ISO transponder 8.8 MDS D160 8.8 MDS D160 8.8.1 Characteristics MDS D160 Characteristics Area of application Thanks to its rugged packaging, the MDS D160 is a transponder that can be used under extreme environmental conditions. It is washable, heat-resistant and resistant to all chemicals generally used in the laundry process. Typical applications are, for example: 8.8.
ISO transponder 8.8 MDS D160 8.8.3 Ordering data Table 8- 18 Ordering data for MDS D160 Article number MDS D160 Table 8- 19 6GT2600-0AB10 Ordering data for MDS D160 accessories Article number Spacer 8.8.4 6GT2690-0AG00 Mounting on metal Mounting on metal ① ② ③ Transponder h ≥ 10 mm Metal carrier Spacer Figure 8-17 Mounting the MDS D160 on metal with spacer Note Going below the minimum distance (h) If the minimum distance (h) is not observed, a reduction of the field data results.
ISO transponder 8.8 MDS D160 8.8.
ISO transponder 8.8 MDS D160 6GT2600-0AB10 Resistance to chemicals All chemicals normally used in the washing process MDS lifespan At least 100 wash cycles Degree of protection • IP68 24 hours, 2 bar, +20 °C • IPx9K Shock according to IEC 68-2-271) 400 m/s2 18 ms; 6 axes; 2000 repetitions/h Vibration according to IEC 68-2-61) 100 m/s2 10 ... 2000 Hz; 3 axes; 2.5 h Torsion and bending load Not permitted Design, dimensions and weight Dimensions (Ø x H) 16 x 3 mm Weight 1.
ISO transponder 8.8 MDS D160 8.8.
ISO transponder 8.9 MDS D165 8.9 MDS D165 8.9.1 Features MDS D165 (special version) Characteristics Area of application The design of the transponder (self-adhesive label) permits a variety of designs, guaranteeing optimum dimensioning for the widest variety of applications. From simple identification such as electronic barcode replacement/supplementation, through warehouse and distribution logistics, right up to product identification. 8.9.
ISO transponder 8.
ISO transponder 8.10 MDS D200 8.9.4 Dimension drawing Dimensions in mm Figure 8-20 8.10 MDS D200 8.10.1 Features MDS D200 Dimension drawing of MDS D165 Characteristics Area of application From simple identification such as electronic barcode replacement/supplementation, through warehouse and distribution logistics, right up to product identification. Memory size 256 bytes of EEPROM user memory Write/read range See section Field data of ISO transponders (MDS D) (Page 56).
ISO transponder 8.10 MDS D200 8.10.2 Ordering data Table 8- 23 Ordering data for MDS D200 Article number MDS D200 (special version ISO-CARD) Table 8- 24 6GT2600-1AD00-0AX0 Ordering data for MDS D200 accessories Article number 8.10.
ISO transponder 8.10 MDS D200 Flush-mounting a ≥ 20 mm h ≥ 20 mm ① ② ③ Transponder Metal Non-metal Figure 8-22 Flush-mounting of MDS D200 in metal with spacer Note If the minimum guide values (h) are not observed, a reduction of the field data results. 8.10.
ISO transponder 8.
ISO transponder 8.11 MDS D261 8.10.
ISO transponder 8.11 MDS D261 8.11 MDS D261 8.11.1 Features MDS D261 Characteristics Area of application The design of the transponder (self-adhesive label) permits a variety of designs, guaranteeing optimum dimensioning for the widest variety of applications. From simple identification such as electronic barcode replacement/supplementation, through warehouse and distribution logistics, right up to product identification. 8.11.
ISO transponder 8.
ISO transponder 8.12 MDS D324 8.11.4 Dimension drawing Dimensions in mm Figure 8-24 Dimension drawing of MDS D261 8.12 MDS D324 8.12.1 Characteristics MDS D324 Characteristics Area of application Production and distribution logistics and product identification Can also be used in harsh environments under extreme environmental conditions (e.g. with higher temperature load).
ISO transponder 8.12 MDS D324 8.12.2 Ordering data Table 8- 28 Ordering data MDS D324 Article number MDS D324 Table 8- 29 6GT2600-3AC00 Ordering data MDS D324 accessories Article number Spacer 8.12.
ISO transponder 8.12 MDS D324 Flush-mounting h ≥ 15 mm a ≥ 25 mm Figure 8-26 Flush-mounting of the MDS D124/D324/D424/D524/E624 and RF320T in metal with spacer Note Going below the distances If the distances (a and h) are not observed, a reduction of the field data results. It is possible to mount the MDS with metal screws (M3 countersunk head screws). This has no tangible impact on the range. 8.12.
ISO transponder 8.
ISO transponder 8.12 MDS D324 8.12.
ISO transponder 8.13 MDS D339 8.13 MDS D339 8.13.1 Characteristics MDS D339 Characteristics Area of application Applications in production automation with high temperature demands (up to +220 °C) Typical application areas: 8.13.
ISO transponder 8.13 MDS D339 8.13.3 Mounting on metal Direct mounting of the MDS D139/D339 on metal is not allowed. A distance of ≥ 30 mm is recommended. This can be achieved using spacers (see "Ordering data (Page 326)"). Mounting on metal h ≥ 30 mm Figure 8-28 Mounting the MDS D139/D339 on metal with spacer Flush-mounting It is possible to mount the MDS D139/D339 in metal. With large antennas, for example ANT D5, this leads to a reduction of ranges.
ISO transponder 8.13 MDS D339 Note Going below the distances If the distances (a and h) are not observed, a reduction of the field data results. It is possible to mount the MDS with metal screws (M5). This has no tangible impact on the range. It is recommended that a test is performed in critical applications. 8.13.4 Cleaning the mobile data memory Note Do not clean the transponder with mechanical tools, sand-blasting or pressure hose. These cleaning methods result in damage to the transponder.
ISO transponder 8.
ISO transponder 8.13 MDS D339 8.13.6 Use of the MDS D339 in hazardous areas The MDS D339 mobile data memory is classed as a piece of simple, electrical equipment and can be operated in Protection Zone 2, Device Group II, Category 3G.
ISO transponder 8.13 MDS D339 Note Installations- und Betriebsbedingungen für den Ex-Schutzbereich: a) Der Einsatz des Gerätes in der Nähe von stark ladungserzeugenden Prozessen ist untersagt. b) Das Gerät ist mechanisch geschützt zu montieren. c) Die Montage muss auf einem geerdeten, leitenden Untergrund erfolgen. d) Die Reinigung darf nur mit feuchtem Tuch erfolgen.
ISO transponder 8.13 MDS D339 8.13.
ISO transponder 8.14 MDS D400 8.14 MDS D400 8.14.1 Features MDS D400 8.14.2 Characteristics Area of application Simple identification such as electronic barcode replacement/supplements, from warehouse and distribution logistics right through to product identification.
ISO transponder 8.14 MDS D400 8.14.3 Mounting on metal Mounting on metal It is possible to mount the MDS D400 on metal.
ISO transponder 8.14 MDS D400 Flush-mounted in metal a ≥ 20 mm h ≥ 20 mm ① ② ③ Transponder Metal Non-metal Figure 8-32 Flush-mounting of MDS D400 in metal with spacer Note If the minimum guide values (h) are not observed, this will result in a reduction of the field data. 8.14.
ISO transponder 8.
ISO transponder 8.14 MDS D400 8.14.
ISO transponder 8.15 MDS D421 8.15 MDS D421 8.15.1 Characteristics MDS D421 Characteristics Area of application The MDS D421 is designed for tool coding in accordance with DIN 69873. It can be used wherever small data carriers and exact positioning are required, e.g. tool identification, workpiece holders. The rugged housing of the MDS D421 means that it can also be used in a harsh industrial environment without problems. 8.15.
ISO transponder 8.15 MDS D421 8.15.
ISO transponder 8.15 MDS D421 Flush-mounting of the MDS in metal with tools Figure 8-36 Flush-mounting of MDS D421/D521/E623 in metal with tools b1 0.5 x 45° b2 0.3 x 45° or R0.3 d1 10 (-0.04... -0.13) d2 10 (+0.09... 0) t1 4.5 (-0 ... -0.1) t2 4.6 (+0.2 ... 0) All dimensions in mm Note Installation instruction The MDS should not protrude out of the locating hole; it must be flush with the outside contour.
ISO transponder 8.15 MDS D421 Installation examples 8.15.
ISO transponder 8.
ISO transponder 8.16 MDS D422 8.16 MDS D422 8.16.1 Characteristics MDS D422 8.16.2 Characteristics Area of application Identification of metallic workpiece holders, workpieces or containers Memory size 2000 bytes of FRAM user memory Write/read range See section "Field data of ISO transponders (MDS D) (Page 56).
ISO transponder 8.16 MDS D422 8.16.3 Mounting in metal Flush-mounting Figure 8-40 Mounting of MDS D422 in metal Mounting information for screws You can screw the transponder into a pre-drilled threaded hole using the screw-in aid.
ISO transponder 8.16 MDS D422 6GT2600-4AF00 • UID • 8 bytes • User memory • 2000 bytes FRAM • OTP memory • 16 bytes FRAM Read cycles (at < 40 ℃) > 1012 Write cycles (at < 40 ℃) > 1012 Data retention time (at < 40 ℃) > 10 years Write/read distance (Sg) Dependent on the reader used, see section "Field data of ISO transponders (MDS D) (Page 56)" MTBF (Mean Time Between Failures) 285 years Mechanical specifications Housing • Material • Plastic PA 6.
ISO transponder 8.17 MDS D423 8.16.5 Dimension drawing Dimensions in mm Figure 8-41 Dimensional drawing of MDS D422 8.17 MDS D423 8.17.1 Characteristics MDS D423 Characteristics Area of application 8.17.
ISO transponder 8.17 MDS D423 8.17.3 Mounting on metal Mounting on metal Direct mounting of the MDS D423 on metal is possible. Figure 8-42 Mounting the MDS D423 on metal Flush-mounted in metal It is possible to mount the MDS D423 in metal.
ISO transponder 8.17 MDS D423 Figure 8-44 Flush-mounting of the MDS D423 in metal without clearance Note Reduction of the write/read range Note that when the device is flush-mounted in metal without a surrounding clearance ≥ 10 mm, the write/read range is significantly reduced. 8.17.
ISO transponder 8.
ISO transponder 8.18 MDS D424 8.17.5 Dimensional drawing Dimensions in mm Figure 8-45 Dimension drawing for MDS D423 8.18 MDS D424 8.18.1 Characteristics MDS D424 Characteristics Area of application Production and distribution logistics as well as in assembly and production lines, can also be used in a harsh industrial environment without problem Memory size 2000 bytes of FRAM user memory Write/read range See section "Field data of ISO transponders (MDS D) (Page 56).
ISO transponder 8.18 MDS D424 8.18.2 Ordering data Table 8- 44 Ordering data of MDS D424 Article number MDS D424 Table 8- 45 6GT2600-4AC00 Ordering data of MDS D424 accessories Article number Spacer 8.18.
ISO transponder 8.18 MDS D424 Flush-mounting h ≥ 15 mm a ≥ 25 mm Figure 8-47 Flush-mounting of the MDS D124/D324/D424/D524/E624 and RF320T in metal with spacer Note Going below the distances If the distances (a and h) are not observed, a reduction of the field data results. It is possible to mount the MDS with metal screws (M3 countersunk head screws). This has no tangible impact on the range. 8.18.
ISO transponder 8.
ISO transponder 8.19 MDS D425 8.18.5 Dimension drawing Figure 8-48 Dimension drawing of MDS D424 All dimensions in mm 8.19 MDS D425 8.19.
ISO transponder 8.19 MDS D425 8.19.2 Ordering data Table 8- 47 Ordering data of MDS D425 Article number MDS D425 8.19.3 Application example Figure 8-49 8.19.
ISO transponder 8.19 MDS D425 6GT2600-4AG00 Read cycles (at < 40 ℃) > 1012 Write cycles (at < 40 ℃) > 1012 Data retention time (at < 40 ℃) > 10 years Write/read distance (Sg) Dependent on the reader used, see section "Field data of ISO transponders (MDS D) (Page 56)" MTBF (Mean Time Between Failures) 228 years Mechanical specifications Housing • Material • Plastic PA 6.
ISO transponder 8.20 MDS D426 8.19.5 Dimension drawing Dimensions in mm Figure 8-50 Dimension drawing of MDS D425 8.20 MDS D426 8.20.
ISO transponder 8.20 MDS D426 8.20.2 Ordering data Table 8- 49 Ordering data of MDS D426 Article number MDS D426 Table 8- 50 6GT2600-4AH00 Ordering data of MDS D426 accessories Article number Spacer 8.20.
ISO transponder 8.20 MDS D426 Flush-mounted in metal h ≥ 25 mm a ≥ 50 mm Figure 8-52 8.20.
ISO transponder 8.20 MDS D426 6GT2600-4AH00 Power supply Inductive, without battery Permitted ambient conditions Ambient temperature • during write/read access • -25 to +85 ℃ • outside the read/write field • -40 to +100 ℃ • during storage • -40 to +100 ℃ Degree of protection to EN 60529 IP68 2 hours, 2 bar, +20 °C Shock according to IEC 68-2-271) 50 m/s2 Vibration according to IEC 68-2-61) 20 m/s2 Torsion and bending load Not permitted Design, dimensions and weight 8.20.
ISO transponder 8.21 MDS D428 8.21 MDS D428 8.21.1 Characteristics MDS D428 Characteristics Area of application Compact and rugged ISO transponder; suitable for screw mounting. Use in assembly and production lines in the powertrain sector. The rugged housing of the MDS D428 means that it can also be used in extreme environmental conditions without problems. 8.21.
ISO transponder 8.21 MDS D428 8.21.3 Application example Figure 8-54 8.21.
ISO transponder 8.21 MDS D428 6GT2600-4AK00 Mechanical specifications Housing • Material • Plastic PA 6.
ISO transponder 8.22 MDS D460 8.21.5 Dimension drawing Dimensions in mm Figure 8-55 Dimension drawing of MDS D428 8.22 MDS D460 8.22.1 Characteristics MDS D460 Characteristics Area of application Identification in small assembly lines; can also be used in a harsh industrial environment Memory size 2000 bytes of FRAM user memory Write/read range See section "Field data of ISO transponders (MDS D) (Page 56).
ISO transponder 8.22 MDS D460 8.22.2 Ordering data Table 8- 54 Ordering data of MDS D460 Article number MDS D460 Table 8- 55 6GT2600-4AB00 Ordering data of MDS D460 accessories Article number Spacer 8.22.3 6GT2690-0AG00 Mounting on metal Mounting option on metal with spacer ① ② ③ Transponder h ≥ 10 mm Metal Spacer Figure 8-56 Mounting the MDS D460 on metal with spacer Note If the minimum guide values (h) are not observed, a reduction of the field data results.
ISO transponder 8.22 MDS D460 8.22.
ISO transponder 8.22 MDS D460 6GT2600-4AB00 8.22.5 Weight 3g Type of mounting • Glued 2) • With spacer 1) The values for shock and vibration are maximum values and must not be applied continuously. 2) The processing instructions of the adhesive manufacturer must be observed.
ISO transponder 8.23 MDS D521 8.23 MDS D521 8.23.1 Characteristics MDS D521 Characteristics Area of application The MDS D521 is designed for tool coding according to DIN 69873. It can be used wherever small data carriers and exact positioning are required, e.g. tool identification, workpiece holders. The rugged housing of the MDS D521 means that it can also be used in a harsh industrial environment without problems. 8.23.
ISO transponder 8.23 MDS D521 Flush-mounting Figure 8-60 Mounting of MDS D421/D521/E623 in metal Flush-mounting of the MDS in metal with tools Figure 8-61 Flush-mounting of MDS D421/D521/E623 in metal with tools b1 0.5 x 45° b2 0.3 x 45° or R0.3 d1 10 (-0.04... -0.13) d2 10 (+0.09... 0) t1 4.5 (-0 ... -0.1) t2 4.6 (+0.2 ... 0) All dimensions in mm Note Installation instruction The MDS should not protrude out of the locating hole; it must be flush with the outside contour.
ISO transponder 8.
ISO transponder 8.
ISO transponder 8.24 MDS D522 8.23.5 Dimension drawing Figure 8-64 Dimension drawing of MDS D521 All dimensions in mm 8.24 MDS D522 8.24.1 Characteristics MDS D522 8.24.2 Characteristics Area of application Identification of metallic workpiece holders, workpieces or containers Memory size 8192 bytes of FRAM user memory Write/read range See "Field data of ISO transponders (MDS D) (Page 56).
ISO transponder 8.24 MDS D522 8.24.3 Mounting in metal Flush-mounting Figure 8-65 Mounting of MDS D522 in metal Mounting information for screws You can screw the transponder into a pre-drilled threaded hole using the screw-in aid.
ISO transponder 8.24 MDS D522 6GT2600-5AF00 • UID • 8 bytes • User memory • 8192 bytes FRAM Read cycles (at < 40 ℃) > 1012 Write cycles (at < 40 ℃) > 1012 Data retention time (at < 40 ℃) > 10 years Write/read distance (Sg) Dependent on the reader used, see section "Field data of ISO transponders (MDS D) (Page 56)" MTBF (Mean Time Between Failures) 285 years Mechanical specifications Housing • Material • Plastic PA 6.
ISO transponder 8.25 MDS D522 special variant 8.24.5 Dimension drawing Figure 8-66 Dimensional drawing of MDS D522 All dimensions in mm 8.25 MDS D522 special variant 8.25.1 Characteristics MDS D522 special version 8.25.2 Characteristics Area of application Identification of metallic workpiece holders or workpieces Memory size 8192 bytes of FRAM user memory Write/read range See "Field data of ISO transponders (MDS D) (Page 56).
ISO transponder 8.25 MDS D522 special variant 8.25.3 Mounting in metal Flush-mounting Figure 8-67 8.25.4 Flush installation of the MDS D522 special version in metal without clearance Installation instructions The transponder MDS D522 special version is designed to be mounted once. Note the following instructions when mounting the MDS D522 in a workpiece to avoid damaging the transponder: ● Prepare the workpiece according to the following drawing.
ISO transponder 8.
ISO transponder 8.25 MDS D522 special variant 8.25.
ISO transponder 8.25 MDS D522 special variant 8.25.
ISO transponder 8.26 MDS D524 8.26 MDS D524 8.26.1 Characteristics MDS D524 Characteristics Area of application Production and distribution logistics as well as in assembly and production lines, can also be used in a harsh industrial environment without problem 8.26.2 Memory size 8192 bytes of FRAM user memory Write/read range See section "Field data of ISO transponders (MDS D) (Page 56).
ISO transponder 8.26 MDS D524 8.26.
ISO transponder 8.26 MDS D524 Note Going below the distances If the distances (a and h) are not observed, a reduction of the field data results. It is possible to mount the MDS with metal screws (M3 countersunk head screws). This has no tangible impact on the range. 8.26.
ISO transponder 8.26 MDS D524 6GT2600-5AC00 Degree of protection to EN 60529 • IP67 • IPx9K Shock according to EN 60721-3-7 Class 7M31) 1000 m/s2 Vibration according to EN 60721-3-7 Class 7M31) 200 m/s2 Torsion and bending load Not permitted Design, dimensions and weight 8.26.5 Dimensions (Ø x H) 27 x 4 mm Weight 5g Type of mounting • Glued 2) • 1x screw M3 3) ≤ 1 Nm 1) The values for shock and vibration are maximum values and must not be applied continuously.
ISO transponder 8.27 MDS D525 8.27 MDS D525 8.27.1 Characteristics MDS D525 Characteristics Area of application Compact and rugged ISO transponder; suitable for screw mounting Use in assembly and production lines in the powertrain sector; ideal for mounting on motors, gearboxes, and workpiece holders Rugged packaging of the MDS D525; can therefore also be used under extreme environmental conditions without problems 8.27.
ISO transponder 8.27 MDS D525 8.27.3 Application example Figure 8-73 8.27.
ISO transponder 8.27 MDS D525 6GT2600-5AG00 Mechanical specifications Enclosure • Material • Plastic PA 6.
ISO transponder 8.27 MDS D525 8.27.
ISO transponder 8.28 MDS D526 8.28 MDS D526 8.28.1 Characteristics MDS D526 8.28.2 Characteristics Area of application Compact and rugged ISO transponder; suitable for identification of transport units in production-related logistics; can also be deployed in harsh conditions Memory size 8192 bytes of FRAM user memory Write/read range See section "Field data of ISO transponders (MDS D) (Page 56).
ISO transponder 8.28 MDS D526 8.28.
ISO transponder 8.28 MDS D526 8.28.
ISO transponder 8.28 MDS D526 6GT2600-5AH00 8.28.5 Weight 13 g Type of mounting 1 x M4 screw 2) ≤ 1 Nm 1) The values for shock and vibration are maximum values and must not be applied continuously. 2 ) To prevent it loosening during operation, secure the screw with screw locking varnish.
ISO transponder 8.29 MDS D528 8.29 MDS D528 8.29.1 Characteristics MDS D528 Characteristics Area of application Compact and rugged ISO transponder; suitable for screw mounting Use in assembly and production lines in the powertrain sector The rugged housing of the MDS D528 means that it can also be used in extreme environmental conditions without problems. 8.29.
ISO transponder 8.29 MDS D528 8.29.3 Application example Figure 8-78 8.29.
ISO transponder 8.29 MDS D528 6GT2600-5AK00 Mechanical specifications Housing • Material • Plastic PA 6.
ISO transponder 8.29 MDS D528 8.29.
ISO transponder 8.
System integration 9 The communication modules (interface modules) are links between the RFID components (reader and transponder) and the higher-level controllers (e.g. SIMATIC S7), or PCs or computers. 9.
System integration 9.1 Introduction Interface modules/communication modules and function blocks The following table shows the most important characteristics of the interface modules/communications modules.
System integration 9.2 ASM 456 ASM/ communications module S7-300 / S7-400 and STEP 7 Classic V5.5 SIMATIC RF160C SIMATIC RF170C Compatible program blocks in conjunction with ... S7-300 / S7-400 and STEP 7 Basic/Professional S7-1200 / S7-1500 and STEP 7 Basic/Professional FC 44 FC 44 Application blocks for RF160C Application blocks for RF160C Application blocks for RF160C FB 45 FB 45 Ident profile FB 55 FB 55 Ident blocks PIB_1200_UID_001KB PIB_1200_UID_032KB SIMATIC RF180C 9.
System integration 9.3 ASM 475 9.3 ASM 475 9.3.1 Features Area of application The ASM 475 interface module acting as the link between all RF300 systems and SIMATIC S7-300 performs the functions of a communication module. It can be operated centrally in the S7-300 or decentrally in an ET200M. As many as eight ASM 475 interface modules can be plugged into one SIMATIC S7-300 rack and operated. In a configuration with several racks (max. four), the ASM 475 can be plugged into and operated on any rack.
System integration 9.3 ASM 475 9.3.
System integration 9.3 ASM 475 9.3.3 Indicators Bezel and indicator elements The figure below illustrates the bezel of the ASM 475 and the inside of the front door complete with the associated connection diagram. The read/write devices must be connected to the ASM in accordance with the connection diagram.
System integration 9.3 ASM 475 Display elements on the ASM Table 9- 5 Function of the LEDs on the ASM 475 Light emitting diode Meaning SF System fault (hardware error on ASM) DC 5V 24 V are connected to ASM and the 5 V voltage on ASM is OK. ACT_1, ACT_2 The corresponding reader is active in processing a user command. ERR_1, ERR_2 A flashing pattern indicates the last error to occur. This display can be reset using the parameter Option 1. PRE_1, PRE_2 Indicates the presence of a transponder.
System integration 9.3 ASM 475 9.3.4 Configuration Centralized configuration with SIMATIC S7-300 Figure 9-4 Configuration of ASM 475 central Distributed configuration with ET200M Figure 9-5 Configuration of ASM 475 distributed Reader connection system You will find more information on the reader connector technology in the section "Reader RF3xxR (RS422) with ASM 475 (Page 438)".
System integration 9.
System integration 9.3 ASM 475 9.3.5 Shield connection When the reader is connected to the ASM 475, the cable shield must be connected to a shield terminal. Shield terminals and holding clips are standard components of the product spectrum of S7-300. ① ② ③ ④ Holding bracket Cable to 2nd reader Cable to 1st reader Shield terminal Figure 9-6 9.3.
System integration 9.3 ASM 475 6GT2002-0GA10 • Supply voltage Design of the interface to the reader for communication • Screw-type or spring-loaded terminals Screw-type or spring-loaded terminals Mechanical specifications Housing • Material • Noryl • Color • Anthracite Supply voltage, current consumption, power loss Supply voltage 24 VDC Typical current consumption • Without connected devices • 0.1 A • Including connected devices • 1.0 A Power dissipation of the module, typ.
System integration 9.
System integration 9.5 RF160C 9.5 RF160C Configuration with RF160C Figure 9-8 Configuration RF160C For more detailed information, refer to Operating Instructions RF160C (https://support.industry.siemens.com/cs/ww/en/view/42788808).
System integration 9.6 RF170C 9.6 RF170C Configuration with RF170C Figure 9-9 Configuration RF170C For more detailed information, please refer to SIMATIC RF170C Operating Instructions (https://support.industry.siemens.com/cs/ww/en/view/32622825).
System integration 9.7 RF180C 9.7 RF180C Configured with RF180C Figure 9-10 Configuration of RF180C For more detailed information, refer to SIMATIC RF180C Operating Instructions (https://support.industry.siemens.com/cs/ww/en/view/30012157). 9.
System integration 9.8 RF182C For more detailed information, refer to SIMATIC RF182C Operating Instructions (https://support.industry.siemens.com/cs/ww/en/view/38507897).
10 System diagnostics 10.1 Error codes of the RF300 readers Error codes of the RF300 readers Note Validity of the error codes The following error codes apply only to RF300 readers with an RS-422 interface (except for Scanmode).
System diagnostics 10.1 Error codes of the RF300 readers Flashing of the Error code red (hexaLED operating decimal) display on the reader Description 12 The transponder memory cannot be written, possible causes: 0C • Hardware fault (memory faulty) • Memory write-protected (corresponding OTP area has already been written) 13 0D Error in the specified memory address (access attempted to nonexistent or non-accessible memory areas).
System diagnostics 10.2 Diagnostics functions - STEP 7 10.2 Diagnostics functions - STEP 7 10.2.1 Overview Extended diagnostic functions with SIMATIC RF300 With SIMATIC RF300, extended diagnostics functions are available with STEP 7 Classic / Basic / Professional which simplify commissioning and maintenance. Extensive diagnostics functions for the SIMATIC RF300 readers with the TIA Portal for STEP 7 Basic / Professional are being planned.
System diagnostics 10.2 Diagnostics functions - STEP 7 10.2.2 Reader diagnostics with "reader status" (SLG-STATUS) With this command you can query the status and diagnostics data of the reader. Note Scope of the described UDTs Note that below only the variables are listed that are relevant for the RF300 system. You will find the full UDTs in the manual "Ident Profile and Ident Blocks".
System diagnostics 10.2 Diagnostics functions - STEP 7 Name Type Possible Values (hexadecimal) Comment firmware char 00 ... FF Type of firmware 01, 02, 03 = Readers of the 1st generation F = Full version for readers of the 2nd generation P = Pilot version for readers of the 2nd generation firmware_version driver driver_version interface baud distance_limiting_SLG word Firmware version 00 ... FF = Version (high byte) 00 ...
System diagnostics 10.2 Diagnostics functions - STEP 7 Name multitag_SLG Type Possible Values (hexadecimal) Comment 08 2.
System diagnostics 10.2 Diagnostics functions - STEP 7 Attributes "0x86" (mode 06), corresponds to UDT 280 Table 10- 5 Error counter Name Type Possible Values (hexadecimal) Comment FZP byte 00 ... FF = Error counter, passive (errors during idle time) ABZ = Abort counter CFZ = Code error counter SFZ = Signature error counter CRCFZ = CRC error counter BSTAT = Current command status ASMFZ = Interface problems to host (CM/PC) parity, BCC, frame error Note Counter values are deleted.
System diagnostics 10.2 Diagnostics functions - STEP 7 10.2.3 Transponder diagnostics with "Tag status" (MDS-STATUS) With this command you can query the status and diagnostics data from the transponder currently located in the antenna field. Attribute "0x04" (mode 01), corresponds to UDT 260 (only for RF300 transponders) Name Type UID array[1…8] byte Possible Values (hexadecimal) Unique identifier 000000005555555 ...
System diagnostics 10.2 Diagnostics functions - STEP 7 Attribute "0x82" (mode 02), corresponds to UDT 270 (only for RF300 transponders) Name Type UID array[1…8] byte Possible Values (hexadecimal) Comment Unique identifier 0000000055555555 ... 00000000FFFFFFFF = b0-31: 4 byte TAG ID, b32-63: 0 LFD byte 0 ... FF = Value for field strength determined in the transponder FZP byte 0 ... FF = Error counter (passive) ➙ errors during idle time FZA byte 0 ...
System diagnostics 10.2 Diagnostics functions - STEP 7 Attribute "0x83" (mode 03), corresponds to UDT 230 Name Type UID array[1…8] byte Possible Values (hexadecimal) Comment Unique identifier 0000000000000000 ...
A Appendix A.1 Certificates and approvals All the latest RFID radio approvals are available on the Internet (http://www.siemens.com/rfid-approvals). Labeling Description Conformity acc. to the RED EU directive Notes on CE marking The following applies to the system described in this documentation: The CE marking on a device indicates the corresponding approval.
Appendix A.1 Certificates and approvals Labeling Description UL recognition mark Canadian Standard Association (CSA) acc. to standard C22.2. No. 60950 (LR 81690), C22.2 No. 142 or C22.2 NO. 61010-1-12 (LR 63533) Canadian Standard Association (CSA) acc. to American Standard UL 60950 (LR 81690), UL508 or UL61010-1/UL61010-2-201 (LR 63533) This product meets the requirements of the AS/NZS 3548 Norm. USA (FCC) This device complies with Part 15 of the FCC Rules. FCC ID: NXW-RF...
Appendix A.2 Accessories A.2 Accessories A.2.
Appendix A.2 Accessories Product photo Insertable transponders Characteristics • MDS D139 • Spacer for mounting on metal • MDS D339 • Distance from transponder to metal: 30 mm • Mounting: 1 x M5 stainless steel screw • Tightening torque: 1.
Appendix A.2 Accessories Product photo Insertable transponders Characteristics • MDS D126 • Spacer for mounting on metal • MDS D426 • Distance from transponder to metal: 25 mm • MDS D526 • Mounting: 1 x M4 countersunk screw • MDS E624 • Tightening torque: ≤ 1 Nm • Material: PA6 • Weight: Approx. 12 g • Remounting cycles: min.
Appendix A.
Appendix A.
Appendix A.
Appendix A.
Appendix A.2 Accessories A.2.2 MOBY I migration The RF300 readers of the new generation provide the option of simple migration of existing MOBY I systems to SIMATIC RF300. The so-called MOBY I emulation processes frames of the MOBY I protocol on its serial interface and communicates with the established RF300 transponders. If the RF300 reader is connected to a communications module with MOBY I capability, the reader automatically recognizes the serial protocol and sets the MOBY I protocol.
Appendix A.2 Accessories Design of the Y adapter With the aid of the Y adapter (article number 6GT2090-4VE00) a slow migration of a MOBY I application to RF300 is possible. The Y adapter is mounted in the vicinity of a MOBY I SLG. It forwards signals of a communications module both to the MOBY I SLG and to the RF300 reader to be newly installed. The transponder commands are handled either with a MOBY I transponder or with an RF300 transponder. To do this, no change to the MOBY I application is necessary.
Appendix A.2 Accessories Labeling LED Power (X4) Description Flashes at 1:1 rate The following options are available: • Supply voltage at X4, but not at X1. • Supply voltage at X1, but not at X4. • No component is connected to either X2 or X3. Power (X4) Flashes at 1:10 rate; indicates an error. MOBY I (X2) No MOBY I-SLG connected to the Y-adapter or the MOBY ISLG does not work. MOBY I (X2) A ready MOBY I-SLG is connected to the Y-adapter.
Appendix A.2 Accessories A.2.
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.
Appendix A.3 Connecting cable Connecting cable with angled connector Figure A-12 Connecting cable between ASM 456, RF160C, RF170C, RF180C and RF3xxR reader (RS-422) with angled connector Table A- 4 Ordering data Length L Article number 2m 6GT2891-4JH20 5m 6GT2891-4JH50 10 m 6GT2891-4JN10 The angled connector has a height of h = 29 mm and a length of l = 38 mm. Remember that due to the construction, the distance between the edge of the connector and the edge of the reader housing (H) is higher.
Appendix A.3 Connecting cable A.3.2 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 6GT2891-4E… plug-in cables.
Appendix A.3 Connecting cable A.3.
Appendix A.3 Connecting cable A.3.4 Reader RF380R (RS232) - PC The connecting cables have a length of 5 m. The outgoing cable for the power supply has a length of 0.5 m. With 4-pin power supply connector Figure A-16 Connecting cable between PC and RF380R (RS-232) with 4-pin power supply connector Suitable power supply unit: e.g.
Appendix A.4 Ordering data Table A- 8 Ordering data for wide-range power supply unit Article number Wide-range power supply unit for SIMATIC RF-systems (100 - 240 VAC / 24 VDC / 3 A) with 2 m connecting cable with country-specific plug A.4 EU: 6GT2898-0AA00 UK: 6GT2898-0AA10 US: 6GT2898-0AA20 Ordering data RF300 components Note Product update Note that readers with the article numbers "6GT2801-xABxx" are being replaced by readers with the article numbers "6GT2801-xBAxx".
Appendix A.4 Ordering data Reader Description RF310R second generation • With RS-422 interface (3964R) • IP67 • Operating temperature: -25 °C ... +70 °C RF340R RF340R 2nd generation RF350R • Dimensions (L x W x H): 55 x 75 x 30 mm • with integrated antenna • ISO 15693 compatible • ISO 14443 (MOBY E) compatible • With RS-422 interface (3964R) • IP67 • Operating temperature -25 °C ...
Appendix A.4 Ordering data Reader Description RF380R • with RS-422 interface (3964R) and RS-232 interface (3964R) • IP67 • Operating temperature: -25 °C ... +70 °C RF380R Scanmode • Dimensions (L x W x H): 160 x 80 x 41 mm • with integrated antenna • ISO 15693 compatible • with RS-422 interface (Scanmode) and RS-232 interface (Scanmode) • IP67 • Operating temperature: -25 °C ...
Appendix A.
Appendix A.4 Ordering data Table A- 11 ISO transponder ISO transponder Description MDS D100 • MDS D117 MDS D124 MDS D126 MDS D127 MDS D139 MDS D160 MDS D165 MDS D200 MDS D261 MDS D324 MDS D339 MDS D400 MDS D421 Memory size: 112 bytes of EEPROM user memory • Dimensions (L x W x H): 85.6 x 54 x 0.9 mm • Credit card format • Memory size: 112 bytes of EEPROM user memory • Dimensions (Ø x H): 4 x 5 mm • Memory size: 112 bytes of EEPROM user memory • Dimensions (Ø x H): 27 (±0.2) x 4 (±0.
Appendix A.4 Ordering data ISO transponder Description MDS D422 • Memory size: 2000 bytes of FRAM user memory • Dimensions (Ø x H): M20 x 6 (±0.2) mm • Can be screwed into metal (flush-mounted) • Memory size: 2000 bytes of FRAM user memory • Dimensions (Ø x H): 30 (+0.2/-0.5) x 8 (-0.5) mm • Memory size: 2000 bytes of FRAM user memory • Dimensions (Ø x H): 27 (±0.2) x 4 (±0.
Appendix A.4 Ordering data Table A- 12 Communication modules/interface modules Communications module Description Article number ASM 456 ASM 456 for PROFIBUS DP-V1 max. 2 readers connectable 6GT2002-0ED00 ASM 475 ASM 475 for SIMATIC S7 max. 2 RF3xxR readers with RS-422 can be connected in parallel without a front connector 6GT2002-0GA10 RF120C Communications module RF120C for SIMATIC S7-1200 6GT2002-0LA00 RF160C Communications module RF160C for PROFIBUS DP V0 max.
Appendix A.4 Ordering data Antenna Description ANT 3S • IP67 • Operating temperature: -25 °C ... +70 °C • Dimensions (L x W x H): 50 x 28 x 10 mm • without antenna connecting cable • incl. one plug-in antenna connecting cable 3 m 6GT2398-1CD60-0AX0 • IP67 6GT2398-1CF00 ANT 8 ANT 12 ANT 18 ANT 30 Article number 6GT2398-1CD50-0AX0 • Operating temperature: -25 °C ... +70 °C • Dimensions (Ø x L): M8 x 40 mm • without antenna connecting cable • incl.
Appendix A.4 Ordering data Table A- 15 RF300 transponder accessories Transponder Accessories Article number RF320T Spacer (Ø x H): 36 x 22 mm 6GT2690-0AK00 RF330T Fixing hood (L x W x H): 49.4 x 20 x 9.
Appendix A.
Appendix A.5 Service & Support A.5 Service & Support Industry Online Support In addition to the product documentation, the comprehensive online information platform of Siemens Industry Online Support at the following Internet address: Link 1: (https://support.industry.siemens.com/cs/de/en/) Apart from news, there you will also find: ● Project information: Manuals, FAQs, downloads, application examples etc. ● Contacts, Technical Forum ● The option submitting a support query: link 2: (https://support.
Appendix A.
Index A E Antennas Minimum clearances, 228 Application Planning SIMATIC RF300, 39 Approvals, 423 ASM 475 Assignment for connecting cable, 404, 438 Cable installation, 405 Design and function, 400 Function of the LEDs, 403 Indicators, 403 Ordering data, 401 Pin assignment, 404, 438 Status display with LEDs, 403 Electromagnetic compatibility Coupling paths, 114 Electromagnetic interference, 112 EMC directives Definition, 110 Equipotential bonding, 120 EMC Directives Propagation of electromagnetic interfere
Index ISO transponder Resistance to chemicals, 99 M Main applications, 33 MDS D100 transponder Technical specifications, 281 MDS D117 transponder Technical specifications, 284 MDS D124 Transponder Technical specifications, 288 MDS D127 transponder Technical specifications, 298 MDS D160 transponder Technical specifications, 309 MDS D200 transponder Technical specifications, 316 MDS D339 transponder Technical specifications, 328 MDS D424 Transponder Technical specifications, 352 MDS D425 Transponder Technic
Index S Scanmode, 24 Selection criteria SIMATIC RF300 components, 39 Shielding, 121 Static mode, 47 Dwell time of the transponder, 49 Structure System manual, 15 Support, 451 System diagnostics MDS STATUS, 420 Reader status, 416 SLG STATUS, 416 Tag status, 420 System overview RFID systems, 23 T Technical specifications MDS D100 transponder, 281 MDS D117 transponder, 284 MDS D124 Transponder, 288 MDS D127 transponder, 298 MDS D160 transponder, 309 MDS D200 transponder, 316 MDS D339 transponder, 328 MDS D42
Index Metal-free area, 249 Technical specifications, 251 Transponder RF360T Characteristics, 253 Metal-free area, 254 Technical specifications, 257 Transponder RF370T Characteristics, 259 Metal-free area, 260 Technical specifications, 261 Transponder RF380T Metal-free area, 267 Technical specifications, 273 U User data Calculation, 50 SIMATIC RF300 456 System Manual, 07/2017, C79000-G8976-C345-07