___________________ 2 Safety notes ___________________ 3 System overview ___________________ 4 Planning the RF200 system ___________________ 5 Readers ___________________ 6 Antennas ___________________ 7 Transponder ___________________ 8 System integration ___________________ 9 System diagnostics ___________________ A Appendix ___________________ Introduction SIMATIC Ident RFID systems SIMATIC RF200 System Manual 03/2019 J31069-D0227-U001-A11-7619
Legal information Warning notice system This manual contains notices you have to observe in order to ensure your personal safety, as well as to prevent damage to property. The notices referring to your personal safety are highlighted in the manual by a safety alert symbol, notices referring only to property damage have no safety alert symbol. These notices shown below are graded according to the degree of danger.
Table of contents 1 Introduction ............................................................................................................................13 2 Safety notes ...........................................................................................................................15 2.1 3 4 General safety instructions ................................................................................................ 15 System overview ....................................................
Table of contents 5 4.4.1.5 4.4.2 4.4.2.1 4.4.2.2 4.4.2.3 4.4.2.4 4.4.2.5 4.4.2.6 Polyamide 12 ...................................................................................................................110 Transponder.....................................................................................................................112 Overview of the transponders and their housing materials ................................................ 112 Epoxy resin .........................................
Table of contents 5.5.3 5.5.4 5.5.5 5.5.6 5.5.7 Pin assignment RF250R ...................................................................................................148 LED operating display ......................................................................................................148 Technical specifications ....................................................................................................149 Approvals ......................................................................
Table of contents 6 Antennas..............................................................................................................................191 6.1 6.1.1 6.1.2 6.1.3 6.1.4 6.1.5 6.1.6 ANT 1 ..............................................................................................................................191 Characteristics .................................................................................................................191 Ordering data ............................
Table of contents 6.7.2 6.7.3 6.7.4 6.7.5 6.7.6 6.7.7 Ordering data ...................................................................................................................223 Transmission window .......................................................................................................224 Flush-mounted in metal ....................................................................................................224 Minimum spacing .....................................................
Table of contents 7 6.13.2 6.13.3 6.13.4 6.13.5 6.13.6 6.13.7 Ordering data ...................................................................................................................259 Transmission window .......................................................................................................260 Metal-free area .................................................................................................................261 Minimum distance .....................................
Table of contents 7.7 7.7.1 7.7.2 7.7.3 7.7.4 7.7.5 7.7.6 7.7.7 7.7.8 MDS D139 .......................................................................................................................295 Characteristics .................................................................................................................295 Ordering data ...................................................................................................................295 Metal-free area ..........................
Table of contents 7.14.3 7.14.4 7.14.5 Mounting on metal ............................................................................................................332 Technical specifications....................................................................................................334 Dimension drawing ...........................................................................................................335 7.15 7.15.1 7.15.2 7.15.3 7.15.4 7.15.5 MDS D421 .................................
Table of contents 7.22.3 7.22.4 7.22.5 Mounting on metal ............................................................................................................367 Technical specifications ....................................................................................................368 Dimension drawings .........................................................................................................369 7.23 7.23.1 7.23.2 7.23.3 7.23.4 7.23.5 MDS D521 .................................
Table of contents 7.30.2 7.30.3 7.30.4 7.30.5 Ordering data ...................................................................................................................400 Mounting on metal............................................................................................................401 Technical specifications....................................................................................................402 Dimension drawings .......................................................
Introduction 1 SIMATIC RF200 is a compact RFID system in the SIMATIC RFID product family. The product range comprises cost-efficient RF readers that are ideal for use in small assembly lines or in intralogistics. SIMATIC RF200 RFID readers only support the RFID standard ISO 15693 and are therefore ideal for operation with the extensive range of ISO 15693 transponders.
Introduction Recycling and disposal The products are low in harmful substances, can be recycled and meet the requirements of the Directive 2012/19/EU for disposal of waste electrical and electronic equipment (WEEE). Do not dispose of the products at public disposal sites. For environmentally compliant recycling and disposal of your electronic waste, please contact a company certified for the disposal of electronic waste or your Siemens representative. Note the different country-specific regulations.
2 Safety notes 2.1 General safety instructions SIMATIC RFID products comply with the salient safety specifications acc. to IEC, VDE, EN, UL and CSA. If you have questions about the permissibility of the installation in the planned environment, please contact your service representative. WARNING Opening the device Do not open the device when when the power supply is on.
Safety notes 2.1 General safety instructions Repairs WARNING Repairs only by authorized qualified personnel Repairs may only be carried out by authorized qualified personnel. Unauthorized opening of and improper repairs to the device may result in substantial damage to equipment or risk of personal injury to the user. System expansions Only install system expansions intended for this system.
Safety notes 2.
Safety notes 2.1 General safety instructions Security information Siemens provides products and solutions with industrial security functions that support the secure operation of plants, systems, machines and networks. In order to protect plants, systems, machines and networks against cyber threats, it is necessary to implement – and continuously maintain – a holistic, state-of-the-art industrial security concept. Siemens’ products and solutions constitute one element of such a concept.
System overview 3 SIMATIC RF200 is an inductive identification system that is compatible with the ISO 15693 standard and was specially designed for use in industrial production for the control and optimization of material flows. In contrast to SIMATIC RF300, SIMATIC RF200 is intended for RFID applications where performance requirements are not very high, for example with regard to data volume, transfer rate or diagnostics options. SIMATIC RF200 is characterized by particularly favorable prices.
System overview 3.1 RFID components and their function 3.
System overview 3.
System overview 3.
System overview 3.
System overview 3.2 Overview of transponders 3.2 Overview of transponders Overview of typical areas of application of ISO transponders for RF200 Transponder Area of application MDS D100 From simple identification such as electronic barcode replacement or supplementation, through warehouse and distribution logistics, right up to product identification. With this transponder, the maximum ranges are achieved in combination with the SIMATIC RF260R reader.
System overview 3.2 Overview of transponders Transponder Area of application MDS D400 Simple identification such as electronic barcode replacement/supplements, from warehouse and distribution logistics right through to product identification. MDS D421 The MDS D421 is designed for tool coding according to DIN 69873. It can be used wherever small data carriers and exact positioning are required, e.g.
System overview 3.
Planning the RF200 system 4.1 Fundamentals of application planning 4.1.1 Selection criteria for SIMATIC RF200 components 4 Assess your application according to the following criteria, in order to choose the right SIMATIC RF200 components: ● Static or dynamic data transfer ● Data volume to be transferred ● Speed in case of dynamic transfer ● Ambient conditions such as relative humidity, temperature, chemical impacts, etc.
Planning the RF200 system 4.
Planning the RF200 system 4.
Planning the RF200 system 4.1 Fundamentals of application planning shrinks to a single point at distance Sg. Only static mode should thus be used in the area between Sa and Sg. 4.1.
Planning the RF200 system 4.1 Fundamentals of application planning 4.1.4 Impact of secondary fields Secondary fields in the range from 0 mm to 30% of the limit distance (Sg) generally always exist. They should, however, only be used during configuration in exceptional cases, since the read/write distances are very limited. Exact details of the secondary field geometry cannot be given, since these values depend heavily on the operating distance and the application.
Planning the RF200 system 4.1 Fundamentals of application planning Secondary fields without shielding The following graphic shows typical primary and secondary fields, if no shielding measures are taken. ① ② Main field Secondary field Figure 4-4 Secondary field without shielding In this arrangement, the reader can also read tags via the secondary field. Shielding is required in order to prevent unwanted reading via the secondary field, as shown and described in the following.
Planning the RF200 system 4.1 Fundamentals of application planning Secondary fields with shielding The following graphic shows typical primary and secondary fields, with metal shielding this time. The metal shielding prevents the reader from detecting tags via the secondary field.
Planning the RF200 system 4.1 Fundamentals of application planning 4.1.5 Permissible directions of motion of the transponder Detection area and direction of motion of the transponder The transponder and reader have no polarization axis, i.e. the transponder can come in from any direction, assume any position as parallel as possible to the reader, and cross the transmission window.
Planning the RF200 system 4.1 Fundamentals of application planning 4.1.6 Operation in static and dynamic mode Operation in static mode If working in static mode, the transponder can be operated up to the limit distance (Sg). The transponder must then be positioned exactly over the reader: Figure 4-7 Operation in static mode Note Note that in a metallic environment the values for the limit distance are reduced.
Planning the RF200 system 4.1 Fundamentals of application planning 4.1.7 Dwell time of the transponder The dwell time is the time in which the transponder remains within the transmission window of the reader. The reader can exchange data with the transponder during this time. The dwell time is calculated as follows: tV: Dwell time of the transponder L: Length of the transmission window vTag: Speed of the transponder (tag) in dynamic mode 0.
Planning the RF200 system 4.1 Fundamentals of application planning 4.1.8 Communication between communication module, reader and transponder Aids for calculating the data transmission times User-friendly calculation tools are available for the communications modules ASM 456, RF160C, RF170C and RF180C to calculate data transfer times. The calculation tools can be found on the DVD "Ident Systems Software & Documentation", article number 6GT20802AA20.
Planning the RF200 system 4.2 Field data of transponders and readers 4.2 Field data of transponders and readers The following tables show the field data for all SIMATIC RF200 components of transponders and readers. This makes the correct selection of a transponder and reader particularly easy. All technical data listed is typical data and is applicable for an ambient room temperature of between 0 °C and +50 °C, a supply voltage of between 22 V and 27 V DC as well as an environment free of metal.
Planning the RF200 system 4.2 Field data of transponders and readers 4.2.1 Field data The limit distances (Sg) and operating distances (Sa) along with the length of the transmission window for each reader-transponder combination are listed in the tables below. Table 4- 1 SIMATIC RF210R field data Length of the transmission window (Ld) Operating distance (Sa) Limit distance (Sg) 25 1 ... 18 20 3 0 ... 2 2 MDS D160 20 1 ... 10 12 MDS D324 20 1 ... 8 9 MDS D421 5 0 ...
Planning the RF200 system 4.2 Field data of transponders and readers Table 4- 2 SIMATIC RF220R field data Length of the transmission window (Ld) Operating distance (Sa) Limit distance (Sg) MDS D124 35 1 ... 28 31 MDS D126 45 2 ... 30 35 MDS D160 20 1 ... 20 22 MDS D324 30 2 ... 21 25 MDS D422 18 1 ... 12 14 MDS D423 30 2 ...24 28 MDS D424 30 2 ... 25 29 MDS D425 20 1 ... 11 13 MDS D426 40 2 ... 25 30 MDS D428 25 1 ... 18 21 MDS D460 25 1 ...
Planning the RF200 system 4.2 Field data of transponders and readers Table 4- 3 SIMATIC RF240R field data Length of the transmission window (L) Operating distance (Sa) Limit distance (Sg) MDS D100 100 2 ... 84 95 MDS D124 65 2 ... 53 60 MDS D126 80 2 ... 57 65 MDS D160 50 1 ... 33 37 MDS D165 105 2 ... 80 94 MDS D200 90 2 ... 69 78 MDS D261 70 2 ... 60 70 MDS D324 55 1 ... 36 40 MDS D400 95 2 ... 80 90 MDS D422 25 1 ... 12 15 MDS D423 45 2 ...
Planning the RF200 system 4.2 Field data of transponders and readers Table 4- 4 Field data SIMATIC RF250R, with ANT 1 Length of the transmission window (Ld) Operating distance (Sa) Limit distance (Sg) MDS D100 80 5 ... 95 115 MDS D124 55 2 ... 60 75 MDS D126 150 2 ... 80 95 MDS D139 75 5 ... 90 105 MDS D160 50 2 ... 35 45 MDS D165 140 5 ... 95 110 MDS D200 130 5 ... 90 100 MDS D261 100 2 ... 90 110 MDS D324 50 5 ... 60 70 MDS D339 110 2 ...
Planning the RF200 system 4.2 Field data of transponders and readers Table 4- 5 Field data SIMATIC RF250R, with ANT 3 Length of the transmission window (Ld) Operating distance (Sa) Limit distance (Sg) MDS D124 40 1 ... 32 40 MDS D126 65 0 ... 47 60 MDS D160 24 1 ... 23 30 MDS D324 32 1 ... 22 35 MDS D422 20 0 ... 12 15 MDS D423 35 0 ... 24 30 MDS D424 40 0 ... 34 48 MDS D425 22 1 ... 12 20 MDS D426 65 0 ... 44 58 MDS D428 20 1 ... 20 32 MDS D460 24 1 ...
Planning the RF200 system 4.2 Field data of transponders and readers Table 4- 7 Field data SIMATIC RF250R, with ANT 8 Length of the transmission window (Ld) Operating distance (Sa) Limit distance (Sg) MDS D117 2 0 ... 2 3 MDS D127 3 0 ... 3 4 MDS D421 3 0 ... 3 4 MDS D521 3 0 ... 3 4 Length of the transmission window (Ld) Operating distance (Sa) Limit distance (Sg) MDS D117 3 0 ... 3 4 MDS D127 4 0 ... 4 5 MDS D160 18 0 ... 12 17 MDS D421 10 0 ... 2 3 MDS D422 22 0 .
Planning the RF200 system 4.2 Field data of transponders and readers Table 4- 9 Field data SIMATIC RF250R, with ANT 12 (stainless steel variant) Length of the transmission window (Ld) Operating distance (Sa) Limit distance (Sg) MDS D117 3 0 ... 2 3 MDS D127 4 0 ... 3 4 MDS D160 15 0 ... 11 13 MDS D421 9 0 ... 2 3 MDS D422 20 0 ... 5 6 MDS D425 10 1 ... 6 8 MDS D428 16 1 ... 10 12 MDS D460 14 1 ... 8 10 MDS D521 9 0 ... 2 3 MDS D522 9 1 ...
Planning the RF200 system 4.2 Field data of transponders and readers Table 4- 11 Field data SIMATIC RF250R, with ANT 18 (stainless steel variant) Length of the transmission window (Ld) Operating distance (Sa) Limit distance (Sg) MDS D124 22 1 ... 28 32 MDS D160 20 1 ... 17 20 MDS D324 28 1 ... 24 27 MDS D421 15 0 ... 3 5 MDS D422 22 0 ... 8 10 MDS D423 21 1 ... 22 25 MDS D424 25 1 ... 30 34 MDS D425 18 1 ... 13 15 MDS D428 18 1 ... 15 18 MDS D460 16 1 ...
Planning the RF200 system 4.2 Field data of transponders and readers Table 4- 12 Field data SIMATIC RF250R, with ANT 30 Length of the transmission window (Ld) Operating distance (Sa) Limit distance (Sg) MDS D124 40 1 ... 35 48 MDS D126 45 0 ... 47 60 MDS D160 25 1 ... 23 30 MDS D324 35 1 ... 22 30 MDS D422 20 0 ... 12 15 MDS D423 35 0 ... 18 30 MDS D424 35 0 ... 34 48 MDS D425 20 1 ... 12 20 MDS D426 45 0 ... 44 58 MDS D428 20 1 ... 20 32 MDS D460 25 1 ...
Planning the RF200 system 4.2 Field data of transponders and readers Table 4- 13 Field data SIMATIC RF250R, with ANT 30 (stainless steel variant) Length of the transmission window (Ld) Operating distance (Sa) Limit distance (Sg) MDS D124 40 1 ... 34 38 MDS D126 45 0 ... 45 50 MDS D160 25 1 ... 22 25 MDS D324 35 1 ... 30 35 MDS D422 20 0 ... 12 15 MDS D423 35 1 ... 28 32 MDS D424 35 1 ... 40 45 MDS D425 20 1 ... 17 20 MDS D426 45 1 ... 40 48 MDS D428 20 1 ...
Planning the RF200 system 4.2 Field data of transponders and readers Table 4- 14 SIMATIC RF260R field data Length of the transmission window (L) Operating distance (Sa) Limit distance (Sg) MDS D100 90 2 ... 110 130 MDS D124 60 2 ... 80 85 MDS D126 80 2 ... 75 100 MDS D139 90 2 ... 80 110 MDS D160 50 2 ... 40 45 MDS D165 120 2 ... 120 135 MDS D200 120 2 ... 100 120 MDS D261 80 2 ... 75 90 MDS D324 50 2 ... 60 70 MDS D339 110 5 ... 65 80 MDS D400 140 2 ...
Planning the RF200 system 4.2 Field data of transponders and readers Table 4- 15 Field data SIMATIC RF280R Length of the transmission window (L) Operating distance (Sa) Limit distance (Sg) in the x direction (Lx) in the y direction (Ly) MDS D100 1) 140 100 10 ... 160 200 MDS D124 80 80 2 ... 110 130 MDS D126 180 140 2 ... 135 160 MDS D139 140 90 5 ... 150 190 MDS D160 80 40 2 ... 55 70 1) 200 140 10 ... 160 190 MDS D200 2) 200 160 20 ...
Planning the RF200 system 4.2 Field data of transponders and readers Table 4- 16 Field data SIMATIC RF285R, with ANT D1 Length of the transmission window (L) Operating distance (Sa) Limit distance (Sg) MDS D100 150 10 ... 150 200 MDS D124 60 0 ... 100 140 MDS D126 150 5 ... 110 150 MDS D139 110 5 ... 160 220 MDS D160 50 0 ... 65 90 MDS D165 150 10 ... 150 200 MDS D200 150 10 ... 130 180 MDS D261 120 5 ... 130 180 MDS D324 50 0 ... 90 130 MDS D339 110 5 ...
Planning the RF200 system 4.2 Field data of transponders and readers Table 4- 17 Field data SIMATIC RF285R, with ANT D5 Length of the transmission window (L) Operating distance (Sa) Limit distance (Sg) MDS D100 320 0 ... 350 450 MDS D124 300 0 ... 180 240 MDS D126 320 0 ... 300 380 MDS D139 320 0 ... 350 450 MDS D160 300 0 ... 110 140 MDS D165 320 0 ... 300 380 MDS D200 320 0 ... 350 450 MDS D261 320 0 ... 300 380 MDS D324 300 0 ... 150 200 MDS D339 320 0 ...
Planning the RF200 system 4.2 Field data of transponders and readers Table 4- 19 Field data SIMATIC RF290R, with ANT D1 (at 2 W) Length of the transmission window (L) Operating distance (Sa) Limit distance (Sg) MDS D100 150 10 ... 180 250 MDS D124 60 0 ... 100 140 MDS D126 150 5 ... 110 150 MDS D139 110 5 ... 160 220 MDS D160 50 0 ... 65 90 MDS D165 150 10 ... 180 250 MDS D200 150 10 ... 170 240 MDS D261 120 5 ... 130 180 MDS D324 50 0 ... 90 130 MDS D339 110 5 ...
Planning the RF200 system 4.2 Field data of transponders and readers Table 4- 20 Field data SIMATIC RF290R, with ANT D5 (at 4 W) Length of the transmission window (L) Operating distance (Sa) Limit distance (Sg) MDS D100 320 0 ... 400 500 MDS D124 300 0 ... 200 280 MDS D126 320 0 ... 350 400 MDS D139 320 0 ... 400 500 MDS D160 300 0 ... 130 180 MDS D165 320 0 ... 350 450 MDS D200 320 0 ... 400 500 MDS D261 320 0 ... 300 400 MDS D324 300 0 ... 200 280 MDS D339 320 0 .
Planning the RF200 system 4.2 Field data of transponders and readers Table 4- 22 Field data SIMATIC RF290R, with ANT D10 (at 4 W) Length of the transmission window (L) Operating distance (Sa) Limit distance (Sg) X direction Y direction MDS D100 1050 350 0 ... 500 600 MDS D124 1000 300 0 ... 200 280 MDS D126 1050 350 0 ... 400 500 MDS D139 1050 350 0 ... 450 550 MDS D165 1050 350 0 ... 350 450 MDS D200 1050 350 0 ... 450 550 MDS D261 1050 350 0 ...
Planning the RF200 system 4.2 Field data of transponders and readers 4.2.2 Minimum clearances Minimum distance from transponder to transponder The specified distances refer to a metal-free environment. For a metallic environment, the specified minimum distances must be multiplied by a factor of 1.5. The transponders designed specifically for installation in/on metal are an exception to this.
Planning the RF200 system 4.
Planning the RF200 system 4.
Planning the RF200 system 4.2 Field data of transponders and readers Minimum distance from reader to reader The information below relates to the minimum clearances between devices mounted next to each other.
Planning the RF200 system 4.3 Installation guidelines 4.3 Installation guidelines 4.3.1 Overview The transponder and reader complete with their antennas are inductive devices. Any type of metal in the vicinity of these devices affects their functionality.
Planning the RF200 system 4.3 Installation guidelines Table 4- 29 Flush-mounting of transponders and readers Representation Description Problem: Flush-mounting of transponders and readers is possible in principle. However, the size of the transmission window is significantly reduced. The following measures can be used to counteract the reduction of the window: Remedy: Enlargement of the non-metallic spacer below the transponder and/or reader.
Planning the RF200 system 4.3 Installation guidelines Mounting of several readers on metal frames or racks Any reader mounted on metal couples part of the field to the metal frame. There is normally no interaction as long as the minimum distance D and metal-free areas a, b are maintained. However, interaction may take place if an iron frame is positioned unfavorably. Longer data transfer times or sporadic error messages at the communication module are the result.
Planning the RF200 system 4.3 Installation guidelines 4.3.4 Impact of metal on the transmission window In general, the following points should be considered when mounting RFID components: ● Direct mounting on metal is allowed only in the case of specially approved transponders. ● Flush-mounting of the components in metal reduces the field data; a test is recommended in critical applications.
Planning the RF200 system 4.3 Installation guidelines 4.3.4.1 RF210R The RF210R can be flush-mounted in metal. Please allow for a possible reduction in the field data values. To avoid reduction in the case of d), the distance a should be ≥ 10 mm.
Planning the RF200 system 4.
Planning the RF200 system 4.
Planning the RF200 system 4.3 Installation guidelines 4.3.4.2 RF220R The RF220R can be flush-mounted in metal. Please allow for a possible reduction in the field data values. To avoid reduction in the case of d), the distance a should be ≥ 15 mm.
Planning the RF200 system 4.
Planning the RF200 system 4.
Planning the RF200 system 4.
Planning the RF200 system 4.
Planning the RF200 system 4.3 Installation guidelines 4.3.4.4 RF250R The RF250R reader is operated with the external antennas ANT 1, 3, 3S, 8, 12, 18 and 30. The antennas can be flush-mounted in metal. Please allow for a possible reduction in the field data values. To prevent a reduction, the clearances a (all around) and b should be observed.
Planning the RF200 system 4.
Planning the RF200 system 4.
Planning the RF200 system 4.
Planning the RF200 system 4.
Planning the RF200 system 4.
Planning the RF200 system 4.
Planning the RF200 system 4.
Planning the RF200 system 4.
Planning the RF200 system 4.3 Installation guidelines 4.3.4.5 RF260R The RF260R can be flush-mounted in metal. Please allow for a possible reduction in the field data values. To avoid reduction, the distance a should be ≥ 20 mm.
Planning the RF200 system 4.
Planning the RF200 system 4.3 Installation guidelines Transponder MDS D526 1) MDS D528 MDS D560 4.3.4.
Planning the RF200 system 4.
Planning the RF200 system 4.
Planning the RF200 system 4.3 Installation guidelines 4.3.4.7 RF285R The RF285R reader is operated with the external antennas ANT D1, D5 and D6. The antennas can be flush-mounted in metal. Please allow for a possible reduction in the field data values. To avoid reduction, the distance a should be observed.
Planning the RF200 system 4.
Planning the RF200 system 4.
Planning the RF200 system 4.
Planning the RF200 system 4.
Planning the RF200 system 4.3 Installation guidelines 4.3.4.8 RF290R The RF290R reader is operated with the external antennas ANT D1, D5, D6 and D10. The antennas can be flush-mounted in metal. Allow for a possible reduction in the field data. To avoid reduction, the distance a should be observed.
Planning the RF200 system 4.
Planning the RF200 system 4.
Planning the RF200 system 4.
Planning the RF200 system 4.
Planning the RF200 system 4.
Planning the RF200 system 4.3 Installation guidelines Transponder RF290R with ANT D10 Antenna on metal (metal plate) MDS MDS D324 1) D339 1) MDS D400 1) MDS D424 1) MDS MDS D426 1) D524 1) MDS D526 1) 1) 4.3.
Planning the RF200 system 4.3 Installation guidelines 4.3.5.1 Installation options with the antenna splitter (2-4 antennas) Possible configurations of the antennas The antenna installations described here have been designed for reading smartlabels (transponders) on goods on conveyor belts, conveyor systems or pallets. A prerequisite is that there are no magnetically conducting materials (e.g. metal) in the vicinity of the antenna or the label.
Planning the RF200 system 4.
Planning the RF200 system 4.3 Installation guidelines Figure 4-19 Installation example with ANT D6 (tunnel) Note The minimum spacings between the antennas for operation with only one reader may be less than the distances described because this configuration has the same phase.
Planning the RF200 system 4.3 Installation guidelines 4.3.5.2 Antenna installation Configuring instructions The antenna installation described below enables detection of transponders moving horizontally through the installation. Depending on the installation (antennas exactly opposite each other or offset in parallel), the label is aligned in parallel with the antennas or arbitrarily. The size of the sensing range depends on the label alignment.
Planning the RF200 system 4.3 Installation guidelines NOTICE Maximum number of connectable antennas Note that a maximum of two antennas can be operated on the RF285R readers by using an antenna splitter. Use the RF290R reader for setups with more antennas.
Planning the RF200 system 4.3 Installation guidelines Number of required components for setup with … 2 ant. 3 ant. Component Article number 4 ant. 1 1 1 24 V connecting cable, length 5 m (for PC mode only) 1 1 1 Connecting cable: RF290R ↔ PC or RF290R ↔ CM 6GT2491-1HH50 6GT2891-4KH ... optionally: 6GT2891-4F ... 6GT2891-4EH ... Installation information The cables on the antennas and the antenna splitter are 3.3 m or 10.5 m long.
Planning the RF200 system 4.3 Installation guidelines a approx. half antenna length b min. 100 mm c max. 600 mm Metal-free space Figure 4-21 Metal-free space, view from above (based on the example of a tunnel arrangement on a conveyor belt) Metal in the vicinity of the antennas If metal in the vicinity of the antennas cannot be avoided, the following must be noted: ● There must be a minimum allround gap of 100 mm between the antenna and metal.
Planning the RF200 system 4.3 Installation guidelines Notes on installing and laying the antenna cable To suppress possible interference, an EMC hinged ferrite choke must be fitted to the antenna cables (as well as the antenna cable between the reader and the antenna splitter). The coaxial cable must be wound tightly at least four times through the EMC ring core. The maximum distance between the connecting plug for the reader or the antenna splitter and the ring core must be 100 mm.
Planning the RF200 system 4.4 Chemical resistance of the reader and transponders 4.4 Chemical resistance of the reader and transponders 4.4.1 Readers 4.4.1.1 Overview of the readers and their housing materials The following sections describe the chemical resistance of the various transponders. The chemical resistance depends on the housing materials used to manufacture the reader.
Planning the RF200 system 4.4 Chemical resistance of the reader and transponders 4.4.1.
Planning the RF200 system 4.4 Chemical resistance of the reader and transponders 4.4.1.
Planning the RF200 system 4.4 Chemical resistance of the reader and transponders 4.4.1.4 Polyamide 6 and Polyamide 6.6 GF30 Table 4- 56 Chemical resistance - PA6 and PA6.
Planning the RF200 system 4.4 Chemical resistance of the reader and transponders 4.4.1.5 Polyamide 12 The resistance of the plastic housing to chemicals used in the automobile sector (e.g.: oils, greases, diesel fuel, gasoline, etc,) is not listed extra. Table 4- 57 Chemical resistance - Polyamide 12 Substance Battery acid Ammonia, gaseous Ammonia, w. Benzene Test conditions Rating Concentration [%] Temperature [°C] 30% 20 ℃ ++ - 60 ℃ ++++ conc.
Planning the RF200 system 4.4 Chemical resistance of the reader and transponders Substance Test conditions Rating Concentration [%] Temperature [°C] 50% 20 ℃ ++ 10% 20 ℃ +++ 10% 60 ℃ ++ Sodium carbonate, w. (soda) c. s. 60 ℃ ++++ Sodium chloride, w. c. s. 60 ℃ ++++ - 60 ℃ ++++ c. s. 60 ℃ ++++ - 20 ℃ +++ - 60 ℃ ++ 10% 20 ℃ + - 60 ℃ ++++ Lactic acid, w. Sodium hydroxide Nickel salts, w.
Planning the RF200 system 4.4 Chemical resistance of the reader and transponders 4.4.2 Transponder 4.4.2.1 Overview of the transponders and their housing materials The following sections describe the resistance to chemicals of the various transponders. Resistance to chemicals depends on the housing material used to manufacture the transponders.
Planning the RF200 system 4.4 Chemical resistance of the reader and transponders Note Chemical substances not listed The following sections describe the resistance of the various transponders to specific substances. If you require information about chemical substances that are not listed, contact Customer Support. 4.4.2.
Planning the RF200 system 4.
Planning the RF200 system 4.4 Chemical resistance of the reader and transponders Substance Test conditions Rating Concentration [%] Temperature [°C] Lactic acid 100% 20 ℃ ++ Mineral oils - 40 ℃ ++++ Nitrates (ammonium...
Planning the RF200 system 4.4 Chemical resistance of the reader and transponders 4.4.2.3 Polyamide 6 and Polyamide 6.6 GF30 Table 4- 60 Chemical resistance - PA6 and PA6.
Planning the RF200 system 4.4 Chemical resistance of the reader and transponders 4.4.2.
Planning the RF200 system 4.4 Chemical resistance of the reader and transponders 4.4.2.5 Polyphenylene sulfide (PPS) The data memory has special chemical resistance to solutions up to a temperature of 200 °C. A reduction in the mechanical properties has been observed in aqueous solutions of hydrochloric acid (HCl) and nitric acid (HNO3) at 80 °C. The plastic housings are resistant to all types of fuel including methanol.
Planning the RF200 system 4.4 Chemical resistance of the reader and transponders Explanation of the rating 4.4.2.6 ++++ Resistant +++ Practically resistant ++ Conditionally resistant + Less resistant ○ Not resistant Polyvinyl chloride (PVC) Table 4- 63 Chemical resistance - polyvinyl chloride (PVC) Substance Test conditions Rating Concentration [%] Temperature [°C] Salt water 5% - ++++ Sugared water 10% - ++++ Acetic acid, w. 5% - ++++ Sodium carbonate, w.
Planning the RF200 system 4.5 Further information 4.5 Further information Further information on "Fundamentals of application planning" and "EMC" can be found in RF300 system manual (https://support.industry.siemens.com/cs/ww/en/view/21738946).
5 Readers NOTICE Pulling and plugging readers Pull or plug the reader only when the power supply is turned off If this is not observed, under certain conditions, the reader will not start up correctly and communication with a transponder will not be possible. Note IO-Link variants of the RF200 readers The IO-Link variants of the readers are not included in the system manual. You will find these in the "SIMATIC RF200 IO-Link (https://support.industry.siemens.
Readers 5.1 SIMATIC RF210R 5.1 SIMATIC RF210R 5.1.1 Features SIMATIC RF210R 5.1.
Readers 5.1 SIMATIC RF210R 5.1.3 Pin assignment RF210R with RS422 interface Pin Pin Assignment Device end 8-pin M12 5.1.4 1 + 24 V 2 - Transmit 3 0V 4 + Transmit 5 + Receive 6 - Receive 7 Unassigned 8 Ground (shield) LED operating display The operational statuses of the reader are displayed by the LEDs. The LED can adopt the colors green, red or yellow and the statuses off , on , flashing : Table 5- 1 LED LED operating display on the reader Meaning The reader is turned off.
Readers 5.1 SIMATIC RF210R 5.1.
Readers 5.1 SIMATIC RF210R 5.1.6 Technical specifications Table 5- 2 Technical specifications of the RF210R reader 6GT2821-1AC10 Product type designation SIMATIC RF210R Radio frequencies Operating frequency, rated value 13.56 MHz Electrical data Maximum range 20 mm Maximum data transmission speed reader ↔ transponder ISO transponder • Read • approx. 1500 bytes/s • Write • approx. 1500 bytes/s Typical transmission time for user data per byte • for write access • 0.
Readers 5.1 SIMATIC RF210R 6GT2821-1AC10 Permitted ambient conditions Ambient temperature • During operation • -20 … +70 °C • During transportation and storage • -25 … +85 °C Degree of protection to EN 60529 IP67 Shock-resistant acc. to EN 60721-3-7, Class 7 M2 500 m/s2 Vibration-resistant acc. to EN 60721-3-7, Class 7 M2 200 m/s2 Design, dimensions and weight 5.1.
Readers 5.1 SIMATIC RF210R Note 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.
Readers 5.2 SIMATIC RF210M 5.2 SIMATIC RF210M 5.2.1 Features SIMATIC RF210M 5.2.
Readers 5.2 SIMATIC RF210M 5.2.3 Installing the RF210M reader The following figure shows the completely mounted reader. Note that you can mount the suspension bracket at two different points ①. If you do not mount the handle, we recommend that you close the opening ② with the protective cap.
Readers 5.2 SIMATIC RF210M 5.2.4 Pin assignment RF210M with RS-422 interface Pin Pin Assignment Device end 8-pin M12 5.2.5 1 + 24 V 2 - Transmit 3 0V 4 + Transmit 5 + Receive 6 - Receive 7 Unassigned 8 Ground (shield) LED operating display The operational statuses of the reader are displayed by the LEDs. The LED can adopt the colors green, red or yellow and the statuses off , on , flashing : Table 5- 3 LED LED operating display on the reader Meaning The reader is turned off.
Readers 5.2 SIMATIC RF210M 5.2.6 Technical specifications Table 5- 4 Technical specifications of the RF210M reader 6GT2823-0AA00 Product type designation SIMATIC RF210M Radio frequencies Operating frequency, rated value 13.56 MHz Electrical data Maximum range 20 mm Maximum data transmission speed reader ↔ transponder ISO transponder • Read • approx. 1500 bytes/s • Write • approx. 1500 bytes/s Typical transmission time for user data per byte • for write access • 0.
Readers 5.2 SIMATIC RF210M 6GT2823-0AA00 Permitted ambient conditions Ambient temperature • During operation • -20 … +50 °C • During transportation and storage • -25 … +60 °C Degree of protection to EN 60529 IP54 Shock-resistant acc. to EN 60721-3-7, Class 7 M2 500 m/s2 Vibration-resistant acc. to EN 60721-3-7, Class 7 M2 200 m/s2 Design, dimensions and weight Dimensions 5.2.
Readers 5.2 SIMATIC RF210M These limits are designed to provide reasonable protection against harmful interference when the equipment is operated in a commercial environment. This equipment generates, uses, and can radiate radio frequency energy and, if not installed and used in accordance with the instruction manual, may cause harmful interference to radio communications.
Readers 5.3 SIMATIC RF220R 5.3 SIMATIC RF220R 5.3.1 Features SIMATIC RF220R 5.3.
Readers 5.3 SIMATIC RF220R 5.3.3 RF220R pin assignment with RS422 interface Pin Pin Assignment Device end 8pin M12 5.3.4 1 + 24 V 2 - Transmit 3 0V 4 + Transmit 5 + Receive 6 - Receive 7 Unassigned 8 Ground (shield) LED operating display The operational statuses of the reader are displayed by the LEDs. The LED can adopt the colors green, red or yellow and the statuses off , on , flashing : Table 5- 5 LED LED operating display on the reader Meaning The reader is turned off.
Readers 5.3 SIMATIC RF220R 5.3.
Readers 5.3 SIMATIC RF220R 5.3.6 Technical specifications Table 5- 6 Technical specifications of the RF220R reader 6GT2821-2AC10 Product type designation SIMATIC RF220R Radio frequencies Operating frequency, rated value 13.56 MHz Electrical data Maximum range 35 mm Maximum data transmission speed reader ↔ transponder ISO transponder • Read • approx. 1500 bytes/s • Write • approx. 1500 bytes/s Typical transmission time for user data per byte • for write access • 0.
Readers 5.3 SIMATIC RF220R 6GT2821-2AC10 Permitted ambient conditions Ambient temperature • During operation • -20 … +70 °C • During transportation and storage • -25 … +85 °C Degree of protection to EN 60529 IP67 Shock-resistant acc. to EN 60721-3-7, Class 7 M2 500 m/s2 Vibration-resistant acc. to EN 60721-3-7, Class 7 M2 200 m/s2 Design, dimensions and weight 5.3.7 Dimensions (∅ x thread x L) M30 x 1.5 x 83 mm Weight 140 g Type of mounting 2x nuts M30 x 1.
Readers 5.3 SIMATIC RF220R Note 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.
Readers 5.4 SIMATIC RF240R 5.4 SIMATIC RF240R 5.4.1 Features SIMATIC RF240R 5.4.
Readers 5.4 SIMATIC RF240R 5.4.3 Pin assignment RF240R Pin Pin Interface assignment Device end 8pin M12 5.4.4 RS-422 RS-232 1 +24 V +24 V 2 - Transmit RXD 3 0V 0V 4 + Transmit TXD 5 + Receive Unassigned 6 - Receive Unassigned 7 Unassigned Unassigned 8 Ground (shield) Ground (shield) LED operating display The operational statuses of the reader are displayed by the LEDs.
Readers 5.4 SIMATIC RF240R 5.4.
Readers 5.4 SIMATIC RF240R 5.4.6 Technical specifications Table 5- 8 Technical specifications of the RF240R reader 6GT2821-4AC10 6GT2821-4AC11 6GT2821-4AC40 Product type designation SIMATIC RF240R Radio frequencies Operating frequency, rated value 13.56 MHz Electrical data Maximum range 65 mm Maximum data transmission speed reader ↔ transponder ISO transponder • Read • approx. 1500 bytes/s • Write • approx.
Readers 5.4 SIMATIC RF240R 6GT2821-4AC10 6GT2821-4AC11 6GT2821-4AC40 Supply voltage, current consumption, power loss Supply voltage 24 VDC Typical current consumption 25 mA Permitted ambient conditions Ambient temperature • During operation • -20 … +70 °C • During transportation and storage • -25 … +85 °C Degree of protection to EN 60529 IP67 Shock-resistant acc. to EN 60721-3-7, Class 7 M2 500 m/s2 Vibration-resistant acc.
Readers 5.4 SIMATIC RF240R 5.4.7 Approvals FCC information Siemens SIMATIC RF240R (MLFB 6GT2821-4AC10) FCC ID NXW-RF240R Siemens SIMATIC RF240R (MLFB 6GT2821-4AC11) FCC ID NXW-RF240R Siemens SIMATIC RF240R (MLFB 6GT2821-4AC40) FCC ID NXW-RF240R This device complies with part 15 of the FCC rules.
Readers 5.4 SIMATIC RF240R 5.4.
Readers 5.5 SIMATIC RF250R 5.5 SIMATIC RF250R 5.5.1 Features SIMATIC RF250R Characteristics Structure ① RS-422 or RS-232 interface ② Operating indicator ③ Antenna connector, M8 Area of application Identification tasks on assembly lines in harsh industrial environments Note Reader requires external antennas Note that the RF250R reader is designed only for operation with external antennas and can only be operated in conjunction with the antennas ANT 3, ANT 8, ANT 12, ANT 18 or ANT 30. 5.5.
Readers 5.5 SIMATIC RF250R 5.5.3 Pin assignment RF250R Pin Pin Interface assignment Device end 8pin M12 5.5.4 RS-422 RS-232 1 +24 V +24 V 2 - Transmit RXD 3 0V 0V 4 + Transmit TXD 5 + Receive Unassigned 6 - Receive Unassigned 7 Unassigned Unassigned 8 Ground (shield) Ground (shield) LED operating display The operational statuses of the reader are displayed by the LEDs.
Readers 5.5 SIMATIC RF250R 5.5.5 Technical specifications Table 5- 10 Technical specifications of the RF250R reader 6GT2821-5AC10 6GT2821-5AC40 Product type designation SIMATIC RF250R Radio frequencies Operating frequency, rated value 13.56 MHz Electrical data Maximum range 35 mm Maximum data transmission speed reader ↔ transponder ISO transponder • Read • approx. 1500 bytes/s • Write • approx. 1500 bytes/s Typical transmission time for user data per byte • for write access • 0.
Readers 5.5 SIMATIC RF250R 6GT2821-5AC10 6GT2821-5AC40 Permitted ambient conditions Ambient temperature • During operation • -20 … +70 °C • During transportation and storage • -25 … +85 °C Degree of protection to EN 60529 IP65 Shock-resistant acc. to EN 60721-3-7, Class 7 M2 500 m/s2 Vibration-resistant acc. to EN 60721-3-7, Class 7 M2 200 m/s2 Design, dimensions and weight Dimensions (L x W x H) 50 × 50 × 30 mm Weight 60 g Type of mounting 2 x M5 screw 1.
Readers 5.5 SIMATIC RF250R 5.5.6 Approvals FCC information Siemens SIMATIC RF250R (MLFB 6GT2821-5AC10) FCC ID NXW-RF250R Siemens SIMATIC RF250R (MLFB 6GT2821-5AC40) FCC ID NXW-RF250R This device complies with part 15 of the FCC rules. Operation is subject to the following two conditions: (1) This device may not cause harmful interference, and (2) this device must accept any interference received, including interference that may cause undesired operation.
Readers 5.5 SIMATIC RF250R If the antenna is detachable, require the following two conditions: (1) To reduce potential radio interference to other users, the antenna type should be chosen that the radiated power is not more than that permitted for successful communication. (2) This device has been designed to operate with the antennas listed below. Antennas not included in this list are strictly prohibited for use with this device. The required antenna impedance is 50 Ω.
Readers 5.6 SIMATIC RF260R 5.6 SIMATIC RF260R 5.6.1 Features SIMATIC RF260R 5.6.
Readers 5.6 SIMATIC RF260R 5.6.3 Pin assignment RF260R Pin Pin Interface assignment Device end 8pin M12 5.6.4 RS-422 RS-232 1 +24 V +24 V 2 - Transmit RXD 3 0V 0V 4 + Transmit TXD 5 + Receive Unassigned 6 - Receive Unassigned 7 Unassigned Unassigned 8 Ground (shield) Ground (shield) LED operating display The operational statuses of the reader are displayed by the LEDs.
Readers 5.6 SIMATIC RF260R 5.6.
Readers 5.6 SIMATIC RF260R 5.6.6 Technical specifications Table 5- 12 Technical data of the RF260R reader 6GT2821-6AC10 6GT2821-6AC11 6GT2821-6AC40 Product type designation SIMATIC RF260R Radio frequencies Operating frequency, rated value 13.56 MHz Electrical data Maximum range 135 mm Maximum data transmission speed reader ↔ transponder ISO transponder • Read • approx. 1500 bytes/s • Write • approx. 1500 bytes/s Typical transmission time for user data per byte • for write access • 0.
Readers 5.6 SIMATIC RF260R 6GT2821-6AC10 6GT2821-6AC11 6GT2821-6AC40 Supply voltage, current consumption, power loss Supply voltage 24 VDC Typical current consumption 50 mA Permitted ambient conditions Ambient temperature • During operation • -20 … +70 °C • During transportation and storage • -25 … +80 °C Degree of protection to EN 60529 IP67 Shock-resistant acc. to EN 60721-3-7, Class 7 M2 500 m/s2 Vibration-resistant acc.
Readers 5.6 SIMATIC RF260R Caution Any changes or modifications not expressly approved by the party responsible for compliance could void the user's authority to operate the equipment. Note 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.
Readers 5.6 SIMATIC RF260R 5.6.
Readers 5.7 SIMATIC RF280R 5.7 SIMATIC RF280R 5.7.1 Features SIMATIC RF280R 5.7.
Readers 5.7 SIMATIC RF280R 5.7.3 Pin assignment RF280R Pin Pin Interface assignment Device end 8pin M12 5.7.4 RS-422 RS-232 1 +24 V +24 V 2 - Transmit RXD 3 0V 0V 4 + Transmit TXD 5 + Receive Unassigned 6 - Receive Unassigned 7 Unassigned Unassigned 8 Ground (shield) Ground (shield) LED operating display The operational statuses of the reader are displayed by the LEDs.
Readers 5.7 SIMATIC RF280R 5.7.
Readers 5.7 SIMATIC RF280R 5.7.6 Technical specifications Table 5- 14 Technical specifications of the RF280R reader 6GT2821-8AC10 6GT2821-8AC40 Product type designation SIMATIC RF280R Radio frequencies Operating frequency, rated value 13.56 MHz Electrical data Maximum range 200 mm Maximum data transmission speed reader ↔ transponder ISO transponder • Read • approx. 1500 bytes/s • Write • approx. 1500 bytes/s Typical transmission time for user data per byte • for write access • 0.
Readers 5.7 SIMATIC RF280R 6GT2821-8AC10 6GT2821-8AC40 Permitted ambient conditions Ambient temperature • During operation • -25 … +70 °C • During transportation and storage • -40 … +85 °C Degree of protection to EN 60529 IP67 Shock-resistant acc. to EN 60721-3-7, Class 7 M2 500 m/s2 Vibration-resistant acc. to EN 60721-3-7, Class 7 M2 200 m/s2 Design, dimensions and weight Dimensions (L x W x H) 160 x 80 x 41 mm Weight 470 g Type of mounting 4x screws M5 ≤ 1.
Readers 5.7 SIMATIC RF280R Note 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.
Readers 5.7 SIMATIC RF280R 5.7.
Readers 5.8 SIMATIC RF285R 5.8 SIMATIC RF285R 5.8.1 Characteristics SIMATIC RF285R Characteristics Design Field of application ① RS 232 interface, 24 V power supply ② Antenna connection, TNC ③ Operating display, 4 LEDs: • Power (PWR) • Active (ACT) • Present (PRE) • Error (ERR) Identification tasks in production control and in intralogistics, e.g. skid identification, container management Multitag mode is possible.
Readers 5.8 SIMATIC RF285R 5.8.
Readers 5.8 SIMATIC RF285R 5.8.3 Pin assignment RS232 Table 5- 17 Pin assignment of the RS232 interface Pin Pin Pin assignment Device end 8-pin M12 RS232 5.8.4 1 +24 V 2 RXD 3 0 V / GND 4 TXD 5 Unassigned 6 Unassigned 7 0V 8 Earth (shield) LED operating display The LEDs indicate the reader’s operating states. The LED can appear green, red, or yellow and have the off , on , or flashing status.
Readers 5.8 SIMATIC RF285R 5.8.5 Installing the RF285R reader 5.8.5.1 Wall mounting Use the holes in the housing to screw the device to the wall or onto a horizontal surface. The position of the drill holes is shown in the following figure: Figure 5-19 Drilling pattern for the RF285R (dimensions in mm) A: M4 threaded socket for potential connection of the reader. You will find additional information on the potential connection in the section "Further information (Page 120)".
Readers 5.8 SIMATIC RF285R 5.8.5.2 Installing on the S7-300 standard rail Follow the steps below to mount the RF285R reader on a vertical S7-300 standard rail: 1. Place the device on the upper edge of the S7-300 standard rail (position A). 2. Screw the device to the mounting rail (position B). Figure 5-20 5.8.5.3 Installing the RF285R reader on the S7-300 standard rail Installing on a standard mounting rail The RF285R reader is suitable for installation on 35 mm rails that comply with DIN EN 50022.
Readers 5.8 SIMATIC RF285R Fit the adapter to the rear of the device as shown in the following figure: Figure 5-21 Mounting the DIN rail adapter Follow the steps below to mount the RF285R reader on a DIN rail: 1. Place the device on the upper edge of the DIN rail (position A). 2. Pull the spring-mounted DIN rail slider (position B) down and press the device against the DIN rail until it locks in place.
Readers 5.8 SIMATIC RF285R 5.8.6 Technical specifications Table 5- 19 Technical specifications of the RF285R reader 6GT2821-7AC12 Product type designation SIMATIC RF285R Radio frequencies Operating frequency, rated value 13.56 MHz Electrical data Maximum range 550 mm Maximum data transmission speed Reader ↔ transponder ISO transponder • Read • Approx. 1500 bytes/s • Write • Approx. 1500 bytes/s Typical transmission time for user data per byte • for write access • 0.
Readers 5.8 SIMATIC RF285R 6GT2821-7AC12 Permitted ambient conditions Ambient temperature • During operation • -20 … +55 °C • During transportation and storage • -25 … +85 °C Degree of protection according to EN 60529 IP65 Shock-resistant acc. to EN 60721-3-7, Class 7 M2 300 m/s2 Vibration-resistant acc. to EN 60721-3-7, Class 7 M2 20 m/s2 Design, dimensions and weight 5.8.7 Dimensions (W x H x D) 200 × 80 × 140 mm Weight 1.8 kg Type of mounting 2 x M5 screw ≤ 1.
Readers 5.8 SIMATIC RF285R Note 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.
Readers 5.8 SIMATIC RF285R This radio transmitter RF285R has been approved by Industry Canada to operate with the antenna types listed below with the maximum permissible gain indicated. Antenna type not included in this list, having a gain greater than the maximum gan indicated for that type, are strictly prohibited for use with the device. Used antennas: ● ANT D1, max. gain: 0dB ● ANT D5, max. gain: 0dB ● ANT D6, max.
Readers 5.8 SIMATIC RF285R 5.8.
Readers 5.9 SIMATIC RF290R 5.9 SIMATIC RF290R 5.9.1 Features SIMATIC RF290R Characteristics Design Field of application ① RS422/RS232 interface, 24 V power supply ② Digital input/output, M12 ③ Antenna connection, TNC ④ Operating display, 4 LEDs: • Power (PWR) • Active (ACT) • Present (PRE) • Error (ERR) Identification tasks in production control and in intralogistics, e.g. skid identification, container management, HF gates (F&B) When connected via a PC, multitag operation is possible.
Readers 5.9 SIMATIC RF290R 5.9.
Readers 5.9 SIMATIC RF290R 5.9.3 Pin assignment RS422/RS232 Table 5- 23 Pin Pin assignment of the RS-422/RS 232 interface Pin Pin assignment Device end 8pin M12 RS-422 RS-232 1 +24 V +24 V 2 - Transmit RXD 3 0V 0V 4 + Transmit TXD 5 + Receive not used 6 - Receive not used 7 not used 0V 8 Ground (shield) Ground (shield) Digital input/output Note that the digital input/output can only be used in PC mode (RS-232).
Readers 5.9 SIMATIC RF290R Digital input (DI): The opto-coupler input is electrically isolated from the reader electronics. The external 24 V must be connected to the DI according to the circuit diagram. Make sure that the polarity of the 24 V is correct. The voltage is limited to < 10 mA by the integrated resistor. NOTICE Reader may be damaged If you exceed the maximum permitted supply voltage, the reader may be damaged.
Readers 5.9 SIMATIC RF290R 5.9.4 LED operating display The operational statuses of the reader are displayed by the LEDs. The LED can adopt the colors green, red or yellow and the statuses off , on , flashing : Table 5- 25 Labeling LED operating display on the reader LED Meaning PWR The reader is turned off.
Readers 5.9 SIMATIC RF290R 5.9.5 Installing the RF290R reader 5.9.5.1 Wall mounting Use the holes in the housing to screw the device to the wall or onto a horizontal surface. The position of the drill holes is shown in the following figure: Figure 5-25 Drilling pattern for the RF290R (dimensions in mm) A: M4 threaded socket for potential connection of the reader. You will find further information on the potential connection in the section "Further information (Page 120)".
Readers 5.9 SIMATIC RF290R 5.9.5.2 Installing on the S7-300 standard rail Follow the steps below to mount the RF290R reader on a vertical S7-300 standard rail: 1. Place the device on the upper edge of the S7-300 standard rail (position A). 2. Screw the device to the mounting rail (position B). Figure 5-26 5.9.5.3 Installing the RF290R reader on the S7-300 standard rail Installation on a DIN rail The RF290R reader is suitable for installation on 35 mm rails that comply with DIN EN 50022.
Readers 5.9 SIMATIC RF290R Fit the adapter to the rear of the device as shown in the following figure: Figure 5-27 Mounting the DIN rail adapter Follow the steps below to mount the RF290R reader on a DIN rail: 1. Place the device on the upper edge of the DIN rail (position A). 2. Pull the spring-mounted DIN rail slider (position B) down and press the device against the DIN rail until it locks in place.
Readers 5.9 SIMATIC RF290R 5.9.6 Technical specifications Table 5- 26 Technical specifications of the RF290R reader 6GT2821-0AC12 Product type designation SIMATIC RF290R Radio frequencies Operating frequency, rated value 13.56 MHz Electrical data Maximum range 650 mm Maximum data transmission speed Reader ↔ transponder ISO transponder • Read • Approx. 1500 bytes/s • Write • Approx. 1500 bytes/s Typical transmission time for user data per byte • for write access • 0.
Readers 5.9 SIMATIC RF290R 6GT2821-0AC12 Permitted ambient conditions Ambient temperature • During operation • -20 … +55 °C • During transportation and storage • -25 … +85 °C Degree of protection according to EN 60529 IP65 Shock-resistant acc. to EN 60721-3-7, Class 7 M2 300 m/s2 Vibration-resistant acc. to EN 60721-3-7, Class 7 M2 20 m/s2 Design, dimensions and weight Dimensions (W x H x D) Weight 1.8 kg Type of mounting 2 x M5 screw 1.5 Nm Cable length, maximum • RS-422: max.
Readers 5.9 SIMATIC RF290R Note 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.
Readers 5.9 SIMATIC RF290R 5.9.8 Note on the use of the RF290R as a replacement for SLG D10 / SLG D10S The RF290R reader is the successor to the MOBY D readers SLG D10 / SLG D10S rounding off the RF200 family; it is operated with external antennas.
Readers 5.9 SIMATIC RF290R 5.9.
6 Antennas Note The RF250R, RF285R and RF290R readers require external antennas. Note that the RF250R, RF285R and RF290R readers are designed for operation with external antennas. The RF250R reader can only be used in conjunction with the antennas ANT 1, 3, 3S, 8, 12, 18 or 30. The RF285R reader can only be used in conjunction with the antennas ANT D1, D5 or D6. The RF290R reader can only be used in conjunction with the antennas ANT D1, D5, D6 or D10. 6.1 ANT 1 6.1.1 Characteristics ANT 1 6.1.
Antennas 6.1 ANT 1 6.1.3 Flush-mounted in metal The tuning of the ANT 1 antenna is optimized for mounting in metal. a = 40 mm Figure 6-1 6.1.4 ANT 1 flush-mounted in metal Minimum clearances Note Extension of the data transmission time if distance values are undershot If the distance values specified in the tables are undershot, it is possible that the inductive fields will be affected. In this case, the data transmission time can increase unpredictably or a command is aborted with an error.
Antennas 6.
Antennas 6.1 ANT 1 6.1.5 Technical specifications 6GT2398-1CB00 Product type designation ANT 1 Electrical data Maximum write/read distance ANT ↔ Transponder (Sg) 140 mm Interfaces Plug connection M8, 4-pin; pins on antenna side Mechanical specifications Housing • Material • Plastic PA 12 • Color • Anthracite MTBF 13698 years Permitted ambient conditions Ambient temperature • During operation • -25 ... +70 °C • During transportation and storage • -40 ...
Antennas 6.1 ANT 1 6.1.
Antennas 6.2 ANT 3 6.2 ANT 3 6.2.1 Features ANT 3 6.2.2 Characteristics Area of application Small assembly lines Writing/reading distance up to 50 mm (depending on the transponder) Connecting cable 3 m (plug-in antenna cable) Connectable readers RF250R Degree of protection IP67 Ordering data Table 6- 3 Ordering data ANT 3 Antenna Article number ANT 3 (without antenna cable) 6GT2398-1CD30-0AX0 ANT 3 (incl.
Antennas 6.2 ANT 3 6.2.3 Mounting on/in metal The tuning of the ANT 3 antenna is optimized for mounting on metal.
Antennas 6.2 ANT 3 6.2.4 Minimum spacing Note Extension of the data transmission time if distance values are undershot If the distance values specified in the tables are undershot, it is possible that the inductive fields will be affected. In this case, the data transmission time can increase unpredictably or a command is aborted with an error. For this reason, please observe the values in the tables.
Antennas 6.2 ANT 3 D ≥ 200 mm Figure 6-8 6.2.
Antennas 6.2 ANT 3 6GT2398-1CD30-0AX0 6GT2398-1CD40-0AX0 Design, dimensions and weight Dimensions (L × W × H) • Housing without antenna connector • 50 × 28 × 10 mm • Housing with antenna connector • 240 × 28 × 10 mm Weight • Housing with antenna connector • Approx. 35 g • Housing with antenna connector and antenna cable • Approx. 160 g Type of mounting 2 x M4 screws Cable length 3 m (plug-in antenna cable) 1) 6.2.
Antennas 6.3 ANT 3S 6.3 ANT 3S 6.3.1 Features ANT 3S 6.3.2 Characteristics Area of application Small assembly lines Writing/reading distance up to 4 mm (depending on the transponder) Connecting cable 3 m (plug-in antenna cable) Connectable readers RF250R Degree of protection IP67 Ordering data Table 6- 6 Ordering data ANT 3S Antenna Article number ANT 3S (without antenna connecting cable) 6GT2398-1CD50-0AX0 ANT 3S (incl.
Antennas 6.3 ANT 3S 6.3.3 Mounting on/in metal The tuning of the ANT 3S antenna is optimized for mounting on metal.
Antennas 6.3 ANT 3S 6.3.4 Minimum spacing Note Extension of the data transmission time if distance values are undershot If the distance values specified in the tables are undershot, it is possible that the inductive fields will be affected. In this case, the data transmission time can increase unpredictably or a command is aborted with an error. For this reason, please observe the values in the tables.
Antennas 6.3 ANT 3S D ≥ 50 mm Figure 6-13 6.3.
Antennas 6.3 ANT 3S 6GT2398-1CD60-0AX0 6GT2398-1CD50-0AX0 Design, dimensions and weight Dimensions (L × W × H) • Housing without antenna connector • 50 × 28 × 10 mm • Housing with antenna connector • 240 × 28 × 10 mm Weight Housing with antenna connector • Approx. 35 g • Housing with antenna connector and antenna cable • Approx. 160 g Type of mounting 2 x M4 screws Cable length 3 m (plug-in antenna cable) 1) 6.3.
Antennas 6.4 ANT 8 6.4 ANT 8 6.4.1 Features ANT 8 6.4.
Antennas 6.4 ANT 8 6.4.3 Transmission window Ld Length of the transmission window (= 3 mm) Sa Operating distance between antenna and transponder Sg Limit distance (maximum clear distance between upper surface of the reader and the antenna, at which the transmission can still function under normal conditions) Figure 6-15 6.4.
Antennas 6.4 ANT 8 6.4.5 Minimum spacing Note Extension of the data transmission time if distance values are undershot If the distance values specified in the tables are undershot, it is possible that the inductive fields will be affected. In this case, the data transmission time can increase unpredictably or a command is aborted with an error. For this reason, please observe the values in the tables.
Antennas 6.4 ANT 8 D ≥ 50 mm Figure 6-18 6.4.
Antennas 6.4 ANT 8 6GT2398-1CF10 6GT2398-1CF00 Permitted ambient conditions Ambient temperature • During operation • -25 ... +70 °C • During transportation and storage • -40 ...
Antennas 6.5 ANT 12 6.5 ANT 12 6.5.1 Features ANT 12 6.5.2 Characteristics Area of application Tool identification Writing/reading distance up to 16 mm (depending on the transponder) Connecting cable 3 m or 0.6 m Connectable readers RF250R Degree of protection IP67 (front) Ordering data Table 6- 12 Ordering data ANT 12 Antenna Article number ANT 12 6GT2398-1CC10 (incl. one integrated antenna connecting cable 0.6 m) ANT 12 6GT2398-1CC00 (incl.
Antennas 6.5 ANT 12 6.5.3 Transmission window Ld Length of the transmission window (= 20 mm) Sa Operating distance between antenna and transponder Sg Limit distance (maximum clear distance between upper surface of the reader and the antenna, at which the transmission can still function under normal conditions) Figure 6-20 6.5.
Antennas 6.5 ANT 12 6.5.5 Minimum spacing Note Extension of the data transmission time if distance values are undershot If the distance values specified in the tables are undershot, it is possible that the inductive fields will be affected. In this case, the data transmission time can increase unpredictably or a command is aborted with an error. For this reason, please observe the values in the tables.
Antennas 6.5 ANT 12 D ≥ 100 mm Figure 6-23 6.5.
Antennas 6.5 ANT 12 6GT2398-1CC00 6GT2398-1CC10 Permitted ambient conditions Ambient temperature • During operation • -20 ... +70 °C • During transportation and storage • -40 ...
Antennas 6.6 ANT 12 (stainless steel variant) 6.6 ANT 12 (stainless steel variant) 6.6.1 Features ANT 12 (stainless steel variant) 6.6.
Antennas 6.6 ANT 12 (stainless steel variant) 6.6.3 Antenna connection Pins 1 and 3 GND Pins 2 and 4 Signal CAUTION Minimum requirements for the antenna connecting cable We recommend that you use the antenna connecting cable "6GT2391-0AH30" from Siemens. Pay attention to the following minimum requirements if you want to configure an antenna cable yourself: • Temperature: 80 ℃ • Conductor cross-section: AWG21 CAUTION Check connections The device could be damaged as a result of missing power supply.
Antennas 6.6 ANT 12 (stainless steel variant) 6.6.
Antennas 6.6 ANT 12 (stainless steel variant) 6.6.5 Flush-mounted in metal a = 10 mm b = 10 mm Figure 6-26 6.6.6 ANT 12 (stainless steel variant) flush-mounted in metal Minimum spacing Note Extension of the data transmission time if distance values are undershot If the distance values specified in the tables are undershot, it is possible that the inductive fields will be affected. In this case, the data transmission time can increase unpredictably or a command is aborted with an error.
Antennas 6.
Antennas 6.6 ANT 12 (stainless steel variant) 6.6.7 Technical data 6GT2398-1DC00 1) 6GT2398-1DC10 Product type designation ANT 12 (stainless steel variant) Electrical data Input voltage of the antenna 2) max. 5 V AC (13.56 MHz) Input current of the antenna max. 85 mA AC (13.
Antennas 6.6 ANT 12 (stainless steel variant) 6GT2398-1DC00 1) 6GT2398-1DC10 Design, dimensions and weight 6.6.8 Dimensions (∅ x L) 12 x 40 mm Thread (∅ x thread x L) M12 x 1 x 30 mm Weight without cable/with cable 15 g / 180 g Type of mounting 2x stainless steel nuts M12 x 1 1) Investigated by UL The products 6GT2398-1DC10 and 6GT2398-1DC00 are identical in structure and only differ in the antenna connecting cable included in the scope of delivery. 2) The supply source and ext.
Antennas 6.7 ANT 18 6.7 ANT 18 6.7.1 Features ANT 18 6.7.2 Characteristics Area of application Small assembly lines Writing/reading distance up to 35 mm (depending on the transponder) Connecting cable 3 m or 0.6 m Connectable readers RF250R Degree of protection IP67 (front) Ordering data Table 6- 17 Ordering data ANT 18 Antenna Article number ANT 18 6GT2398-1CA10 (incl. one integrated antenna connecting cable 0.
Antennas 6.7 ANT 18 6.7.3 Transmission window Ld Length of the transmission window (= 30 mm) Sa Operating distance between antenna and transponder Sg Limit distance (maximum clear distance between upper surface of the reader and the antenna, at which the transmission can still function under normal conditions) Figure 6-30 6.7.
Antennas 6.7 ANT 18 6.7.5 Minimum spacing Note Extension of the data transmission time if distance values are undershot If the distance values specified in the tables are undershot, it is possible that the inductive fields will be affected. In this case, the data transmission time can increase unpredictably or a command is aborted with an error. For this reason, please observe the values in the tables.
Antennas 6.7 ANT 18 D ≥ 100 mm Figure 6-33 6.7.
Antennas 6.7 ANT 18 6GT2398-1CA00 6GT2398-1CA10 Permitted ambient conditions Ambient temperature • During operation • -20 ... +70 °C • During transportation and storage • -40 ...
Antennas 6.8 ANT 18 (stainless steel variant) 6.8 ANT 18 (stainless steel variant) 6.8.1 Features ANT 18 (stainless steel variant) 6.8.
Antennas 6.8 ANT 18 (stainless steel variant) 6.8.3 Antenna connection Pins 1 and 3 GND Pins 2 and 4 Signal CAUTION Minimum requirements for the antenna connecting cable We recommend that you use the antenna connecting cable "6GT2391-0AH30" from Siemens. Pay attention to the following minimum requirements if you want to configure an antenna cable yourself: • Temperature: 80 ℃ • Conductor cross-section: AWG21 CAUTION Check connections The device could be damaged as a result of missing power supply.
Antennas 6.8 ANT 18 (stainless steel variant) 6.8.4 Transmission window Ld Length of the transmission window (= 30 mm) Sa Operating distance between antenna and transponder Sg Limit distance (maximum clear distance between upper surface of the reader and the antenna, at which the transmission can still function under normal conditions) Figure 6-35 6.8.
Antennas 6.8 ANT 18 (stainless steel variant) 6.8.6 Minimum spacing Note Extension of the data transmission time if distance values are undershot If the distance values specified in the tables are undershot, it is possible that the inductive fields will be affected. In this case, the data transmission time can increase unpredictably or a command is aborted with an error. For this reason, please observe the values in the tables.
Antennas 6.8 ANT 18 (stainless steel variant) D ≥ 100 mm Figure 6-38 6.8.7 Face-to-face minimum distance between two ANT 18 (stainless steel variant) Technical data 6GT2398-1DA00 1) 6GT2398-1DA10 Product type designation ANT 18 (stainless steel variant) Electrical data Input voltage of the antenna 2) max. 5 V AC (13.56 MHz) Input current of the antenna 2) max. 85 mA AC (13.
Antennas 6.8 ANT 18 (stainless steel variant) 6GT2398-1DA00 1) 6GT2398-1DA10 Permitted ambient conditions Ambient temperature • During operation • -20 ... +70 °C • During transportation and storage • -40 ...
Antennas 6.8 ANT 18 (stainless steel variant) 6.8.8 Dimension drawing ① ② The antenna connector may only be tightened by hand. The cable must be secured in front of/behind the support sleeve so that no bending strain can be transferred to the antenna connector. Figure 6-39 Dimension drawing ANT 18 (stainless steel variant) All dimensions in mm.
Antennas 6.9 ANT 30 6.9 ANT 30 6.9.1 Features ANT 30 6.9.
Antennas 6.9 ANT 30 6.9.
Antennas 6.9 ANT 30 6.9.4 Flush-mounted in metal a = 20 mm b = 20 mm Figure 6-41 6.9.5 ANT 30 flush-mounted in metal Minimum spacing Note Extension of the data transmission time if distance values are undershot If the distance values specified in the tables are undershot, it is possible that the inductive fields will be affected. In this case, the data transmission time can increase unpredictably or a command is aborted with an error. For this reason, please observe the values in the tables.
Antennas 6.
Antennas 6.9 ANT 30 6.9.6 Technical data 6GT2398-1CD00 Product type designation ANT 30 Electrical data Maximum write/read distance ANT ↔ transponder 60 mm (Sg) Interfaces Plug connection 4-pin, pin on antenna side Mechanical specifications Housing • Material • Plastic Crastin • Color • Pale turquoise Permitted ambient conditions Ambient temperature • During operation • -20 ... +70 °C • During transportation and storage • -40 ...
Antennas 6.9 ANT 30 6.9.
Antennas 6.10 ANT 30 (stainless steel variant) 6.10 ANT 30 (stainless steel variant) 6.10.1 Features ANT 18 (stainless steel variant) 6.10.
Antennas 6.10 ANT 30 (stainless steel variant) 6.10.3 Antenna connection Pins 1 and 3 GND Pins 2 and 4 Signal CAUTION Minimum requirements for the antenna connecting cable We recommend that you use the antenna connecting cable "6GT2391-0AH30" from Siemens. Pay attention to the following minimum requirements if you want to configure an antenna cable yourself: • Temperature: 80 ℃ • Conductor cross-section: AWG21 CAUTION Check connections The device could be damaged as a result of missing power supply.
Antennas 6.10 ANT 30 (stainless steel variant) 6.10.
Antennas 6.10 ANT 30 (stainless steel variant) 6.10.5 Flush-mounted in metal a = 20 mm b = 20 mm Figure 6-46 6.10.6 ANT 30 (stainless steel variant) flush-mounted in metal Minimum spacing Note Extension of the data transmission time if distance values are undershot If the distance values specified in the tables are undershot, it is possible that the inductive fields will be affected. In this case, the data transmission time can increase unpredictably or a command is aborted with an error.
Antennas 6.
Antennas 6.10 ANT 30 (stainless steel variant) 6.10.7 Technical data 6GT2398-1DD00 1) 6GT2398-1DD10 Product type designation ANT 30 (stainless steel variant) Electrical data Input voltage of the antenna 2) max. 5 V AC (13.56 MHz) Input current of the antenna max. 85 mA AC (13.
Antennas 6.10 ANT 30 (stainless steel variant) 6GT2398-1DD00 1) 6GT2398-1DD10 Design, dimensions and weight 6.10.8 Dimensions (∅ x L) 30 x 40 mm Thread (∅ x thread x L) M30 x 1.5 x 30 mm Weight without cable/with cable 95 g / 260 g Type of mounting 2x stainless steel nuts M30 x 1.5 1) Investigated by UL The products 6GT2398-1DD10 and 6GT2398-1DD00 are identical in structure and only differ in the antenna connecting cable included in the scope of delivery. 2) The supply source and ext.
Antennas 6.11 ANT D1 6.11 ANT D1 6.11.1 Characteristics ANT D1 6.11.2 Characteristics Area of application Assembly lines and production plants Read/write distance up to 250 mm (depending on the transponder) Connecting cable 3.3 m (plug-in antenna connecting cable) Connectable readers RF285R, RF290R Degree of protection IP67 Ordering data Table 6- 27 ANT D1 ordering data Antenna Article number ANT D1 (incl. one plug-in antenna connecting cable 3.
Antennas 6.11 ANT D1 6.11.3 Flush mounting on/in metal The tuning of the ANT D1 antenna is optimized for mounting on metal and can be mounted directly on or flush in metal. a = 30 mm Figure 6-50 6.11.4 ANT D1 flush-mounted in metal Minimum clearances Note Extension of the data transmission time if distance values are undershot If the distance values specified in the tables are undershot, it is possible that the inductive fields will be affected.
Antennas 6.
Antennas 6.11 ANT D1 6.11.5 Technical specifications 6GT2698-5AC00 Product type designation ANT D1 Electrical data Maximum write/read distance ANT ↔ Transponder (Sg) 250 mm Power rating (max.) 2W Interfaces Plug connection TNC socket, pins on antenna side Mechanical specifications Housing • Material • Plastic PA 12 • Color • Anthracite MTBF 13698 years Permitted ambient conditions Ambient temperature • During operation • -25 ... +55 °C • During transportation and storage • -40 ...
Antennas 6.11 ANT D1 6.11.
Antennas 6.12 ANT D5 6.12 ANT D5 6.12.1 Features ANT D5 6.12.2 Characteristics Area of application Storage, logistics and distribution Writing/reading distance up to 500 mm (depending on the transponder) Connecting cable 3.3 m Readers that can be connected RF285R, RF290R Degree of protection IP65 Ordering data Table 6- 29 Ordering data of ANT D5 Antenna Article number ANT D5 (incl. one plug-in antenna connecting cable 3.
Antennas 6.12 ANT D5 6.12.
Antennas 6.12 ANT D5 6.12.4 Flush-mounted in metal a = 150 mm Figure 6-55 6.12.5 Metal-free area for ANT D5 Minimum spacing Note Extension of the data transmission time if distance values are undershot If the distance values specified in the tables are undershot, it is possible that the inductive fields will be affected. In this case, the data transmission time can increase unpredictably or a command is aborted with an error. For this reason, please observe the values in the tables.
Antennas 6.
Antennas 6.12 ANT D5 6.12.6 Technical data 6GT2698-5AA10 Product type designation ANT D5 Electrical data Maximum write/read distance ANT ↔ transponder 500 mm (Sg) Interfaces Plug connection 1-pin TNC plug Mechanical specifications Housing • Material • Aluminum/plastic • Color • gray/black Permitted ambient conditions Ambient temperature • During operation • -20 ... +55 °C • During transportation and storage • -25 ...
Antennas 6.12 ANT D5 6.12.
Antennas 6.13 ANT D6 6.13 ANT D6 6.13.1 Features ANT D6 Characteristics Area of application 6.13.2 • Storage, logistics and distribution • Suitable for high-speed applications with large writing/reading distance Writing/reading distance up to 650 mm (depending on the transponder) Connecting cable 3.
Antennas 6.13 ANT D6 6.13.
Antennas 6.13 ANT D6 6.13.4 Metal-free area Flush-mounted in metal Figure 6-59 6.13.
Antennas 6.13 ANT D6 6.13.6 Technical data 6GT2698-5AB00 Product type designation ANT D6 Electrical data Maximum write/read distance ANT ↔ transponder 650 mm (Sg) Interfaces Plug connection 1-pin TNC plug Mechanical specifications Housing • Material • Aluminum/plastic • Color • gray/black Permitted ambient conditions Ambient temperature • During operation • -20 ... +55 °C • During transportation and storage • -25 ...
Antennas 6.13 ANT D6 6.13.
Antennas 6.14 ANT D10 6.14 ANT D10 6.14.1 Features ANT D10 Characteristics Area of application 6.14.2 • Storage, logistics and distribution, e.g. clothing industry, laundries • Particularly when small MDS are used (e.g. MDS D124, MDS D160) and when there is a long transmission field Writing/reading distance up to 480 mm (depending on the transponder) Connecting cable 3.
Antennas 6.14 ANT D10 6.14.
Antennas 6.14 ANT D10 6.14.
Antennas 6.14 ANT D10 6.14.5 Minimum distance Minimum distances from antenna to antenna D ≥ 2000 mm in conjunction with RF290R Figure 6-64 6.14.
Antennas 6.14 ANT D10 6GT2698-5AF00 Permitted ambient conditions Ambient temperature • During operation • -20 ... +55 °C • During transportation and storage • -25 ... +70 °C Degree of protection to EN 60529 IP65 (UL: For indoor use only) Shock-resistant according to EN 60721-3-7 Class 300 m/s2 7 M2 1) Vibration-resistant according to EN 60721-3-7 Class 7 M2 1) • 10 m/s2 (9 ... 200 Hz) • 15 m/s2 (200 ...
Antennas 6.14 ANT D10 6.14.
Antennas 6.
7 Transponder 7.
Transponder 7.2 MDS D100 Memory areas Depending on the manufacturer of the transponder chip, the memory configuration of an ISO transponder consists of varying sizes of user memory. The typical sizes are 112 bytes, 256 bytes, 992 bytes EEPROM or 2000 bytes, 8192 bytes FRAM. Each ISO transponder chip has an 8-byte long unique serial number (UID, read only). This UID is transferred as an 8 byte value through a read command to address FFF0 with a length of 8.
Transponder 7.2 MDS D100 7.2.2 Ordering data Table 7- 1 Ordering data for MDS D100 Article number MDS D100 Table 7- 2 6GT2600-0AD10 Ordering data for MDS D100 accessory Article number 7.2.3 Spacer (in conjunction with fixing pocket 6GT2190-0AB00) 6GT2190-0AA00 Fixing pocket (in conjunction with spacer 6GT2190-0AA00) 6GT2190-0AB00 Fixing pocket (not suitable for fixing directly onto metal) 6GT2390-0AA00 Metal-free area Direct mounting of the MDS D100 on metal is not allowed.
Transponder 7.2 MDS D100 Flush-mounting a ≥ 20 mm h ≥ 20 mm ① ② ③ Transponder Metal Non-metal Figure 7-3 Flush-mounting of MDS D100 in metal with spacer Note If the minimum guide values (h or a) are not observed, a reduction of the field data results.
Transponder 7.2 MDS D100 7.2.
Transponder 7.2 MDS D100 6GT2600-0AD10 Design, dimensions and weight 7.2.5 Dimensions (L x W x H) 85.6 x 54 x 0.9 mm Weight 5g Type of mounting • Fixing pocket • Glued 2) 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.
Transponder 7.3 MDS D117 7.3 MDS D117 7.3.1 Features MDS D117 7.3.2 Characteristics Area of application Very compact data carrier that can be cemented into objects where precise positioning is necessary; e.g. tool identification, workpiece holders etc.. Memory size 112 bytes of EEPROM user memory Write/read range See section "Field data (Page 39).
Transponder 7.3 MDS D117 7.3.
Transponder 7.3 MDS D117 6GT2600-0AG00 Design, dimensions and weight 7.3.5 Dimensions (Ø x H) 4 x 5.2 mm Weight 1g Type of mounting • Fixing pocket • Glued 2) 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.
Transponder 7.4 MDS D124 7.4 MDS D124 7.4.1 Characteristics MDS D124 7.4.2 Characteristics Area of application Application areas in production automation (e.g. small paintshops up to +180 °C) Memory size 112 bytes of EEPROM user memory Write/read range See section "Field data (Page 39)".
Transponder 7.4 MDS D124 7.4.
Transponder 7.4 MDS D124 Note Going below the distances If the distances (a and h) are not observed, a reduction of the field data results. It is possible to mount the MDS with metal screws (M3 countersunk head screws). This has no tangible impact on the range. 7.4.
Transponder 7.
Transponder 7.4 MDS D124 7.4.5 Using the MDS D124 in hazardous areas The transponder MDS D124, device group II, category 1G or 1D may be installed and operated in zones 0, 1 and 2 or in the zones 20, 21 and 22. The following requirements of the 2014/34/EU directive are met: ● EN 60079-0:2012 + A11:2013 ● EN 60079-11:2012 When used in hazardous areas, the MDS D124 must not be operated with transmit power greater than 2 W or magnetic field strengths > 5 A/m to avoid impermissible heating.
Transponder 7.4 MDS D124 WARNING Installation and operating conditions for hazardous areas • The device may not be used in areas influenced by processes that generate high electrostatic charges. • The device must be installed in such a way that it is mechanically protected. • The device must be mounted on a grounded conductive base. • The device must only be cleaned with a damp cloth. • The device is suitable for use in atmospheres containing dust, but not for full immersion in dust.
Transponder 7.4 MDS D124 The surface temperature of the MDS D124 transponder for hazardous areas for dust depends on the ambient temperature range: Table 7- 11 Temperature classes for hazardous areas for dust Ambient temperature of the transponder 7.4.6 RF210R, RF220R, RF240R, RF250R (incl. all released antennas), RF260R, RF310R, RF340R, RF350R RF380R Permitted surface temperature -25 ℃ ... +155 ℃ -25 ℃ ... +110 ℃ T180 °C -25 ℃ ... +105 ℃ -25 ℃ ... +60 ℃ T130 °C -25 ℃ ...
Transponder 7.5 MDS D126 7.5 MDS D126 7.5.1 Characteristics MDS D126 7.5.
Transponder 7.5 MDS D126 7.5.
Transponder 7.5 MDS D126 7.5.
Transponder 7.5 MDS D126 6GT2600-0AE00 Design, dimensions and weight 7.5.5 Dimensions (Ø x H) 50 x 3.6 mm Weight 13 g Type of mounting • 1 x M4 screw 2) ≤ 1 Nm • Glued 3) 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. 3) The processing instructions of the adhesive manufacturer must be observed.
Transponder 7.6 MDS D127 7.6 MDS D127 7.6.1 Features MDS D127 7.6.2 Characteristics Area of application Very compact data carrier that can be screwed into areas where precise positioning is necessary; e.g. tool identification, workpiece holders etc.
Transponder 7.6 MDS D127 7.6.3 Mounting in metal Flush-mounted in metal ① Metal ② Transponders Note Damage to the transponder due to improper mounting To screw the MDS D127 into a suitable thread, use the supplied screw-in tool. This avoids damage to the MDS D127.
Transponder 7.6 MDS D127 7.6.
Transponder 7.6 MDS D127 6GT2600-0AF00 Design, dimensions and weight Dimensions (Ø x H) M6 x 5.8 mm Weight 1g Type of mounting • Glued 2) • 1 x M3 screw 1) 2) 7.6.5 The values for shock and vibration are maximum values and must not be applied continuously. The processing instructions of the adhesive manufacturer must be observed.
Transponder 7.7 MDS D139 7.7 MDS D139 7.7.1 Characteristics MDS D139 Characteristics Area of application Applications in production logistics and in assembly lines subject to high temperatures (up to +220 °C) Typical application areas: 7.7.
Transponder 7.7 MDS D139 7.7.3 Metal-free area Direct mounting of the MDS D139 on metal is not allowed. A distance of ≥ 30 mm is recommended. This can be achieved using spacers (see "Transponder holders (Page 433)"). Mounting on metal h ≥ 30 mm Figure 7-15 Mounting the MDS D139 on metal with spacer Flush-mounting It is possible to mount the MDS D139 in metal. With large antennas, for example ANT D5, this leads to a reduction of ranges.
Transponder 7.7 MDS D139 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. 7.7.4 Mounting in metal It is possible to mount the MDS D139 in metal. With large antennas, for example ANT D5, this leads to a reduction of ranges. a = 100 mm h = 30 mm Figure 7-17 7.7.
Transponder 7.7 MDS D139 7.7.
Transponder 7.
Transponder 7.7 MDS D139 7.7.7 Using the MDS D139 in hazardous areas The MDS D139 transponder is classed as simple, electrical equipment and can be operated in Protection Zone 2, Device Group II, Category 3G. The following requirements of the 94/9/EC directive are met: ● EN 60079-0:2006 ● EN 60079-15:2005 ● EN 61241-0:2006 ● EN 61241-1:2004 Identification II 3 G Ex nA II T2 II 3 D Ex tD A22 IP68 T 220°C KEMA 09 ATEX 0133 X Ta: -25 ...
Transponder 7.7 MDS D139 Note Installations- und Betriebsbedingungen für den explosionsgefährdeten Bereich: 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.
Transponder 7.7 MDS D139 7.7.
Transponder 7.8 MDS D160 7.8 MDS D160 7.8.1 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: 7.8.
Transponder 7.8 MDS D160 7.8.3 Mounting on metal Mounting on metal ① ② ③ Transponder h ≥ 10 mm Metal carrier Spacer Figure 7-19 Mounting the MDS D160 on metal with spacer Note Going below the minimum distance (h) If the minimum distance (h) is not observed, a reduction of the field data results. In critical applications, it is recommended that a test is performed.
Transponder 7.8 MDS D160 7.8.
Transponder 7.8 MDS D160 6GT2600-0AB10 Permitted ambient conditions Ambient temperature • during write/read access • -25 ...
Transponder 7.8 MDS D160 6GT2600-0AB10 Design, dimensions and weight Dimensions (Ø x H) 16 x 3 mm Weight 1.2 g Type of mounting • Patched • Sewn in • Glued 2) 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. Note Regeneration time between washing cycles The regeneration time for the MDS D160 between washing cycles must be at least 24 hours. 7.8.
Transponder 7.9 MDS D165 7.9 MDS D165 7.9.1 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. 7.9.
Transponder 7.9 MDS D165 7.9.
Transponder 7.9 MDS D165 6GT2600-1AB00-0AX0 Design, dimensions and weight Dimensions (L x W x H) 86 x 54 x 0.3 mm Weight 1g Type of mounting Glued with self-adhesive label 1) 1) 7.9.4 The processing instructions of the adhesive manufacturer must be observed.
Transponder 7.10 MDS D200 7.10 MDS D200 7.10.1 Features MDS D200 7.10.2 Characteristics Area of application From simple identification such as electronic barcode replacement/supplementation, through warehouse and distribution logistics, right up to product identification. Memory size 256 bytes of EEPROM user memory Write/read range See section Field data (Page 39).
Transponder 7.10 MDS D200 7.10.
Transponder 7.10 MDS D200 Flush-mounting a ≥ 20 mm h ≥ 20 mm ① ② ③ Transponder Metal Non-metal Figure 7-23 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.
Transponder 7.10 MDS D200 7.10.
Transponder 7.10 MDS D200 6GT2600-1AD00-0AX0 Design, dimensions and weight 7.10.5 Dimensions (L x W x H) 85 x 54 x 0.8 mm Weight 5g Type of mounting • Fixing pocket • Glued 2) 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.
Transponder 7.11 MDS D261 7.11 MDS D261 7.11.1 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. 7.11.
Transponder 7.11 MDS D261 7.11.
Transponder 7.11 MDS D261 6GT2600-1AA01-0AX0 Design, dimensions and weight Dimensions (L x W x H) 55 x 55 x 0.3 mm Weight 1g Type of mounting Glued with self-adhesive label 1) 1) 7.11.4 The processing instructions of the adhesive manufacturer must be observed.
Transponder 7.12 MDS D324 7.12 MDS D324 7.12.1 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). 7.12.2 Memory size 992 bytes of EEPROM user memory Write/read range See section "Field data (Page 39).
Transponder 7.12 MDS D324 7.12.
Transponder 7.12 MDS D324 Note Going below the distances If the distances (a and h) are not observed, a reduction of the field data results. It is possible to mount the MDS with metal screws (M3 countersunk head screws). This has no tangible impact on the range. 7.12.
Transponder 7.12 MDS D324 6GT2600-3AC00 Permitted ambient conditions Ambient temperature • during write/read access • -25 … +125 °C • outside the read/write field • -40 … +140 °C • during storage • -40 … +140 °C • IP67 • IPx9K Degree of protection according to EN 60529 Shock-resistant according to EN 60721-3-7 Class 1000 m/s2 7M3 1) Vibration-resistant according to EN 60721-3-7 Class 7M3 1) 200 m/s2 Torsion and bending load Not permitted Design, dimensions and weight 7.12.
Transponder 7.13 MDS D339 7.13 MDS D339 7.13.1 Characteristics MDS D339 Characteristics Area of application Applications in production automation with high temperature demands (up to +220 °C) Typical application areas: 7.13.
Transponder 7.13 MDS D339 7.13.3 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 "Transponder holders (Page 433)"). Mounting on metal h ≥ 30 mm Figure 7-29 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.
Transponder 7.13 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. 7.13.4 Mounting in metal It is possible to mount the MDS D339 in metal. With large antennas, for example ANT D5, this leads to a reduction of ranges. a = 100 mm h = 30 mm Figure 7-31 7.13.
Transponder 7.13 MDS D339 7.13.
Transponder 7.
Transponder 7.13 MDS D339 7.13.7 Using the MDS D339 in hazardous areas The MDS D339 transponder is classed as simple electrical equipment and can be operated in Protection Zone 2, Device Group II, Category 3G.
Transponder 7.13 MDS D339 Note Installations- und Betriebsbedingungen für den explosionsgefährdeten Bereich: 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.
Transponder 7.13 MDS D339 7.13.
Transponder 7.14 MDS D400 7.14 MDS D400 7.14.1 Features MDS D400 7.14.2 Characteristics Area of application Simple identification such as electronic barcode replacement/supplements, from warehouse and distribution logistics right through to product identification.
Transponder 7.14 MDS D400 7.14.3 Mounting on metal Mounting on metal It is possible to mount the MDS D400 on metal.
Transponder 7.14 MDS D400 Flush-mounted in metal a ≥ 20 mm h ≥ 20 mm ① ② ③ Transponder Metal Non-metal Figure 7-34 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.
Transponder 7.14 MDS D400 7.14.
Transponder 7.14 MDS D400 6GT2600-4AD00 Design, dimensions and weight 7.14.5 Dimensions (L x W x H) 85 x 54 x 0.8 mm Weight 5g Type of mounting • Fixing lug • Glued 2) 1) The values for vibration are maximum values and must not be applied continuously. 2) The processing instructions of the adhesive manufacturer must be observed.
Transponder 7.15 MDS D421 7.15 MDS D421 7.15.1 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. 7.15.
Transponder 7.15 MDS D421 7.15.
Transponder 7.15 MDS D421 Flush-mounting of MDS D421 in metal with tools Figure 7-38 Flush-mounting of MDS D421 in metal with tools b1 0.5 x 45° b2 0.3 x 45° or R 0.3 d1 10 (-0.04.. -0.13) d2 10 (+0.09... 0) t1 4.5 (-0... -0.1) t2 4.6 (+0.2... 0) All dimensions in mm Note Installation instruction The MDS should not protrude out of the locating hole; it must be flush with the outside contour. The mounting instructions of the MDS and the conditions associated with the application (e.g.
Transponder 7.15 MDS D421 Installation examples 7.15.
Transponder 7.
Transponder 7.15 MDS D421 7.15.
Transponder 7.16 MDS D422 7.16 MDS D422 7.16.1 Characteristics MDS D422 7.16.2 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 (Page 39).
Transponder 7.16 MDS D422 Mounting information for screws You can screw the transponder into a pre-drilled threaded hole using the screw-in aid.
Transponder 7.16 MDS D422 6GT2600-4AF00 Permitted ambient conditions Ambient temperature • during write/read access • -25 … +85 °C • outside the read/write field • -40 … +100 °C • during storage • -40 … +100 °C Degree of protection according to EN 60529 IP68 2 hours, 2 bar, +20 °C Shock-resistant acc. to EN 60721-3-7, Class 7M2 500 m/s2 1) Vibration-resistant acc. to EN 60721-3-7, Class 7M2 1) 200 m/s2 Torsion and bending load Not permitted Design, dimensions and weight 7.16.
Transponder 7.17 MDS D423 7.17 MDS D423 7.17.1 Characteristics MDS D423 7.17.
Transponder 7.17 MDS D423 7.17.3 Mounting on metal Mounting on metal Direct mounting of the MDS D423 on metal is possible. Figure 7-44 Mounting the MDS D423 on metal Flush-mounted in metal It is possible to mount the MDS D423 in metal.
Transponder 7.17 MDS D423 Figure 7-46 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. 7.17.
Transponder 7.
Transponder 7.17 MDS D423 7.17.
Transponder 7.18 MDS D424 7.18 MDS D424 7.18.1 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 7.18.2 Memory size 2000 bytes of FRAM user memory Write/read range See section "Field data (Page 39).
Transponder 7.18 MDS D424 7.18.
Transponder 7.18 MDS D424 Note Going below the distances If the distances (a and h) are not observed, a reduction of the field data results. It is possible to mount the MDS with metal screws (M3 countersunk head screws). This has no tangible impact on the range. 7.18.
Transponder 7.
Transponder 7.19 MDS D425 7.19 MDS D425 7.19.1 Characteristics MDS D425 Characteristics Area of application Compact and rugged ISO transponder; suitable for screw mounting Use in assembly and production lines in the powertrain sector; ideal for mounting on motors, gearboxes, and workpiece holders Rugged packaging of the MDS D425; can therefore also be used under extreme environmental conditions without problem 7.19.
Transponder 7.19 MDS D425 7.19.3 Application example Figure 7-51 7.19.
Transponder 7.19 MDS D425 6GT2600-4AG00 Mechanical specifications Enclosure • Material • Plastic PA 6.
Transponder 7.19 MDS D425 7.19.
Transponder 7.20 MDS D426 7.20 MDS D426 7.20.1 Characteristics MDS D426 7.20.
Transponder 7.20 MDS D426 Flush-mounted in metal h ≥ 25 mm a ≥ 50 mm Figure 7-54 7.20.
Transponder 7.20 MDS D426 7.20.
Transponder 7.20 MDS D426 6GT2600-4AH00 Design, dimensions and weight 7.20.5 Dimensions (Ø x H) 50 x 3.6 mm Weight 13 g Type of mounting 1 x M4 screw 2) ≤ 1 Nm 1) The values for shock and vibration are maximum values and must not be applied continuously. 2 ) To prevent it loosening during operation, secure the screw with screw locking varnish.
Transponder 7.21 MDS D428 7.21 MDS D428 7.21.1 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. 7.21.
Transponder 7.21 MDS D428 7.21.3 Application example Figure 7-56 7.21.
Transponder 7.21 MDS D428 6GT2600-4AK00 Mechanical specifications Enclosure • Material • Plastic PA 6.
Transponder 7.21 MDS D428 7.21.
Transponder 7.22 MDS D460 7.22 MDS D460 7.22.1 Characteristics MDS D460 7.22.
Transponder 7.22 MDS D460 7.22.3 Mounting on metal Mounting option on metal with spacer ① ② ③ Transponder h ≥ 10 mm Metal Spacer Figure 7-58 Mounting the MDS D460 on metal with spacer Note If the minimum guide values (h) are not observed, a reduction of the field data results. In critical applications, it is recommended that a test is performed.
Transponder 7.22 MDS D460 7.22.
Transponder 7.22 MDS D460 6GT2600-4AB00 Design, dimensions and weight 7.22.5 Dimensions (Ø x H) 16 x 3 mm 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.
Transponder 7.23 MDS D521 7.23 MDS D521 7.23.1 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. 7.23.
Transponder 7.23 MDS D521 Flush-mounting Figure 7-61 Mounting of MDS D521 in metal Flush-mounting of MDS D521 in metal with tools Figure 7-62 Flush-mounting of MDS D521 in metal with tools b1 0.5 x 45° b2 0.3 x 45° or R 0.3 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.
Transponder 7.
Transponder 7.23 MDS D521 7.23.
Transponder 7.23 MDS D521 6GT2600-5AE00 Design, dimensions and weight 7.23.5 Dimensions (Ø x H) 10 x 4.5 mm Weight 1g Type of mounting Glued 2) 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.
Transponder 7.24 MDS D522 7.24 MDS D522 7.24.1 Characteristics MDS D522 7.24.2 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 (Page 39).
Transponder 7.24 MDS D522 Mounting information for screws You can screw the transponder into a pre-drilled threaded hole using the screw-in aid.
Transponder 7.24 MDS D522 6GT2600-5AF00 Permitted ambient conditions Ambient temperature • during write/read access • -25 … +85 °C • outside the read/write field • -40 … +100 °C • during storage • -40 … +100 °C Degree of protection according to EN 60529 IP68 2 hours, 2 bar, +20 °C Shock-resistant acc. to EN 60721-3-7, Class 7M2 500 m/s2 1) Vibration-resistant acc. to EN 60721-3-7, Class 7M2 1) 200 m/s2 Torsion and bending load Not permitted Design, dimensions and weight 7.24.
Transponder 7.25 MDS D522 special variant 7.25 MDS D522 special variant 7.25.1 Characteristics MDS D522 special version 7.25.2 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 (Page 39).
Transponder 7.25 MDS D522 special variant 7.25.3 Mounting in metal Flush-mounting Figure 7-68 7.25.4 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.
Transponder 7.
Transponder 7.25 MDS D522 special variant 7.25.
Transponder 7.25 MDS D522 special variant 6GT2600-5AF00-0AX0 Design, dimensions and weight Dimensions (Ø x H) 18 (+0.1) × 5.2 mm Weight Approx. 1.2 g Type of mounting Clipping in once (with accompanying tool) 1) The values for shock and vibration are maximum values and must not be applied continuously.
Transponder 7.25 MDS D522 special variant 7.25.
Transponder 7.26 MDS D524 7.26 MDS D524 7.26.1 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 7.26.2 Memory size 8192 bytes of FRAM user memory Write/read range See section "Field data (Page 39).
Transponder 7.26 MDS D524 7.26.
Transponder 7.26 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. 7.26.
Transponder 7.26 MDS D524 6GT2600-5AC00 Permitted ambient conditions Ambient temperature • during write/read access • -25 … +85 °C • outside the read/write field • -40 … +100 °C • during storage • -40 … +100 °C • IP67 • IPx9K Degree of protection according to EN 60529 Shock-resistant according to EN 60721-3-7 Class 1000 m/s2 7M3 1) Vibration-resistant according to EN 60721-3-7 Class 7M3 1) 200 m/s2 Torsion and bending load Not permitted Design, dimensions and weight 7.26.
Transponder 7.27 MDS D525 7.27 MDS D525 7.27.1 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 7.27.
Transponder 7.27 MDS D525 7.27.3 Application example Figure 7-74 7.27.
Transponder 7.27 MDS D525 6GT2600-5AG00 Mechanical specifications Enclosure • Material • Plastic PA 6.
Transponder 7.27 MDS D525 7.27.
Transponder 7.28 MDS D526 7.28 MDS D526 7.28.1 Characteristics MDS D526 7.28.2 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 (Page 39).
Transponder 7.28 MDS D526 7.28.
Transponder 7.28 MDS D526 7.28.
Transponder 7.28 MDS D526 6GT2600-5AH00 Design, dimensions and weight 7.28.5 Dimensions (Ø x H) 50 x 3.6 mm Weight 13 g Type of mounting 1 x M4 screw 2) ≤ 1 Nm 1) The values for shock and vibration are maximum values and must not be applied continuously. 2 ) To prevent it loosening during operation, secure the screw with screw locking varnish.
Transponder 7.29 MDS D528 7.29 MDS D528 7.29.1 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. 7.29.
Transponder 7.29 MDS D528 7.29.3 Application example Figure 7-79 7.29.
Transponder 7.29 MDS D528 6GT2600-5AK00 Mechanical specifications Enclosure • Material • Plastic PA 6.
Transponder 7.29 MDS D528 7.29.
Transponder 7.30 MDS D560 7.30 MDS D560 7.30.1 Characteristics MDS D560 7.30.2 Characteristics Area of application Identification in small assembly lines; can also be used in a harsh industrial environment Memory size 8192 bytes of FRAM user memory Write/read range See section "Field data (Page 39).
Transponder 7.30 MDS D560 7.30.3 Mounting on metal Mounting option on metal with spacer ① ② ③ Transponder h ≥ 10 mm Metal Spacer Figure 7-81 Mounting the MDS D560 on metal with spacer Note Maintaining distance If the reference value (h) is not observed, a reduction of the field data results. In critical applications, it is recommended that a test is performed.
Transponder 7.30 MDS D560 7.30.
Transponder 7.30 MDS D560 6GT2600-5AB00 Design, dimensions and weight 7.30.5 Dimensions (Ø x H) 16 x 3 mm 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.
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.
System integration Configuration and parameter assignment by means of TIA Portal technology object You can easily and quickly configure and parameterize the entire RF300 system in the TIA Portal (as of STEP 7 Basic / Professional V14 SP 1) with the help of the "SIMATIC Ident" technology object. You can find detailed information about the technology object in the TIA Portal help.
System integration The following table shows the program blocks compatible with the interface modules/communications modules. Table 8- 2 Compatible program blocks ASM/ communications module S7-300 / S7-400 and STEP 7 Classic V5.5 Compatible program blocks in conjunction with ... S7-300 / S7-400 and STEP 7 Basic/Professional S7-1200 / S7-1500 and STEP 7 Basic/Professional ASM 456 FB 45 FB 45 Ident profile FB 55 FB 55 Ident blocks FC 56 FC 56 Standard profile V1.
System integration SIMATIC RF200 408 System Manual, 03/2019, J31069-D0227-U001-A11-7619
System diagnostics 9.1 9 Error codes of the RF200 readers Note Validity of the error codes The following error codes apply only to RF200 readers with an S-422 interface (CM mode) You can determine the error code in two ways: ● directly on the reader/CM by counting the flashing pattern of the red error LED ● via Ident profile with the "Status" output variable Give consideration to the form of the output variable in the following table ("0xE&FE$$00"; "&" = 1 ... 5; "$$" = error code).
System diagnostics 9.
System diagnostics 9.2 Diagnostics functions - STEP 7 9.2 Diagnostics functions - STEP 7 Further information on RFID diagnostics options can be found in the following function manuals: ● Function manual Ident profile and Ident blocks (https://support.industry.siemens.com/cs/us/en/view/106368029) ● Function Manual FB 45 (https://support.industry.siemens.com/cs/ww/en/view/21738808) 9.2.
System diagnostics 9.2 Diagnostics functions - STEP 7 Name Type baud byte Possible Values (hex) Transmission speed 0x01 0x03 0x05 multitag_SLG byte field_ON_time_SLG byte status_ant byte = 19.2 kBd = 57.6 kBd = 115.
System diagnostics 9.2 Diagnostics functions - STEP 7 9.2.2 Transponder diagnostics with "Tag Status" (MDS Status) The command can be used to scan the status data of the transponder that is located within the antenna field. Table 9- 3 Attribute "0x83" (mode 03), corresponds to UDT 230 Name Type UID array[1…8] byte MDS_type byte Possible Values (hex) Comment Unique identifier 0x000000000 0000000 ...
System diagnostics 9.
A Appendix A.1 Certificates & approvals All the latest RFID radio approvals are available on the Internet (http://www.siemens.com/rfid-approvals). Labeling Description Conformity acc.
Appendix A.1 Certificates & approvals Country-specific approvals: Safety If the device has one of the following markings the corresponding approval has been obtained: Labeling Description Underwriters Laboratories (UL) per UL 60950 (I.T.E) or per UL 508 (IND.CONT.EQ) Underwriters Laboratories (UL) according to Canadian standard C22.2 No. 60950 (I.T.E) or C22.2 No. 142 (IND.CONT.EQ) Underwriters Laboratories (UL) according to standard UL 60950, Report E11 5352 and Canadian standard C22.2 No. 60950 (I.T.
Appendix A.1 Certificates & approvals Labeling Description AGÊNCIA NACIONAL DE TELECOMUNICAÇÕES RF210R, RF220R, RF260R, RF285R,RF290R: Este produto está homologado pela ANATEL, de acordo com os procedimentos regulamentados pelaResolução 242/2000, e atende aos requi sitos técnicos aplicados. Para maiores informações, consulte o site da ANATEL: www.analel.gov.
Appendix A.2 Accessories A.2 Accessories A.2.1 Antenna splitter Area of application Antenna splitter Characteristics Area of application Designed for distributed mounting of antennas in warehouses, logistics and distribution Readers that can be connected RF285R, RF290R Number of connectable antennas max.
Appendix A.2 Accessories Technical specifications Table A- 3 Technical specifications for antenna splitter Technical specifications max. input power 10 W Transmission frequency 13.56 MHz Power supply None Housing dimensions (L x W x H) 160 x 80 x 40 mm (without connector) Color Anthracite Material Plastic PA 12 Connector (inputs and outputs) TNC connector Securing 2 x M5 screws Ambient temperature • During operation • -25 ℃ ... +65 ℃ • During transportation and storage • -25 ℃ ...
Appendix A.2 Accessories A.2.2 Wide-range power supply unit for SIMATIC RF systems A.2.2.1 Features The wide range power supply unit for SIMATIC RF systems is a primary switched device for supplying power and for use on single phase AC systems. The two DC outputs (sockets) are connected in parallel and protected by a built-in voltage limiting circuit against overload and short-circuits. The device is vacuum-cast and prepared for Safety Class I applications.
Appendix A.2 Accessories A.2.2.
Appendix A.2 Accessories A.2.2.4 Safety Information WARNING Danger to life It is not permitted to open the device or to modify the device. The following must also be taken into account: • Failure to observe this requirement shall constitute a revocation of the CE approval, UL certification for the US and Canada as well as the manufacturer's warranty. • For installation of the power supply, compliance with the DIN/VDE requirements or the country-specific regulations is essential.
Appendix A.2 Accessories NOTICE Restriction to the approval of the wide-range power supply Alterations to the SIMATIC RFID modules and devices as well as the use of SIMATIC RFID components with third-party RFID devices are not permitted. Failure to observe this requirement shall constitute a revocation of the radio equipment approvals, CE approval and manufacturer's warranty. Furthermore, the compliance to any salient safety specifications of VDE/DIN, IEC, EN, UL and CSA will not be guaranteed.
Appendix A.2 Accessories Follow the steps below to mount and connect the wide-range power supply unit: 1. Mount the wide-range power supply using the 4x screws. Remember to make the grounding connection with the mounting hole ④ provided by the metal shoe. For detailed information on grounding and compliance with the EMC directives, refer to the "Grounding connection" section below. 2. Connect the reader to the outputs ② and ③ of the wide-range power supply unit. 3.
Appendix A.2 Accessories Installation instructions The power supply unit must be connected with the described connecting cables in the primary and secondary circuits. The connectors at the power supply unit end may only be removed or inserted when no voltage is applied. The degree of protection IP67 is only achieved with correctly connected and locked connectors. Adequate spacing around the power supply unit should be provided to ensure free convection.
Appendix A.2 Accessories The grounding connection ④ must be electrically connected to the ground potential using a contact disc. Tighten the screw with a torque of ≃ 1.5 Nm. Grounding connection (a) Hexagon-head screw (M5) (b) Flat washer (c) Cable lug (d) Contact washer: To make ground contact, use contact washers according to the Siemens standard: SN 70093-6-FStflNnnc- 480h, Siemens item no.
Appendix A.2 Accessories A.2.2.6 Pin assignment of DC outputs and mains connection Table A- 7 Pin assignment of the DC outputs Assignment Table A- 8 1 Ground (0 V) 2 +24 VDC 3 +24 VDC 4 Ground (0 V) Pin assignment of the mains connector Assignment A.2.2.
Appendix A.2 Accessories 6GT2898-0ACx0 Mechanical specifications Housing • • Material Color • Polyamide, glass-fiber reinforced • Casting compound: Polyurethane • Black Housing classification UL94-V0 MTBF in years 255 Permitted ambient conditions Ambient temperature • During operation • -25 … +70 °C • During transportation and storage • -40 … +85 °C Self-heating on full-load max. 45 K Surface temperature Max. +81.
Appendix A.2 Accessories 6GT2898-0ACx0 Design, dimensions and weights Dimensions (L × W × H) • Without plug • 140 × 85 × 35 mm • With plug • 172.7 × 85 × 35 mm Weight 720 g Technical specifications of the input Rated input voltage Uin 100 to 240 VAC Input frequency fin 50/60 Hz Radio interference level EN 55011/B Switching frequency fsw approx. 70 kHz typ. Connector type 7/8", 2-pin + PE 6 ...
Appendix A.2 Accessories Table A- 10 Output configurations Input Outputs U1 = U2 ILoad = I1 + I2 Efficiency (%) Remarks 110 VAC 24 VDC 0A -- No-load protection 110 VAC 24 VDC 3A ≥ 88 -- 220 VAC 24 VDC 0A -- No-load protection 220 VAC 24 VDC 3A ≥ 90 -- All values are measured at full-load and at an ambient temperature of 25 °C (unless specified otherwise). A.2.2.
Appendix A.2 Accessories A.2.2.9 Certificates and approvals Table A- 11 Marking Approvals for wide-range power supply unit for SIMATIC RF systems (Europe, UK): 6GT2898-0AC00, 6GT2898-0AC10 Description CE approval acc. to • 2004/108/EG - EMC • 2006/95/EG - Voltage directive Radio approval for Russia, Belarus, Kazakhstan Table A- 12 Marking Approvals for wide-range power supply unit for SIMATIC RF systems (USA): 6GT28980AC20 Description This product is UL-certified for the US and Canada.
Appendix A.2 Accessories Engineering Conditions of Acceptability For use only in or with complete equipment where the acceptability of the combination is determined by ULLLC. When installed in an end-product, consideration must be given to the following: ● Reference temperatures on the unit enclosure were measured during heating test. The max obtained temperature with condition C at Enclosure I was 81.5 °C.
Appendix A.2 Accessories A.2.
Appendix A.
Appendix A.2 Accessories Product photo Insertable transponders Characteristics • MDS D160 • Spacer for mounting on metal • MDS D460 • Distance from transponder to metal: 10 mm • MDS D560 • Mounting: 1 x M3 countersunk screw • Material: PA6 • Weight: 2 g • Dimensions (Ø x H): 20 x 14.
Appendix A.
Appendix A.
Appendix A.
Appendix A.
Appendix A.3 Connecting cable A.3 Connecting cable A.3.
Appendix A.3 Connecting cable Connecting cable with angled connector Figure A-12 Connecting cable between ASM 456, RF160C, RF170C, RF180C, RF18xC and RF2xxR reader (RS-422) with angled connector Table A- 15 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.
Appendix A.3 Connecting cable A.3.2 Reader RF2xxR (RS-422) 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 6GT2891-4F… plug-in cables.
Appendix A.3 Connecting cable A.3.
Appendix A.3 Connecting cable A.3.4 RF240R/RF260R/RF285R/RF290R (RS232) readers with 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 RF240R/RF260R/RF285R/RF290R (RS232) with 4-pin power supply connector Suitable power supply unit: e.g.
Appendix A.3 Connecting cable Table A- 18 Ordering data connecting cable Article number A.3.5 Connecting cable RS-232 with M12 male connector (4-pin), 5 m 6GT2891-4KH50 Connecting cable RS-232 with open ends (5 m) 6GT2891-4KH50-0AX0 RF285R/RF290R readers Antenna connecting cable Figure A-18 ANT cable ↔ ANT Dx (3.3 m / 10.5 m) Table A- 19 Ordering data Length L Article number 3.3 m 6GT2691-0CH33 10.5 m 6GT2691-0CN10 Antenna extension cable Figure A-19 Antenna extension cable (7.
Appendix A.4 Ordering data A.4 Ordering data RF200 components Table A- 21 RF200 reader Readers Description RF210R • With RS-422 interface (3964R) • IP67 • Operating temperature: -25 °C ... +70 °C • Dimensions (L x Ø): 83 x 18 mm • with integrated antenna • With RS-422 interface (3964R) • IP54 • Operating temperature: -20 °C ...
Appendix A.4 Ordering data Readers Description RF250R • With RS-422 interface (3964R) • IP67 • Operating temperature: -20 °C ... +70 °C • Dimensions (L x W x H): 50 x 50 x 30 mm • Reader with connections for external antennas ANT 1, ANT 3, ANT 8, ANT 12, ANT 18, ANT 30 • With RS-232 interface (ASCII) • IP67 • Operating temperature: -20 °C ...
Appendix A.4 Ordering data Readers Description RF285R • with RS232 interface • IP65 • Operating temperature: -20 … +55 °C • Dimensions (L x W x H): 200 x 140 x 80 mm • Reader with connections for external antennas ANT D1, ANT D5 or ANT D6 • With RS-232 interface (Advanced protocol) and RS-422 interface (3964R) • IP65 • Operating temperature: -20 °C ...
Appendix A.4 Ordering data Table A- 22 ISO transponder ISO transponder Description MDS D100 • IP68 • Memory size: 112 bytes of EEPROM user memory • Operating temperature: -25 °C ... +80 °C • Dimensions (L x W x H): 85.6 x 54 x 0.9 mm • Credit card format • IP68 • Memory size: 112 bytes of EEPROM user memory • Operating temperature: -25 °C ... +85 °C • Dimensions (Ø x H): 4 x 5 mm • IP68; IPx9K • Memory size: 112 bytes of EEPROM user memory • Operating temperature: -25 °C ...
Appendix A.4 Ordering data ISO transponder Description MDS D200 • IP67 • Memory size: 256 bytes of EEPROM user memory • Operating temperature: -20 °C ... +60 °C • Dimensions (L x W x H): 86 x 54 x 0.8 mm • Credit card format • IP65 • Memory size: 256 bytes of EEPROM user memory • Operating temperature: -25 °C ... +85 °C • Dimensions (L x W): 55 x 55 mm • Smartlabel (PET), small design • IP67; IPx9K • Memory size: 992 bytes of EEPROM user memory • Operating temperature: -25 °C ...
Appendix A.4 Ordering data ISO transponder Description MDS D424 • IP67; IPx9K • Memory size: 2000 bytes of FRAM user memory • Operating temperature: -25 °C ... +125 °C • Dimensions (Ø x H): 27 (±0.2) x 4 (±0.2) mm • IP68; IPx9K • Memory size: 2000 bytes of FRAM user memory • Operating temperature: -25 °C ... +85 °C • Dimensions (Ø x H): 24 X 10 mm; M6 thread • Screw transponder • IP68 • Memory size: 2000 bytes of FRAM user memory • Operating temperature: -25 °C ...
Appendix A.4 Ordering data ISO transponder Description MDS D524 • IP67 • Memory size: 8192 bytes of FRAM user memory • Operating temperature: -25 °C ... +85 °C • Dimensions (Ø x H): 27 (±0.2) x 4 (±0.2) mm • IP68; IPx9K • Memory size: 8192 bytes of FRAM user memory • Operating temperature: -25 °C ...
Appendix A.4 Ordering data Table A- 23 Communication modules/interface modules ASM/ 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 6GT2002-0GA10 max. 2 RF2xxR readers with RS-422 can be connected in parallel without a front connector RF120C Communications module RF120C for SIMATIC S7-1200 6GT2002-0LA00 RF160C Communications module RF160C for PROFIBUS DP V0 max.
Appendix A.4 Ordering data Table A- 24 Antennas Antennas Description ANT 1 • IP67 • Operating temperature: -25 °C ... +70 °C • Dimensions (L x W x H): 75 x 75 x 20 mm • incl. one integrated antenna connecting cable 3 m • 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 6GT2398-1CD40-0AX0 • IP67 6GT2398-1CD50-0AX0 • Operating temperature: -25 °C ...
Appendix A.4 Ordering data Antennas Description ANT 18 • (stainless steel variant) IP67 with inserted cable • Operating temperature: -20 °C ... +70 °C • Dimensions (Ø x L): M18 x 40 mm • without antenna connecting cable • incl. one plug-in antenna connecting cable 3 m 6GT2398-1DA10 • IP67 6GT2398-1CD00 • Operating temperature: -25 °C ... +70 °C • Dimensions (Ø x L): M30 x 58 mm • incl.
Appendix A.
Appendix A.4 Ordering data Table A- 28 Accessories - connecting cable RF200 reader ↔ PC Connecting cable Accessories Article number All readers with RS232 interface Connecting cable RS-232 with M12 male connector (4-pin), 5 m 6GT2891-4KH50 and PC Connecting cable RS-232 with open ends, 5 m 6GT2891-4KH50-0AX0 RF285R / RF290R Antenna cable Antenna cable extension Table A- 29 3.3 m 6GT2691-0CH33 10.5 m 6GT2691-0CN10 7.
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.
