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5.2 SIMATIC RF610R 5.2.1 Description 5.2.1.1 Overview Readers 5.2 SIMATIC RF610R The SIMATIC RF610R is a stationary reader in the UHF frequency band with an integrated antenna. The maximum transmit power is 400 mW, the radiant power of the internal antenna is 200 or 250 mW ERP / 400 mW EIRP. The interfaces (Ethernet, power supply) are located on the lower front edge. These interfaces can be used to connect the reader to the power supply and a PC for parameter assignment. The degree of protection is IP67. 1 Pos. Description
"PRESENCE" LED (PRE) LED operating display Interface to power supply (RS422), 24 V DC 1): X80 DC24V
(M12, 8-pin) Ethernet interface, TCP/IP: X1 P1
(M12, 4-pin)
) Connection of the readers to the ASM 456 communications module via the RS-422 interface. SIMATIC RF600 System Manual, 06/2019, J31069-D0171-U001-A22-7618 107 Readers 5.2 SIMATIC RF610R 5.2.1.2 Ordering data Table 5- 2 RF610R ordering data Product RF610R (ETSI) RF610R (FCC) RF610R (CMIIT) Table 5- 3 Ordering data accessories Product SIMATIC antenna holder for RF600 devices Connecting cable and connectors Ethernet plug on the reader FastConnect M12 (IP65) Ethernet plug Standard IE FastConnect RJ45 180 (IP20) Industrial Ethernet cable M12 / M12 Industrial Ethernet connecting cable M12-180 / RJ45 Industrial Ethernet cable by the meter, green (minimum 20 m) Article number 6GT2811-6BC10-0AA0 6GT2811-6BC10-1AA0 6GT2811-6BC10-2AA0 Article number 6GT2890-2AB10 6GK1901-0DB20-6AA0 6GK1901-1BB10-2AA0 5 m 6XV1870-8AH50 2 m 3 m 5 m 6XV1871-5TH20 6XV1871-5TH30 6XV1871-5TH50 6XV1840-2AH10 Connecting cable reader CM M12-180 / M12-180 2 m 5 m 10 m 20 m 50 m Wide-range power supply unit for SIMATIC RF systems 24 V connecting cable reader wide-range power supply unit with plug, 5 m with open ends, 2 m with open ends, 5 m DVD "Ident Systems Software & Documentation"
With EU plug With UK plug With US plug 6GT2891-4FH20 6GT2891-4FH50 6GT2891-4FN10 6GT2891-4FN20 6GT2891-4FN50 6GT2898-0AC00 6GT2898-0AC10 6GT2898-0AC20 6GT2891-0PH50 6GT2891-4EH20 6GT2891-4EH50 6GT2080-2AA20 108 SIMATIC RF600 System Manual, 06/2019, J31069-D0171-U001-A22-7618 Readers 5.2 SIMATIC RF610R 5.2.1.3 Pin assignment of the power supply interface (X80 24VDC) Table 5- 4 Pin assignment of the RS422 interface (reader end) View of interface
(M12 socket, 8-pin) Pin Wire colors Assignment
+ 24 V
- Tx 0 V
+ Tx
+ Rx
- Rx Unassigned Earth (shield) 1) These pins are not required if the reader is operated via Ethernet. White Brown Green Yellow Gray Pink
--
--
1 2 1) 3 4 1) 5 1) 6 1) 7 8 Note Requirement for external power sources The reader must only be supplied with power by power supply units that meet the requirements of LPS (Limited Power Source) and NEC Class 2. Requirement for external power sources The reader must only be supplied with power by power supply units that meet the requirementsof limited power source (LPS) and NEC Class 2. Spcification des sources de tension externes L'alimentation du plot de lecture/criture doit tre exclusivement assure par des blocs d'alimentation conformes aux spcifications des sources puissance limite (Limited Power Sources LPS) et de NEC class 2. Notes on connectors and cables The cables with open cable ends (6GT2891-4EH20, 6GT2891-4EH50) have an 8-pin M12 plug at one end, while the other end of the cable is "open". There are 8 color-coded single wires there for connecting to external devices. The product range includes additional cables of the type 6GT2891-4Fxxx (2 to 50 m) with an M12 connector at both ends. These cables can be used as extension cables. Long cables can be shortened if necessary. NOTICE Insulate unused single wires Unused single wires must be insulated individually to prevent unwanted connections of signal lines. SIMATIC RF600 System Manual, 06/2019, J31069-D0171-U001-A22-7618 109 Readers 5.2 SIMATIC RF610R NOTICE For long cables: Adapt the power supply and transmission speed Note that even with long cables, the supply voltage of 24 VDC must always be guaranteed. Note also that the transmission speed on the serial interface must, if necessary, be reduced. SIMATIC standard cables (e.g. 6GT2891-4FN10) have a loop resistance of 160 mOhm /
meter. This results in a voltage drop of 0.8 volts on the 24 V cable for every 10 meters of connecting cable and with a power requirement of 500 mA. If the power requirement increases through the use of the digital inputs/outputs, the voltage drop increases accordingly. 5.2.1.4 Pin assignment of the Industrial Ethernet interface (X1 P1) Table 5- 5 Pin assignment of the Industrial Ethernet interface (reader end) View of interface
(M12 socket, 4-pin) Pin Pin assignment 1 2 3 4 Data line +Tx Data line +Rx Data line -Tx Data line -Rx 5.2.1.5 Ground connection Due to the potential-free design of the reader, no earthing measures are required. 5.2.2 Planning operation 5.2.2.1 Internal antenna Minimum mounting clearances of two readers RF610R has an internal circular antenna. To prevent the antenna fields from overlapping, always observe the recommended minimum distances between two readers as described in the section "Reciprocal influence of read points (Page 47)". 110 SIMATIC RF600 System Manual, 06/2019, J31069-D0171-U001-A22-7618 Dense Reader Mode (DRM) Readers 5.2 SIMATIC RF610R The readers can also interfere with each other (secondary fields), if the channels (Reader TX, Transponder TX) overlap. In order to prevent a transponder channel overlapping with a reader channel, we recommend that the Dense Reader Mode (DRM) is used. Note Protective cap If you only use the internal antenna of the reader, we recommend that you close the external, unused antenna connector on the reader using the protective cap. Antenna diagram RF610R (ETSI) The following radiation diagrams show the directional characteristics of the internal antenna of the RF610R (ETSI) reader. For the spatial presentation of the directional characteristics, the horizontal plane (azimuth section) as well as the vertical plane (elevation section) must be considered. This results in a spatial image of the directional radiation pattern of the antenna. Figure 5-1 Reference system SIMATIC RF600 System Manual, 06/2019, J31069-D0171-U001-A22-7618 111 Readers 5.2 SIMATIC RF610R Radiation diagram (ETSI) Pattern of the vertical plane of the antenna Pattern of the horizontal plane of the antenna Figure 5-2 Directional radiation pattern of RF610R in the ETSI frequency band 112 SIMATIC RF600 System Manual, 06/2019, J31069-D0171-U001-A22-7618 Overview of the antenna parameters Readers 5.2 SIMATIC RF610R Table 5- 6 Maximum linear electrical aperture angle at 865 MHz:
Azimuth section Elevation section Typical antenna gain in the frequency band 865 to 868 MHz Antenna axis ratio You will find more information on the antennas in the section "Guidelines for selecting RFID UHF antennas (Page 51)". Polarization (circular) 100 100
-1 dBi 2 dB Antenna diagram for RF610R (FCC) The following radiation diagrams show the directional characteristics of the internal antenna of the RF610R (FCC) reader. For the spatial presentation of the directional characteristics, the horizontal plane (azimuth section) as well as the vertical plane (elevation section) must be considered. This results in a spatial image of the directional radiation pattern of the antenna. Figure 5-3 Reference system SIMATIC RF600 System Manual, 06/2019, J31069-D0171-U001-A22-7618 113 Readers 5.2 SIMATIC RF610R Radiation diagram (FCC) Pattern of the vertical plane of the antenna Pattern of the horizontal plane of the antenna Figure 5-4 Directional radiation pattern of RF610R in the FCC frequency band 114 SIMATIC RF600 System Manual, 06/2019, J31069-D0171-U001-A22-7618 Overview of the antenna parameters Readers 5.2 SIMATIC RF610R Table 5- 7 Maximum linear electrical aperture angle at 915 MHz:
Azimuth section Elevation section Typical antenna gain in the frequency band 902 to 928 MHz Antenna axis ratio You will find more information on the antennas in the section "Guidelines for selecting RFID UHF antennas (Page 51)". Polarization (circular) 100 100 0 dBi 2 dB 5.2.2.2 Interpretation of radiation patterns You can find detailed information on the interpretation in the section "Interpretation of radiation patterns (Page 215)". 5.2.3 Installation / mounting Requirement NOTICE Close unused connectors Note that the readers only have the specified degree of protection when all connectors are in use or when unused connectors are closed with the protective caps. CAUTION Emitted radiation The transmitter complies with the requirements of Health Canada and the FCC limit values for subjecting persons to HF radiation, provided that a minimum spacing of 26 cm exists between antenna and person. When the antennas are installed, you must therefore ensure that a minimum spacing of 26 cm is maintained between personnel and antennas. Mounting/installing the device You can mount the reader in the following ways:
directly on a flat surface using the VESA 100 mounting system (torque 1.5 Nm). The positions of the mounting holes for the device are shown in the section Dimension drawing (Page 120). SIMATIC RF600 System Manual, 06/2019, J31069-D0171-U001-A22-7618 115 Readers 5.2 SIMATIC RF610R 5.2.4 Configuration/integration An Ethernet interface is available for integrating the device into system environments/networks. RF610R can be configured via the Ethernet interface and with direct connection to the PC. You can configure and program the reader using the following tools:
STEP 7 Basic/Professional (TIA Portal) or via EtherNet/IP Web Based Management (WBM) OPC UA or XML based user applications Note that configuration in parallel is not possible using different tools. Simple process controls (e.g. a traffic signal) can be implemented directly using the reader via the digital input/output. Figure 5-5 Overview: Configuration of RF610R readers 116 SIMATIC RF600 System Manual, 06/2019, J31069-D0171-U001-A22-7618 Readers 5.2 SIMATIC RF610R 5.2.5 Technical specifications Table 5- 8 Technical specifications of the RF610R reader Product type designation Radio frequencies Operating frequency ETSI FCC CMIIT Transmit power ETSI FCC CMIIT Maximum radiated power ETSI FCC CMIIT Electrical data Range (internal antenna) ETSI FCC CMIIT Protocol Transmission speed Frequency accuracy Channel spacing ETSI FCC CMIIT Modulation methods Multitag capability SIMATIC RF610R 6GT2811-6BC10-xAA0 865 to 868 MHz 902 to 928 MHz 920 to 925 MHz 3 ... 400 mW 3 ... 400 mW 3 ... 400 mW 200 mW ERP 400 mW EIRP 250 mW ERP 1 m 1 m 1 m ISO 18000-62/-63 300 kbps 10 ppm 600 kHz 500 kHz 250 kHz ASK: DSB modulation & PR-ASK modulation encoding, Manchester or Pulse Interval (PIE) Yes SIMATIC RF600 System Manual, 06/2019, J31069-D0171-U001-A22-7618 117 Readers 5.2 SIMATIC RF610R Typical transmission time per byte Write access Read access Supply voltage Maximum permitted current consumption Current consumption (on standby), typical 20 V input voltage on the reader 24 V input voltage on the reader 6GT2811-6BC10-xAA0 2 ms 0.15 ms 24 VDC (20 ... 30 VDC) 1) 0.3 A 200 mA / 4 W 170 mA / 4.1 W 150 mA / 4.2 W 30 V input voltage on the reader Current consumption (at 400 mW transmit power), typical 20 V input voltage on the reader 24 V input voltage on the reader 30 V input voltage on the reader 260 mA / 5.2 W 220 mA / 5.3 W 170 mA / 5.1 W Interfaces Power supply Ethernet interface Mechanical specifications Material Color Permitted ambient conditions Ambient temperature Conditions relating to UL approval During operation During transportation and storage 1x M12 (8-pin) 1x M12 (4-pin), 100 Mbps Pocan (silicone-free) TI-Grey
-25 ... +55 C
-40 ... +85 C for indoor use only (dry location) Mounting height shall be equal or less than 2 m (MS1 classification according UL/IEC 62368-1). La hauteur de montage doit tre gale ou infrieure 2 m (classification MS1 selon CEI 62368-1). Degree of protection Shock resistant to EN 60068-2-27 Vibration to EN 60068-2-6 IP67 25.5 g 2) 3.1 g 2) 118 SIMATIC RF600 System Manual, 06/2019, J31069-D0171-U001-A22-7618 Design, dimensions and weight Dimensions (W H D) Weight Type of mounting Operation indicator Status display Standards, specifications, approvals Proof of suitability Readers 5.2 SIMATIC RF610R 6GT2811-6BC10-xAA0 140.5 133 45 mm 370 g VESA 100 4x screws M4 ( 1.5 Nm) 6 LEDs 1 LED (enclosure, all-round) EN 301 489-1 V2.2.0 / EN 301 489-3 V2.1.1 / EN 302 208 V3.1.1 FCC CFR 47, Part 15 section 15.247 29 years MTBF 1) All supply and signal voltages must be safety extra low voltage (SELV/PELV according to EN 60950). All voltage sources must meet the requirements of limited power sources (LPS) and NEC Class 2. Note that, depending on the power consumption, using extension cables > 20 m (6GT2891-
4FN50) may lead to a voltage drop on the reader. This voltage drop can mean that the necessary minimum voltage on the reader is below the required 20 V. 2) The values for shock and vibration are maximum values and must not be applied continuously. These values only apply to mounting using screws. SIMATIC RF600 System Manual, 06/2019, J31069-D0171-U001-A22-7618 119 Readers 5.2 SIMATIC RF610R 5.2.6 Dimension drawing Figure 5-6 Dimension drawing RF610R All dimensions in mm ( 0.5 mm tolerance) 120 SIMATIC RF600 System Manual, 06/2019, J31069-D0171-U001-A22-7618 5.2.7 Certificates and approvals Readers 5.2 SIMATIC RF610R CE mark Note Marking on the readers according to specific approval The certificates and approvals listed here apply only if the corresponding mark is found on the readers. 5.2.7.1 Table 5- 9 6GT2811-6BC10-0AA0 Labeling Description Conformity with the RED directive 2014/53/EU Conformity with the RoHS directive 2011/65/EU 5.2.7.2 Country-specific certifications Table 5- 10 6GT2811-6BC10-1AA0 Labeling Federal Communications Commission Industry Canada Radio Standards Specifications Description FCC CFR 47, Part 15 section 15.247 Radio Frequency Interference Statement This equipment has been tested and found to comply with the limits for a Class B digital device, pursuant to Part 15 of the FCC Rules. FCC ID: NXW-RF610R RSS-247 Issue 2 IC: 267X-RF610R This product is UL-certified for the USA and Canada. It meets the following safety standard(s):
UL/IEC 62368-1, 2nd Ed CAN/CSA C22.2 No. 62368-1-14, 2nd Ed Audio/video, information and communication technology equipment -
Part 1: Safety requirements Table 5- 11 6GT2811-6BC10-2AA0 Standard CMIIT Certification China radio approval Marking on the reader: CMIIT ID: 2018DJxxxx SIMATIC RF600 System Manual, 06/2019, J31069-D0171-U001-A22-7618 121 Readers 5.2 SIMATIC RF610R 5.2.7.3 FCC information Siemens SIMATIC RF610R (FCC): 6GT2811-6BC10-1AA0 FCC ID: NXW-RF610R This device complies with part 15 of the FCC rules. Operation is subject to the following two conditions:
(1) This device may not cause harmful interference, and
(2) this device must accept any interference received, including interference that may cause undesired operation. Caution Any changes or modifications not expressly approved by the party responsible for compliance could void the user's authority to operate the equipment. Note This equipment has been tested and found to comply with the limits for a Class B digital device, pursuant to part 15 of the FCC Rules. These limits are designed to provide reasonable protection against harmful interference when the equipment is operated in a commercial environment. This equipment generates, uses, and can radiate radio frequency energy and, if not installed and used in accordance with the instruction manual, may cause harmful interference to radio communications. Operation of this equipment in a residential area is likely to cause harmful interference in which case the user will be required to correct the interference at his own expense. FCC Notice To comply with FCC part 15 rules in the United States, the system must be professionally installed to ensure compliance with the Part 15 certification. It is the responsibility of the operator and professional installer to ensure that only certified systems are deployed in the United States. The use of the system in any other combination
(such as co-located antennas transmitting the same information) is expressly forbidden. FCC Exposure Information To comply with FCC RF exposure compliance requirements, the antennas used for this transmitter must be installed to provide a separation distance of at least 20 cm from all persons and must not be co-located or operating in conjunction with any other antenna or transmitter. 122 SIMATIC RF600 System Manual, 06/2019, J31069-D0171-U001-A22-7618
1 2 | User Manual 1 | Users Manual | 5.79 MiB | April 06 2020 / April 07 2020 |
SIEMENS SIMATIC Ident RFID systems SIMATIC RF600 System Manual 06/2019 481069-D0171-U901-422-7618 Introduction 1 Safety Information 2 System overview of 3 SIMATIC RF 600 4 RF 600 system planning Readers 5 Antennas 6 Transponder f Integration into networks 8 System diagnostics 9 Accessories 1 Appendix A Legal information Waming notice system This manual contains notices you have to observe in orderto 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 tothe degree of danger. indicates that death of severe personal injury will result f proper precautions are net taken, Awarnine indicates that death or severe personal injury may result if proper precautions are not taken, Acaution indicates that minor personal injury can result if proper precautions are not taken. NOTICE indicates that property damage can result proper precautions are not taken, If more than one degree of danger is present, the warning notice representing the highest degree of danger will be used. A notice warning of injury to persons with a safety alert symbol may also include a waming relating to property damage. Qualified Personnel The product/system described in this documentation may be operated only by personnel qualified for the specific task in accordance with the relevant documentation, in particular its warning notices and safety instructions, Qualffied personnel are those who, based on thetr training and experience, are capable of identifying risks and avaiding potential hazards when working with these products/systems, Proper use of Siemens products Note the following Awarning Siemens products may only be used for the applications described in the catalog and in the relevant technical documentation. If products and components from other manufacturers are used, these must be recommended of approved by Siemens. Proper transport, storage, installation, assembly, commissioning, operation and maintenance are required to ensure that the products operate safely and without any problems. The permissible ambient conditions must be complied with. The information in the relevant documentation must be observed. Trademarks All names identified by @ are registered trademarks of Siemens AG, The remaining trademarks in this publication may be trademarks whose use by third parties for their own purposes could violate the rights ofthe owner. Disclaimer of Liability We have reviewed the contents of this publication to ensure consistency with the hardware and software described. Since variance cannot be precluded entirely, we cannot guarantee full consistency. However, the information in this publication is reviewed regularly and any necessary corrections are included in subsequent editions. Table of contents 1 Introduction 14 12 Preface Abbreviations and naming conventions 2 Safety Information 24 22 23 23.4 23.2 23.3 General safety instructions Safety instructions for third-party antennas as well as for modifications to the RF60O system, Safety distance to transmitter antenna Safety distance between transmitter antenna and personnel Minimum distance to antenna in accordance with ETSI Minimum distance to antenna in accordance with FCC. 3 System overview of SIMATIC RF600 at 32 33 Application areas of RF600 System components Features. 4 RF600 system planning 44 42 42.4 42.2 423 42.4 43 43.4 43.2 433 43.4 43.5 42.6 43.7 43.8 43.84 43.82 42.83 43.9 43.94 43.9.2 43.93 SIMATIC RF600 Overview:
Possible system configurations Intralogistics scenario Scenario for workpiece identification Goods tracking scenerio Scenario incoming goods, distribution of goods and cutgaing goods Antenna configurations. Antenna configuration example Possibilities and application areas for antenna configurations, Transponder orientation in space Specified minimum and maximum spacing of antennas Reciprocal influence of read points, Read and write range Siatic/dynamic mode. Operation of several readers within restricted space Using more than one reader Optimization of robustness of tag data accesses for readers that are operated simultanecusly Frequency hopping Guidelines for selecting RFID UHF antennas Note safety information Preconditions for selecting RFID UHF antennas General application planning System Manual, 06/2019, 131083.D0171-UO01-A22-7618 13 13 14 15 15 Table of contents 43.9.4 43.9.5 44 444 4.42 4.43 444 464 Types of antenna Antenna cables, Minimum distances and maximum ranges Configurations of antenna and transponder Effects of the materials of the mounting surfaces on the range Maximum readiwrite ranges of transponders Minimum distances between antennas and transponders Influence ofelectrically conducive walls cn the range Environmental conditions for transponders The response of electromagnetic wavesin the UHF band The effect of reflections and interference Influence of metals Influence ofliquids and non-metallic substances Influence of external components Planning and installation of UHF read peints. Technical basics. Implementation of UHF RFID installations. Preparation phase Test phase Setting up read points. Dealing with field disturbances Types and approaches to solutions. Measures for eliminating field disturbances Chemical resistance of the readers and transponders Readers, Overview of the readers and their housing materials Pocan CF2200 Transponder. Overview of the transponders and their housing materials Acrylonitilefbutadienefstyrene (ABS) Palyamide 12 (PA12) Palyamide 6.6 (PA 6.6) Pclyamide 6.6 GF (PA 6.6 GF) Palyethylene terephthalate (PET). Palypropylene (PP) Palyphenylene sulfide (PPS) Polyvinyl chloride (PVC) Regulations applicable to frequency bands Guidelines for electromagnetic compatibility (EMC) Overview What does EMC mean?
Basicrules:
Propagation of electromagnetic interference. Equipotential bonding Cable shielding 100 102 103, SIMATIC RF600 System Manual, 06/201 3, 81069-00171 U001.A22.7618 Table of contents 523.5 52.6 53.74 53.72 62.73 53.74 53.75 5.4.1 54, RRR BERS SIMATIC RF600 Overview:
SIMATIC RF610R. Description Overview. Ordering data Pin assignment of the power supply interface (X80 24VDC) Pin assignment of the Industrial Ethernet interface (X1 P 1) Ground connection Planning operation Intemal antenna Interpretation of radiation patterns. installation / mounting Configurationfintegration. Technical specifications. Dimension drawing Cerfificates and approvals CE mark Country-specific certifications FCC information
\C-FCB information Other cerlificates and approvals SIMATIC RF615R. Description Overview. Ordering data Pin assignment of he D/DQ interface (X10 DI/DQ) Switching scheme for the DI/DQ interface Pin assignment of the power supply interface (X80 24VDC). Pin assignment of the Industial Ethernet interface (Xt P1) Ground connection Planning operation Intemal antenna External antenna. installingmounting Configuration/integration. Technical specifications. Dimension drawing Certificates and approvals. CE mark Country-specific certifications FCC information,
\C-FCB information Other cerlificates and approvals SIMATIC RF650R. Description Overview. Ordering data Pin assignment of the DVIDQ interface (X10 DDG) Switching scheme for the DI/DQ interface System Manual, 06/2019, 131083.D0171-UO01-A22-7618 105 105 107 107 107 108 109 110 110 110 110 115 115 116 117 120 124 124 124 122 123 123 124 124 124 128 126 126 128 129 129 130 130 135 136 137 138 141 142 142 142 143 144 144 145 145 145 146 147 148 Table of contents Pin assignment of the power supply interface (X80 24VDC). Pin assignment of the Industrial Ethernet interface (X1 P1) Grounding connection Planning cperation Antennafread paint configurations Installation/mounting Configurationintegration. Technical specifications Dimension drawing Certificates and approvals FCC information
\C-FCB information SIMATIC RF680R Description Overview. Ordering data Pin assignment of the DI/DQ interface (X10 DI/DQ). Switching scheme for the DI/DQ interface Pin assignment of the power supply interface (X80 24VDC). Pin assignment of the Industrial Ethernet interface (X1 P1; X1 P2) Grounding connection Planning cperation Antennafread paint configurations. Installation/mounting Mountng/installation Configurationintegration. Technical specifications Dimension drawing Cerlificates and approvals FCC information
\C-FCB information SIMATIC RF685R Description Overview. Ordering data Pin assignment of the DI/DQ interface (X10 DI/DQ). Switching scheme for the DI/DQ interface Pin assignment of the power supply interface (X60 24VDC). Pin assignment of the Industrial Ethernet interface (X1 P1; X1 P2) Grounding connection Planning cperation Internal antenna Extemal antenna. Installation/mounting Configurationintegration. Technical specifications Dimension drawing Cerlificates and approvals FCC information
\C-FCB information 153, 155 165 166 166 187 161 162 165 166 168 169 170 170 170 71 172 178 180 180 181 181 182 183 186 187 190 191 193, 194 195 195 195 196 197 198 205 205 206 206 215 216 220 224 224 225 227 228 SIMATIC RF600 System Manual, 06/201 3, 81069-00171 U001.A22.7618 Table of contents 87 571 57.2 6 Antennas 61 62 621 62.2 623 624 625 62.6 62.6.4 62.62 62.63 62.6.4 627 62.8 62.9 63 63.1 63.2 633 63.4 63.4.1 63.5 63.6 63.6.1 63.6.2 63.6.3 63.6.4 63.7 63.8 63.9 64 64.1 64.2 643 644 64.41 645 64.5.4 64.5.2 646 64.6.4 64.6.2 64.63 647 64.8 64.9 SIMATIC RF600 SIMATIC RF 650M Description Field of application and features Overview:
SIMATIC RF6154 Characteristics Ordering data Mounting Connecting the antenna, Antenna parameter assignment. Antenna pattems. Alignment of transponders to the antenna Antenna pattem ETS!
Antenna pattem FCC Interpretation of directional radiation patterns. Technical data, Dimension drawing Certificates & approvals. SIMATIC RF6204 Characteristics Ordering data Installation Connecting the antenna. Bending radii and bending cycles of the cable Antenna parameter assignment. Antenna patterns, Alignment of transponders to the antenna. Antenna pattem ETS!
Antenna pattem FCC Interpretation of directional radiation patterns. Technical data, Dimension drawing Approvals & certificates SIMATIC RF6404 Charactenstics Ordering data Installaticn Connecting the antenna, Bending radii and bending cycles of the cable Antenna parameter assignment. Setling RF640A parameters for RF650R Setiing RF640A parameters for RF630RRFS65R Antenna pattems. Antenna radiation pattems in the ETS! frequency band Antenna radiation pattems in the FCC frequency band Interpretation of directional radiation patterns Technical data, Dimension drawing Approvals & certificates System Manual, 06/2019, 131083.D0171-UO01-A22-7618 229 229 229 231 231 233 233 2234 234 2235 236 238 238 244 244 247 248 260 251 262 252 253 253 264 254 255 287 287 260 263 266 267 269 270 ant 271 272 272 273 274 274 274 276 278 278 283 288 289 291 292 Table of contents 65 651 65.2 653 654 65.41 655 655.1 6.55.2 656 6561 6.56.2 656.3 657 658 659 66 6.61 6.62 663 664 6641 665 666 6681 6.66.2 6.66.3 667 668 6.69 67 671 672 673 674 6741 675 676 677 678 679 68 6.81 6.82 6.83 6.84 6.841 SIMATIC RF642A Characteristics Ordering data Installation Connecting the antenna Bending radii and bending cycles of the cable Antenna parameter assignment. Alignment of transponders to the antenna. RF642A parameter assignment Antenna patterns, Antenna radiation patterns in the ETS! fequency band Antenna radiation patterns in the FCC frequency band Interpretation of directional radiation pattems:
Technical data Dimension drawing Approvals & certificates SIMATIC RF650A Characteristics Ordering data Installation Connecting the antenna Bending radii and bending cydes of the cable Antenna parameter assignment. Antenna patterns. Antenna patterns in the ETSI frequency band Antenna patterns in the FCC frequency band Interpretation of directional radiation pattems:
Technical data Dimension drawing Approvals & certificates SIMATIC RF660A Characteristics Ordering data Installation Connecting the antenna Bending radii and bending cydes of the cable Antenna parameter assignment. Antenna patterns, Technical data Dimension drawing Approvals & certificates SIMATIC RF6S0A Characteristics Ordering data Installation Connecting the antenna Bending radii and bending cycles of the cable Antenna parameter assignment. Antenna patterns, Antenna pattems in the ETS! frequency band. Antenna pattems in the FCC frequency band 293 293 294 294 295 298 297 297 300 302 302 304 306 207 309 310 att att 312 312 313 314 314 316 317 319 321 322 324 325 326 326 341 342 38 345 346 360 SIMATIC RF600 System Manual, 06/201 3, 81069-00171 U001.A22.7618 Table of contents 68.63 Interpretation of directional radiation patterns 354 687 Technical data 355 683 Dimension drawing 357 689 Approvals & cerlficates 358 7 Transponder 359 7A Overview. 359 744 Mode of operaticn of transponders 359 712 Transponder classes and generations 360 713 Electronic Product Code (EPC) 360 714 SIMATIC memory configuration of the RF600 transponders and labels. 362 718 Stcrage and transportation roll goods. 363 72 SIMATIC RF630L Smartlabel 364 72.4 Features, 364 72.2 Ordering data 365 723 Technical data 366 72.4 Dimension drawings 374 728 Certificates and approvals. 377 73 SIMATIC RF642L Smartlabel 378 73.4 Features, 378 73.2 Ordering data 378 733 Technical specifications 373 734 Dimension drawing 381 74 SIMATIC RF60L Smartlabel 382 74d Characteristics 382 742 Ordering data 382 743 Memory organization 383 744 Technical specifications. 383 748 Dimension drawing 385 748 Certificates and approvals. 388 78 SIMATIC RF610T 387 75.4 Features, 387 75.2 Ordering data 387 753 Technical specifications. 388 75.4 Dimension drawing 390 755 Certificates and approvals. 390 76 SIMATIC RF610T ATEX 391 76.4 Features, 391 76.2 Ordering data 392 763 Use of the transponder in hazardous areas, 392 7.6.3.1 Use of the transponder in hazardous areas for gases. 394 7.6.3.2 Use of the transponder in hazardous areas for dusts, 395 76.4 Technical specifications. 398 765 Dimension drawing 398 76.6 Certificates and approvals. 398 17 SIMATIC RF620T 399 TTA Characteristics 399 772 Ordering data 400 773 Planning the use 400 SIMATIC RFE0D System Manual, 06/2019, 131083.D0171-UO01-A22-7618 9 Table of contents TI 7732 TTA 175 178 78 781 782 7.83 783.1 7.83.2 7833 7.83.4 784 785 786 79 794 79.2 793 793.1 7.93.2 794 795 796 7.10 7.10.1 7.10.2 7.103 7.103.1 7.10.3.2 7103.3 7103.4 7103.6 7103.6 7.104 7.10.6 7.10.6 NAN NANAAN aRoNS 10 Range when mounted on flat metallic carrier plates. Range when mounted on non-metallic carrier materials Technical specifications Dimension drawing Certificates and approvals SIMATIC RF625T. Characteristics Ordering data Planning the use 400 401 402 405 406 406 407 Optimum antenna/transponder positioning with planar mounting of the transponder on metal Range when mounted on fat metallic carrier plates. Range when mounted on non-metallic carrier materials Mounting in metal. Technical specifications Dimension drawing Cerlificates and approvals SIMATIC RF630T. Characteristics Ordering data Planning application Optimurn antenna/transponder positioning, Range when mounted on fat metallic carrier plates. Technical specifications Dimension drawing Cerlificates and approvals SIMATIC RF64OT. Characteristics Ordering data Planning the use 407 408 409 409 410 412 412 413 413 and and 4nd 416 ay 419 420 424 424 422 422 Optimum antenna/transponder positioning with plane mounting of the transponder on. metal Range when mounted on fat metallic carrier plates. Range when mounted on non-metallic carrier materials Use of the transponder in hazardous areas, Use of the transponder in hazardous areas for gases. Use of the transponder in hazardous areas for dusts Technical specifications Dimensicn drawing Certificates and approvals SIMATIC RF6AST. Characteristics Ordering data Technical specifications Dimensicn drawing Certificates and approvals SIMATIC RF6SOT. Characteristics Ordering data 422 423 424 424 425 47 80 4 435 435 436 440 4a 442 SIMATIC RF600 System Manual, 06/2019, 481 069-00171-U001 22.7618 Table of contents 7423 Planning the use 442 7.42.31 Optimum antennastransponder positicning with plane mounting of the transponder on metal 442 7123.2 Range when mounted on flat metallic carrier plates 443 742.33 Range when mounted on non-metallic carrier materials. 443 7.12.3.4 Use ofthe transponder in the hazardous area 444 7.42.35 Use ofthe transponder in the hazardous area for gases 444 7.12.3.6 Use ofthe transponder in the hazardous area for dusts 448 7.42.4 Technical specifications 451 742.5 Dimension drawing 453 742.8 Certificates and approvals. 454 713 SIMATIC RF682T 455 7.43.1 Characteristics 455 743.2 Ordering data 456 7.133 Planning operation 456 7.13.31 Optimum antennastransponder positicning with plane mounting of the transponder on metal 456 7.43.32 Note cn installation 457 7.1333 Range when mounted on flat metallic carrier plates 487 7.13.4 Technical specifications 458 7.43.5 Dimension drawing 460 7.43.6 Certificates and approvals. 461 8 Integration into netwerks 463 at Overview of parameterization of RF600 reader. 463 82 Integration in IT networks via the user application 464 83 Integration in control networks. 464 9 Syste diagnostics 467 94 Diagnostics via the LED displays of the reader 467 944 How the LED status display works am 94.2 Diagnostics via LED operating display 472 92 XMLIPLG error messages 473 10 Accessories 484 10.1 Wide-range power supply unit for SIMATIC RF systems. 481 10.1.1 Features 481 10.1.2 Scepe of supply 481 10.1.3 Ordering data 482 10.1.4 Safety Information 483 10.1.5 Mounting & connecting 485 10.1.6 Pin assignment of DC outputs and mains connection 488 10.1.7 Technical specifications. 488 10.1.8 Dimension drawing 491 10.1.8 Cerfifcates and approvals. 482 10.2 Power splitter for RF600 systems. 494 10.2.1 Characteristics 494. 102.2 Ordering data 494 1023 Example of a configuration 495 10.2.4 Technical specifications. 495 SIMATIC RFE0D System Manual, 06/2019, /81069.00171-U001-A22-7618 4 Table of contents 12 10.2.5 103 103.1 103.2 103.3 103.4 Appendix At A2 Dimension drawing Reader and antenna holders Overview Ordering data Mounting with the SIMATIC antenna holder Dimension drawing Certificates & approvals Service & support 496 497 497 497 497 499 503 503 506 SIMATIC RF600 System Manual, 06/2019, 481 069-00171-U001 22.7618 Introduction 1 1.1 Preface Purpose of this document This system manual contains the information needed to plan and configure the RF600 system, Its intended both for programming and tesing/debugging personnel who commission the system themselves and connect it with other units (automaton systems, further programming devices), as well as for service and maintenance personnel who install expansions or carry out faultferror analyses. Scope of this documentation This docurnentation is valid for all supplied versions of the SIMATIG RF600 system and describes the state of delivery as of 06/2019, Ifyou are using older frmwere versions, please refer to the 08/201 1 editicn of the documentation. Registered trademarks SIMATIC SIMATIG RF , MOBY RF MANAGER and SIMATIG Sensors are registered trademarks of Siemens AG. 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 ofwaste 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 fer the disposal of electronic waste or your Siemens ME epreseniatve Note the different county-specific regulations, SIMATIC RF600 System Manual, 06/2019, 131083.00171-UO01-A22-7618 RB Introduction 1.2 Abbreviations and naming conventions History Currently released versions of the SIMATIC RF600 system manual Edition Comment 1172005 First edition 102015 Approval for the readers RFG5OR, RFGSOR, and RFBOR 1212015 New antennas RFGSOA and RFGSOA 102016 Revision of the transponder sections 0272018 Expansion of the documentation by the following
+ RFG15A antenna
+ RFG4ST, RFGAZT transponders 112018 Expansion of the documentation by the following
+ Reader SIMATIC RFGISR. 082019 Expansion of the documentation by the following
+ Reader SIMATIC RFG1OR
+ Transponder RFG30L Declaration of conformity The EC deciaration of conformity and the corresponding documentation are made available to authorites in accordance with EC directives. Your sales representative can provide these on request. Observance of installation guidelines The installation guidelines and safety instructions given in this documentation must be followed during commissioning and operation, 1.2 Abbreviations and naming conventions Abbreviations and naming conventions The following termsfabbreviations are used synonymously in this document Reader Writelread device (SLG) Transponder, tag Data carrier, mebile data storage, (MDS) Communications module (CM) Interface module (ASM) SIMATIC RF600 14 System Manual, 06/2019, 481 069-00171-U001 22.7618 Safety Information 2 21 SIMATIC RF600 General safety instructions Note Heed the safety notices Please cbserve the safety instructions cn the back cover of this documentation SIMATIC RFID products comply with the salient safety specificaticns to VDEJDIN, IEC, EN, UL and CSA, Ifyou have questions about the admissibility of the installation in the designated environment, please contact your service representative. Awaaninc Safety extra low voltage The equipmentis designed for operation wih Safely Extra-Low Voltage (SELV) by a Limited Power Source (LPS), (This doesnot apply to 100 V... 240 V devices) This means that only safety-exira low voltage (SELV) with a limited power source (LPS) complying with IEC 60950-1 / EN 60950-1 / VDE 0805-1 may be connected to the power supply terminals or the power supply unit for the equipment power supply must comply with NEC Class 2, according to the National Electrical Code (7) (ANSI / NFPA 70) There isan additicnal requirement if devices are operated with a redundant power supply:
If the equipmentis connected toa redundant power supply (two separate power supplies), both must meet these requirements. Awarnine Opening the device D not open the device when energized NOTICE Alterations not permitted Alterations to the devices are not permitted. Failure to observe this requirement shall constitute a revocaticn of the radio equipment approval, CE approval and manufacturer's warranty. System Manual, 06/2019, 131083.D0171-UO01-A22-7618 16 Safety information 2.1 General safety instructions Operating temperature Axcaution Increased temperatures on the lower casing Note that the lower casing of the readers is made of metal, This means that temperatures can occur on the lower casing that are higher than the maximum permitted operating temperature. Acaution Donot expose the readers to direct sunlight Note that the readers must not be exposed to direct sunlight. Direct sunlight can lead to the maximum permitted operating temperature being exceeded Overvoltage protection Repairs 16 NOTICE Protection of the extemal 24 VDC voltage supply Ifthe module is supplied via extensive 24 V supply lines or networks, interference by strong electromagnetic pulses on the supply lines is possible, e.g, from lightning or the switching of large loads, The connector for the 24 VDC external power supply is not protected against strong electromagnetic pulses, Make sure that any cables liable to lightning strikes are fitted with suitable overvoltage protection. Awaanine 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. SIMATIC RF600 System Manual, 06/2019, 481 069-00171-U001 22.7618 Safety tnformation 2.1 General safety instructions Lightning protection Accaution Installation only in protected areas
[Antennas and readers can be installed in the protected part ofa building. When implementing your lightning protection concept, make sure you adhere to the VDE 0182 or IEC 62305 standards.
/When installing outdoors, we recommend that ycu protect the readersantennas from the hweather with a box The antenna RF650A must not be installed in the (protected) outdoor area, Antenna or reader Protected area (indoors); grounding is not necessary here. Protected area (outdoors); grounding is nat necessary here. Figure 2-41 Mounting the reader in protected areas SIMATIC RF600 System Manual, 06/2019, 131069.D0171-UO01-A22-7618 7 Safety information 2.1 General safety instructions System expansion Only install system expansion devices designed for this device. If you install other upgrades, you may damage the system cr violate the safety requirements and regulations for radio frequency interference suppression. Contact your technical customer service or where you purchased your device to find cut which system expansions are suitable for instalation Note Warranty conditions Ifyou cause system defects by improperly installing or exchanging system expansion devices, the warranty becomes vad. Security information 18 Siemens provides products and solutions with industrial seaurity functions that support the secure operation ofplants, systems, machines and networks. In order to protect plants, systems, machines and networks against cyber threats, itis necessary toimplement and continuously maintain a holistic, state-of-the-art industrial security concept. Siemens products and solutions constitute one element of such a concept Customers are responsible for preventing unauthorized access to their plants, systems, machines and networks, Such systems, machines and components should only be connected to an enterprise network or the intemetifand to the extent such a connection is necessary and cnly when appropriate seourity measures (e.g, firewalls and/or network segmentation) are in place. For additional infermation on industrial security measures that may be implemented, please visit Link: (http:wnw. siemens.com/industrialsecurity) Siemens products and solutions undergo continuous development to make ther more secure, Siemens strongly recommends that product updates are applied as soon as they are available and that the latest product versions are used. Use of product versions that are no longer supported, and failure to apply the latest updates may increase customers exposure to cyber threats, To stay informed about product updates, subscribe to the Siemens Industrial Seourity RSS Feed under Link: (http:wnw. siermens.com/industrialsecurity) SIMATIC RF600 System Manual, 06/2019, 481 069-00171-U001 22.7618 Safety tnformation 2.2 Safety instructions for third-party antennas as well as for modifications fo the RF6OO system 2.2 Safety instructions for third-party antennas as well as for modifications to the RF600 system Ahways observe the following general safety instructions before selecting a component from a different vendor. The manufacturer accepts no respensibilty for functional suitability or legal implications for the installation of third-party components. Note Alterations not permitted Alterations to the devices are not permitted. If this is not adhered to, the radio approvals, the relevant county approvals (.g. CE or FCC) and the manufacturer's guarantee are invalidated. Modifications to the SIMATIC RF600 system NOTICE Damage to the system Ifyou install unsuitable or unapproved extensions, you may damage the system or vidlate the safety requirements and regulations for radio frequency interference suppression. Contact your technical customer service or where you purchased your device to find out hwhich systern expansions are suitable for installation, NOTICE Loss of warranty Ifyou cause defects on the SIMATIG RF600 system by improperly installing or exchanging system expansions, the warranty becomes void. Note Loss of validity for type tests and certificates, SIMATIC RFID products comply with the salient safety specificaticns to VDEJDIN, IEC, EN, UL and CSA, When using RFID components that do not belong to the RF600 range of products, all type tests as well as all certificates relevant to the RF600, such as CE, FCC, UL, CSA are invalidated. SIMATIC RF600 System Manual, 06/2019, 131083.D0171-UO01-A22-7618 19 Safety information 23 Safely distance fo transmitter antenna 23 23.1 Limits 20 Note User responsibility for modified product As ausser of the modified product, you accept responsibility for use of the complete RFID product comprising both SIMATIG RF600 components and third-party RFID compcnents, This particularly applies to modification or replacement of
+ Antennas
+ Antenna cables
+ readers
+ Power supply units with connection cables Safety distance to transmitter antenna Safety distance between transmitter antenna and personnel For antenna configurations where it is possible to be briefly or constantly within the transmission range of the antennas, asin loading ramps, for example, minimum distances must be maintained. The ICRP (Intemational Commission of Radiological Protection) has worked out limit values for human exposure to HF fields that are also recommended by the ICNIRP (International Commission of Non lonizing Radiclogical Protection). In German legislation on emissions
(since 1997), the flowing limit values apply. These can vary according to frequency:
Frequency f [MH Electrical field strength E (vim) __| Magnetic field strength H [A/m) 10-400 275 ors 400 - 2.000) 1.875 xt" o0037 xn 2,000 - 300.000 et ais The limit values for the 900 MHz reader antenna alternating field are thus:
Electrical field strength: E = 41,26 Vim Magnetic field strength: H = 0.111 Am HF power density: E x H = 4.57 Wir?
SIMATIC RF600 System Manual, 06/2019, 481 069-00171-U001 22.7618 Safety tnformation 2.3 Safely distance fo transmitter antenna 23.2 Minimum distance to antenna in accordance with ETS!
Ata transmission fequengy of 900 MHz, the wavelength of the electromagnetic wave A is approximately 0.34 m. For distances less than 12 in the near field, the electrical field strength (1/r) diminishes exponentially to the power three over distance, and for distances greater than 1 2, it diminishes exponentially to the power two over distance. Electrical field strength at a distance from the TX antenna for P=2W ERP. 1090 0 tn vim) Field steen 04 0a o5 a9 1 Distance (m) The horizontal line at 41.25 Vim marks the "safety limit value"
For the maximum permitted transmit power (1/r2) in accordance with ETSI (2 W ERP), the
"safety distance" is d = 0.24 m, This means that personnel should not remain closer than 24 cm to the transmitter antenna for extended periods (for several hours without interruption). Remaining within the vicinity of the antenna for a brief period, even for repeated periods (at a distance < 0.24 m), is harmless according to current knowledge Distance to transmitter antenna [ml Feld strength [virn] % of limit value 41 10 24 5 2 5 If the transmitter power is set lower than the highest permissible value (2 watts ERP), the
"safety distance" reduces correspondingly. The values for this are as follows:
Radiated power ERP [W] Safety distance to transmitter antenna [ml 2.0 O24 1.0 a7 Os 12 SIMATIC RF600 System Manual, 06/2019, 131089.D0171-UO01-A22-7618 24 Safety information 23 Safely distance fo transmitter antenna Note Reduced maximum radiated power with RF600 readers SIMATIC RF610R and RF615R (ETSI) readers have a maximum transmit power of 400 mW. The radiated power depends on the antenna cable and the antenna used, but must not exceed 2 W ERP. The SIMATIC RF650R (ETS!) reader has a maximum transmit power of 1 W. The radiated power therefore depends on the antenna cable and the antenna used, but must not exceed 2WERP. The SIMATIC RF680R (ETS!) reader has a maximum transmit power of 2 W. The radiated power therefore depends on the antenna cable and the antenna used, but must not exceed 2WERP. The SIMATIC RF685R (ETSI) reader has a maximum radiated power of 2 W ERP. The safety clearance is therefore at least 0.24 m. When using Siemens products and with suitable configuration via the WBM, the high limits cannot be exceeded 230 Minimum distance to antenna in accordance with FCC. For the maximum permitted radiated power in accordance with FCC (4 W EIRP), the "safely distance" is d = 0.26 m. This means that personnel should not remain closer than 26 cm to the transmitter antenna for extended periods (several hours without interruption), Remaining within the vicinity of the antenna for brief period, even repeated periods (at a distance < 0.26 m) is harmless tohealth according to curent knowledge. Electrical field strength at a distance from the TX antenna for P=4W EIRP oa 03 04 OS Distance (m) SIMATIC RF600 22 System Manual, 06/2019, 481 069-00171-U901 22.7618 Safety tnformation SIMATIC RF600 23 Safety distance fo transmitter antenna The horizontal line at 41.25 Vim marks the "safety limit value"
Distance to transmitter antenna {rl Feld strength [vin] 2% of limit value 4 10.9 28 5 22 53 If the transmit power is set lower than the highest permitted value (4 W EIRP), the "safety distance" reduces correspondingly. The values for this are as follows:
Radiated power EIRP [Wi] Safety distance to transmitter antenna [ml 4.0 028 225 30.20 Generally a safely distance of at least 0.2 m should be maintained Note Reduced maximum radiated power with RF600 readers SIMATIC RF610R and RF615R (FCC) readers have a maximum transmit power of 400 mW. The radiated power depends on the antenna cable and the antenna used, but must not exceed 2W ERP. The SIMATIC RF650R (FCC) reader has a maximum transmit power of 1 W. The radiated power therefore depends on the antenna cable and the antenna used, but mustnot exceed 4.WEIRP. The SIMATIC RF 680R (FCC) reader has a maximum transmit power of 2W. The radiated power therefore depends on the antenna cable and the antenna used, but mustnot exceed 4.WEIRP. The SIMATIC RF68SR (CC) reader has a maximum transmit power of 2 W. This means that the safety distance is at least 0.12 m When using Siemens products and wit suitable configuraticn via the WBM, the high limits cannot be exceeded System Manual, 06/2019, 131083.D0171-UO01-A22-7618 2B Safety information 23 Safely distance fo transmitter antenna SIMATIC RF600 24 System Manual, 06/2019, 481 069-00171-U001 22.7618 System overview of SIMATIC RF600 3 SIMATIC RF 600 is an identification system that operates in the UHF range. UHF technology supportslarge writelread distances with passive transponders. The general automation and IT structure of a company is shown in the following figure. This comprises several different levels that are described in detail below. perieas po sno 2EE08 POE ASM 286 Pec Bi Fasten ehemet PROFINET Indestil Eherret Tm PROFIDUS OO W Eo Sooo Figure 3-1 System overview SIMATIC RF6OO with RFG1OR, RFGI5R, RFGSOR, RFEZOR, RFGOR
@ Acquisition level This level contains the RFID readers that read the appropriate transponder data and transfer it to the next higher level
@ Control level At the contra level, the RFID data is collected, preprocessed and made available to the production ccntrol and business administration control levels for further processing.
@ [Tlevel The Manufacturing Exeoution Syste (MES) closes the gap between the data that arises in the autoration environment (contral level) and the logistic and commercial processes SIMATIC RF600 System Manual, 06/2019, 131083.D0171-UO01-A22-7618 25 System overview of SIMATIC RF600. 3.1 Application areas of RF60O of the company (business administration control}, MES solutions are used, for example, for defining and performing production processes 3.1 Application areas of RF600 RFID (radio frequency identification) permits continuous identification, tracking and documentation ofall delivered, stocked and shipped goods in the incerning goods, warehouse, production, production logistics and distribution departments, A small data medium - referred tos SmartLabel, transponder or tag - is attached to every item, package oF pallet, and contains all important information. The data medium receives the power it requires via an antenna which is also used for data Transmission SIMATIC RF600 26 System Manual, 06/2019, 481 069-00171-U001 22.7618 System overview of SIMATIC RF600 3.2 System components 3.2 System components Table 3-1 Syste components of the RF6OO product series Product photo Description SIMATIG RF@1OR RF61OR reader is suitable for applications in production logistics and distribution. It is charac-
terized by a very compact size -with reduced transmit power as well as an internal arten-
Its integrated fer distribution via Ethernet with the XML protocol or OP UA. EtherNetIP PROFINET and PROFIBUS are available for integration in production logistics. SIMATIC RFGISR RFEI5R reader is suitable for applications in production logistics and distribution. It is charac-
terized by a very compact size -with reduced transmit power as well as an internal arten-
It is integrated for distribution via Ethernet with the XML protocol or OPC UA. EtherNet/lP, PROFINET and PROFIBUS are available for integration in production logistics. tis equipped with an integrated antenna and has a connector for an external antenna. SIMATIG RFG50R The RF@5OR reader is suitable for applications in logistics. It is integrated via Ethernet with the XML protocol or OPC UA. It has 4 connectors for external antennas. SIMATIG RFGEOR The RFGBOR reader is suitable for applications in production logistics and distribution. It is integrated for distribution via Ethernet with the XML protocol or OPC UA. For integration in production logistics PROFINET, EtherNevIP or PROFIBUS are available. As an alternative, integration can also be via PROFIBUS via the serial interface. It has 4 connectors for external antennas, SIMATIG RFGBSR The RFGA5R reader is suitable for applications in production logistics and distribution. It is integrated for distribution via Ethernet with the XML protocol or OPC UA. For integration in production logistics PROFINET, EtherNeVIP or PROFIBUS are available. As an altemative, integration can also be via PROFIBUS via the serial interface. It is equipped with an integrat-
ed antenna with switchable polarization and has a connector for an extemal antenna, SIMATIC RF600 System Manual, 06/2019, 131083.00171-UO01-A22-7618 ar System overview of SIMATIC R600 3.2 System components Product photo Description SIMATIC RF650M The RF@50M mobile reader expands the identification system RFEOO with a powerful handheld terminal for applications in the areas of logistics, production and service. In addi-
tion, it is an indispensable aid for commissioning and testing SIMATIC RFG15A and RFG20A, SIMATIC RFG15A and RF620A are linear antennas with a very compact design suitable for industry. They are suitable for UHF transponders with normal (far field) antenna characteris-
ties. SIMATIC RFG4OA, The SIMATIC RFG40A isa circular antenna of medium size for universal applications, for example material flow and logistics systems, SIMATIC RFGI2A, SIMATIC RFG42A isa linear antenna of medium size for environments where a lot of metal 4 ue a a ad SIMATIC RF@50A, SIMATIC RF@5OA isa circular antenna of medium size for universal use in industrial applica-
tions in production and logistics. 28 SIMATIC RF60O System Manual, 06/2019, 481 069-00171-UO01 22.7618 System overview of SIMATIC RF600 3.2 System components Product photo Description SIMATIG RFGGOA SIMATIC RF@8OA is a powerful circular antenna for production and logistics applications. SIMATIG RFGBOA SIMATIC RF@Q0A is an antenna whose polarization can be changed (circular, inear horizon-
tal or linear vertical) of medium size for universal use in industrial applications in production and logistics, RFEOO transponders The RF6OO transponder family provides the right solution for every application:
RF@IOT ISO Card is a flexible card suitable for numerous applications. The transponders RF@2OT, RFG25T, RFGSOT, RF4OT and RFG4ST are designed specially for industrial requirements. They are very rugged and highly resistant to detergents. The RF@AOT can also be mounted directly on metal The transponders RFG8OT and RFE@2T were developed specifically for use in high termpera-
tures up to 220" C. In the area of Smartiabels, a comprehensive spectrum of competitively priced labels is avail-
able for the widest range of requirements, The heat-resistant smart label RFEGOL can resist temperatures up to 230 *C or 160 "Candis, therefore ideally suited to identification tasks in the paint shop/drying area SIMATIC RF600 System Manual, 06/2019, 131083.00171-UO01-A22-7618 29 System overview of SIMATIC RF600. 3.3 Features 3.3 Features The RF600 identification system has the following performance features Table 3-2 Features of the RFGOO RFID system Type Contactless RFID (Radio Frequency IDentification) system in the UHF band Transmission frequency ETSI: 865 to 868 MHz FCC: 902 to 928 MHz CMIIT: 820.625 to 924.375 MHz ARIB (STD-T108): 916.8 MHzto $20.4 MHz ARIB (STD-T107): $20.4 to 923.4 MHz Standards 180 1800.62, 180 12000-63 Table 3-3 Features of the RF60O readers Reader Antennas Readtwrite distance Interface RFGIOR 1 xinternal antenna <1m Ethernet, EtherNeviP, OPC UA, PROFINET and PROFIBUS RFGISR 1 xinternal antenna Internal antenna: <1 m Ethernet, EtherNeviP, OPC 4.x antenna connecter for External antenna: < 3m UA, PROFINET and external antennas PROFIBUS RF@5OR 4x antenna connectersfor [<am Ethemet, OPC UA external antennas RFGEOR 4x antenna connectersfor [<am Ethernet, EtherNeviP, OPC external antennas UA, PROFINET and PROFIBUS RFGESR 1 xinternal antenna Internal antenna: < 7m Ethernet, EtherNeviP, OPC 1.x antenna connecter for Extemal antenna < 8m UA, PROFINET and external antennas PROFIBUS Certificates RF600 readers support the following certificates and approvals:
Depends on the connected antenna and the transponder being used
@ RFGIOR cerlificate (htips://support industy.siemens com/cshwwlen/ps!25390/cer!)
@ RFGISR certificates (htips://support industry siemens com/oshwwlen/ps/26291/
cert) OO
@ RFGSOR cerliicates thtpsisupportindusry siemens: comostwmferpsit5086/cert)
@ RFGSORIRF6S5R certificates
(hips:/suppertindustry siemens com/estwnenfpett5088cer) 30 SIMATIC RF600 System Manual, 06/2019, 481 069-00171-U001 22.7618 System overview of SIMATIC RF600 2.3 Features Table 3-4 Characteristics of the RF@50M mobile reader Transmission frequency |+ ETSI: a65to8ea MHz
+ FOG: 902 to928 MHz
+ OMIT: 220 to 225 MHz Readiwrite distance 3m Standards 180 18000-63 Table 3-5 Characteristics of the transponders Version TranspondereSmartlabels Designation Standards supported Smartlabel RFGIOL 180 1800-62 RFGsOL 180 1800-63 REGO, 180 card RFGIOT 180 1800-62 Container tag RFeZOT 180 1800-63 Dise tag RFe2ST Powertrain tag RF@IOT Tool tag RFG4OT (Gen 2) On Metal Tag RFeAST Heat-resistant tag RF@OT Heat-resistant tag RFeSoT SIMATIC RF600 System Manual, 06/2019, 131083.D0171-UO01-A22-7618 at System overview of SIMATIC RF600. 3.3 Features SIMATIC RF600 32 System Manual, 06/2019, 481 069-00171-U001 22.7618 RF600 system planning 4 41 4.2 424 SIMATIC RF600 Overview You should observe the following criteria for implementation planning:
Possible system configurations Antenna configurations Environmental conditions for transponders The response of electromagnetic waves in the UHF band Regulations applicable to frequency bands EMC Directives Possible system configurations The SIMATIC RF 600 system is characterized by a high level of standardization ofits components, This means that the systern follows the TIA principle throughout. Totally Integrated Automation. It provides maximum transparency at all levels with its reduced number of interfaces, This ensures optimum interaction between all system components, The RF600 system with its flexible components offers many possibilities for syste configuration. This section shows you how you can use the RF600 components on the basis of various example scenarios. Intralogistics scenario This scenario describes the transport of material via conveyor systems that are made up of large numbers of standard elements, They are characterized by long distances, frequent branches (separators, infeed and cutfeed), standardized transport containers and high moverent speeds, The installation space available for identification techndlogyis limited, and the high number of read points demands a low-cost solution Due to the high movement speeds of transport containers in some cases, the limited space available and the fact that the read points are sometimes located very close together, the use of the RF600 system with space-saving antennas and a low transmit power can be recommended System Manual, 06/2019, 131083.D0171-UO01-A22-7618 33 R600 system planning 4.2 Possible system configurations Features of the scenario Intralogistics (material flow) snare ETT] svre0 swaric RreedR ssimamic reasn fy simanc ay SMaTIC MAM fa] Ssm4aTic fp RreiSA Sl ars's8 Bre RrSIEA
= 7 a GO0500006 OSSOOOD/ GaDDISSOSDOOY| o sienic samc sianc sane rsisa W arersa Brea nessa Figure 4-1 Scenario: Intralogisties {material flow) The conveyor transports the transport containers past the antennas. The transponders attached to the transport containers are always evenly aligned. The transponders in this scenario are transponders of the type SIMATIC RF630L. The conveyor belt has a maximum width of approximately 80 om in this example, The maximum transport speed is 2 m/s, With this arrangement, only a single transponder needs to be detected each time (single-tag) In this soznario, SIMATIC RF680R and RF 685R are used as readers, Due to the limited space available and the low reading distances, the SIMATIC RF615A antennas are used in this example. As an altemative - with greater available space and to guarantee optimum read reliability - he SIMATIG RF650A antennas can also be used, Because the readers are connected in a bus topology, wiring requirements are reduced The reader reads the information from the transponders on the transport containers and forwards it o the SIMATIC 87 contraller. SIMATIC RF60O 34 System Manual, 06/2019, 481 069-00171-UO01 22.7618 RF6O0 system planning 4.2 Possible system configurations Intralogistos (separator) simanic srs simaric
@ resise OOC00999GPG505000000009 OODOG50 000 UGCOOOOO00G00 sisanic RFESOA siaric RFSIOR Trigger by light barrier on DI @ separator setting by means of DO Distributed small gate @ individual read point Figure 4-2 Scenario: Intralogisties (separator) SIMATIC RF600 In this example scenario, items must be distributed to the correct storage location in a transport container via a separator. The transponders attached to the transport containers. are always evenly aligned. The transponders in this scenario are transponders of the type SIMATIC RF 620L. The conveyor belt has a maximum width of approximately 80 cm in this, example. The maximum transpcrt speed of the conveyor belt is 2 mis In this scenario, a SIMATIC RF615R with a SIMATIC RFGS0A anda SIMATIC RF610R external antenna are used as the readers. These readers are inexpensive and feature a very compact design. When a transport container passes the light barrier @), the reader reads the information from the transponder on the transport containers and forwards it to the SIMATIC 87 controller. The SIMATIC 87 contrdls the separatcr @) of the conveyer system depending on the transponder information. System Manual, 06/2019, 131063.D0171-UO01-A22-7618 26 R600 system planning 4.2 Possible system configurations 422 Scenario for workpiece identification A typical characteristic of modem manufacturing scenarios is their mulftude of variations The individual data and production steps are stored in the transponder of a tod holder or product, These data are read by the machining stations during a production process and, it necessary, lagged with status information, This can be used to dynamically identify which production step is the nextin the series. This has the advantage that the production line can work automatically without the need to access higher system cornponents, The use of RFID therefore increases the availability of the plant Figure 43, Scenario: Workpiece identification Features of the scenario 36 Transponder are attached to workpiece holders, Their spatial orientation is always identical With this arrangement, only a single transponder needs to be detected each time (single-
tag). The SIMATIG RFGS5R reader reads the information from the transponders with its integrated antenna or the external antenna RF680A and transfersit to the SIMATIC 87 controller. Depending on the stored transponder information, the SIMATIC 87 controller different control tasks, for example, automatically providing a suitable tool for an industrial rebot at the correct time. In a metallic wireless environment or when lots of readers/antennas are mounted close together we recommend that you donot have the readers reading permanently. Instead execute specific read/write commands when an cbjectransponder is located in front ofan antenna or passes it, This "riggering can be implemented with light barriers or beros, This procedure reduces mutual influence/disruption of the read points and increases the SIMATIC RF600 System Manual, 06/2019, 481 069-00171-U001 22.7618 RF6OO system planning 4.2 Possible system configurations identification quality of the wanted transponders while reducing the identification of unwanted transponders. 423 Goods tracking scenario In this scenario, a gate consisting of a SIMATIC RFG5OR reader and four antennas checks the goods passing through the gate. All siored goods are equipped with transponders, A trafic light indicates whether the goods may leave the warehouse Tataht pier ication suistic
=| arssos
| = =] eens smaic Rees, Bs OF Figure 4-4 Scenario: Goods tracking Features of the scenario In this example scenario, the export of goods from a warehouse is checked using the SIMATIC RF 650R reader and four SIMATIC RF650A antennas connected tot. A sensor registers when a vehicle passes the gate and reports his to the higher-level system, which then triggers a read operation via the reader. The reader reads the informaticn from the transponders on the goods and forwardsit to the user application, which checks the status of the goods. The traffic light is set to green or red depending on whether the goods are released SIMATIC RF600 System Manual, 06/2019, 131083.D0171-UO01-A22-7618 a7 R600 system planning 4.2 Possible system configurations 424 Scenario incoming goods, distribution of goods and outgoing goods The scenario consists of an RFID system with three readers, The SIMATIC RF65OR reader with its four antennas identifies the incoming/outgoing products at the incomingfoutgoing goods gates of factory building hall through which pallets are delivered, Each palletis fitted with a transponder. The transponders contain user data that provides information about the sender and receiver of the goods. This data is read out and passed on, The goods supplied on the pallets are processed in the factory and then exit the factory through the cutgoing goods gate. Lit arter suaanic oe RrSSCA ~ smc i Oo aa |
o-9- tet by foe Da le a fA coma O-OF suas peel | t=) ren la Diagnoses Po User Uy swianic oxtan rosea Figure 4.5 Scenario: Incoming goods, distribution of goods and outgoing goods SIMATIC RF600 38 System Manual, 06/2019, 481 063-00171-U001 22.7618 RF600 system planning 4.3 Antenna configurations Features of the scenario. 4.3 SIMATIC RF600 In this example scenario, the SIMATIC RF685R reader is contralled by a light barrier and monitors a conveyor belt; the conveyor belt transports the goods towards two output gates that are assigned to different recipients. Each item has a transponder that is always fitted at the same position and with the same alignment on the item. These transponders also contain user data that provides information about the sender and receiver of the goods. There is a separator at the end of the conveyor belt that determines the output gate to which the goods should be directed. The separator is set according to the results from the reader and the goods are distributed. After the sorter, the goods are loaded onto pallets - each pallet is fitted with a transponder. These transponders also ccntain user data that provides information about the sender and receiver of the goods. Based on the data read by the SIMATIC RF65OR reader, there is a check to make sure that the correct pallets for the specific receiver are available at the outgoing goods gate. Light barriers are installed to control the reader. Depending on the read results of the reader, the outgoing portal opens, or it remains dosed. Antenna configurations Note Validity of antenna configuration The following information about the antenna configuration only applies to the antennas of the RF600 family. Refer to the Guidelines for selecting RFID UHF antennas (Page 51) for information cn the configuration of third-party antennas. System Manual, 06/2019, 131083.D0171-UO01-A22-7618 29 R600 system planning 4.3 Antenna configurations 43.4 Antenna configuration example The following figure shows an example of an application with an antenna configuration of the RF6S0R, The antennas are positioned at the height at which the transponders to be identified are expected, The maximurn width of the portal recommended for reliable operation is 4 m. The diagram shows a configuration with three antennas. Up to four antennas can be used depending on the local conditions, Transponder Figure 4.8 Example of an antenna configuration with three antennas SIMATIC RF60O 40 System Manual, 06/2019, 481 069-00171-UO01 22.7618 RF600 system planning 4.3 Antenna configurations 43.2 Possibilities and application areas for antenna configurations Some basic antenna configurations and possible fields of application are shown below. With the various configuraticns, please note that up to four extemal antennas can be connected to the RF650R and RF 680R readers, while one extemal antenna can be connected to the RF615 and RFGSR readers, The RFG15R and RFGSSR readers also have an internal antenna, The RF610R reader only has an intemal antenna Antenna configuration 4 Description application areas This arrangement of antennas is appro-
priate when the transponders to be read are only located on one side ofthe goods tobe acquired, for example, if a conveyor belt with passing goods has to be monitored during production and itis, precisely defined on which side the tran-
sponders to be read are attached.
@ Transponder SIMATIC RF600 System Manual, 06/2019, 131083.00171-UO01-A22-7618 rt R600 system planning 4.3 Antenna configurations 42 Antenna configuration 2 Description application areas Lo This arrangement of antennasis appro-
priate when the transponders to be read are only located on one side of the items tobe identified, e.g. when pallets are to be identified and it isknown on which side the transponders to be read are located
@ Transponder Antenna configuration 3 Description application areas le Preferred for the identification of goods at loading gates: The transponder is, located in the radiation field of two an-
tennas; for reliable transponder reading, the height of the transponders above floor level must therefore be known with reasonable accuracy.
@ Transponder SIMATIC RF60O System Manual, 06/2019, 481 069-00171-UO01 22.7618 RE6O0 system planning 4.3 Antenna configurations Antenna configuration 4 Description application areas, Preferred for the identification of goods at loading gates: Similar to configuration 2, but with additional reading reliability when the transponder is at an angle to the vertical
@ Transponder Antenna configuration 5 Description application areas Preferred for the identification of goods at loading gates: The transponder is located in the radiation field of all four antennas, so the transponder position for reliable tag identification is more flexible than in configuration 2
@ Transponder SIMATIC RF600 System Manual, 06/2019, 131083.00171-UO01-A22-7618 R600 system planning 4.3 Antenna configurations Antenna configuration 6 Description application areas Preferred for the identification of goods at loading gates: Similar to configuration 4, but the reliabilty of transponder identi-
fication is improved asa resut of the four antennas at separate locations, sothe transponder position is not critical.
@ Transponder Antenna configuration 7 Description application areas This tunnel configuration is suitable for conveyor belt applications. The goods with the transponders to be read are moving forwards on a conveyor belt but the alignment of the transponders rela-
tive tothe antennas is not clearly de-
fined. One of the antenna is located on the floor and radiates vertically upwards in the direction of the conveyor belt. A relatively high reading reliability is achieved due to the use of four anten-
@ Transponder 44 SIMATIC RF60O System Manual, 06/2019, 481 069-00171-UO01 22.7618 RF6O0 system planning 43.3 Transponder orientation in space 4.3 Antenna configurations The alignment of the transponder antenna to the antenna of the reader influences the reading range. For maximum performance and to achieve the maximum read range, the transponder antenna should therefore be aligned parallel to the reader antenna Parallel transponder alignment Large reading range The probably of identification of the tran-
spondersis at a maximum, Vertical transponder alignment Minimal reading range The probability of identification of the tran-
spondersis at a minimum. SIMATIC RF600 System Manual, 06/2019, 131083.00171-UO01-A22-7618 RF600 system planning 4.3 Antenna configurations 43.4 Specified minimum and maximum spacing of antennas Specified minirnum spacing of antennas 46 The following diagram shows the specified minimurn and maximum spacings for mounting antennas:
Between the antenna and liquids or metals, a minimum distance of 50 cm should be kept to. The distance between the antenna and the floor shauld also be at least $0 cm i Metal rack. Liguid sem stem Figure 4-7 i Ue Cs Minimum distance tothe environment SIMATIC RF60O System Manual, 06/2019, 481 069-00171-UO01 22.7618 RF600 system planning 4.3 Antenna configurations 43.5 Reciprocal influence of read points Antenna alignment and resulting antenna spacing The minimum distance required between antennas that use the same frequency and that are connected to different readers depends on the maximum transmit power set and the antenna alignment The following minimum distances apply with maximum transmit power.
iz ks A Backtoback B Pointing at each other Next toeach other Figure 4-8 Antenna spacing for different readers/antennas and identical frequencies Table 4-1 Antenna alignment and minimum antenna spacing Antenna | Antenna alignment Minimurn distance (0) con figuration] RFGIORIRFEIOR RFeGOR ROO reader with internal antenna _|_with internal antenna _| with RF6ISA/RFG2OA Back to back 4.0m 03m 4.0m 8 Pointing at each other 2.0m 20m 2.0m Next to each other 4.0m 5m 4.0m RFGOO reader F600 reader F600 reader wih RFesowRFeza_| with RFESOAIRFEGOA with RFGOA Back to back 4.0m 03m 5m a Pointing at each other 2.0m 20m 2.0m Next to each other 2.0m 5m 08m simaTic RF600 System Manual, 06/2019, 131083.00171-UO01-A22-7618 aT RF6OO system planning 4.3 Antenna configurations Antenna spacing with portal configuration In the portal configuration, multiple antennas are connected to one reader. In this case, the antennas must not exceed the maximum distance to one another. Table 4-2 Maximum antenna spacing of the external antennas with a portal configuration Antenna Antenna alignment Maximum distance (D) configuration RFGOO reader with | RF6OOreader with | REGO reader with RFOISAIRFEZOA RFesOwRFEWZA | RFESOATRFECOARFEEO A a Pointing at each other 20m om om Portal spacing of up to10 mis possible. The probability of a read must be checked 43.6 48 Read and write range The read/write range between the readerfantenna and the transponder is influenced by the following factors Table 4-3 Factors on the read/write range Factors Description Transmit power of the reader The higher the transmit power of the reader, the larger the reading range. Transponder size and design The larger the transponder antenna, the larger the power, input area and therefore the larger the reading range. Absorption factor of the materials The higher the absorption of the surrounding materia, the smaller the reading range. Manufacturing quality of the tran-
sponders, The better the transponder has been matched tothe oper-
ating frequencies during manufacturing, the greater the reading range. SIMATIC RF600 System Manual, 06/2019, 481 069-00171-U001 22.7618 RF600 system planning 4.3 Antenna configurations Factors Description Reflection characteristics of the envi- [In a multiple-reflection environment (e.g., in rooms with ronment reflecting surfaces, machinery, or concrete walls), the read-
ing range can be significantly higher than in a low-reflection environment, Number of transponders in the antenna field The typical ranges always relate to a transponder installed at the maximum possible distance from the antenna It there are several transponders located in the antenna fleld, the distances to all other transponders must not ex-
ceed the maximum possible distance to be able tobe de-
tected from the antenna field The width and height of the antenna field within which its transponders can be arranged at a certain distance from the antenna depend on the following
+The radiated power,
+ Only reading or reading and writing of the transponders
(writing requires more power, typically double the pow-
e)
+The aperture angle (horizental)
+ The aperture angle (vertical) You will find detailed information about the reading range of the individual readers in the
"Technical specifications in the sections fer the various readers 437 Staticidynamic mode Reading or writing can be either static or dynamic.
@ Readinghwriting is counted as being static if the tag does not move in front of the antenna and is read or written,
@ ReadingAwriting is counted as being dynamicif the tag moves past the antenna during readinghwriting The following overview shows which ervironments are suitable for which read or write mode Operating mode Read write Statie Recornmended in normal UHF | Recommended in normal UF environments environments Dynarnie Recommended under difcut | Not recommended in dificult UHF conditions UHF environments SIMATIC RFE0D System Manual, 06/2019, 131083.D0171-UO01-A22-7618 R600 system planning 4.3 Antenna configurations 43.8 43.8.1 Operation of several readers within restricted space Using more than one reader When mounting the readers make sure that there is a minimum clearance of 0.5 m between the readers to avoid them influencing each other. Avoiding problems 4.3.8.2 When several RFID readers are used, there is a danger that RFID transponders can also be read outby other readers, Care rust therefore be taken to ensure that the transponder can only be identified by the intended reader. Technical disruptions between readers then occur particularly when they transmit on the same channel (cn the same frequency}. You will find more detailed information in the section The response of electromagnetic waves in the UHF band (Page 66)"
Optimization of robustness of tag data accesses for readers that are operated simultaneously Parameter data access reliability 50 If'several readers are to be operated simultaneously in an environment, then the following settings affect the reliability of the reader's access to transponder data
@ Electromagnetic environment (see section "The response of electromagnetic waves in the UHF band (Page 66)")
@ Type of transponder (see section "Transponder (Page 369)")
@ Number of transponders to be detected by an antenna at a time
@ Type of antenna (see section "Antennas (Page 231)" and section "Guidelines for selecting RFID UHF antennas (Page 51)")
@ Transponders distance from and crientation to antennas (see secticn "Transponder
(Page 359)")
@ Distances and orientation of antennas of different readers to each other @ Radiated power ofantennas The robustness of transponder data access is improved for readers whenever distances to adjacent readers are increased, radiated power is reduced, and a channel plan (for ETS!
readers) is implemented. Adjacent readers are parameterized in the channel plan in such a way that they donot use the same channels, A channel plan can be created for ETS! and CMIT readers; for FCC readers, itis assumed that the probability of two readers accidentally using the same channel is very low. SIMATIC RF600 System Manual, 06/2019, 481 069-00171-U001 22.7618 RF600 system planning 4.3 Antenna configurations 43.8.3 Frequeney hopping This technique is intended to prevent mutual interference between readers. The reader changes its transmission channel in a random or programmed sequence (FHSS) Procedure for FCC Frequency hopping is always active in the FCC country profile, With 0 available channels the probability is low that two readers will be operating on the same fequengy. In China, one reader operates on at least 2 channels, e.g, sixteen 2 watt channels, You will find more information on frequency ranges in the section "Regulations applicable to frequency bands (Page 97)"
Procedure for ETSI Frequency hopping is optional in the ETSI wireless profile, According to ETSI EN 203 208 V1. 4.1, frequency hopping is required in multi-channel operation; without it, only single-channel operation is possible. In this mode, the reader pauses for 100 ms after each 4 s transmission period to comply with the standard 43.9 Guidelines for selecting RFID UHF antennas 43.91 Note safety information Awarnine Before planning how to use third-party components, as the operator of a system that comprises both RF600 components and third-parly components, you must comply with the safely information in Section Safety instructions for third-party antennas as well as for modifications to the RF600 system (Page 19) 43.9.2 Preconditions for selecting RFID UHF antennas Target group This section is aimed at configuration engineers who thoroughly understand and wish to carry out the selection and installation ofan antenna or a cable for the SIMATIC RF600 system, The various antenna and cable parameters are explained, and information is provided on the criteria you must particularly observe, Otherwise this chapter is equally Suitable for theoretical and practice-oriented users, SIMATIC RF600 System Manual, 06/2019, 131083.D0171-UO01-A22-7618 51 RF600 system planning 4.3 Antenna configurations Purpose of this chapter This section will help you to select the suitable antenna or the suitable cable taking into account all important criteria and to make the relevant settings in the configuraticn sofwaref WBM of the SIMATIC RF 600 system. Correct and safe integration into the SIMATIC RF 600 system is only possible following adaptation of all required parameters. 43.9.3 General application planning Overview of the total SIMATIC RF600 system andits influencing factors In the following graphicyou can see the design of a SIMATIC RF600 reader with connected antenna and the influencing factors. The influencing factors affect the radiated power output Radiated power = transmit power + influencing factors You must be aware of these influencing facters and also consider them if you wish to integrate components such as antennas or cables into the system. These influencing factors are described in more detail in sections "Antennas (Page 231)" and "Antenna cables
(Page 83)"
Raviate power a= FIR Antenna -ERP Antenna influencing factors Antenna gain Impadanca Return lossiVSwR, Beer angle Attenuation dua to
+ Length of the anterria cable Characteristie (wave) imaecanes Impedance Reader jn Transtnit power Figure 4-9 Overview diagram: Influencing factors When operating the SIMATIC RF600 system, you need to observe additional influencing factors such as minimum spacing between antennas in the room SIMATIC RF600 52 System Manual, 06/2019, 181 069-00171-UO01 22.7618 RF600 system planning 4.3 Antenna configurations Environmental conditions NOTICE Damage to the device Inline with the application, you must take into consideration the mechanical loads (shock and vibration) as well as environmental demands such as temperature, moisture, UV radiation. The device could be damaged if these factors are not considered Specifying the transmit / radiated power 43.9.4 43.95 Depending on whether ycu want to use a third-party antenna and/or antenna cable with a reader, you need to select the suitable components, When selecting third-party components orient yourselfon the values of comparable Siemens products, With the readers, the parameters for the transmitiradiated power, antenna gain and cable loss (user-defined) are set using the WBM. In the WBM, you can select the Siemens products being used from a drop-down list quickly and easily, and the values and their effect on the transmitiradiated power are calculated directly. With third-party products, you can enter the relevant values manually Based on the entered products/values, the WBM calaulates the permitted radiated power and makes sure that this is not exceeded. Types of antenna In principle, all types of directional antennas can be considered as antennas for integration into the SIMATIC RF600 system, Directional antennas have a preferred direction in which more energy is radiated than in other directions, RF600 antennas on the other hand, are optimized for operation with RF600 readers and have all the required approvals. Antenna cables Selection criteria You must observe the criteria listed below when selecting the appropriate antenna cable Characteristic impedance SIMATIC RF600 Note the following points when selecing the antenna cable
@ You can only use coaxial antenna cables when connecting an antenna
@ These antenna cables musthave a nominal characteristic impedance of Z = 50 Ohm, System Manual, 06/2019, 131083.D0171-UO01-A22-7618 8 RF60O system planning 4.3 Antenna configurations Antenna cable loss In order to be able to transmit the available UHF power from the RF600 reader to the antenna or antennas, the antenna cable loss should not exozed a value of approx. dB. Dependency of the cable loss The cable loss depends on two important factors:
External characteristics of cable. These includes the cable length, diameter and design
@ Asa result of the physical principle, the cable loss is also frequency-dependent. In other words, the cable loss increases the higher the transmitter frequency is, Therefore the cable loss must be specified in the frequency band from 860 to 960 MHz Cable vendors usually provide tables or calculation aids for heir types of cable which usually indude the transmitter and receiver frequencies as well as the cable length. Therefore contactyour cable vendor in order to determine the appropriate type of cable using the approximate value referred to above Notes on use Shielding of the antenna cable Ccaxial antenna cables generally have a shielded design and therefore radiate little of the transmitted power to the environment. Bending radius of the antenna cable The properties of the cable shield are influenced by mechanical loading or bending. You must therefore observe the static and dynamic bending radii specified by the cable vendor. Connectors and adapters You must use connectors and adapters of the type "Reverse Polarity R-TNC" (male connector) for your antenna cables to ensure correct connection to the RF6O0 reader interface. Figure 410 Thread standardization You can find more information in the catalog data of your cable vendor. SIMATIC RF600 54 System Manual, 06/2019, 481 069-00171-U001 22.7618 RF6OO system planning 4.4 444 SIMATIC RF600 4.4 Minimum distances and maximum ranges Minimum distances and maximum ranges The following section describes the configuration of the antenna and transponder relative to each other. The aim of the section is to help you achieve the maximum ranges listed here in a typical electromagnetic environment. One of the main focuses of the section is the effect of the mounting surface of the transponder on the readiwrite distance As the requirements fer achieving the maximum distances specified here, note the fellowing points:
@ Operate the readers with the maximum possible and permitted transmit power.
@ With external antennas, the antenna cable with 1 m cable length and 0.6 dB cable loss is, used (6672815-0BH10) Optimum alignment of the transponder and antenna is ensured (see section
"Configurations of antenna and transponder (Page 66)"),
@ The optimum mounting surface for the transponder has been selected (see section Effects of the materials of the mounting surfaces on the range (Page 58)")
@ The maximum range specified in the section "Maximum readhwrite ranges of transponders (Page 69)" applies only to read processes, With write operations, the range is reduced as described in the section
@ Effects that reduce readwrite ranges are avoided (see section "Antenna configurations
(Page 39)") Configurations of antenna and transponder Below, you will find several possible antenna-transponder configurations that are necessary to achieve the maximum range. The polarization of the antenna plays a decisive rde. The antennas are distinguished according the flowing types:
@ Linear antennas:
RF615A, RFG20A, RF642A,
@ Circular antennas:
RF640A, RFGG0A, RF650A, x
@ Affpnas that can be switched over (lineartircular) FS REBHDA [ nN
System Manual, 06/2019, 131083.00171-UO01-A22-7618 55 RF60O system planning 4.4 Minimum distances and maximum ranges With the antenna typeswith linear polarization (RF620A and RF642A), the pdlarization axes of the antenna and of the transponder mustbe aligned parallel to each other to achieve a maximum range NOTICE Reduction of the maximum readawrite range when using linear antennas Ifthe aligntnent of the pdlarization axes of linear anteinas (RF620A or RF642A) and transponders is not parallel, this reduces the read/write range. The reduicticn in the range depends on the angular deviation between the pclarigation axes of theantenna and the polarization ais of the transponder. You will find further details i Alignment of transpondeyp|p the antanna (Page 257)" or Alignment of ransp e antenna
(Page 207) Wy Note \ 2 I Adjustable RF6@DA antent ;
Note that the antenna RF680A can be switched over. This means that you canset the +
ee Peat At aPC WO BEL so ops a HCN eC AOS Possible transponder alignments depending on the antenna type 56 Circular antennas Too Behave tre Maxim TEaCAWTTe Tange WIT CiroDtay AMMA, Make Sore Thay He planes of the polarization axes have the same alignment. Changing the transponder angle within the xy plane has no effect on the range. 8 Circular antenna RFG40A, RFESOA, RFESOA or RFEBOA Transponder Figure 411 Possible transponder alignment with circular antennas SIMATIC RF600 System Manual, 06/2019, 81 069-00171-UO01 22.7618 RF6OO system planning 4.4 Minimum distances and maximum ranges Linear antennas To achieve the maximum range with linear antennas, make sure that the polarizaticn axes of the antenna and transponder are parallel 1o each other. Changing the transponder angle within the x-y plane leads to a reduction of the range. 8 Linear antenna RF615A, RFG2OA, RF642A or RFGAOA, Transponder Figure 442 Possible transponder alignment with inear antennas Note Optimum transponder positiorvalignment Depending on the electromagnetic properties of the environment, the optimum transponder position and alignment may differ fom those shown above. SIMATIC RF600 System Manual, 06/2019, 131083.00171-UO01-A22-7618 ST RF6OO system planning 4.4 Minimum distances and maximum ranges Suboptimal transponder alignment for all antenna types 44.2 Ifthe angle is changed within the y-z plane, this causes a reduction in range for all antenna types. 8 Antenna RF615A, RFG2ZOA, RFE4OA, RFG42A, RFESOA or RFEAOA Transponder Figure 413 Suboptimal transponder alignment Note Exceptions The suboptimal transponder alignment does not apply to the transponders RF625T and RF630T. You will fnd additional informaticn on this in the sections dealing with the transponders. Effects of the materials of the mounting surfaces on the range Effects due to antenna mounting 58 For the RF640A, RF642A, RFGS0A, RF6S0A and RF680A antennas, the antenna gain and therefore the maximum read/write range does not depend on the selected material of the mounting surface. In contrast to this, the antenna gain of the RF615A and RF620A antennas and therefore the meximur readAwrite range of transponders depends on the mounting surface of the antenna, To achieve the maximum range with an RF615ARF620A antenna, the antenna needs to be mounted on a metallic surface of at least 150 x 150 mm Youwwill fnd more detailed information on antenna gain in the subsections of the section Antenna patterns (Page 257)"
SIMATIC RF600 System Manual, 06/2019, 481 069-00171-U001 22.7618 RF6OO system planning 4.4 Minimum distances and maximum ranges Effects due to transponder mounting The maximurn readiwrite range of the transponders depends on the material of he mounting surface, The specified ranges apply when mounted on non-metallic surfaces, such as paper or card, with the RF640L, RF642L, RF625T, RF630T, RFG40T and RF64ST when mounted on metal Mounting on plastic can reduce the maximum read/write range considerably depending on the type of plastic (up to 70%). When mounted on wood, the range is furhter reduced the more moisture the wood contains. Due to the attenuating properties of glass, direct mounting without a spacer can halve the range Ifthe RF625T, RF63OT, RFG40T, RFG45T, RFG8OT or RF.682T transponders are mounted on metal, this metallic surface acts as a reflection surface. This surface should therefore be adequately large. To achieve the listed maximum ranges, transponders must be mounted on a metallic mounting surface with a minimum diameter of 150 rm, for the RF630T and RF680T 300 mm. If he metallic mounting surface only has a diameter of 65 mm instead of the required 150 mrn, the range is reduced by 65%. 443 Maximum readiwrite ranges of transponders Maxirnum read ranges The measurements were made under the following conditions:
@ ETSI radio profile
@ = Maximum possible radiated power of the reader or antenna. @ Optimum transponder alignment and mounting surface
@ With antenna connected:
With a3 meterlong antenna cable with 1 dB cable loss (arlicle number: 66T2815-
0BH30) RF61SA and RF620A: Mounted on metal RF680A: Circular polarization
@ Room temperature of approx. 20 - 25C
@ Low-etection environment; Ranges may be smaller or larger depending on the ambient conditions. SIMATIC RF600 System Manual, 06/2019, 131083.D0171-UO01-A22-7618 59 RF6OO system planning 4.4 Minimum distances and maximum ranges The following tables summarize the ranges with the RF610R and RF615R readers, as well as the RF680R and RF6SSR readers, since the ranges achieved are identical with these readers. Note that the RF610R reader does not have an external antenna connector and the RF680R reader does not have an intemal antenna, Table 4-4 Read range of the transponders | (all ranges in meters [m) SIMATIC RFE3OL SIMATIC RF630L | SIMATIC_RFG3OL SIMATIC RF63CL 6GT2810-2A801- @GT281 0-2A502- 8GT2810-2AB03 ecT2810-2AB04 OAx1 Axo. SIMATIC RFGIOR, SIMATIC RFGISR with internal antenna _|1.0 1.0 os os SIMATIC RFGISR. with RFGISA, os os 02 02 with RF@208, 4 os 2 02 with RFG#OA, 1.8 18 os 1.0 with RFGI2A, 35 4.0 1.8 18 with RF@5OA, 1.8 2.0 as oO with RF6SOA, 3.0 4.0 14 18 with RF@SOA, 1.8 2.0 1.0 1.0 SIMATIC RFGSOR with RFGISA, 1.0 12 os os with RF@208, 1.0 12. os or with RFG#OA, 3.0 3.0 1.8 18 with RFGI2A, 5.0 5.0 3.0 35. with RF@5OA, 3.0 3.0 14 18 with RF6SOA, 5.0 5.0 25 3.0 with RF@SOA, 3.0 3.0 14 18 SIMATIC RFGBSR with internal antenna _|6.0 eo 3.0 35 SIMATIC RFGSOR, SIMATIG RFGB5R with RFGISA, 14 18 ar os with RF@208, 1.8 18 oe 09 with RFG#OA, 4.0 4.0 2.0 25 with RFGI2A, 5.0 5.0 3.0 35. with RF@5OA, 35 4.0 18 25 with RF6SOA, 5.0 5.0 25 3.0 with RF@SOA, 4.0 45 18 25 SIMATIC RF600 60 System Manual, 06/2019, 481 069-00171-U001 22.7618 RF6OO system planning 4.4 Minimum distances and maximum ranges Table 4-5 Read range ofthe transponders Il (all ranges in meters [m) SIMATIC RF630L SIMATIC RF630L SIMATIC RF630L eGT2810-2ACa2 @GT261 0-2AE80-0AX2 6GT2810-2AE81 -OAX1 SIMATIC RFGIOR SIMATIC RFGISR, with internal antenna _| 0.4 1.0 os SIMATIC RFGISR with REGISA on os 02 with RFE2OA 02 os 2 with RFGAOA, 1a 25 1.0 with REGIA, 3.0 4.0 25 with RFOSOA, 1a 25 1.0 with RFGSOA, 25 4.0 35 with RFGSOA, 1a 25 1.2 SIMATIC RF@50R with REGISA oz 14 os with RFE2OA oO 14 os with RFGAOA, 25 4.0 18 with REGIA, 45 0 35 with RFOSOA, 2.0 35 18 with RFGSOA, 4.0 0 3.0 with RFGSOA, 2.0 35 18 SIMATIC RFGSSR. with internal antenna _| 5.0 eo 35 SIMATIC RFR SIMATIC RFGS5R, with REGISA 1.0 1.8 as with RFE2OA 12. 2.0 1.0 with RFGAOA, 3.0 5.0 25 with REGIA, 5.0 0 4.0 with RFOSOA, 3.0 5.0 25 with RFGSOA, 4.0 0 35 with RFGSOA, 3.0 5.0 25 SIMATIC RF600 System Manual, 06/2019, 131083.D0171-UO01-A22-7618 8 RF6OO system planning 4.4 Minimum distances and maximum ranges Table 4-6 Read range of the transponders Il (all rangesin meters [m) SIMATICRF640L | SIMATIC RF642L | SIMATIC RF690L SIMATIC RFGIOT. SIMATIC RFGIOR, SIMATIC RFGISR with internal antenna [0.5 os 02 os SIMATIC RFGISR. with RFGISA, 02 02 on 03 with RF@208, 2 om ot om with RFG#OA, os 12. ot 12. with RFGI2A, 25 2.0 03 3.0 with RF@5OA, 1.0 oO ot 12. with RF6SOA, 2.0 18 03 3.0 with RF@SOA, Os 1.0 ot 1a SIMATIC RFGSOR, with RFGISA, on os 02 a9 with RF@208, ot om 2 09 with RFG#OA, oe 12. 25 25 with RFGI2A, 35 2.0 2.0 45 with RF@5OA, 1.8 12. 3.0 2.0 with RF6SOA, 25 18 14 35. with RF@SOA, 1.8 12. as 2.0 SIMATIC RFGBSR with internal antenna [2.5 2.0 3.0 5.0 SIMATIC RFGSOR, SIMATIG RFGB5R with RFGISA, 02 os 02 12 with RF@208, 2 5 03 1a with RFG#OA, 1.0 1a 35 3.0 with RFGI2A, 35 2.0 2.0 45 with RF@5OA, 2.0 18 35 3.0 with RF6SOA, 25 18 14 35. with RF@SOA, 25 18 14 3.0
+) Mounting on metal. Mounting surface with a minimum diameter of 150 mm, 62 SIMATIC RF600 System Manual, 06/2019, 481 069-00171-U001 22.7618 RF6OO system planning 4.4 Minimum distances and maximum ranges Table 4-7 Read range ofthe transponders Iv (all ranges in meters [m) simatic RFezoT _[simaTICRFe2sT2 | siMATICRFes0T?)_| sIMATIC RFG4OT SIMATIC RF6IOR SIMATIC RFGISR, with internal antenna [1.0 03 03 os SIMATIC RFGISR with REGISA 1.0 on on 02 with RFE2OA 12. ot 02 2 with RFGAOA, 4.0 03 om ar with REGIA, 4.0 1.0 5 14 with RFOSOA, 35. 2 om ar with RFGSOA, 4.0 oe 1.0 1.2 with RFGSOA, 4.0 02 Os: 1.2 SIMATIC RF@5OR with REGISA 18 03 os os with RFE2OA 18 4 om ar with RFGAOA, 5.0 1.0 1.0 18 with REGIA, 70 18 2.0 25 with RFOSOA, 4.0 1.0 09 2.0 with RFGSOA, 60 14 18 2.0 with RFGSOA, 4.0 oe 09 2.0 SIMATIC RFGSSR. with internal antenna [7.0 2.0 2.0 35 SIMATIC RFGEOR SIMATIC RFGS5R, with REGISA 25 os os oe with RFE2OA 25 os 5 1.0 with RFGAOA, 60 14 1a 25 with REGIA, 70 18 2.0 4.0 with RFOSOA, 5.0 14 12. 25 with RFGSOA, 60 14 18 3.0 with RFGSOA, 60 1.2 12. 3.0
* Mounting on a non-metallic surface. Mounting on metal is only permitted in combination with a spacer. Mounting on metal Mounting surface with a minimum diameter of 150 mm, for the RFESOT 300 mm. SIMATIC RF600 System Manual, 06/2019, 131083.D0171-UO01-A22-7618 eB RF6OO system planning 4.4 Minimum distances and maximum ranges Table 4-8 Read range of the transponders (all ranges in meters [m) SIMATIC RFG45T SIMATIG RFEOT SIMATIG RFGBQT SIMATIC RFGIOR SIMATIC RFGISR with internal antenna [1.0 1.0 1.0 SIMATIC RFGISR. with RFGISA, oz as os with RF@208, 09 ar om with RFG#OA, 1a 20 12. with RFGI2A, 3.0 4.0 25 with RF@5OA, 18 18 12. with RF6SOA, 35. 4.0 2.0 with RF@SOA, 18 20 12 SIMATIC RFESOR, with RFGISA, 12 1.0 oz with RF@208, 1a 12. oO with RFG#OA, 4.0 3.0 25 with RFGI2A, 60 50 45 with RF@5OA, 35. 3.0 2.0 with RF6SOA, 5.0 45 4.0 with RF@SOA, 3.0 3.0 2.0 with RF@SOA, 45 45 3.0 SIMATIC RFGBSR with internal antenna [6.0 50 4.0 SIMATIC RFEBOR, SIMATIG RFGB5R with RFGISA, 18 14 1.0 with RF@208, 2.0 18 12. with RFG#OA, 5.0 4.0 3.0 with RFGI2A, 60 50 45 with RF@5OA, 5.0 4.0 25 with RF6SOA, 5.0 45 4.0 with RF@SOA, 45 45 3.0
*) Mounting on metal. Mounting surface with a minimum diameter of 150 mm, for the RFEBOT 300 mm. Maximum write ranges Depending on the transponder type, the reader antenna requires more power for writing than for reading data. When writing, the maximurn range reduces by approximately 30 %
compared with the read range SIMATIC RF600 64 System Manual, 06/2019, 481 069-00171-U001 22.7618 RF6OO system planning 4.4 Minimum distances and maximum ranges 444 Minimum distances between antennas and transponders The antennas listed here are all far field antennas, For this reason, a minimum distance between antennas and transponders must be maintained fo ensure reliable transponder data access Table 4-@ Minimum distances to be maintained between antennas and transponders RF600 antenna Minimum distances to be maintained RFI5A 50 mim RFe20A 50 rm RFGHOA 200 mm RFSWA 200 mm RFE5OA 200 mmm RFSGOA 200 min FORA 200 mmm RFGASR, internal antenna 200 mmm 445 Influence of electrically conductive walls on the range NOTICE Influence of conducting walls on the range If there are metallic (reflecting) surfaces in the immediate vicinity of the transponder, this can have a negative effect on the write/read range, Test the environmental conditions before using the transponder. SIMATIC RF600 System Manual, 06/2019, 131083.D0171-UO01-A22-7618 65 RF6OO system planning 4.5 Environmental conaifions for transponders 45 Basic rules 46 46.1 Environmental conditions for transponders The transponder must not be placed directly cn metal surfaces or on containers of liquid The on-metal transponders designed specifically for use in metallic envirenments are an exception to this, For physical reasons, a minimum distance must be maintained between the transponder antenna and conductive material, A minimum distance of om is recommended. The transponder operates better when the distance is greater (between and 20 cm)
@ Transponder assembly on non-conductive material (plastic, wood) has a tendency tobe less cntical than assembly on poorly conductive material
@ The best results are achieved on the materials specified by the transponder manufacturer.
@ Formore information, refer to the section "Transponder (Page 259)" or ask the relevant transponder manufacturer. The response of electromagnetic waves in the UHF band The effect of reflections and interference Reflections and interference 66 Electromagnetic waves in the UHF band behave and propagate in a similar manner to light waves, that is they are reflected from large objects such as ceilings, floors, walls and windows and interfere with each other. Due to the nature of electromagnetic waves, interference can lead to wave amplification which can produce an increased reading range In the worst case scenario, interference can also result in waves being extinguished which causes gapsin reader coverage In some ciraumstances, reflections can also be beneficial when they cause elecromagnetic waves to be routed around cbjects, in a sense (deflection). This can increase the reading probability. Due to these electromagnetic characteristics, it is extremely difficult in the multiple-reflection environment that is usually found in real environments on site to determine propagation paths and field strengths for a parficular location. SIMATIC RF600 System Manual, 06/2019, 481 069-00171-U001 22.7618 RF6OO system planning 4.6 The response of electromagnetic waves in the UHF band Reducing the effect of reflections/interference on transponder identification
@ Reducing the transmit power:
To minimize interference, we recommend that the transmit power of the reader is reduced ntl it is sufficient for an identification rate of 100%,
@ Increasing the number of antennas:
More antennas (3 or 4) in a suitable antenna configuration can prevent gaps in reader coverage. 46.2 Influence of metals Metal can have an effect on the electromagnetic field depending on the arrangement or environment, The effect ranges from a hardly determinable influence through to total blocking of communication. The term metal in this context also includes metallized materials that are either coated with metal or shot through with metal to such an extent that UHF radiation cannot penetrate or only toa minimal extent The effect of metal on the electromagnetic feld can be prevented as fellows:
@ Do not mount transponders on metal, The cn-metal transponders designed specifically for use in metallic ervironments are an exception to this. Donot place metallic or conducting objectsin the propagation field of the antenna and transponder. Influence of metal on transponders Normally transponders must not be mounted directly on metallic surfaces, The transponders designed speciically for use in metallic environments are an exception to this (e.g.: RF690L, RF620T, RF625T, RFG3OT, RF640T, RF&S0T) Due to the nature of the electromagnetic feld, a minimum distance must be maintained between the transponder antenna and conductive materials. For more detailed infermation on the special case of attaching transponders to electrically conducting materials, refer to the relevant transponder sections. In the case of ransponders that are not designed for mounting on metallic materials, the minimurn permissible distance from metal is cm. The larger the distance between the transponder and the metallic surface, the better the function of the transponder. Influence of metal on antennas Note that metal surfaces located directly in the antenna field reflect the transmitted power directly to the antenna, Due to the nature of the electromagnetic feld, a minimum distance mustbe maintained between the antenna and conductive materials. You can find more detailed information on this in section "Specified minimum and maximum spacing of antennas (Page 46)"
If the reflected energy becomes too strong in the receive path of the reader, this activates a protective Grouit that shows itself as an antenna error without there actually being an error in the configuration or a defect on the antenna SIMATIC RF600 System Manual, 06/2019, 131083.D0171-UO01-A22-7618 67 RF60O system planning 4.6 The response of electromagnetic waves in the UHF band 46.3 464 Reflections and interfprenoe This effect depends very much on the transmitted power, the compenents being used (cable, antenna) and the distance from the metallic surface to the antenna. In this case, reposifioningjrealigning the antenna or reducing the radiated power can remedy the situation. Influence of liquids and non-metallic substances Non-metallic substances can also affect the propagation of elecromagnetic waves and thus the transponder range. When non-metallic substances or objects that can absorb UHF radiation are located in the propagaticn field, these can alter the antenna field depending on their size and distance and can even extinguish the field entirely. The RF damping effect of water, materials containing water, ice and carbon is high Electromagnetic energy is partly reflected and absorbed. Gil- oF petroleum-based liquids have low RF damping, Elecromagnetc waves penetrate these liquids and are only slightly weakened Transponder Influence of external components The RED guideline and the relevant standards govern 1 one pmfpaghatioreomatibilty requirements. Thibtitsedeoncems the third-party components pf the RP6BtrEystdm. Even thot Prequrepas Tor aleciigmagnelic cdmpatiblly are de sill Fterfepe.wfth each) ThelperfornancE of the RF600 systems ishehy Yependent.oh the plectromagnetic envipoPRnt of th antennas. ( f NY chip nes, igus components will
Receive signal On the ore and, antenna Teds Wil be Weakened by absorbing materials and rdflected by conducting materials. When electromagnetic fields are reflected, the antenna field and reflecting fields overlap (interference). Third-party components in the same frequency band 68 On the other hand, third-party components may transmit on the same frequency band as the reader, or the third-party components may transmit in different frequency bands with side bands that overlap with the frequency band of the reader. This results in a reduction of the
"signal-to-noise" ratio which reduces the performance of an RF600 system Ifa DECT station that is transmitting in the 2 GHz band, for example, is located in the receiving range of an antenna of the RF600 system, the performance of the write and read access to the transponder may be reduced SIMATIC RF600 System Manual, 06/2019, 481 069-00171-U901 22.7618 47 474 General RSSI value SIMATIC RF600 RF6OO system planning 47 Planning and installation of UHF read points Planning and installation of UHF read points Due to their comparatively large effective range, RFID UHF systems (frequency band 885 -
92 MHz) have different requirements in terms ofplanring, commissioning and operation compared with the HF systems commonly used up to now in autoration (frequency band 13.56 MHz), This section describes important rules for preparaticn and implementation of the RFID UHF systems, Technical basics In contrast toinductively coupled HF systems, in UHF technology, there is full propagation of the radiowaves just as in other wireless systems (radio, TV etc). There are both magnetic and electrical field components present. The following graphic shows the structure of a UHF system, One characteristics the design of the transponder that differs greatly from the structure used in HF systerns, e.g, the use ofa dipole cr helix antenna
signal sirengih of he Faneponder response is known ashe RSS! value (Received Signal Strength Indicator). The RSS| value is a one byte value (0 0 255), the higher the value the better the signal strength (according to the IEEE 602.11 standard), The actual RSS! value depends on numerous parameters:
transponder type used, chip used in the transponder, connected antenna, transmit power, System Manual, 06/2019, 131089.D0171-UO01-A22-7618 Cy F600 system planning 4.7 Planning and installation of UHF read points 70
@ distance between antenna and transponder,
@ reflections,
@ noise level in the channel used and in neighboring channels The RSSI value is important for the auternatic evaluation of the read point and for filtering, A simple comparison of the RSSI values of two transponders is nevertheless not possible because the values are influenced by the transpcnder tderances and the non-homogeneous antenna field. This means thatit is possible that a transponder positioned closer to the RFID antenna has a lower RSSI value than a transponder much further away. Wot propagete as 2 homogeneous fal, there is superpeiion of he waves he following effects
@ Gvershoots and field gaps due to obliteration of two waves Thes-are caused by reflection and the resulting propagation on different paths
(comparable with fading effects onthe car radio, e.g. ncise when the vehicle Is standing) Gengjaticepf overshoots@e to reflectin@cbjects and surfaces This canipe illustrated mostngititye hall of mirors", The signal ransmitted by the reader is feflected (sgeral times) ee ic cbjects such as housings, steel supports or giles ardlthis can (Sito un ante effects and read errors. Is also possible that a transponder is not identified al ROT itis located in the assumed direct identification range of the reader. It can also happen that a transponder moving outside the antenna field is read out due to overshoots. Identification situation with two transponders in a real radiantenna field with reflections that can lead to obliteration and overshoots 8 Identification situation with two transponders in an ideal radio/antenna field Figure 415 Propagation of UHF RFID antenna fields SIMATIC RF600 System Manual, 06/2019, 481 069-00171-U901 22.7618 RF6OO system planning 47 Planning and installation of UHF read points Properties of the transmitting antenna SIMATIC RF600 Depending on their design, UHF RFID antennas provide different properties. They differ in the polarization and antenna gain The direction of the electrical field component of an electromagnetic wave and the alignment of the antenna decide the polarization of the radiation. A distinction is made between linear and circular pclarization of an antenna With linear polarizaticn you achieve the maximum writeiread distances when the polarization axes of the antenna and transponder are parallel to each other. As the deviation increases, the received power deteriorates, Polarization axis turned through 48": approx. 50% range Polarization axistuned through 90: approx. 10% range 8 Polarization axes parallel: approx. 100 % range, Figure 446 Effect of the polarization axes on the wrte/read distance with linear antennas Linear antennas can only be used if the alignment of the transponder is defined. On the other hand, one advantage oflinear antennas is that they react less sensitvely to reflections. This restriction does not apply with circular polarization. Circular antennas can also be used with differing alignments of the transponder and achieve constant results (.g. RF680A or RF6S5R). Ithas been shown that with a defined transponder alignment, the linear antenna normally produces the best results System Manual, 06/2019, 131083.D0171-UO01-A22-7618 nm RF6OO system planning 4.7 Planning and installation of UHF read points 472 Implementation of UHF RFID installations The use of UHF RFID systems requires careful planning and preparation to avoid problems during commissioning and operation, AT24 Preparation phase Device selection When selecting the suitable RFID hardwere, remember the following minimurn criteria Integration in a controlT environment
@ Degree of protection Size of the identification range
@ Type, number and posion of the ranspenders in the antenna field @ Reflecting and absorbent materials in the vicinity of the antenna
@ Distance between the antenna or the reader and the transponder The following application examples illustrate the requirements for specific use cases and provide suitable solutions:
@ Read point in a conveyer system in confined installation conditions:
A container should be transported in a conveyor system. Information on the next transport section is contained in a tansponder which is attached 10 the side of the container. Possible configuraticn: RF610R or possibly RF615R with integrated internal antenna and a compact, external antenna (e.g. RF615A, RF620A)
@ RFID gate at the incoming goods / cutgoing goods department Several transponders are located on different packaging of products on a pallet, These need tobe identified when passing through the RFID gate Possible configuration: RF6SOR with four circular antennas (e.g. RF650A, RF6G0A depending on the required radiated power)
@ Four read points along the production line A product needs to be processed by different machines along the production line. The information for this is contained on a transponder attached to the product that must be read out ateach machine. Possible configuration: RF680R with four antennas (e.g. RF615A, RF620A, RF6S0A)
@ Read point on a production line with a predominantly metallic environment, A product needs to be processed by different machines along the production line. The information for this is contained on a transponder attached to the product that must be read out at each machine. Possible configuration: RFGSSR with integrated adaptive antenna SIMATIC RF600 72 System Manual, 06/2019, 481 069-00171-U001 22.7618 RF6OO system planning 4.7 Planning and installation of UHF read points Dynamic iden tification Dead spots cannot be excluded, Tobe able to compensate for dead spots, we reccrnmend thatyou give preference to dynamic identification rather than static identification. Dynamic identification means that the transponders are read while they are moving (e.g. on the conveyor belt) If staicidentification is necessary, the antenna field can e virtually dynamizedwith the RF6S5R antenna or RFOSUA. Triggering Toread out alright transponder data, you can have the readers perform permanent write/read actions or have specific writelread actions triggered, Fr the following reasons, we recommend that you trigger specific write/read actions:
@ The RFID system only performs write/read actions when an object to be identified enters the antenna field. This reduces the number of process errors and they can be identified more quickly.
@ Due to the fact that the various RFID systems only perform writefread actions when necessary, this reduces the possibilty of antenna fields disrupting each oer. This increases process reliability in plants, particularly when there is a high reader density.
Decoupling thi same lime or operate separately from each other. Ideally there should be no mixed usage sect one iT Training 5 4722 Test phase Metals and absorbent materials have a major influence on the functioning of HF RFID systems, Since every environment has different conditions, we recommend that you run a ce test.with all thexebjects to be identified for each read point, Include neighboring readers in these tests as well as scenarios for overshoots, Run through the tests an adequate number Softies to make sure that any sporadically ocourring influencas on the antenna fields are algo tested ntnzs re ston atone wits mavimum RSS vais rach. The jon of hould only be decided after an adequately intensive a hat sui can be tried out if errors occur. SIMATIC RF600 System Manual, 06/2019, 131083.D0171-UO01-A22-7618 B RF6OO system planning 4.7 Planning and installation of UHF read points, 4723 Setting up read points Adjust antennas 14 The read point setup described in this section is performed using the Web Based Manag Pp pt of the WAM in the configuration menual "SIMATIC RF600 (htips://
suppor. industry. siemens, com/csfw/en/ps/1508 1/m an)"
Follow the steps below to optimize the antenna alignment 4. Position the object fitted with a transponder and to be identified at the required read point. 2. Align the teader-or-the ant hatits front poinis in the dicection of the object
(ransponder) to be identified. Keep to the minimum distances between antennas and transponders to avoid antenna errors. When using linear antennas, make sure the polarization direction is correct. 3. In the "Settings - Adjust antenna" menu item, select the connected antenna and click the
"Start adjusment button. Figure 417 Optimizing the antenna alignment with the "Settings - Adjust antenna wen SIMATIC RF600 System Manual, 06/2019, 481 069-00171-U001 22.7618 RF6OO system planning 4.7 Planning and installation of UHF read points 4, Inthe "RSS| display" area, you can see the current (light blue) and maximum reached
(dark blue) RSS! values. Note Transponder isnotidentied If no transponder is identified, fist increase the radiated power as described in the following section. Then repeat the antenna agjusiment. Also check the polarization of your antenna, Ifthe transponder alwayshas the same alignment, the antenna pdarization should be adapted accordingly. Ifthe transponder moves cr the alignment of the transponder varies, itis advisable to combine several antenna pdlarization types or to select a circular polarization 6. Optimize the antenna adjustment until the maximum possible RSS| value is reached. 6, Secure the antenna Note that the RSSI value = onthe a 9 @, Polarization,
@ Tefecting and abserbent materals in the vicity ofthe antenna ugicyetessentrigs ifadiated power. Rs Select the radiated power so that the required transponders can be identied reliably but without overreach. In this case, the following applies: "as much as necessary, as litle as possible"
trrttie""SettifiySActivation power" menu item, you can find the optimum radiated power for reliable transponder access, a SIMATIC RF600 System Manual, 06/2019, 131083.00171-UO01-A22-7618 6 RF6OO system planning 4.7 Planning and installation of UHF read points Detect activation power Follow the steps below to detect the activation power:
1. In the "Settings - Activation power" menu item, select the connected antenna and click the "Start measurement" button. 2. Inthe "Min, power column of the transponder list, you can see the required activation power, The value "Min. power" of the transponder last selected in the transponder list is automatically transferred to the "Acoapt power box with 2 dB added Note Optimizing the radiated power The value entered automatically in the "Accept power" box corresponds to the minimum value with which the transponder was identified by the antenna (Min, power) plus a power reserve of 2 dB. This value serves as a guideline and you can adapt it. To be sure that the antenna reliably detects the transponders regularly, we recommend that you accept the automatically adapted default value Figure 418 Determining the activation power using the "Settings - Activation power" menu item 3. Click the "Apply" button to transfer the value entered in the "Radiated power" input box of the "Settings - Read points" menu itern. 4, Click the symbol to transfer the configuration to the reader. SIMATIC RF600 76 System Manual, 06/2019, 481 069-00171-U001 22.7618 RF6OO system planning 4.7 Planning and installation of UHF read points 473 Dealing with field disturbances 473.4 Types and approaches to solutions The superposition of radiowaves and reflection by conductive materials (in particular metal) can lead toweakening cr strengthening of the antenna field at certain paints in space, These effects can lead to disruptions when identifying RFID transponders that can be distinguished as follows:
@ Cvershoots due to increasing field strength: Transponders are detected that are actually beyond the read distance Approaches to solutions:
Reduction of the radiated power
= Determining the input attenuation Use of UHF algorithms Changing the antenna position Shielding measures Varying the antenna polarization Use antennas with a lower gain Use antennas with adjustable polarization Lack of separation of transponders: Transponders positioned close together are detected together although the application logic requires individual detection (for example to determine the positioning order). Al transponders are within the read distance PP Reduction of the radiated power Use of UHF algorithms ranging he antenna position Shielding measures Use antennas with a lower gain
@ Field obliteraticn: Due to the superposition of waves, obliteration effects occur within the read distance. Approaches to solutions:
Varying the antenna polarization Using additional antennas Use of UHF algorithms Changing the antenna position Shielding measures Use antennas with a lower gain SIMATIC RF600 System Manual, 06/2019, 131083.D0171-UO01-A22-7618 TT RF6OO system planning 4.7 Planning and installation of UHF read points
@ Reader + reader influence: Several readers influence or disturb each other during transponder identification Approaches to sclutions:
Interconnect neighboring readers so that they do not send at the same time Enable intermissions ("Settings - General menu iter) Channel management
@ Reader + transponder influence: A reader communicates with a transponder that is also in the identification area of another reader. Sdlution approaches:
"Interconnect" neighboring readers so that they do not send at the same time
@ Other sources of disturbances that can lead to restriction of transponder identification. Other sources of disturbances can occur if there are deviceswith similar frequency bands
(for example 900 MHz) in the vicinity of the reader. The diagnostics corresponds to the influence of one reader on another. Mobile phones can also disturb identification, This is the case ifa reader of the type FCC or CMIIT is operated in Europe Sdlution approaches The disturbances can be eliminated by temperarily tuming off the suspected source of interference orits shielding, Interference can also occur with devices in other frequency bandsif these are located in the immediate vicinily of the RFID antenna
(e.g. DECT telephone directly in front of the RFID antenna), Common industrial interference mechanisms, such as the harmonics of frequency converters or static discharge (ESD) can also cause disturbances Note Occurrence of disturbances Remember that these disturbances can also occur sporadically or in certain combinations. 4.7.3.2 Measures for eliminating field disturbances Using shields To avoid reflections, you can fit UHF absorbent material. Todo this, the absorbent material ismounted at various suspected reflection points untl the field disturbance no longer occurs, Where possible, avoid the use of metal structures (for example housings) and use plastic instead. Even with reader-to-reader influence, you can use absorbent plates or shielding sheets, SIMATIC RF600 78 System Manual, 06/2019, 481 069-00171-U001 22.7618 RF6OO system planning 4.7 Planning and installation of UHF read points Channel management To operate the readers, depending on the country profile, you have between four and fly send channels available. Ideally, you should make the channel assignments manually in STEP 7 Basic / Professional (TIA Portal) or in the WBM. This allows you to reduce reader-to reader influence and if applicable feld obliteration. Table 4-10 Example of a channel plan according to ETSI Reader Reader | Reader? | Readers | Readers | Readers Transmission 4 10 7 13 4 channel Frequency 865.7 266.9 8683 2675 885.7
(m2) Use of multiple antennas Ifyou donot find the ideal antenna position to be able to identify the transponders in the varicus pcsitions and alignments, you have the option of using more antennas, Multiple antennas mounted at different positions enlarge the identification range. Enabling send pauses If too many neighboring readers send at the same time, this causes overload of the radio channels. In this case, enable the "Intermissions" funetion in the "Settings - General menu item to improve read reliability. Varying the antenna polarization By using linear or circular antennas, you can reduce field cbliteraticn. This improves the reader reliability in difficult radio conditions, The RF63SR and RF680 readers also provide the option of operating the intemal r external antenna both as a lineer, vertical, near horizontal and circular antenna, If more than one polarization is enabled, the pclarization is changed automatically with each inventory. This increases the probability of identificaticn in difficult radio conditions, Changing the antenna position In difficult radio conditions (e.g. where there is a lot of metal) itis possible that the communication between transponders and readers is impaired, You can counter this by changing the position of the antenna relative to the transponder. This also changes the multipath propagation of the radio waves and obliteration is reduced or shifted Use of UHF algorithms In the "Settings - Read pcints! menu item of the WBM, you will find various "Tools" in the
"Algorithms" area that you can use to improve the readiwrite reliability. SIMATIC RF600 System Manual, 06/2019, 131083.D0171-UO01-A22-7618 9 RF6OO system planning 4.8 Chemical resistance of the readers and transponders 48 4814 4814 80 Chemical resistance of the readers and transponders Readers Overview of the readers and their housing materials Resistance to chemicals depends on the housing materials used to manufacture the reader. The following table provides you with an overview of the housing materials that are used with the RF600 readers:
Individual part of the reader Housing material of the reader Top cover Pocan CF2200;
The chemical resistance ofthis plastic is isted in section
"CF 2200", Bottom cover
+ RFGIORIRFGISR:
Pecan CF2200
+ RF@SOR/RFG2ORIRF G26R:
Aluminum Fiber-optic cable Makrolon@2405 Decorative membrane Autotex V200 Socket Brass (copper alloy) cuzn4oPe2 1) Non-relevant component for resistance of complete housing In case of questions please contact Siemens Support (secticn "Service & support
(Page 606)") SIMATIC RF600 System Manual, 06/2019, 481 069-00171-U001 22.7618 RF6OO system planning 4.8 Chemical resistance of the readers and transponders 48.1.2 Pocan CF2200 The following table provides an overview of the chemical resistance of the Pocan CF2200. Table 4-11 Resistance to chemicals - Pocan CF2200 Substance Test conditions Evaluation Concentration (241 | Temperature (C Alechols Ethyl alcoho! : : eee Isopropyl alcoho! : : eee Phenol - :
Glycol : : eee Glycerine : : eee Akalis Sodium hydroxide 10% -
Ammonia solution Diluted : eee Halogens Bromine - :
Chlorine - :
Ketones Acetone : : +
Methyl ethyl ketone (MEK) : : eee General silicone oils, : : eee Hydrocarbons n-hexane. : : eee Gasoline, super (aromatic contents) : : eee Heating oi! : : eee Benzine (aromatic contents) : : eee Benzene : : eee Naphthalene : : eee Nitrobenzene : : eee Toluene : : eee Oils, greases Soya oil : : eee Olive oil : : eee Butter : : eee Motor ols HD, hydraulic oils : : eee Gearbox ails (mild-blena) : : eee Lubricating greases (raller bearing : : eee greases DIN 51825) Lubricating greases (basis: ester oll, : : eee diester oils, phosphate ester, synthetic, oil) SIMATIC RF600 System Manual, 06/2019, 131083.D0171-UO01-A22-7618 at RF6OO system planning 4.8 Chemical resistance of the readers and transponders Substance Test conditions Evaluation Concentration (%] | Temperature [C]
Cleaning products, Curd soap, : : ee Detergent : : ee Gleaning products : : ee Salt solutions Sodium hypochtoride : :
Seawater : : ee Acids Hydrochloric acid 20% : a Nitric acid 2h : ee Phosphoric acid 30% -
Sulfuric acid 2h : ee 20% -
Lactic acid 10% : ee Acetic acid 10% : ee Oleic acid : : ee Silicone ols General silicone oils : : ee
(Other substances Diethyl ether : : ee Urea! : : ee Trichlorethylene - :
Nitrobenzene : : ee Hydrogen peroxide 30% : ee Explanation of the rating Practically resistant Conditionally resistant Less resistant Nat resistant
(Concentrated solution Water sdlution Gad saturated SIMATIC RF600 82 System Manual, 06/2019, 481 069-00171-U001 22.7618 RF6OO system planning 4.8 Chemical resistance of the readers and transponders 48.2 Transponder 48.21 Overview of the transponders and their housing materials The following sections describe the resistance to chemicalls of the various transponders. Resistance to chemicals depends on the housing materials used to manufacture the transponders, The following table provides an overview of the housing materials of the transponders:
Table 4-12 Overview of the housing materials of the transponders, Housing material Transponder Acrylonitrile/butadiene/styrene (ABs) | RFGAST Payamide 12 (PA12) RFe4or Payamide 66 (PA 66) RFe2oT Polyamide 6.6 GF (PA 66 GF) RFe3Or Payethylene terephthalate (PET) RFG4OL RF GOO. Polypropylene (PP) RFe2or Polyphenylene sulfide (PPS) RFesor RFeaZT Polyvinyl chloride (PVC) RFe1or RFG1OT ATEX Note Chemical substances not listed The following sections describe the chemical resistance of the various transponders to specific substances If you require information about chemical substances that are not listed, contact Gustomer Support 48.22 Acrylonitrile/butadiene/styrene (ABS) The following table provides an overview of the chemical resistance of the transponder made of acrylonitile/butadiene/styrene (ABS) Table 4-13 Resistance to chemicals -ABS Substance Test conditions Evaluation Goncentration (2) | Temperature [C]
Acetone : : +
Alechols : : +
Gasoline : : eee Aliphatic hydrocarbons : : eee SIMATIC RF600 System Manual, 06/2019, 131083.D0171-UO01-A22-7618 B RF6OO system planning 4.8 Chemical resistance of the readers and transponders 4.8.2.3 84 Substance Test conditions Goncentration [241 Temperature [C]
Evaluation Aromatic hydrocarbons Weak alkaline solutions Strong alkaline solutions Weak mineral acids Strong mineral acids Parchloroethylene Mineral lubricants Oxidizing acids Weak organic acids Strong organic acids Trichloroethylene Uv light and weathering Hot water
(hydrolysis resistance) Explanation of the rating Hee Resistant He Practically resistant a Conditionally resistant
+ Less resistant Nat resistant Polyamide 12 (PA12) The following table provides an overview of the chemical resistance of the transponder made of polyamide 12. The resistance of the plastic housing to chemicals used in the automobile sector (2.g: cls, greases, diesel fuel, gasoline, etc,) isnotlisted extra Table 4-14 Chemical resistance - Polyamide 12 Substance Test conditions Evaluation Goncentration (%] | Temperature [C]
Battery acid 30% 20C +
Ammonia, gaseous : 60C ee Ammonia, w. cone. 60C ee 10% 60C ee Benzene : 20C ee
: 60C He Bleach solution (12.5% effective chio- : 20C as rine) Butane, gas, liquid : 60C ee Butyl acetate (acetic acid butyl esten : 60C ee SIMATIC RF600 System Manual, 06/2019, 481 069-00171-U001 22.7618
1 2 | User Manual 2 | Users Manual | 4.47 MiB | April 06 2020 / April 07 2020 |
RF6OO system planning 4.8 Chemical resistance of the readers and transponders Substance Test conditions Evaluation Goncentration {%] | Temperature (C) rin) : 20C eee
: Ex +e Calcium chloride, w. : 20C eee
: Ex +e Calcium nitrate, w. 8. 20C eee 8. Ex +e Chlorine - 20C Chrome baths, tech. - 20C Iron salts, w. 8. ee eee Acetic acid, w. 50% 20C Ethyl alcohol, w., undenaturated 5% 20C eee 5% ee +e 50% Ex see Formaldehyde, w. 30% 20C +e 10% 20C eee 10% Ex +e FORMALIN : 20C +e Glycerine : Ex eee Isopropano! : 20C eee
: Ex +e Patassium hydroxide, w. 50% oe eee LYSOL, : 20C +
Magnesium salts, w. 8. oe eee Methyl alcohol, w. 50% oe eee Lactic acid, w. 50% 20C +
10% 20C +e 10% Ex +
Sodium carbonate, w. (soda) 8. oe eee Sodium chloride, w. 8. oe eee Sodium hydroxide : Ex eee Nickel salts, w. 8. ee eee Nitrobenzene : 20C +e
- oe +
Phosphoric acid 10% 20C +
Propane : ee eee Mercury : Ex see Nitric acid 10% 20C +
Hydrochloric acid 10% 20C +
Sulfur dioxide low oe eee Suffurie acid 25% 20C +
10% 20C +e SIMATIC RF600 System Manual, 06/2019, 131083.D0171-UO01-A22-7618 5 RF6OO system planning 4.8 Chemical resistance of the readers and transponders 482.4 86 Substance Test conditions Evaluation Goncentration (%] | Temperature (C) Hydrogen sulfide low 60C ee Carbon tetrachloride 60C ee Toluene 20C ee 60C He Detergent high 60C ee Plasticizer 60C ee Explanation of the rating Hee Resistant He Practically resistant a Conditionally resistant
+ Less resistant Nat resistant wi, Water sdlution os. Gad saturated Polyamide 6.6 (PA 6.6) The following table provides an overview of the chemical resistance of the transponder made of polyamide 6.6 (PA 6.6). It must be emphasized that the plastic housing is extremely resistant to chemicalsin autem obiles (e.g.: oil, grease, diesel fuel, gasdiine, listed separately. Table 4-15 Resistance to chemicals- PA 6.6
) which are not Substance Test conditions Acetone Goncentration [241 Temperature [C]
Evaluation Alcohols Gasoline Aliphatic hydrocarbons Aromatic hydrocarbons Weak alkaline solutions Strong alkaline solutions Weak mineral acids Strong mineral acids Parchloroethylene Mineral lubricants Oxidizing acids Weak organic acids Strong organic acids SIMATIC RF600 System Manual, 06/2019, 481 069-00171-U001 22.7618 RF6OO system planning 48.2.5 SIMATIC RF600 4.8 Chemical resistance of the readers and transponders Substance Test conditions Cones!
nitration [94] | Temp erature [C]
Evaluation Trichlorosthylene Hot water
(hydrolysis resistance) Explanation of the rating eee Resistant te Practically resistant
+ Conditionally resistant
+ Less resistant Not resistant Polyamide 6.6 GF (PA 6.6 GF) The following table provides an overview of the chemical resistance of the transponder made of polyamide 6.6 GF. Different values may apply to the stainless steel bolt head It must be emphasized that the plastic housing is extremely resistant to chemicalsin automobiles (e.g cil, grease, diesel fuel, gasoline, ...) which are not listed separately. Table 4-18 Resistance to chemicals -PA 6.6.GF Substance Test conditions Evaluation Goncentration {%] | Temperature [C]
Ammonia, w. cone. oe eee 20% Ex eee Benzene : Ex eee Bleach solution (12.5 % effective chlo- : eer fine) Butane, gas, Iquid : 20C se Butyl acetate (acetic acid butyl ester) : 20C se Calcium chloride, : 20C eee saturated 10% solution 7 we ws Chlorine : 20C Chrome baths, tech. : 20C Iron salts, w. 8. 20C Acetic acid, w. 10% 20C +
10% Ex Ethyl alcohol, w., undenaturated 40% 20C eee Formaldehyde 30% 20C eee FORMALIN : 20C eee Glycerine : 20C eee Isopropanol : Ex eee Patascium hydroxide, w. 10... 15% 20C +
System Manual, 06/2019, 131083.D0171-UO01-A22-7618 a7 RF6OO system planning 4.8 Chemical resistance of the readers and transponders 88 Substance Test conditions Evaluation Goncentration [2] | Temperature (*C) Magnesium sats, w. : 20C He) Methyl alcohol w. 50% 20C ee Lactic acid, w. : 20C ee
: 20%
Sodium carbonate, w. (soda) : 20C ee Sodium chloride, w. : 20C +
Sodium hydroxide 10 20C ee Nitrobenzene : 20C +
Phosphoric acid 10% 20C Propane : 20C ee Nitric acid 10% 20C Hydrochloric acid 10% 20C Sulfur dioxide low 20C 4 Sulfurie acid 25% 20C 10% 20C Hydrogen sulfide ary 20C ee ary 20%
Carbon tetrachloride 1d 20C ee Nothing specified for stainless steel Explanation of the rating eee Resistant He Practically resistant
+ Conditionally resistant
+ Less resistant Nat resistant cone. (Concentrated solution wi, Water sdlution os. Gad saturated SIMATIC RF600 System Manual, 06/2019, 481 069-00171-U001 22.7618 RF6OO system planning 48.2.6 Polyethylene terephthalate (PET) 4.8 Chemical resistance of the readers and transponders The following table provides an overview of the chemical resistance of the transponder made of polyethylene terephthalate Table 4-17 Chemical resistance - polyethylene terephthalate Substance Test conditions Evaluation Concentration (241 | Temperature [C]
Acetone 100% 20C eee 60% ee Formic acid 10% 20C see 10% Ex 5% 20C +
Ammonium hydroxide 10% 20C Gasoline (normal) : 20C eee Gasoline (super) : Ex eee Benzene 100% 20C eee Chlorobenzene 100% 20C eee Chloroform 10% 20C Gitrie acid 100% 20C eee Cyclohexane 100% 20C eee Diethyl ether 100% 20C eee Dimmethy! formamide 100% 20C eee Dioxane 100% 20C eee 100% Ex Acetic acid cone. 20C eee cone. Ex +
cone. 20C 10% 20C eee Ethanol 36% 20C eee Hydrafluoric acid 50% 20C 5% 20C eee Formaldehyde 30% 20C tee Freon 11 : 20C eee Fruit juices : 20C eee Glycerine : Ex eee Heptane 100% 20C eee Patassium dichromate 10% 20C eee Patassium permanganate 10% 20C eee Copper sulfate 10% 20C eee Methanol 100% 20C eee Methyl ethyl ketone 100% 20C eee Milk : 20C eee SIMATIC RF600 System Manual, 06/2019, 131083.D0171-UO01-A22-7618 9 RF6OO system planning 4.8 Chemical resistance of the readers and transponders 90 Substance Test conditions Evaluation Goncentration [2] | Temperature (*C) Lactic acid 10% 20C ee Sodium chloride 10% 20C ee Antichlor 10% 20C ee Paraffin oil : 60C ee Parchloroethylene 100 % 20C ee Patroleum : 20C ee Phenol 30% 20C +
Propanol diluted 20C ee Nitric acid 40% 20C 36% 20C Hydrochloric acid 100 % 20C ee Carbon disulfide 28% 20C ee Sulfurie acid 30% 20C 5% 60C ee diluted 20C ee Hydrogen sulfide 10% 20C ee Silicon oil : 20C ee Edible fat : 20C ee Cooking oil 100 % 20C ee Carbon tetrachloride 100 % 23 ee Toluene : 20C ee Water : 20C ee Hydrogen peroxide 5% 20C ee 5% 20C ee xylene 10% 20C ee Zine chloride : 20C ee Explanation of the rating Hee Resistant He Practically resistant a Conditionally resistant
+ Less resistant Nat resistant cone. (Concentrated solution SIMATIC RF600 System Manual, 06/2019, 481 069-00171-U001 22.7618 RF6OO system planning 4.8 Chemical resistance of the readers and transponders 48.27 Polypropylene (PP) The following table provides an overview of the chemical resistance of the transponder made of polyethylene terephthalate Table 4-12 Chemical resistance - polypropylene Substance Test conditions Evaluation Concentration (241 | Temperature [C]
Emissions low 50C eee alkaline/containing hydrogen fluoride Jearhon dioxide Emissions containing hydrochlorie acid : 50C eee Emissions containing sulfurie acid : 20C eee
- 50C Battery acid 38% 50C eee Aluminum acetate, w. : 50C eee Aluminum chloride 10% 50C eee Aluminum nitrate, w. : 50C eee Aluminum salts : 50C eee Formic acid 50% 20C eee 50% 50C Aminoacetic acid (alycocoll, glycine) 10% 50C eee Ammonia, gaseous : 50C eee Ammonia 25% 50C tee Ammonia, w. cone. 50C eee 10% 50C eee Arsenic acid, w. : 50C eee Ascorbic acid, w. : 50C eee Gasoline - 20C Benzene - 20C Prussic acid, w. : 50C eee Sodium hypochlorite solution diluted? 20C peers 20%
dituted ? 50C +
20%
50 % 50C +
Borax : 50C eee Batic acid, w. 10% 50C eee Brake fluid : 50C eee Bromine - 20C Butane, gas, iquid technically clean 50C eee Butyl acetate (acetic acid butyl ester) : 20C +
- 50C SIMATIC RF600 System Manual, 06/2019, 131083.D0171-UO01-A22-7618 1 RF6OO system planning 4.8 Chemical resistance of the readers and transponders 92 Substance Test conditions Evaluation Goncentration [2] | Temperature (*C) Calcium chloride, w/ alcoholic : 20C ee
: 50C He Calcium chloride, : 50C ee Calcium nitrate, w. : 50C ee 50% 50C ee Chlorine - 20C Chioroacetic acid : 50C ee Chiorie acia 20% 20C ee 20% 50C Chrome bathe, tech. : 20C Chromium salts : 50C ee Chromic acid 10% 50C ee 20/50 50C +
Chromosulfurio acid cone. 20C Citric acid 10% 50C ee Diesel fuel : 20C ee Diesel oi 100 % 20C ee Diglycole acid 30% 50C ee Iron salts, w. os. 50C ee Vinegar : 50C ee Acetic acid 5/50 50C ee Ethanol 50/86 50C ee thy! alcoho! 26/40 50C ee Fluoride : 50C ee Formaldehyde 10% 50C ee 40% 50C He Formaldehyde solution 30% 50C ee Glycerine any 50C ee aycal : 50C ee Uric acid : 20C ee HD oll, motor oi, without aromatic : 20C ee compounds Heating oil : 20C ee Isopropanol technically clean 50C ee Potassium hydroxide, w. : 50C ee Potassium hydroxide 10/50 50C ee Silicic acid any 50C ee Common salt : 50C ee Carbonic acid saturated 50C ee LYSOL : 50C a Magnesium sats, w. os. 50C ee SIMATIC RF600 System Manual, 06/2019, 481 069-00171-U001 22.7618 RF6OO system planning 4.8 Chemical resistance of the readers and transponders Substance Test conditions Evaluation Goncentration {%] | Temperature [C]
Magnesium salts any 50C eee Machine oil 100% 20C eee Sea water : 50C eee Methanol : 50C eee Methyl alcohol, w. 50% 50C eee Lactic acid, w. : 50C eee Lactic acia| 3185 20C eee 31.85) 50C te 80% 50C eee Engine ail : 20C eee Sodium carbonate, w. (soda) 8. 50C eee Sodium carbonate : 50C eee Sodium chloride, w. os. 50C eee Sodium hydroxide, w. : 50C eee Sodium hydroxide solution, w. : 50C eee Sodium hydroxide solution 30) 45/60 50C eee Nickel salts, w. 8. 50C eee Nickel salts saturated 50C eee Nitrobenzene : 20C +e
: 50C +
Oxalic acid : 50C eee Petroleum technically clean 20C eee Phosphoric acid 1.8130 50C eee 85% 50C te Phosphoric acid, w 20% 50C eee Propane liquid 20C eee Propane gaseous 20C +
Mercury pure 50C eee Crude oi! 100% : +
Ammonium chloride 100% 50C eee Ammoniurn chloride, w. : 50C eee Nitric acia| : 20C 50% 20C +
1.10% 50C eee Hydrochloric acid 1.8120 50C eee 35 % 20C see 35 % 50C te cone. 50C eee SIMATIC RF600 System Manual, 06/2019, 131083.D0171-UO01-A22-7618 2B RF6OO system planning 4.8 Chemical resistance of the readers and transponders 94 Substance Test conditions Evaluation Concentration (%] | Temperature (C) Sulfur dioxide low 50C ee moist 20C ee moist 50C a liquid 50C Sulfuric acid 1.8140) 80 50C ee 20% 20C ee 20% 50C He 60% 20C ee 60% 50C a 5% 20C +
5% 50C turning 20C Hydrogen sulfide low / saturated 50C eee Detergent high 50C ee Water : 50C ee Hydrogen technically clean 50C ee Plasticizer : 20C ee
: 50C a Explanation of the rating Hee Resistant He Practically resistant a Conditionally resistant
+ Less resistant Nat resistant cone. (Concentrated solution wi, Water sdlution os. Gad saturated SIMATIC RF600 System Manual, 06/2019, 481 069-00171-U001 22.7618 RF6OO system planning 4.8 Chemical resistance of the readers and transponders 48.2.8 Polyphenylene sulfide (PPS) The following table provides an overview of the chemical resistance of the transponder made of polyphenylene sulfide (PPS). The transponder has special chernical resistance to solutions up to a temperature of 200 C. A reduction in the mecharrical properties has been observed in aquecus solutions of hydrochloric acid (HCI) and nittic acid (HNO3) at 80 C. The plastic housings are resistant 0 all types of fuel including methanol Table 4-19 Chemical resistance - polyphenylene sulfide (PPS) Substance Test conditions Evaluation Concentration (%] | Temperature [C]
Acetone - 95C ee nbutanal {butyl alcoho) - 20C eee Butanone-2 (methyl ethyl ketone) : ec eee nebutyl acetate : 20C ee Brake fluid - 0 ee Calcium chloride (saturated) : 20C ee Diesel fuel - oC ee Diethyl ether - BC ee Frigene 113 - BC ee Arti-freeze - 120% ee Kerosene - orc ee Methanol - orc ee Engine al - oC ee Sodium chloride (saturated) - oC ee Sodium hydroxide 30% oC ee Sodium hypochlorite 5% oC +
(30 or 180 days) 5% OC ~
Sodium hydroxide solution 30% orc ee Nitric acid 10% BC ee Hydrochloric acid 10% woe i Suifurie acid 10% 23C ee 10% oC 30% BC ee Tested fuels - oC ee FAM testing fuid - are +
ace. toDIN51 604-4, Toluene 4.1, 4-Trichlorosthane - orc eee Xylene Zine chloride (saturated) - Eka +
i mC eee SIMATIC RF600 System Manual, 06/2019, 131083.D0171-UO01-A22-7618 96 RF6OO system planning 4.8 Chemical resistance of the readers and transponders 48.2.9 96 Explanation of the rating Hee Resistant He Practically resistant a Conditionally resistant
+ Less resistant Nat resistant Polyvinyl chloride (PVC) The following table provides an overview of the chemical reaistance of the transponder made of polyvinyl chloride (PVC). Table 4-20 Chemical resistance - polyvinyl chloride (P4} $$$
Substance Test conditions Evaluation Concentration (%] | Temperature (C) Salt water 5% : ee Sugared water 10% : ee Acetic acid, w. 5% : ee Sodium carbonate, w. 5% : ee Ethy! alcohol w. 60% : ee Ethylene glycol 50% : ee Fuel 8 : : ee lace. tols0 1817) Human sweat : : ee Explanation of the rating Hee Resistant Hee Practically resistant a Conditionally resistant
+ Less resistant Nat resistant wi, Water sdlution SIMATIC RF600 System Manual, 06/2019, 481 069-00171-U001 22.7618 49 RF6OO system planning 4.9 Regulations applicable fo frequency bands Regulations applicable to frequency bands Overview of the frequency bands 4.10 4.104 SIMATIC RF600 The frequency ranges are standardized by EPCglobal Inc. Since these are changed regularly, we recommend that you check the current country-specific frequency bands and approvals directly on the Intemet page of EPCglobal You will find the current country-specific frequency bands and approvals on the following Internet page:
EPCglebal (http:/Avww. gst. org/doos/epeglobal/UHF_Regulatons pdf) You will find a list ofall the country-specific approvals for SIMATIC RFID systems on the following Internet page Wireless approvals of SIMATIC RFID systems (htip:/hwww.siemens, com/rfid-approvals) Guidelines for electromagnetic compatibility (EMC) Overview These EMC directives answer the following questions
@ Why are EMC directives necessary?
@ What types of external interference have an impact on the system? @ How can interference be prevented?
@ How can interference be eliminated?
@ Examples ofinterference-free plant design The description is aimed at "qualified personne!"
Configuration engineers and planners who plan system configurations with RFID modules and have to observe the necessary guidelines
@ Installation and service engineers who install the connecting cables in accordance with this description or who rectify defects in this area in the event of interference Note Observe the EMC directives Failure to observe the specifically emphasized notes can result in dangerous conditicns in the plant or the destruction of individual components or the entire plant. System Manual, 06/2019, 131083.D0171-UO01-A22-7618 97 RF6OO system planning 4.10 Guidelines for electromagnetic compatibility (EMC) 410.2 98 What does EMC mean?
The increasing use of electical and electronic devices is accompanied by.
@ Higher component density
@ More switched power electronics
@ Increasing switching rates Lower power consumption of cernponents due to steeper switching edges The higher the degree of automation, the greater the risk ofinteraction between devices Electromagnetic compatbility (EMC) is the ability of an electrical or electronic device to operate satisfactorily in an electromagnetic environment without affecting or interfering with the environment over and above certain limits. EMC can be broken down into three different areas:
@ Intemal immunity to interference Immunity to internal (own) electrical disturbance
@ External immunity to interference:
Immunity to external electromagnetic disturbances Degree of interference emissicn Emission of interference and its effect on the electical environment All three areas are considered when testing an electrical device. The RFID modules are tested for conformity with the limit values required by the CE and RED directives. Since the RFID modules are merely components of an overall system, and sources ofinterference can arise as a result of combining different compenents, certain directives have tobe followed when setting up a plant. EMC measures usually consist of a complete package of measures, all of which need to be implemented in order to ensure that the plantis immune to interference. Note Adherence to EMC directives The plant manufacturer is responsible for the cbservance of the EMC directives; the plant operator is responsible for radio interference suppression in the overall plant. All measures taken when setting up the plant prevent expensive retrospective modifications and interference suppression measures. The plant operator must comply with the locally applicable laws and regulations. They are not covered in this document. SIMATIC RF600 System Manual, 06/2019, 481 069-00171-U001 22.7618 RF6OO system planning 4.10 Guidelines for electromagnetic compatibility (EMC) 410.3 Basic rules Itis often sufficient to follow a few elementary rules in order to ensure electromagnetic compatiblity (EMC) The following rules must be observed:
Shielding by enclosure
@ Protect the device against extemal interference by installing it in a cabinet or housing, The housing or enclosure must be connected to the chassis ground.
@ Use metal plates to shield against electromagnetic fields generated by inductances. @ Use metal connector housings to shield data conductors. Wide-area ground connection
@ Plan ameshed grounding concept Bond all passive metal parts to chassis ground, ensuring large-area and low-HF-
impedance contact
@ Establish a large-area connection between the passive metal parts and the central grounding point intererence) Plan the cable insta Break.thecabling downintacabia groups and install hese separately.
@ Always route power cables, signal cables and HF cables through separated ducts or in separate bundles.
@ Feed the cabling into the cabinet from one side only and, if possible, on one level only. @ Route the signal cables as close as possible to chassis surfaces,
@ Twist the feed and return conductors of separately installed cables
@ Routing HF cables avoid parallel routing of HF cables,
@ Do not route cables through the antenna field. Shielding for the cables
@ Shield the data cables and connect the shield at both ends.
@ Shield the analog cables and connect the shield at one end, e.g. on the drive unit
@ Always apply large-area connections between the cable shields and the shielding bus at the cabinet inet and make the contactwith clamps. SIMATIC RF600 System Manual, 06/2019, 131083.00171-UO01-A22-7618 99 RF6OO system planning 4.10 Guidelines for electromagnetic compatibility (EMC)
@ =~ Feed the connected shield through to the module without interruption. @ Use braided shields, not foil shields. Line and signal filter 4.10.4 100
@ Use only line filters with metal housings Connect the filter housing to the cabinet chassis using a large-area low-HF-impedance connection. Never fix the filter housing to painted surface
@ Fix the filter at the control cabinet inlet or in the direction of the source. Propagation of electromagnetic interference Three components have to be present for interferenoe to occur in a system
@ Interference source
@ Coupling pa
@ Interference sink Figure 419 Propagation of interference Ifone of the cernponents is missing, e.g, the coupling path between the interference source and the interference sink, the interference sink is unaffected, even if the interference source is Tansmitiing a high level of noise. The EMC measures are applied to all three cernponents, in order to prevent malfunctions due tointerference. When setting up a plant, the manufacturer must take all possible measures in order to prevent the occurrence of interference sources:
Only devices fulflling limit class A of VDE 0871 may be used in a plant.
@ Interference suppression measures must be introduced on all interference-emitting devices. This includes all coils and windings.
@ The design of the system must be such that mutual interference between individual components is precluded or kept as small as possible. Information and tips for plant design are given in the following secticns, SIMATIC RF600 System Manual, 06/2019, 48 1069-00171 U001.A22.7618 RF6OO system planning Interference sources Whatinterference can affect RFID?
SIMATIC RF600 4.10 Guidelines for electromagnetic compatibility (EMC) In order to achieve a high level of electromagnetic compatibility and thus a very low level of disturbance in a plant, it is necessary to recognize the most frequent interference sources, These must then be eliminated by appropriate measures, Table 4-21 Interference sources: erigin and effect Interference source Interference resultsfrom___| Effect on the interference sink. Contactor, Contacts: System disturbances Slactronie welvae) Coils Magnetic field Electrical motor Collector Electrical field Winding Magnetic field Electric welding device Contacts Electrical field Transformer Magnetic field, system disturbance, transient currents Power supply unit, switched. | circuit Electrical and magnetic field, system mode disturbance High-frequency appliances _ | Circuit Electromagnetic feld Transmitter Antenna Electromagnetic feld
(e.g. professional mobile radio) Ground of reference potential | Voltage difference Transient currents difference Operator Static charge Electrical discharge currents, electrical field Power cable Current flow Electrical and magnetic field, system disturbance High-voltage cable Valtage difference Electrical field Cabinet 1 irces: Causes and rel edies mA Gauge > 7p Device med) swt seg ror lf apo afeorene current infeed Replact the power supply ce injected i Gable is inadequately shield-
a Alene Biter dable shielding The|reader is n connected Ground the reader to gfound k QL Drive System Manual, 06/2019, 131089.D0171-UO01-A22-7618 101 RF60O system planning 4.10 Guidelines for electromagnetic compatibility (EMC) 410.5 102 Interference source Cause Remedy HF interference over the caused by another reader |+ Position the antennas further antennas apart.
+ Erect suitable damping materials between the antennas,
+ Reduce the power of the readers, Please follow the instructions in the section fnstalation guidalinesireducing the effects of metal Equipotential bonding Potential differences between different parts ofa plant can arise due to the different design of the plant components and different voltage levels. If he plant components are connected across signal cables, transient currents flow across the signal cables. These transient currents can corrupt the signals. Preper equipotential bonding is thus essential
@ The equipotential bonding conductor must have a sufficiently large cross section (at least 40 mm?)
@ The distance between the signal cable and the associated equipotential bonding conductor ardt be as Stall as possible (antenparetfees}-
A fingStrang-epnducter must
@ When ginecifrig bofding strip BS), combing
@ Ihe equipowhtial eduipofetttial bondi Figure 4.20 Equipotential bonding (EBS = Equipetential bonding strip) SIMATIC RF600 System Manual, 062019, 18 1063-00171 U901.A22.7618 RF6OO system planning 410.6 SIMATIC RF600 4.10 Guidelines for electromagnetic compatibility (EMC) The better e-smaller the chance of interference due to protective Barthing ofa plant. Protective htactvoltags in the event of equipment unten of itferences in potential a 2] | \
rating ofyfterterence ites in-stel tubes. However, thisis only id tHrolighlan enviganmens prone to particular interference. Itis usdelly adequate tose cabfes with braided shields In either case, however, correct connection is vital for effective shielding The following generally applies:
@ For analog signal cables, the shield has to be connected at one end on the receiver side @ For digital signals, the shield has to be connected to the enclosure at both ends Since interference signals are Fequenty within the HF range (> 10 kHz), a large-area HF-
proof shield contact is necessary SSrield turned upside down, ugh 180 and rected to connector housing Rubber sieeve Figure 4.21 Cable shielding The shielding bus should be ccnnected to the control cabinet enclosure in a manner allowing good conductance (large-area contact) and must be situated as close as possible to the cable inlet, The cable insulation must be removed and the cable damped to the shielding bus (high-frequency clamp) or secured using cable ties, Care should be taken fo ensure that the connection allows good conductance System Manual, 06/2019, 131083.00171-UO01-A22-7618 108, R600 system planning 4.10 Guidelines for electromagnetic compatibilty (EMC) Figure 4.22 Gonneetion of shielding bus The shielding bus must be connected to the PE busbar. Ifshielded cables have to be interrupted, the shield must be continued via the comesponding connector housing. Only suitable connectors may be used for this purpose. Figure 4.23 Interruption of shielded cables Ifintermediate connectors, which donot have a suitable shield connection are used, the shield must be continued by fixing cable damps at the point of interruption. This ensures a large-area, HF-conducting contact. SIMATIC RF600 104 System Manual, 06/2019, 48 1069-00171 U001.A22.7618 Readers 5.1 Overview The following table shows the most important features of the stationary RF600 readers at a glance Table5-1 Characteristics of the readers Characteristics SIMATIC SIMATIC SIMATIC SIMATIC SIMATIC REGIOR RFGISR RFG5OR REGEOR REGBSR Ar interface! 180 1200-62 standards supported 180 18000-63 Radio profile variants ETSI, FCG, CMIIT ETSI, FCC, ETSI, FOG, OMIT. omur, ARIB (STD-T105) ARIB(STD-T107) LEDs z z Interfaces Number of external = 1 4 1 antennas via RP-
TNC Available internal 1 = 1 antennas Ethernet 1 x M12 connector 1 x RAMS con- 2x M2 connector (4-pin)
(anim) nector (8-pin) according to IEC PAS 61078. 3117 PROFINET, RS-422 1x plug - 1 x plug
(M12, B-pin) (M12, B-pin) 9 Digital inputs - 1 x (M12, S-pin) 4x (M12, 12-pin) log 0: 0..7V log "0" 0.7 log 1": 15..24 log M1" 15...24 Digital outputs Teter = TRATES PTZ TEEN eireut-proob) Power supply 24 DC (M12, &-pin) 20...30 (0.3 A) extemal 24 DC (M12, &-pin) 20.30 (2 A) extemal SIMATIC RF600 System Manual, 06/2019, 131083.D0171-UO01-A22-7618 105 Readers 5.1 Overview Characteristics, SIMATIC SIMATIC SIMATIC. SIMATIC SIMATIC RFGIOR RFGISR RF@50R RF6SOR RFGE5R Max radiated power | 200mWERP | 200mW ERP > 2WERP. 2W ERP >) ETSI in ERP. WERP 2WERP. Max radiated power | 250mWERP | 250mWERP 2 2WERP. 2W ERP) CMIT in ERP. 1WERP 2WERP. Max radiated power | 400mw EIRP | 400 mw EIRP 4W EIRP 4.WEIRP FCC in EIRP 1.4.W EIRP, 4W EIRP Max, radiated power = 5 W EIRP 4W EIRP ARIB in EIRP Max. transmit power 26 dBm 30.dBm. 33.dBm ETSI and OMIT > o4W 1 2w Max. transmit power 26 dBm 30.dBm. 39.dBm Foo? o4w Ww 2w Max, transmit power = 24 dBm 30.dBm ARIB 0.25 w Ww Max. transmission 100 Mbps: 100 Mbps: 100 Mbps:
speed of the commu- or or nications interface 115.2 kbps 115.2 kbps Max. transmission speed reader = transponder Max transmission speed transponder = reader
*) Gonneetion of the readers 2) Internal antenna With a profile with a Tx tran}
A transmission speed of 10}
106 Note that the ARIB STD-106 wireless profile requires a license. When using the SIMATIC RF680R and RF 685R readers in the ARIB STD-106 wireless profile, you need a valid license from the relevant authority SIMATIC RF60O System Manual, 06/2019, 48 1068-00171 U901.A22.7618 Readers 5.2 SIMATIC RF6TOR 5.2 SIMATIC RF610R 52.4 Description 524.4 Overview The SIMATIC RF610R is a stationary reader in the UHF frequency band with an integrated antenna. The maximum transmit power is 400 mW, the radiant power of the intemal antenna is 200 or 250 mW ERP / 400 m\W EIRP. The interfaces (Ethernet, power supply} are located on the lower front edge, These interfaces can be used to connect the reader to the power supply anda PG for parameter assignment The degree of protection is IP67. Description
"PRESENCE" LED (PRE) LED operating display Interface to power supply (RS422), 24V De? xeoDe24v
(M12, &-pin) Ethernat interface, TOPAP: X1 P1
(M12, 4-pin) 8) ele
} Connection of the readers to the ASM 456 communications module via the RS-422 interface. SIMATIC RF600 System Manual, 06/2019, 131083.D0171-UO01-A22-7618 107 Readers 5.2 SIMATIC RFE10R 5.2.1.2 108 Ordering data Table5-2 RFG1OR ordering data Product Adticle number RFGIOR (ETS), 6GT2811-8C10-04A0 RFGIOR 8GT2811-G8C10-1AA0 RFG1OFf OGT 281 1-G8C10-20A0 Table5-3 Ordering data accessories Product Article number SIMATIG antenna holder for RF GOO devices 8GT2290-20810 Connecting cable and connectors
+ Ethernet plug on the reader FastConnect M12 (IP65)
@GK1201-0D620-64A0
+ Ethernet plug Standard |E FastConnect RJ45 120 (IP20)
@GK1E01-18610-2A0
+ Industrial Ethernet cable sm [exviav0-8aHso M127 M12
+ Industrial Ethernet connecting cable 2m [exviari-sTH20 M12-480/ RUGS am [exviartstH30 Bm [exviar1-sTH50
+ Industrial Ethernet cable @XV1840-2AH10 by the meter, green (minimum 20m)
+ Connecting cable reader CM 2m [ecT2ee1-4FH20 M12-480/ M12-180 Sm | eGT2ee1-4FH50 20m | eGT2ee1-4FN20 50m [6GT2e01-4FN5O Wide-range power supply unit for SIMATIC RF systems
+ With EU plug
@GT2898-0AC00
+ With UK plug
(@GT2698-0AC10
+ With US plug
@GT2898-0AC20 2a V connecting cable reader wide-range power supply unit with plug, 5 m:
@GT2691 -PH50 with open ends, 2m
@GT2891 -4EH20 with open ends, 5m
@GT2801 -4EH50 DYD "ident Systems Software & Documentation"
(@GT2080-20A20 SIMATIC RF600 System Manual, 06/2019, 48 1069-00171 U001.A22.7618 Readers 5.2.1.3 5.2 SIMATIC RFETOR Pin assignment of the power supply interface (X80 24VDC) Table 5-4 Pin assignment ofthe RS422 interface (reader end) View ofinterface [Pin Wire colors | Assignment
(M12 socket. Senin) 4 write +24y 20 [Brown Tx 3 | Green ov 49 [Yellow +x 5 | Gray +x eo [Pink Rx
: Unassigned
: Earth (shield) These pins are not required if the reader is operated via Ethernet Note Requirement for extemal power sources infeed ar loop-hreugh ol The reaaanmustxniybe supplied with power by power supply units that meet the requife imited Power Source) and NEC Class 2. Reqtjeraeht or RURAL Ber sources The veddlelnust only be supplied with power by power supply units that meet the requirefrentsot tmttet' power source (LPS) and NEC Class 2 Spcification des sources de tension externes L'alimentation du plot de lecture/criture doit tre exclusivernent assure par des blocs d'alimentation conformes aux spcifications des sources puissance limite (Limited Power Sources LPS) et de NEC dass 2 Notes on connectors and cables SIMATIC RF600 The cables with open cable ends (667289 1-4EH20, 6672891 -4EH50) have an 8-pin M12 plug at one end, while the other end of the cable is open, There are 8 clor-coded single wires there for connecting to external devices The product range includes additional cables of the type 6G72891-4F xxx (2 10 50 mn) with an M12.connector atboth ends. These cables can be used as extension cables, Long cables can be shortened if necessary. NOTICE, Insulate unused single wires Unused single wires must be insulated individually to prevent urwanted connections of signal lines. System Manual, 06/2019, 131083.D0171-UO01-A22-7618 109 Readers 5.2 SIMATIC RFE10R NOTICE For long cables: Adapt the power supply and transmission speed Note that even with long cables, the supply voltage of 24 VDC must always be guaranteed. Note also that the transmission speed on the sefial interface must, ifnecessary, be reduced, SIMATIC standard cables (.g. 66T2891-4N10) have a loop resistance of 160 mObmn /
meter. This results in a vcltage drop of 0.8 volts on the 24V cable for every 10 meters of connecting cable and with a power requirement of 500 mA, Ifthe power requirement increases through the use of the digital inputsioutputs, the vcliage drep increases |
accordingly. 5.2.1.4 Pin assignment of the Industrial Ethernet interface (X1 P1) Table 5-5 Pin assignment ofthe Industrial Ethernet interface (reader enc) View of interface Pin [Pin assignment Mi ket deni) 4 Data line +Tx i 2 [Data tine Rx y 3 [Datatne tx [P77 4 [Data tne 3 Pe 189 I-Fee design of the readegtfio gathing measures are required _+ boo x
. 5.2.2 sa 5.2.2.1 z r 8 z Minirnum mounting clearances of two readers RF610R hasan internal circular antenna, To prevent the an m overlapping, 110 always observe the recommended minimum distances between twoweaders as described in the section "Reciprocal influence of read points (Page 47)"
SIMATIC RF60O System Manual, 062019, 48 1063-00171 U001.A22.7618 Readers 5.2 SIMATIC RFETOR Dense Reader Mode (DRM) The readers can also interfere with each other (secondary fields), if the channels (Reader TX, Transponder TX) ever, gga Srevent a transponder channel overlapping with a reader channel, we recorganend thatthe ermse-fReader libode (DRM) is used
Note Protective cap. that yotlclose the tebtive can Ifyou off use the intemaf extesgal, unusdanten 290 , 7 Antenna diagram RF rN Mt / , 2hie/following radialighrd icsiof theinterhd%ntenna of the RF610R Lea Borth A a i girectional charkcteristics, fe (elevation secfigg) must ia pen prine
! ~~) 100 ofge horizental plane\(azinjuth sects be gensjoed i ina. antenna 180 Figure S-1 Reference system SIMATIC RF600 System Manual, 06/2019, 131089.D0171-UO01-A22-7618 1 Readers 5.2 SIMATIC RFE10R Radiation diagram (ETSI) SIMATIC RF60O 112 System Manual, 06/2019, 48 1063-00171 U001.A22.7618 Readers 5.2 SIMATIC RFETOR Cverview of the antenna parameters Table 5-6 _ Marimum linear eleckgalapertOre anal gt 805 Mz Polarization (circular) Azimuth section Elevation seclion<
Typical antennd gai in the frequeey band Arigaya fis a7 apantenna chafacteristics, levation sqetion) must rere an \aziniuith. ered. \This Basalt in Figure S-3 Reference system SIMATIC RF600 System Manual, 06/2019, 131089.00171-UO01-A22-7618 113, Readers 5.2 SIMATIC RFE10R Radiation diagram (FCC) Pattern of the vertical plane of the antenna fatter of the horizontal plane of the antenna Figure 5-4 Directional radiation pattern of RFG1OR in the FCC frequency band SIMATIC RF600 114 System Manual, 06/2019, 48 1069-00171 U001.A22.7618 Readers 5.2 SIMATIC RFETOR Cverview of the antenna parameters Table 5-7 Maximum linear electrical aperture angle at @15 MHz:
Polarization (circular) Azimuth section 100"
Elevation section 100"
Typical antenna gain asi inthe frequency band 902 to 928 MHz Antenna axis ratio 246 You will find more information on the antennas in the section "Guidelines for selecting RFID UHF antennas (Page $1)"
5222 Intexpretanet Ch a You catifa'atta 1 on the interpretation in the section "Interpretation of radiation patterns (Pag Power supply a2.d Installation / m@unting PL 24 Do > 110/280 VAC Requirement Close uncrsedecoaaacions Note that the readers only hae the specified degree of protection when all connectors are in use or when unused ccnneptors are closed with the protective caps. ad 2pplication
(espy obo tao wl CAUTION Emittedradation "Eeorner The transmitter complies with the requirements of Health Canada and the FCC limit values for subjecting persons toHF radiation, provided that a minimum spacing of 26 cm exists between antenna and person, When the antennas are installed, you must therefore ensure that a minimum spacing of 26 om is maintained between personnel and antennas. Mountingiinstalling the device You can mount the reader in the following ways:
Girectly on a flat surface using the VESA 100 mounting system (lorque 1.5mm). The positions of the mounting holes fer the device are shown in the section Dimension drawing (Page 120) SIMATIC RF600 System Manual, 06/2019, 131063.00171-UO01-A22-7618 115 Readers 5.2 SIMATIC RFE10R 524 116 Configurationvintegration An Ethernet interface is available for integrating the device into system environments/networks. RF610R can be configured via the Ethernet interface and with direct cory heP d-program-the reed g:the following tod!
is e
@ Web Based Management (WBM) CPCUA Gr XML Based User applications Nofa that configuration in parallel is not possible using diferent tools, Simple process conte raf 1} canbe implemented directh the reader-via-he digital inputoutput Figure 5-5 Overview: Configuration of RF61OR readers SIMATIC RF600 System Manual, 06/2019, 48 1069-00171 U001.A22.7618 Readers 5.2 SIMATIC RFETOR 5.25 Technical specifications Table 5-8 Technical specifications of the RF61OR reader 8GT2811-88C10-xAA0 Product type designation SIMATIC RFGTOR Radio frequencies Operating frequency ETSI + B05 TO HSE MZ TF + SOr TS Sze MZ OMIT +220 TS W5 MZ Transmit power ETSI FOO TF FOO OMIT FOO Maximum radiated power
+ ETSI + 200mW ERP a + ano mw EIRP
+ omuT + 250mW ERP Elecirical data Range (iitemal antenna)
+ ETSI + stm
= Foe ~ stm
+ om + stm Protocol 180 18000-62/-65,
- = 7 Frequency accuracy = #10 ppm Channel spacing
+ ETS! + 600 KHz
+ Foc + 500 KHZ
+ om + 250 KHz Modulation methods "ASK: DSB modulation & PR-ASK modulation COUNTY, AMTETESTET OF PSE TMMETTSN PTET HrUTag CapaDIY eS SIMATIC RF600 System Manual, 06/2019, 131083.D0171-UO01-A22-7618 m7 Readers 5.2 SIMATIC RFE10R 8GT2811-68610-xAAO Typical transmission time per byte
+ Write access. + 2s SuppV voTaae AVC EO SOV OCT Maximum permitted current consumption O3A Current consumption (on standby), typical
+ 20V input voltage on the reader + 200mA/4W
+ 24-V input voltage on the reader * ATOmAL AAW
+ SOV PUT YOMEgE On The TeSTET 1 SUTHBTH Current consumption (at 400 mw transmit power), typical 120 input voltage onthe reader + pe0masspw
+ 30V input voltage on the reader + 170mA15.1W Interfaces Power supply 1x M12 (8-pin) Ethernet interface 1x M12 (4-pin), 100 Mbps Mechanical specifications Material Pocan (silicone-free) Color T-Grey Permitted ambient conditions Ambient temperature
+ During operation +25. +55 C.
+ During transportation and storage 1-40... 485C Conditions relating to UL approval + for indoor use only (dry location)
+ Mounting height shall be equal or less than 2 m (M1 classification according UL/IEC 2368-1) La hauteur de montage doit tre gale ou infrieure & 2 m (classfication MS1 selon CEI 2368-1) Degree of protection per Shock resistant to EN 60088-2-27 25507 Vibration to EN 60088-2.6 349 SIMATIC RF600 118 System Manual, 06/2019, 48 1069-00171 U001.A22.7618 Readers 5.2 SIMATIC RFETOR 6GT2811-88C10-xAA0
== JES}. dimensions and weight 140.5 * 133 45 mm ions (W > Hx D) _ 3708 Type of mounting VESA 100 4x screws M4 (1.5 Nm) 133 45 "100 Operation indicator isptay dtandffrds, specific on:
roof fr suitability EN 301 489-1 {-2.2|df EN 01 489-3 V2.1.1 EN 2 302 298 V3.1 8
= FCC CFR 47, Part ffsection 15.247 poly and Sigal s must beybdfaty extra fo { according to wfp0350. all v Flower sources (LPS) and Tr TERE claps 2 Note that, depending on the power consumption, using extension cables 20m (6GT28a1 -
4FIN5O) may lead to a voltage drop on the reader. This voltage drop can mean that the necessary Jnirnum voltage on the reader is below the required 20V
. Thg)values for shock and vibration are maximum values and must not be applied continuously. Values only apply to mounting using screws, SIMATIC RF600 System Manual, 06/2019, 131083.D0171-UO01-A22-7618 119 Readers 5.2 SIMATIC RFE10R 5.2.6 Dimension drawing c All dimensions in rm (4 0.5 mm tolerance) Us SIMATIC RF600 120 System Manual, 06/2019, 48 1069-00171 U001.A22.7618 527 Certificates and approvals 5.2.7.1 CE mark Note Readers 5.2 SIMATIC RFETOR Marking on the readers according to specific approval The certificates and approvals listed here apply cnly if the corresponding mark is found on the readers, Table5-@ 8GT2811-88C10-04A0 Labelin Deserition Conformity with the RED directive 201 4/53/EU Conformity with the ROHS directive 2011/65/EU 5.2.7.2 Country-specific certifications Table 5-10 6GT2811-88C10-1AA0 Labelin, Description Federal Communications Commission FCG GFR 47, Part 15 section 15.247 Radio Frequency Interference Statement This equipment has been tested and found to comply with the limits for 2 Class B digital device, pursuant to Part 15 of the FCC Rules. FCC ID: NXW-RF@10R Industry Canada Radio Standards Specifications RSS-247 Issue 2 IG: 267X-RF61OR, This product is UL-certfied for the USA and Canada. It meets the following safety standards) ULIES 2368-1, 2nd Ed CANICSA 22.2 No 2368-1-14, 2nd Ed Audio'video, information and eernmunication technology equipment -
Part 1: Safety requirements Table 5-11 8GT2811-88010-28A0 Standard
(CMIIT Certification China radio approval Marking on the reader: CMIIT ID: 201 8D Jen SIMATIC RF600 System Manual, 06/2019, 131083.D0171-UO01-A22-7618 124 Readers 5.2 SIMATIC RFE10R 5.2.7.3 122 FCC information Siemens SIMATIC RF610R (FCC): 67261 1-8BC10-1AA0 FCC ID: NXW-RF610R This device complies with part 18 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, induding interference that may cause undesired operation Caution Any changes or modifications not expressly approved by the party responsible for compliance could void the user's authority to operate the equipment. Note This equipment has been tested and found to comply with the limits for a Class B digital device, pursuant to part 15 of the FCC Rules These limits are designed to provide reasonable protection against harmful interference when the equipment is operated in a commercial environment. This equipment generates, uses, and can radiate radio frequency energy and, ifnotinstalled and used in accordance with the instruction manual, may cause harmful interference to radio communications. Operation of this equipment in a residential area is likely to cause harmful interference in which case the user will be required to correct the interference athis own expense FCC Notice To comply with FCC part 15 rules in the United States, the system must be professionally installed to ensure compliance with the Part 18 certification Itis the responsibilily of the operator and professional installer to ensure that only cerlified systems are deployed in the United States. The use of the system in any other combination
(such as codocated antennas transmitting the same information) is expressly forbidden. FCC Exposure Information To comply with FCC RF exposure compliance requirements, the antennas used fer this transmitter must be installed to provide a separation distance of at least 20 cm from all persons and must not be coJocated or operating in conjunction with any other antenna or transmitter. SIMATIC RF600 System Manual, 06/2019, 48 1069-00171 U001.A22.7618 Readers 5.2 SIMATIC RFETOR 5.2.7.4 IC-FCB information Siemens SIMATIC RF610R (FCC): 6GT281 1-6BC10-1AA0 IC: 267X-RF610R This device complies with Industry Canada licence-exempt RSS standard(s), Operation is subject to the flowing two conditions:
(1) This device may not cause interference, and
(2) this device must accept ary interference, including interference that may cause undesired operation of the device Le prsent appereil est conforme aux CNR d'industrie Canada applicables aux appareils radio exempis de licence. Lexploitation est autorise aux deux conditions suivantes
(1) Lappereil ne doit pas produire de brouillage, et
(2) lutiisateur de l'appareil doit aecepter tout brouillage radiolectrique subi, mme si le brauillage est susceptible d'en compromettre le fonctonnement 52.75 Other certificates and approvals ISA-871.04-1985 SIMATIC RF600 System Manual, 06/2019, 131083.00171-UO01-A22-7618 123 Readers 5.3 SIMATIC RF615R:
5.3 SIMATIC RF615R 5.3.4 Description 5.3.1.4 Overview The SIMATIC RF615R is a stationary reader in the UHF frequency band with an integrated antenna, An extemal UHF RFID antenna can be connected via an RP-TNC connecter. The maximum transmit power is 400 mW, the radiant power of the internal antenna is 200 or 250 mW ERP / 400 mW EIRP. A radiated power of up to 1000 mW ERP / 1400 mW EIRP is achieved when the appropriate antennas and antenna cables are used. The interfaces
(Ethernet, power supply, DI/DQ interface) are located on the lower font edge. These interfaces can be used to connect the reader to the power supply, toa digital input/output, and toa PC for parameter assignment. The degree of protection is IP 67. Description RP-TNG interface for connection of an external antenna PRESENCE LED (PRE) LED operating display Interface to power supply (RS422), 24 V Den: xeoDe24v
(M12, &pin) DDO interface: X10 D/Da.
(M12, 5-pin) Ethernet interface, TOP/IP: X1 Pt
(M12, 4-pin)
@| B| S/@\e| EF
* Connection of the readers tothe ASM 456 communications module via the RS-422 interface. SIMATIC RF600 124 System Manual, 06/2019, 48 1069-00171 U001.A22.7618 Readers 5.3.4.2 SIMATIC RF600 Ordering data Table 5-12 RFOISR ordering data 5.3 SIMATIC RFETSR O |
Henig) Bcpanpna ft accessories Product Aicle number RFBISR (ETS) 6GT2611-66C1 0.0840 RFQERTECEI 6GT2611-6CC10-1AA0 RPS PER (CMI, 6GT2811-6CG102AAG
/ WT Product Article number SIMATI@-antefina holder for RFE0O devices
(6GT2890-2A810 Connecting cable and connectors DIDO plug M12 for fabrication
+ Ethemet plug on the reader FastGonnect M12 (IP65)
@GK1201-0D620-64A0
+ Ethemet plug Standard IE FastConnect R45 120 (IP20)
@GK1201-15610-2A0
+ Industrial Ethemet cable sm [exv1a70-2aHs0 M127 M12,
+ Industrial Ethemet connecting cable 2m [exvieri-sTH20 12-4807 RUS am [exviert-stH30 Sm [exvia7l-sTH50
+ Industrial Ethemet cab 1R40.2AH10 by the meter, green (minimum 20m)
@GT2891-4FH20
(6GT2891-4FH50 8GT2891-4FN10 8GT2801-4FN20
+ Connecting cable reader + CM 2m 12-120 / M12-180 5m 10m 20m 50m
(6GT2891 -4FN5O Wide-range power supply unit for SIMATIC RF systems
+ With EU plug
(@GT2898-0AC00
+ With UK plug
(@GT2898-0AC10
+ With US plug
(@GT2898-0AC20 2a V connecting cable reader wide-range power supply uni it
+ with plug, 5 m
(@GT2891-OP H50
+ with open ends, 2 m
@GT2891-4EH20
+ with open ends, 5 m 6GT2891-4EH50 DVD "Ident Systems Software & Documentation"
(@GT2080-2AA20 System Manual, 06/2019, 131083.D0171-UO01-A22-7618 125 Readers 5.3 SIMATIC RFE1SR 5.3.1.3 Pin assignment of the DI/DQ interface (X10 DDQ) Table 5-14 Pin assignment of the DI/DQ interface (reader end) View of interface Pin | Pin assignment
(M1 socket. S-nin Di Common Input Common 2 [pov output Did input 5 | Not connected Note Requirement for external power sources If tHe DI/DQ interface is supplied by means of an external power source, the power source must comply with requirements dhdimitd power sources, (eR) andNEC Class 2 Requipement forexternal powerisqurcey = e GND Ifthe DUBE interface is supplied by an xtemial power source, the powe} source must somply wih requirements on limited payer sourc68@PS ) and NEG Clags 2 Spcification des sources Wb PSSST Sisines En cas dialimentaticn de linterface Dl/DG par une source de tension exteme, ja source de tension doit tre conforme aux spcifications des sources & pulssiansaplimitie (Limited Power Sources LPS) et de NEC class 2 5.3.1.4 Switching scheme for the DI/DQ interface Connection possibilities Yol! can connect the reader in diffa@t'Svays, In general, the outputs and inputs should be connected as follows: zy rin 2:00.0 [ot 52) Output (Ga)
@ |The 20 3Gyig pated aE SA C) aid electronically protected.
@ |The output is electrically isolated via pptocoupler. Power suppiy uni SIMATIC RF600 126 System Manual, 06/2019, 48 1069-00171 U001.A22.7618 Readers 5.3 SIMATIC RF6TER Input (D1)
@ The input is set up with electrical isolation via cptocoupler. Level Low0...7V High: 15... 24V The following diagrams illustrate varicus connection possibilities ges on the DDG interface that are not applied fer atleast 1.5 seconds are Wy the reader. Voltage infeed from external source Figure 5-7 Circuit example 1: Digital input Voltage infeed from external source Figure 5-8 Circuit example 2: Digital output SIMATIC RF600 System Manual, 06/2019, 131083.D0171-UO01-A22-7618 427 Readers 5.3 SIMATIC RFE1SR Voltage infeed fron an extemal source is shown here for 12V as an example. Other voltages are also permissible 5.3.15 Pin assignment of the power supply interface (X80 24VDC) Table 5-15 Pin assignment of the RS422 interface (reader end) View of interface | Pin Wire colors | Assignment
(12 sacket 8. 4 write + 2ay 29 [Brown Tx 3 | Green ov 49 [vetow +e 5 [Gray + Rx 6 [Pink Rx
~ Unassigned
~ Earth (shield)
) These pins are not required ifthe reader is operated via Ethemet Note Requirement for external power sources The reader must only be supplied with power by power supply units that meet the requirements of LPS (Limited Power Source) and NEG Class 2. Requirement for external power sources The reader must only be supplied with power by power supply units that meet the requirementsof limited power source (LPS) and NEC Class 2 Spcification des sources de tension extemes Lialimentation du plot de lecture/criture dcit @tre exclusivernent assure par des blocs dalimentation conformes aux spcifications des sources & puissance limite (Limited Power Sources LPS) et de NEC class 2. Infeed srailoop-through of PROFINET 10 X3. x4
} . Fthemet cable 4 7 V Ow a
(0
(twisted pair) fe 128 SIMATIC RF600 System Manual, 06/2019, 48 1069-00171 U001.A22.7618 Readers 5.3 SIMATIC RFETSR Notes on connectors and cables The cables with open cable ends (6672891-4EH20, 6GT2891-4EH50) have an 8-pin M12 plug at one end, while the other end of the cable is open, There are 8 cdlor-coded single wires there for connecting to external devices The product range includes additional cables of the type 6G72891-4Fxx (2 10.50 mn) with an M12.connector atboth ends. These cables can be used as extension cables, Long cables can be shortened if necessary. NOTICE Insulate unused single wires Unused single wires must be insulated individually to prevent urwanted connections of signal lines. NOTICE or long cables: Adapt the power supply and transmissionspeed Note that even with long cables, the supply valtage of 24 VDC must always be guaranteed Note also that the transmission speed on the serial interface must, ifnecessary, be reduced SIMATIC standard cables (e.g. 66T2891-4FN10} have a loop resistance of 160 mOhm /
meter. This resulis in a voltage drop of 0.8 volts on the 24 V cable for every 10 meters oF connecting cable and with a power requirement of $00 mA. If the power requirement increases through the use of the digital inputsfoutputs, the voltage drop increases accordingly. 5.3.1.6 Pin assignment of the Industrial Ethemetinterface (X1 P1) Table 5-16 Pin assignment of the Industrial Ethernet interface (reader end) View of interface Pin | Pin assignment
(M12 socket denn 1 | Data line +7. 2 |Datatine +Rx 3 | Data line -Tx 4 | Dataline -Rx 53.1.7 Ground connection Due to the potential-free design of the reader, no earthing measures are required SIMATIC RF600 System Manual, 06/2019, 131083.D0171-UO01-A22-7618 129 Readers 5.3 SIMATIC RF615R:
5.3.2 Planning operation 5.3.2.1 Internal antenna Minirnum mounting clearances of two readers RF615R hasan internal circular antenna, To prevent the antenna flds from overlapping, always observe the recommended minimum distances between two readers as described in the gection "Reciprocal influence of read points (Page 47)"
Dense Reader Mode (DRM) TX, Hensponder TX) overlap. In order to prevent a recommend that the Dene Re
internal antenna of the re:
tena connector on the read SIMATIC RF60O 130 System Manual, 06/2019, 48 1063-00171 U001.A22.7618 Readers 5.3 SIMATIC RFETSR Antenna diagram RF615R (ETS!) The following radiation diagrams show the directional characteristics of the internal antenna of the RF615R (ETSI) reader. Fog fre speial presentation of the directional characteristics, the horizontal plane (azinguth oats rettas ie vertical plane (elevation section} must be considered. Thisgesulisif\a spatial ima antenna, nS 2. Figure S-9 Reference system 180 SIMATIC RF600 System Manual, 06/2019, 131083.00171-UO01-A22-7618 134 Readers 5.3 SIMATIC RFE15R Radiation diagram (ETSI) SIMATIC RF60O 132 System Manual, 06/2019, 48 1063-00171 U001.A22.7618 Readers 5.3 SIMATIC RFETSR Cverview of the antenna parameters Table 5-17 MaximumlineareleckgalapertOre angle gt 805 Miz Polarization (circular) Azimuth section Elevation seclion.<
Typical antennd gai in the frequefey band Artggya fis ai 7 aantenna chafacteristics, levation sqetion) must retrain \ aziniuith. ered. \This Basalt in Figure -11. Reference system SIMATIC RF600 System Manual, 06/2019, 131083.00171-UO01-A22-7618 133 Readers 5.3 SIMATIC RFE1SR Radiation diagram (FCC) Pattern of the vertical plane of the antenna Pattern of the horizontal plane of the antenna Figure 5-12 Directional radiation pattern of RFGI5R in the FCC frequency band SIMATIC RF600 134 System Manual, 06/2019, 48 1069-00171 U001.A22.7618 Readers 5.3 SIMATIC RFETSR Cverview of the antenna parameters Table 5-12 Maximum linear electrical aperture angle at S15 MHz:
Polarization (circular) Azimuth section 100"
Elevation section 100"
Typieal antenna gain asi inthe frequency band 902 to 928 MHz Antenna axis ratio 248 Yu will find mere information on the antennas in the section "Guidelines for selecting RFID rN antennas (Page 51)"
Interpretation of radiation pattems You can find detailed information on the interpretation in the section "Interpretation of radiation patterns (Page 215)". 5.3.2.2 External antenna Preassembled standard cables in lengths of 1 m, 3m, m, 10m, 15 m, 20 m and 40 m are available to connect the antenna. The read range is limited by the cable loss. The maximum range can be achieved with the cable 6G72815-0BH10 (length 1 m) since thishas the lowest cable loss, Examples of possible antenna reading point configurations
@ A data source with an extemal antenna for a reading point.
@ Asan altemative, a data source with an internal antenna for a reading point. SIMATIC RF600 System Manual, 06/2019, 131083.D0171-UO01-A22-7618 135 Readers 5.3 SIMATIC RF615R:
5.3.3 Installing/mounting Requirement NOTICE Close unused connectors Note that the readers only have the specified degree of protection when all connectors are inuse or when unused connectors are closed with the protective caps. fat subjecting pases to AF between antenna and persor that a minimum spacing of 2 CAUTION Emitted radiatiogrep 7 The wait ei hipalth Canada and the FCC limit values ire provi e.g rimum spacing of 25 om exist fennas are installed, you must therefore ensure rdintcnod botvoen perscnnel and antennas, Mounting/installing the device You can mount the reader in the fol diregty on, fal gurfaca.using th The'pesitioreetah mounting hol raw PAGE TE User pplication
(using OPC UA oF XML commands), J ethene!
PROFINE 136 Power supply BAW DO > 110/230 V AC Antenna RF6xA ining system ( Nm) mension wteosom
SIMATIC RF6OO System Manual, 06/2019, 48 1069-00171 U001.A22.7618 5.3.4 SIMATIC RF600 Readers 5.3 SIMATIC RFETSR Configuration/integration An Ethemetinterface is available for integrating the device into systern environmentsinetworks. RF615R can be configured via the Ethemet interface and with direct is BFEg ie ie
@ Web Based Management (WBM) CPC UA OF XML based User appications Note frat configuration mn parallel is not possible using diferent tools Simple process tick raf }.can_be implemented diracth the reader via the digital inpuvoutput Figure 5-13 Overview: Configuration of RFG15R readers System Manual, 06/2019, 131083.D0171-UO01-A22-7618 137 Readers 5.3 SIMATIC RFE1SR 5.3.5 138 Technical specifications Table 5-19 Technical specifications of the RF615R reader 8GT2811-6CC10-xAA0 Product type designation SIMATIC RFGTSR Radio frequencies Operating frequency
+ ETSI + 885t0a6a MHz
+ Foo + 902 to. 928 MHZ
+ cmt + 920 10.995 MHz Transmit power
+ ETSI + 3...400 mw
+ Foo +3. 400 mW cut : 400 on Maximum radiated power per antenna
+ ETSI +1000 mw ERP
+ Foo +1400 mw EIRP MIT + 1000 mw ERP El CMT 7S Pratocor TSO T8000-627-65 Transmission speed = 300 kbps Frequency accuracy =STOpEMT a pci
+ ETSI + BOOKIE
+ Foo + 800 KHZ MIT + 250 KHZ Modulation methods Multitag capability ASK: DSB modulation & PR-ASK modulation encoding, Manchester or Pulse Interval (PIE) Yes SIMATIC RF600 System Manual, 06/2019, 48 1069-00171 U001.A22.7618 Readers 5.3 SIMATIC RFETSR
@GT2811-86610-xAAO Typical transmission time per byte
+ Write access + 2ms Maximum permitted current consumption O38 Maximum permitted current consumption via DUDA interface
+ <20C + 05a
+ 65C + 0338 Current consumption (on standby), typical
+ _20 input voltage on the reader
+ 200mA/ 4 W I VON TE-OT Ie TERTIET Currant consumption (at 400 mW tranemit powen), typical
+ _20 input voltage on the reader
+ 260mA/5.2W
+ 24'V input voltage on the reader + 220m Ps reader Interfaces Arena connectors Tx RP-ING. Power supply Tx M12 (&-pin) DIDO interface 1x M12 (5-pin) Digital inputs Digital outputs Ethemet inter 7 1 41x M12 (4-pin). 100 Mbp:
Mechanical specifications Material Color SIMATIC RF600 System Manual, 06/2019, 131083.D0171-UO01-A22-7618 Pocan (silicone-free) TGrey 139 Readers 5.3 SIMATIC RFE1SR s operation
+ _ During transportation ang storage oe relaTTGo UL aor 24 00%
"' Design, dimensions and weight Dimensions (W * H * D) L Gpeeceailtre Ya rE ctor Status display Standards, specifications, approvals Proof of suitability MTEF 1) Measured at the output of the antenna socket 8GT2811-6CC10-xAA0
+25. +55 C. 6-40... +8'C for indofighse only (dry location) ILgFfequal or less than 2m (MSt classincatt fing ULIEC 2368-1) e gale ou on|MS1 selon CEI 4155 139 45 mm arog VESA 100 4x screws M4 (
LEDs 1.5 Nm) 1 LED (enclosure, all-round) EN 901 489-1 V2.2.0/ EN 301 489-3 V2.1.1/
EN 302 208 V3.1.1 FOC CFR 47, Part 15 section 15.247 29 years 2) All supply and signal voltages must be safety extra low voltage (SELW/PELY according to EN 60950). All voltage sources must meet the requirements of limited power sources (LPS) and NEC Glass 2. Note that, depending on the power consumption, using extension cables 20 m (GT2891-
4FN5O) may lead toa vottage drop on the reader. This voltage drop can mean that the necessary minimum voltage on the reader is below the required 20 V. 3) The values for shock and vibration are maximum values and must not be applied continuously These values only apply to mounting using screws, 140 SIMATIC RF600 System Manual, 06/2019, 48 1069-00171 U001.A22.7618 Readers 5.3 SIMATIC RF6TSR 53.6 Dimension drawing ce All dimensions in rm (+ 0.5 mm tolerance) ots SIMATIC RF600 System Manual, 06/2019, 131083.00171-UO01-A22-7618 141 Readers 5.3 SIMATIC RF615R 5.3.7 Certificates and approvals 5.374 CE mark Note Marking on the readers according to specific approval The certificates and approvals listed here apply only if the corresponding mark is found on the readers Table 5-20 6GT2611-6CC10-04A0 Labelin Deseription Conformity with the RED directive 201 4/53/EU Conformity with the ROHS directive 2011/65/EU 5.37.2 Country-specific certifications Table 5-21 @GT2611-66C10-14A0 Labelin, Deserintion 142 Federal Communications Commission FOG GFR 47, Part 15 section 15.247 Radio Frequency Interference Statement This equipment has been tested and found to comply with the limits for a Class B digital device, pursuant to Part 15 of the FCC Rules. FOC ID: NXW-RFGISR Industry Canada Radio Standards Specifications RSS-247 Issue 2 IG: 2O7X-RFGIBR, This product is UL-certfied for the USA and Canada. It meets the following safety standardis):
ULIIEG 62368-1, 2nd Ed CANICSA 22.2 No, 62368-1-14, 2nd Ed Audiolvideo, information and communication technology equipment -
Part 1: Safety requirements Table 5-22 @GT2811-66010.28A0 Standard CMIIT Certification China radio approval Marking on the reader: CMIIT ID: 201 90.0356. SIMATIC RF600 System Manual, 06/2019, 48 1069-00171 U001.A22.7618 Readers 5.3 SIMATIC RFETSR 5.3.7.3 FCC information Siemens SIMATIC RF615R (FCC). 6GT2811-6CC10-1AA0 FCC ID: NXW-RF615R This device complies with part 15 of the FCC rules. Operation is subject to the flowing two conditions:
(1) This device may not cause harmful interference, and
(2) this device must accept any interference received, including interference that may cause undesired operation Caution Any changes or modifications not expressly approved by the party responsible for compliance could void the user's authority to operate the equipment. Note This equipmenthas been tested and found to comply with the limits fer a Class B digital device, pursuant to part 16 of the FCC Rules, These limits are designed to provide reasonable protecticn against harmful interference when the equipment is operated in a commercial environment. This equipment generates, uses, and can radiate radio frequency energy and, if not installed and used in accordance with the instruction manual, may cause harmful interference to radio communications. Operation of this equipmentin a residential area is likely to cause harm ul interference in which case the user will be required to corect the interference at his own expense FCC Notice To comply with FCG part 15 rules in the United States, the system must be professionally installed to ensure compliance with the Part 15 certification Itis the responsibility of the operator and professional installer to ensure that only certified systems are deployed in the United States. The use of the system in any other combination
(such as co-located antennas transmiting the same information) is expressly ferbidden FCC Exposure Information To comply with FCC RF exposure compliance requirements, the antennas used for this transmitter must be installed to provide a separation distance ofat least 20 om from all persons and must not be co-located cr operating in conjunction with any other antenna or transmitter. SIMATIC RF600 System Manual, 06/2019, 131083.D0171-UO01-A22-7618 18 Readers 5.3 SIMATIC RFE15SR 5.3.7.4 5.375 ISA-871.04-1985 144 IC-FCB information Siemens SIMATIC RF615R (FCC): 6GT281 1-6CC10-1AA0 IC: 267K RFS15R This device complies with Industry Canada licence-exempt RSS standard(s}. Operation is subject 10 the following hwo conditions:
(1) This device may not cause interference, and
(2) this device must aocept any interference, including interference that may cause undesired operation of the device Le prsent appareil est conforme aux CNR d'Industrie Canada applicables aux appareils radio exempts de licence. L'exploitation est autorise aux deux conditions suivantes
(1) Lappareil ne doit pas produire de brouillage, et
(2) lutiisateur de l appareil doit acoepter tout brouillage radiolectrique subi, mme si le brouillage est susceptible den compromettre le fonctionnement. Industry Canada Notice To reduce potential radio interference to other users, the antenna type and its gain should be so chosen that the equivalent isotopically radiated power (e.i.,p.) is not mere than that permitted fr suecesstl communica) Other ct ding to ISA-S71.04-1985 Airborne SIMATIC RF60O System Manual, 06/2019, 48 1063-00171 U001.A22.7618 Readers 5.4 SIMATIC RF65OR 5.4 SIMATIC RF650R 544 Description 5.4.4.4 Overview The SIMATIC RFESOR isa stafonary reader in the UHF frequency band without an integrated antenna. Up to four extemal UHF RFID antennas can be connected via RP-TNC connectors, The maximum transmit power is 1000 mW at the reader output, A radiated power ofup to 2000 mW ERP / 4000 mW EIRP is achieved when the appropriate antennas and antenna cables are used. The interfaces (Ethemet, power supply, DI/DQ interface) are located on the lower front edge, These interfaces can be used to connect the reader to the power supply anda PG for parameter assignment The degree of protection is IP30 Description RP-TNG interfaces for connecting up to 4 extemal antennas LED operating display DDO interface: X10 D/DQ.
(naz, 12-pin) Interface to power supply (RS422), 24V De? xeoDe24v
(M12, &-pin) Ethernet interface, TOPMP: X1 Pt
(RKB, &-pin) a] 8] ee] oF SIMATIC RF600 System Manual, 06/2019, 131083.D0171-UO01-A22-7618 145 Readers 5.4 SIMATIC RF650R 5.41.2 146 Ordering data Table 5-23 Ordering data RF@50R Product Adticle number RFESOR (ETS), 6GT281 1-GABZ0-OAAO RFESOR (FCC) 6GT2811-GABZO-1AA0 RFESOR (CMIIT) 6GT2811-GABZO-2AAO RFESOR (ARIE) 6GT281 1-GABZ0-4AA0 Table 5-24 Ordering data accessories Product Adticle number Holders for securing the reader DIN rai 35287-9290) 87-300 Spar dag saa
@GT2290-0A800 SIMATICMyGaWhereyfor RF 60D devices
@GT2690-2A810 Soret gta aCoinectors DIDO eable connector open cable ends 5m [eGT2e91-0cHs0
+ Ethernet plug Standard IE FastConnect RJ45 120 (IP20)
@GK1201-15610-28A0
+ Industrial Ethernet cable tom exviaro-sani0, R45 RIMS
|+ Industrial Ethemet connecting cabl 2m__|exvie71-STH20 M12-480/ RUGS am [exviartstH30 Bm [exviar1-sTH50
+ Industrial Ethernet cable @XV1840-2AH10 by the meter, green (minimurn 20 rm)
* Connecting cable reader = OM Bm | 6GT2agi-4FH20 M12-180/ M12-180 3m [ecT20614FHS0 tom [eat2aet-aento 20m | eGT2ee1-4FN20 50m [6GT2e01-4FN5O wi ide-range power supply unit for SIMATIC RF systems
+ With EU plug
@GT2898-0AC00
+ With UK plug
(@GT2698-0AC10
+ With US plug
@GT2898-0AC20 SIMATIC RF600 System Manual, 06/2019, 48 1069-00171 U001.A22.7618 Readers 5.4 SIMATIC RFE5SOR Preduat Renee 24 V comecting cable reader widevange power supply unit
> wth pug, 8 m eaT2801 OP HO with open ends, 2m 8GT2891 -4EH20 Buln operands, Sin MPG T2R91-4EH50
"ibnt Systeme Software A Documentation yee) BST20EO2AAZ0 coat 5 _ ; Pink 5.41.3 Pig gpignMnent Qin {ODUD@),, A ESS wa rf 8=bs rin sustarmenr ore DUD neace treabi6Hlne) mi kl 1 Rebbe the digtal npuifouputs (not galan-
ically isolated) 2 | VCC (output to he supply of the data mput/outputs [not salvenicaly lolsted) 3 [Bo.Cormon Output Goramon 4 [D00/ output 00 5 [oor routputor 8 [Doz / Outpt o2 7 [bos /outpt 03
& | Diovinput 00 2 [DI Cormmon input Common to [oitrinpuot it [Diz/input o2 i2_|bisvinputos Note Requirement for extemal power sources When the DV/D@ interface is supplied with power by an extemal power source, this source must meet the requirements for LPS (Limited Power Sources) and NEC Class 2 SIMATIC RF600 System Manual, 06/2019, 131083.00171-UO01-A22-7618 147 Readers 5.4 SIMATIC RF650R Color scheme of the DI/DQ standard cable with M12 connector The following figure shows-the-saler seh: he BHD: dard-eabh
(6GT2891-0CH50). You can use the color scheme to assign the wire colors to the pins. Digital Ping: B10 e Pin 0:14 Wiring diagram: N12 connectot Pin 1: D12 Figu|
wey Power Sot al 5.479" """|ovSwitchingachente for the D/DQ interfage Sor Bin 42.01 |
Sofa Connection possibilities Youlcan connect the reader in different ccninected as follows:
s. In pores the outputs and inputs should be Pin 1 GND Output (D0 0... 3)
@ Each outputis rated for 0.5R Guten! Bhd is electronically protected. digital outputs can be operated simultaneously each with up 10.0.8 A (up to 1 Ain total). With a total current > 1 A, you need touse an external power supply.
@ The outputs are optically isolated through optocouplers. input (D1 0... 3) The inputs are optically isolated through optecouplers.
@ Level Low: 0... 7V High: 18... 24 SIMATIC RF600 148 System Manual, 06/2019, 48 1069-00171 U001.A22.7618 Readers 5.4 SIMATIC RF65OR The following diagrams illustrate various connection possibilities. Note Minimum time between changasio Note-that changes on the-RlD drier
[fokdSlected by the reader. Voltagethfeed Power sunply unt}
" ov Hace tyatare notapplied fer at least 1.5 seconds are Pin 10-014 |
al source (no laatripallist ce Pin z.o13]o ES Pin 8: DI commen |) Hoy. t24
. or GND platiog)-. |
OND or sov.. 824 Power supply uni Pin& 010 |O} oN FTE 18 Clroperample |: DakatinoUe. 1. oy . yey LAltetative connection possibilities way . H5v Power . (VCC) toPin PONG:
supply unt} Re GND to busbar inputs ov ri 6 15V Roawn pin 12.013 [0 Pin 8: DI Common |} a Power supply ur SIMATIC RFE0D System Manual, 06/2019, 131083.D0171-UO01-A22-7618 149 Readers 5.4 SIMATIC RF650R Voltage infeed from external source rey ov e Fina: 02 Figure 5-47 Circuit example 2: Digital inputs Pin?: 003 Pinte Pin 2: vee, Pin 3: D0 Com Voltage infeed from external source with various voltages Figure 5-48 Circuit example 3: Digital inputs 150 SIMATIC RF600 System Manual, 06/2019, 48 1069-00171 U001.A22.7618 Readers Voltage infeed from internal source wey Power surply unt ov Wo. e Fina: p00 |) SIMATIC RF600
- Pin 5:04
* Pin 6:00?
oe pint: v0.3 |}
Pin 3: DG Gomme 5.4 SIMATIC RF65OR 42 GND Figure 5-19 Circuit example 4: Digital outputs Alternative connection possibilities:
@ Pin 1 GND toPin3D0 Common
@ Pin2 (VCC) tobusbar outputs System Manual, 06/2019, 131083.D0171-UO01-A22-7618 Power supply unit 151 Readers 5.4 SIMATIC RF650R Voltage infeed from external source Digitel YO Power susply unit ve FineD09 10 ov Pin:BO1 Pins:t02 0 Pin 7602 {0}
BS pane
[24 | supply un Fin 3:00 Gomman | Of 1ey GND Figure 5-20 Circuit example 5: Digital outputs Voltage infeed fron an extemal source is shown here for 12V as an example. Other voltages are also permissible SIMATIC RF600 152 System Manual, 06/2019, 48 1069-00171 U001.A22.7618 Voltage infeed from external source with various voltages Readers 5.4 SIMATIC RF65OR Figure 8-21 Circuit example 6: Digital outputs 5.41.5 Pin assignment of the power supply interface (X80 24VDC) Table 5-26 Pin assignment of the RS422 interface (reader end) View ofinterface [Pin Wire colors | Assignment
(M12 socket 8.1 4 white +24y 2 [Brown Tx 3 | Green ov 49 [Yellow +x 5 | Gray +x e [Pink Rx
- Unassigned
- Earth (shield) SIMATIC RF600 System Manual, 06/2019, 131083.D0171-UO01-A22-7618 These pins are not required ifthe reader is operated via Ethernet. 183, Readers 5.4 SIMATIC RF650R Note Requirement for external power sources The reader must only be supplied with power by power supply units that meet the requirements of LPS (Limited Power Source) and NEC Class 2. Requirement for external power sources hi plied with power by power supply units that meet the ted poaldr source (LPS) and NEC Class 2 tension extemes The reader must 6 requirementsof li Spcification des L'alimentation du'plot de leclure/criture doit tre exclusivement assure par des blocs dalimentation conformes aux spcifications des sources & puissance limite (Limited Power Sources LPS} et de NEC class 2 Notes on connectors and cables 154 The cableswith open cable ends (6G72891-4EH20, 66T2891-4EH50) have an 8-pin M12 plug at one end, while the other end of the cable is"open". There are 8 color-coded single wires there for connecting to external devices, Tha product range includes additional cables ofthe type 6GT2001-4F mx (2 19 60 m) with an M12 connector at both ends. These cables can be used as extension cables, Long cables can be shortened ifnecessary. NOTICE Insulate unused single wires Unuged single wires must be insulated individually to prevent unwanted connections of sigddanes NOTICE For long cables: Adapt the power supply and transmission speed Note that even wit long cables, the supply voltage of 24 VDC must always be guaranteed. Note also that the transmission speed on the serial interface must, ifnecessary, be reduced SIMATIC standard cables (.9. 66T2891-4N10) have a loop resistance of 160 mObmn /
meter. This results in a vcltage drop of 0.8 volts cn the 24V cable for every 10 meters of connecting cable and with a power requirement of 500 mA, Ifthe power requirement inoreases through the use of the digital inputs/outputs, the veltage drep increases accordingly. SIMATIC RF600 System Manual, 06/2019, 48 1069-00171 U001.A22.7618 5.4.1.6 5.44.7 SIMATIC RF600 Readers 5.4 SIMATIC RFE5OR Pin assignment of the Industrial Ethernet interface (X1 P1) Tableg-P7 Pin assignment ofthe Industrial Ethernet interface (reader end)
Pin | Pin assignment Transmit Data (+) Transmit Data (3 Receive Data (+) Terminated Terminated Receive Data (.) Terminated Terminated HS Note Use of Siemens cables We recommend that you only use criginal Siemens cables and connectors (refer to the section "Ordering data (Page 146)") to connect to the Ethernet socket of the reader. If plug-in connectors from other manufacturers are used, it may be difficult or even impossible to remove the plug from the reader. Grounding connection On the top of the reader there is a blind drill hcle (M4 x 8) for grounding. Tighten the screw with atorque of 1.5 Nm WARNING Hazardous voltage due tolightning stikes Death or serious injury may occur as a resuit of lightring strikes to antennas mounted outside buildings If the reader is operated with antennas mounted cutside buildings, itis imperative that the reader is electically connected to the ground potential NOTICE Installation only in protected areas The antenna can be installed in the protected part of a building. When implementing your lightning protection concept, make sure you adhere to the VDE 0182 or IEC 62305 standards. System Manual, 06/2019, 131089.00171-UO01-A22-7618 155 Readers 5.4 SIMATIC RF650R 5.42 5.424 Ground connection
(@_ [Screw (m4 x 8)
(o) _| Flat washer
(9 _| cable ug
(@) | Contact washer Planning operation Antennajread point configurations You can connect up to four external antennas to the RF6S0R reader. The standard setting is that an antenna is connected when the reader is started, When connecting multiple antennas, note the information in the section "Specified minimum and maximum spacing of antennas (Page 46)"
With the WBM, you can set up various different configurations of antennas and/or reading points as required. Based cn the number of data sources and subsequent assignment of the antennas, mary tasks can be accomplished. Examples of possible antenna reading point configurations 156
@ Four data sources each with one antenna for four different reading points. @ Two data sources each with hwo antennas for small portals
@ One data source with 4 antennas for large portals You will find further information in the online help of the products, SIMATIC RF600 System Manual, 06/2019, 48 1069-00171 U001.A22.7618 Readers 5.4 SIMATIC RF65OR 5.43 Installationmounting Requirement specified degree of protection when all connectors are are closed with the protective caps Fequirements of Health Canada and the FCC limit values bn, provided that a minimum spacing of 26 cm exists the antennas are installed, you must therefcre ensure maintained between personnel and antennas, owing ways:
je VESA 100 mounting system (torque 1.5 Nm) Jes for the device are shown in the section Dimension SIMATIC RF600 System Manual, 06/2019, 131069.00171-UO01-A22-7618 187 Readers 5.4 SIMATIC RF650R Mounting the reader on a DIN/stan dard rail Toble 5-28 DING Description 1. ] Place the spring in the groove. 2. | Mount the holder using the supplied Tor screws. When mounting the holder, make sure that the angled tip is postioned above the spring in the groove. SIMATIC RF60O 158 System Manual, 06/2019, 48 1063-00171 U001.A22.7618 Readers 5.4 SIMATIC RFESOR Description SIMATIC RF600 System Manual, 06/2019, 131083.00171-UO01-A22-7618 3 Fitthe lower part of the locking mechanism of the reader into the DIN rail Tobe able to mount the reader on or remove it from the DIN rail, pull down the holder mounted in step 2 159
1 2 | User Manual 3 | Users Manual | 4.89 MiB | April 06 2020 / April 07 2020 |
Readers 5.4 SIMATIC RFESOR Description SIMATIC RF600 System Manual, 06/2019, 131083.00171-UO01-A22-7618 3 Fitthe lower part of the locking mechanism of the reader into the DIN rail Tobe able to mount the reader on or remove it from the DIN rail, pull down the holder mounted in step 2 159 Readers 5.4 SIMATIC RF650R Table 5-29 Installation on a standard rail Description 1. | Mount the two adapter pieces using the supplied Tor screws. mer supply VG > 410/230 VAC Frocess control Antenna RFGA x digital input x digital output Fit the upper part of fhe To nism of the:
reader into the stanflard rail Secure the readegusing th Joited-head Diagnostics PC for contiguration'diagrosi
= using a Web User pplication
(esing OFC UA or XML commands up 10.40 m etheme: (rePAPY aalamiod SIMATIC RF600 160 System Manuel, 06/2019, 18 1069-00171 U001-A22-7618 544 SIMATIC RF600 System Manual, 06/2019, 131083.D0171-UO01-A22-7618 Readers 5.4 SIMATIC RF65OR Configuration/integration An Ethemetinterface is available for integrating the device into systern environmentsinetwerks. The RF650R can be configured via the Ethernet interface and with ai eR "
tools:
guro-and programthe road ho fol
@ using Web Rased Management (WRM)
@ OPC UA or XML based user applications Note that configurattorrin-paratietis not possibte using differenttools-Simpte process tro raff ted-direct!
inputs/ourputs, 161 Readers 5.4 SIMATIC RF650R 5.45 Technical specifications 162 Table 5-30 Technical specifications of the RF5OR reader 6GT2811-6AB20-x4A0 Product type designation SIMATIC RFOSOR Radiat Operating frequency
+ ETSI + B05 TO HSE MZ
+ Foo + 902 10.628 MHZ OMIT + 92010925 MHZ
+ _ARIB (STD-T107)
+9204 to 923.4 MHz Transmit power
+ ETSI +3 01000 mw
+ Foo + 340 1000 mw
+ OMIT +30 1000 mw
+ _ARIB (STD-T107)
+3 10250 mw Maximum radiated power per antenna
+ ETSI + 2000mW ERP
+ Foo +4000 mW EIRP
+ oMIT + 2000 mw ERP.
+ _ARIB (STD-T107)
+ 500m EIRP. Electrical data Range
+ ARIB (STD-T107) + <4m Prerocor TSU-TEOOU-EET Te mn = 7 Fr SIMATIC RF600 System Manual, 06/2019, 48 1069-00171 U001.A22.7618 Readers 5.4 SIMATIC RF65OR 6GT2811-GAB20xAAO Channel spacing
+ ETSI
+ so0KHz HTOSITETION TrRETNOTS RD SE TOTUTaTOR PRS THOTUETOT encoding, Manchester or Pulse Interval (PIE) Mutitag capability Yes Typical transmission time per byte
+ Write access + _2ms
+ Bead ot Supply voltage Maximum permitted current consumption 2a DC (20... |0V DE) 2A Maximum permitted current consumption via TA DOC TATE UFFERY CanSUMpTION Ton Standby), Wpreal
* BOW input voltage on the reader
+ _24V input voltage on the reader
+ BEOmAT AAW
+190 mAs 4.5.0 I VON TE-OT Ie TERTIET -s50 TT 7 ZW TNpUTVOTagE On THe TET 370 7 SOW THpUTVOTagE On THe TERT SOUT ET Current consumption (at 2000 mW tranemit powen), typical
* BOW input voltage on the reader
+ _24V input voltage on the reader
+ 30 input voltage on the reader
+ B1OmAy 122 W
+ 500mA/120W.
+ atomas12.3W Interfaces SIMATIC RF600 System Manual, 06/2019, 131083.D0171-UO01-A22-7618 Antenna connectors Power supply DUDG interface Digital inputs Digital outputs Ethemet interface 4x RP-TNG. 1x M12 (8-pin) 4x M12 (12-pin) 4 4 4% RAMS (8-pin), 100 Mops 163 Readers 5.4 SIMATIC RF650R 164 ecnatfctggaetiestions >
a
+ Upper part of housing
+ Lower part of housing opt patcthows |
Lent ofiareany |
led ambient gendtion Ambiedt terbper. ~ |
+{ Iburing operation
+ |Buring tranBertation and storage Degree of protection Shock 1 z yer Vibratins according To EN GOOR-2-6 Design, dimensions and weight Dimensions (W * H * D) Weight Type of mounting
+ Mounting rail
+ VESA 100 Operation indicator Status display Standards, specifications, approvals Proof of suitability MTEF 1) Measured at the output of the antenna socket 6GT2811-6AB20-x4A0
+ Pocan (silicone-free) 89_Alurninum 258 * 258 * 80 mm 24ka
+ Hanging
+ 4x M4 screws (1.5 Nm) LEDs EN 901 489-1 V1.92/EN 301 489-3 V1.6.1/
EN 302 208-1/-3.V1.4.1 FOC CFR 47, Part 15 section 15.247 3t years 2) All supply and signal voltages must be safety extra low voltage (SELV/PELY according to EN 60950). The voltage sources must meet the requirements of limited power sources (LPS) and NEC Glass 2. Note that, depending on the power consumption, using extension cables > 20m (@GT2891 -4FN5O) may lead to a voltage drop on the reader. This voltage drop can mean that the necessary mini-
mum voltage on the reader is below the required 20V. 3) The values for shock and vibration are maximum values and must not be applied continuously These values only apply to mounting using screws, SIMATIC RF600 System Manual, 06/2019, 48 1069-00171 U001.A22.7618 Readers 5.4 SIMATIC RFESOR 5.4.6 Dimension drawing ce ie(isa FIpqp-23 Dimension drawing RF@50R nsions in mm (0.5 mm tolerance) us SIMATIC RF600 System Manual, 06/2019, 131083.00171-UO01-A22-7618 165 Readers 5.4 SIMATIC RF650R 5.47 Certificates and approvals 9 Notewaree Marking on the readers according to specific approval eo eae The certificates and approvals listed here on only if the @Q2espondinG fhark is found on the readers, a Table 5-31 6GT2811-GAB20-0AA0 -
Labelin, Description Conformity with the RED directive 201 4/53/EU Conformity with the RoHS directive 201 1/65/EU
[Ie South Aftica radio approval:
Radio Equipment Type Approval India India wireless approval Marking on the reader: No. NR-ETA/1587 Radio approval for Russia, Belarus, Kazakhstan Table 5-32 6GT2811-6A820-1 AAO Labelin, Description Federal Communications Commission FOG GFR 47, Part 15 section 15.247 Radio Frequency Interference Statement This equipment has been tested and found to comply with the limits for a Class B digital device, pursuant to Part 15 of the FCC Rules. FOG ID: NXW-RF60OR2 tea anaca Raae Standards Specifications RSS-247 Issue 2 Ic: 267x-RF@D0R2 This product is UL-certfied for the USA and Canada. It meets the following safety standards):
UL 6090-1 - Information Technology Equipment Safely - Part 1 General Requirements CSA CB2.2 No. 609501 - Safety of Information Technology Equip-
ment UL Report E 115352 166 SIMATIC RF60O System Manual, 06/2019, 48 1063-00171 U001.A22.7618 Readers 5.4 SIMATIC RF65OR Labeling Deserition Brazil radio approval Marking on the reader (6GT2At 1-6A520-1AA0) Statement about approval Este equipamento opera em cardter secundaria, sto , naotem direto a protegao contra intererncia prejudicial, mesmo de e5-
tagdes do mesmo tipo nao pode causar inerferncia a sistemas operando em carater primrio. Reader certificate: ANATEL 2692.15.4794 KCC Certitcation Type of equipment ag 7171 (29-8 ee Stl 71x} hy Class A Equipment (Industrial Broadcasting & Communication Equipment O} 22 BES (ag) A abe G7] 7] 24 BF Obs} ee BAR Ol Be SA Met oh, FY SIS) 3 GO| ASAE AS SASS god. This equipment is Industrial (Class A) electromagnetic wave sultabil-
ity equipment and seller or user should take notice oft, and this equipment is to be used in the places except for home, Ceriicate of the reader:
MSIP-CMM-RFS-RFE50R oa4ea7 Argentina radio approval Registro de la COMISION NACIONAL DE COMUNIGACIONES ROPSISH 41026 Mexico radio approval CERTIFICADO DE HOMOLOGACION, IFETEL Australia radio approval This product meets the requirements of the AS/NZS 3548 Norm, Table 5-33 6GT2611-6A520-2AA0 Standard simaTic RF600 System Manual, 06/2019, /81069.00171-U001-A22-7618 167 Readers 5.4 SIMATIC RF650R 5.474 168 Standard CMIIT Certification China radio approval Marking on the reader: CMIIT ID: 201 4.13987, FCC information Siemens SIMATIC RF6SOR (FCC): 667281 1-6AB20-1AA0 FCC ID: NXW-RF6OOR2 This device complies with part 18 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, induding interference that may cause undesired operation Caution Any changes or modifications not expressly approved by the party responsible for compliance could void the user's authority to operate the equipment. Note This equipment has been tested and found to comply with the limits for a Class B 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 envircnment. This equipment generates, uses, and can radiate radio frequency energy and, ifnotinstalled and used in accordance with the instruction manual, may cause harmful interference to radio communications. Operation of this equipment in a residential area is likely to cause harm ful interference in which case the user will be required to correct the interference athis own expense FCC Notice To comply with FCC part 15 rules in the United States, the system must be professionally installed to ensure compliance with the Part 18 certification Itis the responsibilily of the operator and professional installer to ensure that only cerlified systems are deployed in the United States. The use of the system in any other combination
(such as codocated antennas transmitting the same information) is expressly forbidden. FCC Exposure Information To comply with FCC RF exposure compliance requirements, the antennas used fer this transmitter must be installed to provide a separation distance of at least 20 cm from all persons and must not be coJocated or operating in conjunction with any other antenna or transmitter. SIMATIC RF600 System Manual, 06/2019, 48 1069-00171 U001.A22.7618 Readers 5.4.7.2 SIMATIC RF600 5.4 SIMATIC RF65OR IC-FCB information Siemens SIMATIC RF650R (FCC): 66281 1-6AB20-14A0 IC: 267X-RF6OOR2 This device complies wih Industry Canada licence-exempt RSS standard(s), Operation is subject to the flowing two conditions:
(1) This device may not cause interference, and
(2) this device must accept ary interference, including interference that may cause undesired operation of the device Le prsent appereil est conforme aux CNR d'industrie Canada applicables aux appareils radio exempis de licence. Lexploitation est autorise aux deux conditions suivantes
(1) Lappereil ne doit pas produire de brouillage, et
(2) lutiisateur de l'appareil doit aecepter tout brauillage radioslectrique subi, mme si le brauillage est susceptible den compromettre le fonctonnement Industry Canada Noto To reduce potential radio interference to other users, the antenna type and its gain should be so chosen that the equivalent isotropically radiated power (e..r.p.) is not more than that permitted for successful commffication aformation for antennas with a gain less than 6 dBi rate with the SIMATIC RF620A antenna 902-928, the well as the SIMATIC RF660A antenna 902-928 listed 55 dBi combination with other antennas or antennas having prohibited for use with this device ption for antennas with a gain greater 6 dBi lation, Antennas with a gain greater 6 dBi may be the radiation power of 4000 mW E.1.R.P. This ittrthe SIMATIC RF642A antenna 902-928 exceeding p restriction that the RF power at the input of the ing relaticn: RF power (dBm) < 30 dBm (antenna Bystem configurations fer antennas having a gain pretibtted for use with this device, The required antenna System Manual, 06/2019, 131083.00171-UO01-A22-7618 169 Readers integrated antenna. Up to four external UHF RFID antennas can be connected via RP-TNC The maximum transmit power is 2000 mW at the reader output. A radiated power of up to 2000 mW ERP / 4000 mV EIRP is achieved when the appropriate antennas and antenna cables are used. The interfaces (Ethemet, power supply, DI/DQ interface) are located on the lower front edge. These interfaces can be used to connect the reader to the power supply Description RP-TNG interfaces for connecting up to4 extemal antennas LED status display LED operating display DDO interface: X10D/DQ.
(nz, 12-pin) Interface to power supply (RS422), 24 V De xeoDe24v
(M12, &pin) Ethernet interface, TOP/IP: X1 Pt
(M12, 4-pin) Ethernet interface, TOP/IP: X1 P2
(M12, 4-pin)
} Connection of the readers tothe ASM 456 communications module via the RS-422 interface. SIMATIC RF600 5.5 SIMATIC RF680R 5.5 SIMATIC RF680R 5.5.4 Description 55.14 Overview The SIMATIC RF68OR is a stationary reader in the UHF frequency band without an connectors. and toa PC ora controller for parameter assignment The degree of protection is IP 65 Pos.
170 System Manual, 06/2019, 48 1069-00171 U001.A22.7618 Readers 55.1.2 SIMATIC RF600 Ordering data Table 5-34 Ordering data RF68OR 5.5 SIMATIC RF68OR Product Article number RFGBOR (ETS) 6GT2611-6AA10-0AA0 RF GOR (FCC) 6GT2811-6AA10-1AA0. RF GEOR (CMIIT)
(6GT2611-6AA10-2AA0 RFGBOR (ARIB)
(6GT2811-6AA10-4AA0 Table 5-35 Ordering data accessories Product Article number Holder set for securing the reader
+ DIN rail 735 ($7-1200)
+ 87-300 standard rail
+ 87-1500 standard rail
(@GT2890-0A800 SIMATIC antenna holder for RF60O devices
@GT2890-2A810 Connecting cable and connectors
+ DIDO cable connector 5m open cable ends
@GT2891-OCH50
+ Ethemet plug on the reader FastGonnect M12 (IP65)
@GK1201-0D620-64A0
+ Ethemet plug Standard IE FastConnect RMS 120 (IP20)
@GK1201-15610-2A0
+ Industrial Ethernet cable Sm [exviart-sTHEO M2 RMB
+ Industrial Ethernet cable Sm [@xv1870-8AH50 wiz) M2
+ Industrial Ethernet connecting cable 2m [exviari-sTH20 ao MP9 HS 3m___[exviari-sTHs0 ook Sm | exviart-STHBO
[arene ernet cable Ba1840-2AH10 Sore om 12 Xone cig cable reader + CM 2m | ecT2601-4FH20 SMT EFBO 1 12-180 Sm | ecT2a91-4FH50 10m [eaT2691-4FN10 20m _ | ecT2801-4FNZ0 50m | 6GT2801-4F NBO System Manual, 06/2019, 131083.D0171-UO01-A22-7618 11 Readers 5.5 SIMATIC RF680R 5.5.1.3 172 Product Article number Connecting cable GM reader/ extension cable for 24 V connecting cable R422, M12 connector, &-pin socket
+ 2m 6GT2061 -AFH20 _ 5m 6GT2061 AF HO
+ 40m @GT2EG1 -AFNIO
+ 20m @GT2061 -AFN20
+ 50m 6GT2061 -AFNEO Wide-range power supply unit for SIMATIC RF systems
+ With EU plug
@GT2898-0C00 3 ua SGT2AG8-OACIO
+ SYM US plug SF RTIREGS-0AC20 24 V Boeing cabl je-ral ply unit Talow eg ieeei F150 eGripeg1 AE H20 inecters are unused) CRFDESS-4AA10 Blue Gray pink
+ Red blue DVD "Ident Systems Software & Documentation
(@GT2080-2AA20 Pin assignment of the DI/DQ interface (X10 DDQ) Table 5-36 Pin assignment of the DWDQ interface (reader end) View of interface Pin | Pin assignment
(M1 socket 12-nin) 1 [GND (output to supply of the digital inputsoutputs [not galvan-
ically isolated) 2 |CC (output to the supply of the digital inputs/outputs [net galvanically isolated!) 3 [DO Common Output Gemmen 4 |D00/ Output 00 5 [DO1/ Output ot 6 |D02/ Output o2 7 |D03/ Output 03 a [D1 0/Input 00
@ [DI Gommon/ Input emmen 10 |DI1 /Input ot 11 | D1 2 /Input o2 12 |D13 Input 03 SIMATIC RF600 System Manual, 06/2019, 18 1063-00171 U901.A22.7618 Readers 5.5 SIMATIC RF68OR Note Requirement for extemal power sources When the DV/D@ interface is supplied with power by an extemal power source, this source must meet the requirerents for LPS (Limited Power Sources) and NEC Class 2 Color scheme ofthe BYBrstardarc cable with +2-conmector The following figure shows the coler scheme of the DI/DQ standard cable from Siemens
(8GT2891-0CHS0). You can use the color scheme to assign the wire colors to the pins, Digital vO Pine: DI0 a
- +24
= Pin 10:4 -
wey | on tyale -
Power Finpreg-24 Wiring diagram: Wid qingetor ~ * |
susply unt ov
: in 12,018 55.1 peti scheme for the DI/DG in ter Pin DI.Commen Connection possibilities You can connect the readarlir Hf 1 Ways. In general, the outputs and inputs should be connected as flows Pin z:vec |) Output (D0 0... 3)
@ Each output is rated for 0.5 A clrrent and is electronically protected 4 cigital outputs can be operated simultaneously each with up to 0.8 A (up to 1 Ain total) With a total current > 1 A, you need to use an extemal power supply. The outputs are optically isolated through optocouplers, SIMATIC RF600 System Manual, 06/2019, 131083.D0171-UO01-A22-7618 1B Readers 5.5 SIMATIC RF680R input (D1 0... 3) e h optocouplers, e tT tow 0. 7 Digital vO 4 a Pin@ 010 |G} ee HBV. #24 The agrams illustrate various copmection possibilies, or GND in mes no vay Not pone Mini etween changals 11: 012 -
sueplvunt] |. Note that chanyes cn the DI/DQ interface that are not applied for at least 1.5 seconds are TOTHetentet py the reader. P12 O18
= GND or HEV. H24y Pin 9: DI common Voltage infeed from internal source (no electrical isola Power supply uni Digital Pin 8: DIO 226V Pin 10: D1 4 - s28y 24v + Pin 11:12 - wy Power <f supply unt}
ov sv fo sl Pin 12; DIS tsv Figure 5-25 Pircuit exar Lag inputs:
Pin 2: DI Common, a Altemative connection pessibilities
@ Pin2 (VCC) to Pin 9 DI Common
@ Pin 1 GND to busbar inputs Power supply ur SIMATIC RF600 174 System Manual, 06/2019, 48 1069-00171 U001.A22.7618 Readers Voltage infeed from external source wey Pow supply unt ov e Pin a: 00
+ Pins: n01 2 Fin Figure 8-26 Circuit example 2: Digital inputs
- Pin?: 003 Pinte ND Pin 2: vee, Pin 3: 00 Comm Voltage infeed from external source with various voltages Figure 8-27 Circuit example 3: Digital inputs SIMATIC RF600 System Manual, 06/2019, 131083.D0171-UO01-A22-7618 5.5 SIMATIC RF68OR 175 Readers 5.5 SIMATIC RF680R Voltage infeed from intemal source wey sept "Fin: 00J0)
" ov
: Fin 604 e Fin 6:60 2 Pin 3: DG Gomme oe pint: v0.3 |}
OQ & QS | pene 12 | supply unit GND Figure 5-28 Circuit example 4: Digital outputs Altemative connection possibilities:
@ Pint GND toPin3 DO Common
@ Pin2 (VCC) to busbar outputs 176 SIMATIC RF600 System Manual, 06/2019, 48 1069-00171 U001.A22.7618 Readers 5.5 SIMATIC RFEBOR Voltage infeed from external source Digital vO Fewer + Fina:000|0|
surly int Fin : 604 Fin 6:02 |o Fin 7:00 |o}
SS | poser
[-24v | supply uni Pin 3: DO Gommon | OF fas 1 ono Figure 8-29 Circuit example 5: Digital outputs Valtage infeed fremn an external source is shown here for 12 V as an example. Other voltages are also permissible SIMATIC RF600 System Manual, 06/2019, 131083.D0171-UO01-A22-7618 TT Readers 5.5 SIMATIC RF680R Voltage infeed from external source with various voltages Figure 5-30 Circuit example Digital outputs 5.5.15 Pin assignment of the power supply interface (X80 24VDC) Table 5-37 Pin assignment of the RS422 interface (reader end) View of interface | Pin Wire colors | Assignment
(12 sacket 8. 4 white +2ay 29 [Brown Tx 3 | Green ov 49 [vetow +e 5 [Gray + Rx 6 [Pink Rx
~ Unassigned
~ Earth (shield)
) These pins are not required ifthe reader is operated via Ethemet 178 SIMATIC RF600 System Manual, 06/2019, 48 1069-00171 U001.A22.7618 Readers 5.5 SIMATIC RF68OR Note Requirement for extemal power sources The reader must only be supplied with power by power supply units that meet the requirements of LPS (Limited Power Source) and NEC Class 2. Requirement fofrextematpower sources The eavermusteniy-be supplied with power by power supply units that meet the requpethesso limited power source (LPS) and NEC Class 2 Spiicai@h des Soirsesate tension externes ey L'alin fe lecture/criture doit tre exclusiverent assure par des blocs d'alimentation conformes aux spcifications des sources puissance limite (Limited Power Sources LPS) et de NEC dass 2 Notes on connectors and cables SIMATIC RF600 he cables with open cable ends (66T2891-4EH20, 6672891-4EHS0) have an &-pin M12 ig at one end, while the other end of the cable is "open". There are 8 color-coded single wires there for connecting to external devices The product range includes additional cables of the type 6G7T2891-4Fxxx (2 10 50 mn) with an M12.connector atboth ends. These cables can be used as extension cables, Long cables can be shortened if necessary. NOTICE Insulate unused single wires Unused single wires must be insulated individually to prevent urwanted connections of signal lines. NOTICE For long cables: Adapt the power supply and transmission speed Note that even with long cables, the supply valtage of 24 VDC must always be guaranteed Note also that the transmission speed on the serial interface must, ifnecessary, be reduced SIMATIC standard cables (e.g. 66T2891-4FN10) have a loop resistance of 160 mOhm /
meter. This results in a voltage drop of 0.8 volts on the 24 V cable for every 10 meters of connecting cable and with a power requirement of 00 mA. If the power requirement increases through the use of the digital inputsfoutputs, the voltage drop increases, accordingly. System Manual, 06/2019, 131083.D0171-UO01-A22-7618 179 Readers 5.5 SIMATIC RF680R 5.5.1.6 Pin assignment of the Industrial Ethemet interface (x1 P1; X1 P2) Table 5-38 _ Pp assignment of the Industrial Ethernet interface (reader end) VieWoFi ct Pin ]Pin assignment Data tine +Tx Data tine #Rx Data tine -Tx. Data Ine -Rx 55.17 Groundga n On the top of the reader there is a blind dill hole (M4-x 8) for grounding, Tighten the screw witha torque of 1.5Nm WARNING Hazardous voltage due to lightning strikes Death or serious injury may occur as a result of lightning strikes to antennas mounted outside buildings Ifthe reader is operated with antennas mounted outside buildings, itis imperative that the reader is electrically connected to the ground potential NOTICE Installation only in protected areas The antenna can be installed in the protected part of a building. When implementing your lightning protection concept, make sure ycu adhere to the VDE 0182 or IEC 62305 standards. SIMATIC RF60O 180 System Manual, 06/2019, 48 1069-00171 U001.A22.7618 Readers 5.5 SIMATIC RF68OR Ground eennection A
(@_ [Screw (m4 x8)
(o) _| Flat washer
(9_| cable wa
(@) | Contact washer 55.2 Planning operation 55.21 Antenna/read point configurations You can connect up to four extemal antennas to the RF 680R reader. The standard setting is that an antenna is connected when the readers started. When connecting multiple antennas, note the information in the section "Specified minimum and maximum spacing of antennas (Page 46)"
With the WBM, you can set up various different configurations of antennas andlor reading points as required. Based on the number of data sources and subsequent assignment of the antennas, many tasks can be accomplished. Examples of possible antenna reading point configurations
@ Four data sources each with one antenna for four different reading points. @ Two data sources each with two antennas for small portals,
@ One data source wit 4 antennas for large portals, You will find further information in the online help of the products. SIMATIC RF600 System Manual, 06/2019, 131083.D0171-UO01-A22-7618 181 Readers 5.5 SIMATIC RF680R 5.5.3 Installation/mounting Requirement NOTICE Close unused connectors Note that the readers only have the specified degree of protection when all connectors are inuse or when unused connectors are closed with the protective caps. lose any connectors on the reader that you are not using with protective caps. You can order the protective cap set using the article number specified in the section "Ordering data"
CAUTION Emitted radiation The transmitter complies with the requirements of Health Canada and the FCG limit values for subjecting persons to HF radiation, provided that a minimum spacing of 26 cm exists i i ntennas are installed, you must therefore ensure ined between personnel and antennas. SIMATIC RF60O 182 System Manual, 06/2019, 48 1063-00171 U001.A22.7618 Readers 5.5 SIMATIC RF68OR 55.3.1 Moun ting/Installation bowing ways:
Je VESA 100 mounting system (torque 1.5 Nm) Jes for the device are shown in the section Dimension Table 5-39 DIN rail mounting Description 1. Place the spring in the groove. SIMATIC RF600 System Manual, 06/2019, 131083.D0171-UO01-A22-7618 183 Readers 5.5 SIMATIC RF680R Description 184 2 Mount the holder using the supplied Torx screws, When mounting the holder, make sure that the angled tip is posttioned above the spring in the groove. Fit the lower part ofthe locking mechanism of the reader into the DIN rail To be able to mount the reader on or remove it from the DIN rail, pull down the holder mounted in step 2 SIMATIC RF600 System Manual, 06/2019, 48 1063-00171 U001.A22.7618 Table 5-40 Installation on a standard rail Readers 5.5 SIMATIC RF68OR Description Tor screws, 1. |Mount the two adapter pieces using the supplied Diagnostics PC for configuationdiagnost cs using a Web User application
(using OPC UA 0 XML a STEP? nctbpty RasieiProfees:onal EN arzs0 v A
(118 Portal Pp tovesow Ac oY Ell thg upper part of halealipasapeghanim of the into the standard ral
{Bedued the reader pplied sltted-head Ethernet screws. Ethernet (TCPIIP) /
UpTOZOTT par antenna PROFINET SIMATIC RF600 System Manual, 06/2019, 131083.00171-UO01-A22-7618 185 Readers 5.5 SIMATIC RF680R 5.5.4 Configurationvintegration An Ethernet interface is available for integrating the device into system environmentsinetworks, The RF680R can be configured via the Ethernet interface and with dire he PB 6 di pregrem-the read: gthe-fellowing tools:
@ SIEP 7 Basic/Professional (TA Portal)
@ crviaEtheNeviP Web Based Manag ANBM:
e * pp Note -that-configurati Jlelis not possibl: different tool: 7 contrdls (e.g. a traffic signal) can be implemented directly using the reader via four digital inpotSouTpuTs:
Figure 5-31 Overview: Configuration of RF620R readers SIMATIC RF600 186 System Manual, 06/2019, 48 1069-00171 U001.A22.7618 Readers 5.5 SIMATIC RF68OR 55.5 Technical specifications Table 5-41 Technical specifications of the RFG2OR reader 8GT2811-GAA10-xAAO Product type designation SIMATIC RFGSOR Radio tt Operating frequency
*ETST + BOS To BEE MZ
+ Foc + 0210828 MHZ
+ omit + 2010925 MHz
+ _ARIB (STD-7108) + S168MHzto 920.4 MHz Transmit power
+ ETS! + 3te.2000 mw
+ Foc + 30.2000 mw
+ OMT: + 30.2000 mw
+ _ARIB (STD-T108) + 301000 mw Maximum radiated power per antenna
+ ETS! * 2000 iW ERP
+ Foc +4000 mW EIRP
+ om +2000 mit ERP
+_ARIB (STD-T106) +4000 mw EIRP Elecirical data Range
+ ARIB (STD-T108) + sam PTOTSCOT TSO TEOOOEI SIMATIC RF600 System Manual, 06/2019, 131083.D0171-UO01-A22-7618 187 Readers 5.5 SIMATIC RF680R 188 BGT 2A11-6AA10-xAAO Channel spacing
+ ETSI
+ Bo0kKHz Mommaton metroas RDS MOTTaNON & PRA MOTTON encoding, Manchester or Pulse Interval (PIE) Mutitag capabiity Yes Typical tranemission tine per byte
+ _Write access + 2ms
+ Read sot Supply voltage Maximum permitted current consumption 24 v DC (20... 30V DC\2 2A Maximum permitted current consumption via TAD DyooTrenace CCuTTant consumption Ton Standby), TypICaT
+ 20V input vollage on the reader
+24 V input voltage on the reader
+ BOAT EA W
+ 190mA/4.5.W Cure et ce i INPUT Vora OM the TESTET 5077 7 EW MpUL YOM ON TNE TESTET + SBOE
+ SOV PUT YOMEgE On The TeSTET 30077 Current consumption (at 2000 mW transmit power), typical
+ 20V input voltage on the reader
+ 24-V input voltage on the reader
+ 30V input voltage on the reader Interfaces Antenna connectors Power supply DVDG interface Digital inputs Digital outputs Ethernet interface
+ B1OmAT 2.2
+ 500mA/12.0W
+ afomas12.9W 4x RP-TNG. 1x M2 (B-pin) Ax M12 (12-pin) 4 4 2x M12 (4-pin), 100 Mbps SIMATIC RF600 System Manual, 06/2019, 48 1069-00171 U001.A22.7618 Readers 5.5 SIMATIC RF68OR 6GT2811-6AA10-xAAO Mechanical specifications Material
+ Upper part of housing + Pocan (silicone-tree)
+ Lower part of Rousing + AGRO Color
+ Upper part of housing + ThGrey
+ Lower part of housing + sinver Permitted ambient conditions Ambient temperature
+ During operation + 25..455+
+ During transportation and storage +40... 485C Degree of pretection iPes Shock resistant to EN 60068-2-27 25.50%
Vibrations according to EN 60068-2-6 319%
Design. dimensions and weight
& _ (258 x 258 x BOmm Sees Vaplghtrc asa 24 kg Type of mounting
+ Mounting rail 80) + Hanging ESA 100 _, .
{operation indicate | i LEDs Status dbsetay SIMATIC RF600 System Manual, 06/2019, 131083.D0171-UO01-A22-7618 189 Readers 5.5 SIMATIC RF680R 6GT2811-6AA10-24A0 Standards, specifications, approvals Proof of suitability EN 301 489-4 V1.92/EN 301 489.3 V1.6.1/
EN 302 208-1/-3.V1.4.1 FOC CFR 47, Part 15 section 15.247 MBE.
) Measured at the output of the antenna socket 2 all supply and signal voltages must be safety extra low voltage (SELV/PELY according to EN 60950). The voltage sources must meet the requirements of limited power sources (LPS) and NEC Glass 2. Note that, depending on the power consumption, using extension cables > 20m (6GT2891 -4FN5O) d toa voltage drop on the reader. This voltage drop can mean that the necessary mini-
tage on the reader is below the required 20V. 2 keep tothe switching schemes of the DDG interface. the (loge for shock and vibration are maximum Ylues and must nt be apled continuous These values only aly to mounting using serews
|e 190 Fe Us Figure 5-32 Dimension drawing RF68OR All dimensions in mm ( 0.5 mm tolerance) SIMATIC RF60O System Manual, 06/2019, 48 1063-00171 U001.A22.7618 Readers 5.5 SIMATIC RFEBOR 55.7 Certificates and approvals
) aanote Marking on the readers according to specific. rr eee The certificates and approvals 3. era apply cnBBORe bon4sBAding mark is found on the readers, Table 5-42 6GT2811-AA10-08A0 Labelin, Description Conformity with the RED directive 201 4/53/EU Conformity with the RoHS directive 201 1/65/EU South Africa radio approval 4 Radio Equipment Type Approval India|
India wireless approval Marking on the reader: No. NR-ETA/1588 Radio approval for Russia, Belarus, Kazakhstan Table 5-43 6GT2811-AA10-1AA0 Labelin, Description Federal Communications Commission FCG GFR 47, Part 15 section 15.247 Radio Frequency Interference Statement This equipment has been tested and found to comply with the limits for a Class B digital device, pursuant to Part 15 of the FCC Rules. FCC ID: NXW-RFGOOR2 CGiysiy carat rea Standards Specifications RSS-210 Issue 7, June 2007, Section 2.2, AB IG: 267X-RFGOOR2, Model: RFG20R This product is UL-certfied for the USA and Canada. It meets the following safety standardis) UL 60950-1 - Information Technology Equipment Safety - Part 1 General Requirements CSA C22.2 No. 60950 -1 - Safety of Information Technology Equip-
ment UL Report 115352 SIMATIC RF600 System Manual, 06/2019, 131083.00171-UO01-A22-7618 191 Readers 5.5 SIMATIC RF680R Labeling Deseription Braail radio approval Marking on the reader (6GT2A1 1-6AA10-1AA0) Statement about approval Este equipamento opera em carater secundarie, isto , ndo tem direito a protego contra interferncia prejudicial, mesmo de e5-
tages do mesmo tipo e nao pode causar interferncia a sistemas operando em cardter primario. Reader certificate: ANATEL 2802-15-4794 KCC Certfication Type of equipment Ag 7121 (298 ee Sl 21} mh Class A Equipment (industrial Broadeasting & Cornmunieation Equipment) Of IZ BRB iaay MAMA a7] Leo BF Obs} Sete AIBA} |
Ba Ss Het oh, US1e| XO ASAE Ae SASS euch This equipment is Industrial (Class A) electromagnetic wave suttabi-
ity equipment and seller or user should take notice of , and this equipment isto be used in the places except for home, Certcate of the reader:
MSIP.CMM-RF5-RF6EOR casei Argentina radio approval Registro de la COMISION NACIONAL DE COMUNIGAGIONES RCPSISIN4-1926.81 Mexico radio approval CERTIFICADO DE HOMOLOGAGION, IFETEL Australia radio approvat This product meets the requirements of the AS/NZS 3548 Norm, Table 5-44 6GT2611-6AA10-24A0 Standard CHIT Certfication China radio approval Marking on the reader: CMIT ID: 2014016986 192 SIMATIC RF600 System Manual, 06/2019, 48 1069-00171 U001.A22.7618 Readers 5.5 SIMATIC RF68OR 55.7 FCC information Siemens SIMATIC RFG80R (FCC). 6GT2811-GAA10-1AA0 FCC ID: NXW-RF600R2 This device complies with part 15 of the FCC rules. Operation is subject to the flowing two conditions:
(1) This device may not cause harmful interference, and
(2) this device must accept any interference received, including interference that may cause undesired operation Caution Any changes or modifications not expressly approved by the party responsible for compliance could void the user's authority to operate the equipment. Note This equipmenthas been tested and found to comply with the limits fer a Class B digital device, pursuant to part 16 of the FCC Rules, These limits are designed to provide reasonable protecticn against harmful interference when the equipment is operated in a commercial environment. This equipment generates, uses, and can radiate radio frequency energy and, if not installed and used in accordance with the instruction manual, may cause harmful interference to radio communications. Operation of this equipmentin a residential area is likely to cause harm ul interference in which case the user will be required to corect the interference at his own expense FCC Notice To comply with FCG part 15 rules in the United States, the system must be professionally installed to ensure compliance with the Part 15 certification Itis the responsibility of the operator and professional installer to ensure that only certified systems are deployed in the United States. The use of the system in any other combination
(such as co-located antennas transmiting the same information) is expressly ferbidden FCC Exposure Information To comply with FCC RF exposure compliance requirements, the antennas used for this transmitter must be installed to provide a separation distance ofat least 20 om from all persons and must not be co-located cr operating in conjunction with any other antenna or transmitter. SIMATIC RF600 System Manual, 06/2019, 131083.D0171-UO01-A22-7618 198, Readers 5.5 SIMATIC RF680R 5.5.7.2 194 IC-FCB information Siemens SIMATIC RF680R (FCC): 6GT2811-6AA10-1AA0 IC: 267K RFEOOR2 This device complies with Industry Canada licence-exempt RSS standard(s). Operation is subject to the following hwo conditions:
(1) This device may not cause interference, and
(2) this device must accept any interference, including interference that may cause undesired operation of the device Le prsent appareil est conforme aux CNR d'Industrie Canada applicables aux appareils radio exempts de licence. L'exploitation est autorise aux deux conditions suivantes
(1) Lappareil ne doit pas produire de brouillage, et
(2) lutiisateur de l'appareil doit accepter tout brouillage radiolectrique subi, mme si le brouillage est susceptible den compromettre le fonctionnement. Industry Canada Notice To reduce potential radio interference to other users, the antenna type and its gain should be so chosen that the equivalent isotopically radiated power (e.i..p.) is not mere than that permitted for successful communication. Transmpjtter power and antnna information for antennaswith a gain less than 6 dBi jth the SIMATIC RF620A antenna 902-928, the is the SIMATIC RFG60A antenna 902-928 listed i Binafon with other antennas or antennas having ted for use with this device.
@itennaswith a gain greater 6 dBi
[Antennas with a gain greater 6 dBi may be 1e radiation power of 4000 mW EJ.R.P. This SIMATIC RF642A antenna 902-928 exceeding BcTeA that the RF power at the input of the ation: RF power (dBm) < 30 d8m (antenna configurations for antennas having a gain reales Hen 6 ise with this device. The required antenna impede i SIMATIC RF60O System Manual, 062019, 48 1063-00171 U001.A22.7618 Readers 5.6 SIMATIC RFG85R:
5.6 SIMATIC RF685R 56.1 Description 5.6.1.1 Overview The SIMATIC RF 685R isa stationary reader in the UHF frequency band with an integrated antenna, An additional external UHF RFID antenna can be connected via an RP-TNG connector. The maximum transmit power is 2000 mW at the extemal reader output, die radiant power of the intemal antenna is also 2000 mW ERP/EIRP. A radiated power ofup to 2000 mW ERP /
4000 mW EIRP is achieved when the appropriate antennas and antenna cables are used The interfaces (Ethemet, power supply, DVDQ interface) are located on the lower front edge. These interfaces can be used to connect the reader to the power supply and toa PC ora controller for parameter assignment. The degree of protection is IP65. Description RP-TNG interface for connection of an external antenna LED status display LED operating display DDO interface: X10 D/DQ.
(naz, 12-pin) Interface to power supply (RS422), 24V De? xeoDe24v
(M12, &-pin) Ethernat interface, TOPAP: X1 P1
(M12, 4-pin) Ethernet interface, TOPAP: X1 P2
(M12, 4-pin) g] S| 9] See) ef
} Connection of the readers to the ASM 456 communications module via the RS-422 interface. SIMATIC RF600 System Manual, 06/2019, 131083.D0171-UO01-A22-7618 195 Readers 5.6 SIMATIC RF685R 5.6.1.2 196 Ordering data Table 5-45 Ordering data RFGA5R Product Adticle number RFEASR (ETS), 8GT2@11-6CA10-08A0 RFE8SR (FCC) 6GT2811-8CA10-4AA0 RFE@SR (CMIIT) 6GT2811-8CA10-2AA0 RFGA5R (ARIE) 6GT2811-8CA10-44A0 Table 5-48 Ordering data accessories Product Article number Holder set for securing the reader
+ DIN rail 735 (7-120)
+ $7-300 standard rail
+ 87-1500 standard rail
@GT2290-0A800 SIMATIC antenna holder for RFGOO devices
@GT2690-2A810 Connecting cable and connectors
+ DIDO cable connector open cable ends 5m | eGT2e91-ocHs0
+ Ethernet plug on the reader FastConnect M12 (IP65)
@GK1201-0D620-64A0
+ Ethernet plug Standard lE FastConnect RJ45 120 (IP20)
@GK1201-15610-28A0
+ Industrial Ethemet cable Sm [exviari BTHBO M12) RAS
+ Industrial Ethemet cable Sm | @xvia7o-BaHso Mz/ M2
+ Industrial Ethernet connecting cable 2m SXV1871-STH20 mie BOS RAGS " 3am &XV1871-5TH3O ook Sm | exviari-sTH50
+ indefapareinsfhe pabie eXVIB40-2AHTO svaheorster ar62 Fniimurn 20m)
+ Connelitg@ablgeader @ CM 2m [ect2eet-aFH20 8112-4807 HH2-180 Sm | ecT2601-aF HBO tom [eat2aet-aento 20m | eGT2ee1-4FN20 50m [6GT2e01-4FN5O SIMATIC RF600 System Manual, 06/2019, 48 1069-00171 U001.A22.7618 Readers
{Preauet Connecting cable CM reader / extension cable for 24 V connecting cable 5.6 SIMATIC RF685R Article number F422, M12 connector, B-pin socket
+ 2m 6GT2861 4FH20 _ 5m 6672861 4F HO
+ 10m 6GT2861 4FNI0
+ 20m 6GT2861 4FN20
* 50m 6G72861 4FNEO Wide-range power supply unit for SIMATIC RF systems
+ With EU plug
(@GT2898-0AC00 fTWith UK plug
(@GT2898-0Ac10
= si ith US pidge aa white| 6ST28@8-08. 620 cofnectit re er supply Ott vwfh plug, 5 m_ _ Prat | 8572891-0P 50 ufth open ends, 2m Gray | 6GT2891 -4EH20
= til Seat eaT2a01 4EH50
[in opePeeds BM Ol 0Fe ay bins of protection [i Bn adme connectors are unused) btect Red | eaT2ac8-4aa10 Piste cor anita oi ane ore DVD "Ident Systems Software & Documentation"
(@GT2080-2AA20 5.6.1.3 Pin assignment of the DI/DQ interface (X10 DI/DQ) Table 5-47 Pin assignment of the DI/DQ interface (reader end) View of interface Pin | Pin assignment
(M1? socket. 12-nin 1 | GND (output to supply of the digtal inputsioutputs [not galvan-
ically isolated) 2 | VCC (eutput to the supply of the digital inputs/outputs [not galvanically isolated), 3 | DO Common Output Gemmen 4 |D00/ Output 00 5 |DO1/Output oF
@ | D02/ Output o2 7 |D03/Output 03 a | DI 0/Inputoo
@ | DI Common / Input Cermmen 10 | DI1/ Input or 11 | DI2/ Input o2 12 | D13/Inputo3 SIMATIC RF600 System Manual, 06/2019, 131069.D0171-UO01-A22-7618 197 Readers 5.6 SIMATIC RF685R Note Requirement for external power sources When the DI/DQ interface is supplied with power by an extemal power source, this source must meet the requirements for LPS (Limited Power Sources) and NEG Class 2. Color scheme of the BEG standard cath ttt 2-conmrector The following figure shows the color scheme of the DI/DQ standard cable from Siemens
(6GT2891-0CH50). You can use the color scheme to assign the wire colors to the pins. Digital Ping: B10 Pin 0:14 wey ein ti ble Power Figulel5;99 pling diagram: W13'Bdnnectol >]
susp unt ov aor pin 12: 013 |) 5.61.4 Switching Sete for the DDG interfade DI commen Connection possibilities Youjcan connect the reader in Gift connected as follows:
Pin zvoc Output (D0 0... 3) e
+24 Ln general, the outputs and inputs should be Each output israted for 0.6 A current Bnd is electronically protected 4 digital outputs can be operated simultaneously each with up 10.0.6 A (up to 1 Ain total). With a total current > 1 A, you need touse an external power supply.
@ The outputs are optically isolated through optocouplers. 198 SIMATIC RF600 System Manual, 06/2019, 48 1069-00171 U001.A22.7618 input (DI 0... 3) igh 15. 24 wey Power sunply unt}
" ov ing diagrams illustrate Pino O14 time between Bhatigas? |o changes on the DIDO inter Voltage infeed from internal source (no electrical is ted by the readar. 12.91 |O) Pin 8: DI commen |) GND or HEV. H24y ation) wey Power susply unt], Readers 5.6 SIMATIC RF685R S15 V 424 is connection possibiliiesno Power supply uni Pina dia ]o} aAV Pin 10:14 A sey Pin 1: 012 - wy Figure -34 iret F Pin 12, 013 i Digital inputs Pin 8: DI Common Alternative connection possibilities
@ Pin 2 (VCC) to Pin 9 DI Gemnmor
@ Pin 1 GND to busbar inputs SIMATIC RF600 System Manual, 06/2019, 131083.D0171-UO01-A22-7618 1sv GND Power supply uni face that are notlapplied fer at least 1.5 seconds are 199 Readers 5.6 SIMATIC RF685R Voltage infeed from external source rey Power susply unt]
e Fina: 02 Figure 5-35 Circuit example 2: Digital inputs Pin?: 003 Pinte Pin 2: vee, Pin 3: D0 Com Voltage infeed from external source with various voltages Figure 5-36 Circuit example 3: Digital inputs 200 SIMATIC RF600 System Manual, 06/2019, 48 1069-00171 U001.A22.7618 Readers Voltage infeed from internal source wey Power surply unt ov Wo. e Fina: p00 |) SIMATIC RF600
- Pin 5:04
* Pin 6:00?
oe pint: v0.3 |}
Pin 3: DG Gomme Figure 5-37 Circuit example 4: Digital outputs Alternative connection possibilities:
@ Pin 1 GND toPin3D0 Common
@ Pin2 (VCC) tobusbar outputs System Manual, 06/2019, 131083.D0171-UO01-A22-7618 5.6 SIMATIC RF685R Power 42. [supply unt GND 201 Readers 5.6 SIMATIC RF685R Voltage infeed from external source Digitel YO Power susply unit ve FineD09 10 ov Pin:BO1 Pins:t02 0 Pin 7602 {0}
BS pane
[24 | supply un Fin 3:00 Gomman | Of 1ey GND Figure 5-38 Circuit example 5: Digital outputs Voltage infeed fron an extemal source is shown here for 12V as an example. Other voltages are also permissible SIMATIC RF600 202 System Manual, 06/2019, 48 1069-00171 U001.A22.7618 Voltage infeed from external source with various voltages Readers 5.6 SIMATIC RF685R Figure 6-39 Circuit example 6: Digital outputs 5.6.1.5 Pin assignment of the power supply interface (X80 24VDC) Table 5-48 Pin assignment of the RS422 interface (reader end) View ofinterface [Pin Wire colors | Assignment
(M12 socket 8.1 4 white +24y 2 [Brown Tx 3 | Green ov 49 [Yellow +x 5 | Gray +x e [Pink Rx
- Unassigned
- Earth (shield) SIMATIC RF600 System Manual, 06/2019, 131083.D0171-UO01-A22-7618 These pins are not required ifthe reader is operated via Ethernet. 203 Readers 5.6 SIMATIC RF685R Note Requirement for external power sources The reader must only be supplied with power by power supply units that meet the requirements of LPS (Limited Power Source) and NEG Class 2. Requirem entas axiermalipawerscurces PROFINET The roe eben naan with power by power supply units that meet the i requiremer ted power source (LPS) and NEC Class 2 Spcifical urcededestersion extemes Uatimentatd refcriture doit tre exclusivement assure par des blocs dalimentation conformes aux spcifications des sources & puissance limite (Limited Power Sources LPS} et de NEC class 2 Notes on connectors and cables 204 The gableswith open cable ends (6GT2891-4EH20, 637289 1-4EH50) have an 8-pin M12 pluglallsne end, while the other end of the cable is "open. There are 8 color-coded single wires there for connecting to external devices. The product range includes additional cables of the type 6GT2891-4F xxx (2 10 50 m) with an M12 connector at both ends. These cables can be used as extension cables, Long cables can be shortened ifnecessary. NOTICE Insulate unused single wires Unused single wires must be insulated individually to prevent unwanted connections of signal lines NOTICE For long cables: Adapt the power supply and transmission speed Note that even wit long cables, the supply voltage of 24 VDC must always be guaranteed. Note also that the transmission speed on the serial interface must, ifnecessary, be reduced SIMATIC standard cables (.9. 66T2891-4N10) have a loop resistance of 160 mObmn /
meter. This results in a vcltage drop of 0.8 volts cn the 24V cable for every 10 meters of connecting cable and with a power requirement of 500 mA, Ifthe power requirement inoreases through the use of the digital inputs/outputs, the veltage drep increases accordingly. SIMATIC RF600 System Manual, 06/2019, 48 1069-00171 U001.A22.7618 Readers 5.6 SIMATIC RF685R 5.6.1.6 Pin assignment of the Industrial Ethemetinterface (X1 P1; X1 P2) Table $-49 Pin assignment of the Industrial Ethernet interface (reader end) STV ideeaF RET Face Pin | Pin assignment
(Misia et 4onin\
Data line +7 Data line +Rx Data line Tx. Data line -Rx 5.6.1.7 On the top of the reader there is a blind drill hele (M4 x 8) for grounding. Tighten the screw with a torque of 1.5 Nm WARNING Hazardous voltage due to lightning stikes Death or serious injury may occur as a result of lightring strikes to antennas mounted outside buildings If the reader is operated with antennas mounted outside buildings, itis imperative that the readers electically connected to the ground potential NOTICE Installation only in protected areas The antenna can be installed in the protected part of a building. When implementing your lightning protection concept, make sure you adhere to the VDE 0182 or IEC 62305 standards. SIMATIC RF600 System Manual, 06/2019, 131083.00171-UO01-A22-7618 205 Readers 5.6 SIMATIC RF685R Ground connection
(@_ [Screw (m4 x 8)
(o)_| Flat washer
(9_| cable ug
(@) | Contact washer Y 5.6.2 5.62.1 Zz Minirnum mounting clearances of two readers internal antenna active and at 2000 mW ERP radiated power, dUSWyfhe aperture angle of the antennas, their fields can overlap considerably. This means it is No longer possible to be sure in which of the antenna fields the data of transponder will be accessed. To avoid these cases, always cbserve the recommended minimum distances between two readers as described in the section "Reciprocal influence ofread points (Page 47)"
Dense Reader Mode (DRM) The readers can also interfere with each other (secondary fields}, if the channels (Reader TX, Transponder TX) overlap. In order to prevent a transponder channel overlapping with reader channel, we recommend that the Dense Reader Mode (DRM) is used Note Protective cap Ifyou only use the internal antenna of the reader, we recernmend that you close the external, unused antenna connector on the reader using a protective cap. SIMATIC RF600 208 System Manual, 06/2019, 48 1063-00171 U901.A22.7618 Readers 5.6 SIMATIC RF68SR Antenna diagram for RF685R (ETS!) Figure -40 Reference system SIMATIC RF600 The following radiation diagrams show the directional characteristics of the internal amjtenna of the RF685R (ETS!) reader. For the spatial presentation of the directional chigracteristics, the horizontal plane (azimulf'section} as th vertical plane (elevation section) must be considered. Thi results ie antenna. System Manual, 06/2019, 131083.00171-UO01-A22-7618 207 Readers 5.6 SIMATIC RF685R Radiation diagram (Azimuth section)
> eoricenn ye Figure 5-41 Azimuth section SIMATIC RF60O 208 System Manual, 06/2019, 18 1063-00171 U001.A22.7618 Readers 5.6 SIMATIC RF68SR Radiation diagram (elevation section) Figure 5-42 Elevation section SIMATIC RF600 System Manual, 06/2019, 131089.D0171-UO01-A22-7618 209 Readers 5.6 SIMATIC RF685R Radiation diagram circular Figure 5-43 Circular section Overview of the antenna parameters Table 5-50 Maximum linear electrical aperture angle at 865 MHz Polarization Circular polariza-
Linear vertical_| Linear horizontal tion Azimuth section ee er es Elevation section ee ee ex Typical antenna gain 8 dBi 3 dBi 5 dBi in the frequency band 865 to 868 MHz Antenna axis ratio = 5 206 You will fnd more information on the antennas in the section "Guidelines for selecting RFID UHF antennas (Page 51)"
SIMATIC RF60O 210 System Manual, 06/2019, 18 1063-00171 U001.A22.7618 Readers 5.6 SIMATIC RF685R Antenna diagram for RF685R (FCC) The following radiation diagrams show the directional characteristics of the jptemnal, antenna of the RF85R (FCC) reader. For the spatial presentation of the directional.charasteristics, the horizontal plane (aziraut the vertical plane (elevation section) must be considered. This result ofthe directional radiation pattem of the antenna. Figure -44 Reference system SIMATIC RF600 System Manual, 06/2019, 131089.D0171-UO01-A22-7618 att Readers 5.6 SIMATIC RF685R Radiation diagram (Azimuth section) Figure 5-45 Azimuth section SIMATIC RF60O 212 System Manual, 06/2019, 48 1063-00171 U001.A22.7618 Readers 5.6 SIMATIC RF68SR Radiation diagram (elevation section) Figure 5-48 Elevation section SIMATIC RF600 System Manual, 06/2019, 131089.D0171-UO01-A22-7618 213 Readers 5.6 SIMATIC RF685R Radiation diagram (circular) Figure 5-47 Circular section Overview of the antenna parameters Table 5-51 Maximum linear electrical aperture angle at 915 MHz Polarization Circular polariza-
Linear vertical_| Linear horizontal tion Azimuth section 7a ee 73 Elevation section 70" ve eer Typical antenna gain 5 dBi 3 dBi 5 dBi in the frequency band 902 to 928 MHz Antenna axis ratio = 206 Youvwill find more information on the antennas in the section "Guidelines for selecting RFID UHF antennas (Page 51)"
214 SIMATIC RF600 System Manual, 06/2019, 48 1069-00171 U001.A22.7618 Readers 5.6 SIMATIC RF685R Interpretation of radiation pattems Example 5.6.2.2 The following overview table will help you with the interpretation of radiation patterns The table shows which dBi values correspond to which read/write ranges (in %} You can read the radiated power depending on the reference angle from the radiation patterns, and thus obtain information on the readAwrite range with this reference angle with regard to a transponder. The dBr values correspond to the difference between the maximum dBi value and a second dBi value. Table 5-52 Range of antenna depending on antenna gain Deviation from maximum antenna gain {dBr]_| Readiwrite range [%]
oO 100) 70 50 35 25 18 18 13 Ascan be seen in the section Antenna diagram for RF685R (ETS!) (Page 207}, the maximum antenna gain 0 dB is standardized, In the Azimuth diagram, the antenna gain falls by 3dB at approximately # 39. This means that the dBr value is 3. The antenna range is only 70 % of the maximum range at 36 from the Zaxiswithin the horizontal plane External antenna Preassembled standard cables in lengths of 1 m, 3m, m, 10m, 15 m, 20 m and 40 m are available to connect the antenna. The read range is limited by the cable loss. The maximum range can be achieved with the cable 6G72815-0BH10 (length 1 m) since thishas the lowest cable loss, Examples of possible antenna reading point configurations SIMATIC RF600
@ A data source with an extemal antenna for a reading point.
@ Asan altemative, a data source with an internal antenna for a reading point. System Manual, 06/2019, 131083.D0171-UO01-A22-7618 216 Readers 5.6 SIMATIC RF685R 5.6.3 Installation/mounting Requirement ied degree of protection when all connectors are sed with the protective caps, fou are not using with protective caps. You can. le number specified in the section "Ordering ents of Health Canada and the FCC limitvalues
}vided that a rinimum spacing of 26 cm exists Detween antenna and person. When the antennas are installed, you must therefore ensure kined between personnel and antennas. ays ting system and the Antenna Mounting Kit (refer to reader using a torque of < 1.5 Nmn SA 100 mounting system (torque 1.5 Nn) e peters ote for the device are shown in the section Dimension drawing (Page 224}
SIMATIC RF60O 216 System Manual, 06/2019, 48 1068-00171 U001.A22.7618 Readers 5.6 SIMATIC RF685R Mounting the reader on a DIN/standard rail F Table 5- 53, Description 1, ] Place the spring in the groove. 2. | Mount the holder using the supplied Torx screws. When mounting the holder, make sure that the angled tip is positioned above the spring in the groove SIMATIC RF600 System Manual, 06/2019, 131083.00171-UO01-A22-7618 217 Readers 5.6 SIMATIC RF685R Description 3, ] Fit the lower part of the looking mechanism of the reader into the DIN rail To be able to mount the reader on or remove it from the DIN rail, pull down the holder mounted in step 2 SIMATIC RF60O 218 System Manual, 06/2019, 48 1063-00171 U001.A22.7618 Table 5-54 Installation on a standard rail Readers 5.6 SIMATIC RF685R Description 1. | Mount the two adapter pieces using the supplied Tor screws, Diagnostics PC for configurationldiagnost es using a Web User pplication
(esing OPC UA or XML 7 ssoPrtesnorel Pao spel
(MA Pozaly 24V0C F 1107230 VAC f Pret othe standard
\ ieBedgrd the reader using the supplied slotted-head upto 4am Bi ethernet (TOPAP) |
PROFINET. SIMATIC RF600 System Manual, 06/2019, 131083.00171-UO01-A22-7618 219
1 2 | User Manual 4 | Users Manual | 4.89 MiB | April 06 2020 / April 07 2020 |
Readers 5.6 SIMATIC RF685R 5.64 Configurationvintegration An Ethernet interface is available for integrating the device into system environmentsinetworks, The RF6S5R can be configured via the Ethernet interface and with dire he PB 6 di pregrem-the read: gthe-fellowing tools:
@ SIEP 7 Basic/Professional (TA Portal)
@ crviaEtheNeviP Web Based Manag ANBM:
e * pp Note -that-configurati Jlelis not possibl: different tool: 7 contrdls (e.g. a traffic signal) can be implemented directly using the reader via four digital inpotSouTpuTs:
Figure 5-48 Overview: Configuration of RF685R readers SIMATIC RF600 220 System Manual, 06/2019, 48 1069-00171 U001.A22.7618 Readers 5.6 SIMATIC RF685R 56.5 Technical specifications Table 5-55 Technical specifications of the RFG@5R reader 8GT2811-8GA10-xAA0 Product type designation SIMATIC RFOSSR Radio tt Operating frequency
*ETST + BOS To BEE MZ
+ Foc + 0210828 MHZ
+ omit + 2010925 MHz
+ _ARIB (STD-7108) + S168MHzto 920.4 MHz Transmit power
+ ETS! + 3te.2000 mw
+ Foc + 30.2000 mw
+ OMT: + 30.2000 mw
+ _ARIB (STD-T108) + 301000 mw Maximum radiated power per antenna
+ ETS! * 2000 iW ERP
+ Foc +4000 mW EIRP
+ om +2000 mit ERP
+_ARIB (STD-T106) +4000 mw EIRP Elecirical data Range (intemal antenna)
+ ARIB (STD-T108) + sam PTOTSCOT TSO TEOOOEI mn = F SIMATIC RF600 System Manual, 06/2019, 131083.D0171-UO01-A22-7618 224 Readers 5.6 SIMATIC RF685R 222 BGT 2A11-6CA10xAA0 Channel spacing
+ ETSI
+ Bo0kKHz Mommaton metroas RDS MOTTaNON & PRA MOTTON encoding, Manchester or Pulse Interval (PIE) Mutitag capabiity Yes Typical tranemission tine per byte
+ _Write access + 2ms
+ Read sot Supply voltage Maximum permitted current consumption 24 v DC (20... 30V DC\2 2A Maximum permitted current consumption via TAD DyooTrenace CCuTTant consumption Ton Standby), TypICaT
+ 20V input vollage on the reader
+24 V input voltage on the reader
+ BOAT EA W
+ 190mA/4.5.W Cure et ce i INPUT Vora OM the TESTET 5077 7 EW MpUL YOM ON TNE TESTET + SBOE
+ SOV PUT YOMEgE On The TeSTET 30077 Current consumption (at 2000 mW transmit power), typical
+ 20V input voltage on the reader
+ 24-V input voltage on the reader
+ 30V input voltage on the reader Interfaces Antenna connectors Power supply DVDG interface Digital inputs Digital outputs Ethernet interface
+ B1OmAT 2.2
+ 500mA/12.0W
+ afomas12.9W 4x RP-TNG. 1x M2 (B-pin) Ax M12 (12-pin) 4 4 2x M12 (4-pin), 100 Mbps SIMATIC RF600 System Manual, 06/2019, 48 1069-00171 U001.A22.7618 Readers 5.6 SIMATIC RF685R BGT2811-8GA10-xAA0 Mechanical specifications Material
+ Upper part of housing + Pocan (silicone-tree)
+ Lower part of Rousing + AGRO Color
+ Upper part of housing + ThGrey
+ Lower part of housing + sinver Permitted ambient conditions Ambient temperature
+ During operation +25. +55 C
+ During transportation and storage +40... +85 C Degree of pratection Pes Shock resistant to EN 60088.2-27 25.59%
Vibrations according to EN 60088.2-6 a4g Design. dimensions and weight os yep oF 288 x 258 80mm PCs ooo UE 2.47 kg Type of mounting
+ Mounting cll 0 + Hanging = 100 7vesnt00 aamy| * 44 cppwed aes Nem}
|Operaton naiater, J |) eteos | WII b) | eteDs H IR
We a SIMATIC RF600 System Manual, 06/2019, 131083.D0171-UO01-A22-7618 223 Readers 5.6 SIMATIC RF685R 6GT2811-8CA10-xAAO Standards, specifications, approvals Proof of suitability EN 301 489-41 V1.92/EN 301 489.3 V1.61/
EN 302 208-1/-3.V1.4.1 FOC CFR 47, Part 15 section 15.247 MBE.
) Measured at the output of the antenna socket 2 all supply and signal voltages must be safety extra low voltage (SELV/PELY according to EN 60950). The voltage sources must meet the requirements of limited power sources (LPS) and NEC Glass 2. Note that, depending on the power consumption, using extension cables > 20m (@GT2891 -4FN5O) d toa voltage drop on the reader. This voltage drop can mean that the necessary mini-
tage on the reader is below the required 20V. 2 keep tothe switching schemes of the DDG interface. the (loge fr shock and vibration are maximum Ylues and must nt be apled continuously These values only aly to mounting using serews
224 Fe Us Figure 5-49 Dimension drawing RF65R All dimensions in rm (4 0.5 mm tolerance) SIMATIC RF60O System Manual, 06/2019, 48 1063-00171 U001.A22.7618 Readers 5.6 SIMATIC RFEBER 5.6.7 Certificates and approvals
) aanote Marking on the readers according to specific. rr ses, mrmen The certificates and approvals 3. era apply cnBBOBe bonds BAding mark is found on the readers, Table 5-56 SGT2811-8CA1 0-080 Labelin, Description Conformity with the RED directive 201 4/53/EU Conformity with the RoHS directive 201 1/65/EU South Africa radio approval 4 Radio Equipment Type Approval India|
India wireless approval Marking on the reader: No. NR-ETA/1589 Radio approval for Russia, Belarus, Kazakhstan Table 5-57 SGT2811-8CA10-14A0 Labelin, Description Federal Communications Commission FCG GFR 47, Part 15 section 15.247 Radio Frequency Interference Statement This equipment has been tested and found to comply with the limits for a Class A digital device, pursuant to Part 15 of the FCC Rules. FCC ID: NXW-RFOOR2 CGiysiy carat rea Standards Specifications RSS-210 Issue 6, Section 2.2, AB IG: 267X-RFGOOR2, Model: RFGB5R This product is UL-certfied for the USA and Canada. It meets the following safety standardis) UL 0950-1 - Information Technology Equipment Safety - Part 1 General Requirements CSA C22.2 No. 60950 -1 - Safety of Information Technology Equip-
ment UL Report 115352 SIMATIC RF600 System Manual, 06/2019, 131083.00171-UO01-A22-7618 225 Readers 5.6 SIMATIC RF685R Labeling Deseription Braail radio approval Marking on the reader (@GT2A1 1-6CA10-1AA0) Statement about approval Este equipamento opera em carater secundarie, isto , ndo tem direito a protego contra interferncia prejudicial, mesmo de e5-
tages do mesmo tipo e nao pode causar interferncia a sistemas operando em cardter primario. Reader certificate: ANATEL 2802-15-4794 KCC Certfication Type of equipment Ag 7121 (298 ee Sl 21} mh Class A Equipment (industrial Broadeasting & Cornmunieation Equipment) Of IZ BRB iaay MAMA a7] Leo BF Obs} Sete AIBA} |
Ba Ss Het oh, US1e| XO ASAE Ae SASS euch This equipment is Industrial (Class A) electromagnetic wave suttabi-
ity equipment and seller or user should take notice of , and this equipment isto be used in the places except for home, Certcate of the reader:
MSIP.CMM-RF5-RFEGOR Hoasieir Argentina radio approval Registro de la COMISION NACIONAL DE COMUNIGAGIONES RCPSISIV4-1926.82 Mexico radio approval CERTIFICADO DE HOMOLOGAGION, IFETEL Australia radio approvat This product meets the requirements of the AS/NZS 3548 Norm, Table 5-58 6GT2611-6CA10-2AA0 Standard CHIT Certfication China radio approval Marking on the reader: CMIIT ID: 201406980 226 SIMATIC RF600 System Manual, 06/2019, 48 1069-00171 U001.A22.7618 Readers 5.6 SIMATIC RF685R 5.6.7.1 FCC information Siemens SIMATIC RF685R (FCC) 63T2811-6CA10-1AA0 FCC ID: NXW-RF600R2 This device complies with part 15 of the FCC rules. Operation is subject to the flowing two conditions:
(1) This device may not cause harmful interference, and
(2) this device must accept any interference received, including interference that may cause undesired operation Caution Any changes or modifications not expressly approved by the party responsible for compliance could void the user's authority to operate the equipment. Note This equipment has been tested and found to comply with the limits for a Class B digital device, pursuant to part 16 of the FCC Rules, These limits are designed to provide reasonable protecticn against harmful interference when the equipment is operated in a commercial environment. This equipment generates, uses, and can radiate radio frequency energy and, if not installed and used in accordance with the instruction manual, may cause harmful interference to radio communications. Operation of this equipmentin a residential area is likely to cause harm ul interference in which case the user will be required to corect the interference at his own expense FCC Notice To comply with FCG part 15 rules in the United States, the system must be professionally installed to ensure compliance with the Part 15 certification Itis the responsibility of the operator and professional installer to ensure that only certified systems are deployed in the United States. The use of the system in any other combination
(such as co-located antennas transmiting the same information) is expressly ferbidden FCC Exposure Information To comply with FCC RF exposure compliance requirements, the antennas used for this transmitter must be installed to provide a separation distance ofat least 20 om from all persons and must not be co-located cr operating in conjunction with any other antenna or transmitter. SIMATIC RF600 System Manual, 06/2019, 131083.D0171-UO01-A22-7618 227 Readers 5.6 SIMATIC RF685R 5.6.7.2 228 IC-FCB information Siemens SIMATIC RF6&5R (FCC): 6GT2811-6CA10-1AA0 IC: 267K RF6OOR2 This device complies with Industry Canada licence-exempt RSS standard(s}. Operation is subject to the following two conditions:
(1) This device may not cause interference, and
(2) this device must accept any interference, including interference that may cause undesired operation of the device Le prsent appareil est conforme aux CNR d'Industrie Canada applicables aux appareils radio exempts de licence. L'exploitation est autorise aux deux conditions suivantes
(1) Lappareil ne doit pas produire de brouillage, et
(2) lutiisateur de l'appareil doit accepter tout brouillage radiolectrique subi, mme si le brouillage est susceptible den compromettre le fonctionnement. Industry Canada Notice To reduce potential radio interference to other users, the antenna type and its gain should be so chosen that the equivalent isotopically radiated power (e.i..p.) is not mere than that permitted for successful communication Transmitter power and antenna information for antennaswith a gain less than 6 dBi This device has been designed to operate with the SIMATIC RF620A antenna 902-928, the SIMATIC RF640A antenna 902-928 aswell as the SIMATIC RF 680A antenna 902-928 listed below, and having a maximum gain of 5,5 dBi. Arbitrary transmission power settings in combination with oer antennas or antennas having a gain greater than 5,5 dBi are strictly prohibited for use with this device. The required antenna impedance is 50 Ohms. Transmitter power and antenna information for antennas with a gain greater 6 dBi This device requires professional installation. Antennas with a gain greater 6 dBi may be used provided the system does not exceed the radiation power of 4000 mW EJ.R.P. This device has been designed to operate with the SIMATIC RF642A antenna 902-928 exceeding the maximum gain of,5 dBi under the restriction that the RF power at the input of the antenna must be set to meet the following relation: RF power (dBm) < 30 d8m (antenna gain (dBi) 6 dBi) Other antennas or syste configurations for antennas having a gain greater than 6 dBi are strictly prohibited for use with this device. The required antenna impedance is 50 Ohms. SIMATIC RF600 System Manual, 06/2019, 48 1069-00171 U001.A22.7618 Readers 5.7 SIMATIC RF65OM 5.7 SIMATIC RF650M 574 Description SIMATIC RF650M expands the RF600 identification system with a powerful mobile reader for applications in the areas of logistics, production and service. In addition, it isan indispensable aid for startup and testing 512 Field of application and features Device variants for different frequency ranges The SIMATIC RF 650M device is available in two variants:
@ forthe frequency range ETS! (66T2813-0CA00)
@ for the frequency range FCG (66726 13-0CA10) Implementation environment, field of application and features Field of application Due to its protection class IP6S the handheld terminal SIMATIC RF65OM is also suitable for use in a harsh environment, The device is extremely rugged and protected against spray water. The backlit display is easy to read even under unfavorable lighting conditions.
@ RFID system The device can be used to process all RF600 transponders and transponders compatible with them
@ Radio transmission protocols The flowing radio transmission protocols are supported 180 1800-63 API software interface The SIMATIC RF650M Mobile handheld terminal is supplied with an API software interface that can be used by customized user programs. You can perform the flowing functions with the SIMATIC RF650M handheld terminal:
SIMATIC RF600 System Manual, 06/2019, 131083.D0171-UO01-A22-7618 229 Readers 5.7 SIMATIC RFE5OM Functions
@ Reading the EPCAD
@ Writing the EPCD to a transponder
@ Reading data from the ransponder
@ Writing the data to the transponder
@ = Reading and displaying the ID number of the transponder (identify transponder) @ Localizing transponders
@ Representing and editing the data in hexadecimal and ASCII format e fassvord protection for all write functions that can be enabled or disabled (Write, Lock, i
@ Menu guidance in English and German (switchable) e ER creation of your own RFID applications with the software Application Interface"
You will fnd further information on the RF650M handheld terminal in the operating instructions "SIMATIC RF650M mobile handheld terminal
{https://support. industry. siemens, corn/ostwnvfen/view! 109475735)"
SIMATIC RF600 220 System Manual, 06/2019, 48 1069-00171 U001.A22.7618 Antennas 6.1 Overview The following table shows the most important features of the RF60O antennas at a glance:
Table 6-1 Characteristics of the RFG15A, RFG20A and RFGGOA antennas Characteristics REGIA RFE2OA RF@GOA Material PA 6, sllicone-free PA 12, sllicone-free Frequency range aes-sca | ov.c7e | ees-eca | sor.cra | aeo.2ea | sop-a28 MHz MHz, MHz MHz, MHz MHz, Impedance 50 ohms nominal Antenna gain 13... Babi 10... 5 dBi 7 aBi abi VSWR (standing wave ratio) 2st max. Polarization Linear RH cireular Radiatingireceiving angle Depending on the mounting surface 5-60" | 60". 75"
Gennector RP-TNC coupling Mounting type 2xMA4 screws 2x MB screws 4x screws M4
(VESA 100 fastening sys-
ter) Degree of protection per od UIP rating is not investigated by UL) Permissible "20C... #70C. (25C... #75C ambient temperature Lowest values apply when mounted en non-metallic surfaces; the higher values apply when mounted on metallic sur-
faces. SIMATIC RF600 System Manual, 06/2019, 131083.D0171-UO01-A22-7618 234 Antennas 6.1 Overview Table 62 Characteristics of the RFG40A and RFG42A antennas Characteristics RFG4OA RFGA2A Material PA 12, sllicoe-free Frequency range 65-868 MHz 902-928 MHz 65-868 MHZ 02-228 MHz Impedance 50 ohms nominal Antenna gain 4dBi(7 Bic) _|_4.3.dBi(7.3 aBic) 6 dBi 7 ai VSWR (standing wave ratio) Max 1.25 Max. 1.6 Max. 1.4 Polarization H circular Linear Radiating/receivi Horiz plane: 75" | Horiz plane: 75 | Horiz plane: 80 Vettic. plane: 85 | Vertic. plane: 70" | Vertic. plane: 70"
Connector RP-TNG coupling Mounting type 4x screws M4 (VESA 100 fastening system) Permissible 25C... #75 C ambient tempera|
Table 6 3 Characteristics of tN G50 and RFG80A antennas Characteristics RFG5OA RFGEOA Material Pocan DPGF2200, silicone free Frequency range 65-868 MHz 902-928 MHz 65-268 MHZ 02-228 MHz Impedance 50 ohms nominal Antenna gain 4aBi(7aBicy | 3.5 asi(e5aBie) | 35 asi(e5dBig | 35481 (65 aBiC) VSWR (standing wave ral Max. 1.45 Max. 1.45 Polarization RH circular RH eircular/ linear Radiating/receiving Horiz plane: as" | Horiz plane: 0 | Horiz plane: a5" | Horiz plane: 20 Vertic. plane: 70" | Vertic. plane: 76" | Vertic. plane: 20" | Vertic. plane: 77"
Connector RP-TNG coupling Mounting tg 4x screws M4 (VESA 100 fastening system) Degree of ion 165 Permissible 25C... #75 C ambient temperature SIMATIC RF600 232 System Manual, 06/2019, 48 1063-00171 U001.A22.7618 Antennas 6.2 SIMATIC RF615A 624 Characteristics 6.2 SIMATIC RF615A SIMATIC RFGI5A, Characteristics Area of application The SIMATIC RFGISA is a universal UHF antenna in a compact size for industrial applications, e.g. for instal-
lation directly on the robot arm, Frequency range
+ 865 to 868 MHz(RFGI5A ETSI)
+902 to 928 MHz(RFGI5A FCC) Read range. Max. 2m Polarization Linear Degree of protection | iPe7 UP rating is not investigated by UL) Mounting 2xMa Connection 30 em connecting cable (connected permanently tothe antenna) and RP-TNC coupling An antenna cable is required for connection to the reader (e.9. 8GT2815-0BH30) Frequency ranges The antenna is a narrowband antenna and is available in the following two frequency range variants.
@ =RF6I5A ETSI: 865 to 868 MHz Function SIMATIC RF600 RFSTSA FOC. 9021 82S MHZ The SIMATIC RF616A is used for transmitting and receiving data in the UHF range. The antennas are connected to the SIMATIC RF600 readers via antenna cables that are available in different lengths. System Manual, 06/2019, 131083.D0171-UO01-A22-7618 233 Antennas 6.2 SIMATIC RF615A 6.22 6.23 234 Ordering data Table 6-4 RFGI5A ordering data Product Atticle number SIMATIC RFGI5A (ETSI) 8GT2@12-CEA00 SIMATIC RFGI5A (FCC) 6GT2812-cEA01 Table 6-5 Ordering data accessories Product Adticle number Connecting cable between 1 m (cable loss 05 dB) @GT2815-08H10 reader and antenna 3m (cable loss 1.0 dB) 6GT2815-08H30 5'm, suitable for drag chains | 6GT2@15-2BH50 Teable Toss 15 45) 10m (cable loss 2.0 dB) 6GT2815-1BN10 10 m (cable loss 4.0 dB) 6GT2815-08N10 45 m, suttable for drag chains | 6GT2815-2BN15
(cable loss 4.045) 20 m (cable loss 4.0 dB) 6GT2815-08N20 40 m (cable loss 6.0 dB) 6GT2815-08N40 Mounting Tw mounting on metallic and non-met antenna. The antenna is suitable for ic surfaces, Note Maximum readiwrite range The maximurn readiwrite ranges are cnly reached when the antenna is mounted on a metallic surface with a minimum size of 150 x 150 mm Note Antenna gain depends on the mounting surface Note that the antenna gain depends on the material of the mounting surface. If the antenna is mounted on a metallic surface, the antenna gain is -5 dBi. If the antenna is mounted on a non-mnetallic surface, the antenna gain is -13 dBi SIMATIC RF60O System Manual, 06/2019, 48 1063-00171 U001.A22.7618 Antennas 62.4 Requirement Strain relief SIMATIC RF600 6.2 SIMATIC RF615A Connecting the antenna The SIMATIC RF615A antenna must be connected to the reader using an antenna cable. Preassembled standard cables in lengths of 1 m, 3m, m, 10m, 15 m, 20 m and 40 m are available to connect the antenna. The range of the antenna is limited by the cable loss, The maximurn range can be achieved with the cable 6GT2815-0BH10 (length 1 m), since this cable has the lowest cable loss, Note Use of Siemens antenna cable To ensure optimum functioning of the antenna, it is recommended that a Siemens antenna cable is used in accordance with the list of accessories Toprotect the antenna connecting cable from strain, you can attach strain relief, e.g in the attaching strain relief RF 00 antenna cable RF615A antenna connecting cable Mounting point for strain relief Figure 6-4 Strain relief The following listed bending radii are minimum values, which may not be fallen below and are based on repeated bending Table 6-6 Bending radil of he antenna cable Cable designa- | Article number Length (rn Gable loss [dB] | Bening radius ton [ror Antenna cable | 6G72815-05H10 4 os 51 Antenna cable | 6G72615-05H30 3 4 51 Antenna cable | 6G72615-25H50 5 18 453)
(suttable for drag chains) Antenna cable | 6GT2e15-1BN10 10 2 7 Antenna cable | 6G72615-05N10 10 4 51 System Manual, 06/2019, 131083.D0171-UO01-A22-7618 236 Antennas 6.2 SIMATIC RF615A Cable designa- | Article number Length [rm] Cable loss {de} | Bending radius tior freee Antenna cable | @GT2e15-26N15 15 4 4508
(suitable for drag chains) Antenna cable [eGT2e15-ceN20 [20 4 7 Antenna cable [@GT2e15-cBNa0 40. 5 7 19 PREFRRTSSTOTE THATATOTY DTT TTS WIGHT DTG -ZETT 2) with cables capable of being used in drag chains, 100,000 bending cycles at a bending radius of 100 mm and a bend of 180" or 3 million torsion cycles with a bend of + 180 on a cable length of 1 mare permitted, 6.2.5 Antenna parameter assignment Depending on the country or regicn in which the antenna is being operated, itis subject to regional limitations with respect to the radiated power. Limitations in the EUEETA, or Turk Note Limitation of the radiated power according toEN302 208 V1.4.1 (ETSI) RF600 systems that are putinto operation in the EU, EFTA or Turkey must not exceed the following radiated power with an RF615A antenna
+ 500 mW ERP (or 27 dBm ERP) Converted into EIRP: 820 mW EIRP (cr 29 dBm EIRP) Make the following settings to ensure that the maximum permitted radiated power of the antenna is not exceeded:
@ Antenna gaint - dBi
@ Radiated power: < 340 mW ERP (or 25.35 dBm ERP) Converted into EIRP: < 860 mV EIRP (or 27.5 dBm EIRP)
@ Use of cable loss associated with the antenna cable. SIMATIC RF600 236 System Manual, 06/2019, 48 1069-00171 U001.A22.7618 Antennas 6.2 SIMATIC RF615A Limitations in the USA and Canada Note Limitation of the radiated power (FCC) RF600 systems that are put into operation in the USA and Canada must not exceed the following radiated power with an RF615A antenna 4000 mW EIRP (or36 dBm EIRP) Make the following settings to ensure that the maximum permitied radiated power of the antenna is not exceeded:
@ Conducted power P (dBm) of the RF600 reader. < 30 dBm
@ Antenna gain Gi (dBi) in the FCC Frequency band: < -5 dBi
@ Cable loss a (4B): 2 1 dB P (dBm) < 30 dBm - (Gi-6 dBi) + ax Limitations in China SIMATIC RF600 Note Limitation of the radiated power (CMIIT) RF 600 systems that are put into operation in China must not exceed the following radiated power with an RF615A antenna 2000 mW ERP (or 33 dBm ERP) Converted into EIRP: 3250 mV EIRP (or 36 dBm EIRP) 1 Make the following settings to ensure that the maximum permitted radiated power of the anter e IW ERP (or 33 dBm ERP) ce (0 mW EIRP (or 3 dBm EIRP)
.d with the antenna cable. System Manual, 06/2019, 131083.D0171-UO01-A22-7618 237 Antennas 6.2 SIMATIC RF615A Limitations in Japan Note Limitation of the radiated power (ARIB) RF600 systems that are put into operaiten In, for operation wr asoR (ARIB STD-T107) powerwith an RF615A antenna 500 mW EIRP (or 27 dBm EIR 4000 mW EIRP (or 36 dBm Ell Ey The maximum permissible radiate due to the negative antenna gain. P) gs 6.2.6 Antenna patterns ce \ 1 6.2.6.1 _. the antenna
' 1 1 1 1 | 1 Polarization axis 1 a Sinog theRF6HSA anfnna fs nar of the tragspohders q fegard to the The polarization ao nna and tr the re kiicates the polarization axis. Japalt must not exceed the following radiated pefation. wit RF 30R/RFESER (ARIB STD-T108) or I oflthe aftenna cannot be reached or exceeded 1 g =
1 zation, i A Necessary\to consider the alignment ation akis of fhe anthna, 1 ponder met always y parallel. The syfrbal on 1 A 1 tad i 238 System Manual, 06/2019, 48 1063-00171 U001.A22.7618 Antennas 6.2 SIMATIC RF615A Alignment The following diagram shows the optimum alignment of the RF600 transponders to the RF615A antenna eC) Max. ran 10x i. a0 #
20% Lae ST rit oo| $f anda epost ne aden
-80"-80" -70 -80"-50"-40"-30"-Z0"-10" 01D" 20" 40" 40" 50 6D: 70) a Angular devilion cl the polerizalion exes between arlemne and trensponder [degrees]
SIMATIC RF600 System Manual, 06/2019, 131083.00171-UO01-A22-7618 239 Antennas 6.2 SIMATIC RF615A Angle deviation diagram for alignment The flowing diagram shows the dependence of the following factors
@ Alignment angle of transponder to antenna
@ Maximum range ofantenna Figure 6-4 Effect on the readiwrite range depending on the antenna alignment SIMATIC RF60O 240 System Manual, 06/2019, 48 1069-00171 U001.A22.7618 Antennas 6.2 SIMATIC RF615A 62.62 Antenna pattern ETSI ry Directional radiation pattem ETSI cari The directional radiation pattern is shown for nominal alignment and a center frequency of 8663 MHz. The nominal antenna alignrent is glven when the antenna elevation is provided as shown in the following figuise-|
331 -
Figure 6-5 Reference system The half power beam width of the antelina is defined by the angle between the two-3 dB points. The range (in %) corespOAaInE/ #5 IH dB values in the patterns can be obtained from Py table te that the measurements presented graphically below were carried out in a low-reflection peg" 7707" Deviation can tnerfere occur in anormal refecing envircnment SIMATIC RF600 System Manual, 06/2019, 131089.D0171-UO01-A22-7618 241 Antennas 6.2 SIMATIC RF615A Directional radiation pattern ETSI on metallic mounting surface (15 cm x 15 om) 180 Angle ! caqree BB ers orsne vertical pane of the antenna Beers ort norizontal pane of the antenma Figure 6-6 Directional radiation pattern RFG15A ETSI on metallic mounting surface SIMATIC RF60O 242 System Manual, 06/2019, 48 1063-00171 U001.A22.7618 Antennas 6.2 SIMATIC RF615A Directional radiation pattem ETSI on non-metallic mounting surface Pattern of the vertical plane of the antenna Pattern of the horizontal plane of the antenna Figure 6-7 Directional radiation pattern RFI5A ETSI on non-metallic mounting surface SIMATIC RF600 System Manual, 06/2019, 131083.00171-UO01-A22-7618 248 Antennas 6.2 SIMATIC RF615A 6.263 Antenna pattern FCC 4 Directional radiation pattern FCC Gain dBi The directional radiation pattern is shown for nominal alignment and a center frequency of 915 MHz, Figure 68 Reference system 190 The halfpower beam width of the antenna iswefined by the angle between the two 3 dB points (corresponding to half the power in relation to the maximum power). Which range (in A) corresponds to the dB values in the PSHE aFFbe obtained from this table Nofggt the measurements presented graphically below were carried out in a low-reflection envifortnent, Low deviations can therefore occur in a normally reflecting environment. SIMATIC RF600 244, System Manual, 06/2019, 48 1068-00171 U901.A22.7618 Antennas 6.2 SIMATIC RF615A Directional radiation pattern of the RF615A (FCC) on metallic mounting surface (15 emx 15 cm) 180 Angle ! caqree Pattern of the vertical plane of the antenna Pattern of the horizontal plane of the antenna Figure 6-9 Directional radiation pattern of the RFG15A (FCC) on metallic mounting surface SIMATIC RF600 System Manual, 06/2019, 131063.00171-UO01-A22-7618 246 Antennas 6.2 SIMATIC RF615A Directional radiation pattern of the RF615A (FCC) on non-metallic mounting surface Pattern of the vertical plane of the antenna Pattern of the horizontal plane of the antenna Figure 6-40 Directional radiation pattern of the RF615A (FCG) on non-metallic mounting surface SIMATIC RF600 246 System Manual, 06/2019, 48 1069-00171 U001.A22.7618 Antennas 6.2 SIMATIC RF615A 62.6.4 Interpretation of directional radiation patterns The following overview table will help you with the interpretation of directional radiation patterns. THe TabIS SHOWS WHICH OBI Vales COMESpONTG TO Which TeaUNWTITe TANgeS (i 7] YOU Ca Tegard 10 a transponder. The dBr values comespond to the difference between the rn:
jou dBi value and nd dBi value. Deviation from maximum arfenna gain [a6i]
Readharite range [1 Example As can be seen from the Antenna pattem ETSI (Page 241), the maximum antenna gain is -
8 dBi, In the vertical plane, the antenna gain has dropped to approx. -11 dBi at +50, This means that the dBr value is -6. The antenna range is only 80% of the maximum range at 2 radiation pattem: Characteristic of the vertical plane of the antenna and the assodated representation of the reference system), SIMATIC RF600 System Manual, 06/2019, 131083.D0171-UO01-A22-7618 247 Antennas 6.2 SIMATIC RF615A 6.27 Technical data Table 6-7 Technical specifications for the RFG15A antenna 8GT2812-0FAOx Product type designation SIMATIC RFGTEA Rado Wequencies Operating Wequency
+ ETSI 65 To 865 MHZ
+ FOG . 02 fo Ge MHZ Maximum radiated power
+ ETSI + $340 mW ERP
+ Foo + 2560 mW EIRP
+ ARIB + STD-T107: RF@SOR: < 500 mw EIRP EIRP. Ani am a refer to the section Antenna pattern ETSI
(Page 241)"
ene refer to the section Antenna pattern FOC Page 244)"
Opening angle Tor sendingirecening when mounted ona metal surface of 18 em x 15 em"
+ ETSI + Horizontal plane: 100 Vertical plane: 75 see section "Antenna pattern ETS!
(Page 241)"
+ Foo. + Horizontal plane: 130 Vertical plane: 105"
See section "Antenna pattem FOC age zaay SIMATIC RF600 248 System Manual, 06/2019, 48 1069-00171 U001.A22.7618 Antennas 6.2 SIMATIC RF615A
@GT2812-0EA0x Electrical data Range See section "Maximum readiwrite ranges of transponders (Page 53) Tripedance 0 Pdarization Linear VSWR (standing wave ratio) =24 Power
+ ETSI + s2w
+ Fee 1 ostw Interfaces Plug connection Mechanical specifications Material Color Tightening torque (at room temperature) Permitted ambient conditions
+ During transportation and storage Senet s8 001 ao yg ni Degree of pratection Shock resistant to EN 60088.2-27 Vibration to EN 60088.2-6 Design, dimensions and weight Dimensions (Hx W x D) Weight SIMATIC RF600 System Manual, 06/2019, 131083.D0171-UO01-A22-7618
[ihbient temperature ri
[+ During operatiog@@ #10 |e 20... 70C 30 om coanial cable with Ri PASVO, sllicone-ree aft surface)
etiam 52402
+ mounted on height belo 2 rm 4 Goaxtal connectors and fables shall com-
ply with NFPA7O art 820 part v ier IP rating is net investigated by UL) Bog?
20q7 52 x52.x16 mm 609 249 Antennas 6.2 SIMATIC RF615A 8GT2812-0EA0x Standards, specifications, approvals Proof of suitability Fcc: cULus MTBE, 1190 years 2) The values for shock and vibration are maximum values and must not be applied continuously. 6.2.8 Dimengion drawing us Figure 6-11 Dimension drawing RFG15A, All dimensions in mm SIMATIC RF600 250 System Manual, 06/2019, 48 1069-00171 U001.A22.7618 Antennas 6.29 Certificates & approvals Table 6-8 6GT2812-0EA00 6.2 SIMATIC RF615A Labelin, Description Conformity with the RED directive 201 4/53/EU Conformity with the RoHS directive 201 1/65/EU Description Feder Commission FCC GFR 47, Part 15 sections 15.247 Radio Frequency Interference Statement This equipment has been tested and found to comply with the limits for a Class B digital device, pursuant to Part 15 of the FCC Rules. The FCC approval is granted in association with the FOC approval of the following RF6OO readers:
+ FOG ID: NXW-RFEOOR2
(for RFESOR: 667281 1-GAB20-1AA0, RFG80R: 6GT2A1 1-GAA10-1A0, RFG25R: GGT2811-6CA10-1AAQ) Industry Canada Radio Standards Specifications RSS-210 Issue 7, June 2007, Sections 22, AB The approval for Industry Canada is granted in association with the Industry Canada approval of the following RF6OO readers:
+ IC: 267%.RFGOOR?, Model RFESOR (for 6GT2811-6AB20-1AA0)
+ IC: 267X.RFGOOR2, Model RF G2OR (for EGT2811-6AA10-1AA0)
+ _IC: 267X-RFGOOR?, Model RF EASR (for EST2AI1-6CA10-1AA0) This product is UL-certfied for the USA and Canada. It meets the following safety standards)
+ UL Report 115352
+ UL 6236841 - AVICT Equipment - Part 1: Safely Requirements
+ CSA 622.2 No, 62368-1-14 AVICT Equipment -Part 1: Saftey Requirements SIMATIC RF600 System Manual, 06/2019, 131083.00171-UO01-A22-7618 251 Antennas 6.3 SIMATIC RF620A 63 SIMATIC RF620A 6.3.1 Characteristics SIMATIG RFG2OA Characteristics Area of application | The SIMATIG RF@20A isa universal UHF antenna in a compact size for industrial applications in limited in-
stallation spaces, Frequency range + 865 to. 868 MHz (RFGZOA ETS!)
+902 to 928 MHz (RFE20A FCC) Read range. Max. 2m Polarization Linear Degree of protection _[ipe7 Mounting 2x MB Connector 30 em connecting cable (connected permanently tothe antenna) and RP-TNC coupling An antenna cable is required for connection tothe reader (e.9,
@372815-08H30), Frequency ranges The antenna is a narrowband antenna andis available in the following two frequency range variants.
@ =RF620A FCG: 902 to 928 MHz Function The SIMATIC RF620A is used for transmitting and receiving data in the UHF range. The antennas are connected to the SIMATIC RF600 readers via antenna cables that are available in different lengths. SIMATIC RF600 252 System Manual, 06/2019, 48 1069-00171 U001.A22.7618 63.2 Ordering data Table 6-10 Ordering data RFEZ0A Antennas 6.3 SIMATIC RF620A Product Article number SIMATIC RFG20A (ETS) 8GT2612-1EA00 SIMATIC RF@20A (FCC) 6GT2612-1EA01 Table 6-11 Ordering data accessories Product Article number Connecting cable between reader and antenna 4 m(cable loss 0.5 dB)
@GT2615-06H10 3 m(cable loss 1.0.4)
(6GT2615-06H30 5 m, suitable for drag chains
(6GT2815-26H50
(cable 1058 7.5 dB) 10 m (cable loss 2.0.48) 6GT2615-16N10 10m (cable loss 4.0.48)
(@GT2615-06N10 15 m, suitable for drag chains
(cable loss 4.0.46)
@GT2815-26N15 20 m (cable loss 4.0 dB)
(@GT2615-06N20 40.m (cable loss 5.0.48)
(@GT2615-08N40 63.3 Installation pacha Holocest mounting on metalic and rior-metallic surfaces, Note Achieving optimum wave propagation fg the antenna, The antenna is suitable for Toachieve optimum wave propagaticn, the antenna should not be surrounded by conducting objects, The area between antenna and transponder should also allow wave propagation without interference. Note Antenna gain depends on the mounting surface Note that the antenna gain depends on the material of the mounting surface. If the antenna is mounted on a metallic surface, the antenna gain is -5 dBi, Ifthe antenna is mounted ona non-metallic surface, the antenna gain is -10 dBi SIMATIC RF600 System Manual, 06/2019, 131083.00171-UO01-A22-7618 253 Antennas 6.3 SIMATIC RF620A 63.4 Requirement Strain relief 6.3.4.1 254 Connecting the antenna The SIMATIC RF620A antenna must be connected to the reader using an antenna cable. Preassembled standard cables in lengths of 1m, 3m, 6 m, 10m, 1 m, 20 m and 40 m are available to connect the antenna. The range of the antenna is limited by the cable loss. The maximum range can be achieved with the cable 6GT2815-0BH10 (length 1 m), since this cable has the lowest cable loss, Note Use of Siemens antenna cable To ensure optimum functioning of the antenna, itis recommended that a Siemens antenna cable is used in accerdance with the list of accessories To protect the antenna connecting cable from strain, you can attach strain relief, e.g, in the form of a strain relief clamp. The following graphic shows the cptimum mounting point for attaching strain relief. F600 antenna cable 8 RFGZOA antenna connecting cable Mounting point for strain relief Figure 642 Strain relief Bending radii and bending cycles of the cable The following listed bending radii are rinimurn values, which may not be fallen below and are based on repeated bending Table 6-12 Bending radii othe antenna cable Cable designa- | Article number Lenath [rl Cable loss [dB] | Bending radius tion my Antenna cable | @GT2@15-cBH10 4 5 51 Antenna cable | @GT2615-cBH30 3 4 51 Antenna cable [@GT2e16-26H50 [5 18 4508
(suitable for drag chains) SIMATIC RF600 System Manual, 06/2019, 48 1069-00171 U001.A22.7618 Antennas 6.3 SIMATIC RF620A Cable designa- | Article number Length (rn Gable loss [dB] | Bening radius Antenna cable | 6G72e15-1BN10 10 2 7 Antenna cable | 6G72815-05N10 10 4 51 Antenna cable | 6GT2@15-25N15 18 4 453)
(suttable for drag chains) Antenna cable | 6G72615-05N40 40 5 7 Permissible minimum bending radius with one-time bending. 28 mm 2 With cables capable of being used in drag chains, 100,000 bending cycles at a bending radius of 100 mm and a bend of + 180 o 3 million torsion cycles with a bend of 180 on a cable length of 1 mare permitted 63.5 Antenna parameter assignment Depending on the country or region in which the antenna is being operated, itis subject to regional limitations with respect to the radiated power. Limitations in the EU, EFTA, or Turkey Note Limitation of the radiated power according to EN 302 208 V1.4.1 (ETSI) RF600 systems that are put into operation in the EU, EFTA or Turkey must not exceed the following radiated power with an RF620A antenna
+ 500 mW ERP (or 27 dBm ERP) Corverted into EIRP: 820 mW EIRP (or 29 dBm EIRP) Make the following settings to ensure that the maximum permitted radiated power of the antenna is not exceeded:
@ Antenna gain: 5 aBi
@ Raziated power. < 340 mW ERP (or 25:35 dBm ERP) Converted into EIRP: < 560 mW EIRP (or 27.5 dBmn EIRP)
@ Use of cable loss associated with the antenna cable. SIMATIC RF600 System Manual, 06/2019, 131083.D0171-UO01-A22-7618 255 Antennas 6.3 SIMATIC RF620A Limitations in the USA and Canada Note Limitation of the radiated power (FCC) RF600 systems that are put into operation in the USA and Canada must not exceed the following radiated power with an RF620A antenna 4000 mW EIRP (or 36 dBm EIRP) Make the following settings to ensure that the maximum permitted radiated power of the antenna is not exceeded:
Conducted power P (dBm) of the RF600 reader: <30 dBm
@ Antenna gain Gi (ABI) in the FOC frequency band: < $ dBi
@ Cable loss a, (dB) > 1 dB P (dBm) < 30 dBm -(G\- 6 dBi) + ay Limitations in China 256 Note Limitation of the radiated power (CMIIT) RF600 systems that are put into cperation in China must not exceed the following radiated power with an RF620A antenna:
2000 mW ERP (or 33 dBm ERP) Converted into EIRP: 3250 mW EIRP (or 35 dBm EIRP) 1 Make the following settings to ensure that the maximum permitted radiated power of the ERP (or 33 dBm ERP) IW EIRP (or 35 dBm EIRP) ith the antenna cable. SIMATIC RF60O System Manual, 06/2019, 48 1068-00171 U001.A22.7618 Antennas 6.3 SIMATIC RF620A Limitations in Japan Note Limitation of the radiated power (ARIB) RF600 systems that are put int6 Spergtion it Japan must not exceed the following radiated power with an RF620A anten 500 mW EIRP (or 27 o8 BHR) For operENeh with RFOSOR (ARIB STD-T107) 4000 mW EIRP (or 36 dilin EIRPJaber operation with RF6S0R/RF6S5R (ARIB $TD-1106) Mcr The maximum permissible radiated p@Wer of the antenna cannot be reached or exceeded due to the negative antennalgs !
6.3.6 Antenna patterns 1 1 i 1 at \ 1 1 63.6.1 figniment of transponders to the antenna '
' 1
| ars Polarization axis | ; :
Sinoe the RFGgOA thn has. pdari: tion, ie BM ecory to cansider the alignment of the tr repo ae polerzhton axis ofthe antenna Th pdprization axes 6t antenna AA transporter mst aiays be pt fh symbol on the antenna indicat.
8 the pdarizattcn axis
Lo ;
a \
t
H 1 1 RFGDOT RFE2ST RF630T RFB40T RFESOL, RF63OT RFBAOT Gan?
Figure 643 Polarization axis SIMATIC RF600 System Manual, 06/2019, 131083.00171-UO01-A22-7618 267 Antennas 6.3 SIMATIC RF620A Alignment The following diagram shows the optimum alignment of the RF600 transponders to the RF620A antenna er]
2 Max. ran 2 10x id. 20% #
20% la? SH Figure 6-18" Antennffftansponder alignment 0% >
-90"-80" -70 80" -50"-40"-30" ZU" 10" 01D" 20" 30" 40" 50" GO: 70" Bo" 90"
Angle deviation of polarization axes ol antenna and lag [segrees]
SIMATIC RF60O 258 System Manual, 06/2019, 48 1063-00171 U001.A22.7618 Antennas 6.3 SIMATIC RF620A Angle deviation diagram for alignment The following diagram shows the dependence of the following factors:
@ Alignment angle of transponder to antenna
@ Maximum range of antenna Figure 6-45 Angle deviation diagram for alignment SIMATIC RF600 System Manual, 06/2019, 131089.00171-UO01-A22-7618 259 Antennas 6.3 SIMATIC RF620A 6.3.6.2 Antenna pattern ETSI 4 Directional radiation pattern ETSI Gain /uBi The directional radiation pattem is shown for nominal alignment and a center frequency of 866.3 MHz. The nominal antenna alignmentis'given when the antenna elevation is provided mens
\ [oe Figure 6-46 Reference system The halfpower beam width of the antenna is'defined by the angle between the two 3 dB points. Which range (in %) correspond96'WPalues in the patterns can be obtained Misa table Nofefat the measurements presented graphically below were carried out in a low-reflection en ggg en. Deviations can terefore cur ina rormallyrefecing environment SIMATIC RF600 260 System Manual, 06/2019, 48106-00171 U901.A22.7618 Antennas 6.3 SIMATIC RF620A Directional radiation pattern ETSI on metallic mounting surface (15 om x 15 cm) 180 Angle / degrees. Pattern of the vertical plane of the antenna Pattern of the horizontal plane of the antenna Figure 6-47 Directional radiation pattern RFG20A ETSI on metallic mounting surface SIMATIC RF600 System Manual, 06/2019, 131063.00171-UO01-A22-7618 261 Antennas 6.3 SIMATIC RF620A Directional radiation pattern ETSI on non-metallic mounting surface Pattern of the vertical plane of the antenna Pattern of the horizontal plane of the antenna Figure 6-48 Directional radiation pattern RFG20A ETSI on non-metallic mounting surface SIMATIC RF60O 262 System Manual, 06/2019, 48 1063-00171 U001.A22.7618 Antennas 6.3 SIMATIC RF620A 63.63 Antenna pattern FCC Directional radiation pattern FCC in dBi The directional radiation pattem is shown for nominal alignment and a center frequency of 915 MHz 2 a Figure 6-19 Reference system 1000~CCO:COT The halftpower beamn width of the anterana is defined by the angle between the two -3 dB points (cerresponding to half the power in relation to the maximum power). Which range (in 4) comesponds to the dB values (iali Paths can be cbtained from this table te that the measurements presented graphically below were carried out in a low-reflection Wironment. Low deviations can therefore occur in a normally reflecting envirenment SIMATIC RF600 System Manual, 06/2019, 131089.D0171-UO01-A22-7618 263 Antennas 6.3 SIMATIC RF620A Directional radiation pattern of the RF620A (FCC) on metallic mounting surface (15 em x 15 cm) a Gain / Bi 180 Angle ! degrees
[iB ortne vertical pane of the antenna
[BBhtern or the horizontal plane of the antenna Figure 6.20 Directional radiation pattern of the RF@20A (FG) on metallic mounting surface SIMATIC RF60O 264 System Manual, 06/2019, 48 1063-00171 U001.A22.7618 Antennas 6.3 SIMATIC RF620A Directional radiation pattern of the RF620A (FCC) on non-metallic mounting surface Pattern of the vertical plane of the antenna Pattern of the horizontal plane of the antenna Figure 6.21 Directional radiation pattern of the RFG20A (FCC) on non-metallic mounting surface SIMATIC RF600 System Manual, 06/2019, 131083.D0171-UO01-A22-7618 265 Antennas 6.3 SIMATIC RF620A 636.4 Example 268 Interpretation of directional radiation patterns The following overview table will help you with the interpretation of directional radiation patterns. Teel TOE HTEN GE WUE DESSONS NPE TERETE TANERS I") YOUN fe STOWE WHICH UBT VANES COTTESpONE TO WHICH TEaCMMTTS TAGES IT Ve) YOU CaN readtherad patel regard toa Transponder The d8rvalues correspond io the difference between the maximum dBi value and nd.
<Bivalue Deviation from maximum antenna gain [a5 Readhurte range Pl oO 3 6 3 1 1 18 As can be seen from the Antenna pattern ETSI (Page 260), the maximum antenna gain is -
5 dBi, In the vertical plane, the antenna gain has dropped to approx. -11 dBi at +40 and 320, This means that he dBr value is -6. The antenna range Is only 60% of the maximum range-att Greotional radiatcn pattem, Charactensiic of he vertical plane of he antenna and he associated representation of the reference system). SIMATIC RF600 System Manual, 06/2019, 48 1069-00171 U001.A22.7618 Antennas 6.3 SIMATIC RF620A 63.7 Technical data Table 6-13 Technical specifications for the RF@20A antenna 8GT2812-1EAOx Product ype designation SIMATIC RFGZOA Radio Wequences perating Wequency
+ ETSI + 865 To 868 MHZ
+ FCe + e02 to aaa MHZ Waxirium radiated power
+ ETSI + $340 mW ERP
+ FCG + $560 mW EIRP
+ ARIB + STD-T107: RFO5OR: = 500 mW EIRP
: ww EIRP am a refer to the section Antenna pattern ETSI
(Pane 260)"
ene refer to the section "Antenna pattern FOC
(Page 269) Opening angle Tor sendingirecelving when mounted on a metal surlace of 15 om x 15 om
+ ETSI + Horizontal plane: 100"
tar Pra
(Page 260) 7 see section
(Page 263) SIMATIC RF600 System Manual, 06/2019, 131083.D0171-UO01-A22-7618 267 Antennas 6.3 SIMATIC RF620A Electrical data Range Impedance Polarization VSWR (standing wave ratio) Power
+ ETSI
+ Foo Plug conn 300 #10 Mechanical specifications Material Color Tightening torque (at room temperature) Permitted ambient conditions Ambient temperature
+ During operation
+ During transportation and storage Degree of protection Shock resistant to EN 60088-2.27 Vibrations according to EN 60068-2-6 Design, dimensions and weight Dimensions (H x W x D) Weight Standards, specifications, approvals Proof of suitability
+ ETSI
+ Foo MTEF int fe 8GT2812-1EAOx Ce "Maximum read/write fahaes &
ES g|
500 Linear 324 coaxial cable with RP-TNG foubiing
(for|Epnnection of the antenna cable) Kir. 01 HD) eta Pagel turguoise?S 1 0.2
=2Nm
+20... 470C
+40... 485C per 5092 2097 75x 75x 20mm 100
+ CE (ETSIEN 302208)
+ FOC (Title 47, Part 15.247), cULus 1190 years.
) The values differ for different dimensions!materials of the mounting surface, 2) The values for shock and vibration are maximum values and must not be applied continuously. 268 SIMATIC RF600 System Manual, 06/2019, 48 1069-00171 U001.A22.7618 Antennas 6.3 SIMATIC RF620A 63.8 Dimension drawing ce Figure 6.22 Dimension drawing RFG20A All dimensions in mm. us SIMATIC RF600 System Manual, 06/2019, 131083.00171-UO01-A22-7618 269 Antennas 6.3 SIMATIC RF620A 6.3.9 Approvals & certificates Table 6-14 @GT2a12-1EA00 Labelin, Designation Conformity with the RED directive 201 4/53/EU Conformity with the RoHS directive 201 1/65/EU Table 6-15 @GT2a12, Description FOG GFR 47, Part 15 sections 15.247 Radio Frequency Interference Statement This equipment has been tested and found to comply with the limits for a Class B digital device, pursuant to Part 15 of the FCC Rules. The FCG approval is granted in association with the FCG approval of the folowing RFGOO readers:
+ FCC ID: NXW-RFGOORZ
(for RFESOR: 637281 1-GABZO-1 AAO, RF GEOR: 6GT2211-GAA10-1AA0, RFGE5R: GT2211-60A10-1AA0) Industiff Canada Radio Standallis Specifications RSS-210 Issue 7, June 2007, Sections 2.2, AB The approval for Industry Canada is granted in association with the Industry Canada approval of the following RFGOO readers:
+ IC: 267X-RFEOOR?, Model RF GSOR (for 6ST281 1-GAB20-1AA0)
+ IC: 267X-RFGOOR?, Model RF GROR (for EST2B11-GAA10-1AA0) IC: BE7X-RFGOORZ, Model RFGBOR (for EGT2B11-6CA10-4AAQ This product is UL-certified for the USA and Canada. It meets the following safety standards):
+ UL Report 05089
+ UL 60950-4 - Information Technology Equipment Safety - Part 4 General Requirements
+ CSA C222 No. 60950-1 - Safety of Inforation Technology Equipment 270 SIMATIC RF60O System Manual, 06/2019, 48 1063-00171 U001.A22.7618 6.4 SIMATIC RF640A 641 Characteristics Antennas 6.4 SIMATIC RF640A SIMATIC RF64OA, Characteristics Area of application The SIMATIC RFG#OA is a universal UHF antenna in a medium size with medium range for industrial applica tions in production and logistics. Frequency range 265 10 928 MHZ Read range. Max. 6m Polarization Gireular Degree of protection | 1P@5 Mounting 4am
(VESA 100 fixing system) Connector 30 om connecting cable (connected permanently tothe antenna) and RP-TNC coupling An antenna cable is required for connection tothe reader (e.g. 8GT2815-0BH30) Frequency ranges The antenna is a broadband antenna and covers the frequency ranges from 865 to 928 MHz. Function The SIMATIC RF640A is used for transmitting and receiving data in the UHF range. The antennas are connected to the SIMATIC RF600 readers via antenna cables that are available in different lengths. SIMATIC RF600 System Manual, 06/2019, 131083.D0171-UO01-A22-7618 an Antennas 6.4 SIMATIC RF640A 6.42 Ordering data Table 6-16 Ordering data RFG4OA Product Article number SIMATIG RFG4OA 8GT2812-0GA08 Table 6-17 Ordering data accessories Product Adticie number Connecting cable between 41m (cable loss 05 dB) @GT2815-08H10 reader and antenna 3m (cable loss 1.0 dB) 6GT2815-08H30 5 m, suitable for drag chains | 6GT2@15-2BH50
(cable loss 1.5 45) Om (cable 1055 2.0 dB) GGTZEIS-TENTO 10 m (cable loss 4.0 dB) 6GT2815-08N10 45m, suttable for drag chains | 6GT2815-2BN15,
(cable loss 4.045) 20 m (cable loss 4.0 dB) 6GT2815-08N20 40 m (cable loss 6.0 dB) 6GT2815-08N40 SIMATIC antenna holder for RFGOO devices @GT2860-2A810 Antenna mounting kit ec 2a90. 6.43 Installation Mounting system Antenna holders 27 A standardized VESA 100 mounting system is provided to mount th system consists of four fixing holes for M4 screws atintervals of 100 mm. The gnfenna is suitable for mounting on metallicand non-metallic surfaces, Note Achieving optimum wave To achieve optimum weve prop:
ag a a witl Interference gation, the antenna PF Surrounded by conducting Bald also allow wave propagation The Siemens antenna holders allow for fine adjustment of the antenna field by setting the solid angle SIMATIC RF600 System Manual, 06/2019, 18 1063-00171 U001.A22.7618 Antennas 64.4 Requirement Strain relief SIMATIC RF600 6.4 SIMATIC RF640A Connecting the antenna The SIMATIC RF640A antenna must be connected to the reader using an antenna cable. Preassembled standard cables in lengths of 1 m, 3m, m, 10m, 15 m, 20 m and 40 m are available to connect the antenna. The range of the antenna is limited by the cable loss, The maximum range can be achieved with the cable 6GT2615-0BH10 (length 1 m), since this cable has the lowest cable loss, Note Use of Siemens antenna cable To ensure optimum functioning of the antenna, it is recommended that a Siemens antenna cable is used in accordance with the list of accessories Toprotect the antenna connecting cable from strain, you can attach stain relief e.g. in the form ofa strain relief damp. The following graphic shows the opfimum mounting paint for attaching strain relief
@ _RFesOA antenna connecting cable RF6OO antenna cable Mounting point for stain reter Figure 623 Strain relief System Manual, 06/2019, 131083.D0171-UO01-A22-7618 oR Antennas 6.4 SIMATIC RF640A 6444 Bending radii and bending cycles of the cable The following listed bending radii are rinimurn values, which may not be fallen below and are based on repeated bending Table 6-18 Bending radii othe antenna cable Cable designa- | Article number Lenath [rl Cable loss [dB] | Bending radius tion [mm Antenna cable | @GT2@15-cBH10 4 5 51 Antenna cable | @GT2615-cBH30 3 4 51 Ante 7
(suitable for drag chains) Antenna cable [@GT2@15-1EN10 10 2 7 Antenna cable | @GT2@15-cBN10 10 4 51 Antenna cable | @GT2e15-26N15 15 4 4508
(suitable fora chains) Antenna cable [eGT2e15-ceN20 [20 4 7 Antenna cable [@GT2e15-cBNa0 40. 5 7 Permissible minimum bending radius with one-time bending. 28 mm. 2) with cables capable of being used in drag chains, 100,000 bending cycles at a bending radius of 100 mm and a bend of 180" or 3 million torsion cycles with a bend of + 180 on a cable length of 1 mare permitted, 6.4.5 Antenna parameter assignment 6.45.1 Setting RF640A parameters for RF650R Depending on the country of regicn in which the antenna is being operated, itis subject to regional limitations with respect to the radiated power. Limitations in the EU, EETA, or Turk:
Note Limitation of the radiated power according toEN302 208 V1.4.1 (ETSI) RF600 systems that are putinto operation in the EU, EFTA or Turkey must not exceed the following radiated power with an RF640A antenna
+ 2000 mW ERP (or 33 dBm ERP) Converted into EIRP: 3250 mW EIRP (or 35 dBm EIRP) SIMATIC RF600 274. System Manual, 06/2019, 48 1069-00171 U001.A22.7618 Antennas 6.4 SIMATIC RF640A Make the following settings to ensure that the maximum permitted radiated power of the antenna is not exceeded:
@ Antenna gain: 4 dBi (or 7 dBiC)
@ Radiated power < 1360 mW ERP (cr 31.36 dBm ERP) Converted into EIRP: < 2240 mW EIRP (or 33.5 dBm EIRP)
@ Use of cable loss associated with the antenna cable Limitations in the USA and Canada Note Limitation of the radiated power (FCC) RF.600 systems that are put into operation in the USA and Canada must not exceed the following radiated power with an RF640A antenna 4000 mW EIRP (or 36 dBm EIRP) Make the following settings to ensure that fhe maximum permitied radiated power of the antenna is not exceeded:
Conducted power P (dBm) of the RF600 reader. < 30 dBm
@ Antenna gain Gi (dBi) in the FCC frequency band: < 4:3 dBi
@ Cable loss & (4B): 2 1 dB P (dBm) < 30 dBm - (Gi-6 dBi) + ax Limitations in China Note Limitation of the radiated power (CMIIT) RF600 systems that are put into operation in China must not exceed the following radiated power with an RF640A antenna 1460 mW ERP (or 31.36 dBm ERP) Corverted into EIRP: 2400 mV EIRP (or 33.8 dBm EIRP) Make the following settings to ensure that the maximum permitted radiated power of the antenna is not exceeded:
@ Antenna gain: 43 aBi (or 7.3 dBIC)
@ Raziated power < 2000 mW ERP (cr 33 dBm ERP) Converted into EIRP: < 3250 mW EIRP (or 36 dBm EIRP)
@ Use of cable loss associated with the antenna cable. SIMATIC RF600 System Manual, 06/2019, 131083.D0171-UO01-A22-7618 275 Antennas 6.4 SIMATIC RF640A Limitations in Japan 6.45.2 Note Limitation of the radiated power (ARIB STD-1107) RF600 systems that are put into operation in Japan must not exceed the following radiated power with an RF640A antenna:
500 mW EIRP (or 27 dBm EIRP) Setting RF640A parameters for RF680R/RF 685R Depending on the country or regicn in which the antenna is being operated, itis subject to regional limitations with respect to the radiated power. Limitations in the EU, EFTA, or Turkey 276 Note Limitation of the radiated power according toEN302 208 V1.4.1 (ETSI) RF600 systems that are put into operation in the EU, EFTA or Turkey must not exceed the following radiated power with an RF640A antenna 2000 mW ERP (or 33 dBm ERP) Converted into EIRP: 3250 mW EIRP (or 35 dBm EIRP) Make the following settings to ensure that the maximum permitted radiated power of the antennats not rect
@ Antenna gain 4 dBi (or 7 dBiC)
@ Radiated power: < 2000 mW ERP (or 33 dBm ERP) Corverted into EIRP: < 3250 mW EIRP (or 36 dBm EIRP)
@ Use of cable loss associated with the antenna cable. SIMATIC RF600 System Manual, 06/2019, 48 1069-00171 U001.A22.7618 Antennas 6.4 SIMATIC RFO40A Limitations in the USA and Canada Note Limitation of the radiated power (FCC) RF600 systems that are put into operation in the USA and Canada must not exceed the following radiated power with an RF640A antenna 4000 mWW EIRP (or 36 dBm EIRP) Make the following settings to ensure that the maximum permitted radiated power of the antenna is not exceeded:
Conducted power P (dBm) of the RF600 readert'< 30 dBm
@ Antenna gain Gi (dBi) in the FCC frequency ban: < 4:3 dBi
.@ Cable loss a (dB): = 1 dB
(dBm) < 30 dBm - (Gi-6 dBi) + ax f the radiated pow ms that are put ed) the following radiated d power of the
@ Antenna gain: 43 dBi (or 7.3 dBiC)
@ Raziated power. < 2000 mW ERP (or Converted into EIRP: < 3250 mW EIRP (or 35
@ Use of cable loss associated with the antenna cable. Limitations in Japan Note Limitation of the radiated power (ARIB STD-T108) RF 600 systems that are put into operation in Japan must not exceed the fellowing radiated power with an RF640A antenna 4000 mW EIRP (or 36 dBm EIRP) SIMATIC RF600 System Manual, 06/2019, 131089.00171-UO01-A22-7618 on Antennas 6.4 SIMATIC RF640A 6.46 Antenna patterns 6461 Antenna radiation pattems in the ETSI frequency band Directional radiation pattern ETSI The directional ra 866.3 MHz, Then as shown in the fall jown for nominal alignment and a center frequency of lgnmentis given when the antenna elevation is provided Figure 6.24 Reference system The half-power beam width of the antenna is defined by the angle between the two 3 dB points, The range (in %) corresponding to the dB values in the patterns can be obtained from this table (Page 238). Note that the measurements presented graphically below were carried out in a low-reflection environment, Deviations can therefore occur in a normally reflecting ervironment SIMATIC RF600 278 System Manual, 06/2019, 48 1069-00171 U001.A22.7618 Antennas 6.4 SIMATIC RF640A Directional radiation pattems in the ETSI frequency band Polarization axis and axis of symmetry are parallel a 0 Ina configuration baseskan tii telSwingy-drecjiotel reiaion pattem of the antenna, the axis of symmetry of t#%ntennal kam tl align axig ofthe transponder are parallel 180 Angle i degrees SIMATIC RF600 System Manual, 06/2019, 131089.D0171-UO01-A22-7618 279
1 2 | User Manual 5 | Users Manual | 4.68 MiB | April 06 2020 / April 07 2020 |
Antennas 6.4 SIMATIC RF640A Pattern of the vertical plane of the antenna Pattern of the horizontal plane of the antenna Figure 6.25 The RF640A directional radiation pattern in the ETSI frequency band, polarization axis of the transponder, and axis of symmetry of the antenna are parallel to each other. SIMATIC RF600 280 System Manual, 06/2019, 48 1069-00171 U001.A22.7618 Antennas 6.4 SIMATIC RF640A Polarization axis and axis of symmetry are ormeserat each other In a configuration based on the flowing diredfioniatnatietion pattem of the antenna, the axis of symmetry of the antenna and the polgrizaticn axis of the transponder are orthogonal to each other. Ange fdegrees SIMATIC RF600 System Manual, 06/2019, 131089.D0171-UO01-A22-7618 281 Antennas 6.4 SIMATIC RF640A Pattern of the vertical plane of the antenna Pattern of the horizontal plane of the antenna Figure 6.26 The RFG40A directional radiation pattern in the ETSI frequency band, axis of symmetry of the antenna, and polarization axis of the transponder are orthogonal to each other SIMATIC RF60O 282 System Manual, 06/2019, 48 1063-00171 U001.A22.7618 Antennas 6.4 SIMATIC RF640A 64.62 Antenna radiation patterns in the FCC frequency band Directional radiation pattem USA (FCC) The directional radiation pattem is shown for nominal alignment and a center frequency of 915 MHz Figure 6-27 Reference system The halftpower beamn width of the antenna is defined by the angle between the two -3 dB points (corresponding to half the power referred to the maximum power). Which range (in %) Corresponds to the dB values in the patterns can be obtained from this table (Page 288) Note that the measurements presented graphically below were carried out in a low-reflection environment, Deviations can therefore occur in a normally reflecting environment. SIMATIC RF600 System Manual, 06/2019, 131083.D0171-UO01-A22-7618 283 Antennas 6.4 SIMATIC RF640A Directional radiation pattern in the FCC frequency band nmalfication / dio Polarization axis and axis of symmetry are parallel In the following directional raiaticn pattelft-of the-angatin n. tae axis of symmetry of the antenna and the polariztfon axis of the, as A 180 Angle /dea) SIMATIC RF60O 284 System Manual, 06/2019, 48 1063-00171 U001.A22.7618 Antennas 6.4 SIMATIC RF640A Pattern of the vertical plane of the antenna Pattern of the horizontal plane of the antenna Figure 6.28 The RFG40A directional radiation pattern in the FCC frequency band, polarization axis of the transponder, and axis of symmetry of the antenna are parallel to each other SIMATIC RF600 System Manual, 06/2019, 131083.D0171-UO01-A22-7618 285 Antennas 6.4 SIMATIC RF640A Polarization axis and axis of symmetry are orthogonal to eah other In the following directonal radiaticn pattern of Iheraniteniay tigiaxis of symmetry of the antenna and the polarization axis of the transponder are orthogonal to each other. 180 Ange fdegrees SIMATIC RF60O 286 System Manual, 06/2019, 48 1063-00171 U001.A22.7618 Antennas 6.4 SIMATIC RF640A Pattern of the vertical plane of the antenna Pattern of the horizontal plane of the antenna Figure 6.29 The RFG40A directional radiation pattern in the FCC frequency band, axis of symmetry of the antenna, and polarization axis of the transponder are orthogonal to each other SIMATIC RF600 System Manual, 06/2019, 131083.D0171-UO01-A22-7618 287 Antennas 6.4 SIMATIC RF640A 6.46.3 Example 288 Interpretation of directional radiation patterns The following overview table will help you with the interpretation of directional radiation patterns. The Tab Te SHOWS WHICH UBT WANES COTERpONTE To Which TeeATITe TANGES iT Vey-YOU ca
readtherad patel Tegard to. transponder. Th 2s.cccte second dBi/dBic value. Deviation from maximum antenna gain [ar] Readhwrite range [94]
oO 100) 3 70 6 50 2 2 25 1 18 13 As maximum antenna gain in the vertical plane is 3.45 dBi (6.45 dBic) In this plane, and wih ther T antenna gain drops to about 0.5 dBic at +50 or 310, Therefore the dBrvalue is -6. The antenna range is only 50% of the maximum range at + 50 or 310 from the Z axis within the verlical plane (See values shown in blue in the directional radiation pattern. Characteristic oF the vertical plane of the antenna (Page 279) and the associated representation of the reference system (Page 278)) SIMATIC RF600 System Manual, 06/2019, 48 1069-00171 U001.A22.7618 Antennas 6.4 SIMATIC RF640A 647 Technical data Table 6-19 Technical specifications for the RFG10A antenna 8GT2812-0GA08 Product ype designation SIMATIC RFGAOA, Radio Wequences perating Wequency TO See MZ
+ ETSI + RF@SOR: < 1360 mit ERP RFGS0R/RFOSSR: = 2000 mW ERP
+ FCG + RF@SOR: = 2400 mi EIRP RFGS0R/RFGSER: < 4000 mW EIRP
> OMIT + RF@SOR: = 1300 mW ERP RFGS0R/RFGSER: = 2000 mW ERP
+ ARIB + sTD-T107:
RFGSOR: < 500 mW EIRP
+ STDTT05:
_.J rr escrrer ssn = nooo mir ERE Anfenna gain
+ ETSI + SBI (7 dBi) Fee + 4.3 dBi (7.3 dBi)
+ ETSI + Horizontal plane: 80"
Vertical plane: 75"
the ETSI f hand (2:
oe 6 rrr pt 8 see section "Directional radiation pattern inthe FCC frequency band (Page 284)"
Front-to-back cat
(depends on orientation of the transpond-
en)
+ Fee + 9dh2 2748 depend: ation of the ts d-
et) SIMATIC RF600 System Manual, 06/2019, 131083.D0171-UO01-A22-7618 289 Antennas 6.4 SIMATIC RF640A 8GT2812-0GA08 Electrical data 53, 02, Range ad/write ranges of transponders . Impedance Fi counting Mechanical epectications dh 4 Material PAIZ ul *
Cover Pastel turquoise Tightening torque (at room temperature) <2Nm Permitted ambient conditions Ambient temperature
+ During operation 25... +7556
+ During transportation and storage 40... 485C Degree of protection 1Pes Shock resistant to EN 60088-2.27 25597 Vibrations according to EN 60088-2-6 19?
Design, dimensions and weight Dimensions (H x W xD) 185 185 x 45 mm Weight e009 Standards, specifications, approvals Proof of suitabilty GE according to RED), FCC (Title 47, Part 18.247), cULus MTeF 445 years
) The values differ for different dimensions!materials of the mounting surface, 2) The values for shock and vibration are maximum values and must not be applied continuously. SIMATIC RF600 290 System Manual, 0/2019, 48 1063-00171 U901.A22.7618 Antennas 6.4 SIMATIC RF640A 6.4.8 Dimension drawing ce Fe Figure 6-30 Dimension drawing RF640A, All dimensions in mm. us SIMATIC RF600 System Manual, 06/2019, 131083.00171-UO01-A22-7618 291 Antennas 6.4 SIMATIC RF640A 6.4.9 Approvals & certificates Table 6-20 6GT2812-0GA08 Labelin, Description Conformity with the RED directive 201 4/53/EU Conformity with the RoHS directive 201 1/65/EU Table 6-21 eGT2e1 Description FOG GFR 47, Part 15 sections 15.247 Radio Frequency Interference Statement This equipment has been tested and found to comply with the limits for a Class B digital device, pursuant to Part 15 of the FCC Rules. The FCG approval is granted in association with the FCG approval of the folowing RFGOO readers:
+ FCC ID: NXW-RFGOORZ
(for RFESOR: 637281 1-GABZO-1 AAO, RF GEOR: 6GT2211-GAA10-1AA0, RFGE5R: 6GT2a11-6CA10-1AA0) Industiff Canada Radio Standalfis Specifications RSS-210 Issue 7, June 2007, Sections 2.2, AB The approval for Industry Canada is granted in association with the Industry Canada approval of the following RFGOO readers:
+ IC: 267X-RFEOOR?, Model RF GSOR (for 6ST281 1-GAB20-1AA0)
+ IC: 267X-RFEOOR?, Model RF GROR (for EST281 1-GAA10-1AA0) IC: B67X-RFGOORZ, Model RFGBOR (for 6GT2B11-6CA10-4AAQ, This product is UL-certified for the USA and Canada. It meets the following safety standards):
+ UL 60950-4 - Information Technology Equipment Safety - Part 4 General Requirements
+ CSA C222 No, 60950 -1 - Safely of Information Technology Equipment
+ _UL Report E 205089 292 SIMATIC RF60O System Manual, 06/2019, 48 1063-00171 U001.A22.7618 Antennas 6.5 SIMATIC RF642A 65.1 Characteristics 6.5 SIMATIC RF642A SIMATIC RFG42A, Characteristics Area of application The SIMATIC RFG4ZA is a universal UHF antenna ina medium size with high range for industrial applications in production and logistics. Frequency range 65 10 928 MHZ Read range. Max. 8m Polarization Linear Degree of protection | 1P@5 Mounting 4am
(VESA 100 fixing system) Connector 30 om connecting cable (connected permanently tothe antenna) and RP-TNC coupling An antenna cable is required for connection tothe reader (e.g. 8GT2815-0BH30) Frequency ranges The antenna is a broadband antenna and covers the frequency ranges from 865 to 928 MHz. Function The SIMATIC RF642A is used for transmitting and receiving data in the UHF range. The antennas are connected to the SIMATIC RF600 readers via antenna cables that are available in different lengths. SIMATIC RF600 System Manual, 06/2019, 131083.D0171-UO01-A22-7618 29 Antennas 6.5 SIMATIC RF642A 6.5.2 Ordering data 6.5.3 Installation Mounting system Antenna holders 294 Table 6-22 Ordering data RFG42A Product Afticle number SIMATIC RFG42A @GT2812-1GA08 Table 6-23 Ordering data accessories Product Adticie number Connecting cable between 41m (cable loss 05 dB) @GT2815-08H10 reader and antenna 3m (cable loss 1.0 dB) 6GT2815-08H30 5 m, suitable for drag chains | 6GT2@15-2BH50
(cable loss 1.5 45) Om (cable 1055 2.0 dB) GGTZETS-TENTO 10 m (cable loss 4.0 dB) 6GT2815-08N10 45 m, suttable for drag chains | 6GT2815-2BN15,
(cable loss 4.045) 20 m (cable loss 4.0 dB) 6GT2815-08N20 40 m (cable loss 6.0 dB) 6GT2815-08N40 SIMATIC antenna holder for RFGOO devices @GT2860-2A810 Antenna mounting kit ect:
A standardized VESA 100 mounting system is provided to mount system consists of four fixing holes for M4 screws atintervals of 100 mm. The fintenna is suitable for mounting on metallic and non-metallic surfaces, Note Achieving optimum wave ptopaefation To achieve optimum ag ae fal witl interference
(ve pfopagation, the antenny PF Surrounded by conducting UTA also allow wave propagation The Siemens antenna holders allow for fine adjustment of the antenna field by setting the solid angle SIMATIC RF600 System Manual, 06/2019, 18 1063-00171 U001.A22.7618 Antennas 65.4 Requirement Strain relief SIMATIC RF600 6.5 SIMATIC RF642A Connecting the antenna The SIMATIC RF642A antenna must be connected to the reader using an antenna cable. Preassembled standard cables in lengths of 1 m, 3m, m, 10m, 15 m, 20 m and 40 m are available to connect the antenna. The range of the antenna islimited by the cable loss, The maximurn range can be achieved with the cable 6GT2815-0BH10 (length 1 m), since this cable has the lowest cable loss Note Use of Siemens antenna cable To ensure optimum functioning of the antenna, it is recommended that a Siemens antenna cable is used in accordance with the list of accessories Toprotect the antenna connecting cable from strain, you can attach stain relief e.g. in the form ofa strain relief damp. The following graphic shows the opfimum mounting paint for attaching strain relief
@ _RFesDA antenna connecting cable RF6OO antenna cable Mounting point for stain reter Figure 6-31 Strain relief System Manual, 06/2019, 131083.D0171-UO01-A22-7618 295 Antennas 6.5 SIMATIC RF642A 65.4.1 298 Bending radii and bending cycles of the cable The following listed bending radii are rinimurn values, which may not be fallen below and are based on repeated bending Table 6-24 Bending radii othe antenna cable Cable designa- | Article number Length (rr Cable loss [dB] | Bending radius tion [rom]
Antenna cable | 6GT2815-0BH10 1 os 51 Antenna cable | 6GT2815-0H30 1 51 Antenna cable | 6GT2815-2BH50 5 15 452
(suitable for drag chains) !
10 2 7 10 5 15 4 4502 20 7 40 5 7 ius with one-time bending. 28 mm Jd in drag chains, 100,000 bending cycles at a bending radius of 100 mm and a bend of = 180 or 3 milion torsion cycles with a bend of 180 on a cable length of 1 mare permitted, Polerization axis SIMATIC RF60O System Manual, 06/2019, 48 1063-00171 U001.A22.7618 Antennas 6.5 SIMATIC RF642A 65.5 Antenna parameter assignment 65.5.1 Alignment of transponders to the antenna SIMATIC RFEA2A Polarization axis Since the RF642A antenna has of the transponders with regard 10 t izatidn, it is necessary to consider the alignment larizatidn axis of the antenna
The polarization axes of antenna and franspender must always be parallel. The symbol on the antenna indicates the pqiarization bas ReezoT RFS25T Reesor RFeSOL, RFS6OT Gen? RFAAOL FRetoT SIMATIC RF600 System Manual, 06/2019, 131083.00171-UO01-A22-7618 297 Antennas 6.5 SIMATIC RF642A Alignment The following diagram shows the optimum alignment of the RF600 transponders to the RF642A antenna Mex. range [24]
30%, Figure 6-39. 10%
0%
-20-80 50-40-30"-20 10" 0 10" 20 30 40 50 60" 70" ag" 90"
Angie deviation cf the polarization axes of antenna and tag [decrees]
SIMATIC RF60O 298 System Manual, 06/2019, 48 1063-00171 U001.A22.7618 Antennas 6.5 SIMATIC RF642A Angle deviation diagram for alignment The following diagram shows the dependence of the following factors
@ Alignment angle of transponder to antenna
@ Maximum range of antenna Figure 6-34 Angle deviation diagram for alignment SIMATIC RF600 System Manual, 06/2019, 131083.D0171-UO01-A22-7618 299 Antennas 6.5 SIMATIC RF642A 655.2 RF642A parameter assignment Dey regional limitations with respect to the radiated power. Limitations in the EU, EFTA, or Turkey Note Limitaticrrofthe radiated: power according to EN HHEFSt RF600 systems that are put into operation in the EU, EFTA or Turkey must not exceed the following radiated power with an RF642A antenna 2000 mW ERP (or 33 dBm ERP) Converted into EIRP: 3250 mW EIRP (or 35 dBm EIRP) Make the following settings to ensure that the maximum permitted radiated power of the antenna is not exceeded:
@ Antenna gain 6 aBi
@ Radiated power: < 2000 mW ERP (or 33 dBm ERP) Corverted into EIRP: < 3250 mW EIRP (or 36 dBm EIRP) Us ofcable loss aamocaled wih he antenna cable Limitations in the USA and Canada 300 Note Lirntesttorrof tre radiated power (POC) RF600 systems that are put into operation in the USA and Canada must not exceed the following radiated power with an RF642A antenna 4000 mW EIRP (or36 dBm EIRP) Make the following settings to ensure that the maximum permitted radiated power of the antenna is not exceeded:
Conducted power P (dBm) of the RF600 reader: <30 dBm
@ Antenna gain Gi (ABI) in the FOC frequency band < 7 dBi
@ Cable loss a (dB) > 1 dB P (dBm) < 30 dBm -(G\-6 dBi) + ay SIMATIC RF600 System Manual, 06/2019, 48 1069-00171 U001.A22.7618 Antennas 6.5 SIMATIC RF642A Limitations in China Note Limitation of the radiated power (CMIIT) RF 600 systems that are put into operation in China must not exceed the following radiated power with an RF642A antenna 2000 mW ERP (or 33 dBm ERP) Converted into EIRP: 3250 mV EIRP (or 36 dBm EIRP) Make the following settings to ensure that the maximum permitted radiated power ofthe antenna is not exceeded:
@ Antenna gain: 7 dBi (or 10 dBiC) yy @ Radiated power. < 2000 mW ERP (or 33 dBm Converted into EIRP: < 3250 mW EIRP (9
}@ Use of cable loss associated with the SIMATIC RF600 System Manual, 06/2019, 131063.D0171-UO01-A22-7618 301 Antennas 6.5 SIMATIC RF642A 6.5.6 Antenna patterns 65.6.1 Antenna radiation pattemsan the ETS! frequency band Amplticetion 48 Directional radiation pattern ETSI The directggal fitfalion pattern is Khownyfor nominal alignment and a center frequency of 866:8MHz, TheTiomnal aptennd alignments given when the antenna elevation is provided howrtin the, follol a oo 180 Figure 6-35 Reference system Angle {degrees The half-power beam width of the antenna is defined by the angle between the two 3 dB points, The range (in %) corresponding to the dB values in the patterns can be obtained from
this table (Page 206).
Note that the measurements presented graphically below were carried out in a low-reflection environment, Deviations can therefore occur in a normally reflecting ervironment SIMATIC RF60O 302 System Manual, 06/2019, 48 1063-00171 U001.A22.7618 Antennas 6.5 SIMATIC RF642A Directional radiation patter in the ETSI frequency band Pattern of the vertical plane of the antenna Pattern of the horizontal plane of the antenna Figure 6-36 Directional radiation pattern of RFG42A in the ETSI frequency band SIMATIC RF600 System Manual, 06/2019, 131083.00171-UO01-A22-7618 308 Antennas 6.5 SIMATIC RF642A 65.6.2 Antenna radiation pattems in the FCG frequency band Directional radiation pattern USA (FCC) 4 The directional radiation pattern is shown for nlominahaligamant and a center frequency of 915 MHz, Figure 6.37 Reference system 200 ~l4 "60 The half-power beam width of the affinna is defined bythe angle between the two 3 dB points (corresponding to half the power refer to the maximum power). Which range (in %) corresponds to the dB values in the pattemg.canebe.ab tained from this table Notgaat the measurements presented graphically below were carried out in a low-reflection enfilth ent, Deviations can therefore occur in a normally reflecting ervironment SIMATIC RF600 304 System Manual, 06/2019, 18 1068-00171 U001.A22.7618 Antennas 6.5 SIMATIC RF642A Directional radiation pattern of the RF642A in the FCC frequency band Pattern of the vertical plane of the antenna Pattern of the horizontal plane of the antenna Figure 6-38 Directional radiation pattern of the RFG42A in the FCC frequency band SIMATIC RF600 System Manual, 06/2019, 131083.D0171-UO01-A22-7618 305 Antennas 6.5 SIMATIC RF642A 65.6.3 Example 306 Interpretation of directional radiation patterns The following overview table will help you with the interpretation of directional radiation patterns. Teel TOE HTEN GE WUE DESSONS NPE TERETE TANERS I") YOUN fe STOWE WHICH UBT VANES COTTESpONE TO WHICH TEaCMMTTS TAGES IT Ve) YOU CaN readtherad patel regard toa Transponder The dS values correspond io the difference between the maximum dBivalueand nd.
<Bivalue Deviation from maximum antenna gain [ar] Readhwrite range [94]
oO 100) 3 70 6 50 2 2 25 1 18 13 As can be seanin Dirsaional radiation pattem in the ETSI frequency band Page 202). he polatization axis at 70" oF 300" he antenna Gain dropped to sbout dBi Tharete the dB value is 6, The antenna range is cnly 70 of the maximum range at + 50 or +300 from the Z axis within the horizontal plane (see values shown in redin the directional radiation pattern Characteristic of the vertical plane of the antenna (Page 302) and the associated representation of the reference systern (Page 302) SIMATIC RF600 System Manual, 06/2019, 48 1069-00171 U001.A22.7618 Antennas 6.5 SIMATIC RF642A 65.7 Technical data Table 6-25 Technical specifications for the RFAZA antenna 8GT2812-1GA08 Product ype designation SIMATIC RFOWA, Radio requences Operating frequency OB To S28 MHZ Waxirum radiated power
+ ETSI + RF@SOR: = 2000 mi? ERP RFGS0R/RFGSER: = 2000 mW ERP TF + RFGSOR: = SOOO TNT EIR
+ omit + RF@5OR: = 1900 ri ERP RFGSOR/RFGSSR: = 2000 mW ERP
+ ARIE + STD-T107 rien gait
+ ETSI + ae Fee 7 aBi Vertical plane: 70"
see section "Directional radiation pattern inthe ETSI frequency band (Page 303)"
Front-to-back ratio
+ ETSI
+ Fee Electrical data Range Impedance Pdarization VSWR (standing wave ratio) Power SIMATIC RF600 System Manual, 06/2019, 131083.D0171-UO01-A22-7618 Vertical plane: 70"
see section "Directional radiation pattern of the RF@42A in the FOC frequency band
(Page 305)"
+ 1006
+ 9805 22.206 See section "Maximum readiwrite ranges of transponders (Page 59)"
50a Linear 215 aw 307 Antennas 6.5 SIMATIC RF642A 308 Interfaces Plug connection Degree of protectfon Shock resistant to EN 60088.2-27 Vibrations according to EN 60088-2-6 Design, dimensions and weight Dimensions (H x W x D) Weight Standards, specifications, approvals Proof of suitability MTEF eGT2812-1GA08 P-TNG coupling
(for ebnnect 1 tel turquoise Nm 197 185 x 185 x 45 mm 00g CE (according to RED), FCC (Title 47, Part 15.247), cULus 16880 years The values differ for different dimensionsimaterials of the mounting surface. The values for shock and vibration are maximum values and must not be applied continuously SIMATIC RF60O System Manual, 06/2019, 48 1069-00171 U001.A22.7618 Antennas 6.5 SIMATIC RF642A 65.8 Dimension drawing ce Fe Figure 6-38 Dimensional drawing of RFG42A All dimensions in mm. us SIMATIC RF600 System Manual, 06/2019, 131083.00171-UO01-A22-7618 309 Antennas 6.5 SIMATIC RF642A 6.5.9 Approvals & certificates Table 6-26 6GT2812-1GA08 Labelin, Description Conformity with the RED directive 201 4/53/EU Conformity with the RoHS directive 201 1/65/EU CG CFR 47, Part 15 sections 15.247 fadio Frequency Interference Statement his equipment has been tested and found to comply with the limits for a Class B digital device, pursuant to Part 15 of the FCC Rules. he FCC approval is granted in association with the FCC approval of he following RFEOO readers:
FOG ID: NXW-RFGOOR2
(for RFESOR: 637281 1-GABZO-1 AAO, RF GEOR: 6GT2a11-GAA10-1AA0, RFGE5R: 6GT2a11-60A10-1AA0) Inausty Candy fiato RSS.210lssue 7, June 2007, Sections 2.2, AB Standards Spectations | the approval for Industly Canada is granted in association with the Industry Canada approval ofthe following RF600 readers:
+ IC: 267X-RFEOOR?, Model RFGSOR (for 6ST281 1-GAB20-1AA0)
+ IC: 267X-RF6OOR?, Model RF GROR (for EST2B11-GAA10-1AA0)
+ _ IC: 267X-RFEOOR?, Model RFGRBR (for EST2811-6CA10-1AAQ) This product is UL-certified for the USA and Canada. It meets the following safety standards):
+ UL 60950-4 - Information Technology Equipment Safety - Part 4 General Requirements
+ CSA C222 No, 60950 -1 - Safely of Information Technology Equipment
+ _UL Report E 205089 SIMATIC RF60O 310 System Manual, 06/2019, 48 1063-00171 U001.A22.7618 Antennas 6.6 SIMATIC RFE50A 6.6 SIMATIC RF650A 6.61 Characteristics SIMATIC RFG5OA. Characteristics Area of application |The SIMATIC RFESOA is a universal UHF antenna ina medium size with medium range for industrial applica tions in production and logistics Frequency range | 865 to 928 wiz eed range Max Om Polerization Gheular Dearee of prtecion [1P6s weurting tans
(VESA 100 fixing system) Gonnecior The anienne is cennected dea to the mousing wih an RP-TNG cou. ating @) Frequency ranges The antenna is a broadband antenna and covers the frequency ranges from 865 to 928 MHz. Function The SIMATIC RF650A is used for transmitting and receiving data in the UHF range. The antennas are connected to the SIMATIC RF600 readers via antenna cables that are available in different lengths. SIMATIC RF600 System Manual, 06/2019, 131083.D0171-UO01-A22-7618 an Antennas 6.6 SIMATIC RF650A 6.6.2 Or dering data Table 6-28 Ordering data RFG50A Product Article number SIMATIG RFG5OA
@GT 2612-06808 Table 6-29 Ordering data accessories Product Adticle number Connecting cable between 1m (cable loss 05 dB) 8GT2815-05H10 ie 3m (cable loss 1.0 dB) 6GT2815-08H30 5 m, suitable for drag chains
(cable loss 1.5 45)
@GT2815-25H50 TO m (cable 1055 2.0 dB) BGTZETS-TENTO 10 m (cable loss 4.0 dB)
@GT2815-05N10 46 m, suttable for drag chains
(cable loss 4.045) eGT2815-25N15 20 m (cable loss 4.0 48)
@GT2815-05N20 40 m (cable loss 6.0 dB)
@GT2815-05N40 SIMATIG antenna holder for RFGOO devices
@GT2860-2A810 Antenna mounting kit
@GT2@0-0AA00 6.6.3 Install Mounting system Antenna holders 312
}-metallic surfaces. Achieving optimum wave propagaticn mm is provided tomeunt the antenna. The mounting screws at intervals of 100 mm. The antenna is To achieve eptimurn tion, the antenna should not be surrounded by conducting objects, The area belfyen antepra and transponder should also allow wave propagation without interference, The Siemens antenna holders allow for fine adjustment of the antenna field by setting the solid angle SIMATIC RF60O System Manual, 06/2019, 18 1069-00171 U001.422.7618 Antennas 66.4 Requirement Strain relief SIMATIC RF600 6.6 SIMATIC RF650A Connecting the antenna The SIMATIC RF 650A antenna must be connected to the reader using an antenna cable. Preassembled standard cables in lengths of 1 m, 3m, m, 10m, 15 m, 20 m and 40 m are available to connect the antenna. The range of the antenna is limited by the cable loss, The maximurn range can be achieved with the cable 6GT2815-0BH10 (length 1 m), since this cable has the lowest cable loss, Note Use of Siemens antenna cables To ensure optimum functioning of the antenna, it is recommended that a Siemens antenna cable be used in accordance with the list of accesscries. Toprotect the antenna from strain, you can attach strain relief, e.g. in the form ofa strain relief clamp. The fellowing graphic shows the optimum mounting point fer attaching strain relief
@ Feo antenna cable
@ Mounting poie for strain reter Figure 6-40 RF 650A strain relief System Manual, 06/2019, 131083.D0171-UO01-A22-7618 313 Antennas 6.6 SIMATIC RF650A 6641 Bending radii and bending cycles of the cable The following listed bending radii are rinimurn values, which may not be fallen below and are based on repeated bending Table 6-30 Bending radii othe antenna cable Cable designa- | Article number Lenath [rl Cable loss [dB] | Bending radius tion [mm Antenna cable | @GT2@15-cBH10 4 5 51 Antenna cable | @GT2615-cBH30 3 4 51 Ante 7
(suitable for drag chains) Antenna cable [@GT2@15-1EN10 10 2 7 Antenna cable | @GT2@15-cBN10 10 4 51 Antenna cable | @GT2e15-26N15 15 4 4508
(suitable fora chains) Antenna cable [eGT2e15-ceN20 [20 4 7 Antenna cable [@GT2e15-cBNa0 40. 5 7 Permissible minimum bending radius with one-time bending. 28 mm. 2) with cables capable of being used in drag chains, 100,000 bending cycles at a bending radius of 100 mm and a bend of 180" or 3 million torsion cycles with a bend of + 180 on a cable length of 1 mare permitted, 6.6.5 Antenna parameter assignment Depending-orrtre-coontry-o-regterrirrwhict the antenmarts being operated, tis subject t7 regional limitations with respect to the radiated power. Limitations in the EU, EFTA, or Turkey Note Limitaticrrof tre rarated power according to EN tAHETSIY RF600 systems that are put into cperaion in the EU, EFTA or Turkey must not exceed the following radiated power with an RFG50A antenna
+ 2000 mW ERP (or 33 dBm ERP) Converted into EIRP: 3250 mW EIRP (or 35 dBm EIRP) SIMATIC RF600 314 System Manual, 06/2019, 48 1069-00171 U001.A22.7618 Antennas 6.6 SIMATIC RF650A Make the following settings to ensure that the maximum permitted radiated power of the antenna is not exceeded:
Limitations in th SIMATIC RF600
@ Antenna gain: 4 dBi (7 dBic)
@ Raziated power < 1300 mW ERP (cr 31.15 dBm ERP) Converted into EIRP: < 2140 mW EIRP (0r33.3 dBm EIRP)
@ Use of cable loss associated with the antenna cable. nicl Canad Note Limitation of the radiated power (FCC) RF600 systems that are put into operation in the USA and Canada must not exceed the following radiated power with an RFGS0A antenna 4000 mW EIRP (or 36 dBm EIRP) Make the following settings to ensure that the maximum permitted radiated power of the antenna is not exceeded:
Conducted power P (dBm) of the RF600 reader. < 30 dBm
@ Antenna gain Gi (dBi) in the FCC fequency band: < 3.5 dBi Cable loss a 26adhmW ERP (or 33 dBm ERP) Collverted into EIRP: 3250 mW EIRP (or 36 dBm EIRP) Make the following settings to ensure that the maximum permitted radiated power of the antenna is not exceeded:
Antenna gain: 3.5 aBi (6.5 dBic)
@ Raziated power < 2000 mW ERP (cr 33 dBm ERP) Converted into EIRP: < 3250 mW EIRP (or 36 dBm EIRP)
@ Use of cable loss associated with the antenna cable. System Manual, 06/2019, 131083.D0171-UO01-A22-7618 315 Antennas 6.6 SIMATIC RF650A Limitations in Japan Note Limitation of the radiated power (ARIB) RF600 systems that are put into operation in Japan must not exceed the following radiated power with an RF650A antenna:
500 mW EIRP (or 27 dBm EIRP) for operation with RF650R (ARIB STD-T107) 4000 mW EIRP (or36 dBm EIRP) for operation with RF 60RIREGSSR (ARIB STD-1106) Antenng patterns alignment of the ranspq sure-hewever, that the tt Figure 6-41 Alignment of the transponder polarization axis with a circular antenna axis of symmetry SIMATIC RF60O 316 System Manual, 06/2019, 48 1063-00171 U001.A22.7618 Antennas 6.6 SIMATIC RF650A 66.6.1 Antenna pattems in the ETSI frequency band Directional radiation pattern ETSI a ee s rate Sejm for antenna alignmentiis given Ang figure:
The directional rafiation 8663 MHz, The ni as showin the nfient and a-center frequency of etNhe antenna elevation is provided Figure 6-42 _Refilce system
[ihe halt power beam width of the antenna is defined by the angle between the two-3 dB points. The range (in %) corresponding to the dB values in the patterns can be obtained from this table (Page 321) Note that the measurements presented graphically below were carried out in a low-reflection environment, Deviations can therefore occur in a normally reflecting environment. SIMATIC RF600 System Manual, 06/2019, 131083.00171-UO01-A22-7618 317 Antennas 6.6 SIMATIC RF650A Radiation diagram (circular) in the ETSI frequency band Pattern of the vertical plane of the antenna Pattern of the horizontal plane of the antenna Figure 6-43 Directional radiation pattern of RFESOA in the ETSI frequency band SIMATIC RF60O 318 System Manual, 06/2019, 48 1063-00171 U001.A22.7618 Antennas 6.6 SIMATIC RF650A 66.6.2 Antenna patterns in the FCC frequency band Directional radiation pattern FCC The directional radiatign patter 915 MHz. aligntient and a-eonter-frequency of Figure 6-44 Reference system
The half power beam width of the antenna is defined by the angle between the two 3 dB oints (corresponding to half the power in relation to the maximum power). Which range (in
%) comesponds to the dB values in the patterns can be obtained from this table (Page 321). Note that the measurements presented graphically below were carried out in a low-reflection environment, Deviations can therefore occur in a normally reflecting environment. SIMATIC RF600 System Manual, 06/2019, 131083.D0171-UO01-A22-7618 319 Antennas 6.6 SIMATIC RF650A Radiation diagram (circular) in the FCC frequency band Pattern of the vertical plane of the antenna Pattern of the horizontal plane of the antenna Figure 6-45 Directional radiation pattern of the RFEBOA in the FCC frequency band SIMATIC RF600 320 System Manual, 06/2019, 48 1069-00171 U001.A22.7618 Antennas 6.6 SIMATIC RFE50A 66.63 Interpretation of directional radiation patterns The following overview table will help you with the interpretation of directional radiation patterns. The Tabs SHOWS WICH UBT VaILES COTESpONA TO WHICH TeaarWMTE TANGES (MT Vo] VOU CATT Table 6-31 Interpretation of directional radiation patterns Example antenna gain in the vertical plane is 3.45 dBi (6.45 dBic)_In this plane, and with the polarization axis of the transponder parallel to the axis of symmetry of the antenna, the antenna gam drcps fo about U5 dBic al 50" or 310" This means tal the dBr value 1s -6. The antenna range is only +80% of the maximum range at + 50 or 310 from the Z axis within the vertical plane (see values shown in blue in the directional radiation pattern Characteristic of the vertical plane of the antenna (Page 31 7jand the associated representation ofthe reference system (Page 21 SIMATIC RF600 System Manual, 06/2019, 131083.D0171-UO01-A22-7618 321 Antennas 6.6 SIMATIC RF650A 6.6.7 Technical data Table 6- 32 _ Technical specifications for the RFESOA antenna 8GT2812-0808 Product type designation SIMATIC RFGBOA Rado Wequencies Operating Wequency TE MAZ Maximum radiated Power
+ ETSI + RFGSOR: < 1365 mW ERP
+ Foo + RF@SOR: < 2240 mi EIRP MIT + RFGSOR: < 1365 mW ERP
+ ARIE, STOTT;
+ sTD.T10%
RF GS0R/RFGESR: < 4000 mW EIRP Antenna-gai op 2 tical plane: 70"
see section "Antenna patterns in the ETSI Trequeney band (Page 317)"
+ Foo. + Horizontal plane: 90 Vertical plane: 76"
ee section Antenna pattems in the FOC Front-to-back ratio TEqUency Wane PAGE STS
+ ETSI
+ 18dbs208
(depends on orientation of the transpond-
en)
+ Foo 322
+ 17.5dB 2548
(depends on orientation of the transpond-
en) SIMATIC RF600 System Manual, 06/2019, 48 1069-00171 U001.A22.7618 Antennas SIMATIC RF600 System Manual, 06/2019, 131083.D0171-UO01-A22-7618 Electrical data Range Impedang Paarizat VSWR (skandin}
wave ratio) neces |
Plug connection "|
Material Color Tightening torafe (at room temperatur gg Tiattening foray ( ia Permitted ambient conditions Ambient temperature
+ During operation
+ During transportation and storage Degree of pratection Shock resistant to EN 60088.2-27 Vibrations according to EN 60088.2-6 Design, dimensions and weight Dimensions (Hx W x D) Weight Standards, specifications, approvals Proof of sutabilty MTBF 6.6 SIMATIC RF650A eGT2812-0GB08 49302 100802 Spe section "Maximun] readiwrite ranges of RP -UNC coupling {fgr conn: of the an-
tenna cable]
e e Pastel turqddise
=2Nm
+25... #75C
+40... 485C 198 x 198 x60 mm 209 CE (according to RED), FCC (Title 47, Part 15.247), cULus 946 years The values differ for different dimensions/materials of the mounting surface. 2 The values for shock and vibration are maximum values and rust not be applied continuously. 323 Antennas 6.6 SIMATIC RF650A 6.6.8 Dimension drawing ce Fe Figure 6-48 Dimension drawing RFG5OA, All dimensions in mm 324 SIMATIC RF60O System Manual, 06/2019, 48 1063-00171 U001.A22.7618 Antennas 6.6.9 Approvals & certificates Table 6-33 6GT2812-06508 6.6 SIMATIC RFE50A Labelin, Description Conformity with the RED directive 201 4/53/EU Conformity with the RoHS directive 201 1/65/EU Description FOG GFR 47, Part 15 sections 15.247 Radio Frequency Interference Statement This equipment has been tested and found to comply with the limits for a Class B digital device, pursuant to Part 15 of the FCC Rules. The FG approval is granted in association with the FCC approval of the following RF6OO readers:
+ FOG ID: NXW-RFGISR
(for RFGISR: 6GT2811-6CC10-4AA0)
+ FOG ID: NXW-RF6OOR2
(for RFG5OR: 6GT2B11-GAB20-1AA0, RFGEOR: 6GT2811-6AA10-1AA0, RFGA5R: 6GT2A11-6CA10-1.A0) RSS-247 Issue 2 The approval for Industry Canada is granted in association with the Industry Canada approval of the following RF.G0O readers:
+ IC: 267% RFEI5R, Model RFGI5R (for 6ST2B11-6CC10-1AAD) RSS-210 lssue 7, June 2007, Sections 2.2, AB The approval for Industry Canada is granted in association with the Industry Canada approval of the following RFG0O readers:
+ IC: 267%.RFGOOR?, Model RFGSOR (for 6GT281 1 -6AB20-1AA0)
+ IC: 267%.RFGOOR2, Model RF GROR (for EGT2811-GAA10-1AA0)
+ _ IC: 267X-RFGOOR?, Model RF GRBR (for 6ST2AI1-6CA10-1AA0) This product is UL-certfied for the USA and Canada. Itmeets the following safety standards)
+ UL 60950-4 - Information Technology Equipment Safety -Part 4 General Requirements
+ CSA C222 No 60950 -1 - Safety of Information Technology Equipment
+ UL Report E 115352 SIMATIC RF600 System Manual, 06/2019, 131063.D0171-UO01-A22-7618 325 Antennas 6.7 SIMATIC RFE60A 67 SIMATIC RF660A 674 Characteristics SIMATIG RFGGOA Characteristics Area of application The SIMATIC RFGBOA is a universal UHF antenna with high range for industrial applications in production and logistics, Frequency ranges
+ 865 10.868 MHz (RFGGOA FCC)
+902 to 928 MHz (RFGEOA FCC) Read range. Max. 8m Polarization Circular Degree of protection | ipe7 Mounting 4xma
(VESA 100 fixing system) Connector The antenna is connected directly to the housing with an RP-TNC cou-
pling Frequency ranges The antenna is a narrowband antenna andis available in the following two frequency range Function 326 variants,
@ =RFGSOA ETSI: 865 to 863 MHz
@ =RFGSOA FCC: 902 to 928 MHz The SIMATIC RF60A is used for transmitting and receiving data in the UHF range. The antennas are connected to the SIMATIC RF600 readers via antenna cables that are available in different lengths. SIMATIC RF600 System Manual, 06/2019, 48 1069-00171 U001.A22.7618 Antennas 672 Ordering data Table 6-35 Ordering data RFGOA 6.7 SIMATIC RFE60A Product Article number SIMATIC RF@SOA (ETS) 8GT261 2-08.00 SIMATIC RF@S0A (FCC) 6GT2612-00A01 Table 6-36 Ordering data accessories Product Article number Connecting cable between reader and antenna 4 m(cable loss 0.5 dB)
(@GT2615-06H10 3 m(cable loss 1.0.4)
(@GT2615-06H30 5 m, suitable for drag chains 6GT2815-26H50
(cable 1058 7.5 dB) 10m (cable loss 2.0.48)
@GT2615-16N10 10m (cable loss 4.0.48)
(@GT2615-06N10 15 m, suitable for drag chains
(cable loss 4.0.48)
@GT2815-26N15 20 m (cable loss 4.0 dB)
(@GT2615-06N20 40m (cable loss 5.0.48)
(@GT2615-06N40 devices 6GT2890-2A510
(8GT2890-08A00 67.3 Installation Mounting system A standardized VESA 100 mounting system is provided to mount the antenna, The mounting system consists of four fixing holes for M4 screws at intervals of 100 mm. The antenna is suitable for mcunting on metallic and ncn-metallic surfaces. Note Achieving optimum wave propagation Toachieve optimum wave propagaticn, the antenna should not be surrounded by conducting objects, The area between antenna and transponder should also allow wave propagation without interference. Antenna holders The Siemens antenna holders allow for fine agjustment of the antenna feld by setting the solid angle. SIMATIC RF600 System Manual, 06/2019, 131069.00171-UO01-A22-7618 327 Antennas 6.7 SIMATIC RFE60A 674 Requirement 67.4.1 328 Connecting the antenna The SIMATIC RF660A antenna must be connected to the reader using an antenna cable. Preassembled standard cables in lengths of 1m, 3m, 6 m, 10m, 15 m, 20 m and 40 m are available to connect the antenna. The range of the antenna is limited by the cable loss. The maximum range can be achieved with the cable 6GT2815-0BH10 (length 1m), since this cable has the lowest cable loss, Note Use of Siemens antenna cable To ensure optimum functioning of the antenna, itis recommended that a Siemens antenna cable is used in accerdance with the list of accessories Figure 6-47 Rear of antenna with RTNC connection Bending radii and bending cycles of the cable The following listed bending radii are rinimurn values, which may not be fallen below and are based on repeated bending Table 6-37 Bending radii othe antenna cable Cable designa- | Article number Lenath [rl Cable loss [dB] | Bending radius tion [mm Antenna cable | @GT2@15-cBH10 4 5 51 Antenna cable | @GT2615-cBH30 3 4 51 Antenna cable [@GT2e16-26H50 [5 18 4599
(suitable for drag chains) Antenna cable [@GT2615-1EN10 10 2 7 SIMATIC RF600 System Manual, 06/2019, 48 1069-00171 U001.A22.7618 675 Antennas 6.7 SIMATIC RFE60A Cable designa- | Article number Length (rn Gable loss [dB] | Bening radius Antenna cable | 6G72815-05N10 10 4 51 Antenna cable | 6GT2@15-25N15 18 4 453)
(suttable for drag chains) Antenna cable | 6G72615-05N20 20. 4 7 Permissible minimum bending radius with one-time bending. 28 mm 2 With cables capable of being used in drag chains, 100,000 bending cycles at a bending radius of 100 mm and a bend of + 180 or 3 million torsion cycles with a bend of 180 on a cable length of 1 mare permitted Antenna parameter assignment Depending on the country or region in which the antenna is being operated, itis subject to regional limitations with respect to the radiated power. Limitations in the EU, EFTA, or Turkey SIMATIC RF600 Note Limitation of the radiated power according to EN 302 208 V1.4.1 (ETSI) RF.600 systems that are put into operation in the EU, EFTA or Turkey must not exceed the following radiated power with an REG6OA antenna
+ 2000 mW ERP (or 33 dBm ERP) Converted into EIRP: 3250 mW EIRP (or 36 dBm EIRP) Make the following settings to ensure that the maximum permitted radiated power of the antenna is not exceeded:
@ Antenna gain: 7 dBi (10 dBic)
@ Radiated power < 2000 mW ERP (cr 33 dBm ERP) Converted into EIRP: < 3250 mW EIRP (or 36 dBm EIRP)
@ Use of cable loss associated with the antenna cable. System Manual, 06/2019, 131083.D0171-UO01-A22-7618 329 Antennas 6.7 SIMATIC RFE60A Limitations in the USA and Canada Limitations in China Limitations in Japan 330 Note Limitation of the radiated power (FCC) RF600 systems that are put into operation in the USA and Canada must not exceed the following radiated power with an RFG6OA antenna 4000 mW EIRP (or36 dBm EIRP) Make the following settings to ensure that the maximum permitted radiated power of the antenna is not exceeded:
@ Conducted power P (dBm) of the RF 600.reader: <30 dBm
@ Antenna gain Gi (ABI) in the FOC and < 6 dBi
@ Cable loss a4 (dB) > 1 dB P (dBm) < 30 dBm -(G\- 6 dBi) + ay Note Limitation of the RF60O systems that are power with an RFS 2000 mW Converted Make the fo antenna is Antenna
@ Radiated po. 000 mW ERP (
Corverted into EIRP: < 3250 mW EIRP
@ Use of cable loss associated with the an Note Limffalign of the radiated power (ARIB STD-T106) RF600 systems that are put into operation in Japan must not exceed the following radiated power with an RF6SOA antenna:
500 mW EIRP (or 27 dBm EIRP) for operation with RF650R (ARIB STD-T107) 4000 mW EIRP (or36 dBm EIRP) for operation with RF 680R/RFGSSR (ARIB STD-T106) SIMATIC RF600 System Manual, 062019, 48 1063-00171 U001.A22.7618 Antennas 6.7 SIMATIC RFE60A 6.7.6 Antenna patterns Spatial directional radiation pattern The fdllowing schematic diagram shows the main and auxiliary fields of the RF660A antenna in free space in the absence of reflecting/absorbing materials, Please note that the diagram is not to scale. The recommended working range lies within the main field that is shown in green Gaining 4 aa sae su 00 oD anga in dogtoes Main fla (processing ik) Secondary Telus Figure 648 Main and auxllany elds ofthe RFGGOA antenna sinaic RO System Manual, 06/2019, 131083.00171-UO01-A22-7618 331 Antennas 6.7 SIMATIC RFE60A Radiation diagram (horizontal) Europe (ETSI) The radiation diagram is shown for horizontal alignment and for a center frequency of 865 MHz, Horizontal antenna alignment is provided when the TNG connection on the antenna points vertically up or down, The radiatingfreceiving angle of the antenna is defined by the angle between the two 3 dB points (corresponding to half the power referred to the maximum performance at a 0 angle). The optimum radiating/reesivii-angle is therefore approximately #30 degrees. 348 808
=100" 0 60 700 Angle In dearass 25 Vv 30 35 Figure 6-49 Directional radiation pattern of the antenna (at 865 MHz, horizontal alignment) SIMATIC RF60O 332 System Manual, 06/2019, 48 1063-00171 U001.A22.7618 Antennas 6.7 SIMATIC RFE60A USA (FCC) The radiation diagram is shown for horizontal alignment and for a center frequency of 915 MHz 5 ding io-half th ferad-to-th re 14.02 angle). Figure 6-50 Directional radiation patter of the antenna (at 915 MHz, horizontal alignment) SIMATIC RF600 System Manual, 06/2019, 131083.D0171-UO01-A22-7618 333 Antennas 6.7 SIMATIC RFE60A 6.77 Technical data Table 6-38 Technical specifications for the RFEEOA antenna 8GT2812-0AAOx Product type designation SIMATIC RFGGOA Rado Wequencies Operating Wequency
+ ETSI
+ B65 16 868 MHZ
+ Foo
+902 to a MHZ Maximum radiated power RFGSORIRFGSBR: = 2000 mitt ERP RFGSORIRFGSBR: = 4000 mit! EIRP
+ cmt + RFE50R: < 2000 mW ERP. RFGS0R/RFGESR: = 2000 mW ERP
+ ARIB + sTD-T107:
RF@BOR: $ 500 mW EIRP
+ STD-T108:
RF SS0RIRF GEER: = SOOO HW ETRE Antena gar F
+S URNS WET Opening angle for sendingirecewing
+ ETSI
+ Horizontal plane: 55*
7 ion "Antenna pati
(Page 331)"
+ Foo
+ Horizontal plane: 60 tical plane: 75"
see section "Antenna patterns
(Page 331)"
Fronttoshack ral
+ ETSI
+ Foo 334
+ 10dB +248
+ 18dBs248 SIMATIC RF600 System Manual, 06/2019, 48 1069-00171 U001.A22.7618 Antennas SIMATIC RF600 System Manual, 06/2019, 131083.D0171-UO01-A22-7618 6.7 SIMATIC RFE60A 8GT2812-0AA0x 1054 00 3129 Elec(ficaraate pestic __ rail |
Mechanical specifications Material Color Tightening torque (at room temperature) Permitted ambient conditions Ambient temperature
+ During operation
+ During transportation and storage Degree of pratection Shock resistant to EN 60088.2-27 Vibrations according to EN 60088.2-6 Design, dimensions and weight Dimensions (Hx W x D) Weight Standards, specifications, approvals Proof of sutabilty MTBF See section "Maximjm read tran:
80 cirpiar 23 rite ranges of RP-TNC col tenna cable) the an-
PAZ Pastel turquoise
=2Nm
+25... #75C
+40... 485C per 25.59%
19?
319.2313 x80 mm 1.8ka CE (ETSI EN 302208), FCC (Title 47, Part 15.247), CULus 228310 years The values differ for different dimensions/materials of the mounting surface. 2 The values for shock and vibration are maximum values and rust not be applied continuously. 335 Antennas 6.7 SIMATIC RFE60A 67.8 Dimension drawing ce Figure 631 Dimension drawing RFSOA, All dimensions in rm (4 0.5 mm tolerance) SIMATIC RF60O 336 System Manual, 06/2019, 48 1063-00171 U001.A22.7618 Antennas 679 Approvals & certificates Table 6-39 6GT2812-08A00 6.7 SIMATIC RFE60A Labelin, Description Conformity with the RED directive 201 4/53/EU Conformity with the RoHS directive 201 1/65/EU Table 6-40 6GT2812-0AA01 Labelin, Description Federal Communications Commission FOG GFR 47, Part 15 sections 15.247 Radio Frequency Interference Statement This equipment has been tested and found to comply with the limits for a Class B digital device, pursuant to Part 15 of the FCC Rules. The FOG approval is granted in association with the FCC approval of the following RF6OO readers:
+ FOG ID: NXW-RF6OORZ
(for RFG5OR: 6GT2B1 1-GAB20-1AA0, RFGEOR: 6GT2811-8AA10-1AA0, RF@A5R: 6GT2811-6CA10-1AA0) RSS-210 lesue 7, June 2007, Sections 2.2, AB The approval for Industry Canada is granted in association with the Industry Canada approval of the following RFG0O readers:
+ IC: 267%RFGOOR?, Model RF SOR (for 6GT2811-6AB20-1AA0)
+ IC: 267%.RFGOOR?2, Model RFGROR (for ET28I1-6AA10-1AA0)
+ _ IC: 267XRFGOOR?, Model RF GRBR (for EST2AI1-6CA10-1AA0) This product is UL-certfied for the USA and Canada. Itmeets the following safety standards)
+ UL 60950-4 - Information Technology Equipment Safety -Part 4 General Requirements
+ CSA C222 No 60950 -1 - Safety of Information Technology Equipment
+ _UL Report E 205089 SIMATIC RF600 System Manual, 06/2019, 131083.00171-UO01-A22-7618 237 Antennas 6.8 SIMATIC RFE80A 68 SIMATIC RF680A NOTICE i Note on release The use of the adaptive antenna SIMATIC RF680A wih the readers RF650R, RF680R and RF685R as of version V2.2.0 (supplied as of (3/2016) is possible You wilftnd the version on the type plate ofthe devioe o sa:
6.8.1 Characteristics SIMATIG RFGBOA a Characteristics Area of application The SIMATIC RFGBOA is an adap-
tive UHF antenna ina medium size with high range for industrial appli-
cations in production and logistics. Frequency range 65 to 928 MHZ Read range. Max. 8m Polarization Selectable (circular, linear horizon-
tal, linear vertical) Degree of protection | 1P@5 Mounting 4xma
(VESA 100 fixing system) Connector The antenna is connected directly to the housing with an RP-TNC cou-
ana @) Status display Frequency ranges Function 338 1160 @
The antenna is a broadband antenna and covers the frequency ranges from 865 10.928 MHz, The SIMATIC RF680A is used for transmitting and receiving data in the UHF range. The antennas are connected to the SIMATIC RF600 readers via antenna cables that are available in different lengths. SIMATIC RF600 System Manual, 06/2019, 48 1069-00171 U001.A22.7618 Antennas 6.8 SIMATIC RFE80A LED status display The operating statuses of the antenna are displayed by an LED status display. The LED can adopt the colors green, red or yellow and the statuses off ,on _, flashing Table 6-41 Display of operating statuses ofthe antenna LED | Meaning LED static for 1 second when the reader starts up:
The device is ready for operation and the connection to the reader is established; opera-
tional staus, The device is ready for operation but currently inactive. The device is active but there is no transponder in the antenna field The device is active and there is at least one transponder in the antenna field Identification of the antenna by the reader function "buzz test"
There is an error or antenna firrware update is being made. Indication of the quality of the antenna alignment (RSS!) When aligning the antenna using the WBM, the three-color LED status display indicates the RSSI value with which the transponder was detected
@ Red: Low RSSI value
@ Yellow: Medium RSS! value
@ Green: High RSS! value SIMATIC RF600 System Manual, 06/2019, 131083.D0171-UO01-A22-7618 339
1 2 | User Manual 6 | Users Manual | 5.32 MiB | April 06 2020 / April 07 2020 |
Antennas 6.8 SIMATIC RFE80A 6.8.2 Or dering data Table 6-42 Ordering data RFG8OA Product Article number SIMATIG RFGBOA eGT 2612-26808 Table 6-43 Ordering data accessories Product Article number Connecting cable between reader and antenna 1m (cable loss 05 dB)
@GT2815-05H10 3m (cable loss 1.0 dB)
@GT2815-08H30 5 m, suitable for drag chains
(cable loss 1.5 45)
@GT2815-25H50 410 m (cable loss 2.0 dB)
@GT2815-1BN10 410 m (cable loss 4.0 dB) eGT2615.08N10 45 m, suttable for drag chains
(cable loss 4.045) eGT2815-25N15 20 m (cable loss 4.0 48)
@GT2815-05N20 40 m (cable loss 6.0 dB)
@GT2815-05N40 SIRTACTTC anTerima NoWder Tor RF COU WEvICEs TZEQOZRETO. Antenna mounting kit
(@GT2A60-0AA00 6.83 Installation Mounting system Antenna holders 340 A standardized VESA 100 mounting system is provided to mount the antenna, The mounting system consists of four fixing holes for M4 screws atintervals of 100 mm. The antenna is suitable for mounting on metallic and non-metallic surfaces. Note Achieving optimum wave propagation To achieve cptimur wave propagation, the antenna should not be surrcunded by conducting objects, The area between antenna and transponder should also allow wave propagation without interference, The Siemens antenna holders allow for fine adjustment of the antenna field by setting the solid angle SIMATIC RF600 System Manual, 06/2019, 48 1069-00171 U001.A22.7618 Antennas 6.8 SIMATIC RFE80A 68.4 Connecting the antenna The SIMATIC RF680A antenna must be connected to the reader using an antenna cable. Preassembled standard cablesin lengths of 1m, 3m, 5m, 10 m, 15m, 20 m and 40 m are available to connect the antenna. na RF6S0A during operation. Only connect the antenna off and then restart the reader. by the cable loss, The maximurn range can be achieved th 1 m), since this cable has the lowest cable loss, Requirement cable be used ro fe with the list of accesscries, SIMATIC RF600 System Manual, 06/2019, 131083.00171-UO01-A22-7618 341 Antennas 6.8 SIMATIC RFE80A Strain relief To protect the antenna from strain, you can attach strain relief, e.g. in the form ofa strain relief clamp. The following graphic shows the optimurn mounting point for attaching strain relief Mounting point for strain relieT 8 RF6OO antenna cable Figure 652 Strain relief 6844 Bending radii and bending cycles of the cable The following listed bending radii are rinimurn values, which may not be fallen below and are based on repeated bending Table 6-44 Bending radii othe antenna cable
(suitable for drag chains) Cable designa- | Article number Lenath [rl Cable loss [dB] | Bending radius tion my Antenna cable | @GT2@15-cBH10 4 5 51 Antenna cable | @GT2615-cBH30 4 51 Antenna cable [@GT2e16-26H50 [5 18 4508
(suitable for drag chains) Antenna cable [@GT2e15-1EN10 10 2 7 Antenna cable | @GT2@15-cBN10 10 51 Antenna cable | @GT2e15-26N15 15 4 4599 342 SIMATIC RF600 System Manual, 06/2019, 48 1069-00171 U001.A22.7618 Antennas 6.8 SIMATIC RFE80A Cable designa- | Article number Length (rn Gable loss [dB] | Bening radius Antenna cable | 6G72615-05N20 20. 4 7 Antenna cable | 6G72615-05N40 40 5 7 Permissible minimum bending radius with one-time bending. 28 mm 2 With cables capable of being used in drag chains, 100,000 bending cycles at a bending radius of 100 mm and a bend of + 180 or 3 million torsion cycles with a bend of + 180 on a cable length of T mare permitted 68.5 Antenna parameter assignment Depending on the country or region in which the antenna is being operated, itis subject to regional limitations with respect to the radiated power. Limitations in the EU, EFTA, or Turkey Note Tintrattor of the radiated power according TEN 302 208-V ETSI]
RF.600 systems that are put into operation in the EU, EFTA or Turkey must not exceed the following radiated power with an RF68OA antenna
+ 2000 mW ERP (or 33 dBm ERP) Converted into EIRP: 3250 mW EIRP (or 36 dBm EIRP) Hake the fottoning settings to ensure tat tre maximum permitted radiated power of the antenna is not exceeded:
Antenna gain: 3.5 aBi (6.5 dBic)
@ Raziated power < 2000 mW ERP (cr 33 dBm ERP) Converted into EIRP: < 3250 mW EIRP (or 36 dBm EIRP)
@ Use of cable loss associated with the antenna cable. SIMATIC RF600 System Manual, 06/2019, 131083.D0171-UO01-A22-7618 38 Antennas 6.8 SIMATIC RFE80A Limitations in the USA and Canada Limitations in China _ Limitations in Japan 344 Note Limitation of the radiated power (FCC) RF600 systems that are put into operation in the USA and Canada must not exceed the following radiated power with an RFG8OA antenna 4000 mW EIRP (or36 dBm EIRP) Make the following settings to ensure that the maximum permitted radiated power of the antenna is not exceeded !
@ Conducted power P(g
@ Antenna gain Gi (aBi)
@ Cable loss a (dB} = 408 |
P (dBm) < 30 dBm -(Gj Ik i eBroly reader: <30 8m the ECC flealfincy band: < 3.5 dBi Note Limitation dtdab radiated power (CMIIT) RF600 systems that are put into cperation in China must not exceed the following radiated power with an RF680A antenna:
2000 mW ERP (or 33 dBm ERP) Converted into EIRP: 3250 mW EIRP (or 35 dBm EIRP) Make the following settings to ensure that the maximum permitted radiated power of the antenna is not exce,
@ Radiated pony P (of 33 dBm ERP) Corverted into ERAS EIRP (or 35 dBm EIRP) 3 Ih tha antenna cable Nof i imation of the radiated power (ARIB) RF60) systems that are put into operation in Japan must not exceed the following radiated power with an RF6S0A antenna:
500 mW EIRP (or 27 dBm EIRP) for operation with RF650R (ARIB STD-T107) 4000 mW EIRP (or36 dBm EIRP) for operation with RF 680R/RFGSSR (ARIB STD-1106) SIMATIC RF600 System Manual, 06/2019, 48 1069-00171 U001.A22.7618 Antennas 6.8 SIMATIC RFE80A 6.8.6 Antenna patterns Transponder alignment The antenna RF 680A has an adjustable antenna (circular or linear horizontal or linear vertical). With a circular antenna the alignment of fhe antenna axis of symmetry changes between horizontal and vertical each time it transmits. For this reason, with a circular antenna the alignment of the transponder polarization axis (horizentalWvertical) is unimportant. Make sure, however, that the transponder is 4ligned with the antenna. Figure 6.54 Alignment of the transponder polarization axis with a linear vertical or linear horizontal antenna axis of symmetry SIMATIC RF600 System Manual, 06/2019, 131083.00171-UO01-A22-7618 345 Antennas 6.8 SIMATIC RFE80A 686.1 Antenna pattems in the ETSI frequency band Directional radiation pattern ETSI The directional radiatiotpatternsShown for nominal allfgament alid a centerfrequeneysof hna alignment is given when tag igure. Figure 6.55 Reference Eiilem Thdl@lf_power beam width of the antenna is defined by the angle between the two 3 dB points, The range (in %) corresponding to the dB values in the patterns can be obtained from this table (Page 254). Note that the measurements presented graphically below were carried out in a low-reflection environment, Deviations can therefore occur in a normally reflecting ervironment SIMATIC RF600 346 System Manual, 06/2019, 18 1063-00171 U001.A22.7618 Antennas 6.8 SIMATIC RFE80A Radiation diagram circular in the ETS! frequency band
[_se Pattern of the vertical plane of the antenna
[_s Pattern of the horizontal plane of the antenna Figure 6-58 Directional radiation pattern of RF&8OA in the ETSI frequency band SIMATIC RF600 System Manual, 06/2019, 131089.D0171-UO01-A22-7618 347 Antennas 6.8 SIMATIC RFE80A Radiation diagram (linear horizontal) in the ETSI frequency band
[Eifattem of the vertical plane of the antenna
[EiPattem of the horizontal plane of the antenna Figure 6.57 The RF60A directional radiation pattern in the ETSI frequency band, axis of symmetry of the antenna, and polarization axis of the transponder are aligned horizontally SIMATIC RF600 348 System Manual, 06/2019, 48 1063-00171 U001.A22.7618 Antennas 6.8 SIMATIC RFE80A Radiation diagram (linear vertical) in the ETSI frequency band Pattern of the vertical plane of the antenna Pattern of the horizontal plane of the antenna Figure 6.58 The RFGSOA directional radiation pattern in the ETSI frequency band, axis of symmetry of the antenna, and polarization axis of the transponder are aligned vertically SIMATIC RF600 System Manual, 06/2019, 131083.00171-UO01-A22-7618 349 Antennas 6.8 SIMATIC RFE80A 686.2 Antenna patterns in the FCC frequency band Directional radiation pattern FCC The directional radiation pattern jis. regi and'a center frequency of 915 MHz OS Figure 6-59 Reference system " an ThdlAl-power bear width of the antennas defined by the angle between the two 3 dB poigfeeesponding thal he power in relaon to he maximum power). Which renge (n
%) beffesponds to the dB values in the patterns can be obtained from this table (Page 254) Note that the measurements presented graphically below were carried out in a low-reflection environment, Deviations can therefore occur in a normally reflecting ervironment SIMATIC RF600 360 System Manual, 06/2019, 18 1068-00171 U001.A22.7618 Antennas 6.8 SIMATIC RFE80A Radiation diagram circular in the FCC frequency band Pattern of the vertical plane of the antenna TE pattern of the horizental plane of the antenna FM oxre.6-00 Directional radiation pattern ofthe RFBGOA inthe FOG frequency band SIMATIC RF600 System Manual, 06/2019, 131083.D0171-UO01-A22-7618 351 Antennas 6.8 SIMATIC RFE80A Radiation diagram (linear horizontal) in the FCC frequency band
[Bifrateern of the vertical plane of the antenna
[iiPattem of the horizontal plane of the antenna Figure 6-61 The RFG80A directional radiation pattern in the FCC frequency band, axis of symmetry of the antenna, and polarization axis of the transponder are aligned horizontally SIMATIC RF600 362 System Manual, 06/2019, 48 1063-00171 U001-A22.7618 Antennas 6.8 SIMATIC RFE80A Radiation diagram (linear vertical) in the FCC frequency band Pattern of the vertical plane of the antenna Pattern of the horizontal plane of the antenna Figure 6-62 The RFG8OA directional radiation pattern in the FCC frequency band, axis of symmetry of the antenna, and polarization axis of the transponder are aligned vertically SIMATIC RF600 System Manual, 06/2019, 131083.D0171-UO01-A22-7618 363 Antennas 6.8 SIMATIC RFE80A 6.8.6.3 Example 354 Interpretation of directional radiation patterns The following overview table will help you with the interpretation of directional radiation patterns. The Tab Te SHOWS WHICH UBT WANES COTERpONTE To Which TeeATITe TANGES iT Vey-YOU ca
readtherad patel Tegard to. transponder. Th 2s.cccte second dBi/dBic value. Table 6- 45 Interpretation of directional radiation patterns De oO 3 6 3 2 18 18 As antenna gain in the vertical plane is 3.45 oBi (6.45 dBic). In this plane, and with the polarization axis of the transponder parallel to the axis of symmetty of the antenna, the antanma gain drops To about 0.5 dBic al 0" or STU" This means inal ine GBT value 1s 5. The antenna range is only +50% of the maximum range at + 50 or 310 from the Z axis within the vertical plane (see values shown in blue in the directional radiation pattem:
Characteristic of the vertical plane of the antenna (Page 346)and the assodated representation of the reference system (Page 248 SIMATIC RF600 System Manual, 06/2019, 48 1069-00171 U001.A22.7618 Antennas 6.8 SIMATIC RFE80A 687 Technical data Table 6-46 Technical specifications for the RFEBOA antenna eGT2812-26808 Product ype designation SIMATIC RFESOA Radio Wequences perating Wequency Toazs MAZ Wraxirium radiated Bower
+ ETSI + RF@SOR: < 1220 mit ERP
+ Fee + RF@SOR: < 2000 mit! EIRP
+ omuT + RF@SOR: < 1220 mi! ERP
+ ARIE STOTT
+ sTp-T104 RF GS0R/RFGSER: < 4000 mW EIRP stenns.gal tical plane: 20 see section "Antenna patterns in the ETSI Trequeney band (Page 346)"
+ Fee + Horizontal plane: 90"
Vertical plane: 77*
ee section Antenna pattems in the FOC TEqUeNey Wand TPAGE SOU) Fronttoback ratio
+ ETSI + 1ade #4 dB
[depends on orientation of the Wanepond-
en)
+ FCG + 1ade 406 SIMATIC RF600 System Manual, 06/2019, 131083.D0171-UO01-A22-7618
(depends on orientation of the tranepond-
en) 355 Antennas 6.8 SIMATIC RFE80A Electrical data Range Impedance Polarization VSWR (standing wavelratio) igning torque (at rgom temperature igning torque ( erates Permitted ambient conditions Ambient temperature
+ During operation
+ During transportation and storage Degree of protection Shock resistant to EN 60088.2-27 Vibrations according to EN 60088-2-6 Design, dimensions and weight Dimensions (H x W x D) Weight Status display Standards, specifications, approvals Proof of suitability MTEF 198.41.5 eGT2812-2G808 49302 100802 See sectfon "Maximum readMfrite ranges of or, cifoular (can be switched 5 NC colpling (for connpetion tara cable) e e Pastel turquoise
=2Nm
+25... 475C
+40... 485C Pes 3092) 1092 198x198 x 60 mm e200 LED CE (according to RED), FCC (Title 47, Part 15.247), cULus 218 years 1) The values differ for different dimensionsimaterials of the mounting surface. 2) The values for shock and vibration are maximum values and must not be applied continuously. 356 SIMATIC RF600 System Manual, 06/2019, 48 1069-00171 U001.A22.7618 Antennas 68.8 Dimension drawing c Fe Figure 6-83 Dimension drawing RF680A, All dimensions in mm. us SIMATIC RF600 System Manual, 06/2019, 131083.00171-UO01-A22-7618 6.8 SIMATIC RFE80A 357 Antennas 6.8 SIMATIC RFE80A 6.8.9 358 Approvals & certificates Table 6-47 @GT2812-2GB08 Labelin, Description Conformity with the RED directive 201 4/53/EU Conformity with the RoHS directive 201 1/65/EU Table 6-43 @GT2812-26B08 Labelin, Description Federal Communications Commission FOG GFR 47, Part 15 sections 15.247 Radio Frequency Interference Statement This equipment has been tested and found to comply with the limits for a Class B digital device, pursuant to Part 15 of the FCC Rules. The FCG approval is granted in association with the FCC approval of the folowing F600 readers:
+ FCC ID: NXW-RFGOORZ
(for RFESOR: 637281 1-GABZO-1 AAO, RF GEOR: 6GT2a11-GAA10-1AA0, RFGE5R: GT2a11-6CA10-1AA0) Industry Canada Radio StdRezhds Specifications FESR istne 2007, Sections 22,8 The approval for Industry Canada is orate Industry Canada approval of the fy 16: 267 Rr b60RS Motel Re
[iswentisukseartestorme's Miradaia the faliapimasatety standard(s):
+ UL 609504 - Information Technology Equipment Safety - Part 4 General Requirements
+ CSA C222 No, 60950 -1 - Safely of Information Technology Equipment
+ UL Report 115352 KCC Certification Type of equipment Ad 71 (228 8s 717} a Class A Equipment (Industrial Broadcasting & Communication Equipment) O| ZINE BES as) Arm Ae 12] ea at ofr se Be SSIs. 17] Het OH HSI] NBO ASAE euch This equipment is Industrial (Class A) electromagnetic wave suttabil-
ity equipment and seller or user should take notice of it, and this, equipment is to be used in the places except for home. Certificate of the antenna MSIP-REI-S49-RF 680A SIMATIC RF600 System Manual, 06/2019, 48 1063-00171 U001.A22.7618 Transponder 1 71 TAA SIMATIC RF600 Overview Mode of operation of transponders The transponder mainly comprises a microchip with an integrated memory and a dipole antenna. The principle of operation of a passive RFID transponder is as follows:
Diversion of some of the high-frequency energy emitted by the reader to supply power to the integrated chip
@ Receiving commands from the reader
@ Responses are transmitted to the reader antenna by modulating the reflected radio waves
(backscatter technique) Header EPC Manager Object Class. Serial Number Figure 7-4, Mode of operation of transponders :
B44 O000B57-:2 se OO) fer and thereforeiits dipole antenna In general the following rule applies. The smaller the transponder and therefore the anterina, the shorter the range. Bot 28. zat aebit System Manual, 06/2019, 131083.D0171-UO01-A22-7618 359 Transponder 7.4 Overview 712 Transponder classes and generations The transponder classes are distinguished by the different communication protocols used between the reader and transponder. Transponder classes are usually not mutually compatible. The following transponder dasses/protocol types are supported by the RF600 system
@ 180 18000-82
@ 180 18000-83 Transponders supported 713 360 RF60O system supports passive ranspenders with the folowing minimum characteristics
@ EPC ID Electronic Product Gode IDentifier)
@ ib
@ A function which permanently ensures that transponders no longer respond, @ After the lock programming can no longer be reprogrammed Electronic Product Code (EPC) The Electronic Product Gode (EPC) supports the unique identification of objects (e.g, retail items, logistical iterns or transport containers). This makes extremely accurate identification possible, In practical use, the EPC is stored on a transponder and scanned by the reader. There are different EPC number schemeswith different data lengths, Below is the structure of a GID-96-bit code (EPC Global Tag Data Standards V1.1 Rev. 1.27)
@ Header: identifies the EPC identification number that follows with regard tolength, type, structure and version of the EPG
@ EPC Manager: identifies the compary/coporation
@ Object dass: Comesponds to the article number Serial Number. consecutive number of the aride The Siemens UHF transponders are all suitable for working with EPC and other number schemes. Before a transponder can work with a number scheme, the relevant numbers must first be written to the transponder, SIMATIC RF600 System Manual, 06/2019, 48 1069-00171 U001.A22.7618 Transponder 7.4 Overview Presetting of the EPC memory of industrial Siemens transponders RF6xxT Table 7-2 Explanation ofthe values The first 12 bytes of the EPC memory ("0x00 - 0x0B") are preset. As of byte 13 ("0x0G") the EPC memory is not preset. Table 7-1 Presetting of the EPC memory Address UID Address with FB (UID) Value ox00 OxF FOO. ox00 x04 OxF Fos ox00 x05) OKF FOS Transponder type ox08 OKF FOB: Year produced ?
(oxo? OKFFO?_us Month produced *
(OK08 Loxeroa 6 Day produced oxoa | oxF FOS * Consecutive number ?
eotexoa ek OKEEOA : >
eof OKOB ok FOE =
svilh_ In theS@ilowing table, these. volups ate, desgibed.iopeater detalle ae" mie mr nwNote tattive RF@xxT transporiders cennotbe disabled usinga kiltpassword. Transponder type Year produced | Morth produced Day produced | Consecutive number RFG2OT = On9E O18 = Oxt lan. = 0x01 1 = OxO1 0x00 ooo oxo RFG25T = On8E 2oig=ox13 | Feb. = Ox 02 = ox02 x00 00 oxo2 RFO30T = On3F RFGAOT = On40 RFGAST = Oxad RFGSOT = Onda RFGA2T = 0x64 Deo. = OK0C. 31 = OKIF ORFF OFF OKFF SIMATIC RF600 The consecutive number is counted absolutely as of the respective production date and is therefore unique. System Manual, 06/2019, 131083.D0171-UO01-A22-7618 361 Transponder 7.4 Overview 714 SIMATIC memory configuration of the RF600 transponders and labels Special memory configuration of the RF 600 transponders and smartabels Address spaces of the transponder versicns With the RF600 readers, the user data, TID, EPC and passwords are read out via the relevant memery banks, To read out the required data, the relevant memory bank must be selected The table above shows the area and length of the user data ("USER" column). You can read out the EPC-ID using an inventory command, As an alternative, you can also read out the EPC-ID using a Read command to memory bank 1, start address 0x04. Figure 7-2 Memory configuration Note Information on the detailed memory configuration The memory configuration of the various ransponders and smartlabels varies and depends on the chip type used, You will find detailed information of the memory configuration in the data sheets of the chip manufacturer. Note Preset EPC ID The EPC ID of the transponders RF620T to RF680T are preset with a 12 byte long identifier. This identifier is based on a numbering scheme. You will fnd more information on this in the section "Electronic Product Code (EPC) (Page 360)"
SIMATIC RF600 362 System Manual, 06/2019, 48 1068-00171 001.422.7618 Transponder 715 SIMATIC RF600 7.1 Overview Storage and transportation roll goods NOTICE Notes on storage and transportation of rolls, Note the following information cn the storage and transpertaticn of rolls:
+ Protect the transponders from direct sunlight and heat (e.g, heating appliances).
+ Prior tousse, store the label rolls in the polyethylene bag or the shrink film of the original packaging
+ Store the label rollsin a cool and dry location Ideal conditions: 18 C 45 C, 40-60 % humidity
+ Stack several label ralls ying flat and centered one above the other.
+_ Avoid extemal pressure (e.g narrow box). Cera Figure 7-3 Storage of transponders System Manual, 06/2019, 131083.00171-UO01-A22-7618 363 Transponder 7.2 SIMATIC RF630L Smartlabel 7.2 SIMATIC RF630L Smartlabel 7.24 Features SIMATIC RF630L smart labels are passive, maintenance-free data carriers based on UHF Class 1 Gen2 technology that are used to store the "Electronic Product Code" (EPC). Smart labels offer nurnercus possible uses for a wide range of applications and support efficient logistics throughout the process chain. Smartlabel SIMATIG RFG3OL (6GT2810-2AB0x)
@GT2810-2AB01-0Ax1 | 6G72610-2AB02.0Ax0 [6GT2610-2A03 | 6GT2810-2AB04 Product photo Area f application | Simple identification such as barcode replacement or supplementation, through warehouse and distribution logistics, right up to product identification EPC memory 32 bytes/ 256 bits 12... 16 bytes! 12... 30 bytes 32 bytes/ 256 bits 96... 128 bits 96... 240 bits User memory 64 bytes/ 512 bits 64 bytes /512 bits G4 bytes /512 bits | 64 bytes/ 512 bits Read range max. 4m? Max 5m? max. 4m Mounting Self-adhesive, for at- | Self-adhesive, for example for attaching to packaging units, paper or taching to plastic surfac- | cartons, Not suitable for fixing straight onto metal or onto liquid containers
*) Depending on the environment, the readerithe antennas and the set power SIMATIC RF60O 364 System Manual, 06/2019, 48 1069-00171 U001.A22.7618 Transponder 7.2 SIMATIC RF63OL Smartlabel Smartlabel SIMATIC RFG3OL (6GT281 0-2ACA2; 6GT2810-2AE Gx) eGT281 0-2Ace2
(8GT2810-2AE80-0AX2
(@GT261 0-2AE61 -OAX1 Product photo Area of application Simple identification such as barcox distribution logistics, right up to prox de replacement or supplementation, duct identification, through warehouse and EPC memory 16 bytes / 128 bits 12 .. 6Obytes/ 96... 480 bits 16 bytes / 128 bits User memory 16 bytes / 128 bits 16 .. 64 bytes/ 128... 512 bits?
Read range. max. 35 m2 max. 4 m2) Mounting Self-adhesive, for attaching to plastic surfaces. Not suitable for fixing straight onto metal or onto quid containers increments of 16 bits at the cost of the user memory. 722 Ordering data Table 7-3 Ordering data RFE3OL Depending on the envirenment, the readerthe antennas and the configured power The EPC memory has a default size of 96 bits. Ifnecessary, the EPC memory size can be expanded to 480 bits in Product Article number IMATIC REESO! 1 TPA O!
OL 0Ax4 Smartlabel 101.6 50.8 mm IMATIC REEan 2 Te 02.0 Smartlabel 67 27 mm SIMATIC RF630L Smartlabel 54 * 34 mom 8GT2810-2A503, SIMATIC RF630L 8GT2810-2AB04 Smartlabel 74 27 mm SIMATIC RF630L
(@GT2810-2ACa2 Smartlabel 45 * 20 rm SIMATIC RF630L)
(@GT261 0-2AE80-0AX2 Siarilabel 108 25 ram Smartlabel 60 x 30 mm SIMATIC RF600 System Manual, 06/2019, 131083.D0171-UO01-A22-7618 365 Transponder 7.2 SIMATIG RF63OL Smartiabel Delivery format SIMATIC RF630L smart label is supplied in the flowing form:
@ 14000 Smartlabels per packaging unit _1 000 labels on a roll Minimum order quantity 1 packaging unit (4 000 unit e labale- par pack " label 4 Minimumrorder quantity packaging unit units 72 UOU Smranabels per packaging Uni 2 VOU Tabels OT OnE TOIT Minimum order quantity. 1 packaging unit (2 000 units) 10.000 Smartlabels per packaging unit: 2 600 labels on a ral Minimum order quantity: 4 packaging unit (10 000 units)
@ 95 000 Smarilabels per packaging unit 1000 |abels on aro!
M tity " 1-15. 000-unit e per packaging 7.23 Technical data Table 7-4 Technical specifications of the transponder SIMATIC RFG30L TORO. PAROLOAX4 BGT2RIN.PARO?.OAXO Product type designation SIMATIC RF630L Rado Wequencies Operating Wequency OTS SEO AZ Memory Chip (manufactureritype) NXP 7 GIN TMPINJ? MONZA 40T Memory type EEPROM Memory configuration
+ EPG + 32 bytes/256bits + 12. 16bytes/
26 .. 128 bits
+ User memory + Gi bytes/512 bits + 64 bytes/ 512 bits
+ TID + 12 byles/96bits + 4 byles/ 32 bits Number of write cycles (< 40C) 198 Number of read cycles (< 40 *C) > 10%
Data retention time (< 40C) 30 years SIMATIC RF600 366 System Manual, 06/2019, 48 1069-00171 U001.A22.7618 Transponder SIMATIC RF600 System Manual, 06/2019, 131083.D0171-UO01-A22-7618 7.2 SIMATIC RF63OL Smartlabel 8GT2810-2AB01-OAX1 _6GT2810-2A502-08x0 Electrical data Range zon =m Protocol 180 1200-63, TaSTTTSSTOT SEE = SEO ROES Mutitag capability Yes a io Color White Type of antenna Shortened dipole Printing Can be printed using heat transfer technique Rall core diameter 76 mm Roll outer diameter 2120 rn Perrritted ambient conditions Ambient temperature
+ In operation, during write/read access +25... +85C +40... #05C
+ In operation, outside writeread access +25. +80C 1-40... 20C DSTaNTCE TTOTT TEKST NOT SUTEDTE TOF MOUNTS TECH ON TIETAT Degree orprarecton Resistance to mechanical stress TPG? TwTET BaNETEUT Torsion and bending stress conditionally permis 367 Transponder 7.2 SIMATIC RF630L Smartlabel Table 7-5 Technical specifications of the transponder SIMATIG RFG3OL Product tyne designati ecT2@10-2A803 8GT2810-2AB04 IMaTIC REESAL Radio frequencies Operating frequency 860 to 880 MHZ M chi sactunestiy NKELGOXM. NK GDM Mesnoey-4 EEPROM Memory configuration EPG + TE a0 byes 7 +S Byles TEBG BIS 96... 240 bits
+ User memory
+ G4 byles/S12 bits 64 bytes / S12 bits
+ TID + Bbytes/ G4 bits +12 byles/ 96 bits Number of write cycles (< 40C) 16 Number of read cycles (< 40 *C) > 10%
Data retention time (< 40C) 10 years 30 years Electrical data Range 25m s4m Protocol 180 1800.63 Transmission speed = 320 kbps Polarization Linear Multitag capability Yes Mechanical specifications Material Paper PET Silicone-free Yes Color white Antenna material Aluminum Type of antenna Printing Rall core diameter Roll outer diameter 368 Shortened dipole Can be printed using heat transfer technique 76 mm
= 120mm SIMATIC RF600 System Manual, 06/2019, 48 1069-00171 U001.A22.7618 Transponder 7.2 SIMATIC RF63OL Smartlabel 8GT2810-2A503, 8GT2810-2AB04 Perrritted ambient conditions Ambient temperature
+ _In operation, during write/read access +40... 85C. 1-20... 45C
+ In operation, outside writeiread access +40. +80C 1-20. +85 C
+ During transportation and storage
+15. 425C?
Distance from metal Not suitable Tor mounting diecily on metal Degree orpraecton TPT Twhen aanEredy Resistance Yo mechanical ress Torsion and bending stress ConaMonally pas Design, dimensions and weight Dimensions (Lx Wx D) ax 54x 03mm Tax 7 * 05 mm ont or
+ The information relates to the maximum read range. You can find mere information on Tanges in the section "Minimum distances and maximum ranges (Page 55)"
2) Fer mere information, refer to the section "Storage and transportaticn roll goods
(Page 363)"
SIMATIC RF600 System Manual, 06/2019, 131083.D0171-UO01-A22-7618 369 Transponder 7.2 SIMATIC RF630L Smartlabel Table 7-6 _ Technical specifications of the transponder SIMATIG RFG3OL ecT2810-2Aca2 Product tyne designati IMaTIC REESAL Radio frequencies Operating frequency {860 to 960 MHz Memory Chip (rmanufactureritype) Alien / Higgsd Memon Tee EEPROM Memory configuration
+ EPG +16 bytes 7128 bits
+ TID + 24 bytes / 192 bits Number ofwrite cyclest 22 C) > 10 000, N . Data retention time (<55 C) 50 years Electrical data Range max, 3.6 m2 Protocol 180 1200-63, Transmission speed = 320 Kbps Polarization Linear Mechanical specifications Material PET Silcone-free Yes Color White Antenna material Aluminum Type of antenna Compressed dipole Printing Can be printed using heat transfer technique Rall core diameter 76.2 mm Roll outer diameter 170 (#3) mm SIMATIC RF600 370 System Manual, 06/2019, 48 1069-00171 U001.A22.7618 Transponder SIMATIC RF600 7.2 SIMATIC RF63OL Smartlabel eGT2810-2Aca2 Perrritted ambient conditions Ambient temperature
+ _In operation, during write/read access 128... +85C
+ In operation, outside writeread access +25. +85 *C Special feature:
1 hour at +95 C
+ During transportation and storage. 145 425C 2 Distance tal Not suitable f ing directly an cnetal Resistance to mechanical stress Torsion and bending stress conditionally permis sible Design, dimensions and weight Dimensions (Lx Wx D) 45 (20.5) * 20(#0.5) x 03 mm ma PT 7 1 The EPCID has different IDs preset. 2) The information relates to the maximum read range. You can find mere information on Tanges in the section Minimum distances and maximum ranges (Page 58)"
21 Fer more information, refer to the secticn "Storage and transportation roll goods
(Page 363)"
4 When affixed and if the ambient conditions are adhered to (operating temperature -25
+85 C) System Manual, 06/2019, 131083.D0171-UO01-A22-7618 3am Transponder 7.2 SIMATIC RF630L Smartlabel Table 7-7 Technical specifications of the transponder SIMATIG RFG3OL Product tyne designati
@GT2810-2AEZ0-0AX2 6GT2810-2AE81-OAXt IMATIC REESAL Radio frequencies Operating frequency Memory Chip (rnanufactureritype) Memory type Memory configuration
+ EPC 260 to 960 MHz Alien / Higas3 NXP / GEIL
+12... 6Obytes/98 + 18byles/ 128 bits 420 bits
+ User memon
+ 16.. 64 bytes/128 + =
512 bits
+ 11D +4 bits /32 Byte + Sbytes/64 bits Number of write cycles (22 *C) > 100.000 N . Data retention time (<55 C) 30 years, Electrical data Rang =
Pr Transmission speed = 320 Kbps Polarization Linear Mechanical specifications Material PET Silcone-free Yes Color White Antenna material Aluminum Type of antenna ALN-9640 "Squiggle@" Belt inlay Printing Roll core diameter Roll outer diameter Winding direction 37 Can be printed using heat transfer technique 782 mm 78.4 mm 110 mm 200 (#3) mm Wound to the outside SIMATIC RF600 System Manual, 06/2019, 48 1069-00171 U001.A22.7618 Transponder 7.2 SIMATIC RF63OL Smartlabel
@GT2810-2AE80-0AX2 6GT2810-2AE81-OAX1 Permitted ambient conditions Aipbient te 106 11g ae
+ ur Sanne ena Tee!
Denes eta Resistancegomect@#hhital stress perature aly los... 485C. Ios ... +85 C. Bpecial feature:
pt +130C: Storage fetention tested for RO minutes Ipe7 88 sible Design, dimensions and weight y Dimension Wright 1) The EP expanded 2. The int 2) rgSbin f 31 Fler mer
(Page 363}
When a
+85 C) SIMATIC RF600 Aqrox. 1 9 System Manual, 06/2019, 131083.D0171-UO01-A22-7618
+28... 485C
+25... 485C Special feature:
starting at +140C:
No processing pos-
sible at 40C and +160
"C: Storage reten-
ton tested for 90 minutes Not suitable for mounting directly on metal Torsion and bending stress conditionally permis-
(#1) * 25 (#1) * 03 90(+05) * 30(#0.5) 0.3 mm an Transponder 7.2 SIMATIC RF630L Smartlabel 7.24 Dimensiorg All dimenicnfs i [nr]
318 Antenna 50 i 54 +
60 6 m4 0 Figure7-4* ithe ST281 0-2AB01 -OAX1) Figure 7-5 Dimension drawing SIMATIC RFG3OL (6GT281 0-2ABOP-OAX0) SIMATIC RF600 374 System Manual, 06/2019, 48 1069-00171 U001.A22.7618 Transponder 7.2 SIMATIC RF63OL Smartiabel Antenna 20210 8210 25210 Fighre 7-6 _ bikgnsion drawbyg SIMANERFez0Legr2a10}
2021.0 31410 zl lg ls jon drawing SIMATIC RFE3OL (ggrzetp-zas0 | 3 i i 1 1 a oGa1 M1 SIMATIC RF600 System Manual, 06/2019, 131083.D0171-UO01-A22-7618 375 Transponder 7.2 SIMATIC RF630L Smartlabel eallrea fe alles Padi dbo dood be bd Poidh dodo dod dd 3 8 rei }) a etoovda ea HoH # a a 3 2 z g E Peidi de dood db ted Padi bobo do de bd 14 fi ts Figure 7-8 Dimension ardlQing Simar 6208 RFESOL (6GT2810-2ACa2) Figure 7-9 Dimension drawing SIMATIC RF63OL (6GT281 0-2AE20-04X2) SIMATIC RF60O 376 System Manual, 06/2019, 48 1063-00171 U001.A22.7618 Transponder 7.2 SIMATIC RF63OL Smartlabel Figure 7-40 Dimension drawing SIMATIC RFG30L (6GT21 0-2AEB1-OAX1) 7.25 Certificates and approvals Certinicate Description Conformity with the RED directive 201 4/53/EU Conformity with the RoHS directive 201 1/65/EU Passive labels and transponders comply with the valid regulations;
certification is not required Federal Communications Commission SIMATIC RF600 System Manual, 06/2019, 131083.00171-UO01-A22-7618 377 Transponder 7.3 SIMATIG RF642L Smartiabel 73 SIMATIC RF642L Smartlabel 7.3.1 Features The SIMATIC RF 6421 Jabel .d-snaint Sree-dat The Smartlabel operates based on UHF Class 1 Gen 2 technology and is used to save the
"Electronic Product Code" (EPC) up to 448 bits The transponder also has 2048 bits ofuser memory. The SIMATIC RF642L is designed for direct mounting on metal surfaces. When used on norstretatic sor faces, the reading range carrberedacent by opto 70, SIMATIC RFG42L Smartlabel Characteristics Area of application [industrial plant management, identification of tools, containers and metallic equipment TEqUETCY TaNGE + ETSE G65 To 868 MHZ
+ FOC: S02 Te G28 MHZ
+ _User memory: 256 bytes / 2048 bits Read range Max. 2.8m on metal) Designed for mounting directly on metal
"Depending on the environment, the employed readerithe antennas and the set power 7.3.2 Orderingtata Tab Product Article number . SINTATIC RFGIEL (ETSH SSTZETOGACOO SIMATIC RFBA2L (FCC) eGTZe103AC10 Delivery form SIMATIC.RFS42_ Smarilabalie delivarad in the fllewing fs e perpackaging
@ The Smantabelshave a Unique T2-byte EPC TU. SIMATIC RF600 378 System Manual, 06/2019, 48 1069-00171 U001.A22.7618 Transponder 7.3 SIMATIC RF642L Smartlabel 73.3 Technical specifications Table 7-9 _ Technical specifications of the SIMATIC RF642L transponder Product type designation SIMATIC RFG42L. Radio frequencies PETAIT WEQUETIY
+ ETSI
+ B65toaeaMHz Fee
+ g02togaMHz Memory type Memory configuration EEPROM
+ EPG + S6byies/ 448 bits
= + TE BYES BS TS Number of wate cycles (= 40C) STF Number of read cycles (< 40 "C) > 10!
Data retention time (< 40C) SOyears Electrical data Range
+ Writing + 209m
+ Reading + 28m Protocol 180 1800.63 Transmission speed = 320 kbps Pdarization Linear Mechanical specifications Material PET. PE Sllicone-ree Yes Color white Antenna material Aluminum Type of antenna Printing Rall core diameter Rall outer diameter SIMATIC RF600 System Manual, 06/2019, 131083.D0171-UO01-A22-7618 Shortened dipole Can be printed using heat transfer technique 7@ mm
$200 rm 379 Transponder 7.3 SIMATIC RF642L Smartlabel Permitted ambient conditions Ambient temperature
+ In operation, during write/read access
+ In operation, outside write/read access ring transportation and storagi p
+ Vertically
+ Horizontally Design, dimensions and weight Dimensions (L xW xD) Weight
*) Ideal storage conditions 2) Water depth 1 mfor max. 5 hours 380 8GT2810-3ACx0 lly on metal 1s conditionally permis}
SIMATIC RF60O System Manual, 06/2019, 48 1063-00171 U001.A22.7618 Transponder 7.3 SIMATICG RF642L Smartiabel 73.4 Dimension drawing
@ Printable area
@ Polarization axis Conveyor airection Figure 7-11 Dimension drawing RFG42L All dimensions in mm. SIMATIC RF600 System Manual, 06/2019, 131069.D0171-UO01-A22-7618 381 Transponder 7.4 SIMATIG RF6QOL Smartiabel 74 SIMATIC RF690L Smartlabel 744 Characteristics The SIMATIC RF6SOL High Temp Smartlabel is a passive and maintenance-fee data carrier. It operates based cn the UHF Class 1 Gen 2 technology and is used to store the
"Electronic Product Code" (EPC). The transponder also hasa user memory. The SIMATIC RF690L can also be mounted on metal Smartlabel SIMATIC RFEGOL Characteristios Area of application Heat-proof UHF label for a wide range of possible applications, for example, on metal or with high temperatures up to +160 C Frequency range + ETSI: 865 to 868 MHz
+ FCC: 902 to 928 MHz Airinterface According to 180 18000-63 Memory + EPC: 8... 6Obytes / 64... 480 bits
+ User memony: 16... 64 bytes 1128... 612 bits Read range + Max. 5.0 mon non-metallic surface 2 Max. 2.4 mon metal >
Mounting Self-adhesive
"The EPC memory haS@ GeraUR SIZE OF GS DIS: WHEN NECESSATY. ME EP TEMOTY SIZE CaN DE EXPENSE TO FEU BTS TT steps of 16 bits at th 2 Depending on the environment, the employed readerithe antennas and the set power 742 Orderingtata Table 7-10 Ordering data RFE. Product Article number [
SINATIC RFGGOL (ETD SETZIOZAGOO SINATIC RFEGOL (FOC) DET ZOIOBAGTO Delivery format SIMATIC RF690L smartlabel is supplied in the folowing form:
@ WU smart labels per packaging Unit 400 Tabels on one roll stiminrar order quramtity 1 parce anit 400 antes} $$$
SIMATIC RF600 382 System Manual, 06/2019, 48 1069-00171 U001.A22.7618 Transponder 7.4 SIMATIC RF69OL Smartlabel 7.43 Memory organization Bits (12 bytes). When necessary, he EPC memory size can be expanded to 480 bits(60 bytes) in steps OF 16 bits at the cost of fhe user memory. The following table shows how many byles can be added to the EPC memory and how this affects the size of the user memary. Table 7-11 Size of the EPC memory and effect on the user memory EPC memor User memory Tia] [bytes]
ce Te Tee ar 304 32 a0 0 744 Technical specifications Table 7-12 Technical specifications of the transponder SIMATIC RFESOL TZETOZAGRU Product type testgrattor INMATIORFGSOL Radio frequencies Operating frequency
+ ETSI + B65toaeaMHz Fee + gop togaMHz Memory Chip (rnanufacturertype) Alien / Higgs 3 Memory type EEPROM Memory configuration
+ User memery +18... 64 bytes / 128. 512 bits
+ TD + 4 bytes/ 32 bits
+ Unique TID + Bbytes/64 bits
+ TID device configuration + 12 bytes/ 96 bits, SIMATIC RF600 System Manual, 06/2019, 131083.D0171-UO01-A22-7618 383 Transponder 7.4 SIMATIC RF@90L Smartlabel 384 8GT210-2AGxO Number of write cycles (< 40C) > 500 Number of read cycles (< 40C) > 1084 Data retention time (< 40 0) 50 years Electrical data Range eg 7
+ Reading + <5.0m?
Protocol EPCglobal Class 1 Gen 2/180 18000.63 Polarization Linear Mechanical specifications Material PET Silcone-free Yes Color Beige/silver Antenna material Aluminum Type of antenna 100 Shortened dipole Paigting_________35_______Catbe printed using heat transfer technique Roll core diameter 76 men Roll outer diameter 200 mm Petmitted ambient conditions Z Ambient temperature Ray e Di Ie tal -c
"C permanently Special features:
As of 100C 20% reduction of the writerread distance
+140 ... + 160 C: No processing possible
+ During transportation and storage 41a... 42a9o Distance from metal Ormn Suitable for mounting directly on metal Degree of protection ier Resistance to mechanical stress Torsion and bending stress conditionally permis-
sible SIMATIC RF60O System Manual, 06/2019, 48 1069-00171 U001.A22.7618 Transponder 745 SIMATIC RF600 100 caf be expanded to 480 bits in steps offf6 bi 2) The information relates to the raximu ranges in the section "Minimum distances an 21 Fer more mformation, refer to The section "
(Page 363)"
Dimension drawing 7.4 SIMATIC RF69OL Smartlabel 8GT2810-2AGx0 n necessary, the EPC memory size at the cost of the user memory. read range. You can find more information on maximum ranges (Page 56)"
{torage and transportation roll goods Figure 742 Dimension drawing RFEGOL (ETSI, article number: 6ST2@10-2AGOD) System Manual, 06/2019, 131083.00171-UO01-A22-7618 385 Transponder 7.4 SIMATIC RF690L Smartlabel SIEMENS S071 RFs Figure 7-13 Dimension drawing RF@2OL (FCC, arlicle number: 6GT2810-2AG10) All dimensions in mm 7.4.6 Certificates and approvals Cerificate Description Conformity with the RED directive 201 4/53/EU Conformity with the RoHS directive 201 1/65/EU. Passive labels and transponders comply with the valid regulations;
certification is net required Federal Communications Commission SIMATIC RF60O 386 System Manual, 06/2019, 48 1063-00171 U001.A22.7618 Transponder 75 SIMATIC RF610T 754 Features 7.5 SIMATIC RE61OT The SIMATIC RF610T is passive and maintenance-free. It operates based on the UHF Class 1 Gen 2 technology and is used for saving the electronic product code (EPC) of 96 bits / 240 bits, The label also hasa 612 bituser memory. The SIMATIC RF610T offers a host of possible uses for a wide range of applications and supports efficient logistics throughout the entire process chain the range is reduced ifitis not aligned in parallel with the antenna __ SIMATIC RFS1OT Characteristics Area of application
+ Simple identification, such as barcode re~
placement or barcode supplement
+ Warehouse and distribution logistics
+ Product eniiication Eorthe aod & Bi ct Leer sion can be supplied on request that is certified for use in contact with food, Air inferface Recording ToTSO 1600065 Ternary + _EPG:96... 240 bits
+ _User memory: 64 Byles Read range Max. 6m 0) Mounting + Suspended by means of cable lies, or ami
+ Gan also be fixed with screws or glued by customer.
+ NOT SUTaDTE TOrTOUTING SITaTGAT OMT THEN
* Depending on the environment, the readerithe antennas andthe set power 75.2 Ordering data Table Z43_Ordeting date REGLOT
[Product Article number SIMATIC RFGIOT 6GT2610-28660 SIMATIC RFE0D System Manual, 06/2019, 131083.D0171-UO01-A22-7618 387 Transponder 7.5 SIMATIC RF6IOT Delivery format SIMATIC RF610T is supplied in the following form
@ _500 transponders per packaging unit Minimum order quantity 1 packaging unit (600 unit 75.3 Technicat specication Tatile 7-14 Technical specifications of the transponder SIMATIC RFGTOT CTPA10.2RR AO. Productive designation SIMATICRF@1oT Radio frequencies, Operating requern 7 FOS + SOE 16 28 MHZ Memory Chip (rnanufactureritype) NXP 1 G2xM. Mi Mi
+ EPC + 12...30 bytes / 96... 240 bits
+ User memory + 64 bytes /512 bits
+ TID +B bytes / 64 bits
+ Reserved (passwords) + B bytes / 64 bits Number of write cycles (< 40C) 198 Number of read cycles (< 40 *C) > 10%
Data retention time (< 40C) 10 years Electrical data Range s5m0 Protocol 180 1200-63, Transmission speed = 320 kbps Polarization Linear SIMATIC RF600 388 System Manual, 06/2019, 48 1069-00171 U001.A22.7618 Transponder 7.5 SIMATIC RF61OT ecT281 026880 Mechanical 56?
Sttcone free SIEMENS 8 0516 sa Yes 5 Color White jenna mpterial Aluminum Type Printing ing heat transfer technique Permitted dmbieift conditions Ambient temnperafure
+ In oferatign, during write/read access +25
+ In operatign, outside writeitead access + -40. 6.5 During trahsportation and storage + 40 eso Distanee from metal Not suitable for mounting directly on metal Degree of pratection per Resistance to mechanical stress Torsion and bending stress conditionally permis-
sible Shock-resistant according to DIN EN 60721-3-7, 1009 Class 7 M3 Vibration to EN 60088.2-6 50g Design, dimensions and weight gprensens x x0) aoe 4+ 06mm Che 30
{The information relates to the maximum read range. You will fnd more information on in the section "Minimum distances and maximum ranges (Page 55)". 2) The values for shook and vibration are maximum values and must not be applied continuously. C Effect of temperatures > 70 C Note thatin temperature ranges > 70 C, the transponder can become slightly deformed. However, this hasno effect on the transponder function, SIMATIC RF600 System Manual, 06/2019, 131083.00171-UO01-A22-7618 389 Transponder 7.5 SIMATIC RF61OT 75.4 Dimension drawing All dimensions in mm rar an CE 75.5 Certificates and approvals Figure 7-14 Dimensional drawing of SIMATIC RFG1OT. Cerificate Description Conformity with the RED directive 201 4/53/EU Conformity with the RoHS directive 201 1/65/EU Federal Communications Commission Passive labels and transponders comply with the valid regulations:
cerlfication is not required, This product is UL-certified for the USA and Canada. It meets the following safety standardis):
+ ULSOS - Industrial Control Equipment
+ CSA 622.2 No. 142 - Process Control Equipment
+ UL Report E 120869 390 SIMATIC RF60O System Manual, 06/2019, 48 1063-00171 U001.A22.7618 Transponder 7.6 764 SIMATIC RF610T ATEX Features 7.6 SIMATIC RF610T ATEX The SIMATIC RF610T special variant ATEX is passive and maintenance-free. It operates based on the UHF Class 1 Gen 2 technology and is used for saving the electronic product code (EPC) of 96 bits / 240 bits. The label also has a 512 bituser memory. The SIMATIC RF610T special variant ATEX provides numerous possible uses fora wide range of applications and allows efficient logistics throughout the entire process chain Thanks to its antenna geometry, the transponder can be read from any direction. However, the range is reduced ifit is not aligned in parallel with the antenna. SIMATIC RF61OT Characteristics Area of application
+ Simple identification, such as barcode re-
placement or barcode supplement
+ Warehouse and distribution logistics
+ Product identification Forth Food & Beverage sector, a special ver-
sion can be supplied on request that is certified for use in contact with food, Air interface According to 180 1800-63 Memory
+ EPC: 96... 240 bits
+ _User memory: 64 bytes Read range Max. 5m Mounting
+ Suspended by means of cable ties, or simi-
lar
+ Gan also be fixed with screws or glued by customer.
+ Not suitable for mounting straight onto met-
al,
* Depending on the environment, the readerithe antennas and the set power SIMATIC RF600 A System Manual, 06/2019, 131083.D0171-UO01-A22-7618 391 Transponder 7.6 SIMATIC RF610T ATEX 7.6.2 Delivery format 7.6.3 392 Ordering data Bering data RFG1OT ATEX SIMATCRFOIOT Product Article number SIMATIG RFGIOT ATEX 87261 0-25680-0AX1 SIMA TIC-RF610-.ATEX is supplied in-the folowing form co actin lO NOTICE Approved use This device/system may cnly be used for the applications described in the catalog and the technical documentation "System manual SIMATIC RF600
{https //support.industry.sierens, com/estwwvien/ps/15069/man}" and only in combination with third-party devices and components recommended and/or approved by Siemens. Use of the transponder in hazardous areas Ina conformity declaration, TUV NORD CERT GmbH has confirmed compliance with the essential health and safety requirements relating to the design and construction of oye and protective systems intended for ese areas asper Annex Il of there ive 2014/34EU. Th tial health and safety requirements are satisfied in accordance with standards EN 1-0: 2012 + A11: 2013, EN 6079-11: 2012 This allows the RFG10T special variant ATEX transponder to be used in hazardous areas for gases, for the device category G and gas group IIB, cr alternatively in hazardous areas for dusts, for the device category 3 D and group IIIB. feone Ignffions of gas-air mixtures or dust-air mixtures The SIMATIC RF610T transponder must be set up and maintained in such a way that electrostatic discharges are excluded The SIMATIC RF610T transponder may not be installed in areas influenced by processes that generate high electrostatic charges, SIMATIC RF60O System Manual, 062019, 48 1068-00171 U001.A22.7618 Transponder 7.6 SIMATIC RF610T ATEX Identification and warning on the transponder Figure 745 Schematic representation of the SIMATIC RF61OT ATEX transponder The labeling of the front of the transponder shown above is an example and can vary between batches produced at different times.
{itis doesnotaffect he hazardous area marking Order number and serial number 6G72610-28B80-0AX1 /(S) BOOO0007 Identification A TUV 11 ATEX 081778 X 113 D Ex ic IIIB Ts 120C De, 13.G ExicIIB T6TST4 Ge 25C <Ta <+85 C Warning WARNING WARNING POTENTIAL ELECTROSTATIC CHARGIMG HAZARD-SEE INSTRUCTIONS:
Manufacturer's address - distributor Siemens AG DE-76181 Karlsruhe SIMATIC RF600 System Manual, 06/2019, 131083.D0171-UO01-A22-7618 3 Transponder 7.6 SIMATIC RF610T ATEX 7.63.4 Use of the transponder in hazardous areas for gases Temperature class grading for gases with up to 2000 mW ERP. 394 The temperature class of the transponder for hazardous areas depends on the ambient temperature range. Ifthe radiated power of an antenna radiating into the hazardous area or located in the hazardous area and operating in the 865 - 868 MHz frequency band cannot exceed the value 2000 mW, the temperature class grading is as follows Table 7-16 Temperature class grading for gases Ambient temperature range Temperature class 25C 10 +85 C 4 25C 10+85C 15 25C 10 +50C 8 RNING Ignitions of gas-air mixtures When using the RF610T transponder, check to make sure that the temperature class is adhered to in keeping with the requirements of the area of application, Non-compliance with the permitted temperature ranges while using the transponder can lead toignitions of gas-air mixtures. WARNING Ignition of gas-air mixtures The maximum radiated power of the transmitter used to operate the transponder must not exceed 2000 mW ERP. Non-compliance with the permitted radiated power can lead toignitions of gas-air mixtures, SIMATIC RF600 System Manual, 06/2019, 48 1069-00171 U001.A22.7618 Transponder 7.6 SIMATIG RF6IOT ATEX 76.3.2 Use of the transponder in hazardous areas for dusts The equipment is suitable for dusts whose ignition temperatures fora dust layer of mm are higher than 210 C (smoldering temperature). The ignition temperature specified here ding to EN. B0N79.0: 2013 + Alt: 20.12 for ignitien protection ype icin thi references the smoldering temperature ofa layer of combustible fiyings (ic IIIA) or altematively non-conductive dusts (ic 1B) Temperature cl grading for dusts with up ta 2000 mW ERP e hazerdous area and operating in the 865 - 868 MHz fequency band cannot exceed the value 2000 mWW, the temperature class grading is as fdlows Table 7-17 Temperature class grading for dusts Ambient temperature range Temperature value 25C <Ta<+85C Te 120C WARNIN tgnitions of dastairmixter ata g-the RE640T tranependermak hatihe-temp: f dhered to in keeping with the requirements of the area of applicaticn lead to ignitions of dust-air mixtures. SIMATIC RF600 System Manual, 06/2019, 131083.D0171-UO01-A22-7618 395 Transponder 7.6 SIMATIC RF610T ATEX 764 Technical specifications Table 7-18 Technical specifications of the transponder SIMATIC RF61OT special variant ATEX Product type designation SIMATIC RF61OT special variant ATEX Radio frequencies Operannag requency
+ ETSI +805 To B68 MHZ
+ Foo + 902 t0.928 MHZ Memory Chip mauTacturerypeT XPT SZRMT Memon TPE EEPROM?
Memory configuration EPG + 12. SO byes 786. BAD bits
+ User memory +64 bytes / 512 bits
+ TID + Bbytes/ 64 bits Reserved (passwords) 7B Byes TGF BTS Number of write cycles (< 40C) 16 Number of read cycles (< 40 *C) > 10%
Data retention time (< 40C) 10 years Electrical dat Range 35m Protocol 180 1200-63, Transmission speed = 320 kbps Polarization Linear Mechanical specifications Material Pvc Silcone-free Yes Color white Antenna material Aluminum Type of antenna Shortened dipole Printing Can be printed using heat transfer technique SIMATIC RF600 396 System Manual, 06/2019, 48 1069-00171 U001.A22.7618 Transponder SIMATIC RF600 System Manual, 06/2019, 131083.00171-UO01-A22-7618 56 Permitted ambient condition:
7.6 SIMATIC RFG10T ATEX 8GT281 0-2B520-08x1 Ambient ternperature
+ Ino jo write/read access In operation, outside wrteiread access ere transportation and storage Distance Mam metal Degree oF Resistancg to mechanical stress Shock-resi Class 7M:
Vibration t EN 60088.2-6 tant according to DIN EN 60721-3-7, DeSigty"dinensions and weight Dirmensions (Lx W x D) Weight Standards, specifications, approvals Proof of suitability WeEricHES ST |
+40 485C joubting rectly on metal stresq conditionally permis-
100.92 50g 86 54 0.4mm 39 TUV 11 ATEX 081778X
(EN 6007.0, EN 60079-11) 113 GEx ic IB TATSITA Ge, 113 D Exie II Ts 120C De, 25 C<Ta < 425C 1712 years oF e information relates to the maximum read range, You will find more information on ranges in the section "Minimum distances and maximum ranges (Page 55)"
2) The values for shock and vibration are maximum values and must not be applied tinuously. Note Effects of temperatures > 70 C Note thatin temperature ranges > 70 C, the transponder can become slightly deformed. However, this hasno effect on the transponder function, 2397 Transponder 7.6 SIMATIC RF610T ATEX 7.6.5 Dimension drawing Figure 7-16 Dimension drawing SIMATIC RFGIOT (special variant ATEX) 7.6.6 Cerificate Description Conformity with the ATEX directive 201 4/34/EU based on:
Conformity statement no. TUV 11 ATEX 081778X Conformity with the RED directive 201 4/53/EU Conformity with the ROHS directive 201 1/65/EU Passive labels and transponders comply with the valid regulations:
certification is not required, Federal Communications Commission SIMATIC RF60O 398 System Manual, 06/2019, 48 1063-00171 U001.A22.7618 Transponder 7.7 SIMATIC RE620T TT SIMATIC RF620T TIA Characteristics The SIMATIC RF620T Transponder is passive and maintenance-free, based on the UHF Class 1 Gen? technology for storing the 96-bit/1 28-bit "electronic product code" (EPC). The transponder also hasa 64-byle user memary. The container tag for industrial applications is rugged and highly resistant to detergents. Itis designed for easy attachment onto plastic, wood, glass, e.g. containers, palettes, and trolleys The optimum functionality/range of the RF620T on metal is achieved by means of the spacer. Since the plastics food safe, itis also suitable for use in the food-processing industry, This container tag is designed for the frequency range of 860 MHz to 960 MHz and can be operated in combination with cur UHF systern RF6O0. SIMATIC RF@20T Transponder Characteristics, Area of application Transponder for rugged, industrial require-
ments such as RF identification in ware-
houses and the logistics and transport area. Frequency range 860 to 960 MHz Polarization Linear Memory + EPG: 96/ 128bits
+ _User memory: 64 bytes Max. am?
' Mounting S SQUBE Screw, bond 1 \ | motfisuppert ly mG metal by means of spacers le @ Labeting yea \ ' carrbypatean inscribe the transponder itself using Vy wo Polarization axis \ laser, of adhere a label to postion (1), Possi-
ble types of labeling
+ Barcode i in
"NV ia Housing color at Anthracite T 7 Depending onithe ebironment the readerthe antennas and the spt power
+ Inscription in plain text
+ Data matrix code SIMATIC RF600 System Manual, 06/2019, 131083.D0171-UO01-A22-7618 399 Transponder 7.7 SIMATIC RE620T V7.2 Ordering data Table 7-19 Ordering data RF@20T Product Article number SIMATIC RF@ZOT. 8GT2610-2HCat Spacer for SIMATIG RF@2OT 8GT2896-2AA00 Delivery format SIMATIC RF620T is supplied in the following forrn
@ 20 transponders per packaging unit Minimum order quantity: 1 packaging unit (20 units) 773 Planning the use 7734 Range when mounted on flat metallic carrier plates The transponder generally has linear polarization, The polarization axis runs as shown in the diagram below. When using a circular antenna and when the transponder is centrally mounted cn a plane metal plate, which may either be almost square cr circular, it can be aligned in ary direction. When using a linear antenna, the polarization axes of antenna and transponder must always be aligned in perallel Figure 7-47 Optimum positioning of the transponder on a (square or circular) metal surface SIMATIC RF600 400 System Manual, 06/2019, 48 1069-00171 U001.A22.7618 Transponder 7.7 SIMATIC RE620T Table 7-20 Range with metallic, Nat carriers without spacers Carrier material Range Metal plate at least 300 x 300 mm. typically 40%
TaDIe 721 Range Win Wat TeTaIe CATTTeTS WIT SPACETS
[carrier material Range Metal pate at least 300 x 300 mmm typically 100%
The use of spacers on metallic surfaces is recommended, On rectangular carrier plates, the range depends on the mounting orientation of the Transponder. Yu will find more information on the range in the section "Minimum distances and maximum ranges Page 55) 773.2 Range when mounted on non-metallic carrier material Table 7-22 _ Range with non-metallic carriers Carrier material Range Transponder on wooden carrier typically 75 %
TY, TEMES OF MOTSTUTE, TANSPONTET On PBSC CAMTET rypICaNy Transponder on mineral water container typically 15 %
You will find mere information on the range in the section "Minimum distances and maximum Tanges Page s5y SIMATIC RF600 System Manual, 06/2019, 131083.D0171-UO01-A22-7618 401 Transponder 7.7 SIMATIC RE620T TT4 402 Technical specifications Table 7-23 Technical specifications of the transponder SIMATIG RF62OT Product type designation SIMATIC RF620T Radio frequencies Operannag requency
+ ETSI + B65toa8a MHz Fee +902 10.928 MHZ Memory Chip tmanufactureritype) IMPINJ/ MONZA 40T Memory type EEPROM Memory configuration N Number of read cycles (< 40C) > 10%
Data retention time (< 40 0) 10 years Electrical data Range = ame Protocol 180 18000-63 Transmission speed = 320kbps Polarization Linear Mechanical specifications Material PP Silcone-free Yes Color Anthracite Antenna material Aluminum Type of antenna Printing Shortened dipole Can be printed using heat transfer technique SIMATIC RF600 System Manual, 06/2019, 48 1069-00171 U001.A22.7618 Transponder
(es Degree of pratection Resistance to mechanical stress Shock resistant to EN 60088.2-27 Design, dimensions and weight Dimensions (Lx W x D) Transponder Spacer 127
- Weight 116 Tran)
. Space Mee pe of mounting 1S THO Manfcr Tefaves TO Te Maximum rea 7.7 SIMATIC RE620T ecT2810-2Hceat 5). 050 ia]. 05%
+20c
(with spacer) Not etele fr mourting drcty on meta iPr Torsion and bending stress isnot permite 100 g2)
(OB:
127% 38% 8mm
+ 187% 39% 12mm
+ 489
+ 22g 38, 2 xMA screws
$1.2Nm id tange. You will find more information on ranges in the section "Miginjum distances and maximum ranges (Page 55)"
2) The values for shock and vibration are maxi a rpurm values and must not be applied SIMATIC RF600 System Manual, 06/2019, 131083.D0171-UO01-A22-7618 he eS 403 Transponder 7.7 SIMATIC RE620T 115 Dimension drawing ce ots Figure 748 SIMATIG RF@2OT UHF container tag Units of measurement: All dimensions in mm Tolerances, unless indicated otherwise, are +-0.5 mn.
@ Labeiing area, see Section Characteristics (Page 399) SIMATIC RF600 404 System Manual, 06/2019, 18 1063-00171 U001.A22.7618 Transponder 7.7 SIMATIC RE620T 7.16 Certificates and approvals Table 7-24 8GT2810-2HCO0- RF@2OT Cenificare Description Conformity with the RED directive 201 4/53/EU Conformity with the RoHS directive 201 1/65/EU Table 7-25 8GT2810-2HCA0- RFG2OT Cenificare Description Passive labels or transponders comply with the valid regulations;
certification is not required, Federal Communications Commission This product is UL-certfied for the USA and Canada. Itmeets the following safety standardis)
+ ULSOS - Industrial Control Equipment
+ CSA 622.2 No 142 - Process Control Equipment
+ UL Report E 120869 SIMATIC RF600 System Manual, 06/2019, 131083.00171-UO01-A22-7618 405 Transponder 7.8 SIMATIC RF625T 78 SIMATIC RF625T 7.8.4 Characteristics The SIMATIC RF625T transponder is a passive, maintenance-free data carrier with a round design. It operates based on UHF Class 1 Gen 2 technology and is used to save the
"Electronic Product Code" (EPC) of 96 bits/126 bits, The transponder also has a 512-bit user memory. The areas of application are industrial asset management, RF identification of tods, containers and metallic equipment The Disk Tag is small and rugged and sui protection IP68. Itis highly resistant to cil, Ideally, the SIMATIC RF625T is mounted fable for industrial applications with degree of grease and deaning agents, directly on a fat metal surface of at least 150 mm diameter where it achieves a typical sensing distance of 1.6 m. SIMATIC RF@25T. Characteristics Area of application Identification tasks in rugged industrial environments Frequency range
+ ETSI: 865 10868 MHZ
+ FOG: 90210928 MHz Air interface According to ISO 1000-63 Polarization, <= [Unear =
Laairnory + EPC: 86/128 bts
+ _User memory: 64 bytes Read Tandg saute cst Mar 8 MS cicationsy Mounting 1x M3 screw Mounting Designed for direct mounting, on-cndeetfve| materials Ltoreferably.metap. Depending onthe envrfment the eaderthe antennas fndthe set power 408 Readeri Antenna field Antenna Transnonder RFEDST Metsl carrier SIMATIC RF60O System Manual, 06/2019, 18 1063-00171 U001.A22.7618 Transponder 782 Delivery formal 783 78.3.1 SIMATIC RF600 Ordering data Table 7-26 Ordering data RFG25T 7.8 SIMATIC RE625T Product Article number SIMATIC RFG25T (ETSI) 867281 0-2EE00
@GT2610-2EE01 SIMATIG RFG2BT (FCO) 7 i 7 SIMATIC RF 625T isisupplied in thevollowint o 10 transpondersiper packaging unit, Minimum order quantity: 1 packaging uni se nab) Planning the jpimum antennaltrahsponder positonig etal i ;
B Fa carer
[Circular metal
(teraiahie ith planar mounting of the transponder on Figure 7-49 Example of optimum reader/antenna transponder positioning The graphic shows an example of optimum positicning of the transponder relative to the reader or the antenna, This positioning is regardless ofwhether you are working with the intemal reader antenna or with one of the extemal RF600 antennas, System Manual, 06/2019, 131083.D0171-UO01-A22-7618 407 Transponder 7.8 SIMATIC RF625T 7.83.2 Range when mounted on flatrnetallic carrier plates The transponder generally has linear polarization, The polarization axis runs as shown in the diagram below. When using a circular antenna and when the transponder is centrally mounted cn a plane metal plate, which ray either be almost square cr circular, it can be aligned in ary direction. When using a linear antenna, the polarization axes of antenna and transponder rust always be aligned in perallel Transponder Figure 7-20 na M@iate or circular) metal surface Tatl Carrie Metal pl Metal plate approx. 70%
Metal plate approx. 60%
Metal plate approx. 60%
On rectangular carrier plates, the fange depends on the mounting orientation of the transponder. Youwill find more information on the range in the section "Minimum distances and maximum ranges (Page 55)"
408 SIMATIC RF60O System Manual, 06/2019, 48 1063-00171 U001.A22.7618 Transponder 7.8 SIMATIG RF625T 78.3.3 Range when mounted on non-metallic carrier materials The transponder is generally designed for mounting on metallic objects which provide the conditions for the maximum reading ranges Carrier material Range Transponder on wooden carrier approx. 60%
Transponder on plastic carrier approx. 65 %
Transponder on plastic mineral water bottle approx. 70%
mn aa th low reflections on a flat metal carier with a diameter of at least 150 mm. FornwitHind- more detaitedt information en-the range in-the sector Mininram distances and P. 4 7.8.3.4 Mounting mn metal This possible To mount the Transponder in metal [rthere is not enough clearance to the ding metal, this reduces he read
, wLcound) React mm pntox. 50 2 10mm Approx. 70%
The read range information applies when the transponder is mounted on a metallic carrier with a diameter of at least 150 mm, Figure 7-21 _Flush-mounting of RF@25T in metal SIMATIC RF600 System Manual, 06/2019, 131083.D0171-UO01-A22-7618 409 Transponder 7.8 SIMATIC RF625T 784 410 Technical specifications Table 7-29 Technical specifications of the transponder SIMATIG RF625T Product type designation SIMATIC RF625T Radio frequencies Operannag requency
+ ETSI + B65toa8a MHz Fee +902... 928 MHZ?
Memory chi Mi Memory configuration Pr 12Te DYE 1260
+ User memory + 64 bytes 7512 bits
+ TID + 4 bytes / 32 bits Number of write cycles (< 40C) > 10%
Nuiiber of read cycles [240 *Cy se Data retention Time (<40C) BE years Electrical data Range =15m?) Protocol 180 18000-63 Transmission speed = 320kbps Polarization Linear Mechanical specifications Material PAGS Silcone-free Yes Color Black Antenna material Aluminum Type of antenna Shortened dipole Printing No SIMATIC RF600 System Manual, 06/2019, 48 1069-00171 U001.A22.7618 Transponder Degree at pratedtion Resistance to mechanical stress 300005),
/+Shock-resistant- accordingto DIN EN 60%
Class 7 M3 Vibration to EN 60088.2-6 Design, dimensions and weight Dimensions ( * D) Weight Type of mounting Standards, specifications, approvals BF 7.8 SIMATIC RE625T ecT2810-2EEO Omm Designed for mounting directly on metal IPB 1PxoK Torsion and bending stress is not permitted 100.9 Bog 30% 8mm 69 12M countersunk screw
.0.5Nm 1141 years 1e range is reduced to 70% at the band limits 802 MHz or 928 MHz. Due to frequency fluctuations, this effect has no impact. 2 Mounting on a flat metal surface with a diameter of at least 150 mm and at rocm temperature. The informaticn relates to the maximum read range. You will find more information on ranges in the section "Minimum distances and maximum ranges (Page 56"
When these minimum distances are not achieved, there is a reduction in the maximum Fe read and wite distances of the transponder. e values for shock and vibration are maximum values and must not be applied continuously. ots SIMATIC RF600 System Manual, 06/2019, 131083.D0171-UO01-A22-7618 att Transponder 7.8 SIMATIG RF625T 7.85 Dimension drawing Figure 7-22 SIMATIG RF@25T UHF Disk Tag Units of measurement: All dimensions in mm s and approvals so eGT2@10-2EE00- RFE25T Description Conformity with the RED directive 201 4/53/EU Conformity with the RoHS directive 201 1/65/EU
@GT2810-2EE01 - RF625T Description Federal Communica-
tions Commission Passive labels or transponders comply with the valid regulations; certifica-
tion is not required This product is UL-cerlified for the USA and Canada It meets the folowing safety standards)
+ ULBO8 - Industrial Centro! Equipment
+ CSA .022.2 No, 142 - Process Control Equipment
+ UL Repatt E 120869 412 SIMATIC RF60O System Manual, 06/2019, 48 1063-00171 U001.A22.7618 Transponder 79 SIMATIC RF630T 794 Characteristics The SIMATIC RF630T transponder is a passive (i.e. batlery-free) and maintenance-free, cylindrical data carrier. It operates based on UHF Class 1 Gen 2 technology and is used to save the "Electronic Product Code" (EPC) of 96 bits!240 bits. The transponder also has a 512-bit user memory. 7.9 SIMATIC RE63OT Areas of application include the mounting of metallic compenents (e.g, engine assembly in the automobile industry) as well as RF identificaticn of tools, containers and metal frames. The RF630T is small and rugged and suitable for industrial applications with IP6S/IPX9K degree of protection. It is highly resistant to oil, grease and clearing agents, The SIMATIC RF620T is mcunted directly onto metal surfaces to ensure optimum functioning, SIMATIC RFS30T Characteristics Area of application Identification tasks in rugged industrial environ ments Frequency range ETSI: 865 to 88a MHz FCC: 902 to 928 MHz Air interface According to ISO 1800-63 User mar: fhe Real rang Max. 1.2m?
vehite STH k ren %
Mouhthg Wh Designed for direct shointifaxgr| cohductifdfmnate-
PRS | Wf (itebitcccrmedsr RS fh
| oo |
SIMATIC RF600 System Manual, 06/2019, 131063.00171-UO01-A22-7618
41a Transponder 7.9 SIMATIC RF630T 79.2 Ordering data Product Article number SIMATIC RF630T (FCO) SS 7 8GT2B10-2EC10 Delivery format form __ 7 SIMA me 8
(10 units) 7.93 Planningpplicati 7.93.4 Optimum antennaltranspon Pagiegnaris positioned at right angles to the mounting surface, In the cai mounting directly above the transponder, detection isnot possible. Optimum alignment of the transponder tothe Incorrect alignment of the transponder to the transmitting antenna transmitting antenna SIMATIC RF60O ang. System Manual, 06/2019, 8 1069-00171 U001.A22.7618 Application example Antenna Object made of metal (e.g. moter block)
@ Transponder
@ conveyor bert Figure 7-23 RF63OT application example SIMATIC RF600 System Manual, 06/2019, 131083.D0171-UO01-A22-7618 Transponder 7.9 SIMATIG RF630T Polarizetibn axis
/9 416 Transponder 7.9 SIMATIC RE63OT 7.93.2 Figure 7-24 416 Range when mounted on flat metallic carrier plates The transponder generally has linear polarization, The polarization axis runs as shown in the diagram below. If the tag is mounted in the center of a flat metal plate, which is either ap}
receiving RF6S0A antennas operate with circular polarization Optimurn positioning of the transponder on a (equare or circular) metal surface Table 7-33 Range on Tat metalic carers Cartier material Range Metal plate of at least @ 300 mm 100%
Metal plate @ 150 mm approx. 75 %
Metal plate @ 120 mm approx. 50%
Metal plate @ 65 ram approx. 40%
On-testangul: lates, th depends-onth i tation of th transponder You:will ind mare-detailed information on th: the-saction"M diet a maximum ranges (Page 65)"
SIMATIC RF600 System Manual, 06/2019, 48 1069-00171 U001.A22.7618 Transponder 7.9 SIMATIC RE63OT 79.4 Technical specifications Table 7-34 Technical specifications of the transponder SIMATIG RFG30T Product type designation SIMATIC RF630T Radio frequencies PETAIT WEQUETIY
+ ETSI + B65toaeaMHz
+ Foo. +902... 2a MHz Memory Memory configuration
+ byt
= User memory
+ Ba bytes / 512 bits
+ TID
+ Bbytes/ 64 bits Number of read cycles (< 40 "C) > 10 eter Electrical data Range 32m) Protocol 180 1200-63, Transmission speed = 920 kbps Pdarization Linear Mechanical specifications Material PAGS GF Silicone-free Yes Color Blacksilver Antenna material Aluminum Type of antenna Printing SIMATIC RF600 System Manual, 06/2019, 131083.D0171-UO01-A22-7618 Shortened dipole No ay Transponder 7.9 SIMATIC RF630T mechanical stress Shock-resistant according to DINAN BO721 Class 7 M3 oy Vibration to EN 60088.2-6 Design, dimensions and weight Dimensions(_* D) Weight ecT261 02601 i ob ee orm DesaRETTE TEA Hng seg Benet
Torsion orp fe lireasis nol permitted PA_ 1000 ty Type of mounting Standards, specifications, approvals MTEF 40.50 le ron 1712 years 1 The range is reduced to 70% at the band limits 902 MHz or 928 MHz. Due to frequency fluctuations, this effect has no impact. 2 Mounting on a flat metal surface with a diameter of atleast 150 mm and at room temperature, The information relates to the maximum read range. You will ind more information on ranges in the section "Minimum distances and maximum ranges (Page 55)". 2) The values for shock and vibration are maximum values and must not be applied continuously. 418 SIMATIC RF600 System Manual, 06/2019, 48 1069-00171 U001.A22.7618 Transponder 7.9 SIMATIC RF63OT 7.9.5 Dimension drawing ce Fe os Figure 7-25 SIMATIC RF3OT Units of measurement: All dimensions in mm. General tolerancesin accordance with DIN ISO 2768f, SIMATIC RF600 System Manual, 06/2019, 131083.00171-UO01-A22-7618 419
1 2 | User Manual 7 | Users Manual | 4.79 MiB | April 06 2020 / April 07 2020 |
Transponder 7.9 SIMATIC RE63OT 7.9.6 420 Certificates and approvals Table 7-35 @GT2810-2EC00
= RF630T Centificate Description Conformity with the RED directive 201 4/53/EU Conformity with the RoHS directive 201 1/65/EU Table 7-38 @GT2810-2EC10
= RF630T Standard Federal Communications Commission Passive labels and transponders comply with the valid regulations:
cerlfication is not required, This product is UL-certified for the USA and Canada. It meets the following safety standard(s):
+ ULSOS - Industrial Control Equipment
+ CSA 622.2 No. 142 - Process Control Equipment
+ UL Report E 120869 SIMATIC RF600 System Manual, 06/2019, 48 1063-00171 U001.A22.7618 Transponder 7.10 SIMATIC RF640T 7.10 SIMATIC RF640T 7.10.4 Characteristics SIMATIC RF 640T transponder is a passive (i.e, battery-free) and maintenance-ee, round-
shaped data carrier. It operates based on UHF Class 1 Gen 2 technology and is used to save the "Electronic Product Code" (EPC) of 96 bits!240 bits. The transponder also has a 512-bit user memory. The areas of application are industrial asset management, RF identification of tools, containers and metallic equipment. The tod tagis small and rugged and suitable for industrial applications with degree of protection IP68. It is highly resistant to oil, grease and cleaning agents, SIMATIC RF640T should preferably be mounted directly on a flat metal surface of at least 150 mm in diameter. SIMATIC RE@4OT Gharacteristios Area of application Identification tasks in rugged industrial envi-
ronments Suitable for use in hazardous are-
Frequency range + ETSI: 85 to 868 MHZ
+ FOG: 902 to 8 MHz Air interface According to 1S 1800-63 Baglarization Linear Memory nn, + BPE] 96... 240 bits f. Usgr| memory: 84 bytes airstream jeeear range agg en!
nD 2xMileprews Mounting Desife by for direct mounting on conductive P matgridit (preferably metal.
"> Depending on the environmeht. the readerhe antennas andthe set power /
/ u Reader Antenna fale Transponder RFSAOT SIMATIC RF600 System Manual, 06/2019, 131063.00171-UO01-A22-7618 424 Transponder 7.10 SIMATIC RF640T 710.2 Ordering data Table 7-37 RFG4OT ordering data Product Article number SIMATIG RFGAOT (ETS) 6G72610-20600 SIMATIC RFG4OT (FCC) Pon tonaee 6GT2810-20010 Delivery format 7 i ~S Square sl JATIG RFeAoT is supplied in the fallowing fr bien anel
@ |19 transponders per pfckaging unit *, SH Siu meta yinimum order qua I l 7.10.3 Planriing the use i 7.10.3.4 Optimlim'gntenna/transporjder positioning with plane mounting of the transponder on metals i S. i
~~ I -
Example of optimum antennaliransponder posiionmg, Figure 7-26 Example of optimum antennartransponder positioning with RFGOO readers and an RFEOO antenna 422 Note that reflections may occur with large metal surfaces, These can be minimized by changing the radiation angle SIMATIC RF60O System Manual, 06/2019, 48 1069-00171 U001.A22.7618 Transponder 7.10 SIMATIC RF64OT 7103.2 Range when mounted on flat metallic carrier plates The transponder generally has linear polarization, The polarization axis runs as shown in the diagram below. If the tag is mounted in the center of a flat metal plate, which is either approximately square oF circular, it can be aligned in any direction since the transmitting and receiving RFGS0A antennas operate with circular polarization Figure 7-27 Optimum positioning of the transpander on a (square or circular) metal surface Table 7-38 Range on flat metallic carriers Carrier material Range Metal plate of at least @ 150mm. 100%
Metal plate @ 120 mm approx. 80%
Metal plate @ 85 mm approx. 55%
Metal plate @ 65 mm approx. 40%
On rectangular cartier plates, the range depends on the mounting orientation of the transponder You will find more detailed information on the range in the section "Minimum distances and Taxman ranges (Page S5y
SIMATIC RF600 System Manual, 06/2019, 131083.D0171-UO01-A22-7618 423 Transponder 7.10 SIMATIC RF640T 7.10.3.3 710.3.4 Identification 424 Range when mounted on non-metallic carrier materials ied for mounting on metalic objects which provide the ELST pete. tares bal DOOD08388. FS;
chy Range approx. 40%
approx. 35%
approx. 55%
approx. 30%
hieved by mounting the transponder in a free space with erwith a diameter of at least 150 mm. ion on the range in the section "Minimum distances and Use of the transponder in hazardous areas TUV NORD CERT GmbH, appointed center no. 0044 as per Article 9 of the Directive 94/9/EC of the European Council of 23 March 1994, has confirmed the cempliance with the essential health and safety requirements relating tothe design and construction of equipment and protective systems intended fer use in hazardous. areas asper Annex! of the Directive. The essential health and safety requirements are satisfied in accordance with standards EN 60079-0: 2012 + A11: 2013 and EN 60079-11: 2012 This allows the RFG40T transponder to be used in hazardous areas for gases, for the device category 2G and gas group IIB, or altematively in hazardous areas for dusts, for the device category 2D and group IIB. Note, Reaffebllity of the serial number on the type plate When using the transponder, make sure that the serial number can be read. The serial number is lasered and can be hidden by paint or other materials making it illegible. The austerner is responsible for making sure that the serial number of a transponder fer the hazardous area can be read atall times, A The identification is as fellows:
112 GExib IIB T6 ... T3 Gb or. 12 DExib IIB T*C Db SIMATIC RF600 System Manual, 06/2019, 48 1068-00171 U001.A22.7618 Transponder 7103.5 7.10 SIMATIC RF640T Use of the transponder in hazardous areas for gases Note Transponder labeling The labeling of the front of the transponder shown above is an example and can vary between batches produced at different times. This doesnot affect the hazardous area marking. Temperature class grading for gases SIMATIC RF600 The temperature class of the transponder for hazardous atmospheres (gases) depends on the ambient temperature and the radiated power of an antenna in the 865 - 868 MHz frequency band within the hazardous area WARNING Ignitions of gas-air mixtures When using the RF 640T transponder, check that the temperature dass is adhered to in keeping with the requirements of the area of application. Non-compliance with the permitted temperature ranges while using the transponder can lead to ignitions of gas-air mixtures. WARNING Ignitions of gas-air mixtures The maximum transmitting power of the transmitter used to operate the transponder must not exceed 2 W. Non-compliance with the permissible transmitting power can lead to ignitions of gas-air mixtures. System Manual, 06/2019, 131083.D0171-UO01-A22-7618 425 Transponder 7.10 SIMATIC RFG4OT Temperature class assigyynent for gases and a radiated power less than 100 mW ERP Ifthe ragiated power ofan antenna radiating info the Razardous area or located in the hazardUs atea and operating in the 866 - 868 MHz frequency band Cannot exceed the value 169 mW, tetemperature class assignment is as follows:
Ambient fermperature range". fm Tine 78 25 BS i 8G pg | Tr 2586 + 74C a [te [Tra TH SS < Trax 13 980. | tina 72 Temperature class assignment for gases and a radiated power less than 500 mW ERP Ifthe radiated power ofan antenna radiating info the hazardouarea br located in the hazardous aree-and- operating inthe 865868 MHz frequency bandeannot exceed the value 600 my, the temperature class assignment is as follows x z x x Ambient teMperature range SCO TOOT Aha nieratie aes 207 25C 10 +85 C PImWTERP +4 25C 10+85C 15 25C 10 +50C 8 Temperature class assignment for gases and radiated power for 2000 mW ERP Ifthe radiated power of an antenna radiating into the hazardous area or located in the hazardous area and operating in the 865 - 868 MHz frequency band cannot exceed the value 2000 mW, the temperature class assignment is as fellows:
Ambient temperature range Temperature class 25C 10 +85 C 3 25C 10485 C v4 25 Py vs0%0 15
~ 8 Temperature class assignment for gases and a radiated power of 10 mW to 2000 mW ERP. Ifthe radiated power ofan antenna radiating into the hazardous area or of an antenna located in the hazardous area in the 865 - 868 MHz frequency band cannot exceed the radiated power selected in the following diagram, the maximum permitted ambient temperature range can be found in the corresponding temperature function of the diagram This makes the following temperature class assignment valid Ambient temperature range Temperature class 25C 10 +85 C 2 25C 10 +85 C 3 25C 10 +85 C T4 25C toTmas(T5) C. 15 25C to Tm (TB) C 8 SIMATIC RF600 426 System Manual, 06/2019, 48 1069-00171 U001.A22.7618 Transponder 7.10 SIMATIC RF64OT Figure 7-28 Maximum permitted ambient temperature depending on the radiated power, 7103.6 Use of the transponder in hazardous areas for dusts The equipmentis suitable for dusts whose ignition temperatures fora dust layer of mm are higher than 210 C (smoldering temperature). The ignition temperature specified here according to IEC 60079-0: 2011 for ignition protection type ib in this case references the smoldering temperature of a layer of combustible fyings (ib IILA) or altematively non-
conductive dusts (ib IIB) Temperature class grading for dusts WARNING Ignitions of dustair mixtures When using the RF 640T transponder, check that the temperature values are adhered to in keeping with the requirements of the area of application. Non-compliance with the permitted temperature ranges while using the transponder can lead to ignitions of dust-air mixtures. Temperature class assignment for dusts and a radiated power less than 100 mW ERP If the radiated power of an antenna radiating into the hazardous area or located in the hazardous area and operating in the 865 - 868 MHz fequency band cannot exceed the value 100 mW, the temperature class assignment is as follows:
Ambient temperature range Temperature value 25C x Tas +85 T96"C SIMATIC RF600 System Manual, 06/2019, 131083.D0171-UO01-A22-7618 427 Transponder 7.10 SIMATIC RFG4OT Temperature class assignment for dusts and a radiated power less than 500 mW ERP If thafdiated power of an antenna radiating into the hazardous area or located in the hazardous area and operating in the 865 - 868 MHz frequency band cannot exceed the value 500 mW, the temperature class assignment is as follows:
Ambient temperature range Temperature value 25C S Tas 185C 1120 C Temperature class assignment for dusts and a radiated power less than 1280 mW ERP Ifthe radiated power of an antenna radiating into the hazardous area or located in the hazardous area and operating in the 865 - 868 MHz frequency band cannot exceed the value 1280 mW, the temperature class assignment is as fellows:
10 Ambient tenjperature range Temperature value 25c Btafew Ti35G. 130 4 Ambient temperature range t if thradiat hazractls 4 azardous area or located in the rea and operaiing in the annot exceed the value 200) fnW, the temperature cass assignment isas flows AmbientGnpreratore-renge-Fermpreratre-vatye 25C = Tals +80% T135-C Temperature class assigntnanigogugis ands seditad ewer of 18 nV ERE 18.200. em ERP Ifthe radiated power Gar ailenia Tadiating info the Hazardous area orlocatedin the hazardous area and operating in the 865 -FBBBWOIBB Frequency band can be between the ae? mW ERP and 1280 mW ERP, the temperature class assignment is as follows:
Ambient temperature range Temperature value E Tas +86 C Teas?
See diagram, blue line Ifthe radiated power of an antenna radiating into the hazardous area or located in the hazardous area and operating in the 865 - 868 MHz frequency band can be between the values 1280 mW ERP and 2000 mW ERP, the temperature class assignment isas follows:
Ambient temperature range Temperature value 25C 2 Ta < Tam anton C? 135 1) See diagram, orange line SIMATIC RF600 428 System Manual, 06/2019, 48 1069-00171 U001.A22.7618 Transponder 7.10 SIMATIC RF640T WARNING Ignitions of dustair mixtures Using the RF640T transponder with radiant power greater than 1280 mW ERP requires compliance with the reduced maximum ambient temperature (see diagram) for maintaining thre Taxman Ternperature-Vattie of Non-compliance with the permitted temperature ranges while using the transponder can TeaUTOTgMMONS OF GUST TREES:
to the radiated power of the antenna is shown in the diagram below:
Temperature value Ambient temperature Figure 7-29 Temperature value and maximum permitted ambient temperature in relation tothe Tadiated power SIMATIC RF600 System Manual, 06/2019, 131083.D0171-UO01-A22-7618 429 Transponder 7.10 SIMATIC RF640T 7.10.4 Technical specifications Table 7-40 _ Technical specifications of the transponder SIMATIC RFG4OT Product type designation SIMATIC RF64OT Radio frequencies Operannag requency
+ ETSI + B65toa8a MHz Fee +902... 928 MHZ?
Memory chi Mi Memory configuration Pr + yr ror
+ User memory + 64 bytes 7512 bits
+ TID + B bytes / 64 bits Number of write cycles (< 40C) > 10%
Nuiiber of read cycles [240 *Cy se Data retention time (< 40 0) 10 years Electrical data Range 4m?
Protocol 180 18000-63 Transmission speed = 320kbps Polarization Linear Mechanical specifications Material PAt2 Silicone-free Yes Color Anthracite Printing No SIMATIC RF600 420 System Manual, 06/2019, 48 1069-00171 U001.A22.7618 Transponder 7.10 SIMATIC RF640T
@GT2810-20C0%
A Permitted ambient conditions Ambient temperature
+ In cperation, during writeread access = +25... +85 C
+ In cperation, outside write/read access + 40... +125 C
* During transpartation and storage + 40... +1256 DisEaRCE TORT TAT Urner Designed for mounting directly on metal Degree of pratection IP6/ IPx9K Resistance to mechanical stress Torsion and bending stress is not permitted Shock-resistant according to DIN EN 0721-3-7, 1009 Class 7 M3
\ibration to EN 60088.2-6 2oae Design, dimensions and weight Dimensions ( * D) 50x 8mm Weight 139 Type of mounting 2xM4 screws
$1.2Nm Standards, specifications, approvals Proof of sutabilty Ex: II2 G Ex ib IIB T6 .. T3 Gb, 112D Ex ib IIIB T* C Db, 25 C < Tate +85 C MTBF 1757 years 4) The range is reduced to 70% at the band limits 902 MHz or 928 MHz. Due to frequency fluctuations, this effect has no impact. 2 Mounting on a flat metal surface with a diameter of at least 150 mm and at room temperature, The informaticn relates to the maximum read range. You will find more information on ranges in the section "Minimum distances and maximum ranges (Page 56)"
2) Touse the transponder in hazardous areas, directive 94/9/EC of the European Council of 23 March 1994 must be complied with. Note the information in the section "Use of the transponder in hazardous areas (Page 424)"
The values for shook and vibration are maximum values and must not be applied continuously. Note Effects of temperatures > 70 C Note thatin temperature ranges > 70 C, the transponder can become slightly deformed. However, this hasno effect on the transponder function, SIMATIC RF600 System Manual, 06/2019, 131083.D0171-UO01-A22-7618 at Transponder 7.10 SIMATIC RF640T WARNING _____ Ignitions df gas-sirordust-airmixtines:
When using the RF640T trarSponder, check to ensurHheBtberature values are observed in respect of the requirements of the hazardous area of application. Non-compliance with the permitted temperature ranges wrile using the transponder can lead to ignitions of gas-air or dust-air mixtures. ues and must not be applied 10 the surface of the housing due DIN 433 washars +
wor head screws with ead DIN G&12 Ne SIMATIC RF600 432 System Manual, 06/2019, 48 1069-00171 U001.A22.7618 Transponder 7.10 SIMATIC RF640T 7.105 Dimension drawing ce ots Figure 7-30 SIMATIC RF64OT Units of measure: All dimensions in mm SIMATIC RF600 System Manual, 06/2019, 131083.00171-UO01-A22-7618 433 Transponder 7.10 SIMATIC RF640T 7.10.6 Certificates and approvals Table 7-41 @GT2810-2000
= RF64OT Cenificate Description Conformity with the RED directive 201 4/53/EU Conformity with the RoHS directive 201 1/65/EU Conformity with the ATEX directive 201 4/34/EU. 10-20010
= RF64OT feations Passive labels oF transponders comply with the valid regulations;
cerlfication is not required, This product is UL-certified for the USA and Canada. It meets the following safety standards):
UL 609501 - Information Technology Equipment Safety - Part 1 General Requirements CSA C22.2 No. 60950 -1 - Safety of Information Technology Equip-
ment UL Report E 205089 ATEX certification The type test certification for the basis of this certification, according to directive 94/O/E"
The producing factory of the the DEKRA EXAM GmbH wi the RF640T is stored by TUV 07 ATEX 346241 / Version 1. On the CE declaration by the manufacturer has been made C. RF640T has an ATEX quality assurance system recognized by
'h notice number BVS 11 ATEX ZOS/E111 Manufacturer's address - distributor Manufacturer's address - factory Siemens Aktiengesellschaft (PD PA Cl) Siemens Aktiengesellschaft (DF FA CE) Process Industies and Drives Division Digital Factory Process Automation Factory Automation Industrial Communication an identification Control Components and System Engineering D-76181 Karlsruhe, Germany Breslauer Strabe 4 D-90766 Firth, Germany SIMATIC RF60O System Manual, 06/2019, 48 1063-00171 U001.A22.7618 Transponder 7.41 SIMATIC REGIST 7.11 SIMATIC RF645T 7.414 Characteristics SIMATIC RF645T is a passive and maintenance-free on-metal data storage medium. It is specially designed for mounting directly on metal surfaces, It operates based on UHF Class
+ Gen 2 technology and is used to save the "Electronic Product Code" (EPC) up to 448 bits, The transponder also has 2048 bits of user memory. SIMATIC RFG4ST Characteristics Area of application _| The areas of application are industrial asset management, RF identification of tools, contain-
ers.and metallic equipment. Frequency range + ETSI: 865 10868 MHZ
+ FOG: 90210928 MHz Airintertace Recording 11SO 1800-63 TETTION + EPC: SG bytes? 448 bis 7 User memory: 256 bytes 1208 bis Read range Max. 6.0m. Mounting + Glued
+ Mounting cover (M4)
+ Retaining bracket (M5) TROUT DeSIgTTER Tor arse MOUTtINg On CONTE Tr terials (preferably metal). Depending on Te Environment Ie PEATE ANTENTaS ange ST POET WALZ Orckering cata Table 7.43 Ordering dats Product Article number OUNTING COvET TOT Retaining bracket for SIMATIC RFG45T. 8GT2896-5AB00 SIMATIC RF600 System Manual, 06/2019, 131083.D0171-UO01-A22-7618 25 Transponder 7.11 SIMATIC RF645T Delivery format The SIMATIC RF645T is supplied in the following form
@ _20 transponders per packaging unit Minimum order quantity. 1 packaging unit (20. unit Th o pp s Kinirorrorder-quarttty + packaging omit {2e-onitsy The Teraning DrackeT Tor SIMATIC RFGAST 1s Soppred tn the torowing form Winimum order quanti T packaging unit Tons 7.11.3, Technical specifications Table 7-44 Technical specifications of SIMATIC RFG45T 8GT281 0-2HCOS Product designation SIMATIC RFG4ST Radio frequen:
Operating frequency (broadband)
+ FOG, CMIIT and others + S02 16 628 MHZ Memory Chip (manufactureritype) NXP / UGODE 7xm-2k Memory configuration
+ EPG + 56 bytes / 448 bits
+ User memory + 256 bytes / 2048 bits
. up 242 byt bit Number of write cycles (< 40C) > 190 000 Number of read cycles (< 40 *C) > 10%
Data retention time (< 40C) 20 years Electrical data Read range (on the metallic support) 6m Protocol 180 1200-63, Transmission speed = 320 kbps Polarization Linear (long side = polarization axis) SIMATIC RF600 26 System Manual, 06/2019, 48 1069-00171 U001.A22.7618 Transponder 7.11 SIMATIC RF645T
@GT2810-2HC0s Mechanical specifications Material Plastic (ABS) Sticone-free Yes Color ag s2Black antbnna matefia allerinum Printing | y) * Ne Perfritted amifient condifions ArMentterptrature / _ ashpntterobetue (gy i In operation, durityg wrte/read access
+ 40... +285 C
+| In opergtion. outefie witettead access | + | 40... +85 Re Searing rameportion dnd storage 340... +85 C Distance from metal omm na asa Designed for mounting direct; on metal Oufeatnaacion Pes Shobk according to DIN EN 60721-3-7 500 mist Clags 73?) Vibrations accerding to EN 60088.2.6 2 200 mist Resistance to mechanical stress Not permitted Design, dimensions and weight Dirmensions (Lx W x H) 82 (40.5) * 36 (40.5) x 12.5 mm Weight Approt. 25 9 Type of mounting + Glued
+ Mounting cover (M4)
+ Retaining bracket (M5) Depending on the environment 2 The values for shock and vibration are maximum values and rust not be applied continuously. SIMATIC RF600 System Manual, 06/2019, 131083.D0171-UO01-A22-7618 a7 Transponder 7.11 SIMATIC RFOSST T14 Dimension drawing All dimensions in mm At SIMATIC RF645T Figure 7-31 Dimension geayiing oF SIMATIC RF6AST Cutaway A-A SIMATIC RF60O 48 System Manual, 06/2019, 48 1063-00171 U001.A22.7618 Transponder 7.41 SIMATIC RF645T Retaining bracket for, eure RF645T A Cutaway A-A Figure 7-32 Dimension drawing mounting cover (6GT2898-5AA00) for SIMATIC RFG45T SIMATIC RF600 System Manual, 06/2019, 131083.00171-UO01-A22-7618 49 Transponder 7.11 SIMATIC RF645T fe 7-33 Dimension drawing (6GT2898.5AB 00) for SIMATIC RFG45T 715 Certificates and approvals Table 7-45 Certificates and approvals Labelin, Description Conformity with the RED directive 201 4/53/EU Conformity with the RoHS directive 201 1/65/EU Federal Communications Commission Passive labels and transponders comply with the valid regulations;
certification is net required 440 SIMATIC RF60O System Manual, 06/2019, 48 1063-00171 U001.A22.7618 7.12 7.124 Characteristics SIMATIC RF680T Transponder 7.12 SIMATIC RF6BOT The heat-resistant SIMATIC RF68OT transponder is a passive, maintenance-free data carrier. It operates based on UHF Class 1 Gen 2 technology and is used to save the
"Electronic Product Code" (EPC) of 96 bits/240 bits, The transponder also has a 512-bit user memory. These transponders are ideally suited to high-temperature applications (e.g. painting) as well a applications in production logistics Depending on the temperatures at which itis used, the lifetine of the transponder is limited The RF630T is rugged and suitable for industrial applications with IPG8/IPX9K degree of protection. It is highly resistant to oil, grease and cleaning agents. The SIMATIC RF680T is mounted directly onto metal carriers to ensure optimum functioning, SIMATIC RFSSOT Characteristics Area of application Readiwrile distance see Sending and rece wily Applications with high temperatures (up to +220
"C). Suitable for use in hazardous areas. Typical areas of application:
Pm Paint shops and their prepari incl. drying Svens. Heal sopiteitoara inc. drying. Washing areas atone Frequency le
| wETSITB6S to 868 Miz \|
+ Foc: ger togamiz Readeri Antenna Air interf HEM Feld According to 180 1 dogs Ee Polarization Linear Temperature range up to 220C Memory + EPC: 96... 240 bits
+ User memory: 64 bytes Read range Max. 5m Mounting 2x MG screws Mounting Designed for direct mounting on conductive mate-
rials (preferably metab,
* Depending on the environment, the readerithe antennas and the set power SIMATIC RF600 System Manual, 06/2019, 131083.00171-UO01-A22-7618 441 Transponder 7.12 SIMATIC RFG8OT 7122 Ordering data Table 7-48 Ordering data Resor Product Article number SIMATIC RFGBOT. 8GT2810-2HGA0 Delivery format SIM
@ [19 transponders per packaging unit
{ Poarzation avis nn arhry quedradicr itsYetalcerrier 7.12.3, Planni 7123.4 Optirn Jane mounting of the transponder on metal Figure 7-34 Example of optimum antenna/transponder positioning SIMATIC RF600 442 System Manual, 06/2019, 48 1069-00171 U001.A22.7618 Transponder 7.12 SIMATIC RF68OT 7123.2 Range when mounted on flat metallic carrier plates The transponder generally has linear polarization, The polarization axis runs as shown in the diagram below. If the transponder is centrally mounted on a plane metal plate, which may either be almost square or circular, it can be aligned in any direction if the transmitting and receiving antennas operate with ciroular polarization (such as the RF660A) Figure 7-35 Optimum positioning of the transponder on a (square or circular) metal surface To achieve the listed maximurn ranges, the transponder must be mounted on a metallic mounting surface wit a minimum diameter of 160 mm Eg) osenauer carrier plates, the range de n the mounting orientation of the ssponder. You will find mere information on the range in the section "Minimum distances and maximum ranges (Page 55)"
7.12.33 Range when mounted on non-metallic carrier materials S MALO HI 6801 15:8 EBC 11000086 Lxib IB 16 bis 17 Gh
(IPPRIBT2E4D-2Reege with hea metaity oaRiEI| Ex ib IIB T 125C Do 1 material det Gt wooden carri 2B Ox ogeFC & 2 Tanepondenenwplesticspenier (J! -204/5 Nremmerg Made in Cit Transponder on glass Typically 50 %
typically 50 %
The maximum range of 100% is achieved by mounting the transponder in a free space with low reflections on a flat metal carrier with a diameter oft least 300 mm Yu will find more information on the range in the section "Minimum distances and maximum ranges (Page 55)"
SIMATIC RF600 System Manual, 06/2019, 131083.D0171-UO01-A22-7618 4g Transponder 7.12 SIMATIC RF680T 712.3.4 Identification 712.3.5 444. Use of the transponder in the hazardous area TUV NORD CERT GmbH, appointed center no. 0044 as per Article 9 of the Directive 94/9/EC of the European Council of 23 March 1994, has confirmed the cempliance with the essential health and safety requirements relating to the design and construction of equipment and protective systems intended fer use in hazardous areas asper Annex II of the Directive. Th tial health and safety is fisted. zt ith-standard IEC 60079-0:2011 and EN 60079-11:2012 This allows the RF680T transponder to be used in hazardous areas for gases, for the device category 2G and gas group IIB, or altematively in hazardous areas for dusts, for the device category 2D and group IIB. Note Readability of the serial nurnber on the type plate Whebdsing the transponder, make sure that the serial number can be read. The serial nurrfper is lasered and can be hidden by paint or other materials making it illegible. The austerner is responsible for making sure that the serial number of a transponder for the hazardous area can be read atall times, Tred cation is as folows:
1 2G Ex ib IIB T6 to T2 Gb or 1 2D Ex ib IIIB T135 C Db Use of the transponder in the hazardous area for gases SIMATIC RF600 System Manual, 06/2019, 48 1069-00171 U001.A22.7618 Transponder 7.12 SIMATIC RF6BOT Note Transponder labeling The labeling of the front of the transponder shown above is an example and can vary between batches produced at different times. This doesnot affect the hazardous area marking. Temperature class delineation for gases The temperature class of the transponder for hazardous atmospheres (gases) depends on the ambient temperature and the radiated power of an antenna in the 865 - 868 MHz frequency band within the hazardcus area WARNING Ignitions of gas-air mixtures When using the RF680T transponder, check to make sure that the temperature class is adhered to in keeping with the requirements of the area of application Non-compliance with the permitted temperature ranges while using the transponder can lead to ignitions of gas-
air mixtures. WARNING Ignitions of gas-air mixtures The maximum transmitting power of the transmitter used to operate the transponder must, not exceed 2 W. Non-compliance with the permissible transmitting power can lead to ignitions of gas-air mixtures. Temperature class assignment for gases and a radiated power less than 100 mW ERP If the radiated power of an antenna radiating into the hazardous area or located in the hazardous area and operating in the 865 - 868 MHz fequency band cannot exceed the value 100 mW, the temperature class assignment is as follows:
Ambient temperature range. Temperature class 25C... +200C. 12 25C... 180C 13 25C. 125C. T4 25C... +80C 15 25C... +75 C Te SIMATIC RF600 System Manual, 06/2019, 131083.D0171-UO01-A22-7618 445 Transponder 7.12 SIMATIC RF680T Temperature class assignment for gases and a radiated power less than 500 mW ERP Ifthe radiated power ofan antenna radiating into the hazardous area or located in the hazardous area and operating in the 865 - 868 value 600 mW, the temperature class assignm MHz frequency band cannot exceed the ent is as follows Ambient temperature range Temperature class
(25C... +220C 2 25C... 173C 3 25C... 108C 4 25C... 473C 15. 25C... +58C 8 Temperature class assignment for gases and radiated power for 1000 mW ERP Ifthe radiated power ofan antenna radiating into the hazardous area or located in the 250 hazardous-area-and-operaling in-the 885-~868 MHz-ffequency-band cannot exceed ihe value 1000 mW, the temperature class assignment isas fdlows 200 =y
+220C 12 25C... +181 13 Taare 50 3 Teac 75 o Sierra
= cea Tees oo = may Temperatufe classassignment for gases and radiated power for 2000 mW ERP 50 7 s ne Taiiated power Of ar antenna Talaling INTO The Nazardous area Or Tocated in the hazardous area and operating iit the 865.- 668 MHz frequency band canriot exceed the value 2000 mW, the temperature class assignimentis.as follows
( 888 EE ee 100 446
\Bmifentemperafire Bg B B S SF Sliemigratie sss SB
(25C... +208C Te =
25C... +108C [mW FERPT 13 25C... 443C 4 25C... 48C 15. SIMATIC RF600 System Manual, 06/2019, 48 1063-00171 U001.A22.7618 Transponder 7.12 SIMATIC RF68OT Temperature class assignment for gases and a radiated power of 10 rrW to 2000 mW ERP. If the radiated power of an antenna radiating into the hazardous area or ofan antenna located in the hazardous area in the 885 - 868 MHz frequency band cannot exceed the radiated power selected in the following diagram, the maximum permitted ambient temperature range can be foundin the comesponding temperature function of the diagram. This makes the following temperature dass assignment valid Ambient temperature range. Temperature class 25C. Tam (T2) C. 12 25 C... Twa (T3)C 13 Bese ten" Ts 25C. Tam (TH) "C. 15 25C. Tam (TEC. Te Figure 7-36 Maximum permitted ambient temperature depending on the radiated power SIMATIC RF600 System Manual, 06/2019, 131083.D0171-UO01-A22-7618 447 Transponder 7.12 SIMATIC RFG8OT 7.12.3.6 Use of the transponder in the hazardous area for dusts The equipment is suitable for dusts whose ignition temperatures for a dust layer of mm are higher than 210 C (smoldering temperature). The ignition temperature specified here according tolEC 60079-0:2011 for ignition protection type ib in this case references the smoldering temperature ofa layer of combustible fiyings (ib IIIA) cr alternatively non-
conductive dusts (ib IIIB) Temperature class delineation for dusts WARNING Ignitions of dust-air mixtures When using the RF680T transponder, check to make sure that the temperature values are adhered to in keeping with the requirements of the area of application Non-compliance with the permitted temperature ranges while using the transponder can lead to ignitions of dust-
air mixtures. Temperature class assignment for dusts and a radiated power less than 100 mW ERP If theggdiated power of an antenna radiating into the hazardous area or located in the hazAffbus area and operating in the 865 - 868 MHz frequency band cannot exceed the value 100 mW, the temperature class assignment is as follows:
Ambient temperature range Temperature value 25C sTas 125C 1135 C Temperature class assignment for dusts and a radiated power less than 500 mW ERP value 500 mW, the temperature class assignment is as follows:
Ifthe radiated power of an antenna radiating into the hazardous area or located in the hazardous area and operating in the 865 - 868 MHz frequency band cannot exceed the Ambient temperature range Temperature value 25C sTas 108% 1135 C Temperature class assignment for dusts and a radiated power less than 1000 mW ERP value 1000 mW, the temperature class assignment is as fellows:
Ifthe radiated power of an antenna radiating into the hazardous area or located in the hazardous area and operating in the 865 - 868 MHz frequency band cannot exceed the Ambient temperature range Temperature value 25C <Tas +88 1135 C SIMATIC RF600 448 System Manual, 06/2019, 48 1069-00171 U001.A22.7618 Transponder 7.12 SIMATIC RF68OT Ambient temperature range for dust and radiated power of 2000 mW ERP 100 + i Temperature clggs assignment for dusts and a radated-power of 10 mW ERP to 2000 mW ERF 14 ff jaciated power of an antenna radiating info Ihe Razamdous area or locatedin the. he rE SIMATIC RF600 If the radiated power of an antenna radiating into the hazardous area or located in the hazardous area and operating in the 865 - 868 MHz fequency band cannot exceed the vafile POO mW, the temperature class assignment is as follows:
Aitbidnttemperaturerenge _<([Temperaturevalue 957 Tare 245 C T1956
hag diaries Eee me ee eee can be between valtied 10 mW ERP and 2000 mWERP, the temperature class assignmentis.as falows:
Ambignt temperature range Temperature value 25 d tas Ty =o -
jeg diagram, oranag line msmiBOGOI ES SELL ELE REESE REE mee WARNING Jgnitions of dust-air mixtures sing the RF680T transponder with radiant power greater than 1280 mW ERP, requires compliance with the reduced maximum ambient temperature (see diagram) for maintaining the temperature value toa maximum of 135 C, Non-compliance with the permitted temperature ranges while using the transponder can lead toignitions of dust-air mixtures, 449 System Manual, 06/2019, 131083.00171-UO01-A22-7618 Transponder 7.12 SIMATIC RF680T The respective temperature value and the maximum allowed ambient temperature in relation to the radiated power of the antenna is shown in the diagram below:
Temperature value Figore?= e m SIMATIC RF600 450 System Manual, 06/2019, 48 1069-00171 U001.A22.7618 Transponder 7.12 SIMATIC RF68OT 7124 Technical specifications Table 7-48 Technical specifications of the transponder SIMATIG RFG80T Product type designation Radio frequencies Operating frequency SIMATIC RFGSOT
+ ETSI + B65toaeaMHz
+ Foo + 902... @2aMHz Memory Chip (manufacturertype) NXP 7 G2XM Memory pe EEPROM Memory configuration
+ EPG 12. 30 bytes / G6 BAO bits
+ User memory 64 bytes / 512 bits
+ TID
@bytes / 64 bits
+ Reserved (passwords)
+ Bbytes/ 64 bits Number of write cycles (< 40C) > 101 Number of read cycles (< 40 *C) > 16 Data retention time (< 40C) 10 years Electrical data Range 35m Protocol 180 18000-63 Transmission speed = 20 kbps Pdlarization Linear Mechanical specifications Material PPS Sllicone-ree Yes Color Black Printing No SIMATIC RF600 System Manual, 06/2019, 131083.D0171-UO01-A22-7618 461 Transponder 7.12 SIMATIC RF680T 8GT2B10-2HGEO Permitted ardtlient cqrattions|
Ambient teryppraifre
+ In operation, during write/read access +25... #100C, permanent Special features:
85 +100... #140 C, 20% reduation of the limit distance 1 As of 140 no probe: Sib
[SHERRERE +200 *C} tested df to 500d houts or r 3000 cycles a ra Up to +220 *Cfftested hours or
+ In operation, duiside wrtteread access 420C 118
+ During transpertation and storage "1g580- *100C |
Distance from metal Om Designed for mounting directly on metal Degree of protection IPea /1Pxok Resistance to mechanical stress Torsion and bending stress is not permitted Shock-resistant according to DIN EN 60721-3-7, 1009 Class 7 M3 Vibration to EN 60088. 209 Design, dimensions and weight Dimensions (L xW xD) 32 15 130 mm Weight 80g Type of mounting 2x MG screws
= 1Nm Standards, specifications, approvals Proof of suitability 112G Ex ib 1B T6to T2 Gb, 1120 Ex ib IIIB T135 *C Db MTEF 1940 years 4) The range is reduced to 70% at the band limits 802 MHz or $28 MHz. Due to frequency fluctuations, this effect has no impact. 2 Mounting on a flat metal surface with a diameter of atleast300 mm and at room temperature, The information relates to the maximum read range. You will ind more information on ranges in the section "Minimum distances and maximum ranges (Page 55)". 2) To use the transponder in hazardous areas, directive 94/9/EC of the European Council of 23 March 1994 must be complied wih, Note the information in the section "Use of the transponder in the hazardous area (Page 444)"
9 The values for shock and vibration are maximum values and must not be applied continuously. SIMATIC RF600 462 System Manual, 06/2019, 48 1069-00171 U001.A22.7618 Transponder 7.12 SIMATIC RF68OT 7125 Dimension drawing ce Fe rm 7-38 Dimension drawing of SIMATIC RFG80T Nibatpensions in mm Tolerances unless indicated otherwise +0.5 mm. SIMATIC RF600 System Manual, 06/2019, 131083.00171-UO01-A22-7618 463 Transponder 7.12 SIMATIC RF680T 7.12.6 Certificates and approvals Table 7-49 @GT2810-2HGE0
= RFGEOT Centificate Description Conformity with the RED directive 201 4/53/EU Conformity with the RoHS directive 201 1/65/EU Conformity with the ATEX directive 201 4/34/EU. Table 7-50 @GT2810-2HGE0
= RFGEOT Standard Federal Communications Commission Passive labels oF transponders comply with the valid regulations;
cerlfication is not required, This product is UL-certified for the USA and Canada. It meets the following safety standards):
+ ULSOS - Industrial Control Equipment
+ CSA 622.2 No. 142 - Process Control Equipment
+ UL Report E 120869 ATEX the basis of this certification, The type test certification for the RF680T Version 1 is stored by TUV 07 ATEX 346241. On the CE declaration by the manufacturer has been made according to directive 94/9/EC. The producing factery of the RF680T Versicn 1 has an ATEX quality assurance system recognized by the DEKRA EXAM GmbH with certificate number BVS 11 ATEX ZQS/E111 Manufacturer's address - distributor Manufacturer's address - factory Siemens Aktiengesellschaft (PD PA Cl) Siemens Aktiengesellschaft (DF FA CE) Process Industies and Drives Division Digital Factory Process Automation Factory Automation Industrial Communication and Identification Control Components and System Engineering D-76181 Karlsruhe, Germany Bresiauer Strabe 5 454 D-90766 Firth, Germany SIMATIC RF60O System Manual, 06/2019, 48 1068-00171 U001.A22.7618 Transponder 7.43 SIMATIC RF6B2T 7.13 SIMATIC RF682T 7.13.4 Characteristics The heat-proof SIMATIC RF 6827 is a passive and maintenance-free data carrier. The RF682T operates based cn the UHF Class 1 Gen 2 technology and is used to store the
"Electronic Product Code" (EPC) of 224 bits. The transponder also has a 3072-bit user memory. These transponders with a limited service life are ideally suited to high-temperature applications (e.g. the painting of vehicle bodies) as well as applications in production logistics. The RF632T is rugged and suitable for industial applications with degree of protection IPG8/IPXOK. Itis highly resistant to oil, grease and cleaning agents The SIMATIC RF6827 is mounted directly onto metal surfaces to ensure optimum functioning, SIMATIC RFS22T Characteristics Area of application | Applications with high temperatures (briefty up to
+220C) Typical areas of application
+ Paint shops and their preparatory treatments, incl. drying ovens
+ Electrophoretic deposition area
+ Primer coat inel. drying oven cen Fe-Tep-coat area incl drying ir
+ Washing areas at temperatirps > 85 "C roe According 1918016000635,
[lemony eraesr 28 aes invrile distance see mf ears fechnipal specificaiors
+ User memory: 384 bytes / $b}? bits Sane hee Mon 35mp Mountirp Toniy intended fer mounting dirdehy on metal. 7 oO Trensponde Depending on tggjronment the eaderthe aienhanagdthe set power Antenna SIMATIC RF600 System Manual, 06/2019, 131063.00171-UO01-A22-7618 455 Transponder 7.13 SIMATIC RF682T 713.2 Ordering data Table 7-51 Ordering data Alicle number SIMATIC RFGA2T. 837261 0-3HGEO Mounting set for SIMATIC RFE@xT @372890-2AA00
(2x bracket) Delivery format The SIMATIC RF682T is available in the following form
@ 10 transponders per packaging unit Minimum order quantity: 1 packaging unit The mounting set fer SIMATIG RF682T is available in the following forrn
@ 10 mounting sets per packaging unit Minimum order quantity: 1 packaging unit 7.13.3 Planning operation 713.34 Optimum antenna/transpon der positioning with plane mounting of the transponder on metal quedradicr
[ Povarization axis Metal cerrier oe Figufe A39_ Example of optimum antenna/tralspode positioning SIMATIC RF600 456 System Manual, 06/2019, 48 1069-00171 U001.A22.7618 Transponder 7.13 SIMATIC RF682T 713.3.2 Note on installation NOTICE Reduction of the writelread range When mounting on metal or conductive material, ensure that the space below the transponder remains empty. NOTICE Mounting at a high temperature Torelieve mecharical strain cr tension on the transponder, when using the transponder at fuses > 480C the 4 det should be mechanicall ted frora th
{supporting surface by using the mounting brackets (due to the differing expansion coefficients of all materials). 7.13.3.3 Range when mounted on flat metallic carrier plates The transponder generally has linear polarization, The polarization axis runs as shown in the diagram below. The polarization axis of the transponder should always run parallel to the porarizatior axis of te amenina To achieve OpImun CISTaNCes amd TESTS Tfihe transponder is centrally mounted on a plane metal plate, which may either be almost pealigned 4 f sand 4 as t 5 operate with circular polarization (such as the RF 650A) Figure 7-40 _ Optimum positioning of the transponder on a (square of circular) metal plate The tretat plate mast rave ermininnran damreter of 150x150 Tm, STratter SUrECes CAT SIMATIC RF600 System Manual, 06/2019, 131083.D0171-UO01-A22-7618 467 Transponder 7.13 SIMATIC RF682T On rectangular carrer plates, the range depends on the mounting onentation ofthe rarsporrder 7.13.4 Technical specifications Table 7-52 _ Technical specifications of SIMATIC RFGR2T ecT2810-3HGa0 Product designation SIMATIC RFG22T Radio frequency Operannag requency
+ ETSI +805 To B68 MHZ
+ Foo + 902 t0.928 MHZ Mi chi Memory type EEPROM Mi
+ User memory + S84 bytes 3072 bits
+ TID + 12 bytes / 98 bits Numherofurite cycles {can 4108 Numherofread cycles (< 40 Vioitect Data retention time (< 40C) 20 years Electrical data Range
+ Writing + Uptot.am
+ Reading + Upto35m Protocol EPCglobal Class 1 Gen 2/180 1800-63, Transmission speed = 400 kbps Polarization Linear Mechanical specifications Material Plastic (PPS) Silicone-free Yes Color Black Imprint No SIMATIC RF600 458 System Manual, 06/2019, 48 1069-00171 U001.A22.7618 125 Perriitled ambien coruitions Transponder 7.13 SIMATIC RF682T eGT2810-3HGe0 Ambigh tgfrature
+ In operation, during write/read access
+ 2510 +100 C permanently Special features:
ing possible 25Q|hours or 85 As of 140C, no In oper
+] During franspor Distanee from metal 45 OM fenced or mourtfe dlrectly on metal Degree ofprdectiom 7 Shock according to DIN-EN 60721-3-7-
Class 7 M3 Vibrations according to EN 60088.2-6 Resistance to mechanical stress jesign, dimensions and weight Dimensions (Lx W x H) aplejaht pres mounting al Standards, specificatichs, dpprovals mTerp28 |
4 10 SIMATIC RF600 System Manual, 06/2019, 131083.D0171-UO01-A22-7618 130 40092 2092 Torsion and bending stress are not permitted 130% 32% 15 mm 80a Cr Serew|eonnection 2x MB{s tuhrr)
1940years 25
) Depending on the environment, the reader / the antennas and the set power
~ 2. Th@Blues for shosk and vibration are maximum values and must not be applied continuousty. 459 Transponder 7.13 SIMATIC RF682T 7.13.5 Dimension drawing c Fe Figure 7-41 Dimension drawing of SIMATIC RF6&2T Figure 7-42 Dimension drawing mounting for SIMATIC RFE@xT All dimensions in mm Tolerances unless indicated otherwise 40.5 mm SIMATIC RF600 460 System Manual, 06/2019, 48 1069-00171 U001.A22.7618 Transponder 7.13 SIMATIC RF682T 7.13.6 Certificates and approvals Table 7-53 Certificates and approvals Labelin, Description Confarmity with the RED directive 201 4/53/EU Conformity with the ROHS directive 201 1/65/EU Passive labels and transponders comply with the valld regulations:
certification is not required, Federal Communications Commission SIMATIC RF600 System Manual, 06/2019, 131083.D0171-UO01-A22-7618 461 Transponder 7.18 SIMATIC RF682T SIMATIC RF600 462 System Manual, 06/2019, 48 1069-00171 U001.A22.7618 Integration into networks 8 8.1 Overview of parameterization of RF600 reader The parameter assignment possibilifies that are available to you for each reader of the RF600 family are cutlined below. You will fnd detailed information on parameter assignment in the specified chapters of the documentation Table & 1 Reader parameter assignment options SIMATIC RF650R SIMATIC RFG1OR/RFGI5R/RF G20R/RFGS5R SIMATIC Configuration manual "SIMATIC RF60O", STEP 7, _| section Interface to the SIMATIC controller"
XML commands | Configuration manual "SIMATIG RFEOO", Configuration manual "SIMATIC RF60O", section "XML interface"
section "XML interface"
EthernetiP -
Configuration manual "SIMATIC RF60O", section Interface to the Rockwell controller"
OPCUA Configuration manual "SIMATIC RF6O section "OP C UA interface"
Configuration manual "SIMATIC RF60O", section "OPC UA interface You can find the "SIMATIC RF600" configuration manual on the pages of "Siemens Industry Online Support (https://support industry siemens com/esAwwien/pat 088/man"
SIMATIC RF600 System Manual, 06/2019, 131083.D0171-UO01-A22-7618 463 Integration into networks 8.2 Integration in IT networks via the user application 8.2 Integration in IT networks via the user application Connecting the RF600 readers using XML Itypaend 22518 cum appicatons fr he aed this using the MAFIORF ECO", Reeder RFAEIR Connecting the RF6OD readers using OPC UA Ifyou Wht 18 UPSBt8 88r Yin applications for the RF600 eae an Jeshieesrreithe OPC UA application of the reader. You can find infermation on GB UA in fhesconfiguration manual "SIMATIC RF 600"
You will fnd more information on OPG UA on the pages of the "OPC Foundation
(https: //opefoundation, org/"
Ethernet contol Antannas Connecting the RFE Thi d elopiig and running your applcation directly cn the! dag.the reader. For this function, you heed special activation of tHeread requagintaonlas 8.3 Integration in control networks SIMATIC sorraler RF Baffter va Ether A commb Fiat modul =
RF61GRIRF615R readerS tai? sMATiC controllia eter freoorder PROF AF ae oe Interfaces and blocks of the communications modules/readers Table & 2 Interfaces and blocks of the communications modules/readers ASM/CM | interfaces to the application (PLO) Blocks Reader connections Asm 456_ [PROFIBUS DP-VT Taent prove 1 RFGIOR/ [PROFINET IO. Ident profile RFGISR! | Etheretie RFG2OR!
Rrossr [OPC UA SIMATIC RF60O 464 System Manual, 06/2019, 48106-00171 U001.A22.7618 Integration into networks 8.3 Integration in contro! networks Example configurations The following configuration graphics show as an example how the RF600 readers can be connected to SIMATIC controllers. Figure 8-1 Configuration graphie with SIMATIC RFG80OR (or RFGASR, RFG1OR, RFGISR) and PROFINET connection Figure &2 Configuration graphic with SIMATIC RFG80R (or RFG25R) and PROFINET connection via an EtherNet/P controller Figure 8-3 Configuration graphie with SIMATIC RFG80R (or RFGASR, RFG1OR, RFGISR) and PROFIBUS connection You will find more information on the ASM 486 in the operating instructions ASM 456
(htps:/support industry. siemens, com/ostww/enWview!32629442)"
SIMATIC RF600 System Manual, 06/2019, 131083.D0171-UO01-A22-7618 465 Integration into networks 8.3 Integration in controf networks SIMATIC RF600 466 System Manual, 06/2019, 48 1069-00171 U001.A22.7618 System diagnostics 9.1 The LED status display is in the middle on the front of the reader. The LED operating display is at the bottom on the front of the reader. SIMATIC RF600 System Manual, 06/2019, 131083.00171-UO01-A22-7618 467 System diagnostios 9.4 Diagnostics via the LED displays of the reader
@ LED status display (STI -STS - RFGBORIRFESR only
@ LED operating aisplay Figure 94 468 RUN/STOP (R/S) ERROR (ER) MAINTENANCE (MAINT)
= only with RF! ORIRFGISRIRF GOR!
RFGS5R POWER (PWR) PRESENCE (PRE)
= only with RFG1OR/RFOISR/RFESOR LINK 1 (LK1) RECEIVE/TRANSMIT 1
(RT) LINK 2 (LK2)
- only with RFGBOR!
RFGE5R RECEIVE/TRANSMIT 2
(R72)
- only with RFGBOR!
RFGE5R Shows whether the reader is ready for operation Indicates whether an error has occurred. Shows whether the reader needs maintenance. Shows whether the reader is supplied with power. Among other things, indicates whether or not there are rnulti-
ple transpondersin the antenna fleld. With the RFG2OR/RFGR5R readers, this isindicated by the status, display. Indicates that there is a connection via Ethernet interface Indicates that data is being sent andior received via Ethemet interface Indicates that there is a connection via Ethernet interface Indicates that data is being sent andior received via Ethemet interface LED displays of the RFG1xR, RFE5OR and RFG&R reader SIMATIC RF600 System Manual, 06/2019, 48 1069-00171 U001.A22.7618 System diagnosties 9.1 Diagnostics via the LED displays of the reader Functions of the "PRE" LED (RF61 OR/RF61 5R/RF650R) Display of RF activity Indicates whether the readeris sending via the antenna (constant green), whether transponders were detected by the reader (flashing yellow) and whether a transponder was sent to the user application (constant yellow).
@ Indication of the quality of the antenna alignment (RSSI) When aligning the antenna using the WBM, the "PRE" LED indicates the RSS! value with which the transponder was detected Red: Low RSSI value Yellow: Mediurn RSS| value Green: High RSSI value
@ Emer displays With the RFG1OR/RF615R readers, errors are displayed by means of a red fashing
"PRE" LED SIMATIC RF600 System Manual, 06/2019, 131083.D0171-UO01-A22-7618 469 System diagnosties 9.4 Diagnostics via the LED displays of the reader Functions of the LED status display (RF680R/RF685R) With the LED operating display, you can read cut the various operating statuses of the readers, The LED status display of the RFG30R and RF6SER readers has several functions Ameng other things, the status display provides the following functions:
Jayed by a status barlit yellow. As soon as the several seconds before itis cperational. This 9 yellow. During a firmware update, the startup ie "R/S" LED is litflashes green. If the "RS"
onnection. Ifthe "R/S" LED is lit constantly, br PC. cated by the lighting/flashing pattern. The "ER"
ashes. You will ind more information on error messages (Page 473)"
Indicates whether the reader is sending via the antenna (constant green), whether transponders were detected by the reader (flashing yellow) and whether a transponder was sent to the user application (constant yellow), Indication of the quality of the antenna alignment (RSSI) When aligning the antenna, using the WBM, the status display indicates the RSS| value with which the transponder was detected. The more LEDs light up (irst 3x red, then 3x yellow, then 3x green), the higher the RSS| value with which the transponder was detected. You can find more information on the antenna alignment in the configuration manual
"SIMATIC RF 600"
SIMATIC RF60O 470 System Manual, 06/2019, 48 1063-00171 U001.A22.7618 94.4 SIMATIC RF600 System diagnosties 9.1 Diagnostics via the LED displays of the reader How the LED status display works Note that the RF60R/RF615R/RFESOR readers do not have an LED status display. The LED status display displays the error messages of the RFGSORIRF 685R readers LED status display (ST1 - STS) LED operating display Figure 9.2 LED displays of the RFGSOR/RFE8SR readers Error messages are indicated by red fashing status LEDs and the red flashing "ER" LED. A distiigtion is male between hardware errors (faults) and normal errors, With hardware errors, the LEDs flash wit a fast frequency of 4 Hz. With all other errors, the LEDs flash with a slow Frequency of 2Hz The detailed LED error display described here is enabled as default. Ifrequired, you can disable this in the "Settings - General" menu item of the WBM. Ifthe LED error display is enabled, a sepapate LED pattem is assigned to every error in the LED status display. The displayed LED patterns are based on the error code of the hexadecimal error message converted to binary Example The error "0x12" (XML error message) is displayed, Converted to binary, this results in the value "0001 0010". This converted value is displayed in the LED status display. The value
"0" means that the correspending LED does not light up, whereas the value "1" means that the corresponding LED is lit red, The middle (Sth LED) of the LED status display serves as a delimiter* and is always lityellow. XML error message _| Error message LED fault display hexadecimal binary oxi2, 0001 0010 System Manual, 06/2019, 131083.D0171-UO01-A22-7618 4am System diagnostios 9.4 Diagnostics via the LED displays of the reader 9.1.2 Diagnostics via LED operating display The operating states of the reader are displayed by the "RUN/STOP", "ERROR,
"MAINTENANCE" and "PRESENCE" LEDs, The LEDs can adopt the colers green, red or yellow and the statuses off , on, dashing Table 21 Display of operating statuses RIS ER MAINT! PRE? | Meaning The device is tured off, The device is starting up. The device is ready for operation. The connection to the application
(XML, OPC UA, controller) is not established. There may be an error. The device is ready for operation but there is an error. The device is ready for operation. The connection to the application
(XML, OPC UA, controller) is established. The device is working.
+ STEP 7, Etheme/IP: The writeconfig" command was received.
+ XML application: The "hostGreeting" command was received
+ OPC UA: Connection to the client is established. Flash test for reader identification. There is an error. You will ind more information en error messages in the section "XMLIPLG error messages (Page 473)"
The network load too high. The functicning of the device is being dis-
turbed due to receiving too many network packets. The antenna is switched on, There is no transponder in the antenna field, There is at least one transponder in the antenna field One or more transponders have been detected as valid
') Not present on the RFESOR. 2) Not present on the RFGBOR/RFEBOR,
<= Not relevant 472 SIMATIC RF600 System Manual, 06/2019, 48 1069-00171 U001.A22.7618 System diagnosties 9.2 9.2 XML/PLC error messages XML/PLC error messages Note thatif there are error messages, he ERR LED (ER) of the reader flashes, You can read the error using the XML or PLC error codes. As an alternative, you can also recognize the error using the LED status display of the RF680R and RFG3SR readers as described in the section "How the LED status display works (Page 471)"
The flowing table explains the XMLIPLC error codes. Only the errorsrelevant to the RF600 readers are included in the PLC error codes (STEP 7). You can find all other errcr codes in the corresponding Ident profile manual Table 9.2 Error messages of the RFGOO readers sea" [xmur [PLC block | Error description LED |le0 | thes inex) 2Hz [att [oxe1FeOt | Cannot write to the memory of the transponder.
+ Transponder memory is defective.
+ Transponder EEPROM was written too frequently and has reached the end of its ser-
vice life. 2Hz [ate |oxe1rec2 [Presence error The transponder is no longer within the transmission window of the reader. The command was not or only partially executed. Read command: There is novalid data in IDENT_DATA":
Write command: The transponder that has just left the antenna field contains an incomplete data record, Possible causes:
+ Operating distance between reader and transponder is not being maintained
+ Configuration error: The data record to be processed is to large {In dynamic mode) 2Hz [ans [oxe1Fe0s [Address error The address area of the transponder has been exceeded Possible causes:
+ Start address of the command start has been incorrectly set
+ Wrong transponder type
+The area tobe written to is write-protected 2Hz [ota | Ox1FEOA |The transponder is readiwrite-protected 2Hz [ast | oxe1Fe6t |The transponder is not responding 2Hz [oa | oxe1Fea2 |The transponder password is incorrect Access is denied 2Hz [aa | oxe1FE63 |The verfication of the written transponder data has failed 2Hz [aos | oxe1Fe64 |General transponder error 2Hz [65 | oxe1FE@5 |The transponder has too little power to execute the command. 2Hz |a22 | oxe2Fe02 |More transponders are located in the transmission window than can be processed at the same time by the reader. 2Hz [oat | oxe2Fe61 | There is no transponder with the required EPG ID in the transmission window or there is no transponder at alin the antenna field 2Hz [cae | oxe2ree2 |The requested data isnot available 2Hz [as |oxe2rees [ORG error in readerransponder communication SIMATIC RF6OO System Manual, 06/2019, 131083.D0171-UO01-A22-7618 4B System diagnostios 9.2 XMLIPLC error messages:
ver" [xMts [PLC block | Error description LeD [LED | ihe
(hex) 2Hz_|oxas | oxe2F E84 | The selected antenna isnot enabled 2Hz | oxas | oxe2F E85 _| The selected frequency is not enabled 2Hz | oxae | oxe2rea6_| The carrier signal is not activated 2Hz_|oxa7 | oxe2F87_| There is more than one transponder in the transmission window. 2Hz |oxaa |oxe2rcaa | General radio protocol error 4Hz [ort [oxe4reot | Waring in the event of low power supply The power supply is very close tothe low limit. 4Hz [oes [oxesreos | antenna error
+ The antenna orthe antenna cable is defective,
+ Errorin the connection tothe reader, the reader is not answering (in PROFIBUS opera-
ton). The cable between the communications module and reader is wired incorrectly or there isa cable break
= The 24 V supply voltage is not connected or isturned off or has failed briefly
= Automatic fuse on the communications module has blown
= Hardware defective Another reader is in the vicinity and is active
= There isa reflecting metal surface in the vicinity that is disrupting the antenna field Possible corrective measures:
- Reduce radiated power of antenna
= Change antenna alignment. Avoid parallel alignment of antennaimetal
-Use antenna cable with greater attenuation
- Install attenuator between antenna and reader.
= _Execute init_run" after correcting the error 2Hz |oxd4 [oxE4F E04 | The buffer on the communications module or reader isnot adequate to store the command temporarily. 2Hz |ox4s |oxe4F E05 | The buffer on the communications module or reader is not adequate to store the data tern-
porarily. 2Hz | 0x46 |oxe4Fe0s | The command is not permitted in this status or is not supported. Possible cause:
+ INIT was chained
+ Command repetition was started without "Presence mode", 2Hz | 0x47 ]oxE4F E07 | Startup message from reader/communications module The reader or communications module was off and has not yet received a "Reset_Reader"
(WRITE-CONFIG") command
+ Execute INIT
+The same physical address in the IID_HW_CONNECT" parameter is being used more than once. Check your "lID_HW_CONNECT" parameter settings.
+ Check connection to the reader
+The baud rate was switched over but power has not yet been cycled SIMATIC RF600 amg, System Manual, 06/2019, 48 1069-00171 U001.A22.7618 System diagnosties 9.2 XML/PLC error messages ER LED XML Leo
(hex PLC block
(hex) Error description 2Hz aot OKEAFE@t The specified tag field of the transponder is unknown, 2Hz Oca, OKE4FEBA General error 2Hz cB OKE4FESE No or bad configuration dataiparameters were transferred. Possible cause:
+ You are accessing a read point that is not configured, aco. OKE4FEaC Communication error between Ident profile and communications module. Handshake
= UDT ofthis communications module is overwritten by other program sections
= Check parameter settings of communications module in the UDT
= Check the Ident profile command that caused this error
= Start "INIT" after correcting the error
+ Backplane bus/ PROFIBUS DP / PROFINET error occurred This error is only indicated when access monitoring has been enabled in the PROFIBUS configuration,
= Backplane bus / PROFIBUS DP / PROFINET bus connection was interrupted (wire break on the bus; bus connecter on the communications module was briefly un-
plugged)
= Backplane bus / PROFIBUS DP / PROFINET master no longer addressing commu-
nications module
= Execute "INIT"
= The communications module has detected a frame interruption on the bus. The backplane bus, PROFIBUS or PROFINET may have been reconfigured (e.g. with HW Config or TIA Portal) 2Hz cD) OKE4FE@D Firmware errer Possible cause: The firmware update was not run completely.
+ Internal communications error of the communications module/reader
= Connector contact problem on the communications module/reader
= Hardware of the communications module/reader has a defect; > Send in communi-
cations module/reader for repair
= Start INIT* after correcting the error
+ Internal monitoring error of the communications module/reader Program execution error on the communications module / reader
= Turn the power supply of the communications module/teader off and on again
= Start INIT* after correcting the error 2Hz CE OKE4FESE The current command was aborted by the WRITE-CONFI mand for the bus connector was pulled RESET) com Possible causes:
+ Communication with the transponder was aborted by "INIT"
+ This error can only be reported if there is an "INIT" or "SRE SET"
2Hz O51 OKESFEO!
Incorrect sequence number order (SN) on the reader/communications module. 52, OKESFEO2 Incorrect sequence number order (SN) in the Ident profile SIMATIC RF600 System Manual, 06/2019, 131083.D0171-UO01-A22-7618 415 System diagnostios 9.2 XMLIPLC error messages:
ver" [xMts [PLC block | Error description LeD [LED | ihe
(hex) 2Hz |ox54 [oxesres | invalid data block number (DEN) on the reader/communications module
= 0x55 | oxESFEOS | Invalid data block number (DEN) in the Ident profile 2Hz |ox5 [oxesreos | invalid data block length (DBL) on the reader/communications module
= 0x57 _[oxesFEO7 | invalid data block length (DBL) in the Ident profile 2Hz | 0x58 |oxESFEOS | The previous command is stil active or the buffer is ull Anew command was sent tothe reader or communications module although the last com-
mand is still active,
+The active command can only be aborted with "INIT"
+ Before a new command can be started, "DONE bit = 1" must be set (exception: "INIT",
+ Two Ident profile calls had the same *HW_ID", CM_CHANNEL" and "LADDR" parame-
ter settings.
+ Twoldent profile calls are using the same pointer.
+ After eliminating the error, an *INIT* must be executed.
+ When working with command repetition (e.g., fed code transponder), no data is being fetched from the transponder. The data buffer on the reader! communications module has overflowed. Transponder data has been lost
~ 0x59 | OxE5F EOS | The reader/communications module runs a hardware reset ("INIT_ACTIVE" set to "1"). The Ident profile expects an "INIT" (bit 15 in the cyclic control word)
~ 0x58 | OxESFEOA | The CMD command code and the relevant acknowledgement do not match. This ean be a software error or synchronization error that cannot occur in normal operation
= on58_[oxesF E08 | Incorrect sequence of acknowledgement frames (TDB / DBN)
- (ox5 oxesF EOC | Synchronization error (incorrect increment of AC_H/ AC_L and GG_H/ GC_L in the cyclic control word). "INIT" had to be executed.
- - OKESFE@1 | Communications error between reader and communications module Access denied
- - OKESFE@2 | Communications error between reader and communications module Resource is occupied
- - OKESFEAS | Gornmunications error between reader and communications module Functional error of the serial interface
- - OKESFE@4 | Communications error between reader and communications module Other faultsferrors 2Hz |oxet |oxeeFEo1 | Unknown command An uninterpretable XML cornmand was sent to the reader or the Ident profile sends an uninterpretable command tothe reader. Possible causes:
+ The "AdvancedGmd" block was supplied with an incorrect "CMD"
+The "CMD" input of the *AdvancedCmd block was overwritten,
= oxe2 _[oxeereo2 [invalid command index (CD SIMATIC RF600 476 System Manual, 06/2019, 48 1069-00171 U001.A22.7618 System diagnosties 9.2 XML/PLC error messages ser" |xmur | PL block | error description Led |LeD | thes
(hex 2Hz [axes ]oxeere0s | A parameter of an XML command has an invalid value or the parameter assignment of the communications module or the reader was incorrect. Possible causes/ action tobe taken:
= Check the parameters in the Ident profile,
= Cheek the relevant XML command.
= Check the parameter assignment in HW Config / STEP 7 (TIA Portal) The "WRITE-CONFIG" command has incorrect parameter settings,
= Aftera startup, the reader or communications module has stil not received an NIT"
+ The parameter assignment of the reader or communications module on PROFIBUS/PROFINET was incorrect and the command cannot be executed Possible causes/ action tobe taken:
= Length of the input/output areas is too small for the cyclic VO word Check whether you have used the correct GSD file
= User data length set with the command (2.9. "READ"} istoo high,
+ Error when processing the command. Possible causes/ action tobe taken:
= The data in "AdvancedGmd" or "IID_CMD_STRUCT" is incorrect (e.g. "WRITE"
cormmand with length = 0}
Check "AdvaneedGma" or "IID_CMD_STRUCT and execute an "INIT"
= The hardware of the reader/communications module is defective. The reader or communications module receives bad data with an "INIT"
The AB byte does not match the user data length.
+ The wrong reset block was selected Possible causes/ action tobe taken:
_ Regardless of the selected reader system, use the "Reset_Reader" function block.
- axes | oxeer E04 Presence error A transponder has passed through the transmission window of a reader without being pro-
cessed This error message is not reported immediately. Instead, the reader or communications module waits for the next write / read command. This command is replied to immediate-
Ilywith this error and the write/read command is not executed. The next command is ex-
ecuted normally again by the reader/cammunications module.
+ You can reset this error status using an INIT Bit 2 is set in the "OPT" parameter and there is no transponder in the transmission window. SIMATIC RF600 System Manual, 06/2019, 131083.D0171-UO01-A22-7618 am System diagnostios 9.2 XMLIPLC error messages:
ver" [xMts [PLC block | Error description LeD [LED | ihe
(hex)
~ 0x65 | OxE6F EOS | An error has occurred that makes a Reset_Reader ("WRITE-CONFIG" with Config necessary. Possible causes / action to be taken:
+ The "WRITE-CONFIG" command is incorrect.
+ After eliminating the error, execute an "INIT"
+ Check the "ID_HW_CONNECT" parameter,
- one _[oxeer es | The reset timer has expired. 2Hz |oxe1 [oxeerest [A parameter is missing 2Hz |oxe2 [oxeereae | The parameter has an invalid format. 2Hz [ones [oxeeress | The parameter type is invalid 2Hz [ones [oxcereed | Unknown parameter. 2Hz [ones |oxeercas |The command orthe frame has an invalid format, 2Hz | oxee | oxeerca6 | The inventory command falled. 2Hz_|oxe7 | oxeoreca7_| Read access to the transponder failed 2Hz | oxca | oxeercaa | write accesstothe transponder failed. 2Hz [ores [oxeere89 | wniting the EPC-ID on the transponder failed 2Hz [orca |oxeeresa | Enabiing write protection on the transponder failed. 2Hz | oxee |oxeereas |The "Kill" command failed 2Hz |ox7t |oxe7Fe01 [inthis status, only the "Reset_Reader" command ("WRITE -CONFIG) is permitted.
- ox72_[oxe7F E02 | The "CMD" command code is not permitted
(0x73 | OxE7FEO3 | The "LEN_DATA" parameter of the command istoo long and does not match the global data reserved within the send data buffer (TXBUF)
~ ox74 ]oxE7F E04 | The receive data buffer (RXBUF) or the send data buffer (TXBUF) istoo small, the buffer created at TXBUFIRXBUF does not have the correct data types or the parameter LEN_DATA* asa negative value, Possible cause / action tobe taken:
+ Check whether the buffers TXBUF/RXBUF are at least as large as specified in LEN_DATA.
+ with $7-120011500:
= Inthe Ident profile, only an "Array of Byte" may be created for TXBUF and RXBUF. Inthe "Reader_Status" block, only an "Array of Byte" or the corresponding data types ("lID_TAG_STATUS_XX_XXX" or "lID_READER_STATUS_XX_XXX") may be created
~ 0x75] oxE7F EOS | Error message that informs you that only an "INIT" command is permitted as the next com-
mand. All other commands are rejected
- 0x76 ]oxe7F E08 | wrong index Permitted index is in the ranges "101 ... 108" and "-20401 ... 20418"
~ 0x77 | OxE7FEO7 | The reader or communications module does not respond to INIT* ("INIT_ACTIVE" is ex-
pected in the cyclic status message). The next steps:
+ Check the address parameter "LADDR".
= 0x78 _[oxe7F E08 | Timeout during "INIT" (60 seconds according to 'TCSWGS") 478 SIMATIC RF600 System Manual, 06/2019, 48 1069-00171 U001.A22.7618 System diagnosties 9.2 XMLIPLG error messages XML! | PLC block | Error description Led | then
(hex
= aa7_| oxe7FE09 | Command repetition is not supported,
= 7A_| oxE7FEOA [Error during the transfer of the PDU (Protocol Data Unit) means that the error is not displayed by the LEDs. SIMATIC RF600 System Manual, 06/2019, 131083.D0171-UO01-A22-7618 479 System diagnosties 9.2 XMUPLG error messages:
SIMATIC RF60O 480 System Manual, 06/2019, 48 1063-00171 U001.A22.7618 Accessories 1 0 10.1 Wide-range power supply unit for SIMATIC RF systems 10.1.4 Features The wide range power supply unit for SIMATIC RF systems isa primary switched device for supplying power and for use cn single phase AC systems, The hwo DC outputs (sockets) are connected in parallel and protected by a builtin voltage limiting circuit against overload and short-circuits. The device is vacuum-cast and prepared for Safety Class | applications. The EU and UK versions satisfy the low-voltage directive as well as the current EU standards for CE confermity. Furthermore, the US version has been UL-certified for the US and Canada Table 10-1 Wide-range power supply unit for SIMATIC RF systems Characteristics Area of application] Voltage supply for Siemens Ident de-
Degree of protection [IP 67 Design features + Mechanically and electrically rug-
ged design
+ Short-circult and no-load stability
+ Suitable forframe mounting Structure @ Network connector (PE)
@ vc output 4
@ vc output2
@ round connection 10.1.2 Scope of supply
@ Wide-range power supply unit for SIMATIC RF systerns Country-specific power cable (2m)
@ Protective cover for flange outlet
@ Operating Instructions SIMATIC RF600 System Manual, 06/2019, 131083.D0171-UO01-A22-7618 48 Accessories 10.4 Wide-range power supply unit for SIMATIC RF systems 10.1.3 482 Ordering data Tablegap- 2 Ordering data for the wide-range power supply unit for SIMATIC RF systems Article number Wide-range power supply unit for SIMATIC RF systems
(100-240 VAC! 24VDC/ 3A) with 2 m connecting cable with country-specific power cable/plug EU: 6G72898-08.C00 UK: 6GT2898.0C10 US: 6GT2898.08620 tems Table 10-3 Ordering data accessories for the wide-range power supply unit for SIMATIC RF sys-
Article number 24.V DG connecting cable
{or SIMATIC RFG0O readers RFI OR/RFG! SR/RFOSORIRF G0R/RFGSER
+ with plug
(@GT2891-OPH50
+ with open ends
@GT2891-4EH20
+ with open ends
@GT2891-4EH50 24 VDC connecting cable for readers of the SIMATIC product family MOBY D.
(@GT2491 -1HH50 24.V DG connecting cable for SIMATIC RF200/RF300 readers with RS232
(@GT2891 -4KH50 24V DG connecting cable for SIMATIC RF200 / RF300 readers with RS-232 M@ plug at the 24 V end, reader plug angled GGTIEOT-AKHBO-OAXT 24. VDC connecting cable for SIMATIC RF200/ RF300 readers with open ends at
(@GT2891 -4KH50-0AX0 th SIMATIC RF600 System Manual, 06/2019, 48 1069-00171 U001.A22.7618 Accessories 10.1 Wide-range power supply unit for SIMATIC RF systems 10.1.4 Safety Information WARNING Danger tolife Itis not permitted to open the device or tornodify the device. The following must also be taken into account:
+ Failure to observe this requirement shall constitute a revocaticn ofthe 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
+ The area of application of the power supply unit is limited to"Information technology equipment within the scope of validity of the EN 609S0'VDE 0308 standard
+ When the equipment is installed, it must be ensured that the mains socket outlet is freely accessible.
+ Within the operating temperature range of the power supply unit, above an ambient temperature of #25 C, very high temperatures (max. approx. +81. C atan ambient temperature of #70 C) can occur on the housing due to the intemal heating of the device. In this case, make sure that the housing is covered in order to protect people from coming into contact with the hot housing. Adequate ventilation of the power supply must be maintained under these conditions, Note Operating range und use of the wide-range power supply unit The wide-range power supply unit must only be used for SIMATIC products in the specifically described operating range and for the documented intended use NOTICE Liability If the wide input range power supply for SIMATIC RF systems is connected to third-party products, the end user is responsible and liable for operation of the system or end product, that includes the wide input range power supply for SIMATIC RF systems Note the conditions specified in the UL approval SIMATIC RF600 System Manual, 06/2019, 131083.D0171-UO01-A22-7618 483 Accessories 10.4 Wide-range power supply unit for SIMATIC RF systems 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 comporrentsswiitrhird-panty RFE devices are Trot perm tect 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 Safety notes for the US and Canada 484 The readers of the SIMATIC RF600 series may only be cperated with the wide range power supply unit for SIMATIC RF systems - as an optional component or with power supply urits that are ULdisted in combination with the safety standards specified below:
@ = UL 60950-1 - Information Technology Equipment Safely - Part 1: General Requirements @ CSA G22.2 No. 60950 -1 -Safely of Information Technclogy Equipment NOTICE Warranty The compliance of the SIMATIC RFID systems to the safely standards mentioned above and the conditions in the UL approval will not be guaranteed if neither the wide-range power supply unit for SIMATIC RF systems nor power supplies listed according to the safety standards named are used SIMATIC RF600 System Manual, 06/2019, 48 1069-00171 U001.A22.7618 Accessories 10.1.5 SIMATIC RF600 10.1 Wide-range power supply unit for SIMATIC RF systems Mounting & connecting The wide-range power supply unit for SIMATIC RF systems is sold with a country-specific power cable for EU, UK and US Note Country-specific adaptation of the connector When necessary, the primary cable can be adapted to country-specific conditions. The connector can be replaced by a country-specific connector. Ifyou do this, make sure that the protective conductor is connected in the connector and that grounding is ensured, If the protective conductor cannot be connected through the plug, you Must connect the grounding connection to the mounting hole @) provided by the metal shoe. F dow 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 (@) provided by the metal shoe For detailed information on grounding and compliance with the EMC directives, refer to the "Grounding connection section below. 2, Gonneat the reader to the outputs @) and @ of the wide-range power supply unit 3. Connect the power cable to the primary input (PE) @) of the wide-range power supply unit, 4, Connect the power cable of the wide-range power supply unit to the voltage supply. NOTICE Plugging/pulling the power supply cable Plugging cr pulling the power cable of the wide-range power supply unit is only permitted hvhen no voltage is applied (powered-down) NOTICE Strain on the power cable connector The power cable is attached to {removed from the power supply using the knurled nut integrated in the plug. Avcid twisting the plug once it is mounted. If high shock and vibration occurs, this stress must be absorbed by the power cable NOTICE Restriction for maximum load If the readers are cperated permanently at ful load and the digital inputsoutputs are loaded hwith the maximum total current of 1.1 A, the maximum current consumption ofa reader can reach 2A. In this case, a maximum of one reader may be connected per wide-range power supply unit System Manual, 06/2019, 131083.D0171-UO01-A22-7618 485 Accessories 10.1 Wide-range power supply unit for SIMATIC RF systems The wide-range power supply unit (protection class |, degree of protection IP67) has four mounting holes for securing the device Installation instructions 486 The power supply unit must be connected with the described ccnnecting cables in the primary and secondary circuits. The connectors at the power supply unit end may only be Ternoved or inserted when novoltage is applied. The degree of protection IP67 is only achieved with ccrrectly connected and locked connectors. Adequate spacing around the power supply unit should be provided to ensure free convection. The connection of the voltage supply, must be made taking into account the valid country-specific regulations. It ld Yo de-energize the power supply unit using a suitable device outside the voltage suBigye device is connected with connectors L to phase and 'N" to the neutral conductor offftbower network. The 'PE connector must be connected to the protective conductor (824]mensions and pin assignment). The power supply unit may only be operated wit Yonnected protective conducter. The power supply unit is maintenance-free and contaips-Reparts to be changed by the user. The power derating when operating at an ambibpirt fogeaye of above 50 C must be ensured by the user. The base area of the power supply-tnifis screwed onto fhe mounting plate or mounting wall using the four mou fasher M5). Optimum cooling by natural convection must be asailfed afthelefounting Ic nen used where CSA C22.2No 107.1-01 appliesa separating elefnent must be prowided for the output circuit, oS SIMATIC RF60O System Manual, 06/2019, 48 1063-00171 U001.A22.7618 Accessories 10.1 Wide-range power supply unit for SIMATIC RF systems Grounding connection F or reasons of EMC, the device should also be grounded via the grounding connection @), which is connected to the primary input (PE) @). Ensure that this connection is as short as possible and has a cable cross-section of at least 10 mm?. This will ensure that any faults occuring on the shielding can be dissipated aswell as possible. The grounding connection @) must be electrically connected to the ground potential using contac{ diac Fighten the screw with a torque of 1.5 Nm
Grounding congection 7 1 (a)__| Hexagon-head screw (M5)
(b)__| Flat washer
(o) Cable lug
(qd) | Contact washer:
To make ground contact, use contact wash-
ers according to the Siemens standard: SN 70093-8-FStflNnno- 420h, Siemens tem no. H70093-A60-23 Degree of protection The wide-range power supply unit for SIMATIC RF systems meets degree of protection P67,
@ Dust-tight No ingress of dust
@ Protected against harm from temporary submersion in water. Water must not enter in amounts that can cause damage, if fhe housing is immersed in water 1m deep for 30 minutes. All information applies only when connected and locked. The assignment of degrees of protection is subject to standardized test methods, If no secondary cables are connected, close the secondary sockets with a protective cap. SIMATIC RF600 System Manual, 06/2019, 131083.D0171-UO01-A22-7618 487 Accessories 10.4 Wide-range power supply unit for SIMATIC RF systems 10.1.6 Pin assignment of DC outputs and mains connection Table 10-4 Pin assignment of the DC outputs Ground (OV) 424 VDC 424. VDC Ground (OW) Tabtet@-
SSUITEM 10.1.7 Technical specification:
Tabtete- mn
(@GT2898-0ACx0 Product type designation Wide-range power supply unit for SIMATIC RF systems Electrical data Insulation strength (prim/sec) Ura v= ACa3KY PTITanY= SECOMCIGTY STE TE GaWANICATY TSOTRTET Insulation resistance Rire >160 Leakage current liar < 200 WA Mains buffering tn 2 50ms at Uin= 230VAC. Power supply unit classification Levels ace. to CSA SIMATIC RF600 488 System Manual, 06/2019, 48 1069-00171 U001.A22.7618 Accessories 10.1 Wide-range power supply unit for SIMATIC RF systems
@GT2898-0ACx0 Mechanical specifications Housing
+ Material + Polyamide, glass-fiber reinforced
+ Gasling compound: Polyurethane
= Goler = Black Housing classification UL84.V0 MTBF in years 255 Permitted ambient conditions Ambient temperature
+ During operation
+25... +70C
+ During transportation and storage
+40... #85C Self-heating on fulload Tax, 45K Surface temperature Max. +81.5 C Degree ofprdtection to EN 60523 Tra?
Protection class according to SELVIPELY Separation of output voltage according to EN 60350-1EN 5017 Electrical safety EN 603507 UL 60507 CANIGSA 22.2 G50, 3 Edition Conducted interference EN 61000-6357 EN 55017 Glass B Noise emission EN GT 000-6-37 EN S501 Noise immunity Contact discharge: 4 kv
(air discharge): 8 kv
+ Burst + EN 61000-6-2/ EN 61 000-4.4 Asymmetrical: 2 kV
+ Surge + EN G1O00-E-5TEN 61 0004S Symmetrical 1 kV BEYMTEMTCAT ZR
+ AF field + EN 61000-6-2/ EN 61000-4.3 10V, 3 V, 1 (80 MHz... 2.7 GHZ) HF coupling EN 61000-6.2/ EN 61000-4.6 10Ver Ling interruption EN 61000-6.2/ EN 6100-411 SIMATIC RF600 System Manual, 06/2019, 131083.D0171-UO01-A22-7618 489 Accessories 10.4 Wide-range power supply unit for SIMATIC RF systems Design, dimensions and weights Dimensions (L * W * H) Without plug with plug Weight Technical specications of the input Rated input voltage Un Input frequency fn Radio interference level Switching frequency few argemector type 1g
@GT2898-0ACx0 140 85 * 35 mm 172.7 85 * 35 mm 209 100 to 240 VAC soeOHZ EN55011/8 approx. 70 KHz yp 718", 2-pin + PE 35 48 Line regulation 130403 Load regulation Short-circult current Imax Settling time te load variations Temperature coefficient =
Overload behavior Paver Short-circult protection No-load response Derating Connector type 490 citron #2 %/ 1 at Un= 230VAG, 14 Ucitnom +20 % typ, 21% Usk at Uin= min, BA 4 52% Une Uin= min., BW: 20, ms02 21.0% 5 at Uin= minimax.
+ 51.0%
at lowt= 10...90,..1 0%
105... 130 % Inom at Inom = 3A (450C)
<5 me at lat = 10...90..10 9%
0.01 %/K atTa = -25 C... 70C Constant current Continuousine-tead stability 2amIK atTa> 450C M12, 4-pin two sockets
+70"
SIMATIC RF600 System Manual, 06/2019, 48 1069-00171 U001.A22.7618 Accessories Table 10-7 Output configurations 10.1 Wide-range power supply unit for SIMATIC RF systems Input Outputs load =11+12 [efficiency (2) | Remarks Ui=uz HOWVAG 24VDG oa, = Nosload protection HOWVAG 24VDG 3A, zea ~
2gpvAG 24VDG oa, = Nosload protection All values are measured at full-load and at an ambient temperature of 25 C (unless specified otherwise) 10.1.8 FAL drawing Ws Figure 10-1 Dimension drawing wide-range power supply unit for SIMATIC RF systems All dimensions in mm. SIMATIC RF600 System Manual, 06/2019, 131083.D0171-UO01-A22-7618 491 Accessories 10.4 Wide-range power supply unit for SIMATIC RF systems 10.1.9 492 Certificates and approvals Table 10-8 Approvals for wide-range power supply unit for SIMATIC RF systems (Europe, UK):
@GT2898-0AC00, SGT2898-0AC10 Markin, Description CE approval ace. to
+ 2004/1 OBES -EMC
+ 2ODB/E5IEG -Votage directive Radio approval for Russia, Belarus, Kazakhstan Table 10-9 Approvals oacz0 for wide-range power supply unit for SIMATIC RF systems (USA): 6GT2898-
Markin, Description This product is UL-cerlified for the US and Canada It meets the following safety standards:
+ UL 609504 Information Technology Equipment - Safety - Part 1: General Require-
ments
+ CANICSA 622.2 No, 60950-1-07 Safety of Information Technology Equipment,
+ cURus +CB -UL/IEG 60950-1 and Limited power source under UL 1310
+ _UL Report E 205039 SIMATIC RF600 System Manual, 06/2019, 48 1069-00171 U001.A22.7618 Accessories 10.1 Wide-range power supply unit for SIMATIC RF systems Engineering Conditions of Acceptability For use onlyin orwith complete equipmentwhere the acceptability of the combination is determined by ULLLC. When installed in an end-product, consideration mustbe given to the following:
@ Reference temperatures on the unit enclosure were measured during heating test The max obtained temperature with condition C at Enclosure | was 81.5 C. See chapter Technical specifications (Page 488)" Additional Informaticn for normal load condition details. The uritis completely encapsulated, Potting improve mechanical and thermal properties of the unit. Bhs following Producton-Line tests are conducted for this product: Electric Strength,
= 4 Earfiiggycontinuity
@ The end-product ofPrimary-Earth:
e
@ The followin e@ output
@ The fall lectric Strength Test is to be based upon a maximum working voltage ead Metal: 300 Vins, 342 Vpk; Primary-SELV: 300 Vis, 613 Vpk dary output circuits are SELV: 24 Vdc output of the unit dary output circuits are at non-hazardous energy levels: 24 Vde fary output circuits are supplied by a Limited Power Source: 24 Vde jing output terminals were referenced to earth during performance testing
: 4 (.) during DETERMINATION OF WORKING VOLTAGE - WORKING VOLTAGE MEASUREMENT TEST.
@ The maximum investigated branch circuit rating is: 20 A
@ The investigated Pollution Degree is: 2
@ Proper bonding to the end-product main protective earthing termination is Required @ An investigation of the protective bonding terminals has: Been conducted
@ The following input terminals/connectors must be connected to the end-product supply neutral:
Please see chapter "Mounting & connecting (Page 485)"
@ The equipmentis suitable for direct connection to: AC mains supply Cupput is supplied by circuit that complies with NEG Class 2 requirements (additional evaluation ace, UL1310 has been conducted during the product investigation}
SIMATIC RF600 System Manual, 06/2019, 131089.D0171-UO01-A22-7618 49 Accessories 10.2 Power splitter for RF60O systems 10.2 Power splitter for RF600 systems 10.2.1 Characteristics Power solter Using the, powep-sptitee-tol antelinas can De conneciedpio one antenna connecter of a readersrFivep in at the input (Spis sBlikayer two.bulpy Beers. Power spliter Gharacterist Application | DSigifed for distributed mounting of x __ | antennasin warehouses, logistics and cl gisiibution connectable Gaps Allreaders ofthe RF60O system Gennectable + SIMATICRF615A antennas?
+ SIMATIC RF@20A
+ SIMATIC RFG4OA
+ SIMATIC RFA
+ SIMATIC RF@5OA
+ _SIMATIC RFGBOA Degree ofpratection [IP 40 the antenna RFG8OA cannot be operated via the power splitter. 10.2.2 Ordering data Table 10. 10 Power splitter ordering data Article number Power splitter (8GT2890-0800 Table 10-14 Power splitter ordering data for accessories Article number
(@GT2615-06H30 20m 4d8 | 6GT2615-06N20 SIMATIC RF60O 494. System Manual, 06/2019, 18 1063-00171 U001.A22.7618 Accessories 10.2 Power splitter for RF6OO systems 10.2.3 Example of a configuration The following example of a configuration shows a setup with one RF680R reader, one power splitter and two RF @50A antenna Figure 10.2 Example of a configuration with an RF QO system with a power splitter in length (0.5 dB cable attenuation). Cableswith a length of m (1.25 dB cable attenuation) are used between the power splitter and the antennas power spl, tne various alleraion values need to be added. For the configuration shown defined cable attenuation. When using several different antennas, the antenna gain of the antenna with the highest gain must be specified This ensures that the maximurn permitted transmit power is not exceeded. Note thatwhen using different antenna cable lengths, the radiated power of the antenna with the longer cable is lower. 3.78 cft-d 3 10.2.4 Technicalspecifications 3 s z "3 Table 10,12 Technical specifications tha ecr2890.0800 Product fype designation Power splitter Electricaldata 80.8 Transmission frequency 500... 1000 MHz Mex. input power tow impedance 50a Attenuation between 3206 input and outputs SIMATIC RF600 System Manual, 06/2019, 131083.D0171-UO01-A22-7618 495 Accessories 10.2 Power splitter for RF60O systems Connector
(input/output) Mechanical specifications Housing
+ Material
+ Color Permitted ambient conditions Ambient temperature
+ During operation
+ During transportation and storage Degree of protection to EN 60529 Design, dimensions and weights Dimensions (L * W * H)
+ Without plug
+ with plug Weight 10.2.5 Dimension drawing Figure 10.3 Power splitter dimension drawing All dimensions in mm 496
@GT2890-0800 RP-TNC plug
+ Aluminum
+ silver
+40... 485C
+ 40... 00C pao
+ 80.8% 50.8% 19.05 mm
+ 74.7% 50.8% 19.05 mm 1708 SIMATIC RF600 System Manual, 06/2019, 48 1069-00171 U001.A22.7618 Accessories 10.3 10.3.1 10.3.2 10.3.3 SIMATIC RF600 10.3 Reader and antenna holders Reader and antenna holders @
The following read points (readers and antennas) have a st system (4.x M4) and can be secured with a SIMATIC antenna e eens RF610R, RFG15R, RF6SQR e RAGES, Overview g8 100 mounting Article number 8GT2890-2A510 So R ByIC antenna ny Flexible mounting is} ble with the SIMMATI iter hdder:
readers/antennas came rotated in any @ipactig@ywith this holder. Fallow the steps below to mount the SIMATIC antenna holder with the reader or the antenna on the wall:
4. Install the wall mounting plate (A) on the wall 2, Install the articulated jeint (B) with the screws (2) on the wall mounting plate (A) 3. Fasten the reader or the antenna using the four bore holes on the antenna mounting plate
(c) 4, Mount the antenna mounting plate (C) into the artoulated joint (B) and fasten it with the help of screws @) to the articulated joint) 6. Align the SIMATIC antenna holder by sliding the setting angle on the articulated joint (B) and tighten all the screws, System Manual, 06/2019, 131089.D0171-UO01-A22-7618 497 Accessories 10.3 Reader and antenna holders 4100 Figure 10.4) 498 Thstalling the SIMATIC antenna holder 120 SIMATIC RF600 System Manual, 06/2019, 48 1069-00171 U001.A22.7618 Accessories 10.3 Reader and antenna holders 10.3.4 Figure 10.5 Front view SIMATIC RF600 System Manual, 06/2019, 131083.D0171-UO01-A22-7618 499 Accessories 10.3 Reader and antenna holders 120 100 30 iti Ne 36 o Section A-A Figure 10.6 Top view with section A-A SIMATIC RF600 500 System Manual, 06/2019, 48 1069-00171 U001.A22.7618 Accessories 10.3 Reader and antenna holders Figure 10-7 Section AA All dimensions in mm, SIMATIC RF600 System Manual, 06/2019, 131083.D0171-UO01-A22-7618 501 Accessories 10.3 Reader and antenna holders c e6e@
us SIMATIC RF600 502 System Manual, 06/2019, 48 1069-00171 U001.A22.7618 Appendix A
+ Y B-
Al Giicates & approvals the latest RFID radio approvals are available on the Internet tp: new. siemens. comitfid-approvals) abeling Description Conformity ace. to the RED EU directive Notes on CE marking The following applies to the system described in this documentation The CE mark ona device indicates the corresponding approval DIN ISO 9001 certificate Gifie quality assurance system for the entire production process (development, production, 4NJAd marketing) at Siemens fulfills the requirements of ISO 9001 (corresponds to EN29004 37) le has been certified by DGS (the German society for the certification of quality nagern ent systerns). certificate no.: 1323-01 Country-specific approvals sedan Ifthe device has one of the following markings the corresponding approval has been 0 Description Underwriters Laboratories (UL) to UL 60950 Standard (1.T-E), or to ULS08 {IND.CONT.EQ) Underwriters Laboratories (UL) according to Canadian standard C22.2 No, 60960 (1.T.E) of C22.2 No. 142 (IND.CONT.EQ) Underwriters Laboratories (UL) according to standard UL 60950, Report 11 8352 and Canadian standard 622.2 No, 60950(1,7.E) or UL508 and C22.2 No. 142 (IND.CONT.Q) SIMATIC RF600 System Manual, 06/2019, 131083.D0171-UO01-A22-7618 503 Appendix ALT Certificates & approvals Labeling Description UL recognition mark. Canadian Standard Association (CSA) according to the standard 22.2. No. 60950 (LR 81690) or ace. to. C22.2 No. 142 (LR 63533) Canadian Standard Association (CSA) per American Standard UL 60950 (LR 81690) or per UL 508 (LR 63533) This product meets the requirements of the AS/NZS 3548 Norm, Federal Communications Commission FOG GFR 47, Part 15 sections 15.247 Radio Frequency Interference Statement This equipment has been tested and found to comply with the limits for a ClassA digital device, pursuant to Part 15 of the FCC Rules. Industry Canada Radio Standards Specifications RSS-210 Issue 6, Sections 2.2, AB RSS.247 Issue 2 CMIIT 1D, XXXXYY ZZ China (CMIIT) Brazil (ANATEL) South Korea (KCC) Japan (YCCI) South Attica (ICASA) EAC (Eurasian Conformity) Eurasian Economie Union of Russia, Belarus, Armenia, Kazakhstan and kyrayzstan Declaration of conformity according to the technical regulations of the customs union (TR ZU) Marocco When using the RF600 readers in Marocco, the frequency band is limited to 867.6 - 868 MHzand the radiant power toa maximum of 500 mW ERP. By selecting the country profile "Marocco" in Web Based Management (WBN), these settings are made automatically. 504 SIMATIC RF600 System Manual, 06/2019, 48 1069-00171 U001.A22.7618 Appendix At Certificates & approvals EMC usa, Federal Communications | This equipment has been tested and found to comply with the limits Commission for 2 Class A digital device, pursuant to Part 15 of the FCC Rules. Radio Frequency Interference Statement 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 harrrful interference to radio communications. Operation of this equipment in a residential area is likely to cause harmful interference in which case the user will be Fequired to correct the interference at his own expense. Shielded Cables, Shielded cables must be used with this equipment to maintain com-
pliance with FOG regulations. Modifications Changes or modifications not expressly approved by the manufac-
turer could void the user's authority to operate the equipment. Conditions of Operations This device complies with Part 15 of the FOG Rules. Operation is. subject fo the following two conditions: (1) this device may nd cause harmful interference, and (2) this device must accept any interfer-
ence received, including interference that may cause undesired op-
eration. SIMATIC RF600 System Manual, 06/2019, 131083.D0171-UO01-A22-7618 505 Appendix A.2 Service & support A2 Service & support Industry Online Support RFID homepage In addition to the product documentation, the comprehensive online information platferm 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 ete. @ Contacts, Technical Forum
@ The opticn submitting a support query:
link 2: (htips://support.industry. siemens. corn/My/wwiervrequests) Cur service offer Right across our products and systems, we provide numerous services that support you in every phase of the life of your machine cr system - from planning and implementation to commissioning, through to maintenance and modernization. You will fnd contact data on the Intemet at the following address:
Link 3: (http:/4n3 siemens, com/aspa_app) For general information about our identification systems, visit RFID home page
{http:1. siernens, com/mcmslidentificat cn-systems)). Online catalog and ordering system The online catalog and the online ordering system can also be found on the Industry Mall home page (httpsi/mallndusty. siemens. com) SITRAIN - Training for Industry 506 The training offer includes more than300 courses on basic topios, extended knowledge and special knowledge as well as advanced training for individual sectors - available at more than 130 locations. Courses can also be organized individually and held locally at your location. Youwill find detailed information cn the training curriculum and how to contact our customer ccnsultants at the following Internet address:
Link: (httpy/sitrain, autor ation. siemens. com/sitrainwortd/) SIMATIC RF600 System Manual, 06/2019, 48 1069-00171 U001.A22.7618
1 2 | Label | ID Label/Location Info | 554.47 KiB | April 06 2020 / April 07 2020 |
SIEMENS SIMATIC RF610R FCC
* = 1P 6GT281 1-6BC10-1AA0 eos LISTED ee S VP L5005886 ITE E118382 23S 20-87-56-F7-BE-05 (LAN/P1) V3.2 FS 02 DC24V === 03A THIS DEVICE COMPLIES WITH PART 15 OF THE FCC RULES OPERATION IS SUBJECT TO THE FOLLOWING TWO CONDITIONS:(1) THIS DEVICE MAY NOT HARMFUL INTERFERENCE and(2) THIS DEVICE MUST ACCEPT ANY INTERFERENCE RECEIVED, INCLUDUNG INTERFERENCE THAT MAY CAUSE UNDESIRED OPERATION. MODEL: RF610R FCC ID: NXW-RF610R IC: 267X- RF610R IP67 AB Siemens AG, 76181 Karlsruhe, Germany Made in Germany
1 2 | Label Location | ID Label/Location Info | 191.85 KiB | April 06 2020 / April 07 2020 |
Readers 5.2 SIMATIC RF610R 5.2.6 Dimension drawing Figure 5-6 Dimension drawing RF610R All dimensions in mm ( 0.5 mm tolerance) 120 System Manual, 06/2019, J31069-D0171-U001-A22-7618 SIMATIC RF600
1 2 | Agent Letter | Cover Letter(s) | 67.21 KiB | April 06 2020 / April 07 2020 |
SIEMENS Siemens AG, PD PA Cl R&D 1, Gleiwitzer Str 555, 90475 Nuernberg, Germany TCT Tow AG Gleiwitzer Str. 555 Tel : +49 (911) 895 0 Process Industries and Drives Division; Management: Juergen Brandes 90475 Nuernberg Fax: +49 (911) 895 3630 Process Automation; Management: Eckard Eberle Germany Siemens Aktiengesellschaft: Chairman of the Supervisory Board: Jim Hagemann Snabe;
Managing Board: Joe Kaeser, Chairman, President and Chief Executive Officer; Roland Busch, Lisa Davis, Klaus Helmrich, Janina Kugel, Cedrik Neike, Michael Sen, Ralf P Thomas Registered offices: Berlin and Munich, Germany; Commercial registries: Berlin Charlottenburg, HRB 12300, Munich, HRB 6684 WEEE-Reg.-No DE 23691322 SCF 02/2018 V13.06 lag-((- |
Tents Dr. Thomas Erik schilnabe Department a] Dyin nk. 1 Be TUV SUD BABT FCB Telephone +49 (911) 895-3283 Octagon House, Fax +49 (911) 895-4010 Segensworth Road, Mobile +49 (173) 9136524 ar lk=)8T- 100 Par thomas.schilhabel@siemens com Hampshire, PO15 5RL Date September 5, 2019 Dear Sir or Madam, We, Siemens Aktiengesellschaft, Gleiwitzer Str. 555, 90475 Nuernberg, hereby authorize Mr. Thomas Ring, Sonja Sachs and Benjamin Puls TUV SUD Product Service GmbH, Aussere Fruehlingstrasse 45, 94315 Straubing, Germany, to act as our agent in all matters relating to applications for equipment authorization, including the signing of all documents relating to these maiters. This authorization expires on 31.12.2020. SIEMENS tha Abalud Manager, Compliance Engineering, DI PA CI R&D 1 For Siemens Aktiengesellschaft Karlsruhe, September 5, 2019 Place of issue Date of issue Name Signature Quality Manager, MF-K, PD PA MF-K QM Function
+49 (721) 595-6161 +49 (721) 595-6505 ok a beckerwolfaana@siemens.com em aerel||
FCC /IC listed Contact Nuernberg, September 5, 2019 wea alors Mel im ool Oo) Date of issue Dr. Thomas Schilhabel Name Signature Function
+49 (911) 895-3283 +49 (911) 895-4010 ah aya thomas.schilhabel@siemens.com e-mail SCF 02/2018 V13.06 Robert J Ae Name Signature Vice President R&D. PD PA Cl R&D Function
+49 (911) 895-2540 ai robert.jung@siemens.com e-mail Page 2 of 2 VVolfaana Becker. LV.
1 2 | C2PC letter | Cover Letter(s) | 80.69 KiB | April 06 2020 / April 07 2020 |
SIEMENS Siemens AG, Dl PA Cl R&D 1, Moorenbrunn, Gleiwtzer Str. 555, 90475 Nuremberg TUV SUD BABT Octagon House, Segensworth Road, Fareham, Hampshire, PO15 5RL Name Department Telephone Fax Mobile E-mail Dr. Thomas Erik Schilhabel DI PA CI R&D 1
+49 (91 1) 895-3283
+49 (91 1 ) 895-401 0
+49 (173) 9136524 thomas.schilhabel@siemens.com Date March 18,2020 C2PClor FCC lD: NXW-RF610R and lC: 267X-RF6I0R C2PC We, Siemens Aktiengesellschaft, Gleiwitzer Str. 555, 90475 Nuernberg, Germany, Pursuant to FCC Rule Part 2.1043, and ISED RSP-100 Sec. 7, we hereby submit a request for FCC C2PC for FCC lD: NXW-RF610R and lC 267X-RF610R C2PC The differences between model/HVlN: SIMATIC RF610R and previously approved model shown below,
. Replacement of Power over Ethernet (PoE) circuitry by standard DC/DC converter. Dear Sir or Madam, Description of the change:
Radio module remains unchanged. Sincerely yours, Semens AG Digtal lndustries; Managemenl: Klaus Helmrich Process Automation; Managemenl: Eckard Eberle Moorenbrunn Gleiwtzer Str. 555 90475 Nuremberg Germany Tel.: +49 (91 1) 895 0 www.siemens.com Siemens Aktiengsellschaft: Charman of the Supervisory Boerd: Jim Hagemann Snabe;
Managng Boarcl: Joe Kaeser, Chairman, President and Chif Executive Officer; Roland Busch, Lisa Davis, Klaus Helmrich, Janina Kugel, Cedrik Neike, Mchael sen, Ralf P. Thomas Registered offces: Berln and Munich, Germany; Commercal registries: Berlin Charlottenburg, HRB 12300, Munch, HRB 6684 WEEE-Reg.-No. DE 23691322 scF o4l201 I v1 3.06 Page 1 ol 2 SIEMENS Letter of March 18,2020 to PO15 sRL For Siemens Aktiengesellschaft Place of issue 18th March 2020 SSUE Becker i.v Name Signature Robert Ju Name
.v sig Qualitv Manaqer, MF-K, DI PA MF-K QM Function Vice President R&D DI PA CI R&D Function
+49 1{?21\ 595-6161
+49 fi21\ 595-6505 +49 (911) 895-3109 beckerwolfqa e-mail com robert. i u n q (Asie me ns. co m e-mail Person who is registered at FCC for required Grantee Code Nuernberq Place of issue 18th March 2020 Date of issue
'/]ohr(
Dr. Thomas Schilhabel, Name Signature Manaoer. Compliance Enoin eerino. PD PA Cl R&D 'l Function
+49 (91 1) 895-3283 Tel.:
+49 (911) 895-4010 FAX:
Thomas.schilhabel(@siemens.com e-mail scF 04/2019 V1 3.06 Page 2 of 2
1 2 | Confidentiality Letter | Cover Letter(s) | 77.58 KiB | April 06 2020 / April 07 2020 |
SIEMENS Siemens AG, DI PA CI R&D 1, Moorenbrunn, Gleiwitzer Str 555, Name Dr. Thomas Erik Schilhabel 90475 Nuremberg Department Dey weet: b Leelee Telephone +49 (911) 895-3283 Octagon House, ays +49 (911) 895-4010 Mobile +49 (173) 9136524 eli Ue Ie E-mail thomas schilhabel@siemens.com ar la=ar=lae re dnel esc ial PO15 5R DENK) January 30, 2020 Confidentiality Request FCC ID: NXW-RF610R, NXW-RF615R BI -Y- lees ee Pursuant to Sections 0.457(d)(1)(ii) and 0.459 of the Commission's Rules, Siemens Aktiengeseilschaft, Gleiwitzer Str. 555, 90475 Nuremberg, Germany hereby requests permanent confidential treatment of information accompanying this application as outlined below:
Schematics Bill of Materials/Parts List Block Diagrams Theory of Operation The above materials contain trade secrets and proprietary information not customarily released to the public. The public disclosure of these matters might be harmful to the Applicant and provide unjustified benefits to its competitors. The Applicant understands that pursuant to Rule 0.457(d)(1)(ii), disclosure of this Application and all accompanying materials will not be made before the date of the Grant for this Application. Siemens AG Gleiwitzer Str 555 Tel : +49 (911) 895 0 Process Industries and Drives Division; Management: Juergen Brandes 90475 Nuernberg Fax: +49 (911) 895 3630 Process Automation; Management: Eckard Eberle Germany Siemens Aktiengesellschaft: Chairman of the Supervisory Board: Jim Hagemann Snabe;
Managing Board: Joe Kaeser, Chairman, President and Chief Executive Officer; Roland Busch, Lisa Davis, Klaus Helmrich, Janina Kugel, Cedrik Neike, Michael Sen, Ralf P Thomas Registered offices: Berlin and Munich, Germany; Commercial registries: Berlin Charlottenburg, HRB 12300, Munich, HRB 6684 WEEE-Reg -No DE 23691322 SCF 02/2018 V13 06 Page 1 of 2 SIEMENS lfgang Becker, . i PO15 5R sincerely yours, For Siemens Aktiengesellschaft Karlsruhe, 30th January 2020 Place of issue Date of issue Wo AY Robert J Ne laa ty Sylelar-1(Ule=) Name Sig Quality Manager, MF-K, DI PA MF-K QM Vice President R&D DI PA CI R&D Function Function
+49 (721) 595-6161 +49 (721) 595-6505 +49 (911) 895-3109 ae Ave ar beckerwolfgang@siemens.com robert.iuna@siemens.com Saarell e-mail Person who ts registered at FCC for required Grantee Code Nuernbera 30th of January 2020 Place of issue Date of issue Dr. Thomas Schilhabel, Ne Taal = Signature Manager, Compliance Engineering, DI PA CI R&D 1 Function
+49 (911) 895-3283 +49 (911) 895-4010 ae ae thomas.schilhabel@siemens.com e-mail SCF 02/2018 V13 06 Page 2 of 2
frequency | equipment class | purpose | ||
---|---|---|---|---|
1 | 2020-04-07 | 902.75 ~ 927.25 | DSS - Part 15 Spread Spectrum Transmitter | Class II Permissive Change |
2 | 2019-06-25 | 902.75 ~ 927.25 | DSS - Part 15 Spread Spectrum Transmitter | Original Equipment |
app s | Applicant Information | |||||
---|---|---|---|---|---|---|
1 2 | Effective |
2020-04-07
|
||||
1 2 |
2019-06-25
|
|||||
1 2 | Applicant's complete, legal business name |
Siemens AG
|
||||
1 2 | FCC Registration Number (FRN) |
0006191076
|
||||
1 2 | Physical Address |
Gleiwitzer Str. 555 PD PA CI R&D 1
|
||||
1 2 |
Gleiwitzer Str. 555
|
|||||
1 2 |
Nuernberg, N/A
|
|||||
1 2 |
Nuernberg, N/A 90475
|
|||||
1 2 |
Germany
|
|||||
app s | TCB Information | |||||
1 2 | TCB Application Email Address |
a******@tuvsud.com
|
||||
1 2 |
f******@us.tuv.com
|
|||||
1 2 | TCB Scope |
A4: UNII devices & low power transmitters using spread spectrum techniques
|
||||
app s | FCC ID | |||||
1 2 | Grantee Code |
NXW
|
||||
1 2 | Equipment Product Code |
RF610R
|
||||
app s | Person at the applicant's address to receive grant or for contact | |||||
1 2 | Name |
T****** E******** S********
|
||||
1 2 | Title |
Manager, Compliance Engineering
|
||||
1 2 | Telephone Number |
00499********
|
||||
1 2 | Fax Number |
00499********
|
||||
1 2 |
t******@siemens.com
|
|||||
app s | Technical Contact | |||||
n/a | ||||||
app s | Non Technical Contact | |||||
n/a | ||||||
app s | Confidentiality (long or short term) | |||||
1 2 | Does this application include a request for confidentiality for any portion(s) of the data contained in this application pursuant to 47 CFR § 0.459 of the Commission Rules?: | Yes | ||||
1 2 | Long-Term Confidentiality Does this application include a request for confidentiality for any portion(s) of the data contained in this application pursuant to 47 CFR § 0.459 of the Commission Rules?: | No | ||||
if no date is supplied, the release date will be set to 45 calendar days past the date of grant. | ||||||
app s | Cognitive Radio & Software Defined Radio, Class, etc | |||||
1 2 | Is this application for software defined/cognitive radio authorization? | No | ||||
1 2 | Equipment Class | DSS - Part 15 Spread Spectrum Transmitter | ||||
1 2 | Description of product as it is marketed: (NOTE: This text will appear below the equipment class on the grant) | Wireless Reader | ||||
1 2 | Related OET KnowledgeDataBase Inquiry: Is there a KDB inquiry associated with this application? | No | ||||
1 2 | Modular Equipment Type | Does not apply | ||||
1 2 | Purpose / Application is for | Class II Permissive Change | ||||
1 2 | Original Equipment | |||||
1 2 | Composite Equipment: Is the equipment in this application a composite device subject to an additional equipment authorization? | No | ||||
1 2 | Related Equipment: Is the equipment in this application part of a system that operates with, or is marketed with, another device that requires an equipment authorization? | No | ||||
1 2 | Grant Comments | C2PC as described in this filing. Power output listed is conducted. The antennas used for this transmitter must be installed to provide a separation distance of at least 20 cm from all persons and not be co-located with any other transmitters except in accordance with FCC multi-transmitter product procedures. End-users and installers must be provided with antenna installation instructions and transmitter operating conditions for satisfying RF exposure compliance. | ||||
1 2 | Power output listed is conducted. The antennas used for this transmitter must be installed to provide a separation distance of at least 20 cm from all persons and not be co-located with any other transmitters except in accordance with FCC multitransmitter product procedures. End-users and installers must be provided with antenna installation instructions and transmitter operating conditions for satisfying RF exposure compliance. | |||||
1 2 | Is there an equipment authorization waiver associated with this application? | No | ||||
1 2 | If there is an equipment authorization waiver associated with this application, has the associated waiver been approved and all information uploaded? | No | ||||
app s | Test Firm Name and Contact Information | |||||
1 2 | Firm Name |
TUV Rheinland LGA Products GmbH
|
||||
1 2 |
TUV Rheinland Italia SRL
|
|||||
1 2 | Name |
S****** W****
|
||||
1 2 |
G****** M****
|
|||||
1 2 | Telephone Number |
49-91********
|
||||
1 2 |
39-2-********
|
|||||
1 2 | Fax Number |
+49 9********
|
||||
1 2 |
39-2-********
|
|||||
1 2 |
S******@de.tuv.com
|
|||||
1 2 |
g******@it.tuv.com
|
|||||
Equipment Specifications | |||||||||||||||||||||||||||||||||||||||||
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
Line | Rule Parts | Grant Notes | Lower Frequency | Upper Frequency | Power Output | Tolerance | Emission Designator | Microprocessor Number | |||||||||||||||||||||||||||||||||
1 | 1 | 15C | 902.75000000 | 927.25000000 | 0.5585000 | ||||||||||||||||||||||||||||||||||||
Line | Rule Parts | Grant Notes | Lower Frequency | Upper Frequency | Power Output | Tolerance | Emission Designator | Microprocessor Number | |||||||||||||||||||||||||||||||||
2 | 1 | 15C | 902.75000000 | 927.25000000 | 0.5585000 |
some individual PII (Personally Identifiable Information) available on the public forms may be redacted, original source may include additional details
This product uses the FCC Data API but is not endorsed or certified by the FCC