 60721-3-7, Class 7 M3
50 g 1)2)
Vibration-resistant to EN 60721-3-7, Class 7 M3
5 g 2)
Torsion and bending load
Not permitted
Design, dimensions and weight
Dimensions (Ø x H)
114 x 83 mm
Weight
900 g
Type of mounting
Holder (must be ordered separately)
1)
Applies only in conjunction with the original support
2)
The values for shock and vibration are maximum values and must not be applied continuously.
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7.8 SIMATIC RF380T
7.8.8
Dimensional drawing
Figure 7-30
Dimension drawing RF380T
Dimensions in mm
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RF300 transponder
7.8 SIMATIC RF380T
SIMATIC RF300
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ISO transponder
Features of the ISO transponders
The transponders (MDS D) that are compatible with ISO 15693 represent a cost-effective
alternative to RF300 transponders. The performance that can be achieved with this
(transmission speed, memory size), however, is considerably less than with RF300
transponders.
You will find more information on transmission speeds in the section "Communication
between communications module, reader and transponder (Page 47)".
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ISO transponder
8.1 Memory configuration of ISO the transponders
8.1
Memory configuration of ISO the transponders
Figure 8-1
Memory configuration of ISO the transponders
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8.1 Memory configuration of ISO the transponders
Memory areas
Depending on the manufacturer of the transponder chip, the memory configuration of an ISO
transponder consists of varying sizes of user memory.
The typical sizes are 112 bytes, 256 bytes, 992 bytes EEPROM or 2000 bytes FRAM. Each
ISO transponder chip has an 8-byte long unique serial number (UID, read only). This UID is
transferred as an 8 byte value through a read command to address FFF0 with a length of 8.
OTP area
For the OTP area, a 16-byte address space is always reserved at the end of the memory
area. The blocks are divided up depending on the chip (see technical specifications). Note
that the corresponding addresses for the user data are therefore not available to the
application when the OTP area is used.
A total of 4 block addresses ("mapped" addresses) are provided:
● FF80
● FF84
● FF88
● FF8C
A write command to this block address with a valid length (4, 8, 12, 16 bytes depending on
the block address) protects the written data from subsequent overwriting.
Note
Exception Fujitsu chip (MDS D4xx and MDS D522)
The Fujitsu chip MB89R118 (MDS D4xx) has 8-byte blocks, which means that only 2 block
addresses have to be addressed: FF80 and FF88 with the length 8 and 16 bytes).
The Fujitsu chip MB89R112 (MDS D5xx) has 32 byte blocks and can therefore not be
addressed in the OTP area.
Note
Restriction to the use of the OTP
Observe the following restrictions when using OTP:
• The OTP write/lock command can only be sent in static operation.
• The OTP write/lock command can not be sent as a chained command.
The Fujitsu chip MB89R112 (MDS D5xx) has 32 byte blocks and can therefore not be
addressed in the OTP area.
Note
Use of the OTP area is not reversible
If you use the OPT area, you cannot undo it, because the OPT area can only be written to
once.
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ISO transponder
8.2 MDS D100
8.2
MDS D100
8.2.1
Characteristics
MDS D100
Characteristics
Area of application
8.2.2
From simple identification such as electronic
barcode replacement/supplementation, through
warehouse and distribution logistics, right up to
product identification.
Memory size
112 bytes of EEPROM user memory
Write/read range
See section Field data of ISO transponders
(MDS D) (Page 52).
Mounting on metal
Yes, with spacer
ISO standard
ISO 15693
Degree of protection
IP68
Ordering data
Table 8- 1
Ordering data for MDS D100
Article number
MDS D100
Table 8- 2
6GT2600-0AD10
Ordering data for MDS D100 accessory
Article number
8.2.3
Spacer
(in conjunction with fixing pocket 6GT2190-0AB00)
6GT2190-0AA00
Fixing pocket
(in conjunction with spacer 6GT2190-0AA00)
6GT2190-0AB00
Fixing pocket
(not suitable for fixing directly onto metal)
6GT2390-0AA00
Metal-free area
Direct mounting of the MDS D100 on metal is not allowed. A distance of ≥ 20 mm is
recommended. This can be achieved using the spacer 6GT2190-0AA00 in combination with
the fixing pocket 6GT2190-0AB00.
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8.2 MDS D100
Mounting on metal
①
②
③
≥ 20 mm
Data memory
Metal
Non-metal
Figure 8-2
Mounting of the MDS D100 on metal with spacer
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ISO transponder
8.2 MDS D100
Flush-mounting
≥ 20 mm
≥ 20 mm
①
②
③
Data memory
Metal
Non-metal
Figure 8-3
Flush-mounting of MDS D100 in metal with spacer
Note
If the minimum guide values (h or a) are not observed, a reduction of the field data results.
8.2.4
Technical data
Table 8- 3
Technical specifications for MDS D100
6GT2600-0AD10
Product type designation
SIMATIC MDS D100
Memory
Memory configuration
•
UID
•
8 bytes
•
User memory
•
112 bytes EEPROM
•
OPT memory
•
16 bytes (EEPROM)
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8.2 MDS D100
6GT2600-0AD10
Read cycles (at < 40 ℃)
> 1014
Write cycles (at < 40 ℃)
> 106
Data retention time (at < 40 ℃)
> 10 years
Write/read distance (Sg)
Dependent on the reader used, see section "Field
data of ISO transponders (MDS D) (Page 52)"
MTBF (Mean Time Between Failures)
228 years
Mechanical specifications
Housing
•
Material
•
PC
•
Color
•
White/petrol
Recommended distance to metal
≥ 20 mm
Power supply
Inductive, without battery
Permitted ambient conditions
Ambient temperature
•
During operation
•
-25 to +80 ℃
•
During transportation and storage
•
-25 to +80 ℃
Degree of protection to EN 60529
•
IP68
Shock-resistant to EN 60721-3-7 class 7M3
ISO 10373 / ISO 7810 1)
Vibration-resistant to EN 60721-3-7, class 7M3
ISO 10373 / ISO 7810 1)
Torsion and bending load
ISO 10373/ISO 7816-1
Design, dimensions and weight
Dimensions (L x W x H)
85.6 x 54 x 0.9 mm
Weight
5g
Type of mounting
•
Fixing pocket
•
Glued
1)
The values for shock and vibration are maximum values and must not be applied continuously.
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ISO transponder
8.2 MDS D100
8.2.5
Dimension drawing
Dimensions in mm
1)
Dimensions for mounting holes
Figure 8-4
MDS D100 dimension drawing
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8.3 MDS D117
8.3
MDS D117
8.3.1
Features
MDS D117
8.3.2
Characteristics
Area of application
Very compact data carrier that can be cemented into
objects where precise positioning is necessary;
e.g. tool identification, workpiece holders etc..
Memory size
112 bytes of EEPROM user memory
Write/read range
See section "Field data of ISO transponders (MDS D)
(Page 52)."
Mounting in metal
Yes, flush-mounted in metal
ISO standard
ISO 15693
Degree of protection
IP68/IPx9K
Ordering data
Table 8- 4
Ordering data for MDS D117
Article number
MDS D117
6GT2600-0AG00
Pack of 10
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ISO transponder
8.3 MDS D117
8.3.3
Mounting in metal
Flush-mounted in metal
① Transponder
② Metal
8.3.4
Technical specifications
Table 8- 5
Technical specifications for MDS D117
6GT2600-0AG00
Product type designation
SIMATIC MDS D117
Memory
Memory configuration
•
UID
•
8 bytes
•
User memory
•
112 bytes EEPROM
•
OPT memory
•
16 bytes (EEPROM)
Read cycles (at < 40 ℃)
> 1014
Write cycles (at < 40 ℃)
> 106
Data retention time (at < 40 ℃)
> 10 years
Write/read distance (Sg)
Dependent on the reader used, see section "Field
data of ISO transponders (MDS D) (Page 52)"
MTBF (Mean Time Between Failures)
228 years
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8.3 MDS D117
6GT2600-0AG00
Mechanical specifications
Housing
•
Material
•
PPS
•
Color
•
Black
Recommended distance to metal
≥ 0 mm
Power supply
Inductive, without battery
Permitted ambient conditions
Ambient temperature
•
During operation
•
-25 to +85 ℃
•
During transportation and storage
•
-40 to +125 ℃
Degree of protection to EN 60529
IP68
2 hours, 2 bar, +20 °C
Shock-resistant to EN 60721-3-7 class 7M3
100 g 1)
Vibration-resistant to EN 60721-3-7, class 7M3
20 g 1)
Torsion and bending load
Not permitted
Design, dimensions and weight
Dimensions (Ø x H)
4 x 5.2 mm
Weight
1g
Type of mounting
1)
8.3.5
•
Fixing pocket
•
Glued
The values for shock and vibration are maximum values and must not be applied continuously.
Dimension drawing
Figure 8-5
Dimensions in mm
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ISO transponder
8.4 MDS D124
8.4
MDS D124
8.4.1
Characteristics
MDS D124
8.4.2
Characteristics
Area of application
Application areas in production automation (e.g. small
paintshops up to +180 °C)
Memory size
112 bytes of EEPROM user memory
Write/read range
See section "Field data of ISO transponders (MDS D)
(Page 52)".
Mounting on metal
Yes, with spacer
ISO standard
ISO 15693
Degree of protection
IP68/IPx9K
Ordering data
Table 8- 6
Ordering data for MDS D124
Article number
MDS D124
Table 8- 7
6GT2600-0AC10
Ordering data for MDS D124 accessories
Article number
Spacer
6GT2690-0AK00
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ISO transponder
8.4 MDS D124
8.4.3
Mounting on metal
Mounting on metal
≥ 15 mm
Figure 8-6
Mounting the MDS D124/D324/D424/D524/E624 and RF320T on metal with spacer
Flush-mounting
≥ 15 mm
≥ 25 mm
Figure 8-7
Flush-mounting of the MDS D124/D324/D424/D524/E624 and RF320T in metal with
spacer
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ISO transponder
8.4 MDS D124
Note
Going below the distances
If the distances (a and h) are not observed, a reduction of the field data results. It is possible
to mount the MDS with metal screws (M3 countersunk head screws). This has no tangible
impact on the range.
8.4.4
Technical specifications
Table 8- 8
Technical specifications for MDS D124
6GT2600-0AC10
Product type designation
SIMATIC MDS D124
Memory
Memory configuration
•
UID
•
8 bytes
•
User memory
•
112 bytes EEPROM
•
OPT memory
•
16 bytes (EEPROM)
Read cycles (at < 40 ℃)
> 1014
Write cycles (at < 40 ℃)
> 106
Data retention time (at < 40 ℃)
> 10 years
Write/read distance (Sg)
Dependent on the reader used, see section "Field
data of ISO transponders (MDS D) (Page 52)"
MTBF (Mean Time Between Failures)
228 years
Mechanical specifications
Housing
•
Material
•
PPS
•
Color
•
Black
Recommended distance to metal
≥ 15 mm
Power supply
Inductive, without battery
Permitted ambient conditions
Ambient temperature
•
During operation
•
-25 to +180 ℃
•
from +125 ℃: 20% reduction in the limit distance
•
from +140 ℃: No processing possible
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8.4 MDS D124
6GT2600-0AC10
•
During transportation and storage
Degree of protection to EN 60529
•
at +180 ℃: Tested up to 5000 hours or
3000 cycles
•
-40 to +125 ℃
•
IP68
2 hours, 2 bar, +20 °C
•
IPx9K
steam jet: 150 mm; 10 to 15 l/min; 100 bar; 75
°C
Shock-resistant to EN 60721-3-7 class 7M3
100 g 1)
Vibration-resistant to EN 60721-3-7, class 7M3
20 g 1)
Torsion and bending load
Not permitted
Design, dimensions and weight
8.4.5
Dimensions (Ø x H)
4 x 5.2 mm
Weight
5g
Type of mounting
•
1 x M3 screw 2)
≤ 1 Nm
•
Glued
•
With spacer
1)
The values for shock and vibration are maximum values and must not be applied continuously.
) To prevent it loosening during operation, secure the screw with screw locking varnish.
Use of the MDS D124 in hazardous area
The mobile data memory MDS D124, device group II, category 1G or 1D may be installed
and operated in zones 0, 1 and 2 or in the zones 20, 21 and 22.
The following requirements of the 94/9/EC directive are met:
● EN 60079-0:2009
● EN 60079-11:2007
● EN 61241-11:2006
● EN 60079-26:2007
When used in hazardous areas, the MDS D124 must not be operated with field strengths > 5
A / m to avoid impermissible heating. This is not the case with readers from the SIMATIC RF
range (MOBY D, RF200 and RF300).
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ISO transponder
8.4 MDS D124
Identification
II 1 G Ex ia IIC T3 to T6 Ga
or
II 1 D Ex ia IIIC T80 °C to T180 °C Da
TÜV 12 ATEX 084413 X
The temperature class or the maximum surface temperature depends on the maximum
ambient temperature. The relationship between temperature class (gas) or maximum surface
temperature (dust) can be found in the following table.
Table 8- 9
Ambient temperature
Ambient temperature range
Temperature class
Max. surface temperature
-25 ... +150 ℃
T3
T180
-25 ... +100 ℃
T4
T130
-25 ... +65 ℃
T5
T95
-25 ... +50 ℃
T6
T80
Note
Safety markings for hazardous areas
Since there is not enough space on the MDS D124 for the safety mark, this is supplied as a
label with the device.
This must be affixed immediately next to the MDS D124 so that the label clearly relates to
the device.
WARNING
Gefahr durch elektrostatische Entladungen
Potential electrostatic charging hazard
Danger potentiel de charges électrostatiques
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8.4 MDS D124
Note
Installation and operating conditions for hazardous areas:
• Use of the device in the vicinity of processes generating high charges is not allowed.
• The device must be installed so that it is mechanically protected.
• For applications requiring devices of category 1, the device must be mounted on a
grounded, conductive base.
• It must only be cleaned with a damp cloth.
• The device is suitable for use in atmospheres containing dust, however not for full
immersion in dust.
8.4.6
Dimension drawing
Figure 8-8
Dimension drawing of MDS D124
All dimensions in mm
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ISO transponder
8.5 MDS D126
8.5
MDS D126
8.5.1
Characteristics
MDS D126
8.5.2
Characteristics
Area of application
Compact and rugged ISO transponder; suitable for identification of
transport units in production-related logistics; can also be deployed
in harsh conditions
Memory size
112 bytes of EEPROM user memory
Write/read range
See section Field data of ISO transponders (MDS D) (Page 52)
Mounting on metal
Yes, with spacer
ISO standard
ISO-15693
Degree of protection
IP68
Ordering data
Table 8- 10
Ordering data for MDS D126
Article number
MDS D126
Table 8- 11
6GT2600-0AE00
Ordering data for MDS D126 accessories
Article number
Spacer
6GT2690-0AL00
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ISO transponder
8.5 MDS D126
8.5.3
Mounting on metal
Mounting on metal
≥ 25 mm
Figure 8-9
Mounting the MDS D126 / D426 / D526 on metal with spacer
Flush-mounted in metal
≥ 25 mm
≥ 50 mm
Figure 8-10
Flush installation of the MDS D126 / D426 / D526 in metal with spacer
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ISO transponder
8.5 MDS D126
8.5.4
Technical specifications
Table 8- 12
Technical specifications for the MDS D126
6GT2600-0AE00
Product type designation
SIMATIC MDS D126
Memory
Memory configuration
•
UID
•
8 bytes
•
User memory
•
112 bytes EEPROM
•
OPT memory
•
16 bytes (EEPROM)
Read cycles (at < 40 ℃)
> 1014
Write cycles (at < 40 ℃)
> 106
Data retention time (at < 40 ℃)
> 10 years
Write/read distance (Sg)
Dependent on the reader used, see section "Field
data of ISO transponders (MDS D) (Page 52)"
MTBF (Mean Time Between Failures)
228 years
Mechanical specifications
Housing
•
Material
•
PA6.6 GF
•
Color
•
Black
Recommended distance to metal
≥ 25 mm
Power supply
Inductive, without battery
Permitted ambient conditions
Ambient temperature
•
During operation
•
-25 to +85 ℃
•
During transportation and storage
•
-40 to +100 ℃
Degree of protection to EN 60529
IP68
2 hours, 2 bar, +20 °C
Shock-resistant to EN 60721-3-7 class 7M3
50 g 1)
Vibration-resistant to EN 60721-3-7, class 7M3
20 g 1)
Torsion and bending load
Not permitted
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8.5 MDS D126
6GT2600-0AE00
Design, dimensions and weight
8.5.5
Dimensions (Ø x H)
50 x 3.6 mm
Weight
13 g
Type of mounting
•
1 x M4 screw 2)
≤ 1 Nm
•
Glued
1)
The values for shock and vibration are maximum values and must not be applied continuously.
) To prevent it loosening during operation, secure the screw with screw locking varnish.
Dimension drawing
Dimensions in mm
Figure 8-11
Dimension drawing of MDS D126
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ISO transponder
8.6 MDS D127
8.6
MDS D127
8.6.1
Features
MDS D127
8.6.2
Characteristics
Area of application
Very compact data carrier that can be screwed into
areas where precise positioning is necessary;
e.g. tool identification, workpiece holders etc.
Memory size
112 bytes of EEPROM user memory
Write/read range
See section "Field data of ISO transponders (MDS D)
(Page 52)"
Mounting on metal
Yes, flush-mounted in metal
ISO standard
ISO 15693
Degree of protection
IP68/IPx9K
Ordering data
Table 8- 13
Ordering data for MDS D127
Article number
MDS D127
6GT2600-0AF00
Pack of 10
(A screw-in aid is supplied with each pack)
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ISO transponder
8.6 MDS D127
8.6.3
Mounting in metal
Flush-mounted in metal
① Metal
② Transponders
Note
Damage to the transponder due to improper mounting
To screw the MDS D127 into a suitable thread, use the supplied screw-in tool. This avoids
damage to the MDS D127.
Figure 8-12
Screw-in aid for mounting the MDS D127
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ISO transponder
8.6 MDS D127
8.6.4
Technical specifications
Table 8- 14
Technical specifications for MDS D127
6GT2600-0AF00
Product type designation
SIMATIC MDS D127
Memory
Memory configuration
•
UID
•
8 bytes
•
User memory
•
112 bytes EEPROM
•
OPT memory
•
16 bytes (EEPROM)
Read cycles (at < 40 ℃)
> 1014
Write cycles (at < 40 ℃)
> 106
Data retention time (at < 40 ℃)
> 10 years
Write/read distance (Sg)
Dependent on the reader used, see section "Field
data of ISO transponders (MDS D) (Page 52)"
MTBF (Mean Time Between Failures)
228 years
Mechanical specifications
Housing
•
Material
•
PA6
•
Color
•
Black
Recommended distance to metal
≥ 0 mm
Power supply
Inductive, without battery
Permitted ambient conditions
Ambient temperature
•
During operation
•
-25 to +100 ℃
•
During transportation and storage
•
-40 to +125 ℃
•
IP68
2 hours, 2 bar, +20 °C
•
IPx9K
steam jet: 150 mm; 10 to 15 l/min; 100 bar; 75
°C
Degree of protection to EN 60529
Shock-resistant to EN 60721-3-7 class 7M3
100 g 1)
Vibration-resistant to EN 60721-3-7, class 7M3
20 g 1)
Torsion and bending load
Not permitted
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8.6 MDS D127
6GT2600-0AF00
Design, dimensions and weight
Dimensions (Ø x H)
M6 x 5.8 mm
Weight
1g
Type of mounting
•
Glued
•
1 x M3 screw
1)
8.6.5
The values for shock and vibration are maximum values and must not be applied continuously.
Dimension drawing
Figure 8-13
Dimensions in mm
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ISO transponder
8.7 MDS D139
8.7
MDS D139
8.7.1
Characteristics
MDS D139
Characteristics
Area of application
Applications in production logistics and in assembly
lines subject to high temperatures (up to +220 °C)
Typical application areas:
•
Paintshops and their preparatory treatments)
•
Primer coat, electrolytic dip area, cataphoresis
with the associated drying furnaces
•
Top coat area with drying furnaces
•
Washing areas at temperatures > 85 °C
•
Other applications with higher temperatures
Memory size
112 bytes of EEPROM user memory
Write/read range
See section Field data of ISO transponders (MDS D)
(Page 52).
Mounting on metal
Yes, with spacer
ISO standard
ISO 15693
Degree of protection
IP68/IPx9K
Note
Compatibility with SIMATIC RF300 depending on the article number
The transponder MDS D139 with article number 6GT2600-0AA10 is compatible with the
SIMATIC RF300 system. The transponder MDS D139 with article number 6GT2600-0AA00
is not compatible.
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8.7 MDS D139
8.7.2
Ordering data
Table 8- 15
Ordering data for MDS D139
Article number
MDS D139
Table 8- 16
6GT2600-0AA10
Ordering data for MDS D139 accessory
Article number
8.7.3
Spacer
6GT2690-0AA00
Quick change holder
(Ø x H): 22 x 60 mm
6GT2690-0AH00
Quick change holder
(Ø x H): 22 x 47 mm
6GT2690-0AH10
Mounting on metal
Direct mounting of the MDS D139/D339 on metal is not allowed. A distance of ≥ 30 mm is
recommended. This can be achieved using spacers (see "Ordering data (Page 423)").
Mounting on metal
≥ 30 mm
Figure 8-14
Mounting the MDS D139/D339 on metal with spacer
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ISO transponder
8.7 MDS D139
Flush-mounting
It is possible to mount the MDS D139/D339 in metal. With large antennas, for example ANT
D5, this leads to a reduction of ranges.
≥ 30 mm
≥ 100 mm
Figure 8-15
Flush-mounting of the MDS D139/D339 in metal with spacer
Note
Going below the distances
If the distances (a and h) are not observed, a reduction of the field data results. It is possible
to mount the MDS with metal screws (M5). This has no tangible impact on the range. It is
recommended that a test is performed in critical applications.
8.7.4
Cleaning the mobile data memory
Note
Do not clean the transponder with mechanical tools, sand-blasting or pressure hose. These
cleaning methods result in damage to the transponder.
Clean the transponder only with the chemical cleansing agents listed in Chapter Chemical
resistance of the transponders (Page 90).
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8.7 MDS D139
8.7.5
Technical specifications
Table 8- 17
Technical specifications for MDS D139
6GT2600-0AA10
Product type designation
SIMATIC MDS D139
Memory
Memory configuration
•
UID
•
8 bytes
•
User memory
•
112 bytes EEPROM
•
OPT memory
•
16 bytes (EEPROM)
Read cycles (at < 40 ℃)
> 1014
Write cycles (at < 40 ℃)
> 106
Data retention time (at < 40 ℃)
> 10 years
Write/read distance (Sg)
Dependent on the reader used, see section "Field
data of ISO transponders (MDS D) (Page 52)"
MTBF (Mean Time Between Failures)
228 years
Mechanical specifications
Housing
•
Material
•
PPS
•
Color
•
Black
Recommended distance to metal
≥ 30 mm
Power supply
Inductive, without battery
Permitted ambient conditions
Ambient temperature
•
•
During operation
During transportation and storage
•
-25 to +220 ℃
•
from +125 ℃: 20% reduction in the limit distance
•
from +140 ℃: No processing possible
•
at +200 ℃: Tested up to 5000 hours or
6000 cycles
•
at +220 ℃: Tested up to 2000 hours or
2000 cycles
•
-40 to +100 ℃
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ISO transponder
8.7 MDS D139
6GT2600-0AA10
Degree of protection to EN 60529
•
IP68
2 hours, 2 bar, +20 °C
•
IPx9K
steam jet: 150 mm; 10 to 15 l/min; 100 bar; 75
°C
Shock-resistant to EN 60721-3-7 class 7M3
50 g 1)
Vibration-resistant to EN 60721-3-7, class 7M3
20 g 1)
Torsion and bending load
Not permitted
Design, dimensions and weight
8.7.6
Dimensions (Ø x H)
85 x 15 mm
Weight
50 g
Type of mounting
1 x M5 screw 2)
1.5 Nm
The values for shock and vibration are maximum values and must not be applied continuously.
2)
For mounting with the spacer (6GT2690-0AA00), use a stainless steel M5 screw to avoid damaging the MDS in high temperatures (expansion coefficient).
Use of the MDS D139 in hazardous areas
The MDS D139 mobile data memory is classed as a piece of simple, electrical equipment
and can be operated in Protection Zone 2, Device Group II, Category 3G.
The following requirements of the 94/9/EC directive are met:
● EN 60079-0:2006
● EN 60079-15:2005
● EN 61241-0:2006
● EN 61241-1:2004
Identification
II 3 G Ex nA II T2
II 3 D Ex tD A22 IP68 T 220°C
KEMA 09 ATEX 0133 X
Ta: -25 ... +220°C
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8.7 MDS D139
WARNING
Gefahr durch elektrostatische Entladungen
Potential electrostatic charging hazard
Danger potentiel de charges électrostatiques
Note
Installations- und Betriebsbedingungen für den Ex-Schutzbereich:
a) Der Einsatz des Gerätes in der Nähe von stark ladungserzeugenden Prozessen ist
untersagt.
b) Das Gerät ist mechanisch geschützt zu montieren.
c) Die Montage muss auf einem geerdeten, leitenden Untergrund erfolgen.
d) Die Reinigung darf nur mit feuchtem Tuch erfolgen.
Installation and operating conditions for hazardous areas:
a) Use of the equipment in the vicinity of processes generating high charges is not allowed.
b) The equipment must be mechanically protected when installed.
c) Installation must be performed on a grounded and conductive mounting surface.
d) Cleaning only with a wet cloth
Conditions d'installation et de mise en oeuvre pour la zone de protection Ex :
a) L'utilisation de l'appareil près de processus générant de fortes charges est interdite.
b) L'appareil doit être monté de manière à être protégé mécaniquement.
c) Le montage doit être effectué sur un socle conducteur mis à la terre.
d) Nettoyage uniquement avec un chiffon humide
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8.7 MDS D139
8.7.7
Dimension drawings
Dimensional drawing of MDS D139
Figure 8-16
Dimensional drawing of MDS D139
Dimensions in mm
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8.8 MDS D160
8.8
MDS D160
8.8.1
Characteristics
MDS D160
Characteristics
Area of application
Thanks to its rugged packaging, the MDS D160 is a transponder that
can be used under extreme environmental conditions. It is washable,
heat-resistant and resistant to all chemicals generally used in the
laundry process.
Typical applications are, for example:
8.8.2
•
Rented work clothing
•
Hotel laundry
•
Surgical textiles
•
Hospital clothing
•
Dirt collection mats
•
Clothing for nursing homes/hostels
Memory size
112 bytes of EEPROM user memory
Write/read range
See section Field data of ISO transponders (MDS D) (Page 52).
Mounting on metal
Yes, with spacer
ISO standard
ISO 15693
Degree of protection
IP68/IPx9K
Information for RF300 compatibility
Note
Compatibility with SIMATIC RF300 depending on MLFB number
Only the MDS D160 with MLFB 6GT2600-0AB10 is compatible with SIMATIC RF300.
8.8.3
Ordering data
Table 8- 18
Ordering data for MDS D160
Article number
MDS D160
6GT2600-0AB10
SIMATIC RF300
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8.8 MDS D160
Table 8- 19
Ordering data for MDS D160 accessories
Article number
Spacer
8.8.4
6GT2690-0AG00
Mounting on metal
Mounting on metal
①
②
③
Transponder
≥ 10 mm
Metal carrier
Spacer
Figure 8-17
Mounting the MDS D160 on metal with spacer
Note
Going below the minimum distance (h)
If the minimum distance (h) is not observed, a reduction of the field data results.
In critical applications, it is recommended that a test is performed.
Flush-mounting
Flush-mounting of the MDS D160 in metal is not permitted!
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8.8 MDS D160
8.8.5
Technical specifications
Table 8- 20
Technical specifications for the MDS D160
6GT2600-0AB10
Product type designation
SIMATIC MDS D160
Memory
Memory configuration
•
UID
•
8 bytes
•
User memory
•
112 bytes EEPROM
•
OPT memory
•
16 bytes (EEPROM)
Read cycles (at < 40 ℃)
> 1014
Write cycles (at < 40 ℃)
> 106
Data retention time (at < 40 ℃)
> 10 years
Write/read distance (Sg)
Dependent on the reader used, see section "Field
data of ISO transponders (MDS D) (Page 52)"
MTBF (Mean Time Between Failures)
228 years
Mechanical specifications
Housing
•
Material
•
PPS
•
Color
•
beige
Recommended distance to metal
≥ 10 mm
Power supply
Inductive, without battery
Permitted ambient conditions
Ambient temperature
•
In operation, during write/read access
•
-25 … +85 °C
•
In operation, outside write/read access
•
-40 … +175 °C
•
from +125 ℃: for 1000 hours, 20% reduction
of the limit distance
•
from +140 ℃: No processing possible
•
at +175 ℃: 100 washing cycles tested
•
at +220 ℃: Tested once for up to 30 seconds
•
-25 to +100 ℃
•
During transportation and storage
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8.8 MDS D160
6GT2600-0AB10
Mechanical strength
•
Isostatic pressure
•
300 bar for 5 min
•
Axial pressure
•
1000 N for 10 s
•
Radial pressure
•
1000 N for 10 s
Resistance to chemicals
All chemicals normally used in the washing process
MDS lifespan
At least 100 wash cycles
Degree of protection
•
IP68
24 hours, 2 bar, +20 °C
•
IPx9K
Shock-resistant to IEC 68-2-27
40 g 1)
18 ms; 6 axes; 2000 repetitions/h
Vibration-resistant to IEC 68-2-6
10 g 1)
10 to 2000 Hz; 3 axes; 2.5 h
Torsion and bending load
Not permitted
Design, dimensions and weight
Dimensions (Ø x H)
16 x 3 mm
Weight
1.2 g
Type of mounting
•
Patched
•
Sewn in
•
Glued
The values for shock and vibration are maximum values and must not be applied continuously.
Note
Regeneration time between washing cycles
The regeneration time for the MDS D160 between washing cycles must be at least 24 hours.
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8.8 MDS D160
8.8.6
Dimension drawings
Dimensional drawing of MDS D160
Dimensions in mm
Figure 8-18
Dimensional drawing of MDS D160
Dimensional drawing of spacer
Dimensions in mm
Figure 8-19
Dimensional drawing of spacer
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8.9 MDS D165
8.9
MDS D165
8.9.1
Features
MDS D165 (special version)
Characteristics
Area of application
The design of the transponder (self-adhesive label)
permits a variety of designs, guaranteeing optimum
dimensioning for the widest variety of applications.
From simple identification such as electronic barcode
replacement/supplementation, through warehouse
and distribution logistics, right up to product identification.
8.9.2
Memory size
112 bytes of EEPROM user memory
Write/read range
See section Field data of ISO transponders (MDS D)
(Page 52).
Mounting on metal
Yes, with spacer
ISO standard
ISO 15693
Degree of protection
IP65
Ordering data
Table 8- 21
Ordering data for MDS D165
Article number
MDS D165 (special version ISO-CARD)
6GT2600-1AB00-0AX0
Type of delivery
Minimum order quantity: 1250 units (5 rolls with 250 units each)
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8.9 MDS D165
8.9.3
Technical data
Table 8- 22
Technical specifications for MDS D165
6GT2600-1AB00-0AX0
Product type designation
SIMATIC MDS D165
Memory
Memory configuration
•
UID
•
8 bytes
•
User memory
•
112 bytes EEPROM
•
OPT memory
•
16 bytes (EEPROM)
Read cycles (at < 40 ℃)
> 1014
Write cycles (at < 40 ℃)
> 106
Data retention time (at < 40 ℃)
> 10 years
Write/read distance (Sg)
Depending on the reader used, see section "Field
data of ISO transponders (MDS D) (Page 52)"
MTBF (Mean Time Between Failures)
228 years
Mechanical specifications
Housing
•
•
Material
Color
•
Top
•
PET plastic (label
material)
•
Inlay
•
PET plastic (carrier
material)
•
Antenna
•
Aluminum
•
Bottom
•
Double-sided transfer adhesive on silicon paper
•
White
Recommended distance to metal
≥ 25 mm
Power supply
Inductive, without battery
Permitted ambient conditions
Ambient temperature
•
In operation, during write/read access
•
-5 to +85 °C
•
In operation, outside write/read access
•
-25 to +85 ℃
•
During transportation and storage
•
+15 to +30 ℃
Can be stored for 2 years, determined by the
durability of the adhesive.
Degree of protection
IP65
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8.9 MDS D165
6GT2600-1AB00-0AX0
Design, dimensions and weight
8.9.4
Dimensions (L x W x H)
86 x 54 x 0.3 mm
Weight
1g
Type of mounting
Glued with self-adhesive label
Dimension drawing
Dimensions in mm
Figure 8-20
Dimension drawing of MDS D165
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8.10 MDS D200
8.10
MDS D200
8.10.1
Features
MDS D200
8.10.2
Characteristics
Area of application
From simple identification such as electronic barcode replacement/supplementation, through
warehouse and distribution logistics, right
up to product identification.
Memory size
256 bytes of EEPROM user memory
Write/read range
See section Field data of ISO transponders (MDS D) (Page 52).
Mounting on metal
Yes, with spacer
ISO standard
15693 with Tag-it HFI technology
Degree of protection
IP67
Ordering data
Table 8- 23
Ordering data for MDS D200
Article number
MDS D200 (special version ISO-CARD)
Table 8- 24
6GT2600-1AD00-0AX0
Ordering data for MDS D200 accessories
Article number
Spacer
(in conjunction with fixing pocket 6GT2190-0AB00)
6GT2190-0AA00
Fixing pocket
(in conjunction with spacer 6GT2190-0AA00)
6GT2190-0AB00
Fixing pocket
(not suitable for fixing directly onto metal)
6GT2390-0AA00
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8.10 MDS D200
8.10.3
Mounting on metal
Mounting on metal
①
②
③
≥ 20 mm
Data memory
Metal
Non-metal
Figure 8-21
Mounting of the MDS D200 on metal with spacer
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8.10 MDS D200
Flush-mounting
≥ 20 mm
≥ 20 mm
①
②
③
Data memory
Metal
Non-metal
Figure 8-22
Flush-mounting of MDS D200 in metal with spacer
Note
If the minimum guide values (h) are not observed, a reduction of the field data results.
8.10.4
Technical data
Table 8- 25
Technical specifications for MDS D200
6GT2600-1AD00-0AX0
Product type designation
SIMATIC MDS D200
Memory
Memory configuration
•
UID
•
8 bytes
•
User memory
•
256 bytes EEPROM
•
OTP memory
•
16 bytes (EEPROM)
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8.10 MDS D200
6GT2600-1AD00-0AX0
Read cycles (at < 25 ℃)
> 1014
Write cycles (at < 25 ℃)
> 106
Data retention time (at < 25 ℃)
> 10 years
Write/read distance (Sg)
Dependent on the reader used, see section "Field
data of ISO transponders (MDS D) (Page 52)"
MTBF (Mean Time Between Failures)
228 years
Mechanical specifications
Housing
•
Material
•
PET
•
Color
•
White
Recommended distance to metal
≥ 20 mm
Power supply
Inductive, without battery
Permitted ambient conditions
Ambient temperature
•
During operation
•
-20 to +60 ℃
•
During transportation and storage
•
-20 to +60 ℃
Degree of protection to EN 60529
IP67
Shock-resistant to EN 60721-3-7 class 7M3
ISO 10373 / ISO 7810 1)
Vibration-resistant to EN 60721-3-7, class 7M3
ISO 10373 / ISO 7810 1)
Torsion and bending load
ISO 10373/ISO 7816-1
Design, dimensions and weight
Dimensions (L x W x H)
85 x 54 x 0.8 mm
Weight
5g
Type of mounting
•
Fixing pocket
•
Glued
1)
The values for shock and vibration are maximum values and must not be applied continuously.
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8.10 MDS D200
8.10.5
Dimension drawing
Dimensions in mm
Figure 8-23
Dimension drawing of MDS D200
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8.11 MDS D261
8.11
MDS D261
8.11.1
Features
MDS D261
Characteristics
Area of application
The design of the transponder (self-adhesive label)
permits a variety of designs, guaranteeing optimum
dimensioning for the widest variety of applications.
From simple identification such as electronic barcode
replacement/supplementation, through warehouse
and distribution logistics, right up to product identification.
8.11.2
Memory size
256 bytes of EEPROM user memory
Write/read range
See section Field data of ISO transponders (MDS D)
(Page 52).
Mounting on metal
Yes, with spacer
ISO standard
ISO 15693
Degree of protection
IP65
Ordering data
Table 8- 26
Ordering data for MDS D261
Article number
MDS D261
6GT2600-1AA00-0AX0
Type of delivery
Minimum order quantity: 1250 units (5 rolls with 250 units each)
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8.11 MDS D261
8.11.3
Technical data
Table 8- 27
Technical specifications of MDS D261
6GT2600-1AA01-0AX0
Product type designation
SIMATIC MDS D261
Memory
Memory configuration
•
UID
•
8 bytes
•
User memory
•
256 bytes EEPROM
•
OTP memory
•
16 bytes (EEPROM)
Read cycles (at < 40 ℃)
> 1014
Write cycles (at < 40 ℃)
> 106
Data retention time (at < 40 ℃)
> 10 years
Write/read distance (Sg)
Dependent on the reader used, see section "Field
data of ISO transponders (MDS D) (Page 52)"
MTBF (Mean Time Between Failures)
228 years
Mechanical specifications
Housing
•
•
Material
Color
•
Top
•
PET plastic (label
material)
•
Inlay
•
PET plastic (carrier
material)
•
Antenna
•
Aluminum
•
Bottom
•
Double-sided transfer adhesive on silicon paper
•
White
Recommended distance to metal
≥ 25 mm
Power supply
Inductive, without battery
Permitted ambient conditions
Ambient temperature
•
In operation, during write/read access
•
-5 to +85 °C
•
In operation, outside write/read access
•
-25 to +85 ℃
•
During transportation and storage
•
+15 to +30 ℃
Can be stored for 2 years, determined by the
durability of the adhesive
Degree of protection
IP65
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8.11 MDS D261
6GT2600-1AA01-0AX0
Design, dimensions and weight
8.11.4
Dimensions (L x W x H)
55 x 55 x 0.3 mm
Weight
1g
Type of mounting
Glued with self-adhesive label
Dimension drawing
Dimensions in mm
Figure 8-24
Dimension drawing of MDS D261
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8.12 MDS D324
8.12
MDS D324
8.12.1
Characteristics
MDS D324
Characteristics
Area of application
Production and distribution logistics
and product identification
Can also be used in harsh environments under extreme environmental
conditions (e.g. with higher temperature
load).
8.12.2
Memory size
992 bytes of EEPROM user memory
Write/read range
See section "Field data of ISO transponders (MDS D) (Page 52)."
Mounting on metal
Yes, with spacer
ISO standard
ISO 15693
Degree of protection
IP67; IPx9K
Ordering data
Table 8- 28
Ordering data MDS D324
Article number
MDS D324
Table 8- 29
6GT2600-3AC00
Ordering data MDS D324 accessories
Article number
Spacer
6GT2690-0AK00
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8.12 MDS D324
8.12.3
Mounting on metal
Mounting on metal
≥ 15 mm
Figure 8-25
Mounting the MDS D124/D324/D424/D524/E624 and RF320T on metal with spacer
Flush-mounting
≥ 15 mm
≥ 25 mm
Figure 8-26
Flush-mounting of the MDS D124/D324/D424/D524/E624 and RF320T in metal with
spacer
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8.12 MDS D324
Note
Going below the distances
If the distances (a and h) are not observed, a reduction of the field data results. It is possible
to mount the MDS with metal screws (M3 countersunk head screws). This has no tangible
impact on the range.
8.12.4
Technical specifications
Table 8- 30
Technical specifications of MDS D324
6GT2600-3AC00
Product type designation
SIMATIC MDS D324
Memory
Memory configuration
•
UID
•
8 bytes
•
User memory
•
992 bytes EEPROM
•
OPT memory
•
16 bytes (EEPROM)
Read cycles (at < 40 ℃)
> 1014
Write cycles (at < 40 ℃)
> 106
Data retention time (at < 40 ℃)
> 10 years
Write/read distance (Sg)
Dependent on the reader used, see section "Field
data of ISO transponders (MDS D) (Page 52)"
MTBF (Mean Time Between Failures)
228 years
Mechanical specifications
Housing
•
Material
•
Epoxy resin
•
Color
•
Black
Recommended distance to metal
≥ 15 mm
Power supply
Inductive, without battery
Permitted ambient conditions
Ambient temperature
•
During operation
•
-25 to +125 ℃
•
During transportation and storage
•
-40 to +140 ℃
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8.12 MDS D324
6GT2600-3AC00
Degree of protection to EN 60529
•
IP67
•
IPx9K
Shock-resistant to EN 60721-3-7 class 7M3
100 g 1)
Vibration-resistant to EN 60721-3-7, class 7M3
20 g 1)
Torsion and bending load
Not permitted
Design, dimensions and weight
8.12.5
Dimensions (Ø x H)
27 x 4 mm
Weight
5g
Type of mounting
•
1 x M3 screw 2)
≤ 1 Nm
•
Glued
1)
The values for shock and vibration are maximum values and must not be applied continuously.
) To prevent it loosening during operation, secure the screw with screw locking varnish.
Dimension drawing
Figure 8-27
Dimension drawing of MDS D324
All dimensions in mm
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8.13 MDS D339
8.13
MDS D339
8.13.1
Characteristics
MDS D339
Characteristics
Area of application
Applications in production automation with high
temperature demands (up to +220 °C)
Typical application areas:
8.13.2
•
Paintshops and their preparatory treatments
•
Primer coat, electrolytic dip area, cataphoresis
with the associated drying furnaces
•
Top coat area with drying furnaces
•
Washing areas at temperatures > 85 °C
•
Other applications with higher temperatures
Memory size
992 bytes of EEPROM user memory
Write/read range
See section Field data of ISO transponders (MDS D)
(Page 52).
Mounting on metal
Yes, with spacer
ISO standard
ISO 15693
Degree of protection
IP68/IPx9K
Ordering data
Table 8- 31
Ordering data for MDS D339
Article number
MDS D339
Table 8- 32
6GT2600-3AA10
Ordering data for MDS D339 accessories
Article number
Spacer
6GT2690-0AA00
Quick change holder
(Ø x H): 22 x 60 mm
6GT2690-0AH00
Quick change holder
(Ø x H): 22 x 47 mm
6GT2690-0AH10
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8.13 MDS D339
8.13.3
Mounting on metal
Direct mounting of the MDS D139/D339 on metal is not allowed. A distance of ≥ 30 mm is
recommended. This can be achieved using spacers (see "Ordering data (Page 303)").
Mounting on metal
≥ 30 mm
Figure 8-28
Mounting the MDS D139/D339 on metal with spacer
Flush-mounting
It is possible to mount the MDS D139/D339 in metal. With large antennas, for example ANT
D5, this leads to a reduction of ranges.
≥ 30 mm
≥ 100 mm
Figure 8-29
Flush-mounting of the MDS D139/D339 in metal with spacer
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8.13 MDS D339
Note
Going below the distances
If the distances (a and h) are not observed, a reduction of the field data results. It is possible
to mount the MDS with metal screws (M5). This has no tangible impact on the range. It is
recommended that a test is performed in critical applications.
8.13.4
Cleaning the mobile data memory
Note
Do not clean the transponder with mechanical tools, sand-blasting or pressure hose. These
cleaning methods result in damage to the transponder.
Clean the transponder only with the cleaning agents listed in the section "Chemical
resistance of the MDS".
8.13.5
Technical specifications
Table 8- 33
Technical specifications of MDS D339
6GT2600-3AA10
Product type designation
SIMATIC MDS D339
Memory
Memory configuration
•
UID
•
8 bytes
•
User memory
•
992 bytes EEPROM
•
OPT memory
•
16 bytes (EEPROM)
Read cycles (at < 40 ℃)
> 1014
Write cycles (at < 40 ℃)
> 106
Data retention time (at < 40 ℃)
> 10 years
Write/read distance (Sg)
Dependent on the reader used, see section "Field
data of ISO transponders (MDS D) (Page 52)"
MTBF (Mean Time Between Failures)
228 years
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8.13 MDS D339
6GT2600-3AA10
Mechanical specifications
Housing
•
Material
•
PPS
•
Color
•
Black
Recommended distance to metal
≥ 30 mm
Power supply
Inductive, without battery
Permitted ambient conditions
Ambient temperature
•
•
During operation
During transportation and storage
Degree of protection to EN 60529
•
-25 to +220 ℃
•
from +125 ℃: 20% reduction in the limit distance
•
from +140 ℃: No processing possible
•
at +200 ℃: Tested up to 5000 hours or
6000 cycles
•
at +220 ℃: Tested up to 2000 hours or
2000 cycles
•
-40 to +100 ℃
•
IP68
2 hours, 2 bar, +20 °C
•
IPx9K
steam jet: 150 mm; 10 to 15 l/min; 100 bar; 75
°C
Shock-resistant to EN 60721-3-7 class 7M3
50 g 1)
Vibration-resistant to EN 60721-3-7, class 7M3
20 g 1)
Torsion and bending load
Not permitted
Design, dimensions and weight
Dimensions (Ø x H)
85 x 15 mm
Weight
50 g
Type of mounting
1 x M5 screw 2)
1.5 Nm
The values for shock and vibration are maximum values and must not be applied continuously.
2)
For mounting with the spacer (6GT2690-0AA00), use a stainless steel M5 screw to avoid damaging the MDS in high temperatures (expansion coefficient).
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8.13 MDS D339
8.13.6
Use of the MDS D339 in hazardous areas
The MDS D339 mobile data memory is classed as a piece of simple, electrical equipment
and can be operated in Protection Zone 2, Device Group II, Category 3G.
The following requirements of the 94/9/EC directive are met:
● EN 60079-0:2006
● EN 60079-15:2005
● EN 61241-0:2006
● EN 61241-1:2004
Identification
II 3 G Ex nA II T6
Ii 3 D Ex tD A22 IP68 T 210°C
KEMA 09 ATEX 0133 X
WARNING
Gefahr durch elektrostatische Entladungen
Potential electrostatic charging hazard
Danger potentiel de charges électrostatiques
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ISO transponder
8.13 MDS D339
Note
Installations- und Betriebsbedingungen für den Ex-Schutzbereich:
a) Der Einsatz des Gerätes in der Nähe von stark ladungserzeugenden Prozessen ist
untersagt.
b) Das Gerät ist mechanisch geschützt zu montieren.
c) Die Montage muss auf einem geerdeten, leitenden Untergrund erfolgen.
d) Die Reinigung darf nur mit feuchtem Tuch erfolgen.
Installation and operating conditions for hazardous areas:
a) Use of the equipment in the vicinity of processes generating high charges is not allowed.
b) The equipment must be mechanically protected when installed.
c) Installation must be performed on a grounded and conductive mounting surface.
d) Cleaning only with a wet cloth
Conditions d'installation et de mise en oeuvre pour la zone de protection Ex :
a) L'utilisation de l'appareil près de processus générant de fortes charges est interdite.
b) L'appareil doit être monté de manière à être protégé mécaniquement.
c) Le montage doit être effectué sur un socle conducteur mis à la terre.
d) Nettoyage uniquement avec un chiffon humide
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8.13 MDS D339
8.13.7
Dimensional drawing
MDS D339
Figure 8-30
Dimension drawing of the MDS D339
Dimensions in mm
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ISO transponder
8.14 MDS D400
8.14
MDS D400
8.14.1
Features
MDS D400
8.14.2
Characteristics
Area of application
Simple identification such as electronic barcode replacement/supplements, from warehouse and distribution logistics right through to product identification.
Memory size
2000 bytes of FRAM user memory
Write/read range
See section "Field data of ISO transponders (MDS D)
(Page 52)"
Mounting on metal
Yes, with spacer
ISO standard
ISO 15693
Degree of protection
IP67
Ordering data
Table 8- 34
Ordering data of MDS D400
Article number
MDS D400
Table 8- 35
6GT2600-4AD00
Ordering data of MDS D400 accessories
Article number
Spacer
(in conjunction with fixing pocket 6GT2190-0AB00)
6GT2190-0AA00
Fixing pocket
(in conjunction with spacer 6GT2190-0AA00)
6GT2190-0AB00
Fixing pocket
(not suitable for fixing directly onto metal)
6GT2390-0AA00
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8.14 MDS D400
8.14.3
Mounting on metal
Mounting on metal
It is possible to mount the MDS D400 on metal.
①
②
③
≥ 20 mm
Transponder
Metal
Non-metal
Figure 8-31
Mounting of the MDS D400 on metal with spacer
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ISO transponder
8.14 MDS D400
Flush-mounted in metal
≥ 20 mm
≥ 20 mm
①
②
③
Transponder
Metal
Non-metal
Figure 8-32
Flush-mounting of MDS D400 in metal with spacer
Note
If the minimum guide values (h) are not observed, this will result in a reduction of the field
data.
8.14.4
Technical specifications
Table 8- 36
Technical specifications for MDS D400
6GT2600-1AD00-0AX0
Product type designation
SIMATIC MDS D400
Memory
Memory configuration
•
UID
•
8 bytes
•
User memory
•
256 bytes FRAM
•
OPT memory
•
16 bytes FRAM
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8.14 MDS D400
6GT2600-1AD00-0AX0
Read cycles (at < 25 ℃)
> 1012
Write cycles (at < 25 ℃)
> 1012
Data retention time (at < 25 ℃)
> 10 years
Write/read distance (Sg)
Dependent on the reader used, see section "Field
data of ISO transponders (MDS D) (Page 52)"
MTBF (Mean Time Between Failures)
228 years
Mechanical specifications
Housing
•
Material
•
PVC
•
Color
•
White
Recommended distance to metal
≥ 20 mm
Power supply
Inductive, without battery
Permitted ambient conditions
Ambient temperature
•
During operation
•
-20 to +60 ℃
•
During transportation and storage
•
-20 to +60 ℃
Degree of protection to EN 60529
IP67
Vibration-resistant to EN 60721-3-7, class 7M3
ISO 10373 / ISO 7810 1)
Torsion and bending load
ISO 10373/ISO 7816-1
Design, dimensions and weight
Dimensions (L x W x H)
85 x 54 x 0.8 mm
Weight
5g
Type of mounting
•
Fixing lug
•
Glued
1)
The values for vibration are maximum values and must not be applied continuously.
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ISO transponder
8.14 MDS D400
8.14.5
Dimension drawing
Figure 8-33
Dimensional drawing MDS D400 (dimensions in mm)
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8.15 MDS D421
8.15
MDS D421
8.15.1
Characteristics
MDS D421
Characteristics
Area of application
The MDS D421 is designed for tool coding in accordance
with DIN 69873.
It can be used wherever small data carriers and exact positioning are required, e.g. tool identification, workpiece holders.
The rugged housing of the MDS D421 means that it can
also be used in a harsh industrial environment without problems.
8.15.2
Memory size
2000 bytes of FRAM user memory
Write/read range
See section "Field data of ISO transponders (MDS D)
(Page 52)"
Mounting on metal
Yes, flush-mounted in metal
ISO standard
ISO 15693
Degree of protection
IP67/IPx9K
Ordering data
Table 8- 37
Ordering data of MDS D421
Article number
MDS D421
6GT2600-4AE00
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ISO transponder
8.15 MDS D421
8.15.3
Mounting on metal
Mounting on metal
Figure 8-34
Mounting of MDS D421/D521/E623 on metal
Figure 8-35
Mounting of MDS D421/D521/E623 in metal
Flush-mounting
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8.15 MDS D421
Flush-mounting of the MDS in metal with tools
Figure 8-36
Flush-mounting of MDS D421/D521/E623 in metal with tools
b1
0.5 x 45°
b2
0.3 x 45° or R0.3
d1
10 (-0.04... -0.13)
d2
10 (+0.09... 0)
t1
4.5 (-0 ... -0.1)
t2
4.6 (+0.2 ... 0)
All dimensions in mm
Note
Installation instruction
The MDS should not protrude out of the locating hole; it must be flush with the outside
contour.
The mounting instructions of the MDS and the conditions associated with the application
(e.g. peripheral speed, temperature, and use of coolant) must be observed during the
installation.
Mounting information for adhesion
● Drill installation hole
● The adhesive surfaces must be dry, free from dust, oil, stripping agents and other
impurities
● Apply adhesive according to the manufacturer's processing instructions
● Press in transponder using your fingers; with antenna side to the outside (see figure
above)
● Remove residues of adhesive
● Allow to cure according to the manufacturer's instructions
● Flush-mounting of the transponder in metal with tools
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ISO transponder
8.15 MDS D421
Installation examples
8.15.4
Figure 8-37
Installation example of MDS D421/D521/E623 in a steep cone
Figure 8-38
Installation example of MDS D421/D521/E623 in a stud bolt
Technical specifications
Table 8- 38
Technical specifications for the MDS D421
6GT2600-4AE00
Product type designation
SIMATIC MDS D421
Memory
Memory configuration
•
UID
•
8 bytes
•
User memory
•
2000 bytes FRAM
•
OPT memory
•
16 bytes FRAM
Read cycles (at < 40 ℃)
> 1012
Write cycles (at < 40 ℃)
> 1012
Data retention time (at < 40 ℃)
> 10 years
Write/read distance (Sg)
Dependent on the reader used, see section "Field
data of ISO transponders (MDS D) (Page 52)"
MTBF (Mean Time Between Failures)
228 years
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8.15 MDS D421
6GT2600-4AE00
Mechanical specifications
Housing
•
Material
•
Epoxy resin
•
Color
•
Black
Recommended distance to metal
≥ 0 mm
Power supply
Inductive, without battery
Permitted ambient conditions
Ambient temperature
•
During operation
•
-25 to +85 ℃
•
During transportation and storage
•
-40 to +100 ℃
•
IP67
•
IPx9K
steam jet: 150 mm; 10 to 15 l/min; 100 bar; 75
°C
Degree of protection to EN 60529
Shock-resistant to EN 60721-3-7 class 7M3
100 g 1)
Vibration-resistant to EN 60721-3-7, class 7M3
20 g 1)
Torsion and bending load
Not permitted
Design, dimensions and weight
Dimensions (Ø x H)
10 x 4.5 mm
Weight
Approx. 1 g
Type of mounting
Glued2)
1)
The values for shock and vibration are maximum values and must not be applied continuously.
2)
The manufacturer's processing instructions must be observed.
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ISO transponder
8.15 MDS D421
8.15.5
Dimension drawing
Figure 8-39
Dimension drawing of MDS D421
All dimensions in mm
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8.16 MDS D422
8.16
MDS D422
8.16.1
Characteristics
MDS D422
8.16.2
Characteristics
Area of application
Identification of metallic workpiece holders, workpieces or
containers
Memory size
2000 bytes of FRAM user memory
Write/read range
See section "Field data of ISO transponders (MDS D)
(Page 52).
Mounting on metal
Yes
ISO standard
ISO 15693
Degree of protection
IP68
Ordering data
Table 8- 39
Ordering data of MDS D422
Article number
MDS D422
6GT2600-4AF00
A screw-in aid is included in the scope of supply per packaging
unit
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ISO transponder
8.16 MDS D422
8.16.3
Mounting in metal
Flush-mounting
Figure 8-40
Mounting of MDS D422 in metal
Mounting information for screws
You can screw the transponder into a pre-drilled threaded hole using the screw-in aid.
Mounting information for adhesion
● Drill installation hole
● The adhesive surfaces must be dry, free from dust, oil, stripping agents and other
impurities
● Apply adhesive according to the manufacturer's processing instructions
● Press in MDS D422 using your fingers; with antenna to the outside
● Remove residues of adhesive
● Allow to cure according to the manufacturer's instructions
● Flush-mounting of MDS D422 in metal with tools
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8.16 MDS D422
8.16.4
Technical specifications
Table 8- 40
Technical specifications for the MDS D422
6GT2600-4AF00
Product type designation
SIMATIC MDS D422
Memory
Memory configuration
•
UID
•
8 bytes
•
User memory
•
2000 bytes FRAM
•
OPT memory
•
16 bytes FRAM
Read cycles (at < 40 ℃)
> 1012
Write cycles (at < 40 ℃)
> 1012
Data retention time (at < 40 ℃)
> 10 years
Write/read distance (Sg)
Dependent on the reader used, see section "Field
data of ISO transponders (MDS D) (Page 52)"
MTBF (Mean Time Between Failures)
285 years
Mechanical specifications
Housing
•
Material
•
Plastic PA 6.6 GF; brass nickel plated
•
Color
•
Black/silver
Recommended distance to metal
≥ 0 mm
Power supply
Inductive, without battery
Permitted ambient conditions
Ambient temperature
•
During operation
•
-25 to +85 ℃
•
During transportation and storage
•
-40 to +100 ℃
Degree of protection to EN 60529
•
IP68
2 hours, 2 bar, +20 °C
Shock-resistant to EN 60721-3-7 class 7M3
50 g 1)
Vibration-resistant to EN 60721-3-7, class 7M3
20 g 1)
Torsion and bending load
Not permitted
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ISO transponder
8.16 MDS D422
6GT2600-4AF00
Design, dimensions and weight
Dimensions (Ø x H)
20 x 6 mm
Weight
13 g
Type of mounting
•
Glued
•
1 x transponder thread M20
≤ 1 Nm
1)
8.16.5
The values for shock and vibration are maximum values and must not be applied continuously.
Dimension drawing
Dimensions in mm
Figure 8-41
Dimensional drawing of MDS D422
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ISO transponder
8.17 MDS D423
8.17
MDS D423
8.17.1
Characteristics
MDS D423
8.17.2
Characteristics
Area of application
Identification of metallic workpiece holders, workpieces or containers, production automation
Memory size
2000 bytes of FRAM user memory
Write/read range
See section "Field data of ISO transponders (MDS
D) (Page 52)"
Mounting on metal
Yes, flush-mounted in metal
ISO standard
ISO 15693
Degree of protection
IP68/IPx9K
Ordering data
Table 8- 41
Ordering data of MDS D423
Article number
MDS D423
Table 8- 42
6GT2600-4AA00
Ordering data of MDS D423 accessories
Article number
Fixing hood RF330T / MDS D423
6GT2690-0EA00
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ISO transponder
8.17 MDS D423
8.17.3
Mounting on metal
Mounting on metal
Direct mounting of the MDS D423 on metal is possible.
Figure 8-42
Mounting the MDS D423 on metal
Flush-mounted in metal
It is possible to mount the MDS D423 in metal.
≥ 10 mm
Figure 8-43
Flush-mounting of the MDS D423 in metal with 10 mm clearance
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8.17 MDS D423
Figure 8-44
Flush-mounting of the MDS D423 in metal without clearance
Note
Reduction of the write/read range
Note that when the device is flush-mounted in metal without a surrounding clearance ≥ 10
mm, the write/read range is significantly reduced.
8.17.4
Technical specifications
Table 8- 43
Technical specifications of MDS D423
6GT2600-4AA00
Product type designation
SIMATIC MDS D423
Memory
Memory configuration
•
UID
•
8 bytes
•
User memory
•
2000 bytes FRAM
•
OPT memory
•
16 bytes FRAM
Read cycles (at < 40 ℃)
> 1012
Write cycles (at < 40 ℃)
> 1012
Data retention time (at < 40 ℃)
> 10 years
Write/read distance (Sg)
Dependent on the reader used, see section "Field
data of ISO transponders (MDS D) (Page 52)"
MTBF (Mean Time Between Failures)
228 years
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ISO transponder
8.17 MDS D423
6GT2600-4AA00
Mechanical specifications
Housing
•
Material
•
Plastic PPS
•
Color
•
Black
Recommended distance to metal
≥ 0 mm
Power supply
Inductive, without battery
Permitted ambient conditions
Ambient temperature
•
During operation
•
-25 to +85 ℃
•
During transportation and storage
•
-40 to +100 ℃
•
IP68
2 hours, 2 bar, +20 °C
•
IPx9K
steam jet: 150 mm; 10 to 15 l/min; 100 bar; 75
°C
Degree of protection to EN 60529
Shock-resistant to EN 60721-3-7 class 7M3
50 g 1)
Vibration-resistant to EN 60721-3-7, class 7M3
20 g 1)
Pressure resistance
•
Low pressure resistant
vacuum dryer: up to 20 mbar
•
High pressure resistant
(see degree of protection IPx9K)
Torsion and bending load
Not permitted
Design, dimensions and weight
Dimensions (Ø x H)
30 x 8 mm
Weight
15 g
Type of mounting
1 x M4 screw 2)
≤ 1 Nm
1)
The values for shock and vibration are maximum values and must not be applied continuously.
) To prevent it loosening during operation, secure the screw with screw locking varnish.
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8.17 MDS D423
8.17.5
Dimensional drawing
Dimensions in mm
Figure 8-45
Dimension drawing for MDS D423
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ISO transponder
8.18 MDS D424
8.18
MDS D424
8.18.1
Characteristics
MDS D424
Characteristics
Area of application
Production and distribution logistics as well as in
assembly and production lines,
can also be used in a harsh industrial environment
without problem
8.18.2
Memory size
2000 bytes of FRAM user memory
Write/read range
See section "Field data of ISO transponders (MDS
D) (Page 52)."
Mounting on metal
Yes, with spacer
ISO standard
ISO 15693
Degree of protection
IP67; IPx9K
Ordering data
Table 8- 44
Ordering data of MDS D424
Article number
MDS D424
Table 8- 45
6GT2600-4AC00
Ordering data of MDS D424 accessories
Article number
Spacer
6GT2690-0AK00
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8.18 MDS D424
8.18.3
Mounting on metal
Mounting on metal
≥ 15 mm
Figure 8-46
Mounting the MDS D124/D324/D424/D524/E624 and RF320T on metal with spacer
Flush-mounting
≥ 15 mm
≥ 25 mm
Figure 8-47
Flush-mounting of the MDS D124/D324/D424/D524/E624 and RF320T in metal with
spacer
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ISO transponder
8.18 MDS D424
Note
Going below the distances
If the distances (a and h) are not observed, a reduction of the field data results. It is possible
to mount the MDS with metal screws (M3 countersunk head screws). This has no tangible
impact on the range.
8.18.4
Technical specifications
Table 8- 46
Technical specifications for the MDS D424
6GT2600-4AC00
Product type designation
SIMATIC MDS D424
Memory
Memory configuration
•
UID
•
8 bytes
•
User memory
•
2000 bytes FRAM
•
OPT memory
•
16 bytes FRAM
Read cycles (at < 40 ℃)
> 1012
Write cycles (at < 40 ℃)
> 1012
Data retention time (at < 40 ℃)
> 10 years
Write/read distance (Sg)
Dependent on the reader used, see section "Field
data of ISO transponders (MDS D) (Page 52)"
MTBF (Mean Time Between Failures)
228 years
Mechanical specifications
Housing
•
Material
•
Epoxy resin
•
Color
•
Black
Recommended distance to metal
≥ 15 mm
Power supply
Inductive, without battery
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8.18 MDS D424
6GT2600-4AC00
Permitted ambient conditions
Ambient temperature
•
During operation
•
-25 to +85 ℃
•
During transportation and storage
•
-40 to +100 ℃
•
IP67
•
IPx9K
Degree of protection to EN 60529
Shock-resistant to EN 60721-3-7 class 7M3
100 g 1)
Vibration-resistant to EN 60721-3-7, class 7M3
20 g 1)
Torsion and bending load
Not permitted
Design, dimensions and weight
8.18.5
Dimensions (Ø x H)
27 x 4 mm
Weight
5g
Type of mounting
•
Glued
•
1 x M3 screw 2)
≤ 1 Nm
1)
The values for shock and vibration are maximum values and must not be applied continuously.
) To prevent it loosening during operation, secure the screw with screw locking varnish.
Dimension drawing
Figure 8-48
Dimension drawing of MDS D424
All dimensions in mm
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ISO transponder
8.19 MDS D425
8.19
MDS D425
8.19.1
Characteristics
MDS D425
Characteristics
Area of application
Compact and rugged ISO transponder; suitable for screw
mounting
Use in assembly and production lines in the powertrain
sector; ideal for mounting on motors, gearboxes, and workpiece holders
Rugged packaging of the MDS D425; can therefore also be
used under extreme environmental conditions without problem
8.19.2
Memory size
2000 bytes of FRAM user memory
Write/read range
See section "Field data of ISO transponders (MDS D)
(Page 52)".
Mounting on metal
Yes
ISO standard
ISO 15693
Degree of protection
IP68/IPx9K
Ordering data
Table 8- 47
Ordering data of MDS D425
Article number
MDS D425
6GT2600-4AG00
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ISO transponder
8.19 MDS D425
8.19.3
Application example
Figure 8-49
8.19.4
Application example
Technical specifications
Table 8- 48
Technical specifications for the MDS D425
6GT2600-4AG00
Product type designation
SIMATIC MDS D425
Memory
Memory configuration
•
UID
•
8 bytes
•
User memory
•
2000 bytes FRAM
•
OPT memory
•
16 bytes FRAM
Read cycles (at < 40 ℃)
> 1012
Write cycles (at < 40 ℃)
> 1012
Data retention time (at < 40 ℃)
> 10 years
Write/read distance (Sg)
Dependent on the reader used, see section "Field
data of ISO transponders (MDS D) (Page 52)"
MTBF (Mean Time Between Failures)
228 years
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ISO transponder
8.19 MDS D425
6GT2600-4AG00
Mechanical specifications
Housing
•
Material
•
Plastic PA 6.6 GF
•
Color
•
Black
Recommended distance to metal
≥ 0 mm
Power supply
Inductive, without battery
Permitted ambient conditions
Ambient temperature
•
During operation
•
-25 to +85 ℃
•
During transportation and storage
•
-40 to +125 ℃
•
IP68
2 hours, 2 bar, +20 °C
•
IPx9K
steam jet: 150 mm; 10 to 15 l/min; 100 bar; 75
°C
Degree of protection to EN 60529
Shock-resistant to IEC 68-2-27
50 g 1)
Vibration-resistant to IEC 68-2-6
20 g 1)
Torsion and bending load
Not permitted
Design, dimensions and weight
Dimensions (Ø x H)
24 x 10 mm (without set screw)
Weight
35 g
Type of mounting
1x transponder set screw M6
SW 22; ≤ 6 Nm
1)
The values for shock and vibration are maximum values and must not be applied continuously.
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8.19 MDS D425
8.19.5
Dimension drawing
Dimensions in mm
Figure 8-50
Dimension drawing of MDS D425
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ISO transponder
8.20 MDS D426
8.20
MDS D426
8.20.1
Characteristics
MDS D426
8.20.2
Characteristics
Area of application
Compact and rugged ISO transponder; suitable for identification of
transport units in production-related logistics; can also be deployed in
harsh conditions
Memory size
2000 bytes of FRAM user memory
Write/read range
See section Field data of ISO transponders (MDS D) (Page 52)
Mounting on metal
Yes, with spacer
ISO standard
ISO 15693
Degree of protection
IP68
Ordering data
Table 8- 49
Ordering data of MDS D426
Article number
MDS D426
Table 8- 50
6GT2600-4AH00
Ordering data of MDS D426 accessories
Article number
Spacer
6GT2690-0AL00
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ISO transponder
8.20 MDS D426
8.20.3
Mounting on metal
Mounting on metal
≥ 25 mm
Figure 8-51
Mounting the MDS D126 / D426 / D526 on metal with spacer
Flush-mounted in metal
≥ 25 mm
≥ 50 mm
Figure 8-52
Flush installation of the MDS D126 / D426 / D526 in metal with spacer
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ISO transponder
8.20 MDS D426
8.20.4
Technical specifications
Table 8- 51
Technical specifications for the MDS D426
6GT2600-4AH00
Product type designation
SIMATIC MDS D426
Memory
Memory configuration
•
UID
•
8 bytes
•
User memory
•
2000 bytes FRAM
•
OPT memory
•
16 bytes FRAM
Read cycles (at < 40 ℃)
> 1012
Write cycles (at < 40 ℃)
> 1012
Data retention time (at < 40 ℃)
> 10 years
Write/read distance (Sg)
Dependent on the reader used, see section "Field
data of ISO transponders (MDS D) (Page 52)"
MTBF (Mean Time Between Failures)
228 years
Mechanical specifications
Housing
•
Material
•
Plastic PA 6.6 GF
•
Color
•
Black
Recommended distance to metal
≥ 25 mm
Power supply
Inductive, without battery
Permitted ambient conditions
Ambient temperature
•
During operation
•
-25 to +85 ℃
•
During transportation and storage
•
-40 to +100 ℃
Degree of protection to EN 60529
IP68
2 hours, 2 bar, +20 °C
Shock-resistant to IEC 68-2-27
50 g 1)
Vibration-resistant to IEC 68-2-6
20 g 1)
Torsion and bending load
Not permitted
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8.20 MDS D426
6GT2600-4AH00
Design, dimensions and weight
8.20.5
Dimensions (Ø x H)
50 x 3.6 mm
Weight
13 g
Type of mounting
1 x M4 screw 2)
≤ 1 Nm
1)
The values for shock and vibration are maximum values and must not be applied continuously.
) To prevent it loosening during operation, secure the screw with screw locking varnish.
Dimension drawing
Dimensions in mm
Figure 8-53
Dimension drawing of MDS D426
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ISO transponder
8.21 MDS D428
8.21
MDS D428
8.21.1
Characteristics
MDS D428
Characteristics
Area of application
Compact and rugged ISO transponder; suitable for screw
mounting.
Use in assembly and production lines in the powertrain
sector.
The rugged housing of the MDS D428 means that it can
also be used in extreme environmental conditions without
problems.
8.21.2
Memory size
2000 bytes of FRAM user memory
Write/read range
See section "Field data of ISO transponders (MDS D)
(Page 52)"
Mounting on metal
Yes
ISO standard
ISO 15693
Degree of protection
IP68/IPx9K
Ordering data
Table 8- 52
Ordering data of MDS D428
Article number
MDS D428
6GT2600-4AK00-0AX0
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8.21 MDS D428
8.21.3
Application example
Figure 8-54
8.21.4
Application example
Technical specifications
Table 8- 53
Technical specifications for the MDS D428
6GT2600-4AK00
Product type designation
SIMATIC MDS D428
Memory
Memory configuration
•
UID
•
8 bytes
•
User memory
•
2000 bytes FRAM
•
OPT memory
•
16 bytes FRAM
Read cycles (at < 40 ℃)
> 1012
Write cycles (at < 40 ℃)
> 1012
Data retention time (at < 40 ℃)
> 10 years
Write/read distance (Sg)
Dependent on the reader used, see section "Field
data of ISO transponders (MDS D) (Page 52)"
MTBF (Mean Time Between Failures)
228 years
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ISO transponder
8.21 MDS D428
6GT2600-4AK00
Mechanical specifications
Housing
•
Material
•
Plastic PA 6.6 GF
•
Color
•
Black
Recommended distance to metal
≥ 0 mm
Power supply
Inductive, without battery
Permitted ambient conditions
Ambient temperature
•
During operation
•
-25 to +85 ℃
•
During transportation and storage
•
-40 to +125 ℃
•
IP68
2 hours, 2 bar, +20 °C
•
IPx9K
steam jet: 150 mm; 10 to 15 l/min; 100 bar; 75
°C
Degree of protection to EN 60529
Shock-resistant to IEC 68-2-27
50 g 1)
Vibration-resistant to IEC 68-2-6
20 g 1)
Torsion and bending load
Not permitted
Design, dimensions and weight
Dimensions (Ø x H)
24 x 20 mm (without set screw)
Weight
35 g
Type of mounting
1x transponder set screw M8
SW 22; ≤ 8 Nm
1)
The values for shock and vibration are maximum values and must not be applied continuously.
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8.21 MDS D428
8.21.5
Dimension drawing
Dimensions in mm
Figure 8-55
Dimension drawing of MDS D428
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ISO transponder
8.22 MDS D460
8.22
MDS D460
8.22.1
Characteristics
MDS D460
8.22.2
Characteristics
Area of application
Identification in small assembly lines; can also be used in a harsh industrial environment
Memory size
2000 bytes of FRAM user memory
Write/read range
See section "Field data of ISO transponders (MDS D) (Page 52).
Mounting on metal
Yes, with spacer
ISO standard
ISO 15693
Degree of protection
IP67/IPx9K
Ordering data
Table 8- 54
Ordering data of MDS D460
Article number
MDS D460
Table 8- 55
6GT2600-4AB00
Ordering data of MDS D460 accessories
Article number
Spacer
6GT2690-0AG00
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ISO transponder
8.22 MDS D460
8.22.3
Mounting on metal
Mounting option on metal with spacer
①
②
③
Transponder
≥ 10 mm
Metal
Spacer
Figure 8-56
Mounting the MDS D460 on metal with spacer
Note
If the minimum guide values (h) are not observed, a reduction of the field data results.
In critical applications, it is recommended that a test is performed.
Flush-mounting
Flush-mounting of the MDS D460 in metal is not permitted!
8.22.4
Technical specifications
Table 8- 56
Technical specifications for MDS D460
6GT2600-4AB00
Product type designation
SIMATIC MDS D460
Memory
Memory configuration
•
UID
•
8 bytes
•
User memory
•
2000 bytes FRAM
•
OPT memory
•
16 bytes FRAM
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ISO transponder
8.22 MDS D460
6GT2600-4AB00
Read cycles (at < 40 ℃)
> 1012
Write cycles (at < 40 ℃)
> 1012
Data retention time (at < 40 ℃)
> 10 years
Write/read distance (Sg)
Dependent on the reader used, see section "Field
data of ISO transponders (MDS D) (Page 52)"
MTBF (Mean Time Between Failures)
228 years
Mechanical specifications
Housing
•
Material
•
Epoxy resin
•
Color
•
Black
Recommended distance to metal
≥ 10 mm
Power supply
Inductive, without battery
Permitted ambient conditions
Ambient temperature
•
During operation
•
-25 to +85 ℃
•
During transportation and storage
•
-40 to +100 ℃
Degree of protection to EN 60529
•
IP67
•
IPx9K
steam jet: 150 mm; 10 to 15 l/min; 100 bar; 75
°C
Shock-resistant to IEC 68-2-27
50 g 1)
Vibration-resistant to IEC 68-2-6
20 g 1)
Torsion and bending load
Not permitted
Design, dimensions and weight
Dimensions (Ø x H)
16 x 3 mm
Weight
3g
Type of mounting
•
Glued
•
With spacer
1)
The values for shock and vibration are maximum values and must not be applied continuously.
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8.22 MDS D460
8.22.5
Dimension drawings
Dimensional drawing of MDS D460
Dimensions in mm
Figure 8-57
Dimensional drawing of MDS D460
Dimensional drawing of spacer
Dimensions in mm
Figure 8-58
Dimensional drawing of spacer
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ISO transponder
8.23 MDS D521
8.23
MDS D521
8.23.1
Characteristics
MDS D521
Characteristics
Area of application
The MDS D521 is designed for tool coding according to DIN
69873.
It can be used wherever small data carriers and exact positioning
are required, e.g. tool identification, workpiece holders.
The rugged housing of the MDS D521 means that it can also be
used in a harsh industrial environment without problems.
8.23.2
Memory size
8192 bytes of FRAM user memory
Write/read range
See section "Field data of ISO transponders (MDS D) (Page 52)"
Mounting on metal
Yes, flush-mounted in metal
ISO standard
ISO 15693
Degree of protection
IP67/IPx9K
Ordering data
Table 8- 57
Ordering data for MDS D521
Article number
MDS D521
8.23.3
6GT2600-5AE00
Mounting on metal
Mounting on metal
Figure 8-59
Mounting of MDS D421/D521/E623 on metal
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ISO transponder
8.23 MDS D521
Flush-mounting
Figure 8-60
Mounting of MDS D421/D521/E623 in metal
Flush-mounting of the MDS in metal with tools
Figure 8-61
Flush-mounting of MDS D421/D521/E623 in metal with tools
b1
0.5 x 45°
b2
0.3 x 45° or R0.3
d1
10 (-0.04... -0.13)
d2
10 (+0.09... 0)
t1
4.5 (-0 ... -0.1)
t2
4.6 (+0.2 ... 0)
All dimensions in mm
Note
Installation instruction
The MDS should not protrude out of the locating hole; it must be flush with the outside
contour.
The mounting instructions of the MDS and the conditions associated with the application
(e.g. peripheral speed, temperature, and use of coolant) must be observed during the
installation.
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ISO transponder
8.23 MDS D521
Mounting information for adhesion
● Drill installation hole
● The adhesive surfaces must be dry, free from dust, oil, stripping agents and other
impurities
● Apply adhesive according to the manufacturer's processing instructions
● Press in transponder using your fingers; with antenna side to the outside (see figure
above)
● Remove residues of adhesive
● Allow to cure according to the manufacturer's instructions
● Flush-mounting of the transponder in metal with tools
Installation examples
Figure 8-62
Installation example of MDS D421/D521/E623 in a steep cone
Figure 8-63
Installation example of MDS D421/D521/E623 in a stud bolt
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ISO transponder
8.23 MDS D521
8.23.4
Technical specifications
Table 8- 58
Technical specifications for MDS D521
6GT2600-5AE00
Product type designation
SIMATIC MDS D521
Memory
Memory configuration
•
UID
•
8 bytes
•
User memory
•
8192 bytes FRAM
Read cycles (at < 40 ℃)
> 1012
Write cycles (at < 40 ℃)
> 1012
Data retention time (at < 40 ℃)
> 10 years
Write/read distance (Sg)
Dependent on the reader used, see section "Field
data of ISO transponders (MDS D) (Page 52)"
MTBF (Mean Time Between Failures)
228 years
Mechanical specifications
Housing
•
Material
•
Epoxy resin
•
Color
•
Black
Recommended distance to metal
> 25 mm
Power supply
Inductive, without battery
Permitted ambient conditions
Ambient temperature
•
During operation
•
-25 to +85 ℃
•
During transportation and storage
•
-40 to +100 ℃
Degree of protection to EN 60529
•
IP67
•
IPx9K
steam jet: 150 mm; 10 to 15 l/min; 100 bar; 75
°C
Shock-resistant to EN 60721-3-7 class 7M3
100 g 1)
Vibration-resistant to EN 60721-3-7, class 7M3
20 g 1)
Torsion and bending load
Not permitted
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ISO transponder
8.23 MDS D521
6GT2600-5AE00
Design, dimensions and weight
8.23.5
Dimensions (Ø x H)
10 x 4.5 mm
Weight
4g
Type of mounting
Glued2)
1)
The values for shock and vibration are maximum values and must not be applied continuously.
2)
The manufacturer's processing instructions must be observed.
Dimension drawing
Figure 8-64
Dimension drawing of MDS D521
All dimensions in mm
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ISO transponder
8.24 MDS D522
8.24
MDS D522
8.24.1
Characteristics
MDS D522
8.24.2
Characteristics
Area of application
Identification of metallic workpiece holders, workpieces or containers
Memory size
8192 bytes of FRAM user memory
Write/read range
See "Field data of ISO transponders (MDS D)
(Page 52)."
Mounting in metal
Yes
ISO standard
ISO 15693
Degree of protection
IP68
Ordering data
Table 8- 59
Ordering data for MDS D522
Article number
MDS D522
6GT2600-5AF00
Units in a package: 10 units
A mounting aid is included in the scope of supply per packaging
unit.
8.24.3
Mounting in metal
Flush-mounting
Figure 8-65
Mounting of MDS D522 in metal
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ISO transponder
8.24 MDS D522
Mounting information for screws
You can screw the transponder into a pre-drilled threaded hole using the screw-in aid.
Mounting information for adhesion
● Drill installation hole
● The adhesive surfaces must be dry, free from dust, oil, stripping agents and other
impurities
● Apply adhesive according to the manufacturer's processing instructions
● Press in MDS D522 using your fingers; with antenna to the outside
● Remove residues of adhesive
● Allow to cure according to the manufacturer's instructions
● Flush-mounting of MDS D522 in metal with tools
8.24.4
Technical specifications
Table 8- 60
Technical specifications for MDS D522
6GT2600-5AF00
Product type designation
SIMATIC MDS D522
Memory
Memory configuration
•
UID
•
8 bytes
•
User memory
•
8192 bytes FRAM
Read cycles (at < 40 ℃)
> 1012
Write cycles (at < 40 ℃)
> 1012
Data retention time (at < 40 ℃)
> 10 years
Write/read distance (Sg)
Dependent on the reader used, see section "Field
data of ISO transponders (MDS D) (Page 52)"
MTBF (Mean Time Between Failures)
285 years
Mechanical specifications
Housing
•
Material
•
Plastic PA 6.6 GF; brass nickel plated
•
Color
•
Black/silver
Recommended distance to metal
≥ 0 mm
Power supply
Inductive, without battery
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ISO transponder
8.24 MDS D522
6GT2600-5AF00
Permitted ambient conditions
Ambient temperature
•
During operation
•
-25 to +85 ℃
•
During transportation and storage
•
-40 to +100 ℃
Degree of protection to EN 60529
•
IP68
2 hours, 2 bar, +20 °C
Shock-resistant to EN 60721-3-7 class 7M3
50 g 1)
Vibration-resistant to EN 60721-3-7, class 7M3
20 g 1)
Torsion and bending load
Not permitted
Design, dimensions and weight
Dimensions (Ø x H)
20 x 6 mm
Weight
13 g
Type of mounting
•
Glued
•
1 x transponder thread M20
≤ 1 Nm
1)
8.24.5
The values for shock and vibration are maximum values and must not be applied continuously.
Dimension drawing
Figure 8-66
Dimensional drawing of MDS D522
All dimensions in mm
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ISO transponder
8.25 MDS D522 special variant
8.25
MDS D522 special variant
8.25.1
Characteristics
MDS D522 special version
8.25.2
Characteristics
Area of application
Identification of metallic workpiece holders or workpieces
Memory size
8192 bytes of FRAM user memory
Write/read range
See "Field data of ISO transponders (MDS D)
(Page 52)."
Mounting in metal
Yes
ISO standard
ISO 15693
Degree of protection
IP68
Ordering data
Table 8- 61
MDS D522 special version
Article number
MDS D522 special version
6GT2600-5AF00-0AX0
Units in a package: 10 units
A mounting aid is included in the scope of supply per packaging
unit.
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ISO transponder
8.25 MDS D522 special variant
8.25.3
Mounting in metal
Flush-mounting
Figure 8-67
8.25.4
Flush installation of the MDS D522 special version in metal without clearance
Installation instructions
The transponder MDS D522 special version is designed to be mounted once.
Note the following instructions when mounting the MDS D522 in a workpiece to avoid
damaging the transponder:
● Prepare the workpiece according to the following drawing.
● Using the accompanying mounting aid, press the transponder with uniform and evenly
distributed pressure into the drilled hole until the transponder locks in place. Make sure
that the transponder does not become tilted.
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ISO transponder
8.25 MDS D522 special variant
Figure 8-68
Dimension drawing: Workpiece drill hole for mounting the MDS D522 special version
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ISO transponder
8.25 MDS D522 special variant
8.25.5
Technical specifications
Table 8- 62
Technical data of MDS D522 special version
6GT2600-5AF00-0AX0
Product type designation
SIMATIC MDS D522 special version
Memory
Memory configuration
•
UID
•
8 bytes
•
User memory
•
8192 bytes FRAM
Read cycles (at < 40 ℃)
> 1012
Write cycles (at < 40 ℃)
> 1012
Data retention time (at < 40 ℃)
> 10 years
Write/read distance (Sg)
Dependent on the reader used, see section "Field
data of ISO transponders (MDS D) (Page 52)"
MTBF (Mean Time Between Failures)
228 years
Mechanical specifications
Housing
•
Material
•
Plastic PA 6.6 GF
•
Color
•
Black
Recommended distance to metal
≥ 0 mm
Power supply
Inductive, without battery
Permitted ambient conditions
Ambient temperature
•
During operation
•
-25 to +85 ℃
•
During transportation and storage
•
-40 to +100 ℃
Degree of protection to EN 60529
IP68
2 hours, 2 bar, +20 °C
Shock-resistant to EN 60721-3-7 class 7M3
50 g 1)
Vibration-resistant to EN 60721-3-7, class 7M3
20 g 1)
Torsion and bending load
Not permitted
Design, dimensions and weight
Dimensions (Ø x H)
18 (+0.1) × 5.2 mm
Weight
Approx. 1.2 g
Type of mounting
Clipping in once (with accompanying tool)
1)
The values for shock and vibration are maximum values and must not be applied continuously.
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ISO transponder
8.25 MDS D522 special variant
8.25.6
Dimensional drawing
Figure 8-69
Dimension drawing MDS D522 special version
All dimensions in mm
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ISO transponder
8.26 MDS D524
8.26
MDS D524
8.26.1
Characteristics
MDS D524
Characteristics
Area of application
Production and distribution logistics as well as in assembly and production lines,
can also be used in a harsh industrial environment without
problem
8.26.2
Memory size
8192 bytes of FRAM user memory
Write/read range
See section "Field data of ISO transponders (MDS D)
(Page 52)."
Mounting on metal
Yes, with spacer
ISO standard
ISO 15693
Degree of protection
IP67; IPx9K
Ordering data
Table 8- 63
Ordering data for MDS D524
Article number
MDS D524
Table 8- 64
6GT2600-5AC00
Ordering data of MDS D524 accessories
Article number
Spacer
6GT2690-0AK00
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ISO transponder
8.26 MDS D524
8.26.3
Mounting on metal
Mounting on metal
≥ 15 mm
Figure 8-70
Mounting the MDS D124/D324/D424/D524/E624 and RF320T on metal with spacer
Flush-mounting
≥ 15 mm
≥ 25 mm
Figure 8-71
Flush-mounting of the MDS D124/D324/D424/D524/E624 and RF320T in metal with
spacer
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ISO transponder
8.26 MDS D524
Note
Going below the distances
If the distances (a and h) are not observed, a reduction of the field data results. It is possible
to mount the MDS with metal screws (M3 countersunk head screws). This has no tangible
impact on the range.
8.26.4
Technical specifications
Table 8- 65
Technical specifications for MDS D524
6GT2600-5AC00
Product type designation
SIMATIC MDS D524
Memory
Memory configuration
•
UID
•
8 bytes
•
User memory
•
8192 bytes FRAM
Read cycles (at < 40 ℃)
> 1012
Write cycles (at < 40 ℃)
> 1012
Data retention time (at < 40 ℃)
> 10 years
Write/read distance (Sg)
Dependent on the reader used, see section "Field
data of ISO transponders (MDS D) (Page 52)"
MTBF (Mean Time Between Failures)
228 years
Mechanical specifications
Housing
•
Material
•
Epoxy resin
•
Color
•
Black
Recommended distance to metal
≥ 25 mm
Power supply
Inductive, without battery
Permitted ambient conditions
Ambient temperature
•
During operation
•
-25 to +85 ℃
•
During transportation and storage
•
-40 to +100 ℃
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ISO transponder
8.26 MDS D524
6GT2600-5AC00
Degree of protection to EN 60529
•
IP67
•
IPx9K
Shock-resistant to EN 60721-3-7 class 7M3
100 g 1)
Vibration-resistant to EN 60721-3-7, class 7M3
20 g 1)
Torsion and bending load
Not permitted
Design, dimensions and weight
8.26.5
Dimensions (Ø x H)
27 x 4 mm
Weight
5g
Type of mounting
•
Glued
•
1 x M3 screw 2)
≤ 1 Nm
1)
The values for shock and vibration are maximum values and must not be applied continuously.
) To prevent it loosening during operation, secure the screw with screw locking varnish.
Dimension drawing
Figure 8-72
Dimensional drawing of MDS D524
All dimensions in mm
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ISO transponder
8.27 MDS D525
8.27
MDS D525
8.27.1
Characteristics
MDS D525
Characteristics
Area of application
Compact and rugged ISO transponder; suitable for screw
mounting
Use in assembly and production lines in the powertrain
sector; ideal for mounting on motors, gearboxes, and workpiece holders
Rugged packaging of the MDS D525; can therefore also be
used under extreme environmental conditions without problems
8.27.2
Memory size
8192 bytes of FRAM user memory
Write/read range
See section "Field data of ISO transponders (MDS D)
(Page 52)".
Mounting on metal
Yes
ISO standard
ISO 15693
Degree of protection
IP68/IPx9K
Ordering data
Table 8- 66
Ordering data for MDS D525
Article number
MDS D525
6GT2600-5AG00
SIMATIC RF300
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ISO transponder
8.27 MDS D525
8.27.3
Application example
Figure 8-73
8.27.4
Application example
Technical specifications
Table 8- 67
Technical specifications for MDS D525
6GT2600-5AG00
Product type designation
SIMATIC MDS D525
Memory
Memory configuration
•
UID
•
8 bytes
•
User memory
•
8192 bytes FRAM
•
OPT memory
•
16 bytes FRAM
Read cycles (at < 40 ℃)
> 1012
Write cycles (at < 40 ℃)
> 1012
Data retention time (at < 40 ℃)
> 10 years
Write/read distance (Sg)
Dependent on the reader used, see section "Field
data of ISO transponders (MDS D) (Page 52)"
MTBF (Mean Time Between Failures)
228 years
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ISO transponder
8.27 MDS D525
6GT2600-5AG00
Mechanical specifications
Housing
•
Material
•
Plastic PA 6.6 GF
•
Color
•
Black
Recommended distance to metal
> 0 mm
Power supply
Inductive, without battery
Permitted ambient conditions
Ambient temperature
•
During operation
•
-25 to +85 ℃
•
During transportation and storage
•
-40 to +125 ℃
•
IP68
2 hours, 2 bar, +20 °C
•
IPx9K
steam jet: 150 mm; 10 to 15 l/min; 100 bar; 75
°C
Degree of protection to EN 60529
Shock-resistant to IEC 68-2-27
50 g 1)
Vibration-resistant to IEC 68-2-6
20 g 1)
Torsion and bending load
Not permitted
Design, dimensions and weight
Dimensions (Ø x H)
24 x 10 mm (without set screw)
Weight
35 g
Type of mounting
1x transponder set screw M6
SW 22; ≤ 6 Nm
1)
The values for shock and vibration are maximum values and must not be applied continuously.
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ISO transponder
8.27 MDS D525
8.27.5
Dimension drawing
Figure 8-74
Dimensional drawing of MDS D525
All dimensions in mm
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ISO transponder
8.28 MDS D526
8.28
MDS D526
8.28.1
Characteristics
MDS D526
8.28.2
Characteristics
Area of application
Compact and rugged ISO transponder; suitable for identification
of transport units in production-related logistics; can also be deployed in harsh conditions
Memory size
8192 bytes of FRAM user memory
Write/read range
See section "Field data of ISO transponders (MDS D) (Page 52)."
Mounting on metal
Yes, with spacer
ISO standard
ISO 15693
Degree of protection
IP68
Ordering data
Table 8- 68
Ordering data for MDS D526
Article number
MDS D526
Table 8- 69
6GT2600-5AH00
Ordering data for MDS D526 accessories
Article number
Spacer
6GT2690-0AL00
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ISO transponder
8.28 MDS D526
8.28.3
Mounting on metal
Mounting on metal
≥ 25 mm
Figure 8-75
Mounting the MDS D126 / D426 / D526 on metal with spacer
Flush-mounted in metal
≥ 25 mm
≥ 50 mm
Figure 8-76
Flush installation of the MDS D126 / D426 / D526 in metal with spacer
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ISO transponder
8.28 MDS D526
8.28.4
Technical specifications
Table 8- 70
Technical specifications for MDS D526
6GT2600-5AH00
Product type designation
SIMATIC MDS D526
Memory
Memory configuration
•
UID
•
8 bytes
•
User memory
•
8192 bytes FRAM
•
OTP
•
???
Read cycles (at < 40 ℃)
> 1012
Write cycles (at < 40 ℃)
> 1012
Data retention time (at < 40 ℃)
> 10 years
Write/read distance (Sg)
Dependent on the reader used, see section "Field
data of ISO transponders (MDS D) (Page 52)"
MTBF (Mean Time Between Failures)
228 years
Mechanical specifications
Housing
•
Material
•
Plastic PA 6.6 GF
•
Color
•
Black
Recommended distance to metal
≥ 25 mm
Power supply
Inductive, without battery
Permitted ambient conditions
Ambient temperature
•
During operation
•
-25 to +85 ℃
•
During transportation and storage
•
-40 to +100 ℃
Degree of protection to EN 60529
IP68
2 hours, 2 bar, +20 °C
Shock-resistant to IEC 68-2-27
50 g 1)
Vibration-resistant to IEC 68-2-6
20 g 1)
Torsion and bending load
Not permitted
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ISO transponder
8.28 MDS D526
6GT2600-5AH00
Design, dimensions and weight
8.28.5
Dimensions (Ø x H)
50 x 3.6 mm
Weight
13 g
Type of mounting
1 x M4 screw 2)
≤ 1 Nm
1)
The values for shock and vibration are maximum values and must not be applied continuously.
) To prevent it loosening during operation, secure the screw with screw locking varnish.
Dimension drawing
Figure 8-77
Dimensional drawing of MDS D526
All dimensions in mm
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ISO transponder
8.29 MDS D528
8.29
MDS D528
8.29.1
Characteristics
MDS D528
Characteristics
Area of application
Compact and rugged ISO transponder; suitable for screw
mounting
Use in assembly and production lines in the powertrain
sector
The rugged housing of the MDS D528 means that it can
also be used in extreme environmental conditions without
problems.
8.29.2
Memory size
8192 bytes of FRAM user memory
Write/read range
See section "Field data of ISO transponders (MDS D)
(Page 52)"
Mounting on metal
Yes
ISO standard
ISO 15693
Degree of protection
IP68/IPx9K
Ordering data
Table 8- 71
Ordering data for MDS D528
Article number
MDS D528
6GT2600-5AK00
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ISO transponder
8.29 MDS D528
8.29.3
Application example
Figure 8-78
8.29.4
Application example
Technical specifications
Table 8- 72
Technical specifications for MDS D528
6GT2600-5AK00
Product type designation
SIMATIC MDS D528
Memory
Memory configuration
•
UID
•
8 bytes
•
User memory
•
8192 bytes FRAM
•
OTP
•
???
Read cycles (at < 40 ℃)
> 1012
Write cycles (at < 40 ℃)
> 1012
Data retention time (at < 40 ℃)
> 10 years
Write/read distance (Sg)
Dependent on the reader used, see section "Field
data of ISO transponders (MDS D) (Page 52)"
MTBF (Mean Time Between Failures)
228 years
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ISO transponder
8.29 MDS D528
6GT2600-5AK00
Mechanical specifications
Housing
•
Material
•
Plastic PA 6.6 GF
•
Color
•
Black
Recommended distance to metal
≥ 0 mm
Power supply
Inductive, without battery
Permitted ambient conditions
Ambient temperature
•
During operation
•
-25 to +85 ℃
•
During transportation and storage
•
-40 to +125 ℃
•
IP68
2 hours, 2 bar, +20 °C
•
IPx9K
steam jet: 150 mm; 10 to 15 l/min; 100 bar; 75
°C
Degree of protection to EN 60529
Shock-resistant to IEC 68-2-27
50 g 1)
Vibration-resistant to IEC 68-2-6
20 g 1)
Torsion and bending load
Not permitted
Design, dimensions and weight
Dimensions (Ø x H)
24 x 20 mm (without set screw)
Weight
35 g
Type of mounting
1x transponder set screw M8
SW 22; ≤ 8 Nm
1)
The values for shock and vibration are maximum values and must not be applied continuously.
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ISO transponder
8.29 MDS D528
8.29.5
Dimension drawing
Figure 8-79
Dimensional drawing of MDS D528
All dimensions in mm
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System integration
The communication modules (interface modules) are links between the RFID components
(reader and transponder) and the higher-level controllers (e.g. SIMATIC S7), or PCs or
computers.
9.1
Introduction
The readers are connected to the controller via the following interface or communications
modules:
● ASM 456
● ASM 475
● SIMATIC RF120C
● SIMATIC RF160C
● SIMATIC RF170C
● SIMATIC RF180C
● SIMATIC RF182C
● RFID 181EIP
Function blocks, interface modules/communication modules and readers
Function blocks are used for integration into the SIMATIC. You will find information on the
following blocks on the Internet in "Industry Online Support
(https://support.industry.siemens.com/cs/ww/en/ps/14971)".
● Ident profile and Ident blocks, standard function for RFID systems
The Ident library linked into the TIA Portal as of STEP 7 Basic / Professional V14 SP 1
● RFID standard profile; standard functions for RFID systems
● FB 45 for MOBY U, MOBY D, RF200, RF300
● FB 55
● RF160C communications module with FC 44
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System integration
9.1 Introduction
Interface modules/communication modules and function blocks
The following table shows the most important characteristics of the interface
modules/communications modules.
Table 9- 1
Overview of interface modules/communication modules
ASM/
Interfaces to the Interfaces to the
communications application
reader
module
(PLC)
Reader connections
Dimensions
(W x H x D)
Temperature Degree of
range
protection
ASM 456
PROFIBUS DP- 2 x 8-pin connector
V1
socket, M12
2 (parallel)
60 x 210 x 54
0 ℃ to +55
℃
IP67
ASM 475
S7-300 (central), ET200M
(PROFIBUS)
Via screw terminals
in front connector
40 x 125 x 120 mm 0 ℃ to +60
℃
IP20
SIMATIC
RF120C
S7-1200 (central)
9-pin D-sub socket
30 x 100 x 75 mm
0 ℃ to +55
℃
IP20
SIMATIC
RF160C
PROFIBUS DP
/ DP-V0
2 x 8-pin connector
socket, M12
2 (parallel)
60 x 210 x 30 mm
0 ℃ to +55
℃
IP67
SIMATIC
RF170C
PROFIBUS DP- 2 x 8-pin connector
V1
socket, M12
2 (parallel)
90 x 130 x 60 mm
-25 °C to
+55 °C
IP67
or 79 mm
PROFINET IO
SIMATIC
RF180C
PROFINET IO
2 x 8-pin connector
socket, M12
2 (parallel)
60 x 210 x 54 mm
0 °C to
+60° C
IP67
SIMATIC
RF182C
TCP/IP
2 x 8-pin connector
socket, M12
2 (parallel)
60 x 210 x 30 mm
0 ℃ to +60
℃
IP67
RFID 181EIP
Ethernet IP
2 x 8-pin connector
socket, M12
2 (parallel)
60 x 210 x 54 mm
0 °C to
+60° C
IP67
The following table shows the program blocks compatible with the interface
modules/communications modules.
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System integration
9.1 Introduction
Table 9- 2
Compatible program blocks
ASM/
communications module
Compatible program blocks in conjunction with ...
S7-300 / S7-400 and
STEP 7 Classic V5.5
S7-300 / S7-400 and
STEP 7 Basic/Professional
S7-1200 / S7-1500 and
STEP 7 Basic/Professional
ASM 456
FB 45
FB 45
Ident profile
FB 55
FB 55
Ident blocks
Standard profile V1.19
Ident profile
PIB_1200_UID_001KB
Ident profile
ASM 475
SIMATIC RF120C
PIB_1200_UID_032KB
FB 45
FB 45
FB 55
FB 55
--
--
-Ident profile
Ident blocks
PIB_1200_UID_001KB
PIB_1200_UID_032KB
SIMATIC RF160C
SIMATIC RF170C
SIMATIC RF180C
FC 44
FC 44
Application blocks for RF160C
Application blocks for RF160C
FB 45
FB 45
FB 55
FB 55
FB 45
FB 45
Ident profile
FB 55
FB 55
Ident blocks
Standard profile V1.19
Ident profile
PIB_1200_UID_001KB
Ident profile
Application blocks for RF160C
--
PIB_1200_UID_032KB
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System integration
9.2 ASM 456
9.2
ASM 456
Configured with ASM 456
Figure 9-1
Configuration of ASM 456
For more detailed information, please refer to ASM 456 Operating Instructions
(https://support.industry.siemens.com/cs/ww/en/view/32629442).
9.3
ASM 475
9.3.1
Features
Area of application
The ASM 475 interface module acting as the link between all RF300 systems and SIMATIC
S7-300 performs the functions of a communication module. It can be operated centrally in
the S7-300 or decentrally in an ET200M.
As many as eight ASM 475 interface modules can be plugged into one SIMATIC S7-300
rack and operated. In a configuration with several racks (max. four), the ASM 475 can be
plugged into and operated on any rack. This means that as many as 32 ASMs can be
operated in the maximum configuration of a SIMATIC S7-300. The ASM can also be
operated in the ET 200M distributed I/O on PROFIBUS. Operation in an S7-400 environment
is therefore problem-free. Up to 7 ASMs can be operated on each ET 200M.
Error messages and operating statuses are indicated by LEDs.
Since there is electrical isolation between the read/write device and the SIMATIC S7-300
bus, a configuration that is immune to interference is possible.
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System integration
9.3 ASM 475
Figure 9-2
Interface module ASM 475
The ASM 475 with the article number 6GT2002-0GA10 is a module that can be set in the
parameters. The basic functions of the module are then already specified when the module
is configured in HW Config (e.g. standard addressing).
The data in the MDS is accessed direct by means of physical addresses using the ASM 475.
Operation in a SIMATIC S7 is controlled by the function block FB 45.
ASM 475 and FB 45 form a unit that is used for reading the data of the MDS simply and at
optimal speed.
9.3.2
Ordering data
Table 9- 3
Ordering data for ASM 475
Article number
ASM 475 interface module for SIMATIC S7
2 x RF3xxR reader with RS-422 can be connected in parallel, without front connector
Table 9- 4
6GT2002-0GA10
Ordering data for ASM 475 accessories
Article number
Front connector (1 x per ASM)
6ES7392-1AJ00-0AA0
Connecting cable ASM 475 ↔ RF3xxR
Plug-in cable, pre-assembled, length: 2 m (standard length)
6GT2891-0EH20
Plug-in cable, pre-assembled, length: 5 m
6GT2891-0EH50
Terminal element (1 x per reader cable)
6ES7390-5BA00-0AA0
Shield connecting element
6ES7390-5AA00-0AA0
The plug-in cables 6GT2891-4Fxx can be used as extension cables.
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System integration
9.3 ASM 475
9.3.3
Indicators
Bezel and indicator elements
The figure below illustrates the bezel of the ASM 475 and the inside of the front door
complete with the associated connection diagram. The read/write devices must be
connected to the ASM in accordance with the connection diagram.
Figure 9-3
Bezel and inside of the front door of the ASM 475
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System integration
9.3 ASM 475
Display elements on the ASM
Table 9- 5
Function of the LEDs on the ASM 475
Light emitting diode
Meaning
SF
System fault (hardware error on ASM)
DC 5V
24 V are connected to ASM and the 5 V voltage on ASM is OK.
ACT_1, ACT_2
The corresponding reader is active in processing a user command.
ERR_1, ERR_2
A flashing pattern indicates the last error to occur. This display can be reset
using the parameter Option 1.
PRE_1, PRE_2
Indicates the presence of a transponder.
RxD_1, RxD_2
Indicates live communication with the reader. In the event of a fault on the
reader, this display may also be lit.
On the ASM 475, further operating states are indicated with the LEDs PRE, ERR and SF:
Table 9- 6
Operating status display on ASM 475 via LEDs
SF
PRE_1
ON
OFF/ON ON
(perm.)
OFF/ON ON
(perm.)
Hardware is defective (RAM, Flash, etc.)
ON
OFF
ON
OFF
OFF
Charger is defective (can only be repaired in
the factory).
OFF
2 Hz
OFF
2 Hz
OFF
Firmware loading is active or no firmware
detected
OFF
2 Hz
Any
value
5 Hz
OFF
OFF
ERR_1
2 Hz
5 Hz
PRE_2
2 Hz
5 Hz
ERR_2
2 Hz
5 Hz
Meaning
•
Firmware download
•
ASM must not be switched off
Firmware loading
terminated with errors
•
Restart required
•
Load firmware again
•
Check update files
Operating system error
•
1 flash
every 2 s
OFF
1 flash
every 2 s
Switch ASM off/on
ASM has booted and is waiting for a RESET
(init_run) from the user.
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System integration
9.3 ASM 475
9.3.4
Configuration
Centralized configuration with SIMATIC S7-300
Figure 9-4
Configuration of ASM 475 central
Distributed configuration with ET200M
Figure 9-5
Configuration of ASM 475 distributed
Reader connection system
You will find more information on the reader connector technology in the section "Reader
RF3xxR (RS422) with ASM 475 (Page 419)".
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System integration
9.3 ASM 475
Cable installation
Signal
Pin on
M12 connector
Cable
Labeling
24 VDC
white
1 Reader 2
TX -
brown
1 Reader 2
GND
Green
1 Reader 2
TX +
Yellow
1 Reader 2
8 -16
7-15
9-17
6-14
RX +
Gray
1 Reader 2
4-12
RX -
Pink
1 Reader 2
5-13
Shield
8+
Cable assignment for connection of an RF300 reader to ASM 475
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System integration
9.3 ASM 475
9.3.5
Shield connection
When the reader is connected to the ASM 475, the cable shield must be connected to a
shield terminal. Shield terminals and holding clips are standard components of the product
spectrum of S7-300.
①
②
③
④
Holding bracket
Cable to 2nd reader
Cable to 1st reader
Shield terminal
Figure 9-6
Shield terminal ASM 475
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System integration
9.3 ASM 475
9.3.6
Technical data
Table 9- 7
Technical specifications for ASM 475
6GT2002-0GA10
Product type designation
ASM 475 communications module
Interfaces
Design of the interface
point-to-point link
RS-422
Number of connectable readers
Electrical connector design
•
Backplane bus
•
S7-300 backplane bus
•
PROFIBUS interface
•
(according to the head module)
•
Industrial Ethernet interface
•
(according to the head module)
•
Supply voltage
•
Screw-type or spring-loaded terminals
Design of the interface
to the reader for communication
Screw-type or spring-loaded terminals
Mechanical specifications
Housing
•
Material
•
Noryl
•
Color
•
Anthracite
Supply voltage, current consumption, power loss
Supply voltage
24 VDC
Typical current consumption
•
Without connected devices
•
0.1 A
•
Including connected devices
•
1.0 A
Power dissipation of the module, typ.
2 Watts
Current consumption from I/O bus, max.
80 mA
Electrical isolation between S7-300 and RF300
Yes
Fuse 24 V for the reader
Yes, electronic
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System integration
9.3 ASM 475
6GT2002-0GA10
Permitted ambient conditions
Ambient temperature
•
During operation (horizontal installation)
0 ... +60 ℃
•
During operation (vertical installation)
0 ... +40 ℃
•
During transportation and storage
-40 ... +70 ℃
Degree of protection
IP20
Shock-resistant to IEC 61131-2
150 m/s2
Vibration-resistant to IEC 61131-2
10 m/s2
Design, dimensions and weight
Dimensions (L x W x H)
120 x 40 x 125 mm
Weight
0.2 kg
Type of mounting
S7-300 rack
Cable length for RS-422 interface, maximum
1000 m
Product properties, functions, components general
LED display design
•
4 LEDs per reader connector
•
2 LEDs for device status
Product function transponder
file handler addressable
Yes
Protocol supported
S7 communication
Yes
Product functions management, configuration, engineering
Type of parameter assignment
Object manager, GSD
Type of programming
FB 45, FB 55, FC 56
(FC 45/55 with restricted functionality)
Type of computer-based communication
2 words cyclic, 238 bytes acyclic
Transponder addressing
Direct access via addresses
Commands
Initialize transponder, read data from transponder, write data to transponder
Standards, specifications, approvals
Proof of suitability
CE, FCC, UL/CSA
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System integration
9.4 RF120C
9.4
RF120C
Configuration with RF120C
Figure 9-7
Configuration RF120C
For more detailed information, refer to the section " RF120C communications module
(https://support.industry.siemens.com/cs/ww/en/view/77485950)".
9.5
RF160C
Configuration with RF160C
Figure 9-8
Configuration RF160C
For more detailed information, refer to Operating Instructions RF160C
(https://support.industry.siemens.com/cs/ww/en/view/42788808).
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System integration
9.6 RF170C
9.6
RF170C
Configuration with RF170C
Figure 9-9
Configuration RF170C
For more detailed information, please refer to SIMATIC RF170C Operating Instructions
(https://support.industry.siemens.com/cs/ww/en/view/32622825).
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System integration
9.7 RF180C
9.7
RF180C
Configured with RF180C
Figure 9-10
Configuration of RF180C
For more detailed information, refer to SIMATIC RF180C Operating Instructions
(https://support.industry.siemens.com/cs/ww/en/view/30012157).
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System integration
9.8 RF182C
9.8
RF182C
Configuration with RF182C
Figure 9-11
Configuration with RF182C
For more detailed information, refer to SIMATIC RF182C Operating Instructions
(https://support.industry.siemens.com/cs/ww/en/view/38507897).
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System diagnostics
10.1
10
Error codes
Error codes of the RF300 readers
Note
Validity of the error codes
The following error codes apply only to RF300 readers with an RS-422 interface (except for
Scanmode).
You can identify the error code in different ways:
● Directly on the reader/interface module by counting the flashing pattern of the red error
LED
● In the Ident profile with the output variable "Status"
● with FB 45 / FB 55 variable "error_MOBY".
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System diagnostics
10.1 Error codes
Table 10- 1
Error codes of the readers
Flashing of the Error code
red
(hexaLED operating decimal)
display on the
reader
Description
00
00
No error
02
01
Presence error; possible causes:
05
05
•
The active command was not carried out completely
•
The transponder left the antenna field while the command was
being processed
•
Communication problem between reader and transponder
Parameter assignment error, possible causes:
•
Unknown command
•
Incorrect parameter
•
Function not allowed
06
06
Air interface faulty
11
0B
The MDS E transponder could not be successfully authenticated.
12
0C
The transponder memory cannot be written, possible causes:
•
Hardware fault (memory faulty)
•
Memory write-protected (corresponding OTP area has already
been written)
13
0D
Error in the specified memory address (access attempted to nonexistent or non-accessible memory areas).
19
13
Buffer overflow: Insufficient buffer available in the reader for saving
the command
20
14
Major system fault (hardware fault)
21
15
Parameter assignment error: bad parameter in RESET command
24
18
Command was sent to a reader that has not yet been initialized
25
19
Previous command is still active
28
1C
Antenna is not identified Possible causes:
•
Antenna is not connected.
•
Antenna cable is defective.
30
1E
Incorrect number of characters in frame
31
1F
Running command cancelled by "RESET" command
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System diagnostics
10.2 Diagnostics functions - STEP 7 Classic
10.2
Diagnostics functions - STEP 7 Classic
10.2.1
Overview
Extended diagnostic functions with SIMATIC RF300
With SIMATIC RF300, extended diagnostics functions are available which simplify
commissioning and maintenance.
This diagnostics data is accessed using the SIMATIC function blocks via the SLG Status and
MDS Status commands. These two commands can each be called in various modes
(subcommands) for which corresponding data structures (UDTs) are defined.
Table 10- 2
In RF300 mode
Command
Mode
Meaning
(subcommand)
SLG-STATUS
01
Hardware and firmware configuration, parameterization status
06
Communication error counter, current command status
MDS-STATUS
01
Serial number of the transponder (UID), memory configuration.
EEPROM write-protection status
02
Serial number of the transponder (UID), HF field strength
value, communication error counter, presence counter (duration)
Overview of the diagnostic functions
Table 10- 3
In ISO mode
Command
Mode
Meaning
(subcommand)
SLG-STATUS
01
Hardware and firmware configuration, parameterization status
MDS-STATUS
03
Serial number of the transponder (UID), recognized transponder type number in the field (number = tag - type, see
reset parameter "ftim"), memory configuration, write protect
status (OTP), size and number of blocks in the user memory
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System diagnostics
10.2 Diagnostics functions - STEP 7 Classic
10.2.2
Reader diagnostics with SLG STATUS
The SLG STATUS command can be used to scan the status and diagnostics data of the
reader.
SLG STATUS (mode 01), corresponds to UDT 110
Name
Type
Possible Hex
values
Comment
hardware
char
(31 … 38)
Type of hardware
hardware_version
word
loader_version
HW version
0 ... FF
= Version (high byte): Unused
0 ... FF
= Version (low byte)
word
firmware
char
firmware_version
word
driver
char
driver_version
word
Version of loader
0 ... FF
= Version (high byte)
0 ... FF
= Version (low byte)
0 ... FF
Type of firmware
Firmware version
0 ... FF
= Version (high byte)
0 ... FF
= Version (low byte)
Type of driver
31
interface
baud
distance_limiting_SLG
Version of driver
0 ... FF
= Version (high byte)
0 ... FF
= Version (low byte)
byte
Interface type
01
= RS422
02
= RS232 (only RF380R)
byte
byte
3964R
Transmission speed
01
= 19.2 Kbaud
03
= 57.6 Kbaud
05
= 115,2 Kbaud
This variable is only provided for the RF380R. Users are therefore able to check
the output power actually set. An incorrect value in the parameter "distance_limiting" of the RESET message frame results in the default setting "05".
Transmit power
02
0.5 W
03
0.75 W
04
1.0
05
1.25 W (default)
06
1.5 W
07
1.75 W
08
2.0 W
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System diagnostics
10.2 Diagnostics functions - STEP 7 Classic
Name
Type
multitag_SLG
byte
field_ON_time_SLG
status_ant
MDS_control
byte
Possible Hex
values
Comment
Number of transponders (Multi/Pulk) that can be processed in
the antenna field
01
= Single tag mode
00
= RF300 transponder
01
= ISO transponder (non-specific)
03
= ISO transponder (Infineon, MDS D300)
04
= ISO transponder (Fujitsu, MDS D400)
05
= ISO transponder (NXP, MDS D100)
06
= ISO transponder (Texas Instruments, MDS D200)
07
= ISO transponder (ST, LRI2K)
08
= ISO transponder (Fujitsu, MDS D500)
0E
= ISO (setting with "scanning_time" and "fcon")
10
= RF300 transponder
20
= MDS E transponder
31
= General Mode
FF
= Setting with "scanning_time" and "fcon"
byte
Status of the antenna
01
= Antenna On
02
= Antenna Off
byte
Presence mode
00
= Operation without presence message
01
= Operation with presence message
04
= Operation with presence message (antenna is off. The antenna is turned on only when a Read or Write command is
sent.)
SLG STATUS (mode 06), corresponds to UDT 280
Name
Type
Possible Hex
values
Comment
FZP
byte
0 ... FF
= Error counter, passive (errors during idle time)
ABZ
= Abort counter
CFZ
= Code error counter
SFZ
= Signature error counter
CRCFZ
= CRC error counter
BSTAT
= Current command status
ASMFZ
= Interface problems to host (ASM/PC) parity, BCC, frame
error
SIMATIC RF300
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System diagnostics
10.2 Diagnostics functions - STEP 7 Classic
Note
Counter values are deleted.
All counter values are deleted after reading out (= execute "SLG STATUS" command).
Explanations:
● "FZP": counts interference pulses when communication with a transponder is not taking
place (e.g. electromagnetic interference caused by contactors, motors, etc.). Counter
values can, however, also be generated when a transponder is located at the edge of the
field even when there is no external interference.
● "ABZ", "CFZ", "SFZ" and "CRCFZ" are counters for protocol errors which may occur
during reader-transponder communication. This can be caused by unsuitable
reader/transponder positioning (e.g. transponder on field boundary, several transponders
in the antenna field) or external EMC interference.
To ensure clear diagnosis of the quality of communication, it is recommended that an SLG
STATUS command (mode 06) is executed following receipt of the presence command to
reset the error counter.
The protocol error counters are not mutually independent. If a code error (CFZ) occurs, this
will cause a signature (SFZ) or CRC- (CRCFZ) error.
● "BSTAT" is the status for the most recently executed command. A value other than 0
means that the previous command was repeated by the reader due to faults (see above).
● "ASMFZ" signals line-conducted communication interference between the
communications module and the reader. Faults of this type can be caused by contact
problems on the connector or the cable connection.
SIMATIC RF300
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System diagnostics
10.2 Diagnostics functions - STEP 7 Classic
10.2.3
Transponder diagnostics with MDS STATUS
The MDS STATUS command can be used to scan the status and diagnostics data of the
transponder that is located within the antenna field.
MDS STATUS (mode 1), corresponds to UDT 260 (only for RF300 transponders)
Name
Type
UID
array[1…8] byte
Possible Hex values
Unique identifier
000000005555555 ...
00000000FFFFFFFF
MDS_type
Lock_state
byte
byte
Comment
= b0-31: 4 byte TAG ID, b32-63: 0
Transponder memory configuration
01
= Transponder without FRAM
02
= Transponder with FRAM 8 KB
03
= Transponder with FRAM 32 KB
04
= Transponder with FRAM 64 KB
0 ... FF
EEPROM write protection status
MDS STATUS (mode 02), corresponds to UDT 270, only for RF300 transponders
Name
Type
UID
array[1…8] byte
Possible Hex values
Comment
Unique identifier
0000000055555555 ...
00000000FFFFFFFF
= b0-31: 4 byte TAG ID, b32-63: 0
LFD
byte
0 ... FF
= Value for field strength determined in the transponder
FZP
byte
0 ... FF
= Error counter (passive) ➙ errors during idle time
FZA
byte
0 ... FF
= Error counter (active)
ANWZ
byte
0 ... FF
= Presence counter
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System diagnostics
10.2 Diagnostics functions - STEP 7 Classic
Note
Counter values are deleted.
All counter values are deleted when the transponder exits the antenna field or when the
antenna is switched off.
Explanations:
● "LFD" is a measured value for the field strength that is determined in the transponder.
The lower the value, the higher the field strength.
● "FZP" counts interference pulses when communication with a transponder is not taking
place (e.g. electromagnetic interference caused by contactors, motors, etc.). Counter
values can also be generated when a transponder is located at the edge of the field even
when there is no external interference.
● "FZA" counts errors that can occur during reader-to-transponder communication. This can
be caused by unsuitable reader/transponder positioning (e.g. transponder on field
boundary, several data carriers in the field) or external electromagnetic interference.
● "ANWZ" is the value for the time that the transponder remains in the field before the MDS
STATUS command (mode 02) is executed. A time step is 10 ms. The maximum time that
can be recorded is therefore 2.5 s.
MDS STATUS (mode 03), corresponds to UDT 230
Name
Type
UID
array[1…8] byte
Possible Values
Comment
Unique identifier
0000000000000000 ... =8 byte UID, MSB first
FFFFFFFFFFFFFFFF
MDS_type
byte
Transponder type (vendor, identification)
00
= ISO transponder (non-specific)
03
= ISO transponder (Infineon, MDS D300)
04
= ISO transponder (Fujitsu, MDS D400)
05
= ISO transponder (Philips, MDS D100)
06
= ISO transponder (Texas Instruments, MDS D200)
07
= ISO transponder (ST, LRI2K)
08
= ISO transponder (Fujitsu, MDS D500)
11
= RF300 transponder (0 kB)
12
= RF300 transponder (8 kB)
13
= RF300 transponder (32 kB)
14
= RF300 transponder (64 kB)
15
= RF300 transponder (128 kB)
16
= RF300 transponder (256 kB)
21
= ISO transponder (NXP, 1 kB, MDS E)
22
= ISO transponder (Infineon, 1 kB, MDS E)
23
= ISO transponder (NXP, 4 kB)
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System diagnostics
10.3 Diagnostics functions STEP 7 Basic / Professional
Name
Type
Possible Values
Comment
binary
0 ... 255
Vendor-specific value
IC_version
byte
0 ... FF
Chip version
size
byte
0 ... FF
Memory size in bytes
lock_state
byte
0 ... FF
Lock state, OTP information:
One bit is used per block (4 x 4 bytes or 2 x 8 bytes)
(bit = 1: block is locked)
Depending on transponder type, e.g. my-d: 992 bytes
Example:
01 = Block 1 of address FF80 ... FF83 is locked or
03 = Block 1 and 2 of address FF80 ... FF87 are
locked,
e.g. for the Philips SL2 ICS20 (MDS D124, D160 or
D100).
This chip provides a usable memory with 112 bytes
EEPROM from address 0000 - 006F (total OTP area
"0060 ... 006F"). In this memory, the locked area corresponds to the addresses 0060 ... 0063 or 0060 ... 0067
block_size
byte
0 ... FF
Block size of the transponder
nr_of_blocks
byte
0 ... FF
Number of blocks
Depending on transponder type, e.g. my-d: 4 bytes
Depending on transponder type, e.g. my-d: 248 bytes
10.3
Diagnostics functions STEP 7 Basic / Professional
Extensive diagnostics functions for the SIMATIC RF300 readers with STEP 7 Basic /
Professional are being planned. With the aid of the Ident profile and the Ident blocks, you
can make different diagnostics queries.
SIMATIC RF300
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System diagnostics
10.3 Diagnostics functions STEP 7 Basic / Professional
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