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Siemens SIMATIC RF640A, System Manual

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Siemens SIMATIC RF640A System Manual Download Page 427

 

Transponder 

 

7.14 SIMATIC RF680T 

SIMATIC RF600 
System Manual, 11/2018, J31069-D0171-U001-A21-7618 

427

 

7.14

 

SIMATIC RF680T 

7.14.1

 

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. Depending on the temperatures at which it is used, 

the lifetime of the transponder is limited. 
The RF680T is rugged and suitable for industrial applications with IP68/IPX9K degree of 

protection. It is highly resistant to oil, grease and cleaning agents.  
The SIMATIC RF680T is mounted directly onto metal carriers to ensure optimum functioning. 

 

SIMATIC RF680T 

Characteristics 

 

Area of application 

Applications with high temperatures (up to +220 

°C). Suitable for use in hazardous areas. 
Typical areas of application: 

 

Paint shops and their preparatory treatments, 

incl. drying ovens 

 

Electrophoretic deposition area 

 

Primer coat incl. drying oven 

 

Top coat area incl. drying oven 

 

Washing areas at temperatures > 85 °C 

Frequency range 

 

ETSI: 865 to 868 MHz 

 

FCC: 902 to 928 MHz 

Air interface 

According to ISO 18000-63 

Polarization  

Linear 

Temperature range 

up to 220 °C 

Memory 

 

EPC: 96 ... 240 bits 

 

User memory: 64 bytes 

Read range 

Max. 5 m 

1)

 

Mounting 

2 x M6 screws 

Mounting 

Designed for direct mounting on conductive mate-

rials (preferably metal). 

 

1)

  Depending on the environment, the reader/the antennas and the set power 

Summary of Contents for SIMATIC RF640A

Page 1: ...___ ___________________ ___________________ ___________________ SIMATIC Ident RFID systems SIMATIC RF600 System Manual 11 2018 J31069 D0171 U001 A21 7618 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 10 Appendix A ...

Page 2: ...only by personnel qualified for the specific task in accordance with the relevant documentation in particular its warning notices and safety instructions Qualified personnel are those who based on their training and experience are capable of identifying risks and avoiding potential hazards when working with these products systems Proper use of Siemens products Note the following WARNING Siemens pr...

Page 3: ...3 4 2 1 Intralogistics scenario 34 4 2 2 Scenario for workpiece identification 36 4 2 3 Goods tracking scenario 37 4 2 4 Scenario incoming goods distribution of goods and outgoing goods 38 4 3 Antenna configurations 39 4 3 1 Antenna configuration example 40 4 3 2 Possibilities and application areas for antenna configurations 41 4 3 3 Transponder orientation in space 45 4 3 4 Specified minimum and ...

Page 4: ... 1 Readers 69 4 7 1 1 Overview of the readers and their housing materials 69 4 7 1 2 Pocan CF2200 70 4 7 2 Transponder 72 4 7 2 1 Overview of the transponders and their housing materials 72 4 7 2 2 Acrylonitrile butadiene styrene ABS 73 4 7 2 3 Polyamide 12 PA12 74 4 7 2 4 Polyamide 6 6 PA 6 6 76 4 7 2 5 Polyamide 6 6 GF PA 6 6 GF 77 4 7 2 6 Polyethylene terephthalate PET 78 4 7 2 7 Polypropylene ...

Page 5: ...t of the Industrial Ethernet interface X1 P1 129 5 3 1 7 Grounding connection 129 5 3 2 Planning operation 130 5 3 2 1 Antenna read point configurations 130 5 3 3 Installation mounting 131 5 3 4 Configuration integration 135 5 3 5 Technical specifications 136 5 3 6 Dimension drawing 139 5 3 7 Certificates and approvals 140 5 3 7 1 FCC information 142 5 3 7 2 IC FCB information 143 5 4 SIMATIC RF68...

Page 6: ... 6 SIMATIC RF650M 203 5 6 1 Description 203 5 6 2 Field of application and features 203 6 Antennas 205 6 1 Overview 205 6 2 SIMATIC RF615A 207 6 2 1 Characteristics 207 6 2 2 Ordering data 208 6 2 3 Mounting 208 6 2 4 Connecting the antenna 209 6 2 5 Antenna parameter assignment 210 6 2 6 Antenna patterns 212 6 2 6 1 Alignment of transponders to the antenna 212 6 2 6 2 Antenna pattern ETSI 215 6 2...

Page 7: ... the antenna 268 6 5 5 Antenna parameter assignment 270 6 5 5 1 Alignment of transponders to the antenna 270 6 5 5 2 RF642A parameter assignment 273 6 5 6 Antenna patterns 275 6 5 6 1 Antenna radiation patterns in the ETSI frequency band 275 6 5 6 2 Antenna radiation patterns in the FCC frequency band 277 6 5 6 3 Interpretation of directional radiation patterns 279 6 5 7 Technical data 280 6 5 8 D...

Page 8: ...3 Electronic Product Code EPC 334 7 1 4 SIMATIC memory configuration of the RF600 transponders and labels 336 7 1 5 Minimum distances and maximum ranges 337 7 1 5 1 Configurations of antenna and transponder 337 7 1 5 2 Effects of the materials of the mounting surfaces on the range 341 7 1 5 3 Maximum read write ranges of transponders 341 7 1 5 4 Minimum distances between antennas and transponders ...

Page 9: ...ficates and approvals 380 7 8 SIMATIC RF620T 381 7 8 1 Characteristics 381 7 8 2 Ordering data 382 7 8 3 Planning the use 382 7 8 3 1 Range when mounted on flat metallic carrier plates 382 7 8 3 2 Range when mounted on non metallic carrier materials 383 7 8 4 Technical specifications 384 7 8 5 Dimension drawing 386 7 8 6 Certificates and approvals 387 7 9 SIMATIC RF622T 388 7 9 1 Features 388 7 9 ...

Page 10: ...hnical specifications 416 7 12 5 Dimension drawing 419 7 12 6 Certificates and approvals 420 7 13 SIMATIC RF645T 421 7 13 1 Characteristics 421 7 13 2 Ordering data 421 7 13 3 Technical specifications 422 7 13 4 Dimension drawing 424 7 13 5 Certificates and approvals 426 7 14 SIMATIC RF680T 427 7 14 1 Characteristics 427 7 14 2 Ordering data 428 7 14 3 Planning the use 428 7 14 3 1 Optimum antenna...

Page 11: ...0 1 Wide range power supply unit for SIMATIC RF systems 463 10 1 1 Features 463 10 1 2 Scope of supply 463 10 1 3 Ordering data 464 10 1 4 Safety Information 465 10 1 5 Mounting connecting 466 10 1 6 Pin assignment of DC outputs and mains connection 469 10 1 7 Technical specifications 470 10 1 8 Dimension drawing 473 10 1 9 Certificates and approvals 474 10 2 Power splitter for RF600 systems 476 1...

Page 12: ...Table of contents SIMATIC RF600 12 System Manual 11 2018 J31069 D0171 U001 A21 7618 ...

Page 13: ...ns of the SIMATIC RF600 system and describes the state of delivery as of 11 2018 If you are using older firmware versions please refer to the 08 2011 edition of the documentation Registered trademarks SIMATIC SIMATIC RF MOBY RF MANAGER and SIMATIC Sensors are registered trademarks of Siemens AG Recycling and disposal The products are low in harmful substances can be recycled and meet the requireme...

Page 14: ...nded edition RF615A antenna RF645T RF682T transponders 11 2018 19th revised and extended edition Expansion of the documentation by the following SIMATIC RF615R Declaration of conformity The EC declaration of conformity and the corresponding documentation are made available to authorities in accordance with EC directives Your sales representative can provide these on request Observance of installat...

Page 15: ...0 V 240 V devices This means that only safety extra low voltage SELV with a limited power source LPS complying with IEC 60950 1 EN 60950 1 VDE 0805 1 may be connected to the power supply terminals or the power supply unit for the equipment power supply must comply with NEC Class 2 according to the National Electrical Code r ANSI NFPA 70 There is an additional requirement if devices are operated wi...

Page 16: ...exceeded Overvoltage protection NOTICE Protection of the external 24 VDC voltage supply If the module is supplied via extensive 24 V supply lines or networks interference by strong electromagnetic pulses on the supply lines is possible e g from lightning or the switching of large loads The connector for the 24 VDC external power supply is not protected against strong electromagnetic pulses Make su...

Page 17: ...n 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 Antenna or reader Protected area indoors grounding is not necessary here Protected area outdoors grounding is not ne...

Page 18: ...a holistic state of the art industrial security concept Siemens products and solutions constitute one element of such a concept Customers are responsible for preventing unauthorized access to their plants systems machines and networks Such systems machines and components should only be connected to an enterprise network or the internet if and to the extent such a connection is necessary and only w...

Page 19: ...nufacturer s guarantee are invalidated Modifications to the SIMATIC RF600 system NOTICE Damage to the system If you install unsuitable or unapproved extensions 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 sui...

Page 20: ...le to be briefly or constantly within the transmission range of the antennas as in loading ramps for example minimum distances must be maintained Limits The ICRP International Commission of Radiological Protection has worked out limit values for human exposure to HF fields that are also recommended by the ICNIRP International Commission of Non Ionizing Radiological Protection In German legislation...

Page 21: ...izontal line at 41 25 V m marks the safety limit value For the maximum permitted transmit power 1 r2 in accordance with ETSI 2 W ERP the safety distance is d 0 24 m This means that personnel should not remain closer than 24 cm to the transmitter antenna for extended periods for several hours without interruption Remaining within the vicinity of the antenna for a brief period even for repeated peri...

Page 22: ...nds on the antenna cable and the antenna used but must not exceed 2 W ERP The SIMATIC RF685R ETSI reader has a maximum radiated power of 2 W ERP The safety clearance is therefore at least 0 24 m When using Siemens products and with suitable configuration via the WBM the high limits cannot be exceeded 2 3 3 Minimum distance to antenna in accordance with FCC USA Minimum distance to antenna in accord...

Page 23: ...educed maximum radiated power with RF600 readers The SIMATIC RF615R FCC reader has 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 FCC 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 4 W EIRP The SIMATIC...

Page 24: ...Safety Information 2 3 Safety distance to transmitter antenna SIMATIC RF600 24 System Manual 11 2018 J31069 D0171 U001 A21 7618 ...

Page 25: ...stem 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 Figure 3 1 System overview SIMATIC RF600 with RF650R RF680R RF685R ...

Page 26: ...t arises in the automation environment control level and the logistic and commercial processes 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 ...

Page 27: ...ed via Ethernet with the XML protocol or OPC UA It has 4 connectors for external antennas SIMATIC RF680R The RF680R reader is suitable for applications in production logistics and distribution It is integrated for distribution via Ethernet with the XML protocol or OPC UA For integration in production logistics PROFINET Ethernet IP or PROFIBUS are available As an alternative integration can also be...

Page 28: ...MATIC RF615A and RF620A SIMATIC RF615A and RF620A are linear antennas with a very compact design suitable for industry They are suitable for UHF transponders with normal far field antenna characteris tics SIMATIC RF640A The SIMATIC RF640A is a circular antenna of medium size for universal applications for example material flow and logistics systems SIMATIC RF642A SIMATIC RF642A is a linear antenna...

Page 29: ...a flexible card suitable for numerous applications The transponders RF620T RF625T RF630T RF640T and RF645T are designed specially for industrial requirements They are very rugged and highly resistant to detergents The RF640T can also be mounted directly on metal The transponder RF622T with its 4 KB of FRAM memory is particularly suitable for storing larger amounts of data The transponders RF680T a...

Page 30: ...x antenna connector for external antennas Internal antenna 1 m External antenna 3 m Ethernet OPC UA PROFINET RF650R 4 x antenna connectors for external antennas 8 m Ethernet OPC UA RF680R 4 x antenna connectors for external antennas 8 m Ethernet Ethernet IP OPC UA PROFINET and PROFIBUS RF685R 1 x internal antenna 1 x antenna connector for external antennas Internal antenna 7 m External antenna 8 m...

Page 31: ... to 928 MHz CMIIT 920 to 925 MHz Read write distance 3 m Standards ISO 18000 63 Table 3 5 Characteristics of the transponders Version Transponders Smartlabels Designation Standards supported Smartlabel RF630L RF640L RF690L ISO 18000 62 ISO 18000 63 ISO card Container tag Container tag Disc tag Powertrain tag Tool tag Heat resistant tag RF610T RF620T RF622T RF625T RF630T RF640T Gen 2 RF680T ISO 180...

Page 32: ...System overview of SIMATIC RF600 3 3 Features SIMATIC RF600 32 System Manual 11 2018 J31069 D0171 U001 A21 7618 ...

Page 33: ...tives 4 2 Possible system configurations The SIMATIC RF600 system is characterized by a high level of standardization of its components This means that the system follows the TIA principle throughout Totally Integrated Automation It provides maximum transparency at all levels with its reduced number of interfaces This ensures optimum interaction between all system components The RF600 system with ...

Page 34: ...f 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 m...

Page 35: ... SIMATIC RF630L The conveyor belt has a maximum width of approximately 80 cm in this example The maximum transport speed of the conveyor belt is 2 m s In this scenario a SIMATIC RF615A with a SIMATIC RF615A external antenna is used as the reader With the RF615R a reader combining multiple advantages is used In addition to its compact design this low cost reader is also characterized by low cabling...

Page 36: ...atures of the scenario Transponders are attached to workpiece holders Their spatial orientation is always identical With this arrangement only a single transponder needs to be detected each time single tag The SIMATIC RF685R reader reads the information from the transponders with its integrated antenna or the external antenna RF680A and transfers it to the SIMATIC S7 controller Depending on the st...

Page 37: ...ght indicates whether the goods may leave the warehouse Figure 4 4 Scenario Goods tracking Features of the scenario In this example scenario the export of goods from a warehouse is checked using the SIMATIC RF650R reader and four SIMATIC RF650A antennas connected to it A sensor registers when a vehicle passes the gate and reports this to the higher level system which then triggers a read operation...

Page 38: ... pallets are processed in the factory and then exit the factory through the outgoing goods gate Figure 4 5 Scenario Incoming goods distribution of goods and outgoing goods 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 diffe...

Page 39: ...ader there is a check to make sure that the correct pallets for the specific receiver are available at the outgoing goods gate Light barriers are installed to control the reader Depending on the read results of the reader the outgoing portal opens or it remains closed 4 3 Antenna configurations Note Validity of antenna configuration The following information about the antenna configuration only ap...

Page 40: ...on 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 Figure 4 6 Example of an antenna configuration with three ant...

Page 41: ...be connected to the RF650R and F680R readers while one external antenna can be connected to the RF615 and RF685R readers The RF615R and RF685R readers also have an internal antenna Antenna configuration 1 Description application areas This arrangement of antennas is appro priate when the transponders to be read are only located on one side of the goods to be acquired for example if a conveyor belt...

Page 42: ...de 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 Transponder Antenna configuration 3 Description application areas Preferred for the identification of goods at loading gates The transponder is located in the radiation field of two an tennas for reliable transponder reading the height of the transponders abo...

Page 43: ... Similar to configuration 2 but with additional reading reliability when the transponder is at an angle to the vertical Transponder Antenna configuration 5 Description application areas Preferred for the identification of goods at loading gates The transponder is located in the radiation field of all four antennas so the transponder position for reliable tag identification is more flexible than in...

Page 44: ...ocations so the transponder position is not critical Transponder Antenna configuration 7 Description application areas This tunnel configuration is suitable for conveyor belt applications The goods with the transponders to be read are moving forwards on a conveyor belt but the alignment of the transponders rela tive to the antennas is not clearly de fined One of the antenna is located on the floor...

Page 45: ...er 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 tran sponders is at a maximum Vertical transponder alignment Minimal reading range The probability of identification of the tran sp...

Page 46: ...ng 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 Figure 4 7 Minimum distance to the environment ...

Page 47: ...ck to back B Pointing at each other C Next to each other Figure 4 8 Antenna spacing for different readers antennas and identical frequencies Table 4 1 Antenna alignment and minimum antenna spacing Antenna configuration Antenna alignment Minimum distance D RF615R with internal antenna RF685R with internal antenna RF600 reader with RF615A RF620A A Back to back 1 0 m 0 3 m 1 0 m B Pointing at each ot...

Page 48: ...660A antennas The electrical aperture angles vertical and horizontal of the RF660A antenna are identical with the RF640A RF642A antennas they are similar Therefore the robustness of the readers access to transponder data cannot be optimized for the RF660A and with the RF640A RF642A it can be optimized only to a limited extent by rotating around the antenna axis 4 3 6 Read and write range The read ...

Page 49: ...ranged at a certain distance from the antenna depend on the following The radiated power Only reading or reading and writing of the transponders writing requires more power typically double the pow er The aperture angle horizontal The aperture angle vertical You will find detailed information about the reading range of the individual readers in the Technical specifications in the sections for the ...

Page 50: ...ity If several readers are to be operated simultaneously in an environment then the following settings affect the reliability of the reader s access to transponder data Electromagnetic environment see section The response of electromagnetic waves in the UHF band Page 55 Type of transponder see section Transponder Page 333 Number of transponders to be detected by an antenna at a time Type of antenn...

Page 51: ...lti channel operation without it only single channel operation is possible In this mode the reader pauses for 100 ms after each 4 s transmission period to comply with the standard 4 3 9 Guidelines for selecting RFID UHF antennas 4 3 9 1 Note safety information WARNING Before planning how to use third party components as the operator of a system that comprises both RF600 components and third party ...

Page 52: ...otal SIMATIC RF600 system and its influencing factors In the following graphic you can see the design of a SIMATIC RF600 reader with connected antenna and the influencing factors The influencing factors affect the radiated power output Radiated power transmit power influencing factors You must be aware of these influencing factors and also consider them if you wish to integrate components such as ...

Page 53: ...eing used from a drop down list quickly and easily and the values and their effect on the transmit radiated power are calculated directly With third party products you can enter the relevant values manually Based on the entered products values the WBM calculates the permitted radiated power and makes sure that this is not exceeded 4 3 9 4 Types of antenna In principle all types of directional ante...

Page 54: ... calculation aids for their types of cable which usually include the transmitter and receiver frequencies as well as the cable length Therefore contact your cable vendor in order to determine the appropriate type of cable using the approximate value referred to above Notes on use Shielding of the antenna cable Coaxial antenna cables generally have a shielded design and therefore radiate little of ...

Page 55: ...ction Transponder Page 333 or ask the relevant transponder manufacturer 4 5 The response of electromagnetic waves in the UHF band 4 5 1 The effect of reflections and interference Reflections and interference Electromagnetic waves in the UHF band behave and propagate in a similar manner to light waves that is they are reflected from large objects such as ceilings floors walls and windows and interf...

Page 56: ...enna and transponder Influence of metal on transponders Normally transponders must not be mounted directly on metallic surfaces The transponders designed specifically for use in metallic environments are an exception to this e g RF690L RF620T RF625T RF630T RF640T RF680T Due to the nature of the electromagnetic field a minimum distance must be maintained between the transponder antenna and conducti...

Page 57: ...nce of external components The RED guideline and the relevant standards govern the electromagnetic compatibility requirements This also concerns the third party components of the RF600 system Even though requirements for electromagnetic compatibility are defined various components will still interfere with each other The performance of the RF600 system is highly dependent on the electromagnetic en...

Page 58: ...ms in UHF technology there is full propagation of the radio waves just as in other wireless systems radio TV etc There are both magnetic and electrical field components present The following graphic shows the structure of a UHF system One characteristic is the design of the transponder that differs greatly from the structure used in HF systems e g the use of a dipole or helix antenna Figure 4 11 S...

Page 59: ... Overshoots and field gaps due to obliteration of two waves These are caused by reflection and the resulting propagation on different paths comparable with fading effects on the car radio e g noise when the vehicle is standing Generation of overshoots due to reflecting objects and surfaces This can be illustrated by comparing it with a hall of mirrors The signal transmitted by the reader is reflec...

Page 60: ...ved power deteriorates Polarization axes parallel approx 100 range Polarization axis turned through 45 approx 50 range Polarization axis turned through 90 approx 10 range Figure 4 13 Effect of the polarization axes on the write read distance with linear antennas Linear antennas can only be used if the alignment of the transponder is defined On the other hand one advantage of linear antennas is tha...

Page 61: ...of the container Possible configuration RF615R with integrated internal antenna and a compact external antenna e g RF615A RF620A RFID gate at the incoming goods outgoing goods department Several transponders are located on different packaging of products on a pallet These need to be identified when passing through the RFID gate Possible configuration RF650R with four circular antennas e g RF650A R...

Page 62: ... This increases process reliability in plants particularly when there is a high reader density Decoupling third party RFID systems If you are using different RFID systems make sure that no two systems are active at the same time or operate separately from each other Ideally there should be no mixed usage Training Make sure that the engineers commissioning the UHF RFID systems are adequately traine...

Page 63: ...ad point 2 Align the reader or the antenna so that its front points in the direction of the object transponder to be identified Keep to the minimum distances between antennas and transponders to avoid antenna errors When using linear antennas make sure the polarization direction is correct 3 In the Settings Adjust antenna menu item select the connected antenna and click the Start adjustment button...

Page 64: ...ent of the transponder varies it is advisable to combine several antenna polarization types or to select a circular polarization 5 Optimize the antenna adjustment until the maximum possible RSSI value is reached 6 Secure the antenna Note that the RSSI value depends on the following components transponder used antenna used Polarization reflecting and absorbent materials in the vicinity of the anten...

Page 65: ...the Accept power box with 2 dB added Note Optimizing the radiated power The value entered automatically in the Accept power box corresponds to the minimum value with which the transponder was identified by the antenna Min power plus a power reserve of 2 dB This value serves as a guideline and you can adapt it To be sure that the antenna reliably detects the transponders regularly we recommend that...

Page 66: ...input attenuation Use of UHF algorithms Changing the antenna position Shielding measures Varying the antenna polarization Use antennas with a lower gain Use antennas with adjustable polarization Lack of separation of transponders Transponders positioned close together are detected together although the application logic requires individual detection for example to determine the positioning order A...

Page 67: ...ile phones can also disturb identification This is the case if a reader of the type FCC or CMIIT is operated in Europe Solution approaches The disturbances can be eliminated by temporarily turning off the suspected source of interference or its shielding Interference can also occur with devices in other frequency bands if these are located in the immediate vicinity of the RFID antenna e g DECT tel...

Page 68: ... causes overload of the radio channels In this case enable the Intermissions function in the Settings General menu item to improve read reliability Varying the antenna polarization By using linear or circular antennas you can reduce field obliteration This improves the reader reliability in difficult radio conditions The RF685R and RF680 readers also provide the option of operating the internal or...

Page 69: ...llowing table provides you with an overview of the housing materials that are used with the RF600 readers Individual part of the reader Housing material of the reader Top cover Pocan CF2200 The chemical resistance of this plastic is listed in section CF2200 Bottom cover RF615R Pocan CF2200 RF650R RF680R RF685R Aluminum Fiber optic cable Makrolon 2405 Decorative membrane 1 Autotex V200 Socket 1 Bra...

Page 70: ... Alcohols Ethyl alcohol Isopropyl alcohol Phenol Glycol Glycerine Alkalis Sodium hydroxide 10 Ammonia solution Diluted Halogens Bromine Chlorine Ketones Acetone Methyl ethyl ketone MEK General silicone oils Hydrocarbons n hexane Gasoline super aromatic contents Heating oil Benzine aromatic contents Benzene Naphthalene Nitrobenzene Toluene Oils greases Soya oil Olive oil Butter Motor oils HD hydrau...

Page 71: ...ts Salt solutions Sodium hypochloride Sea water Acids Hydrochloric acid 20 Nitric acid 2 Phosphoric acid 30 Sulfuric acid 2 80 Lactic acid 10 Acetic acid 10 Oleic acid Silicone oils General silicone oils Other substances Diethyl ether Urea Trichlorethylene Nitrobenzene Hydrogen peroxide 30 Explanation of the rating Resistant Practically resistant Conditionally resistant Less resistant Not resistan...

Page 72: ...housing materials of the transponders Table 4 6 Overview of the housing materials of the transponders Housing material Transponder Acrylonitrile butadiene styrene ABS RF645T Polyamide 12 PA12 RF622T RF640T Polyamide 6 6 PA 6 6 RF625T Polyamide 6 6 GF PA 6 6 GF RF630T Polyethylene terephthalate PET RF640L RF690L Polypropylene PP RF620T Polyphenylene sulfide PPS RF680T RF682T Polyvinyl chloride PVC ...

Page 73: ...Resistance to chemicals ABS Substance Test conditions Evaluation Concentration Temperature C Acetone Alcohols Gasoline Aliphatic hydrocarbons Aromatic hydrocarbons Weak alkaline solutions Strong alkaline solutions Weak mineral acids Strong mineral acids Perchloroethylene Mineral lubricants Oxidizing acids Weak organic acids Strong organic acids Trichloroethylene UV light and weathering Hot water h...

Page 74: ...8 Chemical resistance Polyamide 12 Substance Test conditions Evaluation Concentration Temperature C Battery acid 30 20 Ammonia gaseous 60 Ammonia w conc 60 10 60 Benzene 20 60 Bleach solution 12 5 effective chlo rine 20 Butane gas liquid 60 Butyl acetate acetic acid butyl ester 60 n n 20 60 Calcium chloride w 20 60 Calcium nitrate w c s 20 c s 60 Chlorine 20 Chrome baths tech 20 Iron salts w c s 6...

Page 75: ... s 60 Sodium chloride w c s 60 Sodium hydroxide 60 Nickel salts w c s 60 Nitrobenzene 20 60 Phosphoric acid 10 20 Propane 60 Mercury 60 Nitric acid 10 20 Hydrochloric acid 10 20 Sulfur dioxide low 60 Sulfuric acid 25 20 10 20 Hydrogen sulfide low 60 Carbon tetrachloride 60 Toluene 20 60 Detergent high 60 Plasticizer 60 Explanation of the rating Resistant Practically resistant Conditionally resista...

Page 76: ...e g oil grease diesel fuel gasoline which are not listed separately Table 4 9 Resistance to chemicals PA 6 6 Substance Test conditions Evaluation Concentration Temperature C Acetone Alcohols Gasoline Aliphatic hydrocarbons Aromatic hydrocarbons Weak alkaline solutions Strong alkaline solutions Weak mineral acids Strong mineral acids Perchloroethylene Mineral lubricants Oxidizing acids Weak organic...

Page 77: ...ce to chemicals PA 6 6 GF Substance Test conditions Evaluation Concentration Temperature C Ammonia w conc 60 20 60 Benzene 60 Bleach solution 12 5 effective chlo rine 60 Butane gas liquid 20 1 Butyl acetate acetic acid butyl ester 20 1 Calcium chloride saturated 10 solution 20 60 Chlorine 20 Chrome baths tech 20 Iron salts w c s 20 Acetic acid w 10 20 10 60 Ethyl alcohol w undenaturated 40 20 Form...

Page 78: ... resistant Not resistant conc Concentrated solution w Water solution c s Cold saturated 4 7 2 6 Polyethylene terephthalate PET The following table provides an overview of the chemical resistance of the transponder made of polyethylene terephthalate Table 4 11 Chemical resistance polyethylene terephthalate Substance Test conditions Evaluation Concentration Temperature C Acetone 100 20 60 60 Formic ...

Page 79: ...n 11 20 Fruit juices 20 Glycerine 60 Heptane 100 20 Potassium dichromate 10 20 Potassium permanganate 10 20 Copper sulfate 10 20 Methanol 100 20 Methyl ethyl ketone 100 20 Milk 20 Lactic acid 10 20 Sodium chloride 10 80 Antichlor 10 20 Paraffin oil 60 Perchloroethylene 100 20 Petroleum 80 Phenol 30 20 Propanol diluted 20 Nitric acid 40 20 36 20 Hydrochloric acid 100 20 Carbon disulfide 98 20 Sulfu...

Page 80: ... The following table provides an overview of the chemical resistance of the transponder made of polyethylene terephthalate Table 4 12 Chemical resistance polypropylene Substance Test conditions Evaluation Concentration Temperature C Emissions alkaline containing hydrogen fluoride carbon dioxide low 50 C Emissions containing hydrochloric acid 50 C Emissions containing sulfuric acid 20 50 C Battery ...

Page 81: ...ic acid w 10 50 C Brake fluid 50 C Bromine 20 Butane gas liquid technically clean 50 C Butyl acetate acetic acid butyl ester 20 50 C Calcium chloride w alcoholic 20 50 C Calcium chloride 50 C Calcium nitrate w 50 C 50 50 C Chlorine 20 Chloroacetic acid 50 C Chloric acid 20 20 20 50 C Chrome baths tech 20 Chromium salts 50 C Chromic acid 10 50 C 20 50 50 C Chromosulfuric acid conc 20 Citric acid 10...

Page 82: ...tassium hydroxide 10 50 50 C Silicic acid any 50 C Common salt 50 C Carbonic acid saturated 50 C LYSOL 50 C Magnesium salts w c s 50 C Magnesium salts any 50 C Machine oil 100 20 Sea water 50 C Methanol 50 C Methyl alcohol w 50 50 C Lactic acid w 50 C Lactic acid 3 85 20 3 85 50 C 80 50 C Engine oil 20 Sodium carbonate w soda c s 50 C Sodium carbonate 50 C Sodium chloride w c s 50 C Sodium hydroxi...

Page 83: ...oride 100 50 C Ammonium chloride w 50 C Nitric acid 20 50 20 1 10 50 C Hydrochloric acid 1 5 20 50 C 35 20 35 50 C conc 50 C Sulfur dioxide low 50 C moist 20 moist 50 C liquid 50 C Sulfuric acid 1 6 40 80 50 C 20 20 20 50 C 60 20 60 50 C 95 20 95 50 C fuming 20 Hydrogen sulfide low saturated 50 C Detergent high 50 C Water 50 C Hydrogen technically clean 50 C Plasticizer 20 50 C Explanation of the ...

Page 84: ...oric acid HCl and nitric acid HNO3 at 80 C The plastic housings are resistant to all types of fuel including methanol Table 4 13 Chemical resistance polyphenylene sulfide PPS Substance Test conditions Evaluation Concentration Temperature C Acetone 55 n butanol butyl alcohol 80 Butanone 2 methyl ethyl ketone 60 n butyl acetate 80 Brake fluid 80 Calcium chloride saturated 80 Diesel fuel 80 Diethyl e...

Page 85: ...resistant Not resistant 4 7 2 9 Polyvinyl chloride PVC The following table provides an overview of the chemical resistance of the transponder made of polyvinyl chloride PVC Table 4 14 Chemical resistance polyvinyl chloride PVC Substance Test conditions Evaluation Concentration Temperature C Salt water 5 Sugared water 10 Acetic acid w 5 Sodium carbonate w 5 Ethyl alcohol w 60 Ethylene glycol 50 Fue...

Page 86: ...f SIMATIC RFID systems http www siemens com rfid approvals 4 9 Guidelines for electromagnetic compatibility EMC 4 9 1 Overview These EMC directives answer the following questions Why are EMC directives necessary What types of external interference have an impact on the system How can interference be prevented How can interference be eliminated Examples of interference free plant design The descrip...

Page 87: ...gnetic disturbances Degree of interference emission Emission of interference and its effect on the electrical environment All three areas are considered when testing an electrical device The RFID modules are tested for conformity with the limit values required by the CE and RED directives Since the RFID modules are merely components of an overall system and sources of interference can arise as a r...

Page 88: ...al grounding point Don t forget to include the shielding bus in the chassis ground system That means the actual shielding busbars must be connected to ground by large area contact Aluminium parts are not suitable for ground connections Plan the cable installation Break the cabling down into cable groups and install these separately Always route power cables signal cables and HF cables through sepa...

Page 89: ...nk Figure 4 16 Propagation of interference If one of the components is missing e g the coupling path between the interference source and the interference sink the interference sink is unaffected even if the interference source is transmitting a high level of noise The EMC measures are applied to all three components in order to prevent malfunctions due to interference When setting up a plant the m...

Page 90: ...lectronic valves Contacts System disturbances Coils Magnetic field Electrical motor Collector Electrical field Winding Magnetic field Electric welding device Contacts Electrical field Transformer Magnetic field system disturbance transient currents Power supply unit switched mode Circuit Electrical and magnetic field system disturbance High frequency appliances Circuit Electromagnetic field Transm...

Page 91: ...ng the effects of metal 4 9 5 Equipotential bonding Potential differences between different parts of a plant can arise due to the different design of the plant components and different voltage levels If the plant components are connected across signal cables transient currents flow across the signal cables These transient currents can corrupt the signals Proper equipotential bonding is thus essent...

Page 92: ...e of differences in potential 4 9 6 Cable shielding Signal cables must be shielded in order to prevent coupling of interference The best shielding is achieved by installing the cables in steel tubes However this is only necessary if the signal cable is routed through an environment prone to particular interference It is usually adequate to use cables with braided shields In either case however cor...

Page 93: ...situated as close as possible to the cable inlet The cable insulation must be removed and the cable clamped to the shielding bus high frequency clamp or secured using cable ties Care should be taken to ensure that the connection allows good conductance Figure 4 19 Connection of shielding bus The shielding bus must be connected to the PE busbar If shielded cables have to be interrupted the shield m...

Page 94: ...m Manual 11 2018 J31069 D0171 U001 A21 7618 Figure 4 20 Interruption of shielded cables If intermediate connectors which do not have a suitable shield connection are used the shield must be continued by fixing cable clamps at the point of interruption This ensures a large area HF conducting contact ...

Page 95: ...ternal antennas 1 1 Ethernet 1 x M12 connector 4 pin 1 x RJ45 connector 8 pin according to IEC PAS 61076 3 117 2 x M12 connector 4 pin PROFINET RS 422 1 x plug M12 8 pin 1 1 x plug M12 8 pin 1 Digital inputs 1 x M12 4 pin log 0 0 7 V log 1 15 24 V 4 x M12 12 pin log 0 0 7 V log 1 15 24 V Digital outputs short circuit proof 1 x M12 4 pin 4 x M12 12 pin Power supply 24 V DC M12 8 pin 20 30 V 0 3 A e...

Page 96: ...s 100 Mbps 100 Mbps or 115 2 kbps Max transmission speed reader transponder 80 kbps Max transmission speed transponder reader 400 kbps 1 Connection of the readers to the ASM 456 communications module 2 Internal antenna 3 With a profile with a Tx transmission seed of 80 kbps Tari 12 5 us the transmit power is 1 W 4 A transmission speed of 10 Mbps is not supported Note License requirement for ARIB S...

Page 97: ...ate antennas and antenna cables are used The interfaces Ethernet power supply DI DQ interface are located on the lower front edge These interfaces can be used to connect the reader to the power supply and a PC for parameter assignment The degree of protection is IP65 Pos Description RP TNC interface for connection of an external antenna PRESENCE LED PRE LED operating display RS422 interface 1 for ...

Page 98: ...RF600 devices 6GT2890 2AB10 Connecting cable and connectors DI DQ connector for a 5 pin cable 3RK1902 4BA00 5AA0 Ethernet cable M12 M12 5 m 6XV1870 8AH50 Ethernet connector on reader M12 d coded IP65 6GK1901 0DB20 6AA0 Ethernet plug Standard IE FastConnect RJ45 Plug 180 IP20 6GK1901 1BB10 2AA0 Ethernet cable by the meter green minimum 20 m 6XV1840 2AH10 Wide range power supply unit for SIMATIC RF ...

Page 99: ...I DQ interface is supplied by means of an external power source the power source must comply with requirements on limited power sources LPS and NEC Class 2 Requirement for external power sources If the DI DQ interface is supplied by an external power source the power source must comply with requirements on limited power sources LPS and NEC Class 2 Spécification des sources de tension externes En c...

Page 100: ...ent at 20 C 0 33 A at 55 C and electronically protected The output is electrically isolated via optocoupler Input DI The input is set up with electrical isolation via optocoupler Level Low 0 7 V High 15 24 V Sampling rate 20 ms The following diagrams illustrate various connection possibilities Note Minimum time between changes Note that changes on the I O interface that are not applied for at leas...

Page 101: ...1 Voltage infeed from external source with various voltages Figure 5 2 Circuit example 3 Digital input Voltage infeed from external source Figure 5 3 Circuit example 4 Digital output Voltage infeed from an external source is shown here for 12 V as an example Other voltages are also permissible ...

Page 102: ...der is operated via Ethernet Note Requirement for external power sources The reader must only be supplied with power by power supply units that meet the requirements of LPS Limited Power Source and NEC Class 2 Requirement for external power sources The reader must only be supplied with power by power supply units that meet the requirements of limited power source LPS and NEC Class 2 Spécification ...

Page 103: ...ICE Insulate unused single wires Unused single wires must be insulated individually to prevent unwanted connections of signal lines NOTICE For long cables Adapt the power supply and transmission speed Note that even 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 cabl...

Page 104: ...5R has a 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 In order to prevent a transponder channel overlappi...

Page 105: ...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 Figure 5 4 Reference system ...

Page 106: ...06 System Manual 11 2018 J31069 D0171 U001 A21 7618 Radiation diagram ETSI Pattern of the vertical plane of the antenna Pattern of the horizontal plane of the antenna Figure 5 5 Directional radiation pattern of RF615R in the ETSI frequency band ...

Page 107: ... You will find more information on the antennas in the section Guidelines for selecting RFID UHF antennas Page 51 Antenna diagram for RF615R FCC The following radiation diagrams show the directional characteristics of the internal antenna of the RF615R FCC reader For the spatial presentation of the directional characteristics the horizontal plane azimuth section as well as the vertical plane eleva...

Page 108: ...108 System Manual 11 2018 J31069 D0171 U001 A21 7618 Radiation diagram FCC Pattern of the vertical plane of the antenna Pattern of the horizontal plane of the antenna Figure 5 7 Directional radiation pattern of RF615R in the FCC frequency band ...

Page 109: ...Bi 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 The dBr values correspond to the difference between the maximum dBi value and a second dBi value Table 5 9 Range of antenna depending on ...

Page 110: ...es with the requirements of Health Canada and the FCC limit values for subjecting persons to HF radiation provided that a minimum spacing of 26 cm exists between antenna and person When the antennas are installed you must therefore ensure that a minimum spacing of 26 cm is maintained between personnel and antennas Mounting installing the device You can mount the reader in the following ways direct...

Page 111: ...onfigured via the Ethernet interface and with direct connection to the PC You can configure and program the reader using the following tools using STEP 7 Basic Professional TIA Portal using Web Based Management WBM using OPC UA or XML based user applications Simple process controls e g a traffic signal can be implemented directly using the reader via the digital input and output Figure 5 8 Overvie...

Page 112: ... 902 to 928 MHz CMIIT 920 to 925 MHz Transmit power 1 ETSI 3 400 mW FCC 3 400 mW CMIIT 3 400 mW Maximum radiated power per antenna ETSI 1000 mW ERP FCC 1400 mW EIRP CMIIT 1000 mW ERP Electrical data Range internal antenna ETSI 1 m FCC 1 m CMIIT 1 m Protocol ISO 18000 62 63 Transmission speed 300 kbps Frequency accuracy 10 ppm Channel spacing ETSI 600 kHz FCC 500 kHz CMIIT 250 kHz Modulation method...

Page 113: ...V input voltage on the reader 170 mA 4 1 W 30 V input voltage on the reader 150 mA 4 2 W Current consumption at 400 mW transmit power typical 20 V input voltage on the reader 260 mA 5 2 W 24 V input voltage on the reader 220 mA 5 3 W 30 V input voltage on the reader 170 mA 5 1 W Interfaces Antenna connectors 1x RP TNC Power supply 1x RS422 M12 8 pin Digital I O interface 1x M12 5 pin Digital input...

Page 114: ...on 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 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 th...

Page 115: ...Readers 5 2 SIMATIC RF615R SIMATIC RF600 System Manual 11 2018 J31069 D0171 U001 A21 7618 115 5 2 6 Dimension drawing Figure 5 9 Dimension drawing RF615R All dimensions in mm 0 5 mm tolerance ...

Page 116: ... Labeling Description Federal Communications Commission FCC CFR 47 Part 15 section 15 247 Radio Frequency Interference Statement This equipment has been tested and found to comply with the limits for a Class B digital device pursuant to Part 15 of the FCC Rules FCC ID NXW RF615R Industry Canada Radio Standards Specifications RSS 247 Issue 2 IC 267X RF615R This product is UL certified for the USA a...

Page 117: ...equipment generates uses and can radiate radio frequency energy and if not installed and used in accordance with the instruction manual may cause harmful interference to radio communications Operation of this equipment in a residential area is likely to cause harmful interference in which case the user will be required to correct the interference at his own expense FCC Notice To comply with FCC pa...

Page 118: ...Canada applicables aux appareils radio exempts de licence L exploitation est autorisée aux deux conditions suivantes 1 L appareil ne doit pas produire de brouillage et 2 l utilisateur de l appareil doit accepter tout brouillage radioélectrique subi même si le brouillage est susceptible d en compromettre le fonctionnement Industry Canada Notice To reduce potential radio interference to other users ...

Page 119: ...ed power of up to 2000 mW ERP 4000 mW EIRP is achieved when the appropriate antennas and antenna cables are used The interfaces Ethernet power supply DI DQ interface are located on the lower front edge These interfaces can be used to connect the reader to the power supply and a PC for parameter assignment The degree of protection is IP30 Pos Description RP TNC interfaces for connecting up to 4 ext...

Page 120: ...t 6GT2890 0AA00 SIMATIC antenna holder for RF600 devices 6GT2890 2AB10 Connecting cable and connectors DI DQ cable connectors open cable ends 5 m 6GT2891 0CH50 Ethernet cable RJ 45 RJ 45 10 m 6XV1870 3QN10 Ethernet connector Standard IE FastConnectRJ45 Plug 180 IP20 6GK1901 1BB10 2AA0 Ethernet cable by the meter green minimum 20 m 6XV1840 2AH10 Wide range power supply unit for SIMATIC RF systems W...

Page 121: ...y isolated DO Common Output Common DO 0 Output 00 DO 1 Output 01 DO 2 Output 02 DO 3 Output 03 DI 0 Input 00 DI Common Input Common DI 1 Input 01 DI 2 Input 02 DI 3 Input 03 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 D...

Page 122: ...protected 4 digital outputs can be operated simultaneously each with up to 0 5 A up to 1 A in total With a total current 1 A you need to use an external power supply The outputs are optically isolated through optocouplers input DI 0 3 The inputs are optically isolated through optocouplers Level Low 0 7 V High 15 24 V Sampling rate 20 ms The following diagrams illustrate various connection possibil...

Page 123: ...em Manual 11 2018 J31069 D0171 U001 A21 7618 123 Voltage infeed from internal source no electrical isolation Figure 5 11 Circuit example 1 Digital inputs Alternative connection possibilities Pin 2 VCC to Pin 9 DI Common Pin 1 GND to busbar inputs ...

Page 124: ...00 124 System Manual 11 2018 J31069 D0171 U001 A21 7618 Voltage infeed from external source Figure 5 12 Circuit example 2 Digital inputs Voltage infeed from external source with various voltages Figure 5 13 Circuit example 3 Digital inputs ...

Page 125: ... RF600 System Manual 11 2018 J31069 D0171 U001 A21 7618 125 Voltage infeed from internal source Figure 5 14 Circuit example 4 Digital outputs Alternative connection possibilities Pin 1 GND to Pin 3 DO Common Pin 2 VCC to busbar outputs ...

Page 126: ...6 System Manual 11 2018 J31069 D0171 U001 A21 7618 Voltage infeed from external source Figure 5 15 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 ...

Page 127: ...ital outputs 5 3 1 5 Pin assignment of the RS422 interface X80 DC24V Table 5 17 Pin assignment of the RS422 interface reader end Interface view Pin Device end 8 pin M12 Wire colors Assignment 1 White 24 V 2 1 Brown Transmit 3 Green 0 V 4 1 Yellow Transmit 5 1 Gray Receive 6 1 Pink Receive 7 Unassigned 8 Earth shield 1 These pins are not required if the reader is operated via Ethernet ...

Page 128: ... 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 0Fxxx 2 to 50 m with an M12 connector at both ends These cables can be used as extension cables Long cables can be shortened if necessary NOTICE Insulate unused single wires Unused single wires must be insulated individually to prevent...

Page 129: ...nectors from other manufacturers are used it may be difficult or even impossible to remove the plug from the reader 5 3 1 7 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 1 5 Nm WARNING Hazardous voltage due to lightning strikes Death or serious injury may occur as a result of lightning strikes to antennas mounted o...

Page 130: ...note the information in the section Specified minimum and maximum spacing of antennas Page 46 With the WBM you can set up various different configurations of antennas and or reading points as required Based on the number of data sources and subsequent assignment of the antennas many tasks can be accomplished Examples of possible antenna reading point configurations Four data sources each with one ...

Page 131: ...lth Canada and the FCC limit values for subjecting persons to HF radiation provided that a minimum spacing of 26 cm exists between antenna and person When the antennas are installed you must therefore ensure that a minimum spacing of 26 cm is maintained between personnel and antennas Mounting installing the device You can mount the reader in the following ways DIN rail T35 S7 1200 S7 300 standard ...

Page 132: ... U001 A21 7618 Mounting the reader on a DIN standard rail Table 5 19 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 ...

Page 133: ...stem Manual 11 2018 J31069 D0171 U001 A21 7618 133 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 ...

Page 134: ...0171 U001 A21 7618 Table 5 20 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 ...

Page 135: ...s 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 using Web Based Management WBM using OPC UA or XML based user applications Simple process controls e g a traffic signal can be implemented directly using the reader via four digital inputs and outputs Figure 5 17 Overview of configuration...

Page 136: ...ating frequency ETSI 865 to 868 MHz FCC 902 to 928 MHz CMIIT 920 to 925 MHz ARIB STD T107 920 4 to 923 4 MHz Transmit power 1 ETSI 3 to 1000 mW FCC 3 to 1000 mW CMIIT 3 to 1000 mW ARIB STD T107 3 to 250 mW Maximum radiated power per antenna ETSI 2000 mW ERP FCC 4000 mW EIRP CMIIT 2000 mW ERP ARIB STD T107 500 mW EIRP Electrical data Range ETSI 8 m FCC 8 m CMIIT 8 m ARIB STD T107 4 m Protocol ISO 1...

Page 137: ...t consumption on standby typical 20 V input voltage on the reader 220 mA 4 4 W 24 V input voltage on the reader 190 mA 4 5 W 30 V input voltage on the reader 150 mA 4 5 W Current consumption at 1000 mW transmit power typical 20 V input voltage on the reader 450 mA 9 0 W 24 V input voltage on the reader 370 mA 8 9 W 30 V input voltage on the reader 300 mA 9 0 W Current consumption at 2000 mW transm...

Page 138: ... TI Grey Lower part of housing Silver Permitted ambient conditions Ambient temperature During operation 25 55 C During transportation and storage 40 85 C Degree of protection IP30 Shock resistant to EN 60068 2 27 25 5 g 3 Vibrations according to EN 60068 2 6 3 1 g 3 Design dimensions and weight Dimensions W H D 258 258 80 mm Weight 2 4 kg Type of mounting Mounting rail Hanging VESA 100 4x M4 screw...

Page 139: ...ELV PELV according to EN 60950 The voltage sources must meet the requirements of limited power sources LPS and NEC Class 2 Note that depending on the power consumption using extension cables 20 m 6GT2891 4FN50 may lead to a voltage drop on the reader This voltage drop can mean that the necessary mini mum voltage on the reader is below the required 20 V 3 The values for shock and vibration are maxi...

Page 140: ... No NR ETA 1587 Radio approval for Russia Belarus Kazakhstan Table 5 23 6GT2811 6AB20 1AA0 Labeling Description Federal Communications Commission FCC CFR 47 Part 15 section 15 247 Radio Frequency Interference Statement This equipment has been tested and found to comply with the limits for a Class B digital device pursuant to Part 15 of the FCC Rules FCC ID NXW RF600R2 Industry Canada Radio Standar...

Page 141: ...ment Industrial Broadcasting Communication Equipment 이 기기는 업무용 A급 전자파적합기기로서 판 매자 또는 사용자는 이 점을 주의하시기 바라 며 가정외의 지역에서 사용하는 것을 목적으로 합니다 This equipment is Industrial Class A electromagnetic wave suitabil ity equipment and seller or user should take notice of it and this equipment is to be used in the places except for home Certificate of the reader MSIP CMM RF5 RF650R C 14627 Argentina radio approval R...

Page 142: ...equipment generates uses and can radiate radio frequency energy and if not installed and used in accordance with the instruction manual may cause harmful interference to radio communications Operation of this equipment in a residential area is likely to cause harmful interference in which case the user will be required to correct the interference at his own expense FCC Notice To comply with FCC pa...

Page 143: ...mitted for successful communication Transmitter power and antenna information for antennas with a gain less than 6 dBi This device has been designed to operate with the SIMATIC RF620A antenna 902 928 the SIMATIC RF640A antenna 902 928 as well as the SIMATIC RF660A antenna 902 928 listed below and having a maximum gain of 5 5 dBi Arbitrary transmission power settings in combination with other anten...

Page 144: ... and antenna cables are used The interfaces Ethernet power supply DI DQ interface are located on the lower front edge These interfaces can be used to connect the reader to the power supply and a PC or a controller for parameter assignment The degree of protection is IP65 Pos Description RP TNC interfaces for connecting up to 4 external antennas LED status display LED operating display DI DQ interf...

Page 145: ...B00 Antenna mounting kit 6GT2890 0AA00 SIMATIC antenna holder for RF600 devices 6GT2890 2AB10 Connecting cable and connectors DI DQ cable connectors open cable ends 5 m 6GT2891 0CH50 Ethernet cable M12 RJ45 5 m 6XV1871 5TH50 Ethernet cable M12 M12 5 m 6XV1870 8AH50 Ethernet connector on reader M12 d coded IP65 6GK1901 0DB20 6AA0 Ethernet connector Standard IE FastConnectRJ45 Plug 180 IP20 6GK1901 ...

Page 146: ...ectors are unused 6GT2898 4AA10 DVD Ident Systems Software Documentation 6GT2080 2AA20 5 4 1 3 Pin assignment of the DI DQ interface X10 DI DQ View of the DI DQ interface reader end Table 5 27 Pin assignment of the DI DQ interface M12 socket reader end Pin Pin assignment 1 2 3 4 5 6 7 8 9 10 11 12 GND output for supply of digital inputs outputs not electrical ly isolated VCC output for supply of d...

Page 147: ... 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 3 Each output is rated for 0 5 A current and is electronically protected 4 digital outputs can be operated simultaneously each with up to 0 5 A up to 1 A in total With a total current 1 A you need to use an external power...

Page 148: ...ilities Note Minimum time between changes Note that changes on the I O interface that are not applied for at least 1 5 seconds are not detected by the reader Voltage infeed from internal source no electrical isolation Figure 5 20 Circuit example 1 Digital inputs Alternative connection possibilities Pin 2 VCC to Pin 9 DI Common Pin 1 GND to busbar inputs ...

Page 149: ...00 System Manual 11 2018 J31069 D0171 U001 A21 7618 149 Voltage infeed from external source Figure 5 21 Circuit example 2 Digital inputs Voltage infeed from external source with various voltages Figure 5 22 Circuit example 3 Digital inputs ...

Page 150: ... RF600 150 System Manual 11 2018 J31069 D0171 U001 A21 7618 Voltage infeed from internal source Figure 5 23 Circuit example 4 Digital outputs Alternative connection possibilities Pin 1 GND to Pin 3 DO Common Pin 2 VCC to busbar outputs ...

Page 151: ...stem Manual 11 2018 J31069 D0171 U001 A21 7618 151 Voltage infeed from external source Figure 5 24 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 ...

Page 152: ...ital outputs 5 4 1 5 Pin assignment of the RS422 interface X80 DC24V Table 5 28 Pin assignment of the RS422 interface reader end Interface view Pin Device end 8 pin M12 Wire colors Assignment 1 White 24 V 2 1 Brown Transmit 3 Green 0 V 4 1 Yellow Transmit 5 1 Gray Receive 6 1 Pink Receive 7 Unassigned 8 Earth shield 1 These pins are not required if the reader is operated via Ethernet ...

Page 153: ... 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 0Fxxx 2 to 50 m with an M12 connector at both ends These cables can be used as extension cables Long cables can be shortened if necessary NOTICE Insulate unused single wires Unused single wires must be insulated individually to prevent...

Page 154: ...er there is a blind drill hole M4 x 8 for grounding Tighten the screw with a torque of 1 5 Nm WARNING Hazardous voltage due to lightning strikes Death or serious injury may occur as a result of lightning strikes to antennas mounted outside buildings If the reader is operated with antennas mounted outside buildings it is imperative that the reader is electrically connected to the ground potential N...

Page 155: ...note the information in the section Specified minimum and maximum spacing of antennas Page 46 With the WBM you can set up various different configurations of antennas and or reading points as required Based on the number of data sources and subsequent assignment of the antennas many tasks can be accomplished Examples of possible antenna reading point configurations Four data sources each with one ...

Page 156: ...ION Emitted radiation The transmitter complies with the requirements of Health Canada and the FCC limit values for subjecting persons to HF radiation provided that a minimum spacing of 26 cm exists between antenna and person When the antennas are installed you must therefore ensure that a minimum spacing of 26 cm is maintained between personnel and antennas 5 4 3 1 Mounting Installation Mounting i...

Page 157: ...1 A21 7618 157 Mounting the reader on a DIN standard rail Table 5 30 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 ...

Page 158: ...8 System Manual 11 2018 J31069 D0171 U001 A21 7618 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 ...

Page 159: ... U001 A21 7618 159 Table 5 31 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 ...

Page 160: ...d via the Ethernet interface and with direct connection to the PC You can configure and program the reader using the following tools using STEP 7 Basic Professional TIA Portal via Ethernet IP using Web Based Management WBM using OPC UA or XML based user applications Simple process controls e g a traffic signal can be implemented directly using the reader via four digital inputs and outputs Figure ...

Page 161: ...ng frequency ETSI 865 to 868 MHz FCC 902 to 928 MHz CMIIT 920 to 925 MHz ARIB STD T106 916 8 MHz to 920 4 MHz Transmit power 1 ETSI 3 to 2000 mW FCC 3 to 2000 mW CMIIT 3 to 2000 mW ARIB STD T106 3 to 1000 mW Maximum radiated power per antenna ETSI 2000 mW ERP FCC 4000 mW EIRP CMIIT 2000 mW ERP ARIB STD T106 4000 mW EIRP Electrical data Range ETSI 8 m FCC 8 m CMIIT 8 m ARIB STD T106 8 m Protocol IS...

Page 162: ...ent consumption on standby typical 20 V input voltage on the reader 220 mA 4 4 W 24 V input voltage on the reader 190 mA 4 5 W 30 V input voltage on the reader 150 mA 4 5 W Current consumption at 1000 mW transmit power typical 20 V input voltage on the reader 450 mA 9 0 W 24 V input voltage on the reader 380 mA 9 1 W 30 V input voltage on the reader 300 mA 9 6 W Current consumption at 2000 mW tran...

Page 163: ...Grey Lower part of housing Silver Permitted ambient conditions Ambient temperature During operation 25 55 C During transportation and storage 40 85 C Degree of protection IP65 Shock resistant to EN 60068 2 27 25 5 g 4 Vibrations according to EN 60068 2 6 3 1 g 4 Design dimensions and weight Dimensions W H D 258 258 80 mm Weight 2 4 kg Type of mounting Mounting rail Hanging VESA 100 4x M4 screws 1 ...

Page 164: ...50 The voltage sources must meet the requirements of limited power sources LPS and NEC Class 2 Note that depending on the power consumption using extension cables 20 m 6GT2891 4FN50 may lead to a voltage drop on the reader This voltage drop can mean that the necessary mini mum voltage on the reader is below the required 20 V 2 Keep to the switching schemes of the DI DQ interface 3 The values for s...

Page 165: ... No NR ETA 1588 Radio approval for Russia Belarus Kazakhstan Table 5 34 6GT2811 6AA10 1AA0 Labeling Description Federal Communications Commission FCC CFR 47 Part 15 section 15 247 Radio Frequency Interference Statement This equipment has been tested and found to comply with the limits for a Class B digital device pursuant to Part 15 of the FCC Rules FCC ID NXW RF600R2 Industry Canada Radio Standar...

Page 166: ...nt Industrial Broadcasting Communication Equipment 이 기기는 업무용 A급 전자파적합기기로서 판 매자 또는 사용자는 이 점을 주의하시기 바라 며 가정외의 지역에서 사용하는 것을 목적으로 합니다 This equipment is Industrial Class A electromagnetic wave suitabil ity equipment and seller or user should take notice of it and this equipment is to be used in the places except for home Certificate of the reader MSIP CMM RF5 RF680R C 141618 Argentina radio approval Re...

Page 167: ...equipment generates uses and can radiate radio frequency energy and if not installed and used in accordance with the instruction manual may cause harmful interference to radio communications Operation of this equipment in a residential area is likely to cause harmful interference in which case the user will be required to correct the interference at his own expense FCC Notice To comply with FCC pa...

Page 168: ...mitted for successful communication Transmitter power and antenna information for antennas with a gain less than 6 dBi This device has been designed to operate with the SIMATIC RF620A antenna 902 928 the SIMATIC RF640A antenna 902 928 as well as the SIMATIC RF660A antenna 902 928 listed below and having a maximum gain of 5 5 dBi Arbitrary transmission power settings in combination with other anten...

Page 169: ...ennas and antenna cables are used The interfaces Ethernet power supply DI DQ interface are located on the lower front edge These interfaces can be used to connect the reader to the power supply and to a PC or a controller for parameter assignment The degree of protection is IP65 Pos Description RP TNC interface for connection of an external antenna LED status display LED operating display DI DQ in...

Page 170: ...0AB00 Antenna mounting kit 6GT2890 0AA00 SIMATIC antenna holder for RF600 devices 6GT2890 2AB10 Connecting cable and connectors DI DQ cable connectors open cable ends 5 m 6GT2891 0CH50 Ethernet cable M12 RJ45 5 m 6XV1871 5TH50 Ethernet cable M12 M12 5 m 6XV1870 8AH50 Ethernet connector on reader M12 d coded IP65 6GK1901 0DB20 6AA0 Ethernet plug Standard IE FastConnect RJ45 Plug 180 IP20 6GK1901 1B...

Page 171: ...ectors are unused 6GT2898 4AA10 DVD Ident Systems Software Documentation 6GT2080 2AA20 5 5 1 3 Pin assignment of the DI DQ interface X10 DI DQ View of the DI DQ interface reader end Table 5 38 Pin assignment of the DI DQ interface M12 socket reader end Pin Pin assignment 1 2 3 4 5 6 7 8 9 10 11 12 GND output for supply of digital inputs outputs not electrical ly isolated VCC output for supply of d...

Page 172: ... 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 3 Each output is rated for 0 5 A current and is electronically protected 4 digital outputs can be operated simultaneously each with up to 0 5 A up to 1 A in total With a total current 1 A you need to use an external power...

Page 173: ...ilities Note Minimum time between changes Note that changes on the I O interface that are not applied for at least 1 5 seconds are not detected by the reader Voltage infeed from internal source no electrical isolation Figure 5 29 Circuit example 1 Digital inputs Alternative connection possibilities Pin 2 VCC to Pin 9 DI Common Pin 1 GND to busbar inputs ...

Page 174: ...00 174 System Manual 11 2018 J31069 D0171 U001 A21 7618 Voltage infeed from external source Figure 5 30 Circuit example 2 Digital inputs Voltage infeed from external source with various voltages Figure 5 31 Circuit example 3 Digital inputs ...

Page 175: ... RF600 System Manual 11 2018 J31069 D0171 U001 A21 7618 175 Voltage infeed from internal source Figure 5 32 Circuit example 4 Digital outputs Alternative connection possibilities Pin 1 GND to Pin 3 DO Common Pin 2 VCC to busbar outputs ...

Page 176: ...6 System Manual 11 2018 J31069 D0171 U001 A21 7618 Voltage infeed from external source Figure 5 33 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 ...

Page 177: ...ital outputs 5 5 1 5 Pin assignment of the RS422 interface X80 DC24V Table 5 39 Pin assignment of the RS422 interface reader end Interface view Pin Device end 8 pin M12 Wire colors Assignment 1 White 24 V 2 1 Brown Transmit 3 Green 0 V 4 1 Yellow Transmit 5 1 Gray Receive 6 1 Pink Receive 7 Unassigned 8 Earth shield 1 These pins are not required if the reader is operated via Ethernet ...

Page 178: ... 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 0Fxxx 2 to 50 m with an M12 connector at both ends These cables can be used as extension cables Long cables can be shortened if necessary NOTICE Insulate unused single wires Unused single wires must be insulated individually to prevent...

Page 179: ...der there is a blind drill hole M4 x 8 for grounding Tighten the screw with a torque of 1 5 Nm WARNING Hazardous voltage due to lightning strikes Death or serious injury may occur as a result of lightning strikes to antennas mounted outside buildings If the reader is operated with antennas mounted outside buildings it is imperative that the reader is electrically connected to the ground potential ...

Page 180: ...s can overlap considerably This means it is no longer possible to be sure in which of the antenna fields the data of a transponder will be accessed To avoid these cases 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 t...

Page 181: ...w 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 Figure 5 35 Reference system ...

Page 182: ...Readers 5 5 SIMATIC RF685R SIMATIC RF600 182 System Manual 11 2018 J31069 D0171 U001 A21 7618 Radiation diagram Azimuth section Figure 5 36 Azimuth section ...

Page 183: ...Readers 5 5 SIMATIC RF685R SIMATIC RF600 System Manual 11 2018 J31069 D0171 U001 A21 7618 183 Radiation diagram elevation section Figure 5 37 Elevation section ...

Page 184: ... 5 41 Maximum linear electrical aperture angle at 865 MHz Polarization Circular polariza tion Linear vertical Linear horizontal Azimuth section 64 61 65 Elevation section 64 66 63 Typical antenna gain in the frequency band 865 to 868 MHz 5 dBi 3 dBi 5 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 ...

Page 185: ...w 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 Figure 5 39 Reference system ...

Page 186: ...Readers 5 5 SIMATIC RF685R SIMATIC RF600 186 System Manual 11 2018 J31069 D0171 U001 A21 7618 Radiation diagram Azimuth section Figure 5 40 Azimuth section ...

Page 187: ...Readers 5 5 SIMATIC RF685R SIMATIC RF600 System Manual 11 2018 J31069 D0171 U001 A21 7618 187 Radiation diagram elevation section Figure 5 41 Elevation section ...

Page 188: ... 5 42 Maximum linear electrical aperture angle at 915 MHz Polarization Circular polariza tion Linear vertical Linear horizontal Azimuth section 74 64 73 Elevation section 70 78 68 Typical antenna gain in the frequency band 902 to 928 MHz 5 dBi 3 dBi 5 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 ...

Page 189: ...imum antenna gain dBr Read write range 0 100 3 70 6 50 9 35 12 25 15 18 18 13 Example As can be seen in the section Antenna diagram for RF685R ETSI Page 181 the maximum antenna gain 0 dB is standardized In the Azimuth diagram the antenna gain falls by 3 dB at approximately 39 This means that the dBr value is 3 The antenna range is only 50 of the maximum range at 39 from the Z axis within the horiz...

Page 190: ...a and the FCC limit values for subjecting persons to HF radiation provided that a minimum spacing of 26 cm exists between antenna and person When the antennas are installed you must therefore ensure that a minimum spacing of 26 cm is maintained between personnel and antennas Mounting installing the device You can mount the reader in the following ways Using a standardized VESA 100 mounting system ...

Page 191: ...1 A21 7618 191 Mounting the reader on a DIN standard rail Table 5 44 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 ...

Page 192: ...2 System Manual 11 2018 J31069 D0171 U001 A21 7618 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 ...

Page 193: ... U001 A21 7618 193 Table 5 45 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 ...

Page 194: ...d via the Ethernet interface and with direct connection to the PC You can configure and program the reader using the following tools using STEP 7 Basic Professional TIA Portal via Ethernet IP using Web Based Management WBM using OPC UA or XML based user applications Simple process controls e g a traffic signal can be implemented directly using the reader via four digital inputs and outputs Figure ...

Page 195: ...ency ETSI 865 to 868 MHz FCC 902 to 928 MHz CMIIT 920 to 925 MHz ARIB STD T106 916 8 MHz to 920 4 MHz Transmit power 1 ETSI 3 to 2000 mW FCC 3 to 2000 mW CMIIT 3 to 2000 mW ARIB STD T106 3 to 1000 mW Maximum radiated power per antenna ETSI 2000 mW ERP FCC 4000 mW EIRP CMIIT 2000 mW ERP ARIB STD T106 4000 mW EIRP Electrical data Range internal antenna ETSI 8 m FCC 8 m CMIIT 8 m ARIB STD T106 8 m Pr...

Page 196: ...ent consumption on standby typical 20 V input voltage on the reader 220 mA 4 4 W 24 V input voltage on the reader 190 mA 4 5 W 30 V input voltage on the reader 150 mA 4 5 W Current consumption at 1000 mW transmit power typical 20 V input voltage on the reader 450 mA 9 0 W 24 V input voltage on the reader 380 mA 9 1 W 30 V input voltage on the reader 300 mA 9 6 W Current consumption at 2000 mW tran...

Page 197: ...Grey Lower part of housing Silver Permitted ambient conditions Ambient temperature During operation 25 55 C During transportation and storage 40 85 C Degree of protection IP65 Shock resistant to EN 60068 2 27 25 5 g 4 Vibrations according to EN 60068 2 6 3 1 g 4 Design dimensions and weight Dimensions W H D 258 258 80 mm Weight 2 47 kg Type of mounting Mounting rail Hanging VESA 100 4x M4 screws 1...

Page 198: ...50 The voltage sources must meet the requirements of limited power sources LPS and NEC Class 2 Note that depending on the power consumption using extension cables 20 m 6GT2891 4FN50 may lead to a voltage drop on the reader This voltage drop can mean that the necessary mini mum voltage on the reader is below the required 20 V 2 Keep to the switching schemes of the DI DQ interface 3 The values for s...

Page 199: ...eader No NR ETA 1589 Radio approval for Russia Belarus Kazakhstan Table 5 48 6GT2811 6CA10 1AA0 Labeling Description Federal Communications Commission FCC CFR 47 Part 15 section 15 247 Radio Frequency Interference Statement This equipment has been tested and found to comply with the limits for a Class A digital device pursuant to Part 15 of the FCC Rules FCC ID NXW RF600R2 Industry Canada Radio St...

Page 200: ...t Industrial Broadcasting Communication Equipment 이 기기는 업무용 A급 전자파적합기기로서 판 매자 또는 사용자는 이 점을 주의하시기 바라 며 가정외의 지역에서 사용하는 것을 목적으로 합니다 This equipment is Industrial Class A electromagnetic wave suitabil ity equipment and seller or user should take notice of it and this equipment is to be used in the places except for home Certificate of the reader MSIP CMM RF5 RF685R HC 141617 Argentina radio approval Re...

Page 201: ...equipment generates uses and can radiate radio frequency energy and if not installed and used in accordance with the instruction manual may cause harmful interference to radio communications Operation of this equipment in a residential area is likely to cause harmful interference in which case the user will be required to correct the interference at his own expense FCC Notice To comply with FCC pa...

Page 202: ...mitted for successful communication Transmitter power and antenna information for antennas with a gain less than 6 dBi This device has been designed to operate with the SIMATIC RF620A antenna 902 928 the SIMATIC RF640A antenna 902 928 as well as the SIMATIC RF660A antenna 902 928 listed below and having a maximum gain of 5 5 dBi Arbitrary transmission power settings in combination with other anten...

Page 203: ...entation environment field of application and features Field of application Due to its protection class IP65 the handheld terminal SIMATIC RF650M is also suitable for use in a harsh environment The device is extremely rugged and protected against spray water The backlit display is easy to read even under unfavorable lighting conditions RFID system The device can be used to process all RF600 transp...

Page 204: ...calizing transponders Representing and editing the data in hexadecimal and ASCII format Password protection for all write functions that can be enabled or disabled Write Lock Kill Menu guidance in English and German switchable Easy creation of your own RFID applications with the software Application Interface API You will find further information on the RF650M handheld terminal in the operating in...

Page 205: ...28 MHz 865 868 MHz 902 928 MHz Impedance 50 ohms nominal Antenna gain 13 5 dBi 1 10 5 dBi 1 7 dBi 6 dBi VSWR standing wave ratio 2 1 max Polarization Linear RH circular Radiating receiving angle Depending on the mounting surface 55 60 60 75 Connector RP TNC coupling Mounting type 2 x M4 screws 2 x M5 screws 4x screws M4 VESA 100 fastening sys tem Degree of protection IP67 IP rating is not investig...

Page 206: ...ing Mounting type 4x screws M4 VESA 100 fastening system Degree of protection IP65 Permissible ambient temperature 25 C to 75 C Table 6 3 Characteristics of the RF650A and RF680A antennas Characteristics RF650A RF680A Material Pocan DPCF2200 silicone free Frequency range 865 868 MHz 902 928 MHz 865 868 MHz 902 928 MHz Impedance 50 ohms nominal Antenna gain 4 dBi 7 dBic 3 5 dBi 6 5 dBic 3 5 dBi 6 5...

Page 207: ...on Linear Degree of protection IP67 IP rating is not investigated by UL Mounting 2 x M4 Connection 30 cm connecting cable connected permanently to the antenna and RP TNC coupling An antenna cable is required for connection to the reader e g 6GT2815 0BH30 Frequency ranges The antenna is a narrowband antenna and is available in the following two frequency range variants RF615A ETSI 865 to 868 MHz RF...

Page 208: ...815 0BN10 15 m suitable for drag chains cable loss 4 0 dB 6GT2815 2BN15 20 m cable loss 4 0 dB 6GT2815 0BN20 40 m cable loss 5 0 dB 6GT2815 0BN40 6 2 3 Mounting Two holes for M4 screws are provided for mounting the antenna The antenna is suitable for mounting on metallic and non metallic surfaces Note Maximum read write range The maximum read write ranges are only reached when the antenna is mount...

Page 209: ...iemens antenna cable is used in accordance with the list of accessories Strain relief To protect the antenna connecting cable from strain you can attach strain relief e g in the form of a strain relief clamp The following graphic shows the optimum mounting point for attaching strain relief RF615A antenna connecting cable RF600 antenna cable Mounting point for strain relief Figure 6 1 Strain relief...

Page 210: ...ith respect to the radiated power Limitations in the EU EFTA or Turkey Note Limitation of the radiated power according to EN 302 208 V1 4 1 ETSI RF600 systems that are put into operation in the EU EFTA or Turkey must not exceed the following radiated power with an RF615A antenna 500 mW ERP or 27 dBm ERP Converted into EIRP 820 mW EIRP or 29 dBm EIRP Make the following settings to ensure that the m...

Page 211: ... 33 dBm ERP Converted into EIRP 3250 mW EIRP or 35 dBm EIRP Make the following settings to ensure that the maximum permitted radiated power of the antenna is not exceeded Radiated power 2000 mW ERP or 33 dBm ERP Converted into EIRP 3250 mW EIRP or 35 dBm EIRP Use of cable loss associated with the antenna cable Limitations in Japan Note Limitation of the radiated power ARIB RF600 systems that are p...

Page 212: ...o the antenna Polarization axis Since the RF615A 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 Figure 6 2 Polarization axis ...

Page 213: ...MATIC RF600 System Manual 11 2018 J31069 D0171 U001 A21 7618 213 Alignment The following diagram shows the optimum alignment of the RF600 transponders to the RF615A antenna Figure 6 3 Optimum alignment of transponders to the antenna ...

Page 214: ...069 D0171 U001 A21 7618 Angle deviation diagram for alignment The following diagram shows the dependence of the following factors Alignment angle of transponder to antenna Maximum range of antenna Figure 6 4 Effect on the read write range depending on the antenna alignment ...

Page 215: ...lignment 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 Which range in corresponds to the dB values in the patterns can be obtained from this table Page 109 Note that the measurements presented graphically below were carried out in a low reflect...

Page 216: ...69 D0171 U001 A21 7618 Directional radiation pattern ETSI on metallic mounting surface 15 cm x 15 cm Pattern of the vertical plane of the antenna Pattern of the horizontal plane of the antenna Figure 6 6 Directional radiation pattern RF615A ETSI on metallic mounting surface ...

Page 217: ...9 D0171 U001 A21 7618 217 Directional radiation pattern ETSI on non metallic mounting surface Pattern of the vertical plane of the antenna Pattern of the horizontal plane of the antenna Figure 6 7 Directional radiation pattern RF615A ETSI on non metallic mounting surface ...

Page 218: ...gure 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 Page 109 Note that the measurements presented graphically below were carried out in a low reflection environment Low deviati...

Page 219: ...A21 7618 219 Directional radiation pattern of the RF615A FCC on metallic mounting surface 15 cm x 15 cm Pattern of the vertical plane of the antenna Pattern of the horizontal plane of the antenna Figure 6 9 Directional radiation pattern of the RF615A FCC on metallic mounting surface ...

Page 220: ...1 U001 A21 7618 Directional radiation pattern of the RF615A FCC on non metallic mounting surface Pattern of the vertical plane of the antenna Pattern of the horizontal plane of the antenna Figure 6 10 Directional radiation pattern of the RF615A FCC on non metallic mounting surface ...

Page 221: ...ce angle with regard to a transponder The dBr values correspond to the difference between the maximum dBi value and a second dBi value Deviation from maximum antenna gain dBr Read write range 0 100 3 70 6 50 9 35 12 25 15 18 18 13 Example As can be seen from the Antenna pattern ETSI Page 215 the maximum antenna gain is 5 dBi In the vertical plane the antenna gain has dropped to approx 11 dBi at 50...

Page 222: ...106 RF680R RF685R 560 mW EIRP Antenna gain 13 dBi 5 dBi ETSI Depends on background refer to the section Antenna pattern ETSI Page 215 FCC Depends on background refer to the section Antenna pattern FCC Page 218 Opening angle for sending receiving when mounted on a metal surface of 15 cm x 15 cm 1 ETSI Horizontal plane 100 Vertical plane 75 see section Antenna pattern ETSI Page 215 FCC Horizontal pl...

Page 223: ...nsportation and storage 40 85 C Conditions relating to UL approval for indoor use only dry location mounted on height below 2 m Coaxial connectors and cables shall com ply with NFPA70 art 820 part V Degree of protection IP67 IP rating is not investigated by UL Shock resistant to EN 60068 2 27 50 g 2 Vibration to EN 60068 2 6 20 g 2 Design dimensions and weight Dimensions H x W x D 52 x 52 x 16 mm ...

Page 224: ...ble 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 This product is UL certified for the USA and Canada It meets the following safety standard s UL Report E115352 UL 62368 1 AVICT Equipment Part 1 Safety Requirements CSA C22 2 No 62368 1 14 AVICT Equipment Part 1 Saftey Re...

Page 225: ... Polarization Linear Degree of protection IP67 Mounting 2x M5 Connector 30 cm connecting cable connected permanently to the antenna and RP TNC coupling An antenna cable is required for connection to the reader e g 6GT2815 0BH30 Frequency ranges The antenna is a narrowband antenna and is available in the following two frequency range variants RF620A ETSI 865 to 868 MHz RF620A FCC 902 to 928 MHz Fun...

Page 226: ...ins cable loss 4 0 dB 6GT2815 2BN15 20 m cable loss 4 0 dB 6GT2815 0BN20 40 m cable loss 5 0 dB 6GT2815 0BN40 6 3 3 Installation Two holes for M5 screws are provided for mounting the antenna The antenna is suitable for mounting on metallic and non metallic surfaces Note Achieving optimum wave propagation To achieve optimum wave propagation the antenna should not be surrounded by conducting objects...

Page 227: ...emens antenna cable is used in accordance with the list of accessories Strain relief To protect the antenna connecting cable from strain you can attach strain relief e g in the form of a strain relief clamp The following graphic shows the optimum mounting point for attaching strain relief RF620A antenna connecting cable RF600 antenna cable Mounting point for strain relief Figure 6 12 Strain relief...

Page 228: ...ith respect to the radiated power Limitations in the EU EFTA or Turkey Note Limitation of the radiated power according to EN 302 208 V1 4 1 ETSI RF600 systems that are put into operation in the EU EFTA or Turkey must not exceed the following radiated power with an RF620A antenna 500 mW ERP or 27 dBm ERP Converted into EIRP 820 mW EIRP or 29 dBm EIRP Make the following settings to ensure that the m...

Page 229: ... 33 dBm ERP Converted into EIRP 3250 mW EIRP or 35 dBm EIRP Make the following settings to ensure that the maximum permitted radiated power of the antenna is not exceeded Radiated power 2000 mW ERP or 33 dBm ERP Converted into EIRP 3250 mW EIRP or 35 dBm EIRP Use of cable loss associated with the antenna cable Limitations in Japan Note Limitation of the radiated power ARIB RF600 systems that are p...

Page 230: ...o the antenna Polarization axis Since the RF620A 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 Figure 6 13 Polarization axis ...

Page 231: ...RF620A SIMATIC RF600 System Manual 11 2018 J31069 D0171 U001 A21 7618 231 Alignment The following diagram shows the optimum alignment of the RF600 transponders to the RF620A antenna Figure 6 14 Antenna transponder alignment ...

Page 232: ...l 11 2018 J31069 D0171 U001 A21 7618 Angle deviation diagram for alignment The following diagram shows the dependence of the following factors Alignment angle of transponder to antenna Maximum range of antenna Figure 6 15 Angle deviation diagram for alignment ...

Page 233: ...na 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 Which range in corresponds to the dB values in the patterns can be obtained from this table Note that the measurements presented graphically below were carried out in a low reflection ...

Page 234: ...9 D0171 U001 A21 7618 Directional radiation pattern ETSI on metallic mounting surface 15 cm x 15 cm Pattern of the vertical plane of the antenna Pattern of the horizontal plane of the antenna Figure 6 17 Directional radiation pattern RF620A ETSI on metallic mounting surface ...

Page 235: ... D0171 U001 A21 7618 235 Directional radiation pattern ETSI on non metallic mounting surface Pattern of the vertical plane of the antenna Pattern of the horizontal plane of the antenna Figure 6 18 Directional radiation pattern RF620A ETSI on non metallic mounting surface ...

Page 236: ...z 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 Note that the measurements presented graphically below were carried out in a low reflection environment Low deviations ...

Page 237: ...A21 7618 237 Directional radiation pattern of the RF620A FCC on metallic mounting surface 15 cm x 15 cm Pattern of the vertical plane of the antenna Pattern of the horizontal plane of the antenna Figure 6 20 Directional radiation pattern of the RF620A FCC on metallic mounting surface ...

Page 238: ...1 U001 A21 7618 Directional radiation pattern of the RF620A FCC on non metallic mounting surface Pattern of the vertical plane of the antenna Pattern of the horizontal plane of the antenna Figure 6 21 Directional radiation pattern of the RF620A FCC on non metallic mounting surface ...

Page 239: ...ngle with regard to a transponder The dBr values correspond to the difference between the maximum dBi value and a second dBi value Deviation from maximum antenna gain dBr Read write range 0 100 3 70 6 50 9 35 12 25 15 18 18 13 Example As can be seen from the Antenna pattern ETSI Page 233 the maximum antenna gain is 5 dBi In the vertical plane the antenna gain has dropped to approx 11 dBi at 40 and...

Page 240: ...RP FCC 560 mW EIRP CMIIT 2000 mW ERP ARIB STD T107 RF650R 500 mW EIRP STD T106 RF680R RF685R 4000 mW EIRP Antenna gain 10 dBi 5 dBi ETSI Depends on background refer to the section Antenna pattern ETSI Page 233 FCC Depends on background refer to the section Antenna pattern FCC Page 236 Opening angle for sending receiving when mounted on a metal surface of 15 cm x 15 cm 1 ETSI Horizontal plane 100 V...

Page 241: ... Tightening torque at room temperature 2 Nm Permitted ambient conditions Ambient temperature During operation 20 70 C During transportation and storage 40 85 C Degree of protection IP67 Shock resistant to EN 60068 2 27 50 g 2 Vibrations according to EN 60068 2 6 20 g 2 Design dimensions and weight Dimensions H x W x D 75 x 75 x 20 mm Weight 100 g Standards specifications approvals Proof of suitabi...

Page 242: ...Antennas 6 3 SIMATIC RF620A SIMATIC RF600 242 System Manual 11 2018 J31069 D0171 U001 A21 7618 6 3 8 Dimension drawing Figure 6 22 Dimension drawing RF620A All dimensions in mm ...

Page 243: ...ciation with the FCC approval of the following RF600 readers FCC ID NXW RF600R2 for RF650R 6GT2811 6AB20 1AA0 RF680R 6GT2811 6AA10 1AA0 RF685R 6GT2811 6CA10 1AA0 Industry Canada Radio Standards Specifications RSS 210 Issue 7 June 2007 Sections 2 2 A8 The approval for Industry Canada is granted in association with the Industry Canada approval of the following RF600 readers IC 267X RF600R2 Model RF6...

Page 244: ...Max 6 m Polarization Circular Degree of protection IP65 Mounting 4 x M4 VESA 100 fixing system Connector 30 cm connecting cable connected permanently to the antenna and RP TNC coupling An antenna cable is required for connection to the reader e g 6GT2815 0BH30 Frequency ranges The antenna is a broadband antenna and covers the frequency ranges from 865 to 928 MHz Function The SIMATIC RF640A is used...

Page 245: ...cable loss 4 0 dB 6GT2815 0BN20 40 m cable loss 5 0 dB 6GT2815 0BN40 SIMATIC antenna holder for RF600 devices 6GT2890 2AB10 Antenna mounting kit 6GT2890 0AA00 6 4 3 Installation Mounting system A standardized VESA 100 mounting system is provided to mount the antenna The mounting system consists of four fixing holes for M4 screws at intervals of 100 mm The antenna is suitable for mounting on metall...

Page 246: ...eved with the cable 6GT2815 0BH10 length 1 m since this cable has the lowest cable loss Requirement Note Use of Siemens antenna cable To ensure optimum functioning of the antenna it is recommended that a Siemens antenna cable is used in accordance with the list of accessories Strain relief To protect the antenna connecting cable from strain you can attach strain relief e g in the form of a strain ...

Page 247: ...nimum bending radius with multiple bending 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 6 4 5 Antenna parameter assignment 6 4 5 1 Setting RF640A parameters for RF650R Depending on the country or region in which the antenna is being oper...

Page 248: ...EIRP Make the following settings to ensure that the maximum permitted radiated power of the antenna is not exceeded Conducted power P dBm of the RF600 reader 30 dBm Antenna gain Gi dBi in the FCC frequency band 4 3 dBi Cable loss ak dB 1 dB P dBm 30 dBm Gi 6 dBi ak Limitations in China Note Limitation of the radiated power CMIIT RF600 systems that are put into operation in China must not exceed th...

Page 249: ... regional limitations with respect to the radiated power Limitations in the EU EFTA or Turkey Note Limitation of the radiated power according to EN 302 208 V1 4 1 ETSI RF600 systems that are put into operation in the EU EFTA or Turkey must not exceed the following radiated power with an RF640A antenna 2000 mW ERP or 33 dBm ERP Converted into EIRP 3250 mW EIRP or 35 dBm EIRP Make the following sett...

Page 250: ...dBm Gi 6 dBi ak Limitations in China Note Limitation of the radiated power CMIIT RF600 systems that are put into operation in China must not exceed the following radiated power with an RF640A antenna 2000 mW ERP or 33 dBm ERP Converted into EIRP 3250 mW EIRP or 35 dBm EIRP Make the following settings to ensure that the maximum permitted radiated power of the antenna is not exceeded Antenna gain 4 ...

Page 251: ...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 Which range in corresponds to the dB values in the patterns can be obtained from this table Page 261 Note that the measurements presented graphically below w...

Page 252: ...18 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 ...

Page 253: ...A21 7618 253 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 ...

Page 254: ...1 U001 A21 7618 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 ...

Page 255: ...21 7618 255 Pattern of the vertical plane of the antenna Pattern of the horizontal plane of the antenna Figure 6 26 The RF640A directional radiation pattern in the ETSI frequency band axis of symmetry of the antenna and polarization axis of the transponder are orthogonal to each other ...

Page 256: ...equency 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 Which range in corresponds to the dB values in the patterns can be obtained from this table Page 261 Note that the measurements presented graphically below were carried out in a low reflection envi...

Page 257: ...001 A21 7618 257 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 ...

Page 258: ...001 A21 7618 Pattern of the vertical plane of the antenna Pattern of the horizontal plane of the antenna Figure 6 28 The RF640A directional radiation pattern in the FCC frequency band polarization axis of the transponder and axis of symmetry of the antenna are parallel to each other ...

Page 259: ...1069 D0171 U001 A21 7618 259 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 ...

Page 260: ...01 A21 7618 Pattern of the vertical plane of the antenna Pattern of the horizontal plane of the antenna Figure 6 29 The RF640A directional radiation pattern in the FCC frequency band axis of symmetry of the antenna and polarization axis of the transponder are orthogonal to each other ...

Page 261: ...aximum dBi dBic value and a second dBi dBic value Deviation from maximum antenna gain dBr Read write range 0 100 3 70 6 50 9 35 12 25 15 18 18 13 Example As can be seen in Directional radiation patterns in the ETSI frequency band Page 252 the maximum antenna gain in the vertical plane is 3 45 dBi 6 45 dBic In this plane and with the polarization axis of the transponder parallel to the axis of symm...

Page 262: ...0 mW ERP RF680R RF685R 2000 mW ERP ARIB STD T107 RF650R 500 mW EIRP STD T106 RF680R RF685R 4000 mW EIRP Antenna gain ETSI 4 dBi 7 dBic FCC 4 3 dBi 7 3 dBic Opening angle for sending receiving when mounted on a metal surface of 15 cm x 15 cm 1 ETSI Horizontal plane 80 Vertical plane 75 see section Directional radiation patterns in the ETSI frequency band Page 252 FCC Horizontal plane 75 Vertical pl...

Page 263: ...oise Tightening torque at room temperature 2 Nm Permitted ambient conditions Ambient temperature During operation 25 75 C During transportation and storage 40 85 C Degree of protection IP65 Shock resistant to EN 60068 2 27 25 5 g 2 Vibrations according to EN 60068 2 6 1g 2 Design dimensions and weight Dimensions H x W x D 185 x 185 x 45 mm Weight 600 g Standards specifications approvals Proof of s...

Page 264: ...Antennas 6 4 SIMATIC RF640A SIMATIC RF600 264 System Manual 11 2018 J31069 D0171 U001 A21 7618 6 4 8 Dimension drawing Figure 6 30 Dimension drawing RF640A All dimensions in mm ...

Page 265: ...iation with the FCC approval of the following RF600 readers FCC ID NXW RF600R2 for RF650R 6GT2811 6AB20 1AA0 RF680R 6GT2811 6AA10 1AA0 RF685R 6GT2811 6CA10 1AA0 Industry Canada Radio Standards Specifications RSS 210 Issue 7 June 2007 Sections 2 2 A8 The approval for Industry Canada is granted in association with the Industry Canada approval of the following RF600 readers IC 267X RF600R2 Model RF65...

Page 266: ...Max 8 m Polarization Linear Degree of protection IP65 Mounting 4 x M4 VESA 100 fixing system Connector 30 cm connecting cable connected permanently to the antenna and RP TNC coupling An antenna cable is required for connection to the reader e g 6GT2815 0BH30 Frequency ranges The antenna is a broadband antenna and covers the frequency ranges from 865 to 928 MHz Function The SIMATIC RF642A is used f...

Page 267: ...cable loss 4 0 dB 6GT2815 0BN20 40 m cable loss 5 0 dB 6GT2815 0BN40 SIMATIC antenna holder for RF600 devices 6GT2890 2AB10 Antenna mounting kit 6GT2890 0AA00 6 5 3 Installation Mounting system A standardized VESA 100 mounting system is provided to mount the antenna The mounting system consists of four fixing holes for M4 screws at intervals of 100 mm The antenna is suitable for mounting on metall...

Page 268: ...eved with the cable 6GT2815 0BH10 length 1 m since this cable has the lowest cable loss Requirement Note Use of Siemens antenna cable To ensure optimum functioning of the antenna it is recommended that a Siemens antenna cable is used in accordance with the list of accessories Strain relief To protect the antenna connecting cable from strain you can attach strain relief e g in the form of a strain ...

Page 269: ... suitable for drag chains 6GT2815 2BH50 5 1 5 44 2 Antenna cable 6GT2815 1BN10 10 2 77 Antenna cable 6GT2815 0BN10 10 4 51 Antenna cable suitable for drag chains 6GT2815 2BN15 15 4 44 2 Antenna cable 6GT2815 0BN20 20 4 77 Antenna cable 6GT2815 0BN40 40 5 77 1 Permissible minimum bending radius with multiple bending 2 With cables capable of being used in drag chains 100 000 bending cycles at a bend...

Page 270: ...ders 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 Figure 6 32 Polarization axis ...

Page 271: ...RF642A SIMATIC RF600 System Manual 11 2018 J31069 D0171 U001 A21 7618 271 Alignment The following diagram shows the optimum alignment of the RF600 transponders to the RF642A antenna Figure 6 33 Antenna transponder alignment ...

Page 272: ...l 11 2018 J31069 D0171 U001 A21 7618 Angle deviation diagram for alignment The following diagram shows the dependence of the following factors Alignment angle of transponder to antenna Maximum range of antenna Figure 6 34 Angle deviation diagram for alignment ...

Page 273: ...P or 35 dBm EIRP Make the following settings to ensure that the maximum permitted radiated power of the antenna is not exceeded Antenna gain 6 dBi Radiated power 2000 mW ERP or 33 dBm ERP Converted into EIRP 3250 mW EIRP or 35 dBm EIRP Use of cable loss associated with the antenna cable Limitations in the USA and Canada Note Limitation of the radiated power FCC RF600 systems that are put into oper...

Page 274: ...m EIRP Make the following settings to ensure that the maximum permitted radiated power of the antenna is not exceeded Antenna gain 7 dBi or 10 dBiC Radiated power 2000 mW ERP or 33 dBm ERP Converted into EIRP 3250 mW EIRP or 35 dBm EIRP Use of cable loss associated with the antenna cable Limitations in Japan Note Limitation of the radiated power ARIB STD T106 RF600 systems that are put into operat...

Page 275: ...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 Which range in corresponds to the dB values in the patterns can be obtained from this table Page 279 Note that the measurements presented graphically below w...

Page 276: ...11 2018 J31069 D0171 U001 A21 7618 Directional radiation pattern in the ETSI frequency band Pattern of the vertical plane of the antenna Pattern of the horizontal plane of the antenna Figure 6 36 Directional radiation pattern of RF642A in the ETSI frequency band ...

Page 277: ...er 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 Which range in corresponds to the dB values in the patterns can be obtained from this table Note that the measurements presented graphically below were carried out in a low reflection environm...

Page 278: ...J31069 D0171 U001 A21 7618 Directional radiation pattern of the RF642A in the FCC frequency band Pattern of the vertical plane of the antenna Pattern of the horizontal plane of the antenna Figure 6 38 Directional radiation pattern of the RF642A in the FCC frequency band ...

Page 279: ...rrespond to the difference between the maximum dBi value and a second dBi value Deviation from maximum antenna gain dBr Read write range 0 100 3 70 6 50 9 35 12 25 15 18 18 13 Example As can be seen in Directional radiation pattern in the ETSI frequency band Page 276 the maximum antenna gain in the horizontal plane is 6 dBi In this plane and with the parallel polarization axis at 70 or 300 the ant...

Page 280: ...0R RF685R 2000 mW ERP ARIB STD T107 RF650R 500 mW EIRP Antenna gain ETSI 6 dBi FCC 7 dBi Opening angle for sending receiving when mounted on a metal surface of 15 cm x 15 cm 1 ETSI Horizontal plane 75 Vertical plane 70 see section Directional radiation pattern in the ETSI frequency band Page 276 FCC Horizontal plane 80 Vertical plane 70 see section Directional radiation pattern of the RF642A in th...

Page 281: ...erature During operation 25 75 C During transportation and storage 40 85 C Degree of protection IP65 Shock resistant to EN 60068 2 27 25 5 g 2 Vibrations according to EN 60068 2 6 1 g 2 Design dimensions and weight Dimensions H x W x D 185 x 185 x 45 mm Weight 600 g Standards specifications approvals Proof of suitability CE according to RED FCC Title 47 Part 15 247 cULus MTBF 16880 years 1 The val...

Page 282: ...Antennas 6 5 SIMATIC RF642A SIMATIC RF600 282 System Manual 11 2018 J31069 D0171 U001 A21 7618 6 5 8 Dimension drawing Figure 6 39 Dimensional drawing of RF642A All dimensions in mm ...

Page 283: ...iation with the FCC approval of the following RF600 readers FCC ID NXW RF600R2 for RF650R 6GT2811 6AB20 1AA0 RF680R 6GT2811 6AA10 1AA0 RF685R 6GT2811 6CA10 1AA0 Industry Canada Radio Standards Specifications RSS 210 Issue 7 June 2007 Sections 2 2 A8 The approval for Industry Canada is granted in association with the Industry Canada approval of the following RF600 readers IC 267X RF600R2 Model RF65...

Page 284: ...requency 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 cou pling Frequency ranges The antenna is a broadband antenna and covers the frequency ranges from 865 to 928 MHz Function The SIMATIC RF650A is used for transmitting and receiving data in t...

Page 285: ...cable loss 4 0 dB 6GT2815 0BN20 40 m cable loss 5 0 dB 6GT2815 0BN40 SIMATIC antenna holder for RF600 devices 6GT2890 2AB10 Antenna mounting kit 6GT2890 0AA00 6 6 3 Installation Mounting system A standardized VESA 100 mounting system is provided to mount the antenna The mounting system consists of four fixing holes for M4 screws at intervals of 100 mm The antenna is suitable for mounting on metall...

Page 286: ...um range can be achieved with the cable 6GT2815 0BH10 length 1 m since this cable has the lowest cable loss Requirement Note Use of Siemens antenna cables To ensure optimum functioning of the antenna it is recommended that a Siemens antenna cable be used in accordance with the list of accessories Strain relief To protect the antenna from strain you can attach strain relief e g in the form of a str...

Page 287: ... 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 6 6 5 Antenna 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 t...

Page 288: ...n of the radiated power CMIIT RF600 systems that are put into operation in China must not exceed the following radiated power with an RF650A antenna 2000 mW ERP or 33 dBm ERP Converted into EIRP 3250 mW EIRP or 35 dBm EIRP Make the following settings to ensure that the maximum permitted radiated power of the antenna is not exceeded Antenna gain 3 5 dBi 6 5 dBic Radiated power 2000 mW ERP or 33 dBm...

Page 289: ...rcular antenna the alignment of the antenna axis of symmetry changes between horizontal and vertical each time it transmits For this reason the alignment of the transponder polarization axis horizontal vertical is unimportant Make sure however that the transponder is aligned with the antenna Figure 6 41 Alignment of the transponder polarization axis with a circular antenna axis of symmetry ...

Page 290: ... 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 Which range in corresponds to the dB values in the patterns can be obtained from this table Page 294 Note that the measurements presented graphically below were c...

Page 291: ...18 J31069 D0171 U001 A21 7618 291 Directional radiation patterns in the ETSI frequency band Pattern of the vertical plane of the antenna Pattern of the horizontal plane of the antenna Figure 6 43 Directional radiation pattern of RF650A in the ETSI frequency band ...

Page 292: ...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 Which range in corresponds to the dB values in the patterns can be obtained from this table Page 294 Note that the measurements presented graphically below were carried out in a low reflection environme...

Page 293: ...18 J31069 D0171 U001 A21 7618 293 Directional radiation pattern in the FCC frequency band Pattern of the vertical plane of the antenna Pattern of the horizontal plane of the antenna Figure 6 45 Directional radiation pattern of the RF650A in the FCC frequency band ...

Page 294: ...d dBi dBic value Table 6 31 Interpretation of directional radiation patterns Deviation from maximum antenna gain dBr Read write range 0 100 3 70 6 50 9 35 12 25 15 18 18 13 Example As can be seen in Directional radiation patterns in the ETSI frequency band Page 291 the maximum antenna gain in the vertical plane is 3 45 dBi 6 45 dBic In this plane and with the polarization axis of the transponder p...

Page 295: ...IT RF650R 1365 mW ERP RF680R RF685R 2000 mW ERP ARIB STD T107 RF650R 500 mW EIRP STD T106 RF680R RF685R 4000 mW EIRP Antenna gain ETSI 4 dBi 7 dBic FCC 3 5 dBi 6 5 dBic Opening angle for sending receiving when mounted on a metal surface of 15 cm x 15 cm 1 ETSI Horizontal plane 83 Vertical plane 70 see section Antenna patterns in the ETSI frequency band Page 290 FCC Horizontal plane 90 Vertical pla...

Page 296: ...rque at room temperature 2 Nm Permitted ambient conditions Ambient temperature During operation 25 75 C During transportation and storage 40 85 C Degree of protection IP65 Shock resistant to EN 60068 2 27 30 g 2 Vibrations according to EN 60068 2 6 10 g 2 Design dimensions and weight Dimensions H x W x D 198 x 198 x 60 mm Weight 680 g Standards specifications approvals Proof of suitability CE acco...

Page 297: ...Antennas 6 6 SIMATIC RF650A SIMATIC RF600 System Manual 11 2018 J31069 D0171 U001 A21 7618 297 6 6 8 Dimension drawing Figure 6 46 Dimension drawing RF650A All dimensions in mm ...

Page 298: ...RF600R2 for RF650R 6GT2811 6AB20 1AA0 RF680R 6GT2811 6AA10 1AA0 RF685R 6GT2811 6CA10 1AA0 Industry Canada Radio Standards Specifications RSS 247 Issue 2 The approval for Industry Canada is granted in association with the Industry Canada approval of the following RF600 readers IC 267X RF615R Model RF615R for 6GT2811 6CC10 1AA0 RSS 210 Issue 7 June 2007 Sections 2 2 A8 The approval for Industry Cana...

Page 299: ...0A FCC Read range Max 8 m Polarization Circular Degree of protection IP67 Mounting 4 x M4 VESA 100 fixing system Connector The antenna is connected directly to the housing with an RP TNC cou pling Frequency ranges The antenna is a narrowband antenna and is available in the following two frequency range variants RF660A ETSI 865 to 868 MHz RF660A FCC 902 to 928 MHz Function The SIMATIC RF660A is use...

Page 300: ...6GT2815 2BN15 20 m cable loss 4 0 dB 6GT2815 0BN20 40 m cable loss 5 0 dB 6GT2815 0BN40 SIMATIC antenna holder for RF600 devices 6GT2890 2AB10 Antenna mounting kit 6GT2890 0AA00 6 7 3 Installation Mounting system A standardized VESA 100 mounting system is provided to mount the antenna The mounting system consists of four fixing holes for M4 screws at intervals of 100 mm The antenna is suitable for...

Page 301: ...has the lowest cable loss Requirement Note Use of Siemens antenna cable To ensure optimum functioning of the antenna it is recommended that a Siemens antenna cable is used in accordance with the list of accessories Figure 6 47 Rear of antenna with RTNC connection Bending radii and bending cycles of the antenna cable Table 6 37 Bending radii and bending cycles of the antenna cable Cable designa tio...

Page 302: ...7 5 Antenna 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 1 ETSI RF600 systems that are put into operation in the EU EFTA or Turkey must not exceed the following radiated pow...

Page 303: ... the radiated power CMIIT RF600 systems that are put into operation in China must not exceed the following radiated power with an RF660A antenna 2000 mW ERP or 33 dBm ERP Converted into EIRP 3250 mW EIRP or 35 dBm EIRP Make the following settings to ensure that the maximum permitted radiated power of the antenna is not exceeded Antenna gain 6 dBi 9 dBic Radiated power 2000 mW ERP or 33 dBm ERP Con...

Page 304: ...g 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 Main field processing field Secondary fields Figure 6 48 Main and auxiliary fields of the RF660A antenna ...

Page 305: ... 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 The optimum radiating receiving angle is therefore approximately 30 degrees Figure 6 49 Directional radiation pattern of th...

Page 306: ...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 Figure 6 50 Directional radiation pattern of the antenna at 915 MHz horizontal alignment ...

Page 307: ...RP RF680R RF685R 2000 mW ERP FCC RF650R 4000 mW EIRP RF680R RF685R 4000 mW EIRP CMIIT RF650R 2000 mW ERP RF680R RF685R 2000 mW ERP ARIB STD T107 RF650R 500 mW EIRP STD T106 RF680R RF685R 4000 mW EIRP Antenna gain ETSI 5 7 dBi 8 10 dBic FCC 6 dBi 9 dBic Opening angle for sending receiving when mounted on a metal surface of 15 cm x 15 cm 1 ETSI Horizontal plane 55 Vertical plane 60 see section Anten...

Page 308: ...e at room temperature 2 Nm Permitted ambient conditions Ambient temperature During operation 25 75 C During transportation and storage 40 85 C Degree of protection IP67 Shock resistant to EN 60068 2 27 25 5 g 2 Vibrations according to EN 60068 2 6 1 g 2 Design dimensions and weight Dimensions H x W x D 313 x 313 x 80 mm Weight 1 6 kg Standards specifications approvals Proof of suitability CE ETSI ...

Page 309: ...Antennas 6 7 SIMATIC RF660A SIMATIC RF600 System Manual 11 2018 J31069 D0171 U001 A21 7618 309 6 7 8 Dimension drawing Figure 6 51 Dimension drawing RF660A All dimensions in mm 0 5 mm tolerance ...

Page 310: ...iation with the FCC approval of the following RF600 readers FCC ID NXW RF600R2 for RF650R 6GT2811 6AB20 1AA0 RF680R 6GT2811 6AA10 1AA0 RF685R 6GT2811 6CA10 1AA0 Industry Canada Radio Standards Specifications RSS 210 Issue 7 June 2007 Sections 2 2 A8 The approval for Industry Canada is granted in association with the Industry Canada approval of the following RF600 readers IC 267X RF600R2 Model RF65...

Page 311: ...size with high range for industrial appli cations in production and logistics Frequency range 865 to 928 MHz Read range Max 8 m Polarization Selectable circular linear horizon tal linear vertical 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 cou pling Status display 1 LED Frequency ranges The antenna is a ...

Page 312: ...The device is ready for operation but currently inactive The device is active but there is no transponder in the antenna field The device is active and there is at least one transponder in the antenna field Identification of the antenna by the reader function buzz test There is an error or antenna firmware update is being made Indication of the quality of the antenna alignment RSSI When aligning t...

Page 313: ...dB 6GT2815 0BN40 SIMATIC antenna holder for RF600 devices 6GT2890 2AB10 Antenna mounting kit 6GT2890 0AA00 6 8 3 Installation Mounting system A standardized VESA 100 mounting system is provided to mount the antenna The mounting system consists of four fixing holes for M4 screws at intervals of 100 mm The antenna is suitable for mounting on metallic and non metallic surfaces Note Achieving optimum ...

Page 314: ...onnecting the antenna Do not connect the adaptive antenna RF680A during operation Only connect the antenna to a reader that has been turned off and then restart the reader 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 Requirement Note Use of Siemens antenna cables To ensure ...

Page 315: ... tion Article number Length m Cable loss dB Bending radi us mm Bending cycle Antenna cable 6GT2815 0BH10 1 0 5 51 1x Antenna cable 6GT2815 0BH30 3 1 51 1x Antenna cable suitable for drag chains 6GT2815 2BH50 5 1 5 48 1x 1 Antenna cable 6GT2815 1BN10 10 2 77 1x Antenna cable 6GT2815 0BN10 10 4 51 1x Antenna cable suitable for drag chains 6GT2815 2BN15 15 4 24 1x 1 Antenna cable 6GT2815 0BN20 20 4 7...

Page 316: ... dBm EIRP Make the following settings to ensure that the maximum permitted radiated power of the antenna is not exceeded Antenna gain 3 5 dBi 6 5 dBic Radiated power 2000 mW ERP or 33 dBm ERP Converted into EIRP 3250 mW EIRP or 35 dBm EIRP Use of cable loss associated with the antenna cable Limitations in the USA and Canada Note Limitation of the radiated power FCC RF600 systems that are put into ...

Page 317: ...ngs to ensure that the maximum permitted radiated power of the antenna is not exceeded Antenna gain 3 dBi 6 dBic Radiated power 2000 mW ERP or 33 dBm ERP Converted into EIRP 3250 mW EIRP or 35 dBm EIRP Use of cable loss associated with the antenna cable Limitations in Japan Note Limitation of the radiated power ARIB RF600 systems that are put into operation in Japan must not exceed the following r...

Page 318: ...eason 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 Figure 6 53 Alignment of the transponder polarization axis with a circular antenna axis of symmetry With a linear vertical or linear horizontal antenna the alignment of the transponder polarization axis must correspon...

Page 319: ...l 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 Which range in corresponds to the dB values in the patterns can be obtained from this table Page 327 Note that the measurements presented graphically below were carried out in a...

Page 320: ... 11 2018 J31069 D0171 U001 A21 7618 Radiation diagram circular in the ETSI frequency band Pattern of the vertical plane of the antenna Pattern of the horizontal plane of the antenna Figure 6 56 Directional radiation pattern of RF680A in the ETSI frequency band ...

Page 321: ...linear horizontal in the ETSI frequency band Pattern of the vertical plane of the antenna Pattern of the horizontal plane of the antenna Figure 6 57 The RF680A directional radiation pattern in the ETSI frequency band axis of symmetry of the antenna and polarization axis of the transponder are aligned horizontally ...

Page 322: ...m linear vertical in the ETSI frequency band Pattern of the vertical plane of the antenna Pattern of the horizontal plane of the antenna Figure 6 58 The RF680A directional radiation pattern in the ETSI frequency band axis of symmetry of the antenna and polarization axis of the transponder are aligned vertically ...

Page 323: ...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 Which range in corresponds to the dB values in the patterns can be obtained from this table Page 327 Note that the measurements presented graphically below were carried out in a low reflection environme...

Page 324: ...11 2018 J31069 D0171 U001 A21 7618 Radiation diagram circular in the FCC frequency band Pattern of the vertical plane of the antenna Pattern of the horizontal plane of the antenna Figure 6 60 Directional radiation pattern of the RF680A in the FCC frequency band ...

Page 325: ... linear horizontal in the FCC frequency band Pattern of the vertical plane of the antenna Pattern of the horizontal plane of the antenna Figure 6 61 The RF680A directional radiation pattern in the FCC frequency band axis of symmetry of the antenna and polarization axis of the transponder are aligned horizontally ...

Page 326: ...am linear vertical in the FCC frequency band Pattern of the vertical plane of the antenna Pattern of the horizontal plane of the antenna Figure 6 62 The RF680A directional radiation pattern in the FCC frequency band axis of symmetry of the antenna and polarization axis of the transponder are aligned vertically ...

Page 327: ...e Table 6 45 Interpretation of directional radiation patterns Deviation from maximum antenna gain dBr Read write range 0 100 3 70 6 50 9 35 12 25 15 18 18 13 Example As can be seen in Directional radiation pattern Page Fehler Textmarke nicht definiert the maximum antenna gain in the vertical plane is 3 45 dBi 6 45 dBic In this plane and with the polarization axis of the transponder parallel to the...

Page 328: ...IT RF650R 1220 mW ERP RF680R RF685R 2000 mW ERP ARIB STD T107 RF650R 500 mW EIRP STD T106 RF680R RF685R 4000 mW EIRP Antenna gain ETSI 3 5 dBi 6 5 dBic FCC 3 5 dBi 6 5 dBic Opening angle for sending receiving when mounted on a metal surface of 15 cm x 15 cm 1 ETSI Horizontal plane 87 Vertical plane 80 see section Antenna patterns in the ETSI frequency band Page 319 FCC Horizontal plane 90 Vertical...

Page 329: ... torque at room temperature 2 Nm Permitted ambient conditions Ambient temperature During operation 25 75 C During transportation and storage 40 85 C Degree of protection IP65 Shock resistant to EN 60068 2 27 30 g 2 Vibrations according to EN 60068 2 6 10 g 2 Design dimensions and weight Dimensions H x W x D 198 x 198 x 60 mm Weight 690 g Status display 1 LED Standards specifications approvals Proo...

Page 330: ...1069 D0171 U001 A21 7618 6 8 8 Dimension drawing Figure 6 63 Dimension drawing RF680A All dimensions in mm 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 ...

Page 331: ...sociation with the Industry Canada approval of the following RF600 readers IC 267X RF600R2 Model RF650R for 6GT2811 6AB20 1AA0 IC 267X RF600R2 Model RF680R for 6GT2811 6AA10 1AA0 IC 267X RF600R2 Model RF685R for 6GT2811 6CA10 1AA0 This product is UL certified for the USA and Canada It meets the following safety standard s UL 60950 1 Information Technology Equipment Safety Part 1 General Requiremen...

Page 332: ...Antennas 6 8 SIMATIC RF680A SIMATIC RF600 332 System Manual 11 2018 J31069 D0171 U001 A21 7618 ...

Page 333: ... some of the high frequency energy emitted by the reader to supply power to the integrated chip Receiving commands from the reader Responses are transmitted to the reader antenna by modulating the reflected radio waves backscatter technique Figure 7 1 Mode of operation of transponders The transmission ranges achieved vary depending on the size of the transponder and therefore its dipole antenna In...

Page 334: ...ectronic Product Code EPC The Electronic Product Code EPC supports the unique identification of objects e g retail items logistical items or transport containers This makes extremely accurate identification possible In practical use the EPC is stored on a transponder and scanned by the reader There are different EPC number schemes with different data lengths Below is the structure of a GID 96 bit ...

Page 335: ... 1 0x08 0xFF08 Day produced 1 0x09 0xFF09 Consecutive number 1 0x0A 0xFF0A 0x0B 0xFF0B 1 In the following table these values are described in greater detail Note that the RF6xxT transponders cannot be disabled using a kill password Table 7 2 Explanation of the values Transponder type Year produced Month produced Day produced Consecutive number 1 RF620T 0x3E 2015 0x0F 2016 0x10 Jan 0x01 Feb 0x02 De...

Page 336: ...olumn You can read out the EPC ID using an inventory command As an alternative you can also read out the EPC ID using a Read command to memory bank 1 start address 0x04 Figure 7 2 Memory configuration Note Information on the detailed memory configuration The memory configuration of the various transponders and smartlabels varies and depends on the chip type used You will find detailed information ...

Page 337: ...ignment of the transponder and antenna is ensured see section Configurations of antenna and transponder Page 337 The optimum mounting surface for the transponder has been selected see section Effects of the materials of the mounting surfaces on the range Page 341 The maximum range specified in the section Maximum read write ranges of transponders Page 341 applies only to read processes With write ...

Page 338: ... will find further details in the section Alignment of transponders to the antenna Page 230 or Alignment of transponders to the antenna Page 270 Note Adjustable RF680A antenna Note that the antenna RF680A can be switched over This means that you can set the polarization axis of this antenna manually Depending on the setting circular or linear horizontal or linear vertical the antenna has the prope...

Page 339: ...er are parallel to each other Changing the transponder angle within the x y plane leads to a reduction of the range Linear antenna RF615A RF620A RF642A or RF680A Transponder Figure 7 4 Possible transponder alignment with linear antennas Note Optimum transponder position alignment Depending on the electromagnetic properties of the environment the optimum transponder position and alignment may diffe...

Page 340: ...in the y z plane this causes a reduction in range for all antenna types Antenna RF615A RF620A RF640A RF642A RF650A or RF680A Transponder Figure 7 5 Suboptimal transponder alignment Note Exceptions The suboptimal transponder alignment does not apply to the transponders RF625T and RF630T You will find additional information on this in the sections dealing with the transponders ...

Page 341: ...tic can reduce the maximum read write range considerably depending on the type of plastic up to 70 When mounted on wood the range is furhter reduced the more moisture the wood contains Due to the attenuating properties of glass direct mounting without a spacer can halve the range If the RF625T RF630T RF640T RF645T RF680T or RF682T transponders are mounted on metal this metallic surface acts as a r...

Page 342: ...0R with RF615A 0 8 1 2 0 5 0 1 with RF620A 0 9 1 2 0 5 0 1 with RF640A 2 5 3 0 1 6 0 8 with RF642A 4 5 5 0 3 0 3 5 with RF650A 2 5 3 0 1 4 1 6 with RF660A 4 0 5 0 2 5 2 5 with RF680A 2 5 3 0 1 4 1 6 SIMATIC RF680R with RF615A 1 0 1 8 0 7 0 2 with RF620A 1 2 1 8 0 8 0 2 with RF640A 3 0 4 0 2 0 1 0 with RF642A 4 5 5 0 3 0 3 5 with RF650A 3 0 4 0 1 8 1 6 with RF660A 4 0 5 0 2 5 2 5 with RF680A 3 5 4 ...

Page 343: ...2 2 5 2 5 5 0 with RF642A 2 0 2 0 4 5 7 0 with RF650A 1 2 3 0 2 0 4 0 with RF660A 1 6 1 4 3 5 6 0 with RF680A 1 2 0 9 2 0 4 0 SIMATIC RF680R with RF615A 0 5 0 2 1 2 2 5 with RF620A 0 5 0 3 1 4 2 5 with RF640A 1 4 3 5 3 0 6 0 with RF642A 2 0 2 0 4 5 7 0 with RF650A 1 6 3 5 3 0 5 0 with RF660A 1 6 1 4 3 5 6 0 with RF680A 1 6 1 4 3 0 6 0 SIMATIC RF685R with internal antenna 2 0 3 0 5 0 7 0 with RF615...

Page 344: ... 8 2 0 with RF680A 0 8 0 8 0 9 2 0 SIMATIC RF680R with RF615A 0 4 0 5 0 5 0 8 with RF620A 0 5 0 5 0 5 1 0 with RF640A 1 2 1 4 1 4 2 5 with RF642A 1 8 1 8 2 0 4 0 with RF650A 1 0 1 4 1 2 2 5 with RF660A 1 4 1 4 1 8 3 0 with RF680A 1 2 1 2 1 2 3 0 SIMATIC RF685R with internal antenna 1 8 2 0 2 0 3 5 with RF615A 0 4 0 5 0 5 0 8 with RF620A 0 5 0 5 0 5 1 0 with RF640A 1 2 1 4 1 4 2 5 with RF642A 1 8 1...

Page 345: ... 4 0 with RF680A 3 0 3 0 2 0 SIMATIC RF680R with RF615A 1 8 1 4 1 0 with RF620A 2 0 1 6 1 2 with RF640A 5 0 4 0 3 0 with RF642A 6 0 5 0 4 5 with RF650A 5 0 4 0 2 5 with RF660A 5 0 4 5 4 0 with RF680A 4 5 4 5 3 0 SIMATIC RF685R with internal antenna 6 0 5 0 4 0 with RF615A 1 8 1 4 1 0 with RF620A 2 0 1 6 1 2 with RF640A 5 0 4 0 3 0 with RF642A 6 0 5 0 4 5 with RF650A 5 0 4 0 2 5 with RF660A 5 0 4 5...

Page 346: ...inimum distances to be maintained between antennas and transponders RF600 antenna Minimum distances to be maintained RF615A 50 mm RF620A 50 mm RF640A 200 mm RF642A 200 mm RF650A 200 mm RF660A 200 mm RF680A 200 mm RF685R internal antenna 200 mm 7 1 6 Influence of conducting walls on the range NOTICE Influence of conducting walls on the range If there are metallic reflecting surfaces in the immediat...

Page 347: ...ransportation of rolls Protect the transponders from direct sunlight and heat e g heating appliances Prior to use store the label rolls in the polyethylene bag or the shrink film of the original packaging Store the label rolls in a cool and dry location Ideal conditions 18 C 5 C 40 60 humidity Stack several label rolls lying flat and centered one above the other Avoid external pressure e g a narro...

Page 348: ...T2810 2AB02 0AX0 6GT2810 2AB03 Design Area of application Simple identification such as barcode replacement or supplementation through warehouse and distribution logistics right up to product identification EPC memory 12 bytes 96 bits 96 128 bits 96 240 bits Additional user memory 0 bytes 0 bits 64 bytes 512 bits 64 bytes 512 bits Read range Max 8 m 1 Max 5 m 1 Mounting Self adhesive paper labels ...

Page 349: ...6GT2810 2AB02 0AX0 SIMATIC RF630L 3 Smart label 54 mm x 34 mm 6GT2810 2AB03 Delivery format SIMATIC RF630L smart label is supplied in the following form 1 800 smart labels per packaging unit 800 labels on a roll Minimum order quantity 2 packaging unit 1 600 units 2 5 000 smart labels per packaging unit 5 000 labels on one roll Minimum order quantity 1 packaging unit 5 000 units 3 2 000 smart label...

Page 350: ...NZA 2 Memory type EEPROM Memory configuration EPC 12 bytes 96 bits User memory 12 bytes 96 bits TID 4 bytes 32 bits Number of write cycles 40 C 105 Number of read cycles 40 C 1014 Data retention time 40 C 10 years Electrical data Range 8 m 1 Protocol ISO 18000 63 Transmission speed 320 kbps Polarization Linear Mechanical specifications Material Paper Silicone free Yes Color White Antenna material ...

Page 351: ...y on metal Degree of protection IP60 when adhered Resistance to mechanical stress Torsion and bending stress conditionally permis sible Anti collision approx 100 labels second Minimum spacing between labels Vertically 50 mm Horizontally 100 mm Design dimensions and weight Dimensions L x W x D 101 152 0 3 mm Weight 3 g 1 The information relates to the maximum read range You will find more informati...

Page 352: ...on EPC 12 16 bytes 96 128 bits 12 30 bytes 96 240 bits User memory 64 bytes 512 bits 64 bytes 512 bits TID 4 bytes 32 bits 8 bytes 64 bits Number of write cycles 40 C 105 Number of read cycles 40 C 1014 Data retention time 40 C 10 years Electrical data Range 8 m 1 5 m 1 Protocol ISO 18000 63 Transmission speed 320 kbps Polarization Linear Multitag capability Yes Mechanical specifications Material ...

Page 353: ...ectly on metal Degree of protection IP60 when adhered Resistance to mechanical stress Torsion and bending stress conditionally permis sible Anti collision approx 100 labels second Minimum spacing between labels Vertically 50 mm Horizontally 100 mm Design dimensions and weight Dimensions L x W x D 27 97 0 3 mm 34 54 0 3 mm Weight 1 g 1 The information relates to the maximum read range You will find...

Page 354: ... 354 System Manual 11 2018 J31069 D0171 U001 A21 7618 7 2 4 Dimension drawings Figure 7 7 SIMATIC RF630L 6GT2810 2AB00 dimension drawing Figure 7 8 Dimension drawing SIMATIC RF630L 6GT2810 2AB02 0AX0 Figure 7 9 SIMATIC RF630L 6GT2810 2AB03 dimension drawing ...

Page 355: ... Code EPC up to 448 bits The transponder also has 2048 bits of user memory The SIMATIC RF640L is designed for direct mounting on metal surfaces Smartlabel SIMATIC RF640L Characteristics Area of application Industrial plant management RF identification of tools containers and metallic equipment Frequency range ETSI 865 to 868 MHz FCC 902 to 928 MHz Air interface According to ISO 18000 63 Memory EPC...

Page 356: ...packaging unit 500 units 7 3 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...

Page 357: ...lien Higgs 3 Memory type EEPROM Memory configuration EPC 8 60 bytes 64 480 bits 1 User memory 16 64 bytes 128 512 bits 1 TID 12 bytes 96 bits Number of write cycles 40 C 500 Number of read cycles 40 C 1014 Data retention time 40 C 50 years Electrical data Range 2 8 m 2 Protocol ISO 18000 63 Transmission speed 320 kbps Polarization Linear Mechanical specifications Material PET Silicone free Yes Col...

Page 358: ...on and bending stress conditionally permis sible Anti collision approx 100 labels second Minimum spacing between labels Vertically 50 mm Horizontally 100 mm Design dimensions and weight Dimensions L x W x D 50 22 5 1 6 mm Weight 4 g 1 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 2 The ...

Page 359: ...n axis Conveyor direction Figure 7 10 RF640L dimension drawing All dimensions in mm 7 3 6 Certificates and approvals Certificate Description Conformity with the RED directive 2014 53 EU Conformity with the RoHS directive 2011 65 EU Federal Communications Commission Passive labels and transponders comply with the valid regulations certification is not required ...

Page 360: ...ment identification of tools containers and metallic equipment Frequency range ETSI 865 to 868 MHz FCC 902 to 928 MHz Air interface According to ISO 18000 63 Memory EPC 56 bytes 448 bits User memory 256 bytes 2048 bits Read range Max 2 8 m on metal 1 Mounting Self adhesive Designed for mounting directly on metal 1 Depending on the environment the employed reader the antennas and the set power 7 4 ...

Page 361: ...DE 7xm 2k Memory type EEPROM Memory configuration EPC 56 bytes 448 bits User memory 256 bytes 2048 bits TID 12 bytes 96 bits Number of write cycles 40 C 105 Number of read cycles 40 C 1014 Data retention time 40 C 50 years Electrical data Range Writing 0 9 m Reading 2 8 m Protocol ISO 18000 63 Transmission speed 320 kbps Polarization Linear Mechanical specifications Material PET PE Silicone free Y...

Page 362: ...ead access 25 to 85 C During transportation and storage 13 23 C 1 Distance from metal 0 mm Designed for mounting directly on metal Degree of protection IP68 2 Resistance to mechanical stress Torsion and bending stress conditionally permis sible Minimum spacing between labels Vertically 50 mm Horizontally 100 mm Design dimensions and weight Dimensions L x W x D 50 22 5 1 65 mm Weight 4 g 1 Ideal st...

Page 363: ...TIC RF642L Smartlabel SIMATIC RF600 System Manual 11 2018 J31069 D0171 U001 A21 7618 363 7 4 4 Dimension drawing Printable area Polarization axis Conveyor direction Figure 7 11 Dimension drawing RF642L All dimensions in mm ...

Page 364: ...65 to 868 MHz FCC 902 to 928 MHz Air interface According to ISO 18000 63 Memory EPC 8 60 bytes 64 480 bits 1 User memory 16 64 bytes 128 512 bits 1 Read range Max 5 0 m on non metallic surface 2 Max 2 4 m on metal 2 Mounting Self adhesive Suitable for mounting directly on metal 1 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...

Page 365: ... 7 17 Size of the EPC memory and effect on the user memory EPC memory User memory bytes bits bytes 54 60 432 480 16 46 52 368 416 24 38 44 304 352 32 30 36 240 288 40 22 28 176 224 48 14 20 112 160 56 0 12 0 96 64 7 5 4 Technical specifications Table 7 18 Technical specifications of the transponder SIMATIC RF690L 6GT2810 2AGx0 Product type designation SIMATIC RF690L Radio frequencies Operating fre...

Page 366: ... Aluminum Type of antenna Shortened dipole Printing Can be printed using heat transfer technique Roll core diameter 76 mm Roll outer diameter 200 mm Permitted ambient conditions Ambient temperature In operation during write read access 25 85 C In operation outside write read access 25 to 95 C permanently Special features As of 100 C 20 reduction of the write read distance 140 160 C No processing p...

Page 367: ...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 2 The information relates to the maximum read range You can find more information on ranges in the section Minimum distances and maximum ranges Page 337 3 For more information refer to the section Storage and transportation roll goods Page 347 7 5 5 Dimension drawing Figure 7 1...

Page 368: ... RF690L FCC article number 6GT2810 2AG10 All dimensions in mm 7 5 6 Certificates and approvals Certificate Description Conformity with the RED directive 2014 53 EU Conformity with the RoHS directive 2011 65 EU Federal Communications Commission Passive labels and transponders comply with the valid regulations certification is not required ...

Page 369: ... is reduced if it is not aligned in parallel with the antenna SIMATIC RF610T Characteristics Area of application Simple identification such as barcode re placement or barcode supplement Warehouse and distribution logistics Product identification For the Food Beverage sector a special ver sion can be supplied on request that is certified for use in contact with food Air interface According to ISO 1...

Page 370: ...r SIMATIC RF610T 6GT2810 2BB80 Product type designation SIMATIC RF610T Radio frequencies Operating frequency ETSI 865 to 868 MHz FCC 902 to 928 MHz Memory Chip manufacturer type NXP G2XM Memory type EEPROM Memory configuration EPC 12 30 bytes 96 240 bits User memory 64 bytes 512 bits TID 8 bytes 64 bits Reserved passwords 8 bytes 64 bits Number of write cycles 40 C 105 Number of read cycles 40 C 1...

Page 371: ...ng directly on metal Degree of protection IP67 Resistance to mechanical stress Torsion and bending stress conditionally permis sible Shock resistant according to DIN EN 60721 3 7 Class 7 M3 100 g 2 Vibration to EN 60068 2 6 50 g 2 Design dimensions and weight Dimensions L x W x D 86 54 0 6 mm Weight 3 g 1 The information relates to the maximum read range You will find more information on ranges in...

Page 372: ...tificate Description Conformity with the RED directive 2014 53 EU Conformity with the RoHS directive 2011 65 EU Federal Communications Commission Passive labels and transponders comply with the valid regulations certification is not required This product is UL certified for the USA and Canada It meets the following safety standard s UL508 Industrial Control Equipment CSA C22 2 No 142 Process Contr...

Page 373: ... However the range is reduced if it is not aligned in parallel with the antenna SIMATIC RF610T Characteristics Area of application Simple identification such as barcode re placement or barcode supplement Warehouse and distribution logistics Product identification For the Food Beverage sector a special ver sion can be supplied on request that is certified for use in contact with food Air interface ...

Page 374: ...firmed 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 2014 34 EU The essential health and safety requirements are satisfied in accordance with standards EN 60079 0 2012 A11 2013 EN 60079 11 2012 This allows the RF610T special variant ATEX tr...

Page 375: ... transponder shown above is an example and can vary between batches produced at different times This does not affect the hazardous area marking Order number and serial number 6GT2810 2BB80 0AX1 S B0000007 Identification TÜV 11 ATEX 081778 X II 3 G Ex ic IIB T6 T5 T4 Gc II 3 D Ex ic IIIB T5 120 C Dc 25 C Ta 85 C Warning WARNING WARNING POTENTIAL ELECTROSTATIC CHARGIMG HAZARD SEE INSTRUCTIONS Manufa...

Page 376: ...ure class grading is as follows Table 7 22 Temperature class grading for gases Ambient temperature range Temperature class 25 C to 85 C T4 25 C to 65 C T5 25 C to 50 C T6 WARNING Ignitions of gas air mixtures When using the RF610T transponder check to make sure that the temperature class is adhered to in keeping with the requirements of the area of application Non compliance with the permitted tem...

Page 377: ...ctive dusts ic IIIB Temperature class grading for dusts with up to 2000 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 2000 mW the temperature class grading is as follows Table 7 23 Temperature class grading for dusts Ambient temperature range Temperature value 25 ...

Page 378: ...28 MHz Memory Chip manufacturer type NXP G2XM Memory type EEPROM Memory configuration EPC 12 30 bytes 96 240 bits User memory 64 bytes 512 bits TID 8 bytes 64 bits Reserved passwords 8 bytes 64 bits Number of write cycles 40 C 105 Number of read cycles 40 C 1014 Data retention time 40 C 10 years Electrical data Range 5 m 1 Protocol ISO 18000 63 Transmission speed 320 kbps Polarization Linear Mecha...

Page 379: ...lass 7 M3 100 g 2 Vibration to EN 60068 2 6 50 g 2 Design dimensions and weight Dimensions L x W x D 86 54 0 4 mm Weight 3 g Standards specifications approvals Proof of suitability TÜV 11 ATEX 081778 X EN 60079 0 EN 60079 11 II 3 G Ex ic IIB T6 T5 T4 Gc II 3 D Ex ic IIIB T5 120 C Dc 25 C Ta 85 C MTBF 1712 years 1 The information relates to the maximum read range You will find more information on r...

Page 380: ...l dimensions in mm 7 7 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 Federal Communications Commission Passive labels and transponders comply with the valid regulations certification is not required ...

Page 381: ...tic is food safe it is also suitable for use in the food processing industry This container tag is designed for the frequency range of 860 MHz to 960 MHz and can be operated in combination with our UHF system RF600 SIMATIC RF620T Transponder Characteristics Area of application Transponder for rugged industrial require ments such as RF identification in ware houses and the logistics and transport a...

Page 382: ...it 20 units 7 8 3 Planning the use 7 8 3 1 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...

Page 383: ...ngular carrier plates the range depends on the mounting orientation of the transponder You will find more information on the range in the section Minimum distances and maximum ranges Page 337 7 8 3 2 Range when mounted on non metallic carrier materials Table 7 28 Range with non metallic carriers Carrier material Range Transponder on wooden carrier dry degree of moisture 15 typically 75 Transponder...

Page 384: ...Chip manufacturer type IMPINJ MONZA 4QT Memory type EEPROM Memory configuration EPC 12 16 bytes 96 128 bits User memory 64 bytes 512 bits TID 4 bytes 32 bits Number of write cycles 40 C 105 Number of read cycles 40 C 1014 Data retention time 40 C 10 years Electrical data Range 8 m 1 Protocol ISO 18000 63 Transmission speed 320 kbps Polarization Linear Mechanical specifications Material PP Silicone...

Page 385: ...e of protection IP67 Resistance to mechanical stress Torsion and bending stress is not permitted Shock resistant to EN 60068 2 27 100 g 2 Vibration to EN 60068 2 6 50 g 2 Design dimensions and weight Dimensions L x W x D Transponder 127 38 6 mm Spacer 157 39 12 mm Weight Transponder 18 g Spacer 22 g Type of mounting 2 x M4 screws 1 2 Nm 1 The information relates to the maximum read range You will ...

Page 386: ...em Manual 11 2018 J31069 D0171 U001 A21 7618 7 8 5 Dimension drawing Figure 7 18 SIMATIC RF620T UHF container tag Units of measurement All dimensions in mm Tolerances unless indicated otherwise are 0 5 mm Labeling area see Section Characteristics Page 381 ...

Page 387: ... 53 EU Conformity with the RoHS directive 2011 65 EU Table 7 31 6GT2810 2HC80 RF620T Certificate Description Federal Communications Commission Passive labels or transponders comply with the valid regulations certification is not required This product is UL certified for the USA and Canada It meets the following safety standard s UL508 Industrial Control Equipment CSA C22 2 No 142 Process Control E...

Page 388: ...ations SIMATIC RF622T Characteristics Area of application Industrial plant management RFID identification of tools and containers Frequency range 860 to 960 MHz Air interface According to ISO 18000 63 Memory EPC 496 bits User memory 3424 bytes Read range Max 3 m on non metallic surface 1 Max 1 m on metal with spacer 1 Mounting 2 x M4 screws Labeling area Possible types of labeling Barcode Data mat...

Page 389: ...e transponder SIMATIC RF622T 6GT2810 4HC80 Product type designation SIMATIC RF622T Radio frequencies Operating frequency ETSI 865 to 868 MHz FCC 902 to 928 MHz Memory Chip manufacturer type Fujitsu MB97R803 Memory type FRAM Memory configuration EPC 62 bytes 496 bits User memory 3424 bytes 27392 bits TID 32 bytes 256 bits 1 Number of write cycles 40 C 1010 Number of read cycles 40 C 1010 Data reten...

Page 390: ...ing directly on metal Degree of protection IP67 Resistance to mechanical stress Torsion and bending stress is not permitted Shock resistant to EN 60068 2 27 100 g 3 Vibration to EN 60068 2 6 50 g 3 Design dimensions and weight Dimensions L x W x D Transponder 120 30 6 5 mm Spacer 130 31 5 12 mm Weight Transponder 14 g Spacer 8 g Type of mounting 2 x M4 screws 1 Nm 1 In the current chip version of ...

Page 391: ...al 11 2018 J31069 D0171 U001 A21 7618 391 7 9 4 Dimension drawing Figure 7 19 Dimension drawing RF622T Figure 7 20 Dimension drawing spacer RF622T Figure 7 21 Dimension drawing RF622T mounted All dimensions in mm tolerances unless indicated otherwise 0 5 mm ...

Page 392: ...reas of application are industrial asset management RF identification of tools containers and metallic equipment The Disk Tag is small and rugged and suitable for industrial applications with degree of protection IP68 It is highly resistant to oil grease and cleaning agents Ideally the SIMATIC RF625T is mounted directly on a flat metal surface of at least 150 mm diameter where it achieves a typica...

Page 393: ...ansponders per packaging unit Minimum order quantity 1 packaging unit 10 units 7 10 3 Planning the use 7 10 3 1 Optimum antenna transponder positioning with planar mounting of the transponder on metal Figure 7 22 Example of optimum reader antenna transponder positioning The graphic shows an example of optimum positioning of the transponder relative to the reader or the antenna This positioning is ...

Page 394: ...e aligned in any direction When using a linear antenna the polarization axes of antenna and transponder must always be aligned in parallel Figure 7 23 Optimum positioning of the transponder on a square or circular metal surface Table 7 35 Range on flat metallic carriers Carrier material Range Metal plate of at least Ø 150 mm 100 Metal plate Ø 120 mm approx 70 Metal plate Ø 85 mm approx 60 Metal pl...

Page 395: ... without base approx 50 The maximum range of 100 is achieved by mounting the transponder in a free space with low reflections on a flat metal carrier with a diameter of at least 150 mm You will find more detailed information on the range in the section Minimum distances and maximum ranges Page 337 7 10 3 4 Mounting in metal It is possible to mount the transponder in metal If there is not enough cl...

Page 396: ...ry Chip manufacturer type IMPINJ MONZA 4QT Memory type EEPROM Memory configuration EPC 12 16 bytes 96 128 bits User memory 64 bytes 512 bits TID 4 bytes 32 bits Reserved passwords 64 bytes 512 bits Number of write cycles 40 C 1014 Number of read cycles 40 C 105 Data retention time 40 C 22 years Electrical data Range 1 5 m 2 Protocol ISO 18000 63 Transmission speed 320 kbps Polarization Linear Mech...

Page 397: ...50 g 3 Design dimensions and weight Dimensions D 30 8 mm Weight 6 g Type of mounting 1 x M3 countersunk screw 0 5 Nm Standards specifications approvals MTBF 1141 years 1 The range is reduced to 70 at the band limits 902 MHz or 928 MHz Due to frequency fluctuations this effect has no impact 2 Mounting on a flat metal surface with a diameter of at least 150 mm and at room temperature The information...

Page 398: ...te Description Conformity with the RED directive 2014 53 EU Conformity with the RoHS directive 2011 65 EU Table 7 39 6GT2810 2EE01 RF625T Certificate Description Federal Communica tions Commission Passive labels or transponders comply with the valid regulations certifica tion is not required This product is UL certified for the USA and Canada It meets the following safety standard s UL508 Industri...

Page 399: ...tion of tools containers and metal frames The RF630T is small and rugged and suitable for industrial applications with IP68 IPX9K degree of protection It is highly resistant to oil grease and cleaning agents The SIMATIC RF630T is mounted directly onto metal surfaces to ensure optimum functioning SIMATIC RF630T Characteristics Area of application Identification tasks in rugged industrial environ me...

Page 400: ...form 10 transponders per packaging unit Minimum order quantity 1 packaging unit 10 units 7 11 3 Planning application 7 11 3 1 Optimum antenna transponder positioning The maximum reading range is achieved when the reader antenna is positioned at right angles to the mounting surface In the case of parallel mounting directly above the transponder detection is not possible Optimum alignment of the tra...

Page 401: ... 11 SIMATIC RF630T SIMATIC RF600 System Manual 11 2018 J31069 D0171 U001 A21 7618 401 Application example Antenna Object made of metal e g motor block Transponder Conveyor belt Figure 7 26 RF630T application example ...

Page 402: ... any direction since the transmitting and receiving RF660A antennas operate with circular polarization Figure 7 27 Optimum positioning of the transponder on a square or circular metal surface Table 7 41 Range on flat metallic carriers Carrier material Range Metal plate of at least Ø 300 mm 100 Metal plate Ø 150 mm approx 75 Metal plate Ø 120 mm approx 50 Metal plate Ø 85 mm approx 40 On rectangula...

Page 403: ...902 928 MHz 1 Memory Chip manufacturer type NXP G2XM Memory type EEPROM Memory configuration EPC 12 30 bytes 96 240 bits User memory 64 bytes 512 bits TID 8 bytes 64 bits Number of write cycles 40 C 1014 Number of read cycles 40 C 105 Data retention time 40 C 10 years Electrical data Range 2 m 2 Protocol ISO 18000 63 Transmission speed 320 kbps Polarization Linear Mechanical specifications Materia...

Page 404: ...rding to DIN EN 60721 3 7 Class 7 M3 100 g 3 Vibration to EN 60068 2 6 20 g 3 Design dimensions and weight Dimensions D 21 20 mm Weight 22 g Type of mounting Screw in SW 19 mm 6 Nm Standards specifications approvals MTBF 1712 years 1 The range is reduced to 70 at the band limits 902 MHz or 928 MHz Due to frequency fluctuations this effect has no impact 2 Mounting on a flat metal surface with a dia...

Page 405: ...TIC RF630T SIMATIC RF600 System Manual 11 2018 J31069 D0171 U001 A21 7618 405 7 11 5 Dimension drawing Figure 7 28 SIMATIC RF630T Units of measurement All dimensions in mm General tolerances in accordance with DIN ISO 2768f ...

Page 406: ...ive 2014 53 EU Conformity with the RoHS directive 2011 65 EU Table 7 44 6GT2810 2EC10 RF630T Standard Federal Communications Commission Passive labels and transponders comply with the valid regulations certification is not required This product is UL certified for the USA and Canada It meets the following safety standard s UL508 Industrial Control Equipment CSA C22 2 No 142 Process Control Equipme...

Page 407: ...protection IP68 It is highly resistant to oil grease and cleaning agents SIMATIC RF640T should preferably be mounted directly on a flat metal surface of at least 150 mm in diameter SIMATIC RF640T Characteristics Area of application Identification tasks in rugged industrial envi ronments Suitable for use in hazardous are as Frequency range ETSI 865 to 868 MHz FCC 902 to 928 MHz Air interface Accord...

Page 408: ...tity 1 packaging unit 10 units 7 12 3 Planning the use 7 12 3 1 Optimum antenna transponder positioning with plane mounting of the transponder on metal Example of optimum antenna transponder positioning Figure 7 29 Example of optimum antenna transponder positioning with RF600 readers and an RF600 antenna Note that reflections may occur with large metal surfaces These can be minimized by changing t...

Page 409: ... any direction since the transmitting and receiving RF660A antennas operate with circular polarization Figure 7 30 Optimum positioning of the transponder on a square or circular metal surface Table 7 46 Range on flat metallic carriers Carrier material Range Metal plate of at least Ø 150 mm 100 Metal plate Ø 120 mm approx 80 Metal plate Ø 85 mm approx 55 Metal plate Ø 65 mm approx 40 On rectangular...

Page 410: ... 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 The essential health and safety requirements are satisfied in accordance with standards EN 6007...

Page 411: ... depends on the ambient temperature and the radiated power of an antenna in the 865 868 MHz frequency band within the hazardous area WARNING Ignitions of gas air mixtures When using the RF640T transponder check that the temperature class is adhered to in keeping with the requirements of the area of application Non compliance with the permitted temperature ranges while using the transponder can lea...

Page 412: ... C T4 25 C to 65 C T5 25 C to 50 C T6 Temperature class assignment for gases and radiated power for 2000 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 2000 mW the temperature class assignment is as follows Ambient temperature range Temperature class 25 C to 85 C T...

Page 413: ...b IIIA or alternatively non conductive dusts ib IIIB Temperature class grading for dusts WARNING Ignitions of dust air mixtures When using the RF640T transponder check that the temperature values are adhered to in keeping with the requirements of the area of application Non compliance with the permitted temperature ranges while using the transponder can lead to ignitions of dust air mixtures Tempe...

Page 414: ... power of 2000 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 2000 mW the temperature class assignment is as follows Ambient temperature range Temperature value 25 C Ta 60 T135 C Temperature class assignment for dusts and a radiated power of 10 mW ERP to 2000 mW ER...

Page 415: ...agram 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 The respective temperature value and the maximum allowed ambient temperature in relation to the radiated power of the antenna is shown in the diagram below Temperature value Ambient temperature Figure 7 32 Temperatu...

Page 416: ...to 868 MHz FCC 902 928 MHz 1 Memory Chip manufacturer type NXP G2XM Memory type EEPROM Memory configuration EPC 12 30 bytes 96 240 bits User memory 64 bytes 512 bits TID 8 bytes 64 bits Reserved passwords 8 bytes 64 bits Number of write cycles 40 C 1014 Number of read cycles 40 C 105 Data retention time 40 C 10 years Electrical data Range 4 m 2 Protocol ISO 18000 63 Transmission speed 320 kbps Pol...

Page 417: ... Ex II 2 G Ex ib IIB T6 T3 Gb II 2 D Ex ib IIIB T C Db 25 C Ta 85 C MTBF 1757 years 1 The range is reduced to 70 at the band limits 902 MHz or 928 MHz Due to frequency fluctuations this effect has no impact 2 Mounting on a flat metal surface with a diameter of at least 150 mm and at room temperature The information relates to the maximum read range You will find more information on ranges in the s...

Page 418: ...espect 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 Note Damage to the surface of the housing The values specified for the IP x9K test are maximum values and must not be applied continuously Protracted loading of the transponder can lead to damage to th...

Page 419: ...Transponder 7 12 SIMATIC RF640T SIMATIC RF600 System Manual 11 2018 J31069 D0171 U001 A21 7618 419 7 12 5 Dimension drawing Figure 7 33 SIMATIC RF640T Units of measure All dimensions in mm ...

Page 420: ...al Requirements CSA C22 2 No 60950 1 Safety of Information Technology Equip ment UL Report E 205089 ATEX certification The type test certification for the RF640T is stored by TÜV 07 ATEX 346241 Version 1 On the basis of this certification the CE declaration by the manufacturer has been made according to directive 94 9 EC The producing factory of the RF640T has an ATEX quality assurance system reco...

Page 421: ...n The areas of application are industrial asset management RF identification of tools contain ers and metallic equipment Frequency range ETSI 865 to 868 MHz FCC 902 to 928 MHz Air interface According to ISO 18000 63 Memory EPC 56 bytes 448 bits User memory 256 bytes 2048 bits Read range Max 6 0 m 1 Mounting Glued Mounting cover M4 Retaining bracket M5 Mounting Designed for direct mounting on condu...

Page 422: ...tity 1 packaging unit 20 units 7 13 3 Technical specifications Table 7 52 Technical specifications of SIMATIC RF645T 6GT2810 2HC05 Product designation SIMATIC RF645T Radio frequency Operating frequency broadband ETSI 865 to 868 MHz FCC CMIIT and others 902 to 928 MHz Memory Chip manufacturer type NXP UCODE 7xm 2k Memory configuration EPC 56 bytes 448 bits User memory 256 bytes 2048 bits TID 12 byt...

Page 423: ...85 C During transportation and storage 40 85 C Distance from metal 0 mm Designed for mounting directly on metal Degree of protection IP68 Shock according to DIN EN 60721 3 7 Class 7 M3 2 500 m s2 Vibrations according to EN 60068 2 6 2 200 m s2 Resistance to mechanical stress Not permitted Design dimensions and weight Dimensions L x W x H 52 0 5 36 0 5 12 5 mm Weight Approx 25 g Type of mounting Gl...

Page 424: ...nsponder 7 13 SIMATIC RF645T SIMATIC RF600 424 System Manual 11 2018 J31069 D0171 U001 A21 7618 7 13 4 Dimension drawing All dimensions in mm SIMATIC RF645T Figure 7 34 Dimension drawing of SIMATIC RF645T ...

Page 425: ...onder 7 13 SIMATIC RF645T SIMATIC RF600 System Manual 11 2018 J31069 D0171 U001 A21 7618 425 Retaining bracket for SIMATIC RF645T Figure 7 35 Dimension drawing mounting cover 6GT2898 5AA00 for SIMATIC RF645T ...

Page 426: ...5AB00 for SIMATIC RF645T 7 13 5 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 Federal Communications Commission Passive labels and transponders comply with the valid regulations certification is not required ...

Page 427: ...egree of protection It is highly resistant to oil grease and cleaning agents The SIMATIC RF680T is mounted directly onto metal carriers to ensure optimum functioning SIMATIC RF680T Characteristics Area of application Applications with high temperatures up to 220 C Suitable for use in hazardous areas Typical areas of application Paint shops and their preparatory treatments incl drying ovens Electro...

Page 428: ... number SIMATIC RF680T 6GT2810 2HG80 Delivery format SIMATIC RF680T is supplied in the following form 10 transponders per packaging unit Minimum order quantity 1 packaging unit 10 units 7 14 3 Planning the use 7 14 3 1 Optimum antenna transponder positioning with plane mounting of the transponder on metal Figure 7 37 Example of optimum antenna transponder positioning ...

Page 429: ...e transponder must be mounted on a metallic mounting surface with a minimum diameter of 150 mm On rectangular carrier plates the range depends on the mounting orientation of the transponder You will find more information on the range in the section Minimum distances and maximum ranges Page 337 7 14 3 3 Range when mounted on non metallic carrier materials Table 7 55 Range with non metallic carriers...

Page 430: ...h standards IEC 60079 0 2011 and EN 60079 11 2012 This allows the RF680T transponder to be used in hazardous areas for gases for the device category 2G and gas group IIB or alternatively in hazardous areas for dusts for the device category 2D and group IIIB Note Readability of the serial number on the type plate When using the transponder make sure that the serial number can be read The serial num...

Page 431: ...lass is adhered to in keeping with the requirements of the area of application Non compliance with the permitted temperature ranges while using the transponder can lead to ignitions of gas air mixtures WARNING Ignitions of gas air mixtures The maximum transmitting power of the transmitter used to operate the transponder must not exceed 2 W Non compliance with the permissible transmitting power can...

Page 432: ...iated power for 1000 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 1000 mW the temperature class assignment is as follows Ambient temperature range Temperature class 25 C 220 C T2 25 C 151 C T3 25 C 86 C T4 25 C 51 C T5 25 C 36 C T6 Temperature class assignment fo...

Page 433: ...am This makes the following temperature class assignment valid Ambient temperature range Temperature class 25 C Tmax T2 C T2 25 C Tmax T3 C T3 25 C Tmax T4 C T4 25 C Tmax T5 C T5 25 C Tmax T6 C T6 Figure 7 39 Maximum permitted ambient temperature depending on the radiated power 7 14 3 6 Use of the transponder in the hazardous area for dusts The equipment is suitable for dusts whose ignition temper...

Page 434: ...s 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 range Temperature value 25 C Ta 108 T135 C Temperature class assignment for dusts and a radiated power less...

Page 435: ...ee diagram orange line 2 See diagram blue line WARNING Ignitions of dust air mixtures Using the RF680T transponder with radiant power greater than 1280 mW ERP requires compliance with the reduced maximum ambient temperature see diagram for maintaining the temperature value to a maximum of 135 C Non compliance with the permitted temperature ranges while using the transponder can lead to ignitions o...

Page 436: ...65 to 868 MHz FCC 902 928 MHz 1 Memory Chip manufacturer type NXP G2XM Memory type EEPROM Memory configuration EPC 12 30 bytes 96 240 bits User memory 64 bytes 512 bits TID 8 bytes 64 bits Reserved passwords 8 bytes 64 bits Number of write cycles 40 C 1014 Number of read cycles 40 C 105 Data retention time 40 C 10 years Electrical data Range 5 m 2 Protocol ISO 18000 63 Transmission speed 320 kbps ...

Page 437: ...4 Vibration to EN 60068 2 6 20 g 4 Design dimensions and weight Dimensions L x W x D 32 15 130 mm Weight 50 g Type of mounting 2 x M6 screws 1 Nm Standards specifications approvals Proof of suitability II 2G Ex ib IIB T6 to T2 Gb II 2D Ex ib IIIB T135 C Db MTBF 1940 years 1 The range is reduced to 70 at the band limits 902 MHz or 928 MHz Due to frequency fluctuations this effect has no impact 2 Mo...

Page 438: ...cate 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 58 6GT2810 2HG80 RF680T Standard Federal Communications Commission Passive labels or transponders comply with the valid regulations certification is not required This product is UL certified for the USA and Canada It meets the following s...

Page 439: ...ng factory of the RF680T Version 1 has an ATEX quality assurance system recognized by the DEKRA EXAM GmbH with certificate number BVS 11 ATEX ZQS E111 Manufacturer s address distributor Manufacturer s address factory Siemens Aktiengesellschaft PD PA CI Process Industries and Drives Division Process Automation Industrial Communication and Identification D 76181 Karlsruhe Germany Siemens Aktiengesel...

Page 440: ...X9K It is highly resistant to oil grease and cleaning agents The SIMATIC RF682T is mounted directly onto metal surfaces to ensure optimum functioning SIMATIC RF682T Characteristics Area of application Applications with high temperatures briefly up to 220 C Typical areas of application Paint shops and their preparatory treatments incl drying ovens Electrophoretic deposition area Primer coat incl dr...

Page 441: ...682T is available in the following form 10 mounting sets per packaging unit Minimum order quantity 1 packaging unit 7 15 3 Planning operation 7 15 3 1 Optimum antenna transponder positioning with plane mounting of the transponder on metal Figure 7 42 Example of optimum antenna transponder positioning 7 15 3 2 Note on installation NOTICE Reduction of the write read range When mounting on metal or c...

Page 442: ... axis runs as shown in the diagram below The polarization axis of the transponder should always run parallel to the polarization axis of the antenna to achieve optimum distances and results 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 p...

Page 443: ... Memory Chip manufacturer type NXP UCode DNA Memory type EEPROM Memory configuration EPC 28 bytes 224 bits User memory 384 bytes 3072 bits TID 12 bytes 96 bits Number of write cycles 40 C 105 Number of read cycles 40 C unlimited Data retention time 40 C 20 years Electrical data Range Writing Up to 1 8 m 1 Reading Up to 3 5 m 1 Protocol EPCglobal Class 1 Gen 2 ISO 18000 63 Transmission speed 400 kb...

Page 444: ...rage 40 100 C Distance from metal Only intended for mounting directly on metal Degree of protection IP68 IPx9K Shock according to DIN EN 60721 3 7 Class 7 M3 100 g 2 Vibrations according to EN 60068 2 6 20 g 2 Resistance to mechanical stress Torsion and bending stress are not permitted Design dimensions and weight Dimensions L x W x H 130 32 15 mm Weight 50 g Type of mounting Screw connection 2x M...

Page 445: ...ystem Manual 11 2018 J31069 D0171 U001 A21 7618 445 7 15 5 Dimension drawing Figure 7 44 Dimension drawing of SIMATIC RF682T Figure 7 45 Dimension drawing mounting for SIMATIC RF68xT All dimensions in mm Tolerances unless indicated otherwise 0 5 mm ...

Page 446: ... Certificates and approvals Table 7 61 Certificates and approvals Labeling Description Conformity with the RED directive 2014 53 EU Conformity with the RoHS directive 2011 65 EU Federal Communications Commission Passive labels and transponders comply with the valid regulations certification is not required ...

Page 447: ...ckwell controller OPC UA Configuration manual SIMATIC RF600 section OPC UA interface Configuration manual SIMATIC RF600 section OPC UA interface You can find the SIMATIC RF600 configuration manual on the pages of Siemens Industry Online Support https support industry siemens com cs ww en ps 15088 man 8 2 Integration in IT networks via the user application Connecting the RF600 readers using XML If ...

Page 448: ...out this 8 3 Integration in control networks Connection of the RF615R RF680R RF685R readers RF680R RF685R readers can be connected to a SIMATIC controller via Ethernet Ethernet IP PROFINET directly or via PROFIBUS and the ASM 456 communications module The RF615R reader can be connected directly to a SIMATIC controller via Ethernet and PROFINET Interfaces and blocks of the communications modules re...

Page 449: ...TIC controllers Figure 8 1 Configuration graphic with SIMATIC RF680R or RF685R RF615R and PROFINET connection Figure 8 2 Configuration graphic with SIMATIC RF680R or RF685R and PROFINET connection via an Ethernet IP controller Figure 8 3 Configuration graphic with SIMATIC RF680R or RF685R and PROFIBUS connection You will find more information on the ASM 456 in the operating instructions ASM 456 ht...

Page 450: ...Integration into networks 8 3 Integration in control networks SIMATIC RF600 450 System Manual 11 2018 J31069 D0171 U001 A21 7618 ...

Page 451: ...nly LED operating display RUN STOP R S Shows whether the reader is ready for operation ERROR ER Indicates whether an error has occurred MAINTENANCE MAINT only with RF615R RF680R RF685R Shows whether the reader needs maintenance POWER PWR Shows whether the reader is supplied with power PRESENCE PRE only with RF615R RF650R Among other things indicates whether or not there are multi ple transponders ...

Page 452: ...yed by means of a red flashing PRE LED Functions of the LED status bar 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 Startup of the reader The startup process of the reader is displayed by ...

Page 453: ...ual SIMATIC RF600 9 1 1 How the LED status display works Note that the 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 A dist...

Page 454: ...binary this results in the value 0001 0010 This converted value is displayed in the LED status display The value 0 means that the corresponding LED does not light up whereas the value 1 means that the corresponding LED is lit red The middle 5th LED of the LED status display serves as a delimiter and is always lit yellow XML error message hexadecimal Error message binary LED fault display 0x12 0001...

Page 455: ...operation but there is an error The device is ready for operation The connection to the application XML OPC UA controller is established The device is working STEP 7 Ethernet IP The writeconfig command was received XML application The hostGreeting command was received OPC UA Connection to the client is established Flash test for reader identification There is an error You will find more informatio...

Page 456: ...mmand There is no valid data in IDENT_DATA Write command The transponder that has just left the antenna field contains an incomplete data record Possible causes Operating distance between reader and transponder is not being maintained Configuration error The data record to be processed is too large in dynamic mode 2 Hz 0x13 0xE1FE03 Address error The address area of the transponder has been exceed...

Page 457: ...er is in the vicinity and is active There is a reflecting metal surface in the vicinity that is disrupting the antenna field Possible corrective measures Reduce radiated power of antenna Change antenna alignment Avoid parallel alignment of antenna metal Use antenna cable with greater attenuation Install attenuator between antenna and reader Execute init_run after correcting the error 2 Hz 0x44 0xE...

Page 458: ...S DP PROFINET master no longer addressing commu nications module Execute INIT The communications module has detected a frame interruption on the bus The backplane bus PROFIBUS or PROFINET may have been reconfigured e g with HW Config or TIA Portal 2 Hz 0xCD 0xE4FE8D Firmware error Possible cause The firmware update was not run completely Internal communications error of the communications module r...

Page 459: ...mmunications module has overflowed Transponder data has been lost 0x59 0xE5FE09 The reader communications module runs a hardware reset INIT_ACTIVE set to 1 The Ident profile expects an INIT bit 15 in the cyclic control word 0x5A 0xE5FE0A The CMD command code and the relevant acknowledgement do not match This can be a software error or synchronization error that cannot occur in normal operation 0x5...

Page 460: ...with the command e g READ is too high Error when processing the command Possible causes action to be taken The data in AdvancedCmd or IID_CMD_STRUCT is incorrect e g WRITE command with length 0 Check AdvancedCmd or IID_CMD_STRUCT and execute an INIT The hardware of the reader communications module is defective The reader or communications module receives bad data with an INIT The AB byte does not ...

Page 461: ...his status only the Reset_Reader command WRITE CONFIG is permitted 0x72 0xE7FE02 The CMD command code is not permitted 0x73 0xE7FE03 The LEN_DATA parameter of the command is too long and does not match the global data reserved within the send data buffer TXBUF 0x74 0xE7FE04 The receive data buffer RXBUF or the send data buffer TXBUF is too small the buffer created at TXBUF RXBUF does not have the ...

Page 462: ...stem Manual 11 2018 J31069 D0171 U001 A21 7618 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 ...

Page 463: ... The EU and UK versions satisfy the low voltage directive as well as the current EU standards for CE conformity Furthermore the US version has been UL certified for the US and Canada Table 10 1 Wide range power supply unit for SIMATIC RF systems Characteristics Area of application Voltage supply for Siemens Ident de vices Degree of protection IP67 Design features Mechanically and electrically rug ...

Page 464: ...s for the wide range power supply unit for SIMATIC RF sys tems Article number 24 V DC connecting cable for SIMATIC RF600 readers RF615R RF650R RF680R RF685R With plug 5 m 6GT2891 0PH50 With open ends 2 m 6GT2891 4EH20 With open ends 5 m 6GT2891 4EH50 24 VDC connecting cable for readers of the SIMATIC product family MOBY D 5 m 6GT2491 1HH50 24 V DC connecting cable for SIMATIC RF200 RF300 readers w...

Page 465: ...et outlet is freely accessible Within the operating temperature range of the power supply unit above an ambient temperature of 25 C very high temperatures max approx 81 5 C at an ambient temperature of 70 C can occur on the housing due to the internal heating of the device In this case make sure that the housing is covered in order to protect people from coming into contact with the hot housing Ad...

Page 466: ...rds specified below UL 60950 1 Information Technology Equipment Safety Part 1 General Requirements CSA C22 2 No 60950 1 Safety of Information Technology Equipment NOTICE Warranty The compliance of the SIMATIC RFID systems to the safety standards mentioned above and the conditions in the UL approval will not be guaranteed if neither the wide range power supply unit for SIMATIC RF systems nor power ...

Page 467: ... the voltage supply NOTICE Plugging pulling the power supply cable Plugging or pulling the power cable of the wide range power supply unit is only permitted when no voltage is applied powered down NOTICE Strain on the power cable connector The power cable is attached to removed from the power supply using the knurled nut integrated in the plug Avoid twisting the plug once it is mounted If high sho...

Page 468: ...ctive conductor The power supply unit is maintenance free and contains no parts to be changed by the user The power derating when operating at an ambient temperature of above 50 C must be ensured by the user The base area of the power supply unit is screwed onto the mounting plate or mounting wall using the four mounting holes e g screw and washer M5 Optimum cooling by natural convection must be a...

Page 469: ...unts that can cause damage if the housing is immersed in water 1 m deep for 30 minutes All information applies only when connected and locked The assignment of degrees of protection is subject to standardized test methods If no secondary cables are connected close the secondary sockets with a protective cap 10 1 6 Pin assignment of DC outputs and mains connection Table 10 4 Pin assignment of the D...

Page 470: ...ms at Uin 230 VAC Power supply unit classification Level 3 acc to CSA Mechanical specifications Housing Material Polyamide glass fiber reinforced Casting compound Polyurethane Color Black Housing classification UL94 V0 MTBF in years 255 Permitted ambient conditions Ambient temperature During operation 25 70 C During transportation and storage 40 85 C Self heating on full load max 45 K Surface temp...

Page 471: ...HF coupling EN 61000 6 2 EN 61000 4 6 10 Veff Line interruption EN 61000 6 2 EN 61000 4 11 Design dimensions and weights Dimensions L W H Without plug 140 85 35 mm With plug 172 7 85 35 mm Weight 720 g Technical specifications of the input Rated input voltage Uin 100 to 240 VAC Input frequency fin 50 60 Hz Radio interference level EN 55011 B Switching frequency fsw approx 70 kHz typ Connector type...

Page 472: ... 90 10 Temperature coefficient ε 0 01 K at TA 25 C 70 C Overload behavior Pover Constant current Short circuit protection No load response Continuous no load stability Derating 2 K at TA 50 C 70 C Connector type M12 4 pin two sockets Table 10 7 Output configurations Input Outputs U1 U2 ILoad I1 I2 Efficiency Remarks 110 VAC 24 VDC 0 A No load protection 110 VAC 24 VDC 3 A 88 220 VAC 24 VDC 0 A No ...

Page 473: ...er supply unit for SIMATIC RF systems SIMATIC RF600 System Manual 11 2018 J31069 D0171 U001 A21 7618 473 10 1 8 Dimension drawing Figure 10 1 Dimension drawing wide range power supply unit for SIMATIC RF systems All dimensions in mm ...

Page 474: ...004 108 EG EMC 2006 95 EG Voltage directive Radio approval for Russia Belarus Kazakhstan Table 10 9 Approvals for wide range power supply unit for SIMATIC RF systems USA 6GT2898 0AC20 Marking Description This product is UL certified for the US and Canada It meets the following safety standards UL 60950 1 Information Technology Equipment Safety Part 1 General Require ments CAN CSA C22 2 No 60950 1 ...

Page 475: ...imary Earthed Dead Metal 300 Vrms 342 Vpk Primary SELV 300 Vrms 613 Vpk The following secondary output circuits are SELV 24 Vdc output of the unit The following secondary output circuits are at non hazardous energy levels 24 Vdc output The following secondary output circuits are supplied by a Limited Power Source 24 Vdc output The following output terminals were referenced to earth during performa...

Page 476: ...s and distribution Connectable readers All readers of the RF600 system Connectable antennas1 SIMATIC RF620A SIMATIC RF640A SIMATIC RF642A SIMATIC RF650A SIMATIC RF660A Degree of protection IP40 1 the antenna RF680A cannot be operated via the power splitter 10 2 2 Ordering data Table 10 10 Power splitter ordering data Article number Power splitter 6GT2890 0BC00 Table 10 11 Power splitter ordering d...

Page 477: ...ion are used between the power splitter and the antennas To calculate the total attenuation made up of the cable attenuation and the attenuation of the power splitter the various attenuation values need to be added For the configuration shown above the total attenuation is as follows 0 5 dB 3 2 dB 1 25 dB 4 95 dB The total attenuation of 4 95 dB must be stored in the configuration of the reader as...

Page 478: ...ency 500 1000 MHz Max input power 10 W Impedance 50 Ω Attenuation between input and outputs 3 2 dB Connector input outputs RTNC plug Mechanical specifications Housing Material Aluminum Color Silver Permitted ambient conditions Ambient temperature During operation 40 to 85 During transportation and storage 40 to 100 Degree of protection to EN 60529 IP40 Design dimensions and weights Dimensions L W ...

Page 479: ...g read points readers and antennas have a standardized VESA 100 mounting system 4 x M4 and can be secured with a holder SIMATIC RF615R RF650R RF680R RF685R SIMATIC RF640A RF642A RF650A RF660A RF680A The following holders are available for mounting the read points Antenna mounting kit SIMATIC antenna holder for RF600 devices 10 3 2 Ordering data Description Article number Antenna mounting kit 6GT28...

Page 480: ... U001 A21 7618 10 3 3 Antenna mounting kit Flexible mounting is possible using the antenna mounting kit An antenna can then be rotated in any direction in space Antenna mounting kit Description Pivot range of antenna mounting kit Wall side Antenna side Dimensions clearances of antenna mounting kit ...

Page 481: ...e wall 10 3 4 SIMATIC antenna holder 10 3 4 1 Mounting with the SIMATIC antenna holder Flexible mounting is possible with the SIMATIC antenna holder The RF600 readers antennas can be rotated in any direction with this holder Follow the steps below to mount the SIMATIC antenna holder with the reader or the antenna on the wall 1 Install the wall mounting plate A on the wall 2 Install the articulated...

Page 482: ...1 7618 4 Mount the antenna mounting plate C into the articulated joint B and fasten it with the help of screws to the articulated joint B 5 Align the SIMATIC antenna holder by sliding the setting angle on the articulated joint B and tighten all the screws Figure 10 4 Installing the SIMATIC antenna holder ...

Page 483: ...Accessories 10 3 Reader and antenna holders SIMATIC RF600 System Manual 11 2018 J31069 D0171 U001 A21 7618 483 10 3 4 2 Dimension drawing Figure 10 5 Front view ...

Page 484: ...Accessories 10 3 Reader and antenna holders SIMATIC RF600 484 System Manual 11 2018 J31069 D0171 U001 A21 7618 Figure 10 6 Top view with section A A ...

Page 485: ...Accessories 10 3 Reader and antenna holders SIMATIC RF600 System Manual 11 2018 J31069 D0171 U001 A21 7618 485 Figure 10 7 Section A A All dimensions in mm ...

Page 486: ...Accessories 10 3 Reader and antenna holders SIMATIC RF600 486 System Manual 11 2018 J31069 D0171 U001 A21 7618 ...

Page 487: ...duction and marketing at Siemens fulfills the requirements of ISO 9001 corresponds to EN29001 1987 This has been certified by DQS the German society for the certification of quality management systems EQ Net certificate no 1323 01 Country specific approvals Safety If the device has one of the following markings the corresponding approval has been obtained Labeling Description Underwriters Laborato...

Page 488: ...CC CFR 47 Part 15 sections 15 247 Radio Frequency Interference Statement This equipment has been tested and found to comply with the limits for a Class A digital device pursuant to Part 15 of the FCC Rules Industry Canada Radio Standards Specifications RSS 210 Issue 6 Sections 2 2 A8 CMIIT ID XXXXYYZZZZ China CMIIT Brazil ANATEL South Korea KCC Japan VCCI South Africa ICASA Russia Belarus and Kaza...

Page 489: ...nstruction manual may cause harmful interference to radio communications Operation of this equipment in a residential area is likely to cause harmful interference in which case the user will be required to correct the interference at his own expense Shielded Cables Shielded cables must be used with this equipment to maintain com pliance with FCC regulations Modifications Changes or modifications n...

Page 490: ...n to commissioning through to maintenance and modernization You will find contact data on the Internet at the following address Link 3 http w3 siemens com aspa_app RFID homepage For general information about our identification systems visit RFID home page http w3 siemens com mcms identification systems Online catalog and ordering system The online catalog and the online ordering system can also be...

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