SIMATIC RF600 SIMATIC Ident RFID systems SIMATIC RF600 System Manual Introduction 1 Safety Information 2 System overview of SIMATIC RF600 3 RF600 system planning 4 Readers 5 Antennas 6 Transponder 7 Integration into networks 8 System diagnostics 9 Accessories Appendix 06/2019 J31069-D0171-U001-A22-7618 10 A
Legal information Warning notice system This manual contains notices you have to observe in order to ensure your personal safety, as well as to prevent damage to property. The notices referring to your personal safety are highlighted in the manual by a safety alert symbol, notices referring only to property damage have no safety alert symbol. These notices shown below are graded according to the degree of danger.
Table of contents 1 2 3 4 Introduction........................................................................................................................................... 13 1.1 Preface....................................................................................................................................13 1.2 Abbreviations and naming conventions ..................................................................................14 Safety Information................................
Table of contents 4.3.9.4 4.3.9.5 Types of antenna ................................................................................................................... 53 Antenna cables ...................................................................................................................... 53 4.4 4.4.1 4.4.2 4.4.3 4.4.4 4.4.5 Minimum distances and maximum ranges ............................................................................ 55 Configurations of antenna and transponder ........
Table of contents 5 Readers .............................................................................................................................................. 105 5.1 Overview ...............................................................................................................................105 5.2 5.2.1 5.2.1.1 5.2.1.2 5.2.1.3 5.2.1.4 5.2.1.5 5.2.2 5.2.2.1 5.2.2.2 5.2.3 5.2.4 5.2.5 5.2.6 5.2.7 5.2.7.1 5.2.7.2 5.2.7.3 5.2.7.4 5.2.7.5 SIMATIC RF610R ...............................
Table of contents 5.4.1.5 5.4.1.6 5.4.1.7 5.4.2 5.4.2.1 5.4.3 5.4.4 5.4.5 5.4.6 5.4.7 5.4.7.1 5.4.7.2 Pin assignment of the power supply interface (X80 24VDC)............................................... 153 Pin assignment of the Industrial Ethernet interface (X1 P1) ................................................ 155 Grounding connection .......................................................................................................... 155 Planning operation ....................................
Table of contents 5.7 5.7.1 5.7.2 6 SIMATIC RF650M.................................................................................................................229 Description ............................................................................................................................229 Field of application and features...........................................................................................229 Antennas .................................................................
Table of contents 6.5 6.5.1 6.5.2 6.5.3 6.5.4 6.5.4.1 6.5.5 6.5.5.1 6.5.5.2 6.5.6 6.5.6.1 6.5.6.2 6.5.6.3 6.5.7 6.5.8 6.5.9 SIMATIC RF642A ................................................................................................................ 293 Characteristics ..................................................................................................................... 293 Ordering data ......................................................................................................
Table of contents 6.8.6.3 6.8.7 6.8.8 6.8.9 7 Interpretation of directional radiation patterns ......................................................................354 Technical data.......................................................................................................................355 Dimension drawing ...............................................................................................................357 Approvals & certificates ..............................................
Table of contents 7.7.3.1 7.7.3.2 7.7.4 7.7.5 7.7.6 Range when mounted on flat metallic carrier plates............................................................ 400 Range when mounted on non-metallic carrier materials ..................................................... 401 Technical specifications ....................................................................................................... 402 Dimension drawing .................................................................................
Table of contents 7.12.3 7.12.3.1 7.12.3.2 7.12.3.3 7.12.3.4 7.12.3.5 7.12.3.6 7.12.4 7.12.5 7.12.6 7.13 7.13.1 7.13.2 7.13.3 7.13.3.1 7.13.3.2 7.13.3.3 7.13.4 7.13.5 7.13.6 8 9 10 Planning the use ...................................................................................................................442 Optimum antenna/transponder positioning with plane mounting of the transponder on metal .......................................................................................................
Table of contents A 10.2.5 Dimension drawing .............................................................................................................. 496 10.3 10.3.1 10.3.2 10.3.3 10.3.4 Reader and antenna holders ............................................................................................... 497 Overview .............................................................................................................................. 497 Ordering data .................................
Introduction 1.1 1 Preface Purpose of this document This system manual contains the information needed to plan and configure the RF600 system. It is intended both for programming and testing/debugging personnel who commission the system themselves and connect it with other units (automation systems, further programming devices), as well as for service and maintenance personnel who install expansions or carry out fault/error analyses.
Introduction 1.2 Abbreviations and naming conventions History Currently released versions of the SIMATIC RF600 system manual: Edition Comment 11/2005 First edition ... ...
Safety Information 2.1 2 General safety instructions Note Heed the safety notices Please observe the safety instructions on the back cover of this documentation. SIMATIC RFID products comply with the salient safety specifications to VDE/DIN, IEC, EN, UL and CSA. If you have questions about the admissibility of the installation in the designated environment, please contact your service representative.
Safety Information 2.1 General safety instructions Operating temperature CAUTION 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. CAUTION Do not 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.
Safety Information 2.1 General safety instructions Lightning protection CAUTION Installation only in protected areas Antennas and readers 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. When installing outdoors, we recommend that you protect the readers/antennas from the weather with a box. The antenna RF650A must not be installed in the (protected) outdoor area.
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 or violate the safety requirements and regulations for radio frequency interference suppression. Contact your technical customer service or where you purchased your device to find out which system expansions are suitable for installation.
Safety Information 2.2 Safety instructions for third-party antennas as well as for modifications to the RF600 system 2.2 Safety instructions for third-party antennas as well as for modifications to the RF600 system Always observe the following general safety instructions before selecting a component from a different vendor: The manufacturer accepts no responsibility for functional suitability or legal implications for the installation of third-party components.
Safety Information 2.3 Safety distance to transmitter antenna Note User responsibility for modified product As a user of the modified product, you accept responsibility for use of the complete RFID product comprising both SIMATIC RF600 components and third-party RFID components. This particularly applies to modification or replacement of: x Antennas x Antenna cables x readers x Power supply units with connection cables 2.3 Safety distance to transmitter antenna 2.3.
Safety Information 2.3 Safety distance to transmitter antenna 2.3.2 Minimum distance to antenna in accordance with ETSI At a transmission frequency of 900 MHz, the wavelength of the electromagnetic wave ˨ is approximately 0.34 m. For distances less than 1 ˨ in the near field, the electrical field strength (1/r) diminishes exponentially to the power three over distance, and for distances greater than 1 ˨, it diminishes exponentially to the power two over distance. The horizontal line at 41.
Safety Information 2.3 Safety distance to 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 (ETSI) 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 2 W ERP.
Safety Information 2.3 Safety distance to transmitter antenna The horizontal line at 41.25 V/m marks the "safety limit value". Distance to transmitter antenna [m] Feld strength [V/m] % of limit value 1 10.9 26 5 2.2 5.3 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 [W] Safety distance to transmitter antenna [m] 4.0 0.26 <2.5 >0.
Safety Information 2.
System overview of SIMATIC RF600 3 SIMATIC RF600 is an identification system that operates in the UHF range. UHF technology supports large write/read 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.
System overview of SIMATIC RF600 3.1 Application areas of RF600 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 of all delivered, stocked and shipped goods in the incoming goods, warehouse, production, production logistics and distribution departments.
System overview of SIMATIC RF600 3.2 System components 3.2 Table 3- 1 System components System components of the RF600 product series Prroduct photo Description SIMATIC RF610R RF610R reader is suitable for applications in production logistics and distribution. It is characterized by a very compact size - with reduced transmit power – as well as an internal antenna. It is integrated for distribution via Ethernet with the XML protocol or OPC UA.
System overview of SIMATIC RF600 3.2 System components Product photo Description SIMATIC RF650M The RF650M mobile reader expands the identification system RF600 with a powerful handheld terminal for applications in the areas of logistics, production and service. In addition, it is an indispensable aid for commissioning and testing. SIMATIC RF615A and RF620A SIMATIC RF615A and RF620A are linear antennas with a very compact design suitable for industry.
System overview of SIMATIC RF600 3.2 System components Product photo Description SIMATIC RF660A SIMATIC RF660A is a powerful circular antenna for production and logistics applications. SIMATIC RF680A SIMATIC RF680A is an antenna whose polarization can be changed (circular, linear horizontal or linear vertical) of medium size for universal use in industrial applications in production and logistics.
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 RF600 RFID system Type Contactless RFID (Radio Frequency IDentification) system in the UHF band Transmission frequency x ETSI: 865 to 868 MHz x FCC: 902 to 928 MHz x CMIIT: 920.625 to 924.375 MHz x ARIB (STD-T106): 916.8 MHz to 920.4 MHz x ARIB (STD-T107): 920.4 to 923.
System overview of SIMATIC RF600 3.
System overview of SIMATIC RF600 3.
RF600 system planning 4.1 4 Overview You should observe the following criteria for implementation planning: Ⴠ Possible system configurations Ⴠ Antenna configurations Ⴠ Environmental conditions for transponders Ⴠ The response of electromagnetic waves in the UHF band Ⴠ Regulations applicable to frequency bands Ⴠ EMC Directives 4.2 Possible system configurations The SIMATIC RF600 system is characterized by a high level of standardization of its components.
RF600 system planning 4.2 Possible system configurations Features of the scenario Intralogistics (material flow) Figure 4-1 Scenario: Intralogistics (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 cm in this example. The maximum transport speed is 2 m/s.
RF600 system planning 4.2 Possible system configurations Intralogistics (separator) ཱ Trigger by light barrier on DI Distributed small gate Figure 4-2 ི ཱི Separator setting by means of DQ Individual read point Scenario: Intralogistics (separator) 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.
RF600 system planning 4.2 Possible system configurations 4.2.2 Scenario for workpiece identification A typical characteristic of modern manufacturing scenarios is their multitude of variations. The individual data and production steps are stored in the transponder of a tool holder or product. These data are read by the machining stations during a production process and, if necessary, tagged with status information. This can be used to dynamically identify which production step is the next in the series.
RF600 system planning 4.2 Possible system configurations identification quality of the wanted transponders while reducing the identification of unwanted transponders. 4.2.3 Goods tracking scenario In this scenario, a gate consisting of a SIMATIC RF650R reader and four antennas checks the goods passing through the gate. All stored goods are equipped with transponders. A traffic light indicates whether the goods may leave the warehouse.
RF600 system planning 4.2 Possible system configurations 4.2.4 Scenario incoming goods, distribution of goods and outgoing goods The scenario consists of an RFID system with three readers. The SIMATIC RF650R reader with its four antennas identifies the incoming/outgoing products at the incoming/outgoing goods gates of a factory building hall through which pallets are delivered. Each pallet is fitted with a transponder.
RF600 system planning 4.3 Antenna configurations Features of the scenario In this example scenario, the SIMATIC RF685R reader is controlled 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.
RF600 system planning 4.3 Antenna configurations 4.3.1 Antenna configuration example The following figure shows an example of an application with an antenna configuration of the RF650R. The antennas are positioned at the height at which the transponders to be identified are expected. The maximum 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.
RF600 system planning 4.3 Antenna configurations 4.3.2 Possibilities and application areas for antenna configurations Some basic antenna configurations and possible fields of application are shown below. With the various configurations, please note that up to four external antennas can be connected to the RF650R and RF680R readers, while one external antenna can be connected to the RF615 and RF685R readers. The RF615R and RF685R readers also have an internal antenna.
RF600 system planning 4.3 Antenna configurations Antenna configuration 2 Description/ application areas This arrangement of antennas is appropriate when the transponders to be read are only located on one side of the items to be identified, e.g. when pallets are to be identified and it is known on which side the transponders to be read are located.
RF600 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.
RF600 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 reliability of transponder identification is improved as a result of the four antennas at separate locations, so the transponder position is not critical. Transponder Antenna configuration 7 Description/ application areas This tunnel configuration is suitable for conveyor belt applications.
RF600 system planning 4.3 Antenna configurations 4.3.3 Transponder orientation in space 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 probability of identification of the transponders is at a maximum.
RF600 system planning 4.3 Antenna configurations 4.3.4 Specified minimum and maximum spacing of antennas Specified minimum spacing of antennas The following diagram shows the specified minimum 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 should also be at least 50 cm.
RF600 system planning 4.3 Antenna configurations 4.3.5 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.
RF600 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.
RF600 system planning 4.3 Antenna configurations Factors Description Reflection characteristics of the environment In a multiple-reflection environment (e.g., in rooms with reflecting surfaces, machinery, or concrete walls), the reading range can be significantly higher than in a low-reflection environment. Number of transponders in the antenna The typical ranges always relate to a transponder installed field at the maximum possible distance from the antenna.
RF600 system planning 4.3 Antenna configurations 4.3.8 Operation of several readers within restricted space 4.3.8.1 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 When several RFID readers are used, there is a danger that RFID transponders can also be read out by other readers.
RF600 system planning 4.3 Antenna configurations 4.3.8.3 Frequency 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 50 available channels the probability is low that two readers will be operating on the same frequency. In China, one reader operates on at least 2 channels, e.g. sixteen 2 watt channels.
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 configuration software/WBM of the SIMATIC RF600 system. Correct and safe integration into the SIMATIC RF600 system is only possible following adaptation of all required parameters. 4.3.9.
RF600 system planning 4.3 Antenna configurations Environmental conditions NOTICE Damage to the device In line 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.
RF600 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 exceed a value of approx. 5 dB. Dependency of the cable loss The cable loss depends on two important factors: Ⴠ External characteristics of cable. These includes the cable length, diameter and design. Ⴠ As a result of the physical principle, the cable loss is also frequency-dependent.
RF600 system planning 4.4 Minimum distances and maximum ranges 4.4 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 read/write distance.
RF600 system planning 4.4 Minimum distances and maximum ranges With the antenna types with linear polarization (RF620A and RF642A), the polarization axes of the antenna and of the transponder must be aligned parallel to each other to achieve a maximum range. NOTICE Reduction of the maximum read/write range when using linear antennas If the alignment of the polarization axes of linear antennas (RF620A or RF642A) and transponders is not parallel, this reduces the read/write range.
RF600 system planning 4.4 Minimum distances and maximum ranges Linear antennas To achieve the maximum range with linear antennas, make sure that the polarization axes of the antenna and transponder are parallel to each other. Changing the transponder angle within the x-y plane leads to a reduction of the range.
RF600 system planning 4.4 Minimum distances and maximum ranges Suboptimal transponder alignment for all antenna types If the angle is changed within the y-z plane, this causes a reduction in range for all antenna types. ཱ Antenna RF615A, RF620A, RF640A, RF642A, RF650A or RF680A Transponder Figure 4-13 Suboptimal transponder alignment Note Exceptions The suboptimal transponder alignment does not apply to the transponders RF625T and RF630T.
RF600 system planning 4.4 Minimum distances and maximum ranges Effects due to transponder mounting The maximum read/write range of the transponders depends on the material of the mounting surface. The specified ranges apply when mounted on non-metallic surfaces, such as paper or card, with the RF640L, RF642L, RF625T, RF630T, RF640T and RF645T when mounted on metal. Mounting on plastic can reduce the maximum read/write range considerably depending on the type of plastic (up to 70%).
RF600 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 RF685R 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 internal antenna.
RF600 system planning 4.4 Minimum distances and maximum ranges Table 4- 5 Read range of the transponders II (all ranges in meters [m]) 630L SIMATIC RF6 SIMATIC RF630L SIMATIC RF630L 6GT2810--2AC82 6GT2810--2AE80--0AX2 6GT2810--2AE81--0AX1 SIMATIC RF615R with internal antenna 0.4 1.0 0.6 SIMATIC RF615R with RF615A 0.1 0.5 0.2 with RF620A 0.2 0.5 0.2 with RF640A 1.4 2.5 1.0 with RF642A 3.0 4.0 2.5 with RF650A 1.4 2.5 1.0 with RF660A 2.5 4.0 3.
RF600 system planning 4.4 Minimum distances and maximum ranges Table 4- 6 Read range of the transponders III (all ranges in meters [m]) SIMATIC RF640L 1) SIMATIC RF642L 1) SIMATIC RF690L SIMATIC RF610T SIMATIC RF615R with internal antenna 0.5 0.8 0.2 0.8 SIMATIC RF615R with RF615A 0.2 0.2 0.1 0.3 SIMATIC RF610R with RF620A 0.2 0.4 0.1 0.4 with RF640A 0.5 1.2 0.1 1.2 with RF642A 2.5 2.0 0.3 3.0 with RF650A 1.0 0.8 0.1 1.2 with RF660A 2.0 1.8 0.3 3.0 with RF680A 0.
RF600 system planning 4.4 Minimum distances and maximum ranges Table 4- 7 Read range of the transponders IV (all ranges in meters [m]) SIMATIC RF620T 1) SIMATIC RF625T 2) SIMATIC RF630T 2) SIMATIC RF640T 2) SIMATIC RF615R with internal antenna 1.0 0.3 0.3 0.4 SIMATIC RF615R with RF615A 1.0 0.1 0.1 0.2 SIMATIC RF610R with RF620A 1.2 0.1 0.2 0.2 with RF640A 4.0 0.3 0.4 0.7 with RF642A 4.0 1.0 0.5 1.4 with RF650A 3.5 0.2 0.4 0.7 with RF660A 4.0 0.8 1.0 1.
RF600 system planning 4.4 Minimum distances and maximum ranges Table 4- 8 Read range of the transponders V (all ranges in meters [m]) SIMATIC RF645T 1) SIMATIC RF680T 1) SIMATIC RF682T 1) SIMATIC RF615R with internal antenna 1.0 1.0 1.0 SIMATIC RF615R with RF615A 0.7 0.6 0.4 SIMATIC RF610R with RF620A 0.9 0.7 0.4 with RF640A 1.4 2.0 1.2 with RF642A 3.0 4.0 2.5 with RF650A 1.6 1.8 1.2 with RF660A 3.5 4.0 2.0 with RF680A 1.8 2.0 1.2 SIMATIIC RF650R with RF615A 1.2 1.
RF600 system planning 4.4 Minimum distances and maximum ranges 4.4.4 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 to ensure reliable transponder data access: Table 4- 9 4.4.
RF600 system planning 4.5 Environmental conditions for transponders 4.5 Environmental conditions for transponders Basic rules The transponder must not be placed directly on metal surfaces or on containers of liquid. The on-metal transponders designed specifically for use in metallic environments 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 5 cm is recommended.
RF600 system planning 4.6 The response of electromagnetic waves in the UHF band Reducing the effect of reflections/interference on transponder identification Ⴠ Reducing the transmit power: To minimize interference, we recommend that the transmit power of the reader is reduced until it is sufficient for an identification rate of 100%. Ⴠ Increasing the number of antennas: More antennas (3 or 4) in a suitable antenna configuration can prevent gaps in reader coverage. 4.6.
RF600 system planning 4.6 The response of electromagnetic waves in the UHF band This effect depends very much on the transmitted power, the components being used (cable, antenna) and the distance from the metallic surface to the antenna. In this case, repositioning/realigning the antenna or reducing the radiated power can remedy the situation. 4.6.
RF600 system planning 4.7 Planning and installation of UHF read points 4.7 Planning and installation of UHF read points Due to their comparatively large effective range, RFID UHF systems (frequency band 865 928 MHz) have different requirements in terms of planning, commissioning and operation compared with the HF systems commonly used up to now in automation (frequency band 13.56 MHz). This section describes important rules for preparation and implementation of the RFID UHF systems. 4.7.
RF600 system planning 4.7 Planning and installation of UHF read points Ⴠ distance between antenna and transponder, Ⴠ reflections, Ⴠ noise level in the channel used and in neighboring channels The RSSI value is important for the automatic 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 transponder tolerances and the non-homogeneous antenna field.
RF600 system planning 4.7 Planning and installation of UHF read points Properties of the transmitting antenna 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 polarization of an antenna.
RF600 system planning 4.7 Planning and installation of UHF read points 4.7.2 Implementation of UHF RFID installations The use of UHF RFID systems requires careful planning and preparation to avoid problems during commissioning and operation. 4.7.2.
RF600 system planning 4.7 Planning and installation of UHF read points Dynamic identification Dead spots cannot be excluded. To be able to compensate for dead spots, we recommend that you 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 static identification is necessary, the antenna field can e virtually dynamized with the RF685R antenna or RF680A.
RF600 system planning 4.7 Planning and installation of UHF read points 4.7.2.3 Setting up read points The read point setup described in this section is performed using the Web Based Management (WBM) and applies to the RF600 readers. You can find a detailed description of the WBM in the configuration manual "SIMATIC RF600 (https://support.industry.siemens.com/cs/ww/en/ps/15081/man)". Adjust antennas Follow the steps below to optimize the antenna alignment: 1.
RF600 system planning 4.7 Planning and installation of UHF read points 4. In the "RSSI display" area, you can see the current (light blue) and maximum reached (dark blue) RSSI values. Note Transsponder is not identified If no transponder is identified, first increase the radiated power as described in the following section. Then repeat the antenna adjustment. Also check the polarization of your antenna. If the transponder always has the same alignment, the antenna polarization should be adapted accordingly.
RF600 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. In the "Min. power" column of the transponder list, you can see the required activation power. The value "Min.
RF600 system planning 4.7 Planning and installation of UHF read points 4.7.3 Dealing with field disturbances 4.7.3.1 Types and approaches to solutions The superposition of radio waves and reflection by conductive materials (in particular metal) can lead to weakening or strengthening of the antenna field at certain points in space.
RF600 system planning 4.7 Planning and installation of UHF read points Ⴠ Reader ർ reader influence: Several readers influence or disturb each other during transponder identification. Approaches to solutions: – "Interconnect" neighboring readers so that they do not send at the same time – Enable intermissions ("Settings - General" menu item) – Channel management Ⴠ Reader ർ transponder influence: A reader communicates with a transponder that is also in the identification area of another reader.
RF600 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 fifty 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 field obliteration.
RF600 system planning 4.8 Chemical resistance of the readers and transponders 4.8 Chemical resistance of the readers and transponders 4.8.1 Readers 4.8.1.1 Overview of the readers and their housing materials Resistance to chemicals depends on the housing materials used to manufacture the reader.
RF600 system planning 4.8 Chemical resistance of the readers and transponders 4.8.1.2 Pocan CF2200 The following table provides an overview of the chemical resistance of the Pocan CF2200.
RF600 system planning 4.
RF600 system planning 4.8 Chemical resistance of the readers and transponders 4.8.2 Transponder 4.8.2.1 Overview of the transponders and their housing materials The following sections describe the resistance to chemicals of the various transponders. Resistance to chemicals depends on the housing materials used to manufacture the transponders.
RF600 system planning 4.
RF600 system planning 4.8 Chemical resistance of the readers and transponders Substance n(n) Calcium chloride, w. Test conditions Concentration [%] Temperature [°C] - 20 ഒ Evaluation ++++ - 60 ഒ +++ - 20 ഒ ++++ - 60 ഒ +++ c. s. 20 ഒ ++++ c. s. 60 ഒ +++ Chlorine - 20 ഒ ᪻ Chrome baths, tech. - 20 ഒ ᪻ Iron salts, w. c. s. 60 ഒ ++++ Acetic acid, w. 50 % 20 ഒ ᪻ Ethyl alcohol, w.
RF600 system planning 4.8 Chemical resistance of the readers and transponders Substance Test conditions Evaluation Concentration [%] Temperature [°C] low 60 ഒ Hydrogen sulfide ++++ Carbon tetrachloride - 60 ഒ ++++ Toluene - 20 ഒ ++++ - 60 ഒ +++ Detergent high 60 ഒ ++++ Plasticizer - 60 ഒ ++++ Explanation of the rating 4.8.2.4 ++++ Resistant +++ Practically resistant ++ Conditionally resistant + Less resistant ᪻ Not resistant w. Water solution c. s.
RF600 system planning 4.8 Chemical resistance of the readers and transponders Substance Test co onditions Evaluation Concentration [%] Temperature [°C] Trichloroethylene - - ++++ Hot water (hydrolysis resistance) - - ++ Explanation of the rating 4.8.2.5 ++++ Resistant +++ Practically resistant ++ Conditionally resistant + Less resistant ᪻ Not resistant Polyamide 6.6 GF (PA 6.
RF600 system planning 4.8 Chemical resistance of the readers and transponders Substance Test conditions Con ncentration [%] Temperature [°C] - 20 ഒ Magnesium salts, w. Methyl alcohol, w. Lactic acid, w. Evaluation ++++ 1) 50 % 20 ഒ ++++ - 20 ഒ ++++ - 60 ഒ ᪻ Sodium carbonate, w. (soda) - 20 ഒ ++++ Sodium chloride, w.
RF600 system planning 4.8 Chemical resistance of the readers and transponders 4.8.2.6 Polyethylene terephthalate (PET) The following table provides an overview of the chemical resistance of the transponder made of polyethylene terephthalate.
RF600 system planning 4.
RF600 system planning 4.8 Chemical resistance of the readers and transponders 4.8.2.7 Polypropylene (PP) The following table provides an overview of the chemical resistance of the transponder made of polyethylene terephthalate.
RF600 system planning 4.8 Chemical resistance of the readers and transponders Substance Test conditions Evaluation Concentration [%] Temperature [°C] Calcium chloride, w./ alcoholic - 20 ഒ - 50 °C +++ Calcium chloride, - 50 °C ++++ Calcium nitrate, w. Chlorine Chloroacetic acid Chloric acid ++++ - 50 °C ++++ 50 % 50 °C ++++ - 20 ഒ ᪻ - 50 °C ++++ 20 % 20 ഒ ++++ 20 % 50 °C ᪻ Chrome baths, tech.
RF600 system planning 4.8 Chemical resistance of the readers and transponders Substance Magnesium salts Test conditions Evaluation Concentration [%] Temperature [°C] any 50 °C ++++ Machine oil 100 % 20 ഒ ++++ Sea water - 50 °C ++++ Methanol Methyl alcohol, w. Lactic acid, w. Lactic acid Engine oil Sodium carbonate, w. (soda) Sodium carbonate Sodium chloride, w. Sodium hydroxide, w. Sodium hydroxide solution, w. Sodium hydroxide solution Nickel salts, w.
RF600 system planning 4.8 Chemical resistance of the readers and transponders Substance Test conditions Evaluation Concentration [%] Temperature [°C] low 50 °C ++++ moist 20 ഒ ++++ moist 50 °C ++ Sulfur dioxide Sulfuric acid Hydrogen sulfide Detergent Water liquid 50 °C ᪻ 1 ...
RF600 system planning 4.8 Chemical resistance of the readers and transponders 4.8.2.8 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 chemical resistance to solutions up to a temperature of 200 °C. A reduction in the mechanical properties has been observed in aqueous solutions of hydrochloric acid (HCl) and nitric acid (HNO3) at 80 °C.
RF600 system planning 4.8 Chemical resistance of the readers and transponders Explanation of the rating ++++ 4.8.2.9 Resistant +++ Practically resistant ++ Conditionally resistant + Less resistant ᪻ Not resistant Polyvinyl chloride (PVC) The following table provides an overview of the chemical resistance of the transponder made of polyvinyl chloride (PVC).
RF600 system planning 4.9 Regulations applicable to frequency bands 4.9 Regulations applicable to frequency bands Overview of the frequency bands 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 Internet page of EPCglobal®. You will find the current country-specific frequency bands and approvals on the following Internet page: EPCglobal (http://www.gs1.
RF600 system planning 4.10 Guidelines for electromagnetic compatibility (EMC) 4.10.2 What does EMC mean? The increasing use of electrical and electronic devices is accompanied by: Ⴠ Higher component density Ⴠ More switched power electronics Ⴠ Increasing switching rates Ⴠ Lower power consumption of components due to steeper switching edges The higher the degree of automation, the greater the risk of interaction between devices.
RF600 system planning 4.10 Guidelines for electromagnetic compatibility (EMC) 4.10.3 Basic rules It is often sufficient to follow a few elementary rules in order to ensure electromagnetic compatiblity (EMC). The following rules must be observed: Shielding by enclosure Ⴠ Protect the device against external interference by installing it in a cabinet or housing. The housing or enclosure must be connected to the chassis ground.
RF600 system planning 4.10 Guidelines for electromagnetic compatibility (EMC) Ⴠ Feed the connected shield through to the module without interruption. Ⴠ Use braided shields, not foil shields. Line and signal filter Ⴠ Use only line filters with metal housings Ⴠ Connect the filter housing to the cabinet chassis using a large-area low-HF-impedance connection. Ⴠ Never fix the filter housing to a painted surface. Ⴠ Fix the filter at the control cabinet inlet or in the direction of the source. 4.10.
RF600 system planning 4.10 Guidelines for electromagnetic compatibility (EMC) Interference sources 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.
RF600 system planning 4.10 Guidelines for electromagnetic compatibility (EMC) Interference source Cause Remedy HF interference over the antennas caused by another reader x Position the antennas further apart. x Erect suitable damping materials between the antennas. x Reduce the power of the readers. Please follow the instructions in the section Installation guidelines/reducing the effects of metal 4.10.
RF600 system planning 4.10 Guidelines for electromagnetic compatibility (EMC) The better the equipotential bonding in a plant, the smaller the chance of interference due to fluctuations in potential. Equipotential bonding should not be confused with protective earthing of a plant. Protective earthing prevents the occurrence of excessive contact voltages in the event of equipment faults whereas equipotential bonding prevents the occurrence of differences in potential. 4.10.
RF600 system planning 4.10 Guidelines for electromagnetic compatibility (EMC) Figure 4-22 Connection of shielding bus The shielding bus must be connected to the PE busbar. If shielded cables have to be interrupted, the shield must be continued via the corresponding connector housing. Only suitable connectors may be used for this purpose.
5 Readers 5.
Readers 5.1 Overview Characteristics SIMATIC RF610R SIMATIC RF615R SIMATIC RF650R SIMATIC RF680R SIMATIC RF685R Max. radiated power ETSI in ERP 200 mW ERP 200 mW ERP 2) 1 W ERP 2 W ERP 2 W ERP 2) 2 W ERP Max. radiated power CMIIT in ERP 250 mW ERP 250 mW ERP 2) 1 W ERP 2 W ERP 2 W ERP 2) 2 W ERP Max. radiated power FCC in EIRP 400 mW EIRP 400 mW EIRP 2) 1. W EIRP 4 W EIRP 4 W EIRP 2) 4 W EIRP Max. radiated power ARIB in EIRP -- 0.5 W EIRP 4 W EIRP Max.
Readers 5.2 SIMATIC RF610R 5.2 SIMATIC RF610R 5.2.1 Description 5.2.1.1 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 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.
Readers 5.2 SIMATIC RF610R 5.2.1.
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-p pin) Pin 1 2 1) 1) Wire colors Assignment White + 24 V Brown - Tx 3 Green 0V 4 1) Yellow + Tx 5 1) Gray + Rx 6 1) Pink - Rx 7 -- Unassigned 8 -- Earth (shield) These pins are not required if the reader is operated via Ethernet.
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.
Readers 5.2 SIMATIC RF610R 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 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.
Readers 5.
Readers 5.2 SIMATIC RF610R Overview of the antenna parameters Table 5- 6 Maximum linear electrical aperture angle at 865 MHz: Polarization (circular) Azimuth section 100° Elevation section 100° Typical antenna gain in the frequency band 865 to 868 MHz -1 dBi Antenna axis ratio 2 dB You will find more information on the antennas in the section "Guidelines for selecting RFID UHF antennas (Page 51)".
Readers 5.
Readers 5.2 SIMATIC RF610R Overview of the antenna parameters Table 5- 7 Maximum linear electrical aperture angle at 915 MHz: Polarization (circular) Azimuth section 100° Elevation section 100° Typical antenna gain in the frequency band 902 to 928 MHz 0 dBi Antenna axis ratio 2 dB You will find more information on the antennas in the section "Guidelines for selecting RFID UHF antennas (Page 51)". 5.2.2.
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.
Readers 5.2 SIMATIC RF610R 5.2.5 Technical specifications Table 5- 8 Technical specifications of the RF610R reader 6GT2811--6BC10--xAA0 Product type designation SIMATIC RF610R Radio frequencies Operating frequency x ETSI x 865 to 868 MHz x FCC x 902 to 928 MHz x CMIIT x 920 to 925 MHz Transmit power x ETSI x 3 ... 400 mW x FCC x 3 ... 400 mW x CMIIT x 3 ...
Readers 5.2 SIMATIC RF610R 6GT2811--6BC10--xAA0 Typical transmission time per byte x Write access x 2 ms x Read access x 0.15 ms Supply voltage 24 VDC (20 ... 30 VDC) Maximum permitted current consumption 0.3 A 1) Current consumption (on standby), typical x 20 V input voltage on the reader x 200 mA / 4 W x 24 V input voltage on the reader x 170 mA / 4.1 W x 30 V input voltage on the reader x 150 mA / 4.
Readers 5.2 SIMATIC RF610R 6GT2811--6BC10--xAA0 Design, dimensions and weight Dimensions (W × H × D) 140.5 × 133 × 45 mm Weight 370 g Type of mounting VESA 100 4x screws M4 (ถ 1.5 Nm) Operation indicator 6 LEDs Status display 1 LED (enclosure, all-round) Standards, specifications, approvals Proof of suitability EN 301 489-1 V2.2.0 / EN 301 489-3 V2.1.1 / EN 302 208 V3.1.1 MTBF 29 years FCC CFR 47, Part 15 section 15.
Readers 5.2 SIMATIC RF610R 5.2.6 Figure 5-6 Dimension drawing Dimension drawing RF610R All dimensions in mm (± 0.
Readers 5.2 SIMATIC RF610R 5.2.7 Certificates and approvals 5.2.7.1 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- 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.
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.
Readers 5.2 SIMATIC RF610R 5.2.7.4 IC-FCB information Siemens SIMATIC RF610R (FCC): 6GT2811-6BC10-1AA0 IC: 267X-RF610R 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.
Readers 5.3 SIMATIC RF615R 5.3 SIMATIC RF615R 5.3.1 Description 5.3.1.1 Overview The SIMATIC RF615R is a stationary reader in the UHF frequency band with an integrated antenna. An external UHF RFID antenna can be connected via an RP-TNC connector. 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 / 1 00 mW EIRP is achieved when the appropriate antennas and antenna cables are used.
Readers 5.3 SIMATIC RF615R 5.3.1.
Readers 5.3 SIMATIC RF615R 5.3.1.
Readers 5.3 SIMATIC RF615R Input (DI) Ⴠ The input is set up with electrical isolation via optocoupler. Ⴠ Level – Low: 0 ... 7 V – High: 15 ... 24 V The following diagrams illustrate various connection possibilities. Note Minimum time between changes Note that changes on the DI/DQ interface that are not applied for at least 1.5 seconds are not detected by the reader.
Readers 5.3 SIMATIC RF615R Voltage infeed from an external source is shown here for 12 V as an example. Other voltages are also permissible. 5.3.1.
Readers 5.3 SIMATIC RF615R 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.
Readers 5.3 SIMATIC RF615R 5.3.2 Planning operation 5.3.2.1 Internal antenna Minimum mounting clearances of two readers RF615R 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)". Dense Reader Mode (DRM) The readers can also interfere with each other (secondary fields), if the channels (Reader TX, Transponder TX) overlap.
Readers 5.3 SIMATIC RF615R Antenna diagram RF615R (ETSI) The following radiation diagrams show the directional characteristics of the internal antenna of the RF615R (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.
Readers 5.
Readers 5.3 SIMATIC RF615R Overview of the antenna parameters Table 5- 17 Maximum linear electrical aperture angle at 865 MHz: Polarization (circular) Azimuth section 100° Elevation section 100° Typical antenna gain in the frequency band 865 to 868 MHz -1 dBi Antenna axis ratio 2 dB You will find more information on the antennas in the section "Guidelines for selecting RFID UHF antennas (Page 51)".
Readers 5.
Readers 5.3 SIMATIC RF615R Overview of the antenna parameters Table 5- 18 Maximum linear electrical aperture angle at 915 MHz: Polarization (circular) Azimuth section 100° Elevation section 100° Typical antenna gain in the frequency band 902 to 928 MHz 0 dBi Antenna axis ratio 2 dB You will find more information on the antennas in the section "Guidelines for selecting RFID UHF antennas (Page 51)".
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 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.
Readers 5.3 SIMATIC RF615R 5.3.4 Configuration/integration An Ethernet interface is available for integrating the device into system environments/networks. RF615R can be configured via the Ethernet interface and with direct connection to the PC.
Readers 5.3 SIMATIC RF615R 5.3.5 Technical specifications Table 5- 19 Technical specifications of the RF615R reader 6GT2811--6CC10--xAA0 Product type designation SIMATIC RF615R Radio frequencies Operating frequency x ETSI x 865 to 868 MHz x FCC x 902 to 928 MHz x CMIIT x 920 to 925 MHz Transmit power 1) x ETSI x 3 ... 400 mW x FCC x 3 ... 400 mW x CMIIT x 3 ...
Readers 5.3 SIMATIC RF615R 6GT2811--6CC10--xAA0 Typical transmission time per byte x Write access x 2 ms x Read access x 0.15 ms Supply voltage 24 V DC (20 ... 30 V DC) 2) Maximum permitted current consumption 0.3 A Maximum permitted current consumption via DI/DQ interface x < 20 °C x 0.5 A x ถ 55 °C x 0.33 A Current consumption (on standby), typical x 20 V input voltage on the reader x 200 mA / 4 W x 24 V input voltage on the reader x 170 mA / 4.
Readers 5.3 SIMATIC RF615R 6GT2811--6CC10--xAA0 Permitted ambient conditions Ambient temperature x During operation x -25 ... +55 °C x During transportation and storage x -40 ... +85 °C x for indoor use only (dry location) x Mounting height shall be equal or less than 2 m (MS1 classification according UL/IEC 62368-1). La hauteur de montage doit être égale ou inférieure à 2 m (classification MS1 selon CEI 62368-1).
Readers 5.3 SIMATIC RF615R 5.3.6 Figure 5-14 Dimension drawing Dimension drawing RF615R All dimensions in mm (± 0.
Readers 5.3 SIMATIC RF615R 5.3.7 Certificates and approvals 5.3.7.1 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 6GT2811-6CC10-0AA0 Labeling Description Conformity with the RED directive 2014/53/EU Conformity with the RoHS directive 2011/65/EU 5.3.7.
Readers 5.3 SIMATIC RF615R 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 following two conditions: (1) This device may not cause harmful interference, and (2) this device must accept any interference received, including interference that may cause undesired operation.
Readers 5.3 SIMATIC RF615R 5.3.7.4 IC-FCB information Siemens SIMATIC RF615R (FCC): 6GT2811-6CC10-1AA0 IC: 267X-RF615R 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. ,Q RUGHU WR FRPSO\ ZLWK ,6(' 5) ([SRVXUH UHTXLUHPHQWV WKLV GHYLFH PXVW EH LQVWDOOHG WR SURYLG
Readers 5.4 SIMATIC RF650R 5.4 SIMATIC RF650R 5.4.1 Description 5.4.1.1 Overview The SIMATIC RF650R is a stationary reader in the UHF frequency band without an integrated antenna. Up to four external UHF RFID antennas can be connected via RP-TNC connectors. The maximum transmit power is 1000 mW at the reader output. A radiated power of up to 2000 mW ERP / 4000 mW EIRP is achieved when the appropriate antennas and antenna cables are used.
Readers 5.4 SIMATIC RF650R 5.4.1.
Readers 5.4 SIMATIC RF650R Product Article number 24 V connecting cable reader ർ wide-range power supply unit x with plug, 5 m 6GT2891-0PH50 x with open ends, 2 m 6GT2891-4EH20 x with open ends, 5 m 6GT2891-4EH50 DVD "Ident Systems Software & Documentation" 5.4.1.
Readers 5.4 SIMATIC RF650R Color scheme of the DI/DQ standard cable with M12 connector 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. Figure 5-15 5.4.1.4 Wiring diagram: M12 connector Switching scheme for the DI/DQ interface Connection possibilities You can connect the reader in different ways. In general, the outputs and inputs should be connected as follows: Output (DO 0 ...
Readers 5.4 SIMATIC RF650R The following diagrams illustrate various connection possibilities. Note Minimum time between changes Note that changes on the DI/DQ interface that are not applied for at least 1.5 seconds are not detected by the reader.
Readers 5.
Readers 5.
Readers 5.4 SIMATIC RF650R Voltage infeed from external source Figure 5-20 Circuit example 5: Digital outputs Voltage infeed from an external source is shown here for 12 V as an example. Other voltages are also permissible.
Readers 5.4 SIMATIC RF650R Voltage infeed from external source with various voltages Figure 5-21 Circuit example 6: Digital outputs 5.4.1.
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 sou urces The reader must only be supplied with power by power supply units that meet the requirementsof limited power source (LPS) and NEC Class 2.
Readers 5.4 SIMATIC RF650R 5.4.1.
Readers 5.4 SIMATIC RF650R Ground connection (a) 5.4.2 Planning operation 5.4.2.1 Antenna/read point configurations Screw (M4 x 8) (b) Flat washer (c) Cable lug (d) Contact washer You can connect up to four external antennas to the RF650R 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)".
Readers 5.4 SIMATIC RF650R 5.4.3 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.
Readers 5.4 SIMATIC RF650R Mounting the reader on a DIN/standard rail Table 5- 28 DIN rail mounting 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.
Readers 5.4 SIMATIC RF650R Description 3. Fit the lower part of the 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.
Readers 5.4 SIMATIC RF650R Table 5- 29 Installation on a standard rail Description 1. Mount the two adapter pieces using the supplied Torx screws. 2. Fit the upper part of the locking mechanism of the reader into the standard rail. 3. Secure the reader using the supplied slotted-head screws.
Readers 5.4 SIMATIC RF650R 5.4.4 Configuration/integration An Ethernet interface is available for integrating the device into system environments/networks. The RF650R 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: Ⴠ using Web Based Management (WBM) Ⴠ OPC UA or XML based user applications Note that configuration in parallel is not possible using different tools. Simple process controls (e.g.
Readers 5.4 SIMATIC RF650R 5.4.5 Technical specifications Table 5- 30 Technical specifications of the RF650R reader 6GT2811--6AB20--xAA0 Product type designation SIMATIC RF650R Radio frequencies Operating frequency x ETSI x 865 to 868 MHz x FCC x 902 to 928 MHz x CMIIT x 920 to 925 MHz x ARIB (STD-T107) x 920.4 to 923.
Readers 5.4 SIMATIC RF650R 6GT2811--6AB20--xAA0 Channel spacing x ETSI x 600 kHz x FCC x 500 kHz x CMIIT x 250 kHz x ARIB (STD-T107) x 200 kHz Modulation methods ASK: DSB modulation & PR-ASK modulation encoding, Manchester or Pulse Interval (PIE) Multitag capability Yes Typical transmission time per byte x Write access x 2 ms x Read access x 0.15 ms Supply voltage 24 V DC (20 ...
Readers 5.4 SIMATIC RF650R 6GT2811--6AB20--xAA0 Mechanical specifications Material x Upper part of housing x Pocan (silicone-free) x Lower part of housing x Aluminum x Upper part of housing x TI-Grey x Lower part of housing x Silver Color Permitted ambient conditions Ambient temperature x During operation x -25 ... +55 °C x During transportation and storage x -40 ... +85 °C Degree of protection IP30 Shock resistant to EN 60068-2-27 25.
Readers 5.4 SIMATIC RF650R 5.4.6 Dimension drawing Figure 5-23 Dimension drawing RF650R All dimensions in mm (± 0.
Readers 5.4 SIMATIC RF650R 5.4.7 Certificates and approvals 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- 31 6GT2811-6AB20-0AA0 Labeling Description Conformity with the RED directive 2014/53/EU Conformity with the RoHS directive 2011/65/EU South Africa radio approval: Radio Equipment Type Approval India India wireless approval Marking on the reader: No.
Readers 5.4 SIMATIC RF650R Labeling Description Brazil radio approval Marking on the reader (6GT2811-6AB20-1AA0): Statement about approval: Este equipamento opera em caráter secundário, isto é, não tem direito à proteção contra interferência prejudicial, mesmo de estações do mesmo tipo e não pode causar interferência a sistemas operando em caráter primário.
Readers 5.4 SIMATIC RF650R Standard CMIIT Certification China radio approval Marking on the reader: CMIIT ID: 2014DJ3987 5.4.7.1 FCC information Siemens SIMATIC RF650R (FCC): 6GT2811-6AB20-1AA0 FCC ID: NXW-RF600R2 This device complies with part 15 of the FCC rules. Operation is subject to the following two conditions: (1) This device may not cause harmful interference, and (2) this device must accept any interference received, including interference that may cause undesired operation.
Readers 5.4 SIMATIC RF650R 5.4.7.2 IC-FCB information Siemens SIMATIC RF650R (FCC): 6GT2811-6AB20-1AA0 IC: 267X-RF600R2 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.
Readers 5.5 SIMATIC RF680R 5.5 SIMATIC RF680R 5.5.1 Description 5.5.1.1 Overview The SIMATIC RF680R is a stationary reader in the UHF frequency band without an integrated antenna. Up to four external UHF RFID antennas can be connected via RP-TNC connectors. The maximum transmit power is 2000 mW at the reader output. A radiated power of up to 2000 mW ERP / 4000 mW EIRP is achieved when the appropriate antennas and antenna cables are used.
Readers 5.5 SIMATIC RF680R 5.5.1.
Readers 5.5 SIMATIC RF680R Product Article numberr Connecting cable CM ർ reader / extension cable for 24 V connecting cable RS422, M12 connector, 8-pin socket x 2m 6GT2891-4FH20 x 5m 6GT2891-4FH50 x 10 m 6GT2891-4FN10 x 20 m 6GT2891-4FN20 x 50 m 6GT2891-4FN50 Wide-range power supply unit for SIMATIC RF systems x With EU plug 6GT2898-0AC00 x With UK plug 6GT2898-0AC10 x With US plug 6GT2898-0AC20 24 V connecting cable reader ർ wide-range power supply unit 5.5.1.
Readers 5.5 SIMATIC RF680R Note Requirement for external power sources When the DI/DQ interface is supplied with power by an external power source, this source must meet the requirements for LPS (Limited Power Sources) and NEC Class 2. Color scheme of the DI/DQ standard cable with M12 connector 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. Figure 5-24 5.5.1.
Readers 5.5 SIMATIC RF680R input (DI 0 ... 3) Ⴠ The inputs are optically isolated through optocouplers. Ⴠ Level – Low: 0 ... 7 V – High: 15 ... 24 V The following diagrams illustrate various connection possibilities. Note Minimum time between changes Note that changes on the DI/DQ interface that are not applied for at least 1.5 seconds are not detected by the reader.
Readers 5.
Readers 5.
Readers 5.5 SIMATIC RF680R Voltage infeed from external source Figure 5-29 Circuit example 5: Digital outputs Voltage infeed from an external source is shown here for 12 V as an example. Other voltages are also permissible.
Readers 5.5 SIMATIC RF680R Voltage infeed from external source with various voltages Figure 5-30 5.5.1.
Readers 5.5 SIMATIC RF680R Note Requiremen nt 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.
Readers 5.5 SIMATIC RF680R 5.5.1.6 Pin assignment of the Industrial Ethernet interface (X1 P1; X1 P2) Table 5- 38 Pin assignment of the Industrial Ethernet interface (reader end) View of interface (M12 socket, 4-p pin) 5.5.1.7 Pin Pin assignment 1 Data line +Tx 2 Data line +Rx 3 Data line -Tx 4 Data line -Rx Grounding connection On the top of the reader there is a blind drill hole (M4 x 8) for grounding. Tighten the screw with a torque of ถ 1.5 Nm.
Readers 5.5 SIMATIC RF680R Grou und connection (a) 5.5.2 Planning operation 5.5.2.1 Antenna/read point configurations Screw (M4 x 8) (b) Flat washer (c) Cable lug (d) Contact washer You can connect up to four external antennas to the RF680R 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)".
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 in use or when unused connectors are closed with the protective caps. Close 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".
Readers 5.5 SIMATIC RF680R 5.5.3.1 Mounting/Installation Mounting/installing the device You can mount the reader in the following ways: Ⴠ DIN rail T35 (S7-1200) Ⴠ S7-300 standard rail Ⴠ S7-1500 standard rail Ⴠ directly on a flat surface using the VESA 100 mounting system (torque ถ 1.5 Nm). The positions of the mounting holes for the device are shown in the section Dimension drawing (Page 190). Mounting the reader on a DIN/standard rail Table 5- 39 DIN rail mounting Description 1.
Readers 5.5 SIMATIC RF680R Description 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. 3. Fit the lower part of the 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.
Readers 5.5 SIMATIC RF680R Table 5- 40 Installation on a standard rail Description 1. Mount the two adapter pieces using the supplied Torx screws. 2. Fit the upper part of the locking mechanism of the reader into the standard rail. 3. Secure the reader using the supplied slotted-head screws.
Readers 5.5 SIMATIC RF680R 5.5.4 Configuration/integration An Ethernet interface is available for integrating the device into system environments/networks. The RF680R can be configured via the Ethernet interface and with direct connection to the PC.
Readers 5.5 SIMATIC RF680R 5.5.5 Technical specifications Table 5- 41 Technical specifications of the RF680R reader 6GT2811--6AA10--xAA0 Product type designation SIMATIC RF680R Radio frequencies Operating frequency x ETSI x 865 to 868 MHz x FCC x 902 to 928 MHz x CMIIT x 920 to 925 MHz x ARIB (STD-T106) x 916.8 MHz to 920.
Readers 5.5 SIMATIC RF680R 6GT2811--6AA10--xAA0 Channel spacing x ETSI x 600 kHz x FCC x 500 kHz x CMIIT x 250 kHz x ARIB (STD-T106) x 1200 kHz Modulation methods ASK: DSB modulation & PR-ASK modulation encoding, Manchester or Pulse Interval (PIE) Multitag capability Yes Typical transmission time per byte x Write access x 2 ms x Read access x 0.15 ms Supply voltage 24 V DC (20 ...
Readers 5.5 SIMATIC RF680R 6GT2811--6AA10--xAA0 Mechanical specifications Material x Upper part of housing x Pocan (silicone-free) x Lower part of housing x Aluminum x Upper part of housing x TI-Grey x Lower part of housing x Silver Color Permitted ambient conditions Ambient temperature x During operation x -25 ... +55 °C x During transportation and storage x -40 ... +85 °C Degree of protection IP65 Shock resistant to EN 60068-2-27 25.
Readers 5.5 SIMATIC RF680R 6GT2811--6AA10--xAA0 Standards, specifications, approvals Proof of suitability EN 301 489-1 V1.9.2 / EN 301 489-3 V1.6.1 / EN 302 208-1/-3 V1.4.1 FCC CFR 47, Part 15 section 15.247 MTBF 28 years 1) Measured at the output of the antenna socket. 2) All supply and signal voltages must be safety extra low voltage (SELV/PELV according to EN 60950). The voltage sources must meet the requirements of limited power sources (LPS) and NEC Class 2.
Readers 5.5 SIMATIC RF680R 5.5.7 Certificates and approvals 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- 42 6GT2811-6AA10-0AA0 Labeling Descrription Conformity with the RED directive 2014/53/EU Conformity with the RoHS directive 2011/65/EU South Africa radio approval: Radio Equipment Type Approval India India wireless approval Marking on the reader: No.
Readers 5.5 SIMATIC RF680R Labeling Description Brazil radio approval Marking on the reader (6GT2811-6AA10-1AA0): Statement about approval: Este equipamento opera em caráter secundário, isto é, não tem direito à proteção contra interferência prejudicial, mesmo de estações do mesmo tipo e não pode causar interferência a sistemas operando em caráter primário.
Readers 5.5 SIMATIC RF680R 5.5.7.1 FCC information Siemens SIMATIC RF680R (FCC): 6GT2811-6AA10-1AA0 FCC ID: NXW-RF600R2 This device complies with part 15 of the FCC rules. Operation is subject to the following two conditions: (1) This device may not cause harmful interference, and (2) this device must accept any interference received, including interference that may cause undesired operation.
Readers 5.5 SIMATIC RF680R 5.5.7.2 IC-FCB information Siemens SIMATIC RF680R (FCC): 6GT2811-6AA10-1AA0 IC: 267X-RF600R2 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.
Readers 5.6 SIMATIC RF685R 5.6 SIMATIC RF685R 5.6.1 Description 5.6.1.1 Overview The SIMATIC RF685R is a stationary reader in the UHF frequency band with an integrated antenna. An additional external UHF RFID antenna can be connected via an RP-TNC connector. The maximum transmit power is 2000 mW at the external reader output, die radiant power of the internal antenna is also 2000 mW ERP/EIRP.
Readers 5.6 SIMATIC RF685R 5.6.1.
Readers 5.6 SIMATIC RF685R Product Article number Connecting cable CM ർ reader / extension cable for 24 V connecting cable RS422, M12 connector, 8-pin socket x 2m 6GT2891-4FH20 x 5m 6GT2891-4FH50 x 10 m 6GT2891-4FN10 x 20 m 6GT2891-4FN20 x 50 m 6GT2891-4FN50 Wide-range power supply unit for SIMATIC RF systems x With EU plug 6GT2898-0AC00 x With UK plug 6GT2898-0AC10 x With US plug 6GT2898-0AC20 24 V connecting cable reader ർ wide-range power supply unit 5.6.1.
Readers 5.6 SIMATIC RF685R Note Requirement for external power sources When the DI/DQ interface is supplied with power by an external power source, this source must meet the requirements for LPS (Limited Power Sources) and NEC Class 2. Color scheme of the DI/DQ standard cable with M12 connector 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. Figure 5-33 5.6.1.
Readers 5.6 SIMATIC RF685R input (DI 0 ... 3) Ⴠ The inputs are optically isolated through optocouplers. Ⴠ Level – Low: 0 ... 7 V – High: 15 ... 24 V The following diagrams illustrate various connection possibilities. Note Minimum time between changes Note that changes on the DI/DQ interface that are not applied for at least 1.5 seconds are not detected by the reader.
Readers 5.
Readers 5.
Readers 5.6 SIMATIC RF685R Voltage infeed from external source Figure 5-38 Circuit example 5: Digital outputs Voltage infeed from an external source is shown here for 12 V as an example. Other voltages are also permissible.
Readers 5.6 SIMATIC RF685R Voltage infeed from external source with various voltages Figure 5-39 Circuit example 6: Digital outputs 5.6.1.
Readers 5.6 SIMATIC RF685R Note Requiremen nt 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.
Readers 5.6 SIMATIC RF685R 5.6.1.6 Pin assignment of the Industrial Ethernet interface (X1 P1; X1 P2) Table 5- 49 Pin assignment of the Industrial Ethernet interface (reader end) View of interface (M12 socket, 4-p pin) 5.6.1.7 Pin Pin assignment 1 Data line +Tx 2 Data line +Rx 3 Data line -Tx 4 Data line -Rx Grounding connection On the top of the reader there is a blind drill hole (M4 x 8) for grounding. Tighten the screw with a torque of ถ 1.5 Nm.
Readers 5.6 SIMATIC RF685R Grou und connection (a) 5.6.2 Planning operation 5.6.2.1 Internal antenna Screw (M4 x 8) (b) Flat washer (c) Cable lug (d) Contact washer Minimum mounting clearances of two readers RF685R has an adjustable internal antenna (linear horizontal or linear vertical). This means that you can set the antenna polarization to be either horizontal, vertical or circular.
Readers 5.6 SIMATIC RF685R Antenna diagram for RF685R (ETSI) The following radiation diagrams show the directional characteristics of the internal antenna of the RF685R (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.
Readers 5.
Readers 5.
Readers 5.
Readers 5.6 SIMATIC RF685R Antenna diagram for RF685R (FCC) The following radiation diagrams show the directional characteristics of the internal antenna of the RF685R (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.
Readers 5.
Readers 5.
Readers 5.
Readers 5.6 SIMATIC RF685R Interpretation of radiation patterns 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 read/write range with this reference angle with regard to a transponder.
Readers 5.6 SIMATIC RF685R 5.6.3 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. Close 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".
Readers 5.6 SIMATIC RF685R Mounting the reader on a DIN/standard rail Table 5- 53 DIN rail mounting 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.
Readers 5.6 SIMATIC RF685R Description 3. Fit the lower part of the 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.
Readers 5.6 SIMATIC RF685R Table 5- 54 Installation on a standard rail Description 1. Mount the two adapter pieces using the supplied Torx screws. 2. Fit the upper part of the locking mechanism of the reader into the standard rail. 3. Secure the reader using the supplied slotted-head screws.
Readers 5.6 SIMATIC RF685R 5.6.4 Configuration/integration An Ethernet interface is available for integrating the device into system environments/networks. The RF685R can be configured via the Ethernet interface and with direct connection to the PC.
Readers 5.6 SIMATIC RF685R 5.6.5 Technical specifications Table 5- 55 Technical specifications of the RF685R reader 6GT2811--6CA10--xAA0 Product type designation SIMATIC RF685R Radio frequencies Operating frequency x ETSI x 865 to 868 MHz x FCC x 902 to 928 MHz x CMIIT x 920 to 925 MHz x ARIB (STD-T106) x 916.8 MHz to 920.
Readers 5.6 SIMATIC RF685R 6GT2811--6CA10--xAA0 Channel spacing x ETSI x 600 kHz x FCC x 500 kHz x CMIIT x 250 kHz x ARIB (STD-T106) x 1200 kHz Modulation methods ASK: DSB modulation & PR-ASK modulation encoding, Manchester or Pulse Interval (PIE) Multitag capability Yes Typical transmission time per byte x Write access x 2 ms x Read access x 0.15 ms Supply voltage 24 V DC (20 ...
Readers 5.6 SIMATIC RF685R 6GT2811--6CA10--xAA0 Mechanical specifications Material x Upper part of housing x Pocan (silicone-free) x Lower part of housing x Aluminum x Upper part of housing x TI-Grey x Lower part of housing x Silver Color Permitted ambient conditions Ambient temperature x During operation x -25 ... +55 °C x During transportation and storage x -40 ... +85 °C Degree of protection IP65 Shock resistant to EN 60068-2-27 25.
Readers 5.6 SIMATIC RF685R 6GT2811--6CA10--xAA0 Standards, specifications, approvals Proof of suitability EN 301 489-1 V1.9.2 / EN 301 489-3 V1.6.1 / EN 302 208-1/-3 V1.4.1 FCC CFR 47, Part 15 section 15.247 MTBF 29 years 1) Measured at the output of the antenna socket. 2) All supply and signal voltages must be safety extra low voltage (SELV/PELV according to EN 60950). The voltage sources must meet the requirements of limited power sources (LPS) and NEC Class 2.
Readers 5.6 SIMATIC RF685R 5.6.7 Certificates and approvals 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- 56 6GT2811-6CA10-0AA0 Labeling Descrription Conformity with the RED directive 2014/53/EU Conformity with the RoHS directive 2011/65/EU South Africa radio approval: Radio Equipment Type Approval India India wireless approval Marking on the reader: No.
Readers 5.6 SIMATIC RF685R Labeling Description Brazil radio approval Marking on the reader (6GT2811-6CA10-1AA0): Statement about approval: Este equipamento opera em caráter secundário, isto é, não tem direito à proteção contra interferência prejudicial, mesmo de estações do mesmo tipo e não pode causar interferência a sistemas operando em caráter primário.
Readers 5.6 SIMATIC RF685R 5.6.7.1 FCC information Siemens SIMATIC RF685R (FCC): 6GT2811-6CA10-1AA0 FCC ID: NXW-RF600R2 This device complies with part 15 of the FCC rules. Operation is subject to the following two conditions: (1) This device may not cause harmful interference, and (2) this device must accept any interference received, including interference that may cause undesired operation.
Readers 5.6 SIMATIC RF685R 5.6.7.2 IC-FCB information Siemens SIMATIC RF685R (FCC): 6GT2811-6CA10-1AA0 IC: 267X-RF600R2 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.
Readers 5.7 SIMATIC RF650M 5.7 SIMATIC RF650M 5.7.1 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 is an indispensable aid for startup and testing. 5.7.
Readers 5.
6 Antennas 6.1 Overview The following table shows the most important features of the RF600 antennas at a glance: Table 6- 1 Characteristics of the RF615A, RF620A and RF660A antennas Characteristics Material Frequency range RF615A RF620A PA 6, silicone-free 865-868 MHz PA 12, silicone-free 902-928 MHz 865-868 MHz Impedance Antenna gain -10 ...
Antennas 6.1 Overview Table 6- 2 Characteristics of the RF640A and RF642A antennas Characteristics RF640A RF642A Material PA 12, silicone-free Frequency range 865-868 MHz 902-928 MHz 4 dBi (7 dBic) 4.3 dBi (7.3 dBic) Max. 1.25 Max. 1.6 Impedance 865-868 MHz 50 ohms nominal Antenna gain VSWR (standing wave ratio) Polarization 6 dBi 7 dBi Max. 1.4 RH circular Radiating/receiving angle Linear Horiz. plane: 80° Horiz. plane: 75° Horiz. plane: 75° Horiz. plane: 80° Vertic.
Antennas 6.2 SIMATIC RF615A 6.2 SIMATIC RF615A 6.2.1 Characteristics SIMATIC RF615A Characteristics Area of application The SIMATIC RF615A is a universal UHF antenna in a compact size for industrial applications, e.g. for installation directly on the robot arm. Frequency range x 865 to 868 MHz (RF615A ETSI) x 902 to 928 MHz (RF615A FCC) Read range Max.
Antennas 6.2 SIMATIC RF615A 6.2.2 Ordering data Table 6- 4 RF615A ordering data Prod duct Article number SIMATIC RF615A (ETSI) 6GT2812-0EA00 SIMATIC RF615A (FCC) 6GT2812-0EA01 Table 6- 5 Ordering data accessories Product Connecting cable between reader and antenna 6.2.3 Article number 1 m (cable loss 0.5 dB) 6GT2815-0BH10 3 m (cable loss 1.0 dB) 6GT2815-0BH30 5 m, suitable for drag chains (cable loss 1.5 dB) 6GT2815-2BH50 10 m (cable loss 2.0 dB) 6GT2815-1BN10 10 m (cable loss 4.
Antennas 6.2 SIMATIC RF615A 6.2.4 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, 3 m, 5 m, 10 m, 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 1 m), since this cable has the lowest cable loss.
Antennas 6.2 SIMATIC RF615A Cable designation 6.2.5 Article number Length [m] Cable loss [dB] Bending radius [mm] Antenna cable 6GT2815-2BN15 (suitable for drag chains) 15 4 45 1) 2) Antenna cable 6GT2815-0BN20 20 4 77 Antenna cable 6GT2815-0BN40 40 5 77 1) Permissible minimum bending radius with one-time bending.
Antennas 6.
Antennas 6.2 SIMATIC RF615A 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 RF615A antenna: x 500 mW EIRP (or 27 dBm EIRP) for operation with RF650R (ARIB STD-T107) x 4000 mW EIRP (or 36 dBm EIRP) for operation with RF680R/RF685R (ARIB STD-T106) The maximum permissible radiated power of the antenna cannot be reached or exceeded due to the negative antenna gain. 6.2.
Antennas 6.2 SIMATIC RF615A Alignment The following diagram shows the optimum alignment of the RF600 transponders to the RF615A antenna.
Antennas 6.
Antennas 6.2 SIMATIC RF615A 6.2.6.2 Antenna pattern ETSI Directional radiation pattern ETSI The directional radiation pattern is shown for nominal alignment and a center frequency of 866.3 MHz. The nominal antenna alignment is given when the antenna elevation is provided as shown in the following figure. Figure 6-5 Reference system The half-power beam width of the antenna is defined by the angle between the two -3 dB points.
Antennas 6.
Antennas 6.
Antennas 6.2 SIMATIC RF615A 6.2.6.3 Antenna pattern FCC Directional radiation pattern FCC The directional radiation pattern is shown for nominal alignment and a center frequency of 915 MHz. Figure 6-8 Reference system The half-power beam width of the antenna is defined by the angle between the two -3 dB points (corresponding to half the power in relation to the maximum power). Which range (in %) corresponds to the dB values in the patterns can be obtained from this table .
Antennas 6.
Antennas 6.
Antennas 6.2 SIMATIC RF615A 6.2.6.4 Interpretation of directional radiation patterns The following overview table will help you with the interpretation of directional 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 directional radiation patterns, and thus obtain information on the read/write range with this reference angle with regard to a transponder.
Antennas 6.2 SIMATIC RF615A 6.2.7 Technical data Table 6- 7 Technical specifications for the RF615A antenna 6GT T2812-0 0EA0x Product type designation SIMATIC RF615A Radio frequencies Operating frequency x ETSI x 865 to 868 MHz x FCC x 902 to 928 MHz Maximum radiated power x ETSI x ื 340 mW ERP x FCC x ื 560 mW EIRP x CMIIT x ื 340 mW ERP x ARIB Antenna gain x STD-T107: RF650R: ื 500 mW EIRP x STD-T106: RF680R/RF685R: < 560 mW EIRP -13 dBi ...
Antennas 6.2 SIMATIC RF615A 6GT T2812--0EA0x Electrical data Range See section "Maximum read/write ranges of transponders (Page 59)" Impedance 50 വ Polarization Linear VSWR (standing wave ratio) ื 2:1 Power x ETSI x ื2W x FCC x ื1W Interfaces Plug connection 30 cm coaxial cable with RP-TNC coupling (for connection of the antenna cable) Mechanical specifications Material PA6 V0, silicone-free Color Black Tightening torque (at room temperature) ื 1.
Antennas 6.2 SIMATIC RF615A 6GT T2812--0EA0x Standards, specifications, approvals 6.2.8 Proof of suitability FCC: cULus MTBF 1190 years 1) 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.
Antennas 6.2 SIMATIC RF615A 6.2.9 Certificates & approvals Table 6- 8 6GT2812-0EA00 Labeling Description Conformity with the RED directive 2014/53/EU Conformity with the RoHS directive 2011/65/EU Table 6- 9 6GT2812-0EA01 Labeling Description FCC CFR 47, Part 15 sections 15.247 Federal Communications Commission 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.
Antennas 6.3 SIMATIC RF620A 6.3 SIMATIC RF620A 6.3.1 Characteristics SIMATIC RF620A Characteristics Area of application The SIMATIC RF620A is a universal UHF antenna in a compact size for industrial applications in limited installation spaces. Frequency range x 865 to 868 MHz (RF620A ETSI) x 902 to 928 MHz (RF620A FCC) Read range Max.
Antennas 6.3 SIMATIC RF620A 6.3.2 Ordering data Table 6- 10 Ordering data RF620A Product Article number SIMATIC RF620A (ETSI) 6GT2812-1EA00 SIMATIC RF620A (FCC) 6GT2812-1EA01 Table 6- 11 Ordering data accessories Product Connecting cable between reader and antenna 6.3.3 Article number 1 m (cable loss 0.5 dB) 6GT2815-0BH10 3 m (cable loss 1.0 dB) 6GT2815-0BH30 5 m, suitable for drag chains (cable loss 1.5 dB) 6GT2815-2BH50 10 m (cable loss 2.0 dB) 6GT2815-1BN10 10 m (cable loss 4.
Antennas 6.3 SIMATIC RF620A 6.3.4 Connecting the antenna The SIMATIC RF620A antenna must be connected to the reader using an antenna cable. Preassembled standard cables in lengths of 1 m, 3 m, 5 m, 10 m, 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 1 m), since this cable has the lowest cable loss.
Antennas 6.3 SIMATIC RF620A 6.3.5 Cable designation Article number Length [m] Cable loss [dB] Bending radius [mm] Antenna cable 6GT2815-1BN10 10 2 77 Antenna cable 6GT2815-0BN10 10 4 51 Antenna cable 6GT2815-2BN15 (suitable for drag chains) 15 4 45 1) 2) Antenna cable 6GT2815-0BN20 20 4 77 Antenna cable 6GT2815-0BN40 40 5 77 1) Permissible minimum bending radius with one-time bending.
Antennas 6.
Antennas 6.3 SIMATIC RF620A 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 RF620A antenna: x 500 mW EIRP (or 27 dBm EIRP) for operation with RF650R (ARIB STD-T107) x 4000 mW EIRP (or 36 dBm EIRP) for operation with RF680R/RF685R (ARIB STD-T106) The maximum permissible radiated power of the antenna cannot be reached or exceeded due to the negative antenna gain. 6.3.
Antennas 6.3 SIMATIC RF620A Alignment The following diagram shows the optimum alignment of the RF600 transponders to the RF620A antenna.
Antennas 6.
Antennas 6.3 SIMATIC RF620A 6.3.6.2 Antenna pattern ETSI Directional radiation pattern ETSI The directional radiation pattern is shown for nominal alignment and a center frequency of 866.3 MHz. The nominal antenna alignment is given when the antenna elevation is provided as shown in the following figure. Figure 6-16 Reference system The half-power beam width of the antenna is defined by the angle between the two -3 dB points.
Antennas 6.
Antennas 6.
Antennas 6.3 SIMATIC RF620A 6.3.6.3 Antenna pattern FCC Directional radiation pattern FCC The directional radiation pattern is shown for nominal alignment and a center frequency of 915 MHz. Figure 6-19 Reference system The half-power beam width of the antenna is defined by the angle between the two -3 dB points (corresponding to half the power in relation to the maximum power). Which range (in %) corresponds to the dB values in the patterns can be obtained from this table .
Antennas 6.
Antennas 6.
Antennas 6.3 SIMATIC RF620A 6.3.6.4 Interpretation of directional radiation patterns The following overview table will help you with the interpretation of directional 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 directional radiation patterns, and thus obtain information on the read/write range with this reference angle with regard to a transponder.
Antennas 6.3 SIMATIC RF620A 6.3.7 Technical data Table 6- 13 Technical specifications for the RF620A antenna 6GT28 812-1 1EA0x Product type designation SIMATIC RF620A Radio frequencies Operating frequency x ETSI x 865 to 868 MHz x FCC x 902 to 928 MHz Maximum radiated power x ETSI x ื 340 mW ERP x FCC x ื 560 mW EIRP x CMIIT x ื 2000 mW ERP x ARIB x STD-T107: RF650R: ื 500 mW EIRP x STD-T106: RF680R/RF685R: < 4000 mW EIRP Antenna gain -10 dBi ...
Antennas 6.
Antennas 6.3 SIMATIC RF620A 6.3.
Antennas 6.3 SIMATIC RF620A 6.3.9 Approvals & certificates Table 6- 14 6GT2812-1EA00 Labeling Designation Conformity with the RED directive 2014/53/EU Conformity with the RoHS directive 2011/65/EU Table 6- 15 6GT2812-1EA01 Labeling Description FCC CFR 47, Part 15 sections 15.247 Federal Communications Commission 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.
Antennas 6.4 SIMATIC RF640A 6.4 SIMATIC RF640A 6.4.1 Characteristics SIMATIC RF640A Characteristtics Area of application The SIMATIC RF640A is a universal UHF antenna in a medium size with medium range for industrial applications in production and logistics. Frequency range 865 to 928 MHz Read range Max.
Antennas 6.4 SIMATIC RF640A 6.4.2 Ordering data Table 6- 16 Ordering data RF640A Productt Article number SIMATIC RF640A 6GT2812-0GA08 Table 6- 17 Ordering data accessories Product Connecting cable between reader and antenna 6.4.3 Article number 1 m (cable loss 0.5 dB) 6GT2815-0BH10 3 m (cable loss 1.0 dB) 6GT2815-0BH30 5 m, suitable for drag chains (cable loss 1.5 dB) 6GT2815-2BH50 10 m (cable loss 2.0 dB) 6GT2815-1BN10 10 m (cable loss 4.
Antennas 6.4 SIMATIC RF640A 6.4.4 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, 3 m, 5 m, 10 m, 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 1 m), since this cable has the lowest cable loss.
Antennas 6.4 SIMATIC RF640A 6.4.4.1 Bending radii and bending cycles of the cable The following listed bending radii are minimum values, which may not be fallen below and are based on repeated bending. Table 6- 18 Bending radii of the antenna cable Cable designation Article number Length [m] Cable loss [dB] Bending radius [mm] Antenna cable 6GT2815-0BH10 1 0.5 51 Antenna cable 6GT2815-0BH30 3 1 51 Antenna cable 6GT2815-2BH50 (suitable for drag chains) 5 1.
Antennas 6.4 SIMATIC RF640A Make the following settings to ensure that the maximum permitted radiated power of the antenna is not exceeded: Ⴠ Antenna gain: 4 dBi (or 7 dBiC) Ⴠ Radiated power: ื 1360 mW ERP (or 31.35 dBm ERP) Converted into EIRP: ื 2240 mW EIRP (or 33.5 dBm EIRP) Ⴠ Use of cable loss associated with the antenna cable.
Antennas 6.4 SIMATIC RF640A Limitations in Japan Note Limitation of the radiated power (ARIB STD-T107) RF600 systems that are put into operation in Japan must not exceed the following radiated power with an RF640A antenna: x 500 mW EIRP (or 27 dBm EIRP) 6.4.5.2 Setting RF640A parameters for RF680R/RF685R Depending on the country or region in which the antenna is being operated, it is subject to regional limitations with respect to the radiated power.
Antennas 6.4 SIMATIC RF640A 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: x 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: Ⴠ Conducted power P (dBm) of the RF600 reader: < 30 dBm Ⴠ Antenna gain Gi (dBi) in the FCC frequency band: ื 4.
Antennas 6.4 SIMATIC RF640A 6.4.6 Antenna patterns 6.4.6.1 Antenna radiation patterns in the ETSI frequency band Directional radiation pattern ETSI The directional radiation pattern is shown for nominal alignment and a center frequency of 866.3 MHz. The nominal antenna alignment is given when the antenna elevation is provided as shown in the following figure. Figure 6-24 Reference system The half-power beam width of the antenna is defined by the angle between the two -3 dB points.
Antennas 6.4 SIMATIC RF640A Directional radiation patterns in the ETSI frequency band Polarization axis and axis of symmetry are parallel In a configuration based on the following directional radiation pattern of the antenna, the axis of symmetry of the antenna and the polarization axis of the transponder are parallel.
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.
Antennas 6.4 SIMATIC RF640A Polarization axis and axis of symmetry are orthogonal to each other In a configuration based on the following directional radiation pattern of the antenna, the axis of symmetry of the antenna and the polarization axis of the transponder are orthogonal to each other.
Antennas 6.
Antennas 6.4 SIMATIC RF640A 6.4.6.2 Antenna radiation patterns in the FCC frequency band Directional radiation pattern USA (FCC) The directional radiation pattern is shown for nominal alignment and a center frequency of 915 MHz. Figure 6-27 Reference system The half-power beam 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).
Antennas 6.4 SIMATIC RF640A Directional radiation pattern in the FCC frequency band Polarization axis and axis of symmetry are parallel In the following directional radiation pattern of the antenna, the axis of symmetry of the antenna and the polarization axis of the transponder are parallel.
Antennas 6.
Antennas 6.4 SIMATIC RF640A Polarization axis and axis of symmetry are orthogonal to each other In the following directional radiation pattern of the antenna, the axis of symmetry of the antenna and the polarization axis of the transponder are orthogonal to each other.
Antennas 6.
Antennas 6.4 SIMATIC RF640A 6.4.6.3 Interpretation of directional radiation patterns The following overview table will help you with the interpretation of directional 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 directional radiation patterns, and thus obtain information on the read/write range with this reference angle with regard to a transponder.
Antennas 6.4 SIMATIC RF640A 6.4.
Antennas 6.4 SIMATIC RF640A 6GT28 812--0GA08 Electriccal data Range See section "Maximum read/write ranges of transponders (Page 59)" Impedance 50 വ Polarization Circular VSWR (standing wave ratio) x ETSI x ื 1.25 x FCC x ื 1.
Antennas 6.4 SIMATIC RF640A 6.4.
Antennas 6.4 SIMATIC RF640A 6.4.9 Approvals & certificates Table 6- 20 6GT2812-0GA08 Labeling Description Conformity with the RED directive 2014/53/EU Conformity with the RoHS directive 2011/65/EU Table 6- 21 6GT2812-0GA08 Labeling Description FCC CFR 47, Part 15 sections 15.247 Federal Communications Commission 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.
Antennas 6.5 SIMATIC RF642A 6.5 SIMATIC RF642A 6.5.1 Characteristics SIMATIC RF642A Characteristics Area of application The SIMATIC RF642A is a universal UHF antenna in a medium size with high range for industrial applications in production and logistics. Frequency range 865 to 928 MHz Read range Max.
Antennas 6.5 SIMATIC RF642A 6.5.2 Ordering data Table 6- 22 Ordering data RF642A Product Article numbe er SIMATIC RF642A 6GT2812-1GA08 Table 6- 23 Ordering data accessories Product Connecting cable between reader and antenna 6.5.3 Article number 1 m (cable loss 0.5 dB) 6GT2815-0BH10 3 m (cable loss 1.0 dB) 6GT2815-0BH30 5 m, suitable for drag chains (cable loss 1.5 dB) 6GT2815-2BH50 10 m (cable loss 2.0 dB) 6GT2815-1BN10 10 m (cable loss 4.
Antennas 6.5 SIMATIC RF642A 6.5.4 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, 3 m, 5 m, 10 m, 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 1 m), since this cable has the lowest cable loss.
Antennas 6.5 SIMATIC RF642A 6.5.4.1 Bending radii and bending cycles of the cable The following listed bending radii are minimum values, which may not be fallen below and are based on repeated bending. Table 6- 24 Bending radii of the antenna cable Cable designation Article number Length [m] Cable loss [dB] Bending radius [mm] Antenna cable 6GT2815-0BH10 1 0.5 51 Antenna cable 6GT2815-0BH30 3 1 51 Antenna cable 6GT2815-2BH50 (suitable for drag chains) 5 1.
Antennas 6.5 SIMATIC RF642A 6.5.5 Antenna parameter assignment 6.5.5.1 Alignment of transponders to the antenna Polarization axis Since the RF642A antenna has linear polarization, it is necessary to consider the alignment of the transponders with regard to the polarization axis of the antenna. The polarization axes of antenna and transponder must always be parallel. The symbol on the antenna indicates the polarization axis.
Antennas 6.5 SIMATIC RF642A Alignment The following diagram shows the optimum alignment of the RF600 transponders to the RF642A antenna.
Antennas 6.5 SIMATIC RF642A Angle deviation diagram for alignment The following diagram shows the dependence of the following factors.
Antennas 6.5 SIMATIC RF642A 6.5.5.2 RF642A parameter assignment Depending on the country or region in which the antenna is being operated, it is 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.
Antennas 6.
Antennas 6.5 SIMATIC RF642A 6.5.6 Antenna patterns 6.5.6.1 Antenna radiation patterns in the ETSI frequency band Directional radiation pattern ETSI The directional radiation pattern is shown for nominal alignment and a center frequency of 866.3 MHz. The nominal antenna alignment is given when the antenna elevation is provided as shown in the following figure. Figure 6-35 Reference system The half-power beam width of the antenna is defined by the angle between the two -3 dB points.
Antennas 6.
Antennas 6.5 SIMATIC RF642A 6.5.6.2 Antenna radiation patterns in the FCC frequency band Directional radiation pattern USA (FCC) The directional radiation pattern is shown for nominal alignment and a center frequency of 915 MHz. Figure 6-37 Reference system The half-power beam 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).
Antennas 6.
Antennas 6.5 SIMATIC RF642A 6.5.6.3 Interpretation of directional radiation patterns The following overview table will help you with the interpretation of directional 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 directional radiation patterns, and thus obtain information on the read/write range with this reference angle with regard to a transponder.
Antennas 6.5 SIMATIC RF642A 6.5.
Antennas 6.5 SIMATIC RF642A 6GT2812--1GA08 Interfaces Plug connection 30 cm coaxial cable with RP-TNC coupling (for connection of the antenna cable) Mechanical specifications Material PA 12 Color Pastel turquoise Tightening torque (at room temperature) ื 2 Nm Permitted ambient conditions Ambient temperature x During operation x -25 ... +75 °C x During transportation and storage x -40 ... +85 °C Degree of protection IP65 Shock resistant to EN 60068-2-27 25.
Antennas 6.5 SIMATIC RF642A 6.5.
Antennas 6.5 SIMATIC RF642A 6.5.9 Approvals & certificates Table 6- 26 6GT2812-1GA08 Labeling Description Conformity with the RED directive 2014/53/EU Conformity with the RoHS directive 2011/65/EU Table 6- 27 6GT2812-1GA08 Labeling Description FCC CFR 47, Part 15 sections 15.247 Federal Communications Commission 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.
Antennas 6.6 SIMATIC RF650A 6.6 SIMATIC RF650A 6.6.1 Characteristics SIMATIC RF650A Characteristics Area of application The SIMATIC RF650A is a universal UHF antenna in a medium size with medium range for industrial applications in production and logistics Frequency range 865 to 928 MHz Read range Max. 6 m Polarization Circular Degree of protection IP65 Mounting 4 x M4 (VESA 100 fixing system) Connector The antenna is connected directly to the housing with an RP-TNC coupling .
Antennas 6.6 SIMATIC RF650A 6.6.2 Ordering data Table 6- 28 Ordering data RF650A Product Article number SIMATIC RF650A 6GT2812-0GB08 Table 6- 29 Ordering data accessories Product Connecting cable between reader and antenna 6.6.3 Article number 1 m (cable loss 0.5 dB) 6GT2815-0BH10 3 m (cable loss 1.0 dB) 6GT2815-0BH30 5 m, suitable for drag chains (cable loss 1.5 dB) 6GT2815-2BH50 10 m (cable loss 2.0 dB) 6GT2815-1BN10 10 m (cable loss 4.
Antennas 6.6 SIMATIC RF650A 6.6.4 Connecting the antenna The SIMATIC RF650A antenna must be connected to the reader using an antenna cable. Preassembled standard cables in lengths of 1 m, 3 m, 5 m, 10 m, 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 1 m), since this cable has the lowest cable loss.
Antennas 6.6 SIMATIC RF650A 6.6.4.1 Bending radii and bending cycles of the cable The following listed bending radii are minimum values, which may not be fallen below and are based on repeated bending. Table 6- 30 6.6.5 Bending radii of the antenna cable Cable designation Article number Length [m] Cable loss [dB] Bending radius [mm] Antenna cable 6GT2815-0BH10 1 0.5 51 Antenna cable 6GT2815-0BH30 3 1 51 Antenna cable 6GT2815-2BH50 (suitable for drag chains) 5 1.
Antennas 6.6 SIMATIC RF650A Make the following settings to ensure that the maximum permitted radiated power of the antenna is not exceeded: Ⴠ Antenna gain: 4 dBi (7 dBic) Ⴠ Radiated power: ื 1300 mW ERP (or 31.15 dBm ERP) Converted into EIRP: ื 2140 mW EIRP (or 33.3 dBm EIRP) Ⴠ Use of cable loss associated with the antenna cable.
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: x 500 mW EIRP (or 27 dBm EIRP) for operation with RF650R (ARIB STD-T107) x 4000 mW EIRP (or 36 dBm EIRP) for operation with RF680R/RF685R (ARIB STD-T106) 6.6.6 Antenna patterns Transponder alignment The RF650A antenna has a circular antenna.
Antennas 6.6 SIMATIC RF650A 6.6.6.1 Antenna patterns in the ETSI frequency band Directional radiation pattern ETSI The directional radiation pattern is shown for nominal alignment and a center frequency of 866.3 MHz. The nominal antenna alignment is given when the antenna elevation is provided as shown in the following figure. Figure 6-42 Reference system The half-power beam width of the antenna is defined by the angle between the two -3 dB points.
Antennas 6.
Antennas 6.6 SIMATIC RF650A 6.6.6.2 Antenna patterns in the FCC frequency band Directional radiation pattern FCC The directional radiation pattern is shown for nominal alignment and a center frequency of 915 MHz. Figure 6-44 Reference system The half-power beam width of the antenna is defined by the angle between the two -3 dB points (corresponding to half the power in relation to the maximum power).
Antennas 6.
Antennas 6.6 SIMATIC RF650A 6.6.6.3 Interpretation of directional radiation patterns The following overview table will help you with the interpretation of directional 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 directional radiation patterns, and thus obtain information on the read/write range with this reference angle with regard to a transponder.
Antennas 6.6 SIMATIC RF650A 6.6.
Antennas 6.6 SIMATIC RF650A 6GT2812--0GB08 Electrical data Range See section "Maximum read/write ranges of transponders (Page 59)" Impedance 50 വ Polarization Circular VSWR (standing wave ratio) ื 1.45 Power ื2W Interfaces Plug connection RP-TNC coupling (for connection of the antenna cable) Mechanical specifications Material Pocan Color Pastel turquoise Tightening torque (at room temperature) ื 2 Nm Permitted ambient conditions Ambient temperature x During operation x -25 ...
Antennas 6.6 SIMATIC RF650A 6.6.
Antennas 6.6 SIMATIC RF650A 6.6.9 Approvals & certificates Table 6- 33 6GT2812-0GB08 Labeling Description Conformity with the RED directive 2014/53/EU Conformity with the RoHS directive 2011/65/EU Table 6- 34 6GT2812-0GB08 Labeling Description FCC CFR 47, Part 15 sections 15.
Antennas 6.7 SIMATIC RF660A 6.7 SIMATIC RF660A 6.7.1 Characteristics SIMATIC RF660A Characteristics Area of application The SIMATIC RF660A is a universal UHF antenna with high range for industrial applications in production and logistics. Frequency ranges x 865 to 868 MHz (RF660A FCC) x 902 to 928 MHz (RF660A FCC) Read range Max.
Antennas 6.7 SIMATIC RF660A 6.7.2 Ordering data Table 6- 35 Ordering data RF660A Product Article number SIMATIC RF660A (ETSI) 6GT2812-0AA00 SIMATIC RF660A (FCC) 6GT2812-0AA01 Table 6- 36 Ordering data accessories Product Connecting cable between reader and antenna 6.7.3 Article number 1 m (cable loss 0.5 dB) 6GT2815-0BH10 3 m (cable loss 1.0 dB) 6GT2815-0BH30 5 m, suitable for drag chains (cable loss 1.5 dB) 6GT2815-2BH50 10 m (cable loss 2.0 dB) 6GT2815-1BN10 10 m (cable loss 4.
Antennas 6.7 SIMATIC RF660A 6.7.4 Connecting the antenna The SIMATIC RF660A antenna must be connected to the reader using an antenna cable. Preassembled standard cables in lengths of 1 m, 3 m, 5 m, 10 m, 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.
Antennas 6.7 SIMATIC RF660A 6.7.5 Cable designation Article number Length [m] Cable loss [dB] Bending radius [mm] Antenna cable 6GT2815-0BN10 10 4 51 Antenna cable 6GT2815-2BN15 (suitable for drag chains) 15 4 45 1) 2) Antenna cable 6GT2815-0BN20 20 4 77 Antenna cable 6GT2815-0BN40 40 5 77 1) Permissible minimum bending radius with one-time bending.
Antennas 6.
Antennas 6.7 SIMATIC RF660A 6.7.6 Antenna patterns Spatial directional radiation pattern The following 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.
Antennas 6.7 SIMATIC RF660A 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 TNC connection on the antenna points vertically up or down. The radiating/receiving 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).
Antennas 6.7 SIMATIC RF660A USA (FCC) The radiation diagram is shown for horizontal alignment and for a center frequency of 915 MHz. The radiating/receiving 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/receiving angle is therefore approximately ±35 degrees.
Antennas 6.7 SIMATIC RF660A 6.7.
Antennas 6.7 SIMATIC RF660A 6GT2812--0AA0x Electrical data Range See section "Maximum read/write ranges of transponders (Page 59)" Impedance 50 വ Polarization Circular VSWR (standing wave ratio) ื2 Power ื2W Interfaces Plug connection RP-TNC coupling (for connection of the antenna cable) Mechanical specifications Material PA 12 Color Pastel turquoise Tightening torque (at room temperature) ื 2 Nm Permitted ambient conditions Ambient temperature x During operation x -25 ...
Antennas 6.7 SIMATIC RF660A 6.7.8 Dimension drawing Figure 6-51 Dimension drawing RF660A All dimensions in mm (± 0.
Antennas 6.7 SIMATIC RF660A 6.7.9 Approvals & certificates Table 6- 39 6GT2812-0AA00 Labeling Description Conformity with the RED directive 2014/53/EU Conformity with the RoHS directive 2011/65/EU Table 6- 40 6GT2812-0AA01 Labeling Description FCC CFR 47, Part 15 sections 15.247 Federal Communications Commission 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.
Antennas 6.8 SIMATIC RF680A 6.8 SIMATIC RF680A NOTICE Note on release The use of the adaptive antenna SIMATIC RF680A with the readers RF650R, RF680R and RF685R as of version V2.2.0 (supplied as of 03/2016) is possible. You will find the version on the type plate of the device. 6.8.1 Characteristics SIMATIC RF680A Characteristics Area of application The SIMATIC RF680A is an adaptive UHF antenna in a medium size with high range for industrial applications in production and logistics.
Antennas 6.8 SIMATIC RF680A 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 LED Display of operating statuses of the antenna 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; operational staus. The device is ready for operation but currently inactive.
Antennas 6.8 SIMATIC RF680A 6.8.2 Ordering data Table 6- 42 Ordering data RF680A Product Article number SIMATIC RF680A 6GT2812-2GB08 Table 6- 43 Ordering data accessories Product Connecting cable between reader and antenna 6.8.3 Article number 1 m (cable loss 0.5 dB) 6GT2815-0BH10 3 m (cable loss 1.0 dB) 6GT2815-0BH30 5 m, suitable for drag chains (cable loss 1.5 dB) 6GT2815-2BH50 10 m (cable loss 2.0 dB) 6GT2815-1BN10 10 m (cable loss 4.
Antennas 6.8 SIMATIC RF680A 6.8.4 Connecting the antenna The SIMATIC RF680A antenna must be connected to the reader using an antenna cable. Preassembled standard cables in lengths of 1 m, 3 m, 5 m, 10 m, 15 m, 20 m and 40 m are available to connect the antenna. NOTICE Connecting the antenna Do not connect the adaptive antenna RF680A during operation. Only connect the antenna to a reader that has been switched off and then restart the reader. The range of the antenna is limited by the cable loss.
Antennas 6.8 SIMATIC RF680A Strain relief To protect the antenna from strain, you can attach strain relief, e.g. in the form of a strain relief clamp. The following graphic shows the optimum mounting point for attaching strain relief. ཱ RF600 antenna cable Mounting point for strain relief Figure 6-52 6.8.4.1 Strain relief Bending radii and bending cycles of the cable The following listed bending radii are minimum values, which may not be fallen below and are based on repeated bending.
Antennas 6.8 SIMATIC RF680A 6.8.5 Cable designation Article number Length [m] Cable loss [dB] Bending radius [mm] Antenna cable 6GT2815-0BN20 20 4 77 Antenna cable 6GT2815-0BN40 40 5 77 1) 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 m are permitted.
Antennas 6.8 SIMATIC RF680A 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 RF680A antenna: x 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: Ⴠ Conducted power P (dBm) of the RF600 reader: < 30 dBm Ⴠ Antenna gain Gi (dBi) in the FCC frequency band: ื 3.
Antennas 6.8 SIMATIC RF680A 6.8.6 Antenna patterns Transponder alignment The antenna RF680A has an adjustable antenna (circular or linear horizontal or linear vertical). With a circular antenna the alignment of the 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 (horizontal/vertical) is unimportant. Make sure, however, that the transponder is aligned with the antenna.
Antennas 6.8 SIMATIC RF680A 6.8.6.1 Antenna patterns in the ETSI frequency band Directional radiation pattern ETSI The directional radiation pattern is shown for nominal alignment and a center frequency of 866.3 MHz. The nominal antenna alignment is given when the antenna elevation is provided as shown in the following figure. Figure 6-55 Reference system The half-power beam width of the antenna is defined by the angle between the two -3 dB points.
Antennas 6.
Antennas 6.
Antennas 6.
Antennas 6.8 SIMATIC RF680A 6.8.6.2 Antenna patterns in the FCC frequency band Directional radiation pattern FCC The directional radiation pattern is shown for nominal alignment and a center frequency of 915 MHz. Figure 6-59 Reference system The half-power beam width of the antenna is defined by the angle between the two -3 dB points (corresponding to half the power in relation to the maximum power).
Antennas 6.
Antennas 6.
Antennas 6.
Antennas 6.8 SIMATIC RF680A 6.8.6.3 Interpretation of directional radiation patterns The following overview table will help you with the interpretation of directional 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 directional radiation patterns, and thus obtain information on the read/write range with this reference angle with regard to a transponder.
Antennas 6.8 SIMATIC RF680A 6.8.
Antennas 6.8 SIMATIC RF680A 6GT2812--2GB08 Electricall data Range See section "Maximum read/write ranges of transponders (Page 59)" Impedance 50 വ Polarization Linear, circular (can be switched over) VSWR (standing wave ratio) ื 1.
Antennas 6.8 SIMATIC RF680A 6.8.
Antennas 6.8 SIMATIC RF680A 6.8.9 Approvals & certificates Table 6- 47 6GT2812-2GB08 Labeling Description Conformity with the RED directive 2014/53/EU Conformity with the RoHS directive 2011/65/EU Table 6- 48 6GT2812-2GB08 Labeling Description FCC CFR 47, Part 15 sections 15.247 Federal Communications Commission 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.
7 Transponder 7.1 Overview 7.1.1 Mode of operation of transponders The transponder mainly comprises a microchip with an integrated memory and a dipole antenna.
Transponder 7.1 Overview 7.1.2 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.
Transponder 7.1 Overview Presetting of the EPC memory of industrial Siemens transponders RF6xxT The first 12 bytes of the EPC memory ("0x00 - 0x0B") are preset. As of byte 13 ("0x0C") the EPC memory is not preset. Table 7- 1 Presetting of the EPC memory Address UID Address with FB (UID) Value 0x00 0xFF00 0x00 ... ... ...
Transponder 7.1 Overview 7.1.4 SIMATIC memory configuration of the RF600 transponders and labels Special memory configuration of the RF600 transponders and smartlabels Address spaces of the transponder versions With the RF600 readers, the user data, TID, EPC and passwords are read out via the relevant memory 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).
Transponder 7.1 Overview 7.1.5 Storage and transportation roll goods NOTICE Notes on storage and transportation of rolls Note the following information on the storage and transportation of rolls: x Protect the transponders from direct sunlight and heat (e.g. heating appliances). x Prior to use, store the label rolls in the polyethylene bag or the shrink film of the original packaging. x Store the label rolls in a cool and dry location.
Transponder 7.2 SIMATIC RF630L Smartlabel 7.2 SIMATIC RF630L Smartlabel 7.2.1 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 numerous possible uses for a wide range of applications and support efficient logistics throughout the process chain.
Transponder 7.2 SIMATIC RF630L Smartlabel Smartlabel SIMATIC RF630L (6GT2810--2AC82; 6GT2810--2AE8x) 6GT2810-2AC82 6GT2810-2AE80-0AX2 6GT2810-2AE81-0AX1 Product photo Area of application Simple identification such as barcode replacement or supplementation, through warehouse and distribution logistics, right up to product identification. EPC memory 16 bytes / 128 bits 12 ... 60 bytes / 96 ... 480 bits 1) 16 bytes / 128 bits User memory 16 bytes / 128 bits 16 ... 64 bytes / 128 ...
Transponder 7.
Transponder 7.
Transponder 7.2 SIMATIC RF630L Smartlabel Table 7- 5 Technical specifications of the transponder SIMATIC RF630L 6GT2810--2AB03 Product type designation 6GT2810--2AB04 SIMATIC RF630L Radio frequencies Operating frequency 860 to 960 MHz Memory Chip (manufacturer/type) NXP / G2XM Memory type EEPROM NXP / G2iM Memory configuration x EPC x 12 ... 30 bytes / 96 ...
Transponder 7.2 SIMATIC RF630L Smartlabel 6GT2810--2AB03 6GT2810--2AB04 Permitted ambient conditions Ambient temperature x In operation, during write/read access x -40 ... +65 °C x -20 ... +65 °C x In operation, outside write/read access x -40 ... +80 °C x -20 ... +85 °C x During transportation and storage x +15 ...
Transponder 7.
Transponder 7.2 SIMATIC RF630L Smartlabel 6GT2810--2AC82 Permitted ambient conditions Ambient temperature x In operation, during write/read access x -25 … +85 °C x In operation, outside write/read access x -25 ... +85 °C Special feature: 1 hour at +95 °C x During transportation and storage x +5 ...
Transponder 7.2 SIMATIC RF630L Smartlabel Table 7- 7 Technical specifications of the transponder SIMATIC RF630L 6GT2810--2AE80--0AX2 Product type designation 6GT2810--2AE81--0AX1 SIMATIC RF630L Radio frequencies Operating frequency 860 to 960 MHz Memory Chip (manufacturer/type) Alien / Higgs3 NXP / G2iL Memory type Memory configuration x EPC x 12 ... 60 bytes / 96 ... 480 bits 1) x 16 bytes / 128 bits x User memory x 16 ... 64 bytes / 128 ...
Transponder 7.2 SIMATIC RF630L Smartlabel 6GT2810--2AE80--0AX2 6GT2810--2AE81--0AX1 x Permitted ambient conditions Ambient temperature x In operation, during write/read access x -25 … +85 °C x In operation, outside write/read access x x -25 ... +85 °C Special feature: at +130 °C: Storage retention tested for 30 minutes x During transportation and storage x +5 ... +25 °C 3) -25 … +85 °C -25 ...
Transponder 7.2 SIMATIC RF630L Smartlabel 7.2.4 Dimension drawings All dimensions in [mm].
Transponder 7.
Transponder 7.
Transponder 7.2 SIMATIC RF630L Smartlabel Figure 7-10 7.2.5 Dimension drawing SIMATIC RF630L (6GT2810-2AE81-0AX1) Certificates and approvals Certificate Description Conformity with the RED directive 2014/53/EU Conformity with the RoHS directive 2011/65/EU Passive labels and transponders comply with the valid regulations; certification is not required.
Transponder 7.3 SIMATIC RF642L Smartlabel 7.3 SIMATIC RF642L Smartlabel 7.3.1 Features The SIMATIC RF642L-Smartlabel is a passive and maintenance-free data carrier. 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 of user memory. The SIMATIC RF642L is designed for direct mounting on metal surfaces. When used on non-metallic surfaces, the reading range can be reduced by up to 70 %.
Transponder 7.3 SIMATIC RF642L Smartlabel 7.3.
Transponder 7.3 SIMATIC RF642L Smartlabel 6GT2810--3ACx0 Permitted ambient conditions Ambient temperature x In operation, during write/read access x -20 to +85 °C x In operation, outside write/read access x -25 to +85 °C x During transportation and storage x +13 ...
Transponder 7.3 SIMATIC RF642L Smartlabel 7.3.
Transponder 7.4 SIMATIC RF690L Smartlabel 7.4 SIMATIC RF690L Smartlabel 7.4.1 Characteristics The SIMATIC RF690L High Temp Smartlabel is a passive and maintenance-free data carrier. It operates based on the UHF Class 1 Gen 2 technology and is used to store the "Electronic Product Code" (EPC). The transponder also has a user memory. The SIMATIC RF690L can also be mounted on metal.
Transponder 7.4 SIMATIC RF690L Smartlabel 7.4.3 Memory organization Transponders with an "Alien Higgs 3" chip have an EPC memory with a standard size of 96 Bits (12 bytes). When necessary, the EPC memory size can be expanded to 480 bits (60 bytes) in steps of 16 bits at the cost of the user memory. The following table shows how many bytes can be added to the EPC memory and how this affects the size of the user memory. Table 7- 11 Size of the EPC memory and effect on the user memory EPC memory 7.4.
Transponder 7.4 SIMATIC RF690L Smartlabel 6GT2810--2AGx0 Number of write cycles (< 40 °C) > 500 Number of read cycles (< 40 °C) > 1014 Data retention time (< 40 °C) 50 years Electrical data Range x Writing x ??? m x Reading x ื 5.
Transponder 7.4 SIMATIC RF690L Smartlabel 6GT2810--2AGx0 Design, dimensions and weight Dimensions (L x W x D) x ETSI x 88 × 25 × 1.6 mm x FCC x 75 × 25 × 1.6 mm Weight 5g The EPC memory has a default size of 96 bits. When necessary, the EPC memory size can be expanded to 480 bits in steps of 16 bits at the cost of the user memory. 1) The information relates to the maximum read range. You can find more information on ranges in the section "Minimum distances and maximum ranges (Page 55)".
Transponder 7.4 SIMATIC RF690L Smartlabel Figure 7-13 Dimension drawing RF690L (FCC, article number: 6GT2810-2AG10) All dimensions in mm 7.4.6 Certificates and approvals Certificate Description Conformity with the RED directive 2014/53/EU Conformity with the RoHS directive 2011/65/EU Passive labels and transponders comply with the valid regulations; certification is not required.
Transponder 7.5 SIMATIC RF610T 7.5 SIMATIC RF610T 7.5.1 Features 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 has a 512 bit user 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.
Transponder 7.5 SIMATIC RF610T Delivery format SIMATIC RF610T is supplied in the following form: Ⴠ 500 transponders per packaging unit Minimum order quantity: 1 packaging unit (500 units) 7.5.
Transponder 7.5 SIMATIC RF610T 6GT2810--2BB80 Mechanical specifications Material PVC Silicone-free Yes Color White Antenna material Aluminum Type of antenna Shortened dipole Printing Can be printed using heat transfer technique Permitted ambient conditions Ambient temperature x In operation, during write/read access x -25 ... +85 °C x In operation, outside write/read access x -40 ...
Transponder 7.5 SIMATIC RF610T 7.5.4 Dimension drawing Figure 7-14 Dimensional drawing of SIMATIC RF610T All dimensions in mm 7.5.5 Certificates and approvals Certificate Description Conformity with the RED directive 2014/53/EU Conformity with the RoHS directive 2011/65/EU Passive labels and transponders comply with the valid regulations; certification is not required. Federal Communications Commission This product is UL-certified for the USA and Canada.
Transponder 7.6 SIMATIC RF610T ATEX 7.6 SIMATIC RF610T ATEX 7.6.1 Features 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 bit user memory. The SIMATIC RF610T special variant ATEX provides numerous possible uses for a wide range of applications and allows efficient logistics throughout the entire process chain.
Transponder 7.6 SIMATIC RF610T ATEX 7.6.2 Ordering data Table 7- 15 Ordering data RF610T ATEX Product Article number SIMATIC RF610T ATEX 6GT2810-2BB80-0AX1 Delivery format SIMATIC RF610 T ATEX is supplied in the following form: Ⴠ 500 transponders per packaging unit Minimum order quantity: 1 packaging unit (1 000 units) NOTICE Approved use This device/system may only be used for the applications described in the catalog and the technical documentation "System manual SIMATIC RF600 (https://support.
Transponder 7.6 SIMATIC RF610T ATEX Identification and warning on the transponder Figure 7-15 Schematic representation of the SIMATIC RF610T ATEX transponder The labeling of the front of the transponder shown above is an example and can vary between batches produced at different times. This does not affect the hazardous area marking.
Transponder 7.6 SIMATIC RF610T ATEX 7.6.3.1 Use of the transponder in hazardous areas for gases Temperature class grading for gases with up to 2000 mW ERP The temperature class of the transponder for hazardous areas depends on the ambient temperature range.
Transponder 7.6 SIMATIC RF610T ATEX 7.6.3.2 Use of the transponder in hazardous areas for dusts The equipment is suitable for dusts whose ignition temperatures for a dust layer of 5 mm are higher than 210 °C (smoldering temperature). The ignition temperature specified here according to EN 60079-0: 2012 + A11: 2013 for ignition protection type ic in this case references the smoldering temperature of a layer of combustible flyings (ic IIIA) or alternatively non-conductive dusts (ic IIIB).
Transponder 7.6 SIMATIC RF610T ATEX 7.6.4 Technical specifications Table 7- 18 Technical specifications of the transponder SIMATIC RF610T special variant ATEX 6GT2810--2BB80--0AX1 Product type designation SIMATIC RF610T special variant ATEX Radio frequenciess Operating frequency x ETSI x 865 to 868 MHz x FCC x 902 to 928 MHz Memory Chip (manufacturer/type) NXP / G2XM Memory type EEPROM Memory configuration x EPC x 12 ... 30 bytes / 96 ...
Transponder 7.6 SIMATIC RF610T ATEX 6GT2810--2BB80--0AX1 Permitted ambient conditions Ambient temperature x In operation, during write/read access x -25 ... +85 °C x In operation, outside write/read access x -40 ...
Transponder 7.6 SIMATIC RF610T ATEX 7.6.5 Dimension drawing Figure 7-16 Dimension drawing SIMATIC RF610T (special variant ATEX) All dimensions in mm 7.6.6 Certificates and approvals Certificate Description Conformity with the ATEX directive 2014/34/EU based on: Conformity statement no. TÜV 11 ATEX 081778 X Conformity with the RED directive 2014/53/EU Conformity with the RoHS directive 2011/65/EU Passive labels and transponders comply with the valid regulations; certification is not required.
Transponder 7.7 SIMATIC RF620T 7.7 SIMATIC RF620T 7.7.1 Characteristics The SIMATIC RF620T Transponder is passive and maintenance-free, based on the UHF Class 1 Gen2 technology for storing the 96-bit/128-bit "electronic product code" (EPC). The transponder also has a 64-byte user memory. The container tag for industrial applications is rugged and highly resistant to detergents. It is designed for easy attachment onto plastic, wood, glass, e.g. containers, palettes, and trolleys.
Transponder 7.7 SIMATIC RF620T 7.7.2 Ordering data Table 7- 19 Ordering data RF620T Product Article number SIMATIC RF620T 6GT2810-2HC81 Spacer for SIMATIC RF620T 6GT2898-2AA00 Delivery format SIMATIC RF620T is supplied in the following form: Ⴠ 20 transponders per packaging unit Minimum order quantity: 1 packaging unit (20 units) 7.7.3 Planning the use 7.7.3.1 Range when mounted on flat metallic carrier plates The transponder generally has linear polarization.
Transponder 7.7 SIMATIC RF620T Table 7- 20 Range with metallic, flat carriers without spacers Carrie er material Range Metal plate at least 300 x 300 mm typically 40% Table 7- 21 Range with flat metallic carriers with spacers Carrier material Ran nge Metal plate at least 300 x 300 mm 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.
Transponder 7.7 SIMATIC RF620T 7.7.4 Technical specifications Table 7- 23 Technical specifications of the transponder SIMATIC RF620T 6GT2810--2HC81 Product type designation SIMATIC RF620T Radio frequencies Operating frequency x ETSI x 865 to 868 MHz x FCC x 902 to 928 MHz Memory Chip (manufacturer/type) IMPINJ / MONZA 4QT Memory type EEPROM Memory configuration x EPC x 12 ... 16 bytes / 96 ...
Transponder 7.7 SIMATIC RF620T 6GT2810--2HC81 Permitted ambient conditions Ambient temperature x In operation, during write/read access x -25 ... +85 °C x In operation, outside write/read access x -40 ...
Transponder 7.7 SIMATIC RF620T 7.7.5 Figure 7-18 Dimension drawing SIMATIC RF620T UHF container tag Units of measurement: All dimensions in mm Tolerances, unless indicated otherwise, are +-0.5 mm.
Transponder 7.7 SIMATIC RF620T 7.7.6 Certificates and approvals Table 7- 24 6GT2810-2HC00 - RF620T Certificate Description Conformity with the RED directive 2014/53/EU Conformity with the RoHS directive 2011/65/EU Table 7- 25 6GT2810-2HC80 - RF620T Certificate Description Passive labels or transponders comply with the valid regulations; certification is not required. Federal Communications Commission This product is UL-certified for the USA and Canada.
Transponder 7.8 SIMATIC RF625T 7.8 SIMATIC RF625T 7.8.1 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/128 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.
Transponder 7.8 SIMATIC RF625T 7.8.2 Ordering data Table 7- 26 Ordering data RF625T Product Article number SIMATIC RF625T (ETSI) 6GT2810-2EE00 SIMATIC RF625T (FCC) 6GT2810-2EE01 Delivery format SIMATIC RF625T is supplied in the following form: Ⴠ 10 transponders per packaging unit Minimum order quantity: 1 packaging unit (10 units) 7.8.3 Planning the use 7.8.3.
Transponder 7.8 SIMATIC RF625T 7.8.3.2 Range when mounted on flat metallic carrier plates The transponder generally has linear polarization. The polarization axis runs as shown in the diagram below. When using a circular antenna and when 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. When using a linear antenna, the polarization axes of antenna and transponder must always be aligned in parallel.
Transponder 7.8 SIMATIC RF625T 7.8.3.3 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 Table 7- 28 Range with non-metallic carriers Carrier material Range Transponder on wooden carrier approx. 60% Transponder on plastic carrier approx. 65 % Transponder on plastic mineral water bottle approx. 70% Transponder without base approx.
Transponder 7.8 SIMATIC RF625T 7.8.4 Technical specifications Table 7- 29 Technical specifications of the transponder SIMATIC RF625T 6GT2810--2EE0x Product type designation SIMATIC RF625T Radio frequencies Operating frequency x ETSI x 865 to 868 MHz x FCC x 902 ... 928 MHz 1) Memory Chip (manufacturer/type) IMPINJ / MONZA 4QT Memory type EEPROM Memory configuration x EPC x 12 ... 16 bytes / 96 ...
Transponder 7.8 SIMATIC RF625T 6GT2810--2EE0x Permitted ambient conditions Ambient temperature x In operation, during write/read access x -25 ... +85 °C x In operation, outside write/read access x -40 ...
Transponder 7.8 SIMATIC RF625T 7.8.5 Dimension drawing Figure 7-22 SIMATIC RF625T UHF Disk Tag Units of measurement: All dimensions in mm 7.8.
Transponder 7.9 SIMATIC RF630T 7.9 SIMATIC RF630T 7.9.1 Characteristics The SIMATIC RF630T transponder is a passive (i.e. battery-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. Areas of application include the mounting of metallic components (e.g.
Transponder 7.9 SIMATIC RF630T 7.9.2 Ordering data Table 7- 32 Ordering data RF630T Product Article number SIMATIC RF630T (ETSI) 6GT2810-2EC00 SIMATIC RF630T (FCC) 6GT2810-2EC10 Delivery format SIMATIC RF630T is supplied in the following form: Ⴠ 10 transponders per packaging unit Minimum order quantity: 1 packaging unit (10 units) 7.9.3 Planning application 7.9.3.
Transponder 7.9 SIMATIC RF630T Application example ཱ ི ཱི Antenna Object made of metal (e.g.
Transponder 7.9 SIMATIC RF630T 7.9.3.2 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 or circular, it can be aligned in any direction since the transmitting and receiving RF660A antennas operate with circular polarization.
Transponder 7.9 SIMATIC RF630T 7.9.4 Technical specifications Table 7- 34 Technical specifications of the transponder SIMATIC RF630T 6GT2810--2EC0x Product type designation SIMATIC RF630T Radio frequencies Operating frequency x ETSI x 865 to 868 MHz x FCC x 902 ... 928 MHz 1) Memory Chip (manufacturer/type) NXP / G2XM Memory type EEPROM Memory configuration x EPC x 12 ... 30 bytes / 96 ...
Transponder 7.9 SIMATIC RF630T 6GT2810--2EC0x Permitted ambient conditions Ambient temperature x In operation, during write/read access x -25 ... +85 °C x In operation, outside write/read access x -40 ...
Transponder 7.9 SIMATIC RF630T 7.9.5 Figure 7-25 Dimension drawing SIMATIC RF630T Units of measurement: All dimensions in mm General tolerances in accordance with DIN ISO 2768f.
Transponder 7.9 SIMATIC RF630T 7.9.6 Certificates and approvals Table 7- 35 6GT2810-2EC00 - RF630T Certificate Descripttion Conformity with the RED directive 2014/53/EU Conformity with the RoHS directive 2011/65/EU Table 7- 36 6GT2810-2EC10 - RF630T Standard Passive labels and transponders comply with the valid regulations; certification is not required. Federal Communications Commission This product is UL-certified for the USA and Canada.
Transponder 7.10 SIMATIC RF640T 7.10 SIMATIC RF640T 7.10.1 Characteristics SIMATIC RF640T transponder is a passive (i.e. battery-free) and maintenance-free, roundshaped 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.
Transponder 7.10 SIMATIC RF640T 7.10.2 Ordering data Table 7- 37 RF640T ordering data Product Article number SIMATIC RF640T (ETSI) 6GT2810-2DC00 SIMATIC RF640T (FCC) 6GT2810-2DC10 Delivery format SIMATIC RF640T is supplied in the following form: Ⴠ 10 transponders per packaging unit Minimum order quantity: 1 packaging unit (10 units) 7.10.3 Planning the use 7.10.3.
Transponder 7.10 SIMATIC RF640T 7.10.3.2 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 or circular, it can be aligned in any direction since the transmitting and receiving RF660A antennas operate with circular polarization.
Transponder 7.10 SIMATIC RF640T 7.10.3.3 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 Table 7- 39 Range with non-metallic carriers Carrier material Range Transponder on wooden carrier approx. 40% Transponder on plastic carrier approx. 35% Transponder on plastic mineral water bottle approx. 55% Transponder without base approx.
Transponder 7.10 SIMATIC RF640T 7.10.3.5 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 does not affect the hazardous area marking.
Transponder 7.10 SIMATIC RF640T 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 frequency band cannot exceed the value 100 mW, the temperature class assignment is as follows: Ambient temperature ran nge Temperature class -25 °C to +85 °C T5 -25 °C ...
Transponder 7.10 SIMATIC RF640T Figure 7-28 7.10.3.6 Maximum permitted ambient temperature depending on the radiated power Use of the transponder in hazardous areas for dusts The equipment is suitable for dusts whose ignition temperatures for a dust layer of 5 mm are higher than 210 °C (smoldering temperature).
Transponder 7.
Transponder 7.10 SIMATIC RF640T WARNING Ignitions of dust--air 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 the maximum temperature value of 135 °C. Non-compliance with the permitted temperature ranges while using the transponder can lead to ignitions of dust-air mixtures.
Transponder 7.10 SIMATIC RF640T 7.10.4 Technical specifications Table 7- 40 Technical specifications of the transponder SIMATIC RF640T 6GT2810--2DC0x Product type designation SIMATIC RF640T Radio frequencies Operating frequency x ETSI x 865 to 868 MHz x FCC x 902 ... 928 MHz 1) Memory Chip (manufacturer/type) NXP / G2XM Memory type EEPROM Memory configuration x EPC x 12 ... 30 bytes / 96 ...
Transponder 7.10 SIMATIC RF640T 6GT2810--2DC0x Permitted ambient conditions Ambient temperature x In operation, during write/read access x -25 ... +85 °C 3) x In operation, outside write/read access x -40 ...
Transponder 7.10 SIMATIC RF640T WARNING Ignitions of gas--air or dust--air mixtures When using the RF640T transponder, check to ensure that the temperature values are observed in respect of the requirements of the hazardous area of application. Non-compliance with the permitted temperature ranges while using the transponder can lead to ignitions of gas-air or dust-air mixtures.
Transponder 7.10 SIMATIC RF640T 7.10.
Transponder 7.10 SIMATIC RF640T 7.10.6 Certificates and approvals Table 7- 41 6GT2810-2DC00 - RF640T Certificate Description Conformity with the RED directive 2014/53/EU Conformity with the RoHS directive 2011/65/EU Conformity with the ATEX directive 2014/34/EU Table 7- 42 6GT2810-2DC10 - RF640T Standard Passive labels or transponders comply with the valid regulations; certification is not required. Federal Communications Commission This product is UL-certified for the USA and Canada.
Transponder 7.11 SIMATIC RF645T 7.11 SIMATIC RF645T 7.11.1 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 1 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.
Transponder 7.11 SIMATIC RF645T Delivery format The SIMATIC RF645T is supplied in the following form: Ⴠ 20 transponders per packaging unit Minimum order quantity: 1 packaging unit (20 units) The mounting cover for SIMATIC RF645T is supplied in the following form: Ⴠ Minimum order quantity: 1 packaging unit (20 units) The retaining bracket for SIMATIC RF645T is supplied in the following form: Ⴠ Minimum order quantity: 1 packaging unit (20 units) 7.11.
Transponder 7.11 SIMATIC RF645T 6GT2810--2HC05 Mechanical specifications Material Plastic (ABS) Silicone-free Yes Color Black Antenna material Aluminum Printing No Permitted ambie ent conditions Ambient temperature x In operation, during write/read access x -40 ... +85 °C x In operation, outside write/read access x -40 ... +85 °C x During transportation and storage x -40 ...
Transponder 7.11 SIMATIC RF645T 7.11.
Transponder 7.
Transponder 7.11 SIMATIC RF645T Figure 7-33 7.11.5 Dimension drawing (6GT2898-5AB00) for SIMATIC RF645T Certificates and approvals Table 7- 45 Certificates and approvals Labeling Description Conformity with the RED directive 2014/53/EU Conformity with the RoHS directive 2011/65/EU Passive labels and transponders comply with the valid regulations; certification is not required.
Transponder 7.12 SIMATIC RF680T 7.12 SIMATIC RF680T 7.12.1 Characteristics The heat-resistant SIMATIC RF680T 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 as applications in production logistics.
Transponder 7.12 SIMATIC RF680T 7.12.2 Ordering data Table 7- 46 Ordering data RF680T Product Article number SIMATIC RF680T 6GT2810-2HG80 Delivery format SIMATIC RF680T is supplied in the following form: Ⴠ 10 transponders per packaging unit Minimum order quantity: 1 packaging unit (10 units) 7.12.3 Planning the use 7.12.3.
Transponder 7.12 SIMATIC RF680T 7.12.3.2 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 circular polarization (such as the RF660A).
Transponder 7.12 SIMATIC RF680T 7.12.3.4 Use of the transponder in the hazardous area TÜV 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 compliance with the essential health and safety requirements relating to the design and construction of equipment and protective systems intended for use in hazardous areas as per Annex II of the Directive.
Transponder 7.12 SIMATIC RF680T 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 does not 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 hazardous area.
Transponder 7.12 SIMATIC RF680T Temperature class assignment for gases and a radiated power less than 500 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 frequency band cannot exceed the value 500 mW, the temperature class assignment is as follows: Ambient temperature ran nge Temperature class -25 °C ... +220 °C T2 -25 °C ... +173 °C T3 -25 °C ... +108 °C T4 -25 °C ... +73 °C T5 -25 °C ...
Transponder 7.12 SIMATIC RF680T Temperature class assignment for gases and a radiated power of 10 mW to 2000 mW ERP If the radiated power of an 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.
Transponder 7.12 SIMATIC RF680T 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 5 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 flyings (ib IIIA) or alternatively nonconductive dusts (ib IIIB).
Transponder 7.
Transponder 7.
Transponder 7.12 SIMATIC RF680T 7.12.4 Technical specifications Table 7- 48 Technical specifications of the transponder SIMATIC RF680T 6GT2810--2HG80 Product type designation SIMATIC RF680T Radio frequencies Operating frequency x ETSI x 865 to 868 MHz x FCC x 902 ... 928 MHz 1) Memory Chip (manufacturer/type) NXP / G2XM Memory type EEPROM Memory configuration x EPC x 12 ... 30 bytes / 96 ...
Transponder 7.12 SIMATIC RF680T 6GT2810--2HG80 Permitted ambient conditions Ambient temperature x In operation, during write/read access x -25 … +100 °C, permanent Special features: +100 ... +140 °C, 20 % reduction of the limit distance As of +140 °C, no processing possible Up to +200 °C, tested up to 5000 hours or 3000 cycles Up to +220 °C, tested up to 2000 hours or 1500 cycles x In operation, outside write/read access x -40 ...
Transponder 7.12 SIMATIC RF680T 7.12.5 Dimension drawing Figure 7-38 Dimension drawing of SIMATIC RF680T All dimensions in mm Tolerances unless indicated otherwise ±0.5 mm.
Transponder 7.12 SIMATIC RF680T 7.12.6 Certificates and approvals Table 7- 49 6GT2810-2HG80 - RF680T Certificate Description Conformity with the RED directive 2014/53/EU Conformity with the RoHS directive 2011/65/EU Conformity with the ATEX directive 2014/34/EU Table 7- 50 6GT2810-2HG80 - RF680T Standard Passive labels or transponders comply with the valid regulations; certification is not required. Federal Communications Commission This product is UL-certified for the USA and Canada.
Transponder 7.13 SIMATIC RF682T 7.13 SIMATIC RF682T 7.13.1 Characteristics The heat-proof SIMATIC RF682T is a passive and maintenance-free data carrier. The RF682T operates based on 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.
Transponder 7.13 SIMATIC RF682T 7.13.2 Ordering data Table 7- 51 Ordering data Article number SIMATIC RF682T 6GT2810-3HG80 Mounting set for SIMATIC RF68xT (2x bracket) 6GT2890-2AA00 Delivery format The SIMATIC RF682T is available in the following form: Ⴠ 10 transponders per packaging unit Minimum order quantity: 1 packaging unit The mounting set for SIMATIC RF682T is available in the following form: Ⴠ 10 mounting sets per packaging unit Minimum order quantity: 1 packaging unit 7.13.
Transponder 7.13 SIMATIC RF682T 7.13.3.2 Note on installation NOTICE Reduction of the write/read range When mounting on metal or conductive material, ensure that the space below the transponder remains empty.
Transponder 7.13 SIMATIC RF682T On rectangular carrier plates, the range depends on the mounting orientation of the transponder. 7.13.
Transponder 7.13 SIMATIC RF682T 6GT2810--3HG80 Permitted ambient conditions Ambient temperature x In operation, during write/read access x -25 to +100 °C permanently Special features: As of +140 °C, no processing possible x In operation, outside write/read access x -40 to +220 °C Special features: Up to 220 °C Tested up to 250 hours or 500 cycles x During transportation and storage x -40 ...
Transponder 7.13 SIMATIC RF682T 7.13.5 Dimension drawing Figure 7-41 Figure 7-42 Dimension drawing of SIMATIC RF682T Dimension drawing mounting for SIMATIC RF68xT All dimensions in mm Tolerances unless indicated otherwise ±0.5 mm.
Transponder 7.13 SIMATIC RF682T 7.13.6 Certificates and approvals Table 7- 53 Certificates and approvals Labeling Description Conformity with the RED directive 2014/53/EU Conformity with the RoHS directive 2011/65/EU Passive labels and transponders comply with the valid regulations; certification is not required.
Transponder 7.
8 Integration into networks 8.1 Overview of parameterization of RF600 reader The parameter assignment possibilities that are available to you for each reader of the RF600 family are outlined below.
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 If you want to create your own applications for the RF600 readers, you can do this using the XML-based demo application of the reader. You can find information on XML commands in the configuration manual "SIMATIC RF600".
Integration into networks 8.3 Integration in control networks Example configurations The following configuration graphics show as an example how the RF600 readers can be connected to SIMATIC controllers.
Integration into networks 8.
System diagnostics 9.1 9 Diagnostics via the LED displays of the reader Please note that only the RF680R/RF685R readers have LED status display. RF610R/RF615R/RF650R readers have a "PRESENCE" display instead. With the help of the LED displays, you can read out the status and the error messages of the RF680R/RF685R readers. 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.
System diagnostics 9.1 Diagnostics via the LED displays of the reader ཱ LED status display (ST1 - ST9) - RF680R/RF685R only LED operating display x RUN/STOP (R/S) Shows whether the reader is ready for operation. x ERROR (ER) Indicates whether an error has occurred. x MAINTENANCE (MAINT) - only with RF610R/RF615R/RF680R/ RF685R Shows whether the reader needs maintenance. x POWER (PWR) Shows whether the reader is supplied with power.
System diagnostics 9.1 Diagnostics via the LED displays of the reader Functions of the "PRE" LED (RF610R/RF615R/RF650R) Ⴠ Display of RF activity 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).
System diagnostics 9.1 Diagnostics via the LED displays of the reader Functions of the LED status display (RF680R/RF685R) With the LED operating display, you can read out the various operating statuses of the readers. The LED status display of the RF680R and RF685R readers has several functions. Among other things, the status display provides the following functions: Ⴠ Startup of the reader The startup process of the reader is displayed by a status bar lit yellow.
System diagnostics 9.1 Diagnostics via the LED displays of the reader 9.1.1 How the LED status display works Note that the RF610R/RF615R/RF650R readers do not have an LED status display. The LED status display displays the error messages of the RF680R/RF685R readers. ཱ LED status display (ST1 - ST9) LED operating display Figure 9-2 LED displays of the RF680R/RF685R readers Error messages are indicated by red flashing status LEDs and the red flashing "ER" LED.
System diagnostics 9.1 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 colors green, red or yellow and the statuses off , on , flashing : Table 9- 1 Display of operating statuses R/S ER MAINT1) PRE2) Meaning The device is turned off. The device is starting up. -- -- The device is ready for operation.
System diagnostics 9.2 XML/PLC error messages 9.2 XML/PLC error messages Note that if there are error messages, the 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 RF685R readers as described in the section "How the LED status display works (Page 471)". The following table explains the XML/PLC error codes.
System diagnostics 9.2 XML/PLC error messages "ER" LED XML/ LED (hex) PLC block (hex) Error description 2 Hz 0xA4 0xE2FE84 The selected antenna is not enabled. 2 Hz 0xA5 0xE2FE85 The selected frequency is not enabled. 2 Hz 0xA6 0xE2FE86 The carrier signal is not activated. 2 Hz 0xA7 0xE2FE87 There is more than one transponder in the transmission window.
System diagnostics 9.2 XML/PLC error messages "ER" LED XML/ LED (hex) PLC block (hex) Error description 2 Hz 0xC1 0xE4FE81 The specified tag field of the transponder is unknown. 2 Hz 0xCA 0xE4FE8A General error 2 Hz 0xCB 0xE4FE8B No or bad configuration data/parameters were transferred. Possible cause: -- 0xCC 0xE4FE8C x You are accessing a read point that is not configured. x Communication error between Ident profile and communications module. Handshake error.
System diagnostics 9.
System diagnostics 9.2 XML/PLC error messages "ER" LED XML/ LED (hex) PLC block (hex) Error description 2 Hz 0x63 0xE6FE03 x 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 to be taken: x – Check the parameters in the Ident profile. – Check the relevant XML command. – Check the parameter assignment in HW Config / STEP 7 (TIA Portal).
System diagnostics 9.2 XML/PLC error messages "ER" LED XML/ LED (hex) PLC block (hex) Error description -- 0x65 0xE6FE05 An error has occurred that makes a Reset_Reader ("WRITE-CONFIG" with "Config = 3") necessary. Possible causes / action to be taken: x The "WRITE-CONFIG" command is incorrect. x After eliminating the error, execute an "INIT". x Check the "IID_HW_CONNECT" parameter. -- 0x66 0xE6FE06 The reset timer has expired. 2 Hz 0xE1 0xE6FE81 A parameter is missing.
System diagnostics 9.2 XML/PLC error messages "ER" LED XML/ LED (hex) PLC block (hex) Error description -- 0x97 0xE7FE09 Command repetition is not supported. -- 0x7A 0xE7FE0A Error during the transfer of the PDU (Protocol Data Unit). "--" means that the error is not displayed by the LEDs.
System diagnostics 9.
10 Accessories 10.1 Wide-range power supply unit for SIMATIC RF systems 10.1.1 Features The wide range power supply unit for SIMATIC RF systems is a primary switched device for supplying power and for use on single phase AC systems. The two DC outputs (sockets) are connected in parallel and protected by a built-in voltage limiting circuit against overload and short-circuits. The device is vacuum-cast and prepared for Safety Class I applications.
Accessories 10.1 Wide-range power supply unit for SIMATIC RF systems 10.1.
Accessories 10.1 Wide-range power supply unit for SIMATIC RF systems 10.1.4 Safety Information WARNING Danger to life It is not permitted to open the device or to modify the device. The following must also be taken into account: x Failure to observe this requirement shall constitute a revocation of the CE approval, UL certification for the US and Canada as well as the manufacturer's warranty.
Accessories 10.1 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 components with third-party RFID devices are not permitted. Failure to observe this requirement shall constitute a revocation of the radio equipment approvals, CE approval and manufacturer's warranty.
Accessories 10.1 Wide-range power supply unit for SIMATIC RF systems 10.1.5 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.
Accessories 10.1 Wide-range power supply unit for SIMATIC RF systems The wide-range power supply unit (protection class I, degree of protection IP67) has four mounting holes for securing the device. Installation instructions The power supply unit must be connected with the described connecting cables in the primary and secondary circuits. The connectors at the power supply unit end may only be removed or inserted when no voltage is applied.
Accessories 10.1 Wide-range power supply unit for SIMATIC RF systems Grounding connection For 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 mm². This will ensure that any faults occurring on the shielding can be dissipated as well as possible.
Accessories 10.1 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 Assignment Table 10- 5 1 Ground (0 V) 2 +24 VDC 3 +24 VDC 4 Ground (0 V) Pin assignment of the mains connector Assignment 10.1.
Accessories 10.1 Wide-range power supply unit for SIMATIC RF systems 6GT2898--0ACx0 Mechanical specifications Housing x x Material Color x Polyamide, glass-fiber reinforced x Casting compound: Polyurethane x Black Housing classification UL94-V0 MTBF in years 255 Permitted ambient conditions Ambient temperature x During operation x -25 … +70 °C x During transportation and storage x -40 … +85 °C Self-heating on full-load max. 45 K Surface temperature Max. +81.
Accessories 10.1 Wide-range power supply unit for SIMATIC RF systems 6GT2898--0ACx0 Design, dimensions and weightss Dimensions (L × W × H) x Without plug x 140 × 85 × 35 mm x With plug x 172.7 × 85 × 35 mm Weight 720 g Technical specifications of the input Rated input voltage Uin 100 to 240 VAC Input frequency fin 50/60 Hz Radio interference level EN 55011/B Switching frequency fsw approx. 70 kHz typ. Connector type 7/8", 2-pin + PE 6 ...
Accessories 10.1 Wide-range power supply unit for SIMATIC RF systems Table 10- 7 Output configurations Input Outputs U1 = U2 ILoad = I1 + I2 Efficiency (%) Remarks 110 VAC 24 VDC 0A -- No-load protection 110 VAC 24 VDC 3A ุ 88 -- 220 VAC 24 VDC 0A -- No-load protection 220 VAC 24 VDC 3A ุ 90 -- All values are measured at full-load and at an ambient temperature of 25 °C (unless specified otherwise). 10.1.
Accessories 10.1 Wide-range power supply unit for SIMATIC RF systems 10.1.9 Certificates and approvals Table 10- 8 Marking Approvals for wide-range power supply unit for SIMATIC RF systems (Europe, UK): 6GT2898-0AC00, 6GT2898-0AC10 Description CE approval acc.
Accessories 10.1 Wide-range power supply unit for SIMATIC RF systems Engineering Conditions of Acceptability For use only in or with complete equipment where the acceptability of the combination is determined by ULLLC. When installed in an end-product, consideration must be given to the following: Ⴠ Reference temperatures on the unit enclosure were measured during heating test. The max obtained temperature with condition C at Enclosure I was 81.5 °C.
Accessories 10.2 Power splitter for RF600 systems 10.2 Power splitter for RF600 systems 10.2.1 Characteristics Using the power splitter, two antennas can be connected to one antenna connector of a reader. The power fed in at the input (S) is split over two outputs (1, 2).
Accessories 10.2 Power splitter for RF600 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 RF650A antennas. Figure 10-2 Example of a configuration with an RF600 system with a power splitter The link between the reader and the power splitter (3.2 dB attenuation) is via a cable 1 m in length (0.5 dB cable attenuation). Cables with a length of 5 m (1.
Accessories 10.2 Power splitter for RF600 systems 6GT2890--0BC00 Connector (input/outputs) RP-TNC plug Mechanical specifications Housing x Material x Aluminum x Color x Silver Permitted ambient conditions Ambient temperature x During operation x -40 … +85 °C x During transportation and storage x -40 … +100 °C Degree of protection to EN 60529 IP40 Design, dimensions and weights Dimensions (L × W × H) x Without plug x 50.8 × 50.8 × 19.05 mm x With plug x 74.7 × 50.8 × 19.
Accessories 10.3 Reader and antenna holders 10.3 Reader and antenna holders 10.3.1 Overview The following read points (readers and antennas) have a standardized VESA 100 mounting system (4 x M4) and can be secured with a SIMATIC antenna holder: Ⴠ SIMATIC RF610R, RF615R, RF650R, RF680R, RF685R Ⴠ SIMATIC RF640A, RF642A, RF650A, RF660A, RF680A 10.3.2 Ordering data Table 10- 13 Ordering data for SIMATIC antenna holder 10.3.
Accessories 10.
Accessories 10.3 Reader and antenna holders 10.3.
Accessories 10.
Accessories 10.3 Reader and antenna holders Figure 10-7 Section A-A All dimensions in mm.
Accessories 10.
A Appendix A.1 Certificates & approvals All the latest RFID radio approvals are available on the Internet (http://www.siemens.com/rfid-approvals). Labeling Description Conformity acc. to the RED EU directive Notes on CE marking The following applies to the system described in this documentation: The CE mark on a device indicates the corresponding approval.
Appendix A.1 Certificates & approvals Labeling Description UL recognition mark Canadian Standard Association (CSA) according to the standard C22.2. No. 60950 (LR 81690) or acc. 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. FCC CFR 47, Part 15 sections 15.
Appendix A.1 Certificates & approvals EMC USA 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. Radio Frequency Interference These limits are designed to provide reasonable protection against harmful interference when the equipment is operated in a commercial Statement environment.
Appendix A.2 Service & support A.2 Service & support Industry Online Support In addition to the product documentation, the comprehensive online information platform of Siemens Industry Online Support at the following Internet address: Link 1: (https://support.industry.siemens.com/cs/de/en/) Apart from news, there you will also find: Ⴠ Project information: Manuals, FAQs, downloads, application examples etc. Ⴠ Contacts, Technical Forum Ⴠ The option submitting a support query: link 2: (https://support.