RF300 transponder 6.3 SIMATIC RF320T 6.3 SIMATIC RF320T 6.3.1 Features RF320T Characteristics Field of application Identification tasks on small assembly lines in harsh industrial environments Memory Read-only area (4 bytes UID) Read/write range See Section Field data of RF300 transponders (Page 44) Mounting on metal Not possible: Recommended distance from metal ≥ 20 mm User data area (20 bytes) 6.3.
RF300 transponder 6.3 SIMATIC RF320T 6.3.3 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: 'DWD PHPRU\ K 0HWDO 1RQ PHWDO h > 20 mm Figure 6-2 Mounting of an RF320T on metal with spacer Flush-mounting of RF320T in metal 'DWD PHPRU\ 0HWDO K 1RQ PHWDO D h > 20 mm a > 20 mm Figure 6-3 Flush-mounting of RF320T in metal with spacer At lower values, the field data ch
RF300 transponder 6.3 SIMATIC RF320T 6.3.4 Technical data Table 6- 2 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 1800 Read cycles Unlimited Write cycles, min.
RF300 transponder 6.3 SIMATIC RF320T 6.3.
RF300 transponder 6.4 SIMATIC RF340T 6.4 SIMATIC RF340T 6.4.1 Features Table 6- 3 RF340T Characteristics Field of application Memory Identification tasks on small assembly lines in harsh industrial environments Read-only area (4 bytes UID) Read/write memory (8 KB) OTP 1) memory (20 bytes) 1) Read/write range See Section Field data of RF300 transponders (Page 44) Mounting on metal Direct mounting on metal is possible. OTP: (One Time Programmable) 6.4.
RF300 transponder 6.4 SIMATIC RF340T 6.4.3 Metal-free area Direct mounting of the RF340T on metal is permitted. Mounting of RF340T on metal 0HWDO Figure 6-5 Mounting of RF340T on metal Flush-mounting of RF340T in metal: D D 0HWDO Figure 6-6 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.
RF300 transponder 6.4 SIMATIC RF340T 6.4.
RF300 transponder 6.4 SIMATIC RF340T 6.4.
RF300 transponder 6.5 SIMATIC RF350T 6.5 SIMATIC RF350T 6.5.1 Features RF350T Characteristics Field of 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) 1) Read/write range See Section Field data of RF300 transponders (Page 44) Mounting on metal Direct mounting on metal is possible. OTP: One Time Programmable 6.5.
RF300 transponder 6.5 SIMATIC RF350T 6.5.3 Metal-free area Direct mounting of the RF350T on metal is permitted. Mounting of RF350T on metal Figure 6-8 Mounting of RF350T on metal Flush-mounting of RF350T in metal: Figure 6-9 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.
RF300 transponder 6.5 SIMATIC RF350T 6.5.
RF300 transponder 6.5 SIMATIC RF350T 6.5.
RF300 transponder 6.6 SIMATIC RF360T 6.6 SIMATIC RF360T 6.6.1 Features RF360T Characteristics Field of 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) 1) Read/write range Refer to SectionField data of RF300 transponders (Page 44) Mounting on metal Not possible; recommended distance from metal ≥ 20 mm OTP. One Time Programmable 6.6.
RF300 transponder 6.6 SIMATIC RF360T 6.6.3 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 'DWD VWRUDJH XQLW 0HWDO 1RQ PHWDO K Figure 6-11 Mounting of RF360T with spacer The standard value for h is ≥ 20 mm.
RF300 transponder 6.6 SIMATIC RF360T Dimensions of spacer and fixing pocket for RF360T 'LPHQVLRQ VNHWFK )L[LQJ SRFNHW *7 $% 6SDFHU *7 $$ (DUV +ROGLQJ NQREV +ROGLQJ FOLS 0DWHULDO 3$ 7KH VSDFHU FDQ EH GLUHFWO\ PRXQWHG RQ PHWDO ,Q FRPELQDWLRQ ZLWK WKH IL[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 R
RF300 transponder 6.6 SIMATIC RF360T 6.6.4 Technical data Table 6- 10 Memory size 8 KB Memory organization Blocks of 8 bits/byte-by-byte Memory configuration • Serial number (UID) • Application memory • OTP 1) memory • • • Storage technology FRAM / EEPROM MTBF (Mean Time Between Failures) in years 1200 Write cycles, at +40 °C Virtually unlimited (>1010) Read cycles Virtually unlimited (>1010) Data transmission time • Read • Write With RS422 reader: With IQ-Sense reader: Approx. 0.
RF300 transponder 6.6 SIMATIC RF360T 6.6.
RF300 transponder 6.7 SIMATIC RF370T 6.7 SIMATIC RF370T 6.7.1 Features The SIMATIC RF370T transponder is a passive (i.e. battery-free) data carrier in a square type of construction. RF370T Characteristics Field of application Identification tasks on assembly lines in harsh industrial environments, suitable for larger ranges, e.g.
RF300 transponder 6.7 SIMATIC RF370T 6.7.3 Metal-free area Direct mounting of the RF370T on metal is permitted. Mounting of RF370T on metal Figure 6-15 Mounting of RF370T on metal Flush-mounting of RF370T in metal: D D Figure 6-16 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.
RF300 transponder 6.7 SIMATIC RF370T 6.7.4 Mounting instructions It is essential that you observe the instructions in the Section Installation guidelines (Page 61). 150 Properties Description Type of installation Screw fixing (two M5 screws) Tightening torque < 1.
RF300 transponder 6.7 SIMATIC RF370T 6.7.
RF300 transponder 6.7 SIMATIC RF370T Dimensional drawing 6.7.
RF300 transponder 6.8 SIMATIC RF380T 6.8 SIMATIC RF380T 6.8.1 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 Field of application Identification tasks in applications (e.g.
RF300 transponder 6.8 SIMATIC RF380T 6.8.
RF300 transponder 6.8 SIMATIC RF380T 6.8.3 Installation guidelines for RF380T It is essential that you observe the instructions in the Section Installation guidelines (Page 61). The following section only deals with features specific to the SIMATIC RF380T. 6.8.3.1 Mounting instructions NOTICE Only use tag with original holder You are strongly recommended to only use the tag with the original holder specified.
RF300 transponder 6.8 SIMATIC RF380T Assembly of data memory with holder &RYHU RSWLRQDO *7 4% $QWHQQD VLGH RI WDJ Figure 6-18 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.
RF300 transponder 6.
RF300 transponder 6.8 SIMATIC RF380T 6.8.3.2 Metal-free area Direct mounting of the RF380T on metal is permitted. Mounting of RF380T on metal Figure 6-20 Mounting of RF380T on metal Flush-mounting of RF380T in metal: D Figure 6-21 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.
RF300 transponder 6.8 SIMATIC RF380T 6.8.4 Configuring instructions 6.8.4.1 Temperature dependence of the transmission window The guidelines in 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. Calculation of transmission window with heat-resistant data memories The factor 0.
RF300 transponder 6.
RF300 transponder 6.8 SIMATIC RF380T 6.8.4.2 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.
RF300 transponder 6.8 SIMATIC RF380T Ambient temperatures > 220°C NOTICE Cancellation of warranty The data memory must not be exposed to ambient temperatures > 220 °C. No warranty claims will otherwise be accepted.
RF300 transponder 6.8 SIMATIC RF380T 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.
RF300 transponder 6.8 SIMATIC RF380T 6.8.5 Technical specifications Table 6- 15 Memory size 32KB Memory organization Blocks of 8 bits/byte-by-byte Memory configuration Serial number 4 bytes (fixed code) Application memory 32765 bytes r/w OTP 1) memory 20 bytes Storage technology FRAM / EEPROM MTBF (Mean Time Between Failures) in years 1177 Write cycles, at +40 °C Virtually unlimited (>1010) Read cycles Virtually unlimited (>1010) Data transmission time Read Approx. 0.
RF300 transponder 6.8 SIMATIC RF380T 6.8.
RF300 transponder 6.
ISO transponder 7 ISO 15693-compatible transponders, such as the MDS Dxxx from the MOBY D range of products, represent a cost-effective alternative to RF300 tags. The performance that can be achieved with this (data rate, memory size), however, is considerably less than with RF300 tags (see Chapter Communication between communication module, reader and transponder (Page 40)).
ISO transponder 7.1 Memory configuration of the ISO tags 7.1 Memory configuration of the ISO tags ))) 8,' UHDG RQO\ E\WHV ))) )) )) & 273 )) 0D[ b EORFNV RI E\WHV HDFK )) )) &) )XMLWVX 0% 5 E\WHV )5$0 E\WH EORFN VL]H 0'6 ' ,QILQHRQ P\ G E\WH ((3520 E\WH EORFN VL]H 7DJ LW +) , 67 /5, . ') 8VHU DUHD UHDG ZULWH ((3520 )) E\WH ((3520 E\WH EORFN VL]H 0'6 ' 0'6 ' 0'6 ' 1) E\WH ((3520 E\WH EORFN V
ISO transponder 7.1 Memory configuration of the ISO tags Memory areas Depending on the manufacturer of the transponder chip, the memory configuration of an ISO tag consists of EEPROM memory of varying sizes. Except for transponders that are equipped with a Fuijtsu 2k FRAM, these are equipped with only one FRAM. The typical sizes are 112 bytes, 256 bytes, 992 bytes or 2000 bytes. Each ISO transponder chip features an 8-byte unique serial number (UID, read only).
ISO transponder 7.2 MDS D100 7.2 MDS D100 7.2.1 Characteristics The MDS D100 mobile data memory is a passive, maintenance-free transponder based on the ISO 15693 standard with I-Code technology. MDS D100 Characteristics Field of application From simple identification such as electronic barcode replacement/supplementation, through warehouse and distribution logistics, right up to product identification.
ISO transponder 7.2 MDS D100 7.2.3 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. Mounting on metal 'DWD PHPRU\ 0HWDO 1RQ PHWDO K h ≥ 20 mm Figure 7-2 Mounting of the MDS D100 on metal with spacer Flush-mounting D D 'DWD PHPRU\ K 0HWDO 1RQ PHWDO h ≥ 20 mm a ≥ 20 mm Figure 7-3 Flush-mounting of MDS D100 in metal with space
ISO transponder 7.2 MDS D100 Note If the minimum guide values (h) are not observed, a reduction of the field data results. Fixing pocket for MDS D100 The fixing pocket is secured on a non-metallic surface with M4 countersunk head screws in the holes provided. s s s Figure 7-4 s s Fixing pocket 6GT2390-0AA00 for MDS D100 Note The fixing pocket shown here with Order No.: 6GT2 390-0AA00 is not suitable for use with the spacer (6GT2 190-0AA00).
ISO transponder 7.2 MDS D100 Fixing pocket with spacer for MDS D100 'LPHQVLRQ VNHWFK )L[LQJ SRFNHW *7 $% 6SDFHU *7 $$ (DUV +ROGLQJ NQREV +ROGLQJ FOLS 0DWHULDO 3$ 7KH VSDFHU FDQ EH GLUHFWO\ PRXQWHG RQ PHWDO ,Q FRPELQDWLRQ ZLWK WKH IL[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 :L
ISO transponder 7.2 MDS D100 7.2.
ISO transponder 7.2 MDS D100 Dimension drawing s 5 $ $ s 7.2.
ISO transponder 7.3 MDS D124 7.3 MDS D124 7.3.1 Characteristics The MDS D124 is a passive, maintenance-free transponder based on the ISO 15693 standard with I-Code technology. This mobile data memory can also be easily used in harsh environments under extreme environmental conditions (e.g. with higher temperature load).
ISO transponder 7.3 MDS D124 7.3.3 Metal-free area Mounting on metal 'DWD PHPRU\ K 0HWDO 1RQ PHWDO h ≥ 25 mm Figure 7-7 Mounting of the MDS D124 on metal with spacer Flush-mounting 'DWD PHPRU\ 0HWDO K 1RQ PHWDO D h ≥ 25 mm a ≥ 25 mm Figure 7-8 Flush-mounting of MDS D124 in metal with spacer Note If the minimum guide values (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).
ISO transponder 7.3 MDS D124 7.3.
ISO transponder 7.3 MDS D124 Ambient temperature • Operation • Transport and storage • • Weight, approx. 5g 1) 7.3.5 -25 °C to +125 °C -40 °C to +150 °C Configuration memory and AFI/DSFID are used/not used by RF300.
ISO transponder 7.4 MDS D139 7.4 MDS D139 7.4.1 Characteristics The MDS D139 is a passive, maintenance-free transponder based on the ISO standard 15693. MDS D139 Characteristics Field of application Reusable, heat-proof transponders with a limited service life are required for use in production logistics and in assembly lines subject to high temperatures (up to +220 °C).
ISO transponder 7.4 MDS D139 7.4.
ISO transponder 7.4 MDS D139 7.4.3 Metal-free area 0RXQWLQJ RQ PHWDO 'DWD VWRUDJH XQLW 0HWDO 6SDFHU K ุ PP PP )OXVK PRXQWLQJ RI WKH 0'6 LQ PHWDO LV QRW SHUPLWWHG Figure 7-10 Metal-free area for MDS D139 0RXQWLQJ VFUHZ 0'6 ' 6SDFHU Figure 7-11 MDS D139: Mounting recommended with spacer Note If the minimum guide values (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.
ISO transponder 7.4 MDS D139 7.4.
ISO transponder 7.4 MDS D139 Ambient temperature • • Weight, approx. Operation Transport and storage -25 °C to +100 °C Permanent +140 °C 20% reduction in the limit distance +200 °C 3 Tested up to 4000 hours or 1500 cycles +220 °C Tested up to 2000 hours or 500 cycles -40 °C to +100 °C 50 g Configuration memory and AFI/DSFID are used/not used by RF300.
ISO transponder 7.4 MDS D139 7.4.
ISO transponder 7.5 MDS D160 7.5 MDS D160 7.5.1 Characteristics This mobile data memory is a passive, maintenance-free laundry tag based on the ISO 15693 standard with I-Code technology for cyclic applications.
ISO transponder 7.5 MDS D160 7.5.3 Metal-free area Mounting on metal 'DWD PHPRU\ K 0HWDO 1RQ PHWDO h ≥ 25 mm Figure 7-13 Mounting of the MDS D160 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.
ISO transponder 7.5 MDS D160 7.5.
ISO transponder 7.5 MDS D160 Mechanical design • Color • Material • Dimensions (D x H) in mm Pressed, impact-resistant plastic • Gray • PPA (polyphthalamide) • 16 x 3 ±0.1 MDS fixing Patch, sew, glue Ambient temperature • Operation • • • Transport and storage Weight, approx.
ISO transponder 7.6 MDS D324 7.6 MDS D324 7.6.1 Characteristics The MDS D324 is a passive, maintenance-free transponder based on the ISO standard 15693 with my-d technology. MDS D324 Characteristics Field of application Production and distribution logistics and product identification Memory For the user, the usable application memory amounts to 992 byte. Read/write range See Chapter Field data of ISO transponders (Page 47).
ISO transponder 7.6 MDS D324 7.6.3 Metal-free area Mounting on metal 'DWD PHPRU\ K 0HWDO 1RQ PHWDO h ≥ 25 mm Figure 7-15 Mounting of the MDS D324 on metal with spacer 'DWD PHPRU\ 0HWDO K 1RQ PHWDO D h ≥ 25 mm a ≥ 25 mm Figure 7-16 Flush-mounting of MDS D324 in metal with spacer Note If the minimum guide values (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).
ISO transponder 7.6 MDS D324 7.6.
ISO transponder 7.6 MDS D324 Ambient temperature • Operation • Transport and storage • • Weight, approx. 5g 1) 7.6.5 -25 °C to +125 °C -40 °C to +150 °C Configuration memory and AFI/DSFID are used/not used by RF300.
ISO transponder 7.
System integration 8 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. 8.
System integration 8.1 Introduction Interface modules/communication modules and function blocks The following table shows the most important features of the interface modules/communication modules, as well as the compatible function blocks.
System integration 8.2 ASM 452 8.2 ASM 452 8.2.1 Features Area of application The ASM 452 interface module is a MOBY module for operating MOBY and RF300 components with RS422 over PROFIBUS DP-V1 on ● Any computers and PCs ● Any PLCs When operating the interface module on a SIMATIC S7, function blocks are made available to the user. Figure 8-1 Interface module ASM 452 The ASM 452 is the result of consistent development of the familiar ASM 450/451 interface modules.
System integration 8.2 ASM 452 8.2.2 Ordering data Table 8- 2 Ordering data for ASM 452 and accessories Product description Order No.
System integration 8.2 ASM 452 8.2.3 Pin assignment and display elements Pin assignments The figure below illustrates the pin assignments of ASM 452. /('V IRU 352),%86 '3 $60 6) %) ; ; ; ; ; )DXOW )DXOW 21 /LJKWV XS ZKHQ WKHUH LV $60 LV JHQHUDWHG E\ WKH 9 VXSSO\ YROWDJH 9 '& /LJKWV XS ZKHQ WKH 9 VXSSO\ YROWDJH LV FRQQHFWHG WR WKH $60 6) %) 21 '& 9 6/*
System integration 8.2 ASM 452 8.2.4 Configuration Hardware description The ASM 452 has the same housing as the distributed I/O system ET 200X. General information on ASM 452 (e.g.: assembly, operation and wiring; general technical data) is available in the ET200X manual (Order No. 6ES7 198-8FA00-8AA0). Descriptions of accessories and network components can also be found in this manual.
System integration 8.2 ASM 452 Operating mode of the ASM 452 The approved operating modes of ASM 452 are described in the GSD file. It is set using the hardware configuration tool (e.g. STEP 7 HW Config). Reader connection system A reader always occupies two M12 connector sockets on the ASM 452. A pre-assembled cable therefore ensures easy connection of the reader (see figure below). The connecting cable is available in lengths of 2 m (standard) and 5 m.
System integration 8.2 ASM 452 Cable installation Signal M12 (reader side) 24 V DC 1 TX - 2 Cable X1 / Data X2 Pink - 1 Yellow 4 - GND 3 Gray - 3 TX + 4 Green 1 - RX + 5 white 2 - RX - 6 brown 3 - - - 5 5 Shield 8 + terminal piece Shield Cable assignment ASM 452/473 ↔ RF3xxR reader with RS422 (6GT2891-1CH20) A reader cable connector with screw-type terminals is provided for users who want to individually pre-assemble their own cables (see figure below).
System integration 8.2 ASM 452 PROFIBUS cable with 24 V supply The ASM 452 can also be operated with the "green" PROFIBUS cable. It is important to ensure that a 24 V cable is connected from X12 to X13. The 24 V cable can be connected to pins 5 and 6 in plug X12. ; ; Figure 8-6 ; ; ; ; PROFIBUS cable with 24 V supply PROFIBUS address and terminating resistor You must remove the connector plate from the ASM before you set the PROFIBUS address or connect the terminating resistor.
System integration 8.2 ASM 452 8.2.5 Technical data Table 8- 3 Technical data for ASM 452 Serial interface to the user PROFIBUS DP-V1 Procedure after connection EN 50170 Vol. 2 PROFIBUS PG 11 cable gland PROFIBUS and power supply connectors are not included in the scope of delivery Transmission rate 9600 baud to 12 Mbaud (automatic detection) Max. block length 2 words cyclic/240 bytes acyclic Serial interface to the RF3xxR Connector 2 x M12 coupler plug Max.
System integration 8.2 ASM 452 8.2.6 PROFIBUS Diagnosis The following table lists possible error indications with their meanings and provides remedies. Table 8- 4 LED indication for PROFIBUS diagnosis "BF" LED "SF"LED Cause of error ON * • ASM 452 is in start-up mode. • The connection to the DP master • has failed. ASM 452 not detecting a baud • rate. Check the PROFIBUS DP connection. Check the DP master.
System integration 8.2 ASM 452 8.2.7 Dimension drawing The following figure shows the dimensional drawing of an ASM 452 with bus connectors. You must add the length of the PG cable gland and the radius of the cable used to the measured overall width and depth. Figure 8-8 Dimensional drawing of ASM 452 Example of stripped lengths The following diagram shows an example of stripped lengths. The lengths apply to all cables which can be connected to the connector plugs.
System integration 8.3 ASM 456 8.3 ASM 456 Configured with ASM 456 352),%86 '3 0DVWHU PRGXOH 6,0$7,&b6 $60b 352),%86 9 IRU $60 DQG UHDGHU H J 5) 5 H J 5) 5 9 WR RWKHU 352),%86 EXV QRGHV WR RWKHU 352),%86 EXV QRGHV 7DJV 0'6 Figure 8-10 7DJV 0'6 Configuration of ASM 456 For more detailed information, please refer to ASM 456 Operating Instructions (http://support.automation.siemens.com/WW/view/en/32629442).
System integration 8.4 ASM 473 8.4 ASM 473 8.4.1 Features Field of application The ASM 473 interface module is an RF300 module for SIMATIC S7. It can be plugged into the ET 200X distributed I/O station and DESINA. ET 200X is operated by the user over PROFIBUS DP V1. An S7-300 or S7-400 with integrated PROFIBUS connection can be used as the controller. ASM 473 supplements the SIMATIC S7 interface module ASM 475.
System integration 8.4 ASM 473 8.4.2 Ordering data Table 8- 5 Ordering data for ASM 473 and accessories Product description Order No. Interface module ASM 473 1x RF3xxR reader with RS422 interface 6GT2002-0HA10 Accessories: Connecting cable ASM 473 ↔ Reader RF3xxR Plug-in cable, pre-assembled, length 2 m (standard length) 6GT2891-1CH20 Plug-in cable, pre-assembled, length 5 m 6GT2891-1CH50 Opt.
System integration 8.4 ASM 473 8.4.3 Pin assignment and display elements Pin assignments The figure below illustrates the pin assignment for the read/write device and the display elements.
System integration 8.4 ASM 473 8.4.4 Configuration 352),%86 '3 0DVWHU PRGXOH 6,0$7,&b6 %DVLF PRGXOH (7 ; %0 (7 ; %0 (7 ; %0 '(6,1$ %0 $60b 352),%86 WR RWKHU 352),%86 EXV QRGHV 9 VXSSO\ IRU (7 ; (OHFWURQLFV H J 5) 5 9 VXSSO\ )RU UHDGHU 0'6 7DJ Figure 8-13 Configuration of ASM 473 Note It differs from ASM 452 in that for ET 200X the 24 V supply must be connected to the PROFIBUS connector and on the load voltage connector (see the ET 200X manual).
System integration 8.4 ASM 473 Basic module - Requirements for operation of ASM 473 The following table indicates the status of the ET 200X basic module of 10/2002. The functionality of new basic modules is stored in HW Config of the SIMATIC Manager.
System integration 8.4 ASM 473 Example for a maximum configuration of ASM 473 on an ET 200X 0D[ $60 FDQ EH RSHUDWHG LQ DQ (7 ; 6,0$7,& 6,0$7,& 6,0$7,& 6,0$7,& 6,0$7,& 6,0$7,& 6,0$7,& 5) 5 5) 5 5) 5 5) 5 5) 5 5) 5 5) 5 5) [[5 5) [[7 6,0$7,& 5) 7 Figure 8-14 Example for a maximum configuration of ASM 473 on an ET 200X Depending on the PROFIBUS master, up to 123 ET 200X modules can be run on one PROFIBUS branch.
System integration 8.4 ASM 473 Reader connection system A reader always occupies the two M12 connection sockets X3 and X4 on the ASM 473. A prefabricated cable makes it easy to connect the reader. The standard version of the connecting cable is 2 m in length. Other cable lengths are available on request. For customers who want to assemble their own cables, an ASM cable connector with screwtype terminals is available. Cables and ASM cable connectors can be ordered from the MOBY catalog.
System integration 8.4 ASM 473 8.4.5 Technical data Table 8- 7 Technical specifications for ASM 473 Interface for ET 200X SIMATIC S7 I/O bus cyclic/acyclic services Communication 2 words cyclic/238 bytes acyclic Command buffer in ASM 142 x 238 bytes Serial interface to the reader • Connector 2 x M12 coupler plug • Max.
System integration 8.4 ASM 473 8.4.6 Dimensional drawings Dimension drawing for mounting holes The figure below shows the dimensions for the position of the holes for the fixing screws for a basic module and an ASM 473 expansion module.
System integration 8.5 ASM 475 8.5 ASM 475 8.5.1 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.
System integration 8.5 ASM 475 8.5.2 Ordering data Table 8- 8 Ordering data for ASM 475 and accessories Product description Order No.
System integration 8.5 ASM 475 8.5.3 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. 02%< $60 6) 9 '& (55B 6 35(B 6 ( ( $&7B (55B 35(B 6 6 ( ( 6/*b 5['B 6/*b $&7B 5['B *7 b *$ 6WDWXV DQG HUURU GLVSOD\V Figure 8-18 &RQQHFWLRQ GLDJUDP
System integration 8.5 ASM 475 Display elements on the ASM Table 8- 9 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.
System integration 8.5 ASM 475 8.5.
System integration 8.5 ASM 475 Distributed configuration with ET200M H J LQWHUIDFH PRGXOH $60b $GGLWLRQDO PRGXOHV IURP WKH 6 UDQJH LQFO $60 (7 0 $60 FKDQQHO $60 FKDQQHO H J 5) 5 H J 5) 5 7DJV 0'6 Figure 8-20 Configuration of ASM 475 distributed Reader connection system The connecting cable has a length of 2 m (standard) and 5 m. Extensions up to 1000 m are possible with the 6GT2891-0F plug-in cables.
System integration 8.
System integration 8.5 ASM 475 8.5.5 Technical data Table 8- 11 Technical data for ASM 475 Serial interface for SIMATIC S7-300 or ET200M I/O bus; cyclic and acyclic services Communication 2 words cyclic/238 bytes acyclic Command buffer in ASM 475 70 x 238 bytes per RF310R reader Serial interface to the reader Connector Via screw-type terminal on front connector The front connector is not included in the scope of supply. Max.
System integration 8.6 RF170C 8.6 RF170C Configured with RF170C PROFIBUS or PROFINET/Industrial Ethernet Master module SIMATIC S7 PROFINET/ Industrial Ethernet or Interface module ET 200pro SIMATIC RF170C PROFIBUS 9 IRU (7 SUR 5) & DQG UHDGHU H J 5) 5 H J 5) 5 7DJV 0'6 Figure 8-22 Configuration of RF170C For more detailed information, refer to SIMATIC RF170C Operating Instructions (http://support.automation.siemens.com/WW/view/en/32622825).
System integration 8.7 RF180C 8.7 RF180C Configured with RF180C 352),1(7b,2 0DVWHU PRGXOH 6,0$7,&b6 6,0$7,& 5) & 352),1(7 ,QGXVWULDO (WKHUQHW 9 IRU 5) & DQG UHDGHU ] % 5) 5 ] % 5) 5 9 WR RWKHU 352),1(7 EXV QRGHV WR RWKHU 352),1(7 EXV QRGHV Figure 8-23 7DJV 0'6 Configuration of RF180C For more detailed information, refer to SIMATIC RF180C Operating Instructions (http://support.automation.siemens.com/WW/view/en/30012157).
System integration 8.8 8xIQ-Sense 8.8 8xIQ-Sense 8.8.1 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 8-24 8.8.
System integration 8.8 8xIQ-Sense 8.8.3 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.
System integration 8.8 8xIQ-Sense 8.8.
System integration 8.
System integration 8.8 8xIQ-Sense Configuration of connecting cable from 8xIQ-Sense to RF310R 5HDGHU 6HLWH ,4 6HQVH 6HLWH EUDXQ 6/* 6WHFNHU 0 %XFKVH EODX Figure 8-27 8.8.5 Cable and pin assignment of RF300 with IQ-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).
System integration 8.
System integration 8.8 8xIQ-Sense 8.8.6 Technical data Voltages and currents Rated supply voltage 24 V DC Reverse polarity protection yes Galvanic isolation • Between the channels • Between channels and backplane bus no yes Permissible potential difference Between different circuits 75 V DC / 60 V AC Insulation tested at 500 V DC Current input • from the backplane bus • from L+ power supply 120 mA typical Module power loss 2.5 W typical 500 mA max.
System integration 8.
9 System diagnostics 9.
System diagnostics 9.2 Diagnostics functions 9.2 Diagnostics functions 9.2.1 Overview Extended diagnostic functions with SIMATIC RF300 With SIMATIC RF300, extended diagnostic functions are available which simplify commissioning and maintenance. These diagnostics data are 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.
System diagnostics 9.2 Diagnostics functions 9.2.2 Reader diagnostics with SLG STATUS The SLG STATUS command can be used to scan the status and diagnostics data of the reader.
System diagnostics 9.
System diagnostics 9.2 Diagnostics functions 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 secondary signature (SFZ) or CRC (CRCFZ) error. ● "BSTAT" is the status for the most recently executed command.
System diagnostics 9.2 Diagnostics functions 9.2.3 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.
System diagnostics 9.2 Diagnostics functions MDS-STATUS for ISO mode (mode 03) UDT230 Table 9- 3 MDS STATUS for ISO mode UID Binary value 0...264-1 8 byte TAG-ID, MSB first MDS type Binary value 0...255 Tag type recognized in the field, number like that in reset parameter ftim IC_version Binary value 0...255 Chip version (for my-d = 00h) Size Binary value 0...65535 Memory size in bytes lock_state Binary value 0...
System diagnostics 9.
A Appendix A.1 Certificates and approvals Certificate Description CE Approval to R&TTE A.1.1 Certificates and Approvals Notes on CE marking The following applies to the system described in this documentation: The CE marking on a device is indicative of the corresponding approval: 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).
Appendix A.1 Certificates and approvals 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.
USA Federal Communications Commission Radio Frequency Interference Statement 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.
Appendix A.2 Accessories A.2 Accessories CD "RFID Systems Software & Documentation" The CD contains: ● FB/FC for SIMATIC, 3964R ● Driver for DOS/Windows 95/NT/2000/XP ● C libraries ● PC demonstration program ● RFID documentation in PDF format, especially RFID system manuals, programming instructions and operating instructions The "RFID Systems Software & Documentation" CD has a user-friendly interface based on HTML. After Start.
Appendix A.3 Connecting cable A.3 Connecting cable In the following chapter, you will find an overview of the connecting cables between the readers and communication modules or PCs. A.3.1 Reader RF3xxR (RS422) with ASM 452/ASM 473 A reader always occupies two M12 connection sockets on the ASM 452/ASM 473 A pre-assembled cable therefore ensures easy connection of the reader (see figure below). The connecting cable has a length of 2 m (standard) and 5 m.
Appendix A.3 Connecting cable A.3.
Appendix A.3 Connecting cable A.3.3 Reader RF3xxR (RS422) with ASM 475 Reader connection system The connecting cable has a length of 2 m (standard) and 5 m. Extensions up to 1000 m are possible with the 6GT2891-0F plug-in cables. $60 VLGH 5HDGHU VLGH &DEOH ZLWK HQG VOHHYHV JUD\ SLQN \HOORZ EURZQ ZKLWH JUHHQ VKLHOG 6/* FRQQHFWRU 6RFNHW 0 SLQ &DEOH VKLHOG H[SRVHG *7 ( ZLWK VWUDLJKW 6/* FRQQHFWRU VWDQGDUG Figure A-3
Appendix A.3 Connecting cable A.3.4 RF310R and IQ-Sense The connecting cable is available in lengths of 5 m (standard) and 10 m.
Appendix A.3 Connecting cable A.3.5 Reader RF380R (RS232) - PC The connecting cable (6GT2891-OKH50) is 5 m long Special feature of the cable: additional branch for the power supply. 5HDGHU VLGH 68% ' SLQ 3& 6RFNHW SROH 0 SLQ Figure A-5 Connecting cable RF380R (RS232) to the PC Suitable power supply unit: e.g.
Appendix A.4 Ordering data A.
Appendix A.
Appendix A.
Appendix A.4 Ordering data Table A- 6 ISO transponder ISO transponder Description MDS D100 • • • • • IP68 Memory size: 112 byte EEPROM Operating temperature: -25 … +80 °C Dimensions: 85.6 x 54 x 0.
Appendix A.
Appendix A.
Appendix A.
Appendix A.5 Service & Support A.5 Service & Support Contact partner 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 (www.siemens.
Appendix A.5 Service & Support Technical documentation on the Internet A guide to the technical documentation for the various products and systems is available on the Internet: SIMATIC Guide manuals (www.siemens.com/simatic-tech-doku-portal) Online catalog and ordering system The online catalog and the online ordering system can also be found on the A&D Mall homepage. (www.siemens.com/automation/mall) Training center We offer appropriate courses to get you started.
Glossary Active surface 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. 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 storage unit Mobile data storage units which operate without batteries.
Glossary 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.
Glossary 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.
Glossary Readers Readers ensure fast, secure data transfer between mobile data storage units and higherlevel systems (PLCs, PCs, etc.). The data, energy included, are transmitted inductively across an electromagnetic alternating field or by radio. This principle enables contact-free data transmission, ensures high industrial compatibility and works reliably in the presence of contamination or through non-metallic materials.
Glossary Transponder An invented word from transmitter and responder. Transponders are used on the product, the product carrier, the object, or its transport or packaging unit, and contain production and manufacturing data, i.e. all application-specific data. They follow the product through assembly lines, transfer and production lines and are used to control material flow.
Glossary 266 SIMATIC RF300 System Manual, 01/2009, A5E01642529-03
Index 8 C 8xIQ-Sense module Addressing, 231 Indicators, 228 Ordering data, 228 Cabinet configuration, 85 Cable, 247 Reader - ASM, 247 Shielding, 90 Calculation example, 42 Certificates, 243 Combinations Reader-tag, 20 Communication modules, 19, 195 Communication time Calculating, 40 Connecting cable Reader-communication module/ASM/PC, 247 Contact partner, 259 Conventions, 12, 22 Coupling paths, 84 Courses, 260 Customer benefits, 22 A Antennae Minimum clearances, 117 Application Planning SIMATIC RF300, 2
Index RF310R reader with RS422 interface, 100, 105, 110, 122 RF340R reader, 105 RF350R reader, 110, 122 Dwell time Transponder, 39 Dynamic mode, 38 Dwell time of the transponder, 39 E Electromagnetic compatibility Coupling paths, 84 Electromagnetic interference, 82 EMC Directives Propagation of electromagnetic interference, 82 EMC Guidelines, 245 Avoiding interference, 88 Basic Rules, 81 Cabinet configuration, 85 Cable shielding, 90 Definition, 80 Equipotential bonding, 89 Overview, 79 Equipotential bondi
Index P Parameterization Function blocks, 195 PROFIBUS cable Stripped lengths, 216 R Reader RF310R Display elements, 95 Metal-free area, 96, 100 Pin assignment of IQ-Sense interface, 95 Reader RF340R Metal-free area, 106, 123 Readers, 93 Mounting, 63 Reducing interference due to metal, 61 Reduction of field data by metal RF340R, 66 RF350R with ANT 1, 67 RF350R with ANT 18, 68 RF350R with ANT 30, 69 RF380R, 65, 70, 71 Resistance to chemicals Transponder, 72 RF300 SLG STATUS, 238 RF300 system diagnostics SL
Index Transponder RF350T Characteristics, 139 Metal-free area, 140 Technical specifications, 141 Transponder RF360T Characteristics, 143 Metal-free area, 144 Technical specifications, 146 Transponder RF370T Characteristics, 148 Metal-free area, 149 Transponder RF380T Metal-free area, 158 U User data Calculate maximum number, 40 Calculating, 40 W Write/read distance, 29 270 SIMATIC RF300 System Manual, 01/2009, A5E01642529-03
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