Siemens RF340R Inductive Tag Reader User Manual RFID Systeme SIMATIC RF300

Siemens AG Inductive Tag Reader RFID Systeme SIMATIC RF300

Contents

Manual Part 2

 RF300 system planning  4.6 EMC Directives SIMATIC RF300 System Manual, Release 04/2006, J31069 D0166-U001-A2-7618  4-51 Prevention of interference by optimum configuration Good interference suppression can be achieved by installing SIMATIC PLCs on conducting mounting plates (unpainted). When setting up the control cabinet, interference can be prevented easily by observing certain guidelines. Power components (transformers, drive units, load power supply units) should be arranged separately from the control components (relay control unit, SIMATIC S7). As a rule: • The effect of the interference decreases as the distance between the interference source and interference sink increases. • The interference can be further decreased by installing grounded shielding plates. • The load connections and power cables should be installed separately from the signal cables with a minimum clearance of 10 cm. 3RZHUVXSSO\&&(8'ULYH6KLHOGSODWH Figure 4-24  Prevention of interference by optimum configuration
RF300 system planning   4.6 EMC Directives  SIMATIC RF300 4-52  System Manual, Release 04/2006, J31069 D0166-U001-A2-7618 Filtering of the supply voltage External interference from the mains can be prevented by installing line filters. Correct installation is extremely important, in addition to appropriate dimensioning. It is essential that the line filter is mounted directly at the cabinet inlet. As a result, interference is filtered promptly at the inlet, and is not conducted through the cabinet. /LQHILOWHU,V&RUUHFW/LQHILOWHU,QFRUUHFW,F LQWHUIHUHQFHFXUUHQW,V Figure 4-25  Filtering of the supply voltage
 RF300 system planning  4.6 EMC Directives SIMATIC RF300 System Manual, Release 04/2006, J31069 D0166-U001-A2-7618  4-53 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 frequent sources 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. 9DOYHV%UDNHV5HOD\FRLOV&RQWDFWRUV Figure 4-26  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.
RF300 system planning   4.6 EMC Directives  SIMATIC RF300 4-54  System Manual, Release 04/2006, J31069 D0166-U001-A2-7618 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 mm2). • 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 (EBS), the power components and non-power components must be combined. • The equipotential bonding conductors of the separate modules must lead directly to the equipotential bonding strip.  &DELQHW &DELQHW,QFRUUHFW3RZHUVXSSO\'ULYH'HYLFH3/&(%6'HYLFH'HYLFH,QFRUUHFW Figure 4-27  Equipotential bonding (EBS = Equipotential bonding strip) 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 shock voltages in the event of equipment faults whereas equipotential bonding prevents the occurrence of differences in potential.
 RF300 system planning  4.6 EMC Directives SIMATIC RF300 System Manual, Release 04/2006, J31069 D0166-U001-A2-7618  4-55 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 HF-proof shield contact is necessary   Figure 4-28  Cable shielding
RF300 system planning   4.6 EMC Directives  SIMATIC RF300 4-56  System Manual, Release 04/2006, J31069 D0166-U001-A2-7618 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.  Cable tie5HPRYHSDLQW Figure 4-29  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.  6KLHOGWXUQHGXSVLGHGRZQWKURXJKrDQGFRQQHFWHGWRFRQQHFWRUKRXVLQJ5XEEHUVOHHYH Figure 4-30  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.
 SIMATIC RF300 System Manual, Release 04/2006, J31069 D0166-U001-A2-7618  5-1 Readers  55.1 5.1 Overview 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).
Readers   5.2 RF310R with IQ-Sense interface  SIMATIC RF300 5-2  System Manual, Release 04/2006, J31069 D0166-U001-A2-7618 5.2 5.2 RF310R with IQ-Sense interface 5.2.1  Features  Reader RF310R  Features Design  (1) IQ-Sense interface (2) Operating indicator Field of application  Identification tasks on small assembly lines in harsh industrial environments Read/write distance to transponder  max. 30 mm     Data transmission rate  • Read: approx. 50 bytes/s • Write: approx. 40 bytes/s  5.2.2  Display elements of the RF310R reader with IQ-Sense interface  Table 5-1  Display elements of the reader Color  Meaning Green  Operating voltage available yellow  Transponder present red  Errors  5.2.3  Ensuring reliable data exchange The "center point" of the transponder must be situated within the transmission window.
 Readers  5.2 RF310R with IQ-Sense interface SIMATIC RF300 System Manual, Release 04/2006, J31069 D0166-U001-A2-7618  5-3 5.2.4  Metal-free area The RF310R can be flush-mounted in metal. Please allow for a possible reduction in the field data values.  DDDD6,0$7,&5)5 Figure 5-1  Metal-free area for RF310R To avoid any impact on the field data, the distance a should be ≥ 20 mm. 5.2.5  Minimum distance between RF310R readers  ุPP0LQLPXPGLVWDQFHEHWZHHQ5)5DQG5)5' ''5)56,0$7,&5)56,0$7,&5)56,0$7,& Figure 5-2  Minimum distance between RF310R readers
Readers   5.2 RF310R with IQ-Sense interface  SIMATIC RF300 5-4  System Manual, Release 04/2006, J31069 D0166-U001-A2-7618 5.2.6  Technical data for RF310R reader with IQ-Sense interface Table 5-2  Technical data for RF310R reader with IQ-Sense interface Inductive interface to the transponder Transmission frequency for power/data  13.56 MHz Interface to SIMATIC S7-300 Required master module RFID channels (RF310R) Mixed operation with other profiles IQ-Sense, 2-wire non-polarized 8-IQ-Sense (6ES7 338-7XF00-0AB0) max. 2 per master module,  max. 4 Opto-BEROs, 1x SIMATIC RF310R Cable length between reader and communication module Max. 50 m (unshielded cable) Read/write distances of reader  See RF310R field data Minimum distance between two RF310R readers  ≥ 400 mm Data transfer rate for read/write device  Reading Writing  Approx. 50 bytes/s Approx. 40 bytes/s Passing speed Reading Writing  Approx. 0.8 m/s (2 bytes) Approx. 0.8 m/s (2 bytes) Function  Read, write, initialize transponder Multi-tag  no Voltage supply   via IQ-Sense master module 24 V DC Display elements  2-color LED (operating voltage, presence, error) Plug connector  M12 (4-pin) Enclosure Dimensions (in mm) Color Material  55 x 75 x 30 (without M12 enclosure connector)Anthracite Plastic PA 12 Fixing  4 x M5 screws Ambient temperature  during operations  during transport and storage  -25°C to +70°C -40°C to +85°C Degree of protection to 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 IP65 50 g 1 g (9 to 200 Hz) 1.5 g (200 to 500 Hz) Weight  Approx. 200 g MTBF (Mean Time Between Failures) in years  153,5 Approvals  Radio to R&TTE guidelines EN 300 330, EN 301 489, CE, FCC
 Readers  5.2 RF310R with IQ-Sense interface SIMATIC RF300 System Manual, Release 04/2006, J31069 D0166-U001-A2-7618  5-5 5.2.7  FCC information Siemens SIMATIC RF300 with IQ-Sense interface FCC ID: NXW-RF310R-IQ 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. (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. 5.2.8  Ordering data of RF310R with IQ-Sense interface  RF310R  Order No. With IQ-Sense interface  for ET 200M to SIMATIC S7-300 IP65, -25° to +70°C, 71 x 75 x 30 (L x W x H in mm), with integrated  antenna, max. limit distance: 30 mm (depending on transponder) 6GT2801-0AA00
Readers   5.2 RF310R with IQ-Sense interface  SIMATIC RF300 5-6  System Manual, Release 04/2006, J31069 D0166-U001-A2-7618 5.2.9  Dimension drawing   6,0$7,&5)5 Figure 5-3  Dimension drawing for RF310R
 Readers  5.3 RF310R with RS 422 interface SIMATIC RF300 System Manual, Release 04/2006, J31069 D0166-U001-A2-7618  5-7 5.3 5.3 RF310R with RS 422 interface 5.3.1  Features  Reader RF310R  Features Structure  (1) RS 422 interface (2) Operating indicator Field of application  Identification tasks on small assembly lines in harsh industrial environments Read/write distance to transponder  max. 30 mm     Data transmission rate  • Read: approx. 3100 bytes/s • Write: approx. 3100 bytes/s  5.3.2  Display elements of the RF310R reader with RS 422 interface  Table 5-3  Display elements of the reader Color  Meaning Green  Operating voltage available yellow  Transponder present red  Errors  5.3.3  Ensuring reliable data exchange The "center point" of the transponder must be situated within the transmission window.
Readers   5.3 RF310R with RS 422 interface  SIMATIC RF300 5-8  System Manual, Release 04/2006, J31069 D0166-U001-A2-7618 5.3.4  Metal-free area The RF310R can be flush-mounted in metal. Please allow for a possible reduction in the field data values.  DDDD6,0$7,&5)5 Figure 5-4  Metal-free area for RF310R To avoid any impact on the field data, the distance a should be ≥ 20 mm. 5.3.5  Minimum distance between RF310R readers  ุPP0LQLPXPGLVWDQFHEHWZHHQ5)5DQG5)5' ''5)56,0$7,&5)56,0$7,&5)56,0$7,& Figure 5-5  Minimum distance between RF310R readers
 Readers  5.3 RF310R with RS 422 interface SIMATIC RF300 System Manual, Release 04/2006, J31069 D0166-U001-A2-7618  5-9 5.3.6  Technical data of the RF310R reader with RS 422 interface Table 5-4  Technical data of the RF310R reader with RS 422 interface Inductive interface to the transponder Transmission frequency for power/data  13.56 MHz Antenna  Integrated Interface to communication module  RS 422 (3964R protocol) Baud rate  19200 baud, 57600 baud, 115200 baud Cable length between reader and communication module Max. 120 m Data cable length max. 1000 m  (shielded cable) Read/write distances of reader  See RF310R field data Minimum distance between two RF310R readers  ≥ 400 mm Maximum data transfer rate from reader to transponder (Tag) Reading Writing   Approx. 3100 bytes/s Approx. 3100 bytes/s Functions  Initialize/read/write transponder Scan status and diagnostics information Switch antenna on/off Repeat command Scan transponder serial numbers Voltage supply   24 V DC, 30 mA typ. Display elements  2-color LED (operating voltage, presence, error) Plug connector  M12 (8-pin) Enclosure Dimensions (in mm) Color Material  55 x 75 x 30 (without M12 device connector) Anthracite Plastic PA 12 Fixing  4 x M5 screws Ambient temperature  during operations  during transport and storage  -25 °C to +70 °C -40 °C to +85 °C Degree of protection to 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 7 M2 IP65  50 g 1 g (9 to 200 Hz) 1.5 g (200 to 500 Hz) Weight  Approx. 200 g MTBF (Mean Time Between Failures) in years  169,9 Approvals  Radio to R&TTE guidelines EN 300 330, EN 301489, CE, FCC
Readers   5.3 RF310R with RS 422 interface  SIMATIC RF300 5-10  System Manual, Release 04/2006, J31069 D0166-U001-A2-7618 5.3.7  FCC information Siemens SIMATIC RF310R with RS 422 interface FCC ID: NXW-RF310R 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. (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. 5.3.8  Ordering data for RF310R with RS 422 interface  RF310R  Order No. With RS 422 interface (3964R) for ASM 475/452/456/473 (S7-300, PROFIBUS) IP 65, -25 °C to +70 °C, 55 x 75 x 30 (L x B x H in mm), with integrated antenna, max. limit distance 30 mm (depending on transponder type) 6GT2801-1AA10
 Readers  5.3 RF310R with RS 422 interface SIMATIC RF300 System Manual, Release 04/2006, J31069 D0166-U001-A2-7618  5-11 5.3.9  Dimension drawing   6,0$7,&5)5 Figure 5-6  Dimension drawing for RF310R
Readers   5.4 RF340R  SIMATIC RF300 5-12  System Manual, Release 04/2006, J31069 D0166-U001-A2-7618 5.4 5.4 RF340R 5.4.1  Features  Reader RF340R  Features Design  (1) RS 422 interface (2) Operating indicator Application  Identification tasks on assembly lines in harsh industrial environments Read/write distance to transponder  max. 60 mm    Data transmission rate  • Read: approx. 3,100 bytes/s • Write: approx. 3,100 bytes/s  5.4.2  Display elements of the RF340R reader  Table 5-5  Display elements of the reader Color  Meaning Green  Operating voltage available yellow  Transponder present red  Errors  5.4.3  Ensuring reliable data exchange The "center point" of the transponder must be situated within the transmission window.
 Readers  5.4 RF340R SIMATIC RF300 System Manual, Release 04/2006, J31069 D0166-U001-A2-7618  5-13 5.4.4  Metal-free area The RF340R can be flush-mounted in metal. Please allow for a possible reduction in the field data values.  6,0$7,&DDDD5)5 Figure 5-7  Metal-free area for RF340R  To avoid any impact on the field data, the distance a should be ≥ 20 mm.  5.4.5  Minimum distance between RF340R readers ุPP0LQLPXPGLVWDQFHIURP5)5WR5)5' ''5)55)5 5)5 Figure 5-8  Minimum distance between RF340R readers
Readers   5.4 RF340R  SIMATIC RF300 5-14  System Manual, Release 04/2006, J31069 D0166-U001-A2-7618 5.4.6  Technical data of the RF340R reader Table 5-6  Technical data of the RF340R reader Inductive interface to the transponder Transmission frequency for power/data  13.56 MHz Antenna  Integrated Interface to communication module  RS 422 (3964R protocol) Baud rate  19200 baud, 57600 baud, 115200 baud Cable length between reader and communication module Max. 120 m Data cable length max. 1000 m  (shielded cable) Read/write distances of reader  See RF340R field data Minimum distance between two RF340R readers  ≥ 500 mm Maximum data transfer rate reader - transponder (tag) Reading Writing   Approx. 3100 bytes/s Approx. 3100 bytes/s Functions  Initialize/read/write transponder Scan status and diagnostics information Switch antenna on/off Repeat command Scan transponder serial numbers Voltage supply  24 V DC, 110 mA typ. Display elements  2-color LED (operating voltage, presence, error) Plug connector  M12 (8-pin) Enclosure Dimensions (in mm) Color Material  75 x 75 x 40 (without M12 device connector) Anthracite Plastic PA 12 Fixing  2 x M5 screws Ambient temperature  during operations  during transport and storage  -25 °C to +70 °C -40 °C to +85 °C Degree of protection to 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 7 M2 IP65  50 g 1 g (9 to 200 Hz) 1.5 g (200 to 500 Hz) Weight  Approx. 250 g MTBF (Mean Time Between Failures) in years  140,3 Approvals  Radio to R&TTE guidelines EN 300 330, EN 301489, CE, FCC
 Readers  5.4 RF340R SIMATIC RF300 System Manual, Release 04/2006, J31069 D0166-U001-A2-7618  5-15 5.4.7  FCC information Siemens SIMATIC RF340R FCC ID: NXW-RF340R 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. (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. 5.4.8  Ordering data for RF340R  Product description  Order No. Reader RF340R With RS 422 interface (3964R) for ASM 475/452/473 (S7-300, PROFIBUS); IP65; -25 °C … +70 C, dimensions 75 x 91 x 41 (L x W x H  in mm); with integrated antenna; max. limit distance 65 mm (depending on transponder) 6GT2801-2AA10
Readers   5.4 RF340R  SIMATIC RF300 5-16  System Manual, Release 04/2006, J31069 D0166-U001-A2-7618 5.4.9  Dimension drawing  Figure 5-9  Dimension drawing for RF340R
 Readers  5.5 RF350R SIMATIC RF300 System Manual, Release 04/2006, J31069 D0166-U001-A2-7618  5-17 5.5 5.5 RF350R 5.5.1  Features  Reader RF350R  Features Design  (1) RS 422 interface (2) Operating indicator (3) Antenna connection Application  Identification tasks in assembly lines in harsh industrial environments; for external antennas (ANT 1, ANT 18, ANT 30) Interfaces with which the RF350R reader can be operated ASM 452, ASM 456, ASM 473, ASM 475 Read/write distance to transponder max. 60 mm    Data transmission rate  • Read: approx. 3,100 bytes/s • Write: approx. 3,100 bytes/s  5.5.2  Display elements of the RF350R reader  Table 5-7  Display elements of the reader Color  Meaning Green  Operating voltage available yellow  Transponder present red  Errors  5.5.3  Ensuring reliable data exchange The "center point" of the transponder must be situated within the transmission window.
Readers   5.5 RF350R  SIMATIC RF300 5-18  System Manual, Release 04/2006, J31069 D0166-U001-A2-7618 5.5.4  Metal-free area The RF350R reader does not have an internal antenna. Operation is not affected by mounting on metal or flush-mounting in metal. For information about the metal-free area required by the external antennas, refer to the corresponding section of the chapter Antennas. 5.5.5  Technical data of the RF350R reader Table 5-8  Technical data of the RF350R reader Inductive interface to the transponder Transmission frequency for power/data  13.56 MHz Antenna  External, plug-in MOBY E antennas ANT 1,  ANT 18 or ANT 30 Interface to communication module  RS 422 (3964R protocol) Baud rate  19200 baud, 57600 baud, 115 baud Cable length between reader and communication module Max. 120 m Data cable length max. 1000 m  (shielded cable) Read/write distances of reader  See field data Minimum distance between two antennas  See field data Maximum data transfer rate reader - transponder (tag) Reading Writing   Approx. 3100 bytes/s Approx. 3100 bytes/s Functions  Initialize/read/write transponder Scan status and diagnostics information Switch antenna on/off Repeat command Scan transponder serial numbers Voltage supply  24 V DC, 110 mA typ. Display elements  2-color LED (operating voltage, presence, error) Plug connector  M12 (8-pin); M8 (4-pin) for antenna Enclosure Dimensions (in mm) Color Material  75 x 75 x 40 (without M12 device connector) Anthracite Plastic PA 12 Fixing  2 x M5 screws Ambient temperature  during operations  during transport and storage  -25 °C to +70 °C -40 °C to +85 °C Degree of protection to 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 7 M2 IP65  50 g 1 g (9 to 200 Hz) 1.5 g (200 to 500 Hz) Weight  Approx. 250 g MTBF (Mean Time Between Failures) in years  140,3 Approvals  Radio to R&TTE guidelines EN 300 330, EN 301489, CE, FCC
 Readers  5.5 RF350R SIMATIC RF300 System Manual, Release 04/2006, J31069 D0166-U001-A2-7618  5-19 5.5.6  FCC information Siemens SIMATIC RF350R FCC ID: NXW-RF350R 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. (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. 5.5.7  Ordering data for RF350R  Product description  Order No. Reader RF350R With RS 422 interface (3964R) for ASM 475/452/473 (S7-300, PROFIBUS); IP65; - 25 °C … +70 C, dimensions 75 x 75 x 40 (L x W x H  in mm); for plug-in antennas from the MOBY E product range; max. limit distance 65 mm (depending on transponder) 6GT2801-4AA10
Readers   5.5 RF350R  SIMATIC RF300 5-20  System Manual, Release 04/2006, J31069 D0166-U001-A2-7618 5.5.8  Dimension drawing   Figure 5-10  RF350R dimension drawing
 Readers  5.5 RF350R SIMATIC RF300 System Manual, Release 04/2006, J31069 D0166-U001-A2-7618  5-21 5.5.9  Antennas 5.5.9.1  Features You can use the following plug-in antennas from the MOBY E product spectrum for the RF350R reader:  Antenna  Product photo  Limit distance Sg in mm 1) Dimensions (L x B x H)  in mm Suitable for dynamic operation MOBY E ANT 1    to 60  75 x 75 x 20  Yes MOBY E ANT 18    to 13  Ø M18 x 50  no MOBY E ANT 30    to 22  Ø M30 x 58  no 1) depending on the transponder used
Readers   5.5 RF350R  SIMATIC RF300 5-22  System Manual, Release 04/2006, J31069 D0166-U001-A2-7618 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 tag during operation. 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. With the RF320T and RF340T tags, communication with the data storage unit is only possible in static mode. 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. With the RF320T, RF340T and RF350T tags, communication with the data storage unit is only possible in static mode.
 Readers  5.5 RF350R SIMATIC RF300 System Manual, Release 04/2006, J31069 D0166-U001-A2-7618  5-23 5.5.9.2  Ensuring reliable data exchange The "center point" of the transponder must be situated within the transmission window. 5.5.9.3  Metal-free area The antennas ANT1, ANT18 and ANT30 can be flush-mounted on metal. Please allow for a possible reduction in the field data values. 0HWDOIUHHDUHDIRUIOXVKPRXQWLQJQRWDPHWDOOLFEDVH0HWDOa = 40 mmh > 20 mmaaaah > 20 mm Figure 5-11  Metal-free area for ANT 1  1RWH,IWKHPHWDOIUHHDUHDLVQRWREVHUYHGWKHOLPLWDQGRSHUDWLQJGLVWDQFHVDUHUHGXFHG0HWDOIUHHDUHDIRUIOXVKPRXQWLQJDED PPE PP$1702%<($17D Figure 5-12  Metal-free area for ANT 18
Readers   5.5 RF350R  SIMATIC RF300 5-24  System Manual, Release 04/2006, J31069 D0166-U001-A2-7618 DED PPE PPD02%<($173ODQYLHZ6LGHYLHZ Figure 5-13  Metal-free area for ANT 30
 Readers  5.5 RF350R SIMATIC RF300 System Manual, Release 04/2006, J31069 D0166-U001-A2-7618  5-25 5.5.9.4  Minimum distance between antennas 7KHUHDGHUHOHFWURQLFVFDQEHPRXQWHGGLUHFWO\DORQJVLGHHDFKRWKHU$17E'PPD!B$17$17'PP!B'DE' Figure 5-14  Minimum distance for ANT 1   Figure 5-15  Minimum distance for ANT 18
Readers   5.5 RF350R  SIMATIC RF300 5-26  System Manual, Release 04/2006, J31069 D0166-U001-A2-7618  Figure 5-16  Minimum distance for ANT 30
 Readers  5.5 RF350R SIMATIC RF300 System Manual, Release 04/2006, J31069 D0166-U001-A2-7618  5-27 5.5.9.5  Technical data for antennas Table 5-9  Technical data for antennas ANT1, ANT18 and ANT30 Antenna  ANT1  ANT18  ANT30 Read/write distance antenna to transponder (Sg) max 100 mm  15 mm  24 mm Enclosure dimensions in mm  75 x 75 x 20 (L x W x H) M18 x 1.0 x 55  (Ø x thread x L) M30 x 1.5 x 58  (Ø x thread x L) Color  Anthracite  Pale turquoise Material  Plastic PA 12  Plastic Krastin Plug connection  4-pin (pins on antenna side) Antenna cable lengths  3 m Type of protection to EN 60529  IP 67  IP 67 (at the front) Shock-resistant acc. to EN 60721-3-7, Class 7M2 Vibration-resistant to EN 60721-3-7, Class 7M2  50 g 1)  20 g ( 3 to 500 Hz) 1) Attachment of the antenna  2 x M5 screws  2 plastic nuts M18 x 1.0 2 plastic nuts M30 x 1.5 Ambient temperature • During operation • Transport and storage  • -25 °C to +70 °C • -40 °C to +85 °C MTBF (at +40 °C)  2,5 x 105 hours Approx. weight  80 g  120 g  150 g 1) Warning: The values for shock and vibration are maximum values and must not be applied continuously.  5.5.9.6  Ordering data for antennas  Product description  Order No. MOBY E, ANT 1  6GT2398-1CB00 MOBY E, ANT 18  6GT2398-1CA00 MOBY E, ANT 30  6GT2398-1CD00
Readers   5.5 RF350R  SIMATIC RF300 5-28  System Manual, Release 04/2006, J31069 D0166-U001-A2-7618 5.5.9.7  Dimension drawings for antennas  &DEOHOHQJWKP0LQLPXPEHQGLQJUDGLXV$17FDQEHFRQQHFWHGDWUHDGHUHQG20 mm Figure 5-17  Dimension drawing for ANT 1  &DEOHOHQJWKP0LQLPXPEHQGLQJUDGLXV$17FDQEHFRQQHFWHGDWUHDGHUHQG$QWHQQDKHDG6LGHYLHZRIDQWHQQDKHDG$QWHQQDHQG)LQHWKUHDGSLWFKPP002%<($17 Figure 5-18  Dimension drawing for ANT 18  &DEOHOHQJWKP0LQLPXPEHQGLQJUDGLXV$17FDQEHFRQQHFWHGDWUHDGHUHQG$QWHQQDKHDG6LGHYLHZRIDQWHQQDKHDG$QWHQQDHQG)LQHWKUHDGSLWFKPP0$1702%<( Figure 5-19  Dimension drawing for ANT 30
 SIMATIC RF300 System Manual, Release 04/2006, J31069 D0166-U001-A2-7618  6-1 Transponders  66.1 6.1 Overview Transponders consist predominantly of logic, FRAM and/or EEPROM.  If a transponder moves into the transmission window of the reader, the necessary power for all of the circuit components is generated and monitored by the power supply unit. The pulse-coded 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 logic, which also manages the various memories. 6.2 6.2 RF320T 6.2.1  Features  Transponder RF320T  Features Application  Identification tasks on small assembly lines in harsh industrial environments Memory  Read-only area (4 bytes UID)  User data area (20 bytes)  Read/write range  See section Field data    Mounting on metal  Not possible Recommended distance from metal ≥ 20 mm
Transponders   6.2 RF320T  SIMATIC RF300 6-2  System Manual, Release 04/2006, J31069 D0166-U001-A2-7618 6.2.2  Metal-free area Mounting of RF320T on metal Direct mounting of the RF320T on metal is not allowed.  The following figures show the minimum distance between the RF320T and metal: 1RQPHWDO0HWDOK!PP'DWDPHPRU\ Figure 6-1  Mounting of an RF320T on metal with spacer Flush-mounting of RF320T in metal D!PPK!PP'DWDPHPRU\ 0HWDO1RQPHWDO Figure 6-2  Flush-mounting of RF320T in metal with spacer  At lower values, the field data change significantly, resulting in a reduced range.
 Transponders  6.2 RF320T SIMATIC RF300 System Manual, Release 04/2006, J31069 D0166-U001-A2-7618  6-3 6.2.3  Technical data Table 6-1  Technical data for RF320T  Memory size  20 bytes EEPROM (r/w), 4 bytes UID (ro) Memory organization  Byte-oriented access, write protection possible in 4-byte blocks MTBF (Mean Time Between Failures) in years  1871 Read cycles  Unlimited Write cycles, min.  50 000 at ≤ 40 °C, typical  > 100 000 Data retention time  > 10 years (at < +40 °C) Read/write distance  max. 18 mm (see field data) Energy source  Inductive power transmission Shock/vibration-resistant to EN 60721-3-7, Class 7 M3 100 g/20 g Torsion and bending load  not permissible Fixing  Adhesive/M3 screws Recommended spacing from metal  > 20 mm Degree of protection per EN 60529  • IP67/IPX9K Housing • Dimensions • Color/material Button • Ø 27 mm x 4 mm • Black/epoxy resin Ambient temperature • During operation • Storage and transport   • -25 to +85 °C • -40 to +125 °C Weight  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.  6.2.4  Ordering data  Transponder RF320T  Order number: Transponder RF320T, button, 20 byte EEPROM, IP 67, -25 °C to +85 °C, d = 27 mm x 4 mm 6GT2800-1CA00
Transponders   6.2 RF320T  SIMATIC RF300 6-4  System Manual, Release 04/2006, J31069 D0166-U001-A2-7618 6.2.5  Dimension drawing Dimensions of the device   Dimensions in millimeters
 Transponders  6.3 RF340T SIMATIC RF300 System Manual, Release 04/2006, J31069 D0166-U001-A2-7618  6-5 6.3 6.3 RF340T 6.3.1  Features  Transponder RF340T  Features Application  Identification tasks on small assembly lines in harsh industrial environments Memory  Read-only area (4 bytes UID)  Read/write memory (8 KB) OTP 1)  memory (20 bytes)  Read/write range  See section Field data    Mounting on metal  Direct mounting on metal is possible. 1) OTP: (One Time Programmable)
Transponders   6.3 RF340T  SIMATIC RF300 6-6  System Manual, Release 04/2006, J31069 D0166-U001-A2-7618 6.3.2  Metal-free area Direct mounting of the RF340T on metal is permitted.  Mounting of RF340T on metal 0HWDO Figure 6-3  Mounting of RF340T on metal  Flush-mounting of RF340T in metal: DD0HWDO Figure 6-4  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.
 Transponders  6.3 RF340T SIMATIC RF300 System Manual, Release 04/2006, J31069 D0166-U001-A2-7618  6-7 6.3.3  Technical data Table 6-2  Technical data for RF340T  Memory size  8 KB Memory organization  Blocks of 8 bits / 1 byte Memory configuration • Serial number (UID) • Application memory • OPT memory  • 4-byte (fixed code) • 8189 bytes r/w • 20-byte OTP 1)  memory Storage technology  FRAM / EEPROM MTBF (Mean Time Between Failures) in years  1201 Write cycles, at +40°C  Virtually unlimited (>1010) Read cycles  Unlimited Transmission rate • Read • Write 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 Data retention  > 10 years Read/write distance  0 to max. 60 mm (depends on reader used) Multitag capability  max. 4 transponders Recommended spacing from metal  can be directly mounted on metal Power supply  Inductive, without battery Degree of protection to EN 60529 Shock to EN 60721-3-7 Vibration to EN 60721-3-7 Torsion and bending load IP68/IPX9K 50 g 20 g Not permitted permanently Housing dimensions Color Material Fixing 48 x 25 x 15 mm (L x W x H) Anthracite PA12 2 screws (M3) Ambient temperature • During operation • Storage and transport  -25°C to +85°C -40°C to +85°C Weight  Approx. 25 g 1) OTP: (One Time Programmable)  6.3.4  Ordering data  Transponder RF340T  Order number: Transponder RF340T, 8 KB FRAM, IP 68, -25 °C to +85 °C, 48 x 25 x 15 mm (L x W x H) 6GT2800-4BB00
Transponders   6.3 RF340T  SIMATIC RF300 6-8  System Manual, Release 04/2006, J31069 D0166-U001-A2-7618 6.3.5  Dimension drawing Dimensions of the device 6,(0(166,0$7,&5)7  Dimensions in millimeters
 Transponders  6.4 RF350T SIMATIC RF300 System Manual, Release 04/2006, J31069 D0166-U001-A2-7618  6-9 6.4 6.4 RF350T 6.4.1  Features  Transponder RF350T  Features Application  Identification tasks on small assembly lines in harsh industrial environments Memory  Read-only area (4 bytes UID)  Read/write memory (32 KB)  OTP 1)  memory (20 bytes) Read/write range  See section Field data    Mounting on metal  Direct mounting on metal is possible. 1) OTP: (One Time Programmable)
Transponders   6.4 RF350T  SIMATIC RF300 6-10  System Manual, Release 04/2006, J31069 D0166-U001-A2-7618 6.4.2  Metal-free area Direct mounting of the RF350T on metal is permitted.  Mounting of RF350T on metal  Figure 6-5  Mounting of RF350T on metal Flush-mounting of RF350T in metal:  Figure 6-6  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.
 Transponders  6.4 RF350T SIMATIC RF300 System Manual, Release 04/2006, J31069 D0166-U001-A2-7618  6-11 6.4.3  Technical data Table 6-3  Technical data for RF350T Memory size  32 KB Memory organization  Blocks of 8 bits / 1 byte Memory configuration • Serial number (UID) • Application memory • OTP 1)  memory  • 4-byte (fixed code) • 32765 bytes r/w • 20 bytes Storage technology  FRAM / EEPROM MTBF (Mean Time Between Failures) in years  1201 Write cycles, at +40°C  Virtually unlimited (>1010) Read cycles  Practically unlimited (>1010) Transmission rate • read • Write 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 Data retention  > 10 years Read/write distance  0 to max. 60 mm (depends on reader used) Multitag capability  max. 4 transponders Recommended spacing from metal  can be directly mounted on metal Power supply  Inductive, without battery Degree of protection to EN 60529 Shock to EN 60721-3-7 Vibration to EN 60721-3-7 Torsion and bending load IP68 50 g 20 g Not permitted permanently Housing dimensions Color Material Fixing 50 x 50 x 20 mm (L x W x H) Anthracite PA12 2 screws M4 Ambient temperature • During operation • Storage and transport  -25°C to +85°C -40°C to +85°C Weight  Approx. 25 g 1) OTP: (One Time Programmable)  6.4.4  Ordering data  RF350T  Order number: 32 KB FRAM (read/write) + 4 byte EEPROM (read only), IP 68, -25 °C to +85 °C, dimensions 50 x 50 x 20 (LxWxH in mm) 6GT2800-5BD00
Transponders   6.4 RF350T  SIMATIC RF300 6-12  System Manual, Release 04/2006, J31069 D0166-U001-A2-7618 6.4.5  Dimension drawing Dimension drawing of RF350T transponder 7KHWUDQVSRQGHUFDQEHPRXQWHGDVVKRZQZLWKWKHIL[LQJIUDPH,QVWDOODWLRQGLDJUDP)L[LQJIUDPH7UDQVSRQGHU Figure 6-7  RF350T dimension drawing
 Transponders  6.5 RF360T SIMATIC RF300 System Manual, Release 04/2006, J31069 D0166-U001-A2-7618  6-13 6.5 6.5 RF360T 6.5.1  Features  Transponder RF360T  Features Application  Identification tasks on small assembly lines in harsh industrial environments Memory  Read-only area (4 bytes UID)  Read/write memory (8 KB)  OTP 1)  memory (20 bytes) Read/write range  See section Field data   Mounting on metal  Not possible; recommended distance from metal ≥ 20 mm 1) OTP. (One Time Programmable)
Transponders   6.5 RF360T  SIMATIC RF300 6-14  System Manual, Release 04/2006, J31069 D0166-U001-A2-7618 6.5.2  Metal-free area 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.  Mounting of RF360T on metal K0HWDO1RQPHWDO'DWDVWRUDJHXQLW Figure 6-8  Mounting of RF360T with spacer The standard value for h is ≥ 20 mm. Flush-mounting of RF360T in metal: 1RQPHWDO0HWDODD'DWDVWRUDJHXQLWK Figure 6-9  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.
 Transponders  6.5 RF360T SIMATIC RF300 System Manual, Release 04/2006, J31069 D0166-U001-A2-7618  6-15 Dimensions of spacer and fixing pocket for RF360T +ROGLQJFOLS7KHVSDFHUFDQEHGLUHFWO\PRXQWHGRQPHWDO,QFRPELQDWLRQZLWKWKHIL[LQJSRFNHWDQRQPHWDOGLVWDQFHRIPPUHVXOWVEHWZHHQWKHWUDQVSRQGHUDQGPHWDO0RXQWLQJ:LWKRUVFUHZV0:LWKUXEEHUVRQWKHKROGLQJFOLSVHJRQPHVKER[HV:LWKFDEOHWLHVRQWKHKROGLQJFOLSVHJRQPHVKER[HV(DUV+ROGLQJNQREV'LPHQVLRQVNHWFK6SDFHU*7$$ )L[LQJSRFNHW*7$%7KHIL[LQJSRFNHWLVDWWDFKHGWRDQRQPHWDOEDVHE\WKHHDUV7KLVFDQEHDFKLHYHGZLWK6FUHZVLQWKHKROHVSURYLGHG5LYHWVLQWKHKROHVSURYLGHG1DLOVWKURXJKWKHKROHV7DFNVWKURXJKWKHSODVWLFRIWKHHDUV3XVKLQJLQWRWKHVSDFHUV7KHHDUVFDQEHPRYHGWKURXJKXSWRr7KHWUDQVSRQGHULVLQVHUWHGLQWRWKHIL[LQJSRFNHW/RFNLQJLVYLDWKHKROGLQJNQREVLQWKHIL[LQJSRFNHW 'DWDPHPRU\6SDFHU)L[LQJSRFNHW7KHWUDQVSRQGHULVLQVHUWHGLQWRWKHIL[LQJSRFNHW7KHHDUVDUHPRYHGE\rDQGLQVHUWHGLQWRWKHVSDFHU7KHIL[LQJSRFNHWPXVWEHDOLJQHGVXFKWKDWLWFRYHUVWKHWUDQVSRQGHUVHH)LJXUH/RFNLQJLVDXWRPDWLF7UDQVSRQGHUZLWKIL[LQJSRFNHW 7UDQVSRQGHUZLWKIL[LQJSRFNHWDQGVSDFHUFRQQHFWHGWRJHWKHU0DWHULDO3$5HDVVHPEO\LQVWUXFWLRQV6,(0(16 Figure 6-10  Dimensions of spacer and fixing pocket for RF360T
Transponders   6.5 RF360T  SIMATIC RF300 6-16  System Manual, Release 04/2006, J31069 D0166-U001-A2-7618 6.5.3  Technical data Table 6-4  Technical data for RF360T Memory size  8 KB Memory organization  Blocks of 8 bits / 1 byte Memory configuration • Serial number (UID) • Application memory • OTP 1)  memory  • 4-byte (fixed code) • 8189 bytes r/w • 20 bytes Storage technology  FRAM / EEPROM MTBF (Mean Time Between Failures) in years  1201 Write cycles, at +40°C  Virtually unlimited (>1010) Read cycles  Practically unlimited (>1010) Transmission rate • Read • Write 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 Data retention  > 10 years Read/write distance  0 to max. 60 mm (depends on reader used) Multitag capability  max. 4 transponders Recommended spacing from metal  ≥ 20 mm; e.g. using spacer 6GT2190-0AA00 in conjunction with fixing pocket 6GT2190-0AB00 Power supply  Inductive, without battery Degree of protection to EN 60529 Shock to EN 60721-3-7 Vibration to EN 60721-3-7 Torsion and bending load IP67 50 g 20 g Not permitted permanently Housing dimensions Color Material Fixing 85.8 x 54.8 x 2.5 mm (L x W x H) Anthracite PA12 2 screws (M3) or with fixing pocket 6GT2190-0AB00 Ambient temperature • During operation • Storage and transport  -25°C to +75°C -40°C to +85°C Weight  Approx. 25 g 1) OTP: (One Time Programmable) 6.5.4  Ordering data  RF360T  Order number 8 KB FRAM (read/write) + 4 byte EEPROM (read only), IP 67, -25 °C to +75 °C, dimensions 85.8 x 54.8 x 2.5 (LxWxH in mm) 6GT2800-4AC00
 Transponders  6.5 RF360T SIMATIC RF300 System Manual, Release 04/2006, J31069 D0166-U001-A2-7618  6-17 6.5.5  Dimension drawing Dimension drawing of RF360T transponder  5 Figure 6-11  Dimensions of RF360T
Transponders   6.6 Memory configuration of the RF300 tags  SIMATIC RF300 6-18  System Manual, Release 04/2006, J31069 D0166-U001-A2-7618 6.6 6.6 Memory configuration of the RF300 tags 5)75)75)75)7E\WHV8,'UHDGRQO\E\WHV8VHUDUHDUHDGZULWH)5$08VHUDUHDUHDGZULWH((3520..273QRWZLWK,46HQVH))))))))))))&))&))))&))))))3K\VLFDOO\LGHQWLFDOPHPRU\:KHQWKH273DUHDLVXVHGWKHFRUUHVSRQGLQJXVHUDUHD))))FDQQRORQJHUEHPRGLILHGUHDGRQO\PD[EORFNVRIE\WHVHDFK5)75)75)7 Figure 6-12  Memory configuration of the RF300 tags The memory configuration of an RF300 tag always comprises an EEPROM memory 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. A high-speed FRAM memory (read/write) is available as an option. Depending on the tag type, this is 8 KB (0-1FFC) or 32 KB (0-7FFC) in size. 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.   Notice This operation is not reversible.
 Transponders   6.6 Memory configuration of the RF300 tags SIMATIC RF300 System Manual, Release 04/2006, J31069 D0166-U001-A2-7618  6-19   Note The OTP area cannot be used for the IQ-Sense reader variant. When the OTP area is used, it must also be ensured that the blocks are write-protected starting from Block 0consecutively. 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 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 a write function, it is therefore recommended that FRAM tags are used (e.g. RF340T, RF350T, RF360T).
Transponders   6.6 Memory configuration of the RF300 tags  SIMATIC RF300 6-20  System Manual, Release 04/2006, J31069 D0166-U001-A2-7618
 SIMATIC RF300 System Manual, Release 04/2006, J31069 D0166-U001-A2-7618  7-1 Communication modules  77.1 7.1 8xIQ-Sense 7.1.1  Features Field of application The 8xIQ-Sense module is the link between the RF310R with 8xIQ-Sense interface and SIEMENS S7-300 and functions in the same manner as the communication module (interface module). It can be operated centrally in an S7-300 or decentrally in an ET200M.  Figure 7-1  8xIQ-Sense interface module
Communication modules 7.1 8xIQ-Sense  SIMATIC RF300 7-2  System Manual, Release 04/2006, J31069 D0166-U001-A2-7618 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.    LEDs  Labeling  LED status Meaning Green LED per channel 0…7   Has no function here Illuminated Module fault, sensor fault, active teach-in operation, external auxiliary voltage missing  6)60[,46HQVH;)$%;  Red  SF Not illuminated No fault or no active teach-in operation
 Communication modules   7.1 8xIQ-Sense SIMATIC RF300 System Manual, Release 04/2006, J31069 D0166-U001-A2-7618  7-3 7.1.3  Configuration Centralized configuration with SIMATIC S7-300 6,0$7,&5)56,0$7,&5)56,0$7,&5)76,0$7,&5)72WKHUPRGXOHVIURPWKH6UDQJHLQFOXGLQJ[,46HQVH$60FKDQQHO5HDGHUZLWK[,46HQVHLQWHUIDFH5HDGHU5HDGHU7UDQVSRQGHU7UDQVSRQGHU[,46HQVH6 Figure 7-2  RF310R reader with 8xIQ-Sense interface Distributed configuration with ET 200M  6,0$7,&5)56,0$7,&5)56,0$7,&5)76,0$7,&5)72WKHUPRGXOHVIURPWKH6UDQJHLQFOXGLQJ[,46HQVH$60FKDQQHO5HDGHUZLWK[,46HQVHLQWHUIDFH5HDGHU5HDGHU7UDQVSRQGHU7UDQVSRQGHU[,46HQVH(70 Figure 7-3  RF310R reader with 8xIQ-Sense interface
Communication modules 7.1 8xIQ-Sense  SIMATIC RF300 7-4  System Manual, Release 04/2006, J31069 D0166-U001-A2-7618 Pin assignment of RF310R with IQ-Sense interface Table 7-1  Pin assignment of RF310R with IQ-Sense interface Pin  Pin, device end, 4-pin M12  Assignment 1  IQ-Sense 2  Not assigned 3  IQ-Sense    4  Not assigned Configuration of connecting cable from 8xIQ-Sense to RF310R PD[P6/*FRQQHFWRU0VRFNHW5HDGHUVLGH,46HQVHVLGHEURZQEOXH Figure 7-4  Cable and pin assignment of RF300 with IQ-Sense
 Communication modules   7.1 8xIQ-Sense SIMATIC RF300 System Manual, Release 04/2006, J31069 D0166-U001-A2-7618  7-5 7.1.4  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)
Communication modules 7.1 8xIQ-Sense  SIMATIC RF300 7-6  System Manual, Release 04/2006, J31069 D0166-U001-A2-7618 Example Module initial address = 280 I/O address for channel 3: 286 ,46HQVHGHYLFH00ದ00ದ00ದ00ದ00ದ00ದ00ದ00ದ)URQW GRRULQWHULRUFKDQQHO7HUPLQDO&KDQQHODGGUHVVHVLQH[DPSOHIRU,46HQVHGHYLFHV&KDQQHOQRFKDQQHOFKDQQHOFKDQQHOFKDQQHOFKDQQHOFKDQQHOFKDQQHO,4,4,4,4,4,4,4,4/0IRU5),46HQVHGHYLFH,46HQVHGHYLFH,46HQVHGHYLFH,46HQVHGHYLFH,46HQVHGHYLFH,46HQVHGHYLFH,46HQVHGHYLFH5)55)5 Figure 7-5  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.

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