Siemens RF 300 RF 300 system, RF 310 R reader, RF 320 T, RF 340 T transponder, 8xIQ-Sense module System Manual
Below you will find brief information for RFID system RF 300 RF 310-R, RFID system RF 300 RF 320-T, RFID system RF 300 RF 340-T. The RF 300 is an RFID system for small assembly lines in harsh industrial environments. It uses inductive alternating fields for communication and can be configured to operate in static or dynamic modes. The RF 310-R is a reader that can be used for identification tasks on small assembly lines. It can be flush-mounted in metal and has a maximum read/write distance of 30 mm. The RF 320-T is a transponder that can be used for identification tasks on small assembly lines. It has a read/write range of up to 18 mm and a 20-byte user data area. The RF 340-T is a transponder that can be used for identification tasks on small assembly lines. It has a 8 KB memory and a read/write range of up to 30 mm.
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RF 300 system planning
4.6 EMC Guidelines
4.6.6 Prevention of interference sources
A high level of immunity to interference can be achieved by avoiding interference sources.
All switched inductances are a frequent source of interference in plants.
Suppression of inductance
Relays, contactors, etc. generate interference voltages and must therefore be suppressed using one of the circuits below.
Even with small relays, interference voltages of up to 800 V occur on 24 V coils, and interference voltages of several kV occur on 230 V coils when the coil is switched. The use of freewheeling diodes or RC circuits prevents interference voltages and thus stray interference on conductors installed parallel to the coil conductor.
5HOD\FRLOV 9DOYHV
&RQWDFWRUV %UDNHV
Figure 4-13 Suppression of inductance
Note
All coils in the cabinet should be suppressed. The valves and motor brakes are frequently forgotten. Fluorescent lamps in the control cabinet should be tested in particular.
RF 300
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4-35
RF 300 system planning
4.6 EMC Guidelines
4.6.7 Equipotential bonding
Potential differences between different parts of a plant can arise due to the different design of the plant components and different voltage levels. If the plant components are connected across signal cables, transient currents flow across the signal cables. These transient currents can corrupt the signals.
Proper equipotential bonding is thus essential.
• The equipotential bonding conductor must have a sufficiently large cross section (at least
10 mm 2 ).
• The distance between the signal cable and the associated equipotential bonding conductor must be as small as possible (antenna effect).
• A fine-strand conductor must be used (better high-frequency conductivity).
• When connecting the equipotential bonding conductors to the centralized equipotential bonding strip, the power components and non-power components must be combined.
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3RZHUVXSSO\
(8
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(8
(8
3/&
,QFRUUHFW
'ULYH
Figure 4-14 Equipotential bonding
The better the equipotential bonding in a plant, the smaller the chance of interference due to fluctuations in potential.
Equipotential bonding should not be confused with protective earthing of a plant. Protective earthing prevents the occurrence of excessive contact voltages in the event of device faults.
4-36
RF 300
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RF 300 system planning
4.6 EMC Guidelines
4.6.8 Cable shielding
Signal cables must be shielded in order to prevent coupling of interference.
The best shielding is achieved by installing the cables in steel tubes. However, this is only necessary if the signal cable is routed through an environment prone to particular interference. It is usually adequate to use cables with braided shields. In either case, however, correct connection is vital for effective shielding.
Note
An unconnected or incorrectly connected shield has no shielding effect.
As a rule:
• For analog signal cables, the shield should be connected at one end on the receiver side
• For digital signals, the shield should be connected to the enclosure at both ends
• Since interference signals are frequently within the HF range (> 10 kHz), a large-area HFproof shield contact is necessary
Figure 4-15 Cable shielding
The shielding bus should be connected to the control cabinet enclosure in a manner allowing good conductance (large-area contact) and must be situated as close as possible to the cable inlet. The cable insulation must be removed and the cable clamped to the shielding bus (high-frequency clamp) or secured using cable ties. Care should be taken to ensure that the connection allows good conductance.
RF 300
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4-37
RF 300 system planning
4.6 EMC Guidelines
4-38
Cable tie
5HPRYHSDLQW
Figure 4-16 Connection of shielding bus
The shielding bus must be connected to the PE busbar.
If shielded cables have to be interrupted, the shield must be continued via the corresponding connector housing. Only suitable connectors may be used for this purpose.
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WKURXJKrDQG
FRQQHFWHGWRFRQQHFWRU
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5XEEHUVOHHYH
Figure 4-17 Interruption of shielded cables
If intermediate connectors, which do not have a suitable shield connection, are used, the shield must be continued by fixing cable clamps at the point of interruption. This ensures a large-area, HF-conducting contact.
RF 300
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Readers
5
The reader ensures inductive communication with the transponders, and handles the serial connection to the communication modules/interface modules and 8xIQ-Sense module.
Communication between the transponder and reader takes place over inductive alternating fields.
The transmittable data volume between reader and transponder depends on:
• the speed at which the transponder moves through the transmission window of the reader.
• the length of the transmission window.
• the transponder type (FRAM, EEPROM).
RF 300
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5-1
Readers
5.1 RF 310-R
5.1
5.1
RF 310-R
5.1.1 Features
Reader RF 310-R Features
Design
Applications
(1) IQ-Sense interface
(2) Operating indicator
Identification tasks on small assembly lines in harsh industrial environments
Read/write distance to transponder 30 mm max.
Data transmission rate Read: 50 bytes/s
Write: approx. 40 bytes/s
5.1.2 Indicators
Table 5-1 RF 310-R indicators
Color Meaning
Green Operating voltage available
Yellow Transponder present
Red Fault
5-2
RF 300
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Readers
5.1 RF 310-R
5.1.3 Transmission window
Ensuring reliable data exchange
The "center point" of the transponder must be situated within the transmission window.
5.1.4 Metal-free area
The RF 310-R can be flush-mounted in metal. Please allow for a possible reduction in the field data values.
D
D
6,0$7,&
5)5
D
D
Figure 5-1 Metal-free area for RF 310-R
RF 300
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5-3
Readers
5.1 RF 310-R
5.1.5 Minimum distance between several RF 310-R units
5)5
'
0LQLPXPGLVWDQFHIURP5)5WR5)5
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5)5 5)5
Figure 5-2 Minimum distance between several RF 310-R units
5.1.6 RF 310-R field data
Working distance (Sa)
Limit distance (Sg)
Length of the transmission window (L)
Width of the transmission window (W)
Reader RF 310-R to reader RF 310-R
Minimum distance
RF 320-T transponder
0-12 mm
18 mm
30 mm
12 mm
RF 340-T transponder
0-20 mm
30 mm
40 mm
16 mm
400 mm
5-4
RF 300
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Readers
5.1 RF 310-R
5.1.7 Pin assignment of the IQ-Sense interface
Table 5-2 RF 310-R pin assignment
Pin
2
3
Pin, device end, 4-pin M12
1
4
Assignment
IQ-Sense
Not assigned
IQ-Sense
Not assigned
5.1.8 Cable and connector pin assignment
The following figure shows the cable and connector pin assignment of the connecting cable between 8xIQ-Sense and RF 310-R.
Figure 5-3 Cable and connector pin assignment
RF 300
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5-5
Readers
5.1 RF 310-R
5.1.9 Technical data of the RF 310-R
Table 5-3 Technical data of the RF 310-R
Inductive interface to the transponder
Transmission frequency for power/data
Interface to SIMATIC S7-300
Required master module
RFID channels (RF 310-R)
Hybrid operation with other profiles
Cable length, reader
Read/write distances of reader
Minimum distance between 2 RF 310-R units
SLG data transmission rate
• Read
• Write
Traversal rate
• Read
• Write
Function
Multi-tag
Power supply
Indicators
Plug connector
Housing
• Dimensions (in mm)
• Color
• Material
Fixing
Ambient temperature
• During operation
• Storage and transport
Degree of protection per EN 60529
Shock to EN 60 721-3-7 Class 7 M2
Overall shock response spectrum type II
Vibration to EN 60 721-3-7 Class 7M2
Weight
Approvals
13.56 MHz
IQ-Sense, 2-wire polarity independent
8-IQ-Sense (6ES7 338-7XF00-0AB0)
Max. 2 possible per master module
Max. 4 Opto-BERO, 1x SIMATIC RF 310-R
Max. 50 m (unshielded cable)
See field data RF 310-R
≥ 400 mm
Approx. 50 bytes/s
Approx. 40 bytes/s
Approx. 0.8 m/s (2 bytes)
Approx. 0.2 m/s (2 bytes)
Read, write, initialize transponder no via IQ-Sense master module 24 V DC
2-color LED (operating voltage, presence, error)
M12 (4-pin)
55 x 75 x 30 (not including M12 connector) anthracite plastic PA 12
4 x M5 screws
• -25°C to +70°C
• -40°C to +85°C
IP65
50 g
1 g (9 to 200 Hz)
1.5 g (200 to 500 Hz)
Approx. 200 g
• Radio to R&TTE guidelines EN 300 330,
EN 301 489
• CE
• UL
• FCC
5-6
RF 300
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Readers
5.1 RF 310-R
5.1.10 FCC information
Siemens SIMATIC RF 300
FCC ID: xxxxxxxx
This device complies with part 15 of the fcc rules. Operation is subject to the following two conditions:
(1) This device may not cause harmful interference, and
(2) This device must accept any interference received, including interference that may cause undesired operation.
Caution
Any changes or modifications not expressly approved by the party responsible for compliance could void the user's authority to operate the equipment.
5.1.11 RF 310-R ordering data
RF 310-R with IQ-Sense interface for SIMATIC S7-300
ET 200M
IP65
-25° to +70°C
55 x 75 x 30 mm
Max. limit distance: 30 mm with integrated antenna
Order No.
6GT2 801-0AA00
RF 300
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5-7
Readers
5.1 RF 310-R
5.1.12 Dimension drawing
6,0$7,&
5)5
Figure 5-4 RF 310-R dimension drawing
5-8
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Transponder/tags
6
Transponders consist predominantly of logic, FRAM and/or EEPROM.
If a transponder moves into the transmission field of the reader, the necessary power for all of the circuit components is generated and monitored by the power supply unit. The pulsecoded information is prepared in such a way that it can be processed further as pure digital signals. The handling of data, including check routines, is performed by the control unit, which also manages the various memories.
RF 300
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6-1
Transponder/tags
6.1 RF 320-T
6.1
6.1
RF 320-T
6.1.1 Features
RF 320-T transponder Features
Applications
Memory
Read/write range
Mounting on metal
Identification tasks on small assembly lines in harsh industrial environments
Read-only area (4 bytes UID)
User data area (20 bytes)
Max. 18 mm
(in conjunction with reader RF 310-R)
No: distance to metal must be at least 10 mm
6-2
RF 300
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Transponder/tags
6.1 RF 320-T
6.1.2 Metal-free area
Direct mounting of the RF 320-T on metal
Direct mounting of the RF 320-T on metal is not allowed.
The following figures show the minimum distance between the RF 320-T and metal:
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1RQPHWDO
Figure 6-1 Mounting of the RF 320-T on metal with spacer
Flush-mounting of the RF 320-T in metal
'DWDPHPRU\
0HWDO
1RQPHWDO
D!PP
Figure 6-2 Flush-mounting of the RF 320-T in metal with spacer
RF 300
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6-3
Transponder/tags
6.1 RF 320-T
6.1.3 Field data
Table 6-1 Field data for transponder RF 320-T to reader RF 310-R
Transponder RF 320-T to reader RF 310-R
Working distance (Sa)
Limit distance (Sg)
Transmission window (L)
0 to 12 mm
18 mm
30 mm
Table 6-2 Field data for transponder RF 320-T to RF 320-T
Transponder RF 320-T to transponder RF 320-T
Minimum distance 100 mm
6-4
RF 300
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Transponder/tags
6.1 RF 320-T
6.1.4 Technical data
Table 6-3 Technical data of the RF 320-T
Memory size
Memory organization
MTBF
Read cycles
Write cycles, min. at ≤ 40 °C, typical
Data retention time
Read/write distance, max.
Energy source
Shock/vibration-resistant to EN 60721-3-7, Class
7 M3
Torsion and bending load
Fixing
Recommended spacing from metal
Degree of protection per EN 60529
Housing
• Dimensions
• Color/material
Ambient temperature
• During operation
• Storage and transport
Weight
20 bytes EEPROM (r/w), 4 bytes UID (ro)
Byte-oriented access, write protection possible in
4-byte blocks
8 x 10 6 h
Unlimited
50 000
> 100 000
> 10 years (at < +40 °C)
18 mm (see field data)
Inductive power transmission
100 g/20 g not permissible
Adhesive/M3 screws
> 10 mm
• IP67/IPX9K
Button
• Ø 27 mm x 4 mm
• Black/epoxy resin
• -25 to +85 °C
• -40 to +125 °C
Approx. 5 g
Note
All the technical data listed are typical data and are applicable for an ambient temperature of between 0 C and +50°C and a metal-free environment.
RF 300
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6-5
Transponder/tags
6.1 RF 320-T
6.1.5 Ordering data
RF 320-T transponder
Transponder RF 320-T, button,
20-byte EEPROM
IP 67
-25 to +85 °C d = 27 mm x 4 mm
6.1.6 Dimension drawing
Dimensions of the device
Order No.
6GT2 800-1CA00 s
Dimensions in millimeters s
6-6
RF 300
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6.2
6.2
RF 340-T
6.2.1 Features
RF 340-T transponder
Transponder/tags
6.2 RF 340-T
Features
Applications
Memory
Read/write range
(in conjunction with reader RF
310-R)
Mounting on metal
Identification tasks on small assembly lines in harsh industrial environments
Read-only area (4 bytes UID)
Read/write memory (8 KB)
Max. 30 mm
Yes: can be directly mounted on metal
RF 300
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6-7
Transponder/tags
6.2 RF 340-T
6.2.2 Metal-free area
Direct mounting of the RF 340-T on metal is allowed.
Direct mounting of the RF 340-T on metal
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Figure 6-3 Direct mounting of the RF 340-T on metal:
Flush-mounting of the RF 340-T in metal:
D
E
0HWDO
Figure 6-4 Flush-mounting of the RF 340-T in metal:
6-8
RF 300
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6.2.3 Field data
Table 6-4 Field data for transponder RF 340-T to reader RF 310-R
Transponder RF 340-T to reader RF 310-R
Working distance (Sa)
Limit distance (Sg)
Transmission window (L)
0 to 20 mm
30 mm
40 mm
Table 6-5 Transponder RF 340-T to transponder RF 340-T
Transponder RF 340-T to transponder RF 340-T
Minimum distance 100 mm
Transponder/tags
6.2 RF 340-T
RF 300
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6-9
Transponder/tags
6.2 RF 340-T
6.2.4 Technical data
Table 6-6 Technical data of the RF 340-T
Memory size
Memory organization
Memory configuration
• Serial number (UID)
• Application memory
Storage technology
MTBF, at +40 °C
Write cycles, at +40°C
Read cycles
Transmission rate
• Reading
• Writing
Data retention
Read/write distance
Multitag capability
Recommended spacing from metal
Power supply
Degree of protection to EN 60529
Shock to EN 60721-3-7
Vibration to EN 60721-3-7
Torsion and bending load
Housing dimensions
Color
Material
Fixing
Ambient temperature
• During operation
• Storage and transport
Weight
8 KB
8 bit / bytewise
4 bytes (fixed code)
8188 bytes r/w
FRAM
> 1.5 x 10 6 h
Virtually unlimited (>10 10 )
Unlimited with RS 422 reader:
Approx. 0.3 ms / byte approx. 0.3 ms / byte with IQ-Sense reader:
Approx. 20 ms / byte approx. 25 ms / byte
> 10 years
0 to max. 60 mm (depends on reader used) max. 4 transponders can be directly mounted on metal
Inductive, without battery
IP68/IPX9K
50 g
20 g
Not permitted permanently
48 x 25 x 15 mm (L x W x H)
Anthracite
PA12
2 screws (M3)
-25°C to +85°C
-40°C to +85°C
Approx. 25 g
6-10
RF 300
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6.2.5 Ordering data
Ordering data
RF 340-T
RF 340-T transponder
8 KB FRAM
48 x 25 x 15 mm (L x W x H)
6.2.6 Dimension drawing
Dimensions of the device
Order No.
6GT2 800-4BB00
Transponder/tags
6.2 RF 340-T
Dimensions in millimeters
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6-11
Transponder/tags
6.2 RF 340-T
6-12
RF 300
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Communication modules
7
The communication modules (interface modules) are links between the RFID components
(reader and transponder) and the higher-level control systems (e.g. SIMATIC S7) or PC or computers.
RF 300
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7-1
Communication modules
7.1 8xIQ-Sense
7.1
7.1
8xIQ-Sense
The 8xIQ-Sense module in conjunction with the RF 310-R handles the function of the communication module in SIMATIC RF 300. It can be operated centrally in an S7-300 or decentrally in an ET 200M.
7.1.1 Features
8xIQ-Sense Features
Operation Centralized or distributed
Communication with up to 8 IQ-Sense devices fitted with IQ-
Sense communication interfaces
Status displays Status LED for each channel (green) (for BERO only)
Fault LED (red)
7-2
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Communication modules
7.1 8xIQ-Sense
7.1.2 Indicators
Status displays
The 8xIQ-Sense module has the following LEDs:
A green LED, which has no function for RFID devices, and a red SF LED (system fault LED), which indicates the diagnostic state of the module.
60
[,46HQVH
LEDs Labeling LED status
Meaning
Has no function here
6)
Green
LED per channel
Red
0…7
SF Illuminate d
Not illuminate d
Module fault, sensor fault, active teach-in operation, external auxiliary voltage missing
No fault or no active teach-in operation
;
;)$%
RF 300
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7-3
Communication modules
7.1 8xIQ-Sense
7.1.3 Configuration
Centralized S7-300 configuration
6
[,46HQVH
)XUWKHUPRGXOHVIURP
WKH6UDQJH
LQFOXGLQJ[,46HQVH
$60FKDQQHO
5HD 5HD
6/*DQGWUDQVSRQGHU
5),46HQVH
7UDQVSRQGHU 7UDQVSRQGHU
Figure 7-1 Configurator for 8xIQ-Sense with reader RF 310-R (centralized configuration)
Distributed configuration (ET 200M)
[,46HQVH
)XUWKHUPRGXOHVIURP
WKH6UDQJH
LQFOXGLQJ[,46HQVH
(70
7-4
$60FKDQQHO
5HD 5HD
6/*DQGWUDQVSRQGHU
5),46HQVH
7UDQVSRQGHU 7UDQVSRQGHU
Figure 7-2 Configurator for 8xIQ-Sense with reader RF 310-R (distributed configuration)
RF 300
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7.1.4
Communication modules
7.1 8xIQ-Sense
Addressing
The address range of the 8xIQ-Sense module is 16 bytes I/O.
This is independent of the choice of channel profiles on the connected device
(i.e. the IQ profile IDs in HW Config).
Access to memory areas
A direct association exists between the number of the channel to which the IQ-Sense device is connected (terminal) and the input and output data area of the module. Based on the address range, the following addresses can be used to access the memory areas:
Address = module initial address + (channel no. x 2)
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7-5
Communication modules
7.1 8xIQ-Sense
Example
5)5
Module initial address = 280
I/O address for channel 3: 286
,46HQVHGHYLFH
,46HQVHGHYLFH
,46HQVHGHYLFH
,46HQVHGHYLFH
7HUPLQDO
)URQW GRRULQWHULRU
/
,4
0
0
ದ
0
0
ದ
0
0
ದ
0
0
ದ
,4
,4
,4
&KDQQHOQR
&KDQQHODGGUHVVHV
LQH[DPSOH
IRU,46HQVHGHYLFHV IRU5)
&KDQQHO
&KDQQHO
&KDQQHO
&KDQQHO
5)5 ,46HQVHGHYLFH
,46HQVHGHYLFH
,46HQVHGHYLFH
,46HQVHGHYLFH
0
0
ದ
0
0
ದ
0
0
ದ
0
0
ದ
,4
,4
,4
,4
&KDQQHO
&KDQQHO
&KDQQHO
&KDQQHO
0
Figure 7-3 8xIQ-Sense module: Assignment of terminal pair to memory area
Note
A maximum of two read/write devices can be operated!
Each read/write device uses channel numbers 0 to 3 or 4 to 7.
7-6
RF 300
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7.1.5 Technical data
Voltages and currents
Rated supply voltage
Reverse polarity protection
Galvanic isolation
• Between the channels
• Between channels and backplane bus
Permissible potential difference
Between different circuits
Insulation tested at
Current input
• from the backplane bus
• from L+ power supply
Module power loss
Module-specific data
Number of channels
Channels for RFID systems
Cable length, unshielded
Dimensions and weight
Dimensions w x h x d (mm)
Weight
7.1.6 Ordering data
8xIQ-Sense
SIMATIC S7-300
IQ-Sense SM338 for S7-300 and ET200M for the connection of up to 8xIQ-Sense sensors
Optical sensors, ultrasonic sensors and RF identification systems can be connected.
Order No.
6ES7 3387XF000AB0
Communication modules
7.1 8xIQ-Sense
24 V DC yes no yes
75 V DC / 60 V AC
8
2
500 V DC
120 mA typical
500 mA max.
2.5 W typical
50 m max.
40 x 125 x 120
Approx. 235 g
RF 300
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7-7
Communication modules
7.1 8xIQ-Sense
7-8
RF 300
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Accessories
8
8.1
8.1
MOBY software
Version 3.0 and higher of the "MOBY Software", product is supplied on CD. The software includes a complete set of function blocks and drivers for MOBY. The programs are explained in brief in the "readme" file in the main directory of the CD:
• FC 35: S7 function for the 8xIQ-Sense module
• FB 240: Function block for ASM 450; MOBY on PROFIBUS-DP via SIMATIC S5
(including device data file for PROFIBUS-DP)
• FB 250: Function block for ASM 400
• FB 41 contains a function block for the ASM 410. The call interface of the FB is virtually identical to FB 250. Please refer to the description of FB 250 for programming instructions.
• FC 44 can be used to operate the ASM 450 in a SIMATIC S7 environment. It is essential to read the instructions in the "read_me" file in the FC 44 directory. The "FC 44 for ASM
450" description is available for operation of the ASM 450.
• FC 45: S7 function for the ASM 754
• Function FC 47 for ASM 470
• FB 47 contains a function block for SIMATIC S5 115U - 155U. It can be used to operate the ASM 470 in a SIMATIC S5 environment via an ET 200M.
• Load program for ES 030 and device data file for connection of the ES 030 to
PROFIBUS-DP
• Test and demo programs for demonstrating the "read from MDS" and "write to MDS" functions etc. on a PC (Windows). The ASM 424/724 MOBY modules and SIM are connected to the PC by cable to the serial interface of the PC (COM 1 or COM 2).
• A brief description of the individual directories is provided in English and German
("read_me.txt" and "lies_mich.txt").
• 3964R driver for DOS, Windows 95 and Windows NT
• C library for CCT32 for Windows 95/NT 4.0
• C library for MOBY API for Windows 98/NT 4.0
• Latest edition of MOBY documentation in PDF format
• Tools: you will find utility programs for MOBY configuration here
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8-1
Accessories
8.1 MOBY software
The "MOBY Software" CD has a user-friendly interface based on HTML. When you run start.exe, a window appears with the following main menu items:
• FC for S7
• FB for S5
• PC Support
• Doc
• Tools
• Demo
• News
Notes on MOBY software and licensing
When purchasing an interface module or SIM, no software or documentation is supplied. The
"MOBY Software" CD-ROM contains all available FBs/FCs for the SIMATIC, C libraries for
Windows 98/NT, demo programs, etc. and needs to be ordered separately. In addition, the
CD-ROM contains the complete RFID documentation (German, English and French) in PDF format.
The purchase of an interface module or SIM includes a payment for the use of the software, including documentation, on the "MOBY Software“ CD-ROM and the purchaser acquires the right to make copies (copy license) insofar as they are required as part of the customerspecific application or development for the plant.
The enclosed contract pertaining to the use of software products against a one-off payment shall apply in addition.
8-2
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A
Appendix
A
A.1
A.1
Certificates and approvals
DIN ISO 9001 certificate
The quality assurance system for the entire product process (development, production, and marketing) at Siemens fulfills the requirements of ISO 9001 (corresponds to EN29001:
1987).
This has been certified by DQS (the German society for the certification of quality management systems).
EQ-Net certificate no.: 1323-01
Certifications for the United States, Canada, and Australia
Safety
One of the following markings on a device is indicative of the corresponding approval:
Underwriters Laboratories (UL) per UL 60950 (I.T.E) or per UL 508 (IND.CONT.EQ)
Underwriters Laboratories (UL) according to Canadian standard C22.2 No. 60950
(I.T.E) or C22.2 No. 142 (IND.CONT.EQ)
Underwriters Laboratories (UL) according to standard UL 60950, Report E11 5352 and
Canadian standard C22.2 No. 60950 (I.T.E) or UL508 and C22.2 No. 142
(IND.CONT.EQ)
UL recognition mark
Canadian Standard Association (CSA) per Standard C22.2. No. 60950 (LR 81690) or per C22.2 No. 142 (LR 63533)
Canadian Standard Association (CSA) per American Standard UL 60950 (LR 81690) or per UL 508 (LR 63533)
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A-1
Appendix
A.1 Certificates and approvals
EMC
USA
Federal Communications
Commission
Radio Frequency
Interference Statement
Shielded Cables
Modifications
This equipment has been tested and found to comply with the limits for a
Class A digital device, pursuant to Part 15 of the FCC Rules. These limits are designed to provide reasonable protection against harmful interference when the equipment is operated in a commercial environment. This equipment generates, uses, and can radiate radio frequency energy and, if not installed and used in accordance with the instruction manual, may cause harmful interference to radio communications. Operation of this equipment in a residential area is likely to cause harmful interference in which case the user will be required to correct the interference at his own expense.
Shielded cables must be used with this equipment to maintain compliance with FCC regulations.
Changes or modifications not expressly approved by the manufacturer could void the user's authority to operate the equipment.
Conditions of Operations This device complies with Part 15 of the FCC Rules. Operation is subject to the following two conditions: (1) this device may not cause harmful interference, and (2) this device must accept any interference received, including interference that may cause undesired operation.
CANADA
Canadian Notice
Avis Canadien
This Class B digital apparatus complies with Canadian ICES-003.
Cet appareil numérique de la classe b est conforme à la norme NMB-003 du Canada.
AUSTRALIA
This product meets the requirements of the AS/NZS 3548 Norm.
A-2
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A.2
A.2
Service and support
Technical support
You can reach the technical support team for all A&D projects at
• Telephone: +49 (0) 180 5050 222
• Fax: +49 (0) 180 5050 223
Appendix
A.2 Service and support
Internet
• Visit our site on the Internet at: http://www.siemens.com/automation/service&support
• You can send a support query to: http://www.siemens.de/automation/support-request
• You can find the latest general information about our identification systems on the
Internet at: http://www.siemens.de/simatic-sensors
• The online catalog and the online ordering system is available at: http://mall.automation.siemens.com/
A.3
A.3
Contact partners
If you have any further questions on the use of our products, please contact one of our representatives at your local Siemens office.
The addresses are found on the following pages:
• On the Internet at: http://www.siemens.com/automation/partner
• In catalog CA 01
• In Catalog FS 10 specially for factory automation sensors
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A-3
Appendix
A.4 Application consulting
A.4
A.4
Application consulting
For questions about special applications, please send an e-mail to the following address: [email protected] or call the following phone number: 0911/895-5775
A.5
A.5
Training
Training center
We offer appropriate courses to get you started. Please contact your regional Training
Center, or the central Training Center in D-90327 Nuremberg.
Telephone: +49 (911) 895-3200 http://www.sitrain.com
A-4
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List of abbreviations
ASM
Interface module
CSA
Canadian Standard Association
EMC
Electromagnetic compatibility
FB
Function Block
FC
Function
IEC
International Electrotechnical Commission
L
Length of a transmission window
MDS
Mobile data memory
RFID
Radio Frequency Identification Devices
Sa
Operating distance between MDS and SLG
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Glossary-1
List of abbreviations
Sg
Limit distance
SLG
Write/read device
SP
Intersection of the axes of symmetry of the MDS
Tag
See transponder
TPDR
Transponder
UL
Underwriter Laboratories, USA
VDE
Verband Deutscher Elektrotechniker [Association of German Electrical Engineers]
XPDR
Transponder
Glossary-2
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Glossary
Active field
Area with minimum field strength containing the transmission window, as well as the areas in which the field strength is no longer sufficient for data exchange.
Active surface
See active field
Automation system (AS)
A programmable logical controller (PLC) of the SIMATIC S7 system, comprising a central controller, a CPU and various I/O modules.
Battery-free data memory
Mobile data memories which operate without batteries. Power is supplied to the data memory across an electromagnetic alternating field.
CE mark
Communauté Européenne (product mark of the European Union)
Data transmission rate
Unit of measurement for the volume of data transmitted within a unit of time, e.g. bytes/s
Dwell time
The dwell time is the time in which the transponder dwells within the transmission window of a read/write device. The read/write device can exchange data with the transponder during this time.
Dynamic mode
In dynamic mode, the data carrier moves past the read/write device at a traversing rate which depends on the configuration. Various checking mechanisms (listen-in check, CRC,
ECC, etc.) ensure error-free data transfer even under extreme environmental conditions. A serial connection (up to 1000 m) is used to connect the read/write device directly to an interface module, PC, or any other system.
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Glossary-1
Glossary
Electromagnetic compatibility
Electromagnetic compatibility is the ability of an electrical or electronic device to operate satisfactorily in an electromagnetic environment without affecting or interfering with the environment over and above certain limits.
Equipotential bonding
Potential differences between different parts of a plant can arise due to the different design of the plant components and different voltage levels. It is necessary to compensate for these differences by equipotential bonding: this is done by combining the equipotential bonding conductors of power components and non-power components on a centralized equalizing conductor.
ESD Directive
Directive for handling ESDs.
Frequency hopping
Automatic search for free channels.
In frequency hopping, data packets are transferred between the communication partners on constantly changing carrier frequencies. This makes it possible to react to interference from devices transmitting signals in the same frequency range. If an attempt to send a data packet is unsuccessful, the packet can be transmitted again on a different carrier frequency.
IQ-Sense interface
Simple interface on the IQ-Sense module, using a standard design for all types of sensors, enabling integrated data exchange between the sensor and control system.
Limit distance
The limit distance is the maximum clear distance between the upper surface of the read/write device and the transponder, at which the transmission can still function under normal conditions.
Metal-free area
Distance/area which must be maintained between the transponder and metal in order to prevent interference during data transfer between the transponder and read/write device.
Mobile data memory (MDS)
See transponder
Multi-tag capability
Multi-tag capability means the ability to use several read/write devices which communicate simultaneously with different data carriers.
Glossary-2
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Glossary
Programmable logic controller (PLC)
The programmable logical controllers (PLCs) of the SIMATIC S5 systems consist of a central controller, one or more CPUs, and various other modules (e.g. I/O modules).
Read/write devices (SLG)
See readers
Read/write distance
See transmission distance
Reader/writer
See write/read device
RFID systems
SIMATIC RF identification systems control and optimize material flow and production sequences. They identify reliably, quickly and economically, use non-contact data communication technology, and store data directly on the product. They are also resistant to contamination.
Secondary fields
The strength of the secondary fields, which exist in addition to the transmission window, is usually lower than that of the transmission window and depends on the metallic environment.
Secondary fields should not be used in configuring.
Static mode
In static mode, the transponder is positioned at a fixed distance (maximum: limit distance) exactly over the read/write device.
Telegram cycles
The transfer of a read or write command takes place in three cycles, known as telegram cycles. 1 or 2 bytes of user data can be transferred with each command. The acknowledgement transfer (status or read data) takes place in 3 further cycles.
Transmission distance
Distance between communication module (read/write device) and transponder (mobile data memory)
Transmission window
Area in which reliable data exchange between transponder and read/write device is possible due to a particular minimum field strength.
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Glossary-3
Glossary
Glossary-4
RF 300
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Index
8
A
Active field, 4-2
Active surface, 4-4
Application Planning
SIMATIC RF 300, 4-1
C
Cabinet configuration, 4-32
Calculation example, 4-9
Communication, 4-7 between RF 300 components, 4-7
Communication modules
Communication time, 4-7 for fault-free data transfer, 4-7
Coupling paths, 4-31
D
Data volume
Relationship between speed and, 4-13
Design
Dimension drawing
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Direction of motion
Transponder, 4-4
Dwell time
Transponder, 4-6
Dynamic mode, 4-5
Dynamic mode
Dwell time of the transponder, 4-6
E
Electromagnetic compatibility
Coupling paths, 4-31
Electromagnetic interference, 4-29
EMC Guidelines
Basic rules, 4-28
Cabinet configuration, 4-32
Definition, 4-27
Overview, 4-26
Propagation of electromagnetic interference, 4-29
F
Field data
Readers, 4-12
Reduction due to metal, 4-20
Transponder, 4-12
Flush-mounting of transponders and readers, 4-16
I
Identification system
Inductive, 3-2
Inductive alternating field, 4-2
Installation
Several readers, 4-17
Index-1
Index
Installation guidelines, 4-14
Interference sources
Electromagnetic, 4-30
IQ-Sense interface
M
Main applications
RF 300, 3-2
Metal-free area
Minimum distance
Reader to reader, 4-12
Transponder to transponder, 4-12
Mounting options of transponders and readers, 4-18
O
Ordering data
R
Read/write distance, 4-2
Cable and connector pin assignment, 5-5
Pin assignment of IQ-Sense interface, 5-5
Mounting, 4-17
Reducing interference due to metal, 4-15
Reduction of field data, 4-20
Resistance to chemicals
Transponder, 4-21
RF 300
Applications, 3-2
Main applications, 3-2
Index-2
RF 340-T transponder
RFID systems
Overview, 3-1
S
Safety information, 2-1
Secondary fields, 4-3
Static mode, 4-5
Static mode
Dwell time of the transponder, 4-6
System components
Overview, 3-3
System overview
RFID systems, 3-1
Systems
RFID, 3-1
T
Technical data
Time constants, 4-8
Tolerance of pallet side transport, 4-10
Tolerance of pallet transport height, 4-10
Tracking
Tolerance, 4-3
Tracking tolerances, 4-3
Transmission window
Impact of metal, 4-19
Width, 4-3
Active surface, 4-4
Directions of motion, 4-4
Dwell time, 4-6
Mounting on metal, 4-18
Resistance to chemicals, 4-21
Transponder speed, 4-13
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U
User data
Calculation of maximum amount of, 4-7
Index
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Index-3
Index
Index-4
RF 300
System Manual, 05/2005, (4)J31069 D0166-U001-A1-7618, --
Siemens AG
Automation and Drives
Special Products, Projects
Automotive Industry, Training
Postfach 4848
90327 NUERNBERG
Federal Republic of Germany www.siemens.com/simatic-sensors

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Key features
- Inductive communication
- Static and dynamic modes
- Flush-mounting in metal
- Read/write distances up to 30 mm
- User data area up to 20 bytes
- 8 KB memory
- Resistance to chemicals
- Electromagnetic compatibility (EMC)