Home

bl ident

1. 2 4 2 Minimizing interferences caused by metal 000000000000000000000000000000000 0000000000000000 0000000000000000 0000000000000000 2 4 3 Mounting of several read write heads metal frames or metal carriers 0000000000000000000000000000 0000000 3 4 4 No mounting of data carriers on Metal 0000000000000000000000000000000000 0000000000000000 0000000000000000 000000000000 000000000 5 4 5 Upshot Transmission range interference caused by metal 000000000000000000000000000000000 00000000000000 00000000000 5 0101583 1212 BL ident 4 1 Installation guidelines 4 1 Overview Because of the inductive mode of operation of the data carrier and read write head every type of metal especially iron and ferromagnetic materials should be avoided in the proximity of these devices as they will interfere with the mode of operation This is why some important points should be taken into consideration during project planning and installation Minimum distance between read write heads Minimum distance between two adjacent data carriers Metal free space when mounting read write heads and data carriers on metal Mounting of several read write heads metal frames or metal carriers 4 2 Minimizing interferences caused by metal Problem A metal carrier is located above the transmission range of the read write head The metal carrier interferes with the ent
2. TW R16 B64 M L TW R16 B128 TW R20 B 128 TW R20 K2 TW R30 B 128 TW R30 K2 14 14 L 18 18 TW R50 B128 Measured values Data carrier on metal 5137 with plastic screws 8 4 0101583 1212 BL ident Operating data Industri A Table 13 Data carriers Read write heads Operating data TB M18 H1147 TB EM18WD H1147 TN M18 H1147 TW R50 K2 E 12 M 30 L 60 TW R22 HT E B64 M L TW R50 90 E HT B128 M L TW R50 90 E HT K2 M L TW R50 MF E 7 K2 M 10 TW 114 B128 TW L43 43 F B128 TW L82 49 P B128 TW BS10X1 5 19 B128 TW BS10X1 5 19 K2 Measured values Data carrier flush mounted on metal St37 0101583 1212 BL ident 8 5 Operating data of the read write heads with corresponding data carriers Table 13 Data carriers Read write heads Operating data TB M18 H1147 TB EM18WD H1147 TN M18 H1147 TW BD10X1 5 19 B128 TW BD10X1 5 19 K2 TW BV10X1 5 19 B128 TW BV10X1 5 19 K2 TW SPP18x1 B128 TW R30 M B128 TW R50 M B128 TW R80 M B128 M L TW R30 M K2 E 7 7 6 M 10 10 13 L 18 18 10 TW R50 M K22 E 7 7 10 M 15 15 22 L 24 24 32 2Measured values Data carrier flush mounted on metal 5137 8 6 D101583 1212 BL ident Operating data Industri A Table 13 Dat
3. 2 7 4 4 Read write head electronics 2 7 4 2 Read write head antenna eese ntt notes nett notet ttt not ttt netto notis 2 7 2 Connection of the read write heads eee eere eee eee eee 0000000000000000 000 0000000000000000 00000000000000 0000000000n 3 7 3 Overview of read write head model types eee eee reete 000000 sese eese e eno 4 7 4 Premoulded cables for connecting interface and read write heads eere 00000900000000 39 8 Operating data of the read write heads with corresponding data carriers 8 1 Instructions related to operating data 8 1 1 Dista ces emroRs NI 8 2 Operating 4 9 Accessories 9 1 General description of accessories 00o0000000000000e00000 eee eee ee eene sees sense sees esee eese eso 0000000000000000 000000 eaaa sese senos 2 9 2 Accessories for data carriers with 30 mm and 50 ee eee eee ee 0000000000 00000000000000 00000000000000 3 9 2 1 Spacer DS R30 9 2 2 Spacer DS R50 9 3 Accessories for cylindrical read write heads type M18 o0000000000000000000000000000000000 0000000000000000 00000000000000 4 93 1 Fikingeclamp BS18 e 4 SEL MEM
4. Read write devices ai Interface C Mobile data carriers 0101583 1212 BL ident 2 11 The TURCK BL ident system 2 2 1 Support for BL ident projects The following software and documents will provide additional help for project planning installation and start up To simulate and optimize an application please go to http www turck com where you may access the BL ident Simulator for free D101581 Interface Module for Fieldbus Connection This manual describes the professional operation of BL ident interface modules 0101579 Start up with PROFIBUS DP D101640 Start up with CoDeSys for Programmable Gateways 0101642 Start up with DeviceNet 0101644 Start up with EtherNet IP D101648 Start up with PROFINET D101763 Start up with CANopen D101831 Installation of the BL ident UHF System D101606 This manual contains a software description of a so called Handheld programming device which is used to read and write data independent of the location 0101584 This manual contains a hardware description of a so called Handheld programming device which is used to read and write data independent of the location The listed manuals can be downloaded from the internet 2 2 2 Networking with BL ident systems Basedon the possibility to integrate BL ident systems into existing bus systems a network of multiple BL ident systems can
5. S 2 61 1 Memory compong aana 2 6 1 2 Data carrier electronics 61 3 Data carfier ANTENNA cesesessssssesesssesssssscsescssssssssesesssesssssseseseesssssssessscsssssssseesscsuscsssseessessaesssussssessausesnesssessausessesssessausesceussessauseseensseessuanes 6 2 Overview of data carrier model types cccccccccocscccccccscccsccccscccscccccccscccscccccccccccccsccccsccscccccccescescccess 3 0101583 1212 BL ident 6 1 BL ident Data carriers for the 6 1 Functionality Figure 21 Block switching diagram data carrier The BL ident data carriers TAGs can be read from and written to contactless with the respective read write heads The operating frequency in the HF band is 13 56 MHz The data carriers are passive this means they have no battery When the data carriers move into the transmission range of a read write head energy is inductively coupled in and data transfer is initiated Attainable distances vary depending on the size of individual designs Designs are available as EEPROM or FRAM memory versions The BL ident data carrier consists of a memory component an electronic system an antenna Figure 21 Block switching diagram data carrier modulator control logics 6 1 1 Memory component The information on the data carrier can be read but new data can be added as well read write The me
6. Wa Industrial Automation USER MANUAL RFID SYSTEM INSTALLATION OF THE IDENT HF SYSTEM Industr A 1 About this manual 1 1 Explanation of used symbols 00000000000000000000000000000000000000000000000 0000000000000000 00 eee 0000 eaaa aane e aane eaaa eaaa 2 1 2 Introduction 2 1 3 TL T 2 Tak KERISE aaa aaa aan ne NG A EM MEM EIE 3 1 3 2 Instructions for project planning product installation ettet testes aana eaaa naa eaaa 3 2 The TURCK BL ident system 2 1 ident Modular RFID system 00000000000000000000000000 0000000000 0e0eee000e00000000n0000000000000 0000000000000000 2 2 1 4 ident Flexibility for your application security for your investment 000eee00000eee000aaa eaaa 2 2 1 2 BLident Data carriers 2 1 3 BLident Read write heads 21 4 BLident Interfaces Interfaces for the fieldbus connection Sets and single components teet 4 Compact fieldbus stations with interfaces for fieldbus connection eese reset ttes sotto notis 8 2 2 Schematic display of the identification system BL ident 00o000000000000000000 0000000000 000000000000 00000000000000000e 11 224 Suppor
7. Figure 45 Protective housing 5640 Table 41 Type code 5640 Protective housing 5640 Ident No 69500 Description Protective housing for rectangular read write heads of type CK40 Material Polyamide 9 12 0101583 1212 BL ident Accessories for rectangular read write heads of type 40 Industr A 9 6 5 Protective housing SG40 2 Figure 46 Protective housing SG40 2 Table 42 Type code SG40 2 Protective housing SG40 2 Ident No 69497 Description Temperature resistant protective housing for rectangular read write heads of type CK40 Material Ultem 9 6 6 Adjusting rail JS 025 037 Figure 47 Adjusting rail JS 025 037 Table 43 Type code JS 025 037 Adjusting rail JS 025 037 Ident No 69429 Description Adjusting rail for rectangular read write heads of type CK40 Material Stainless steel rustproof 0101583 1212 ident 9 13 Accessories 9 6 7 Protective cap T CK40 T FC Figure 48 Protective cap T CK40 T FC Table 44 Type code T CK40 T FC Protective cap T CK40 T FC Ident No 6900146 Description Teflon protective cap for rectangular read write heads of type CK40 Material PTFE 9 6 8 Protective cap T CK40 D FC Figure 49 Protective cap T CK40 D FC Table 45 Type code T CK40 D FC Protective cap T CK40 D FC Ident No 6900146 Description Teflon protective cap for rectangular read write heads of type CK40 high temp
8. Table 33 Type code QM 30 Quick mount bracket QM 30 Ident No 6945103 Description Quick mount bracket for cylindrical read write heads M30 x 1 5 Material Chrome plated brass 9 4 4 Protective cap SKN M30 Figure 38 Protective cap SKN M30 7 34 m J 9 M30 x 1 5 Table 34 Type code SKN M30 Protective cap SKN M30 Ident No Description Teflon protective cap for cylindrical read write heads M30 x 1 5 Material PTFE 9 8 D101583 1212 BL ident Shared accessories for cylindrical read write heads of types M18 M30 Industr A 9 5 Shared accessories for cylindrical read write heads of types M18 and M30 9 5 1 Mounting aid for BST fixing clamps BST UH Figure 39 Mounting aid BST E UH Table 35 Type code BST UH Mounting aid BST UH Ident No 6947219 Description Mounting aid for BST fixing clamps for cylindrical read write heads M18 x 1 and M30 x 1 5 Material Polyamide 9 5 2 Mounting aid for BST fixing clamps BST UV Figure 40 a Mounting aid BST 40 UV 54 15 D Table 36 Type code BST UV Mounting aid BST UV Ident No 6947218 Description Mounting aid for BST fixing clamps for cylindrical read write heads M18 x 1 and M30 x 1 5 Material Polyamide 0101583 1212 9 9 Accessories 9 5 3 Name plates for BST fixing clamps BST BS Figure 41 Name plates BST BS
9. 37 BST BS Name plates BST BS Ident No 6947220 Description Name plates for fixing clamps for cylindrical read write heads M18 x 1 and M30 x 1 5 Material Plastic 9 10 0101583 1212 BL ident Accessories for rectangular read write heads of type 40 Industr A 9 6 Accessories for rectangular read write heads of type CK40 9 6 1 Protective bracket MF CK40 1S Figure 42 Protective bracket 40 15 38 40 15 Protective bracket 40 15 6900481 Description Protective bracket for rectangular read write heads of type CK40 one sided Material Stainless steel rustproof 9 6 2 Protective bracket MF CK40 2S Figure 43 Protective bracket 40 25 39 40 25 Protective bracket 40 25 6900482 Description Protective bracket for rectangular read write heads of type CK40 angle Material Stainless steel rustproof 0101583 1212 ident Accessories 9 6 3 Protective bracket 40 35 Figure 44 Protective bracket 40 35 Table 40 40 35 Protective bracket 40 35 Ident No 6900483 Description Protective bracket for rectangular read write heads of type CK40 U profile Material Stainless steel rustproof 9 6 4 Protective housing SG40
10. 9 Mounting aid for BST fixing clamps 9 Mounting aid for BST fixing clamps 9 Name plates for BST fixing clamps 10 Accessories for rectangular read write heads of type 0 60000000000000000000000000 0000000000000000 00000000000000 11 Protective bracket MF CK4O I c 11 Protective bracket MF CK40 25 ssssssscssssssssscsssecsssecsnsecssscessscessseesuscessscessccessecsssecesnccessccesscessscesuscessscesuecessscesseesssceesuceesnessncessnseesees 11 Protective bracket MF CK40 35S ssssssssscssssscsssccssecsssecssscessscessecessscesseccssscessccessccessscesuccessecesscessscessscessscesssccssscessccesssessneessueessucessnseesees 12 Protective housing SG40 wae 12 Protective housing SG40 2 13 Adjusting rail JS 025 037 we 13 Protective Ree C pide a NGE ag sapan NANA NANA NANANG ADA AA DAN GANGGA NAD NGA AN KANANG SADE Ngan KAGAN ANGANGGE NENENG NG 14 Protective M 14 Handheld with accessories cccccccccccccscccccccsccscccccscsssssccsssccscccscssccsscccscsccecccccccceccccsccccsccsscccscccsccscccecs 15 Handheld computer PD Ident ssscssscsssessseecsssecsseecsnscessscesscsessssessesessscessceessccssuecesnecesseceasec
11. Table 5 Dimensions Protec Description Model type BL compact enclosure lengths tion Compact fieldbus class stations with RFID interface in IP67 IP67 Compact fieldbus station for BLCDN 2M12S DeviceNet BL compact 2RFID S simple RFID interface simple l O communication IP67 Compact fieldbus station for BLCCO 2M12S CANopen BL compact simple RFID interface simple I O communication 2RFID S 2 10 0101583 1212 BL ident Schematic display of the identification system BL ident Industr A 2 2 Schematic display of the identification system BL ident The TURCK BL ident system consists of multiple layers Each layer offers different variations It is possible to retrofit the application so that it accommodates the complete system Figure 1 System overview PLC PC for commissioning 9 nterface module for integration in the fieldbus systems E Jo m t E 5 5 S rs 7 85 e m H B E E es lee ex ES Ec B H 65 8 IP67 IP20 IP67
12. Data 2WH Data 0101583 1212 BL ident TB EM30WD H1147 Ex M30 x 1 5 36 5 LED Type TB EM30WD H1147 Ex Ident No 7030385 Mounting condition flush Ambient temperature 25 70 C Storage temperature in the explosion hazardous area see instruc tion leaflet in the explosion hazardous area see instruc tion leaflet Device designation Approval acc to II 3G Ex nA II T4 Gc Il 3D Ex t IIIB T135 C Dc TURCK Ex 10005M X Operating voltage DC rated operational current Data transfer Working frequency Radio communication and protocol standards Read write distance max Output function 10 30VDC lt 80 mA inductive coupling 13 56 MHz ISO 15693 45 mm 4 wire read write Design Dimensions Housing diameter Housing material Material active face threaded barrel M30 x 1 5 62 mm 30 mm Stainless steel V2A 1 4301 Plastic LCP GF30 Connection Vibration resistance Shock resistance Protection class Operating voltage 0101583 1212 ident 12 1 55 Hz 1 30 g 11 ms IP68 IP69K LED green Industr A m ATEX Kategorie Il 3 G Ex Zone 2 m ATEK Kategorie Il 3 D Ex Zone 22 threaded barrel M30 x 1 m Stainless steel 1 4404 front cap made of liquid crystal polymer Vectra C130 m high degree of protection IP69K for ex treme environmental conditions m special double lip seal m protecti
13. Data transfer Working frequency Radio communication and protocol standards Read write distance max Output function inductive coupling 13 56 MHz ISO 15693 180 mm 4 wire read write Internal ring diameter Design Dimensions Housing material Material active face 100 mm ring sensor S32 180x 137 5x 32mm Plastic POM yellow ABS yellow Connection Vibration resistance Shock resistance Protection class Operating voltage 7 44 connector M12 x 1 55 Hz 1 mm 30 g 11 ms IP67 LED green m Rectangular height 32 mm m Plastic ABS m Every read write head can communicate with a number of different TURCK data carriers m Powered and operated only via BLident interface module m M12x1 connector intended only for use with BLident adapter cable Connectors S2503 1 RD gt 3 BK 4WH Data ee 2BU Data Connectors 52500 1 BN 3 BU 4WH_ Data Connectors S2501 1 BN 4BK Data 2WH Data Functional principle The HF read write heads operating at a fre quency of 13 56 MHz form a transmission zone the size of which 0 500 mm varies depending on the combination of read write head and data carrier The read write distances mentioned here on ly represent standard values measured under laboratory conditions The read write distances of the data carriers for mounting in metal TW R M MF were de termined in metal Attainabl
14. 3 different mounting options in on met al incl accessories Read write m EEPROM memory 128 bytes Functional principle The HF read write heads operating at a fre quency of 13 56 MHz form a transmission zone the size of which 0 500 mm varies depending on the combination of read write head and data carrier The read write distances mentioned here on ly represent standard values measured under laboratory conditions The read write distances of the data carriers for mounting in metal TW R M MF were de termined in metal Attainable distances may vary by up to 30 due to component tolerances mounting con ditions ambient conditions and material quali ties especially when mounted in metal Testing of the application under real operat ing conditions is therefore essential especial ly with read write on the fly 0101583 1212 BL ident TW R80 M K2 Ident No TW R80 M K2 7030205 Data transfer inductive coupling Working frequency 13 56 MHz Memory type FRAM Chip Fujitsu MB89R118 Memory size 2048 byte Memory read write Freely usable memory 2000 byte Number of read operations unlimited Number of write operations 1010 Typical read time 0 5 ms byte Typical write time 0 5 ms byte Radio communication and protocol standards ISO 15693 Minimum distance to metal Omm Ambient temperature 25 85 C Storage temperature 45 85 C 140 C 1x100 h Des
15. 67 67 basic module BL67 B 2M12 67 RFID electronic module for BL67 2RFID S basic l O communication for PROFIBUS DPV1 DeviceNet PROFINET IO Ethernet Modbus TCP EtherNet IP CANopen EtherCAT Interfaces 2 4 6 and 8 channel designs are available the last digit of the model type description identifies the number of channels in the example here only 2 channel versions are shown IP67 Interfaces sets for basic communication PROFIBUS DPV1 DeviceNet PROFINET IO PROFINET IO AIDA EtherNet IP Multi protocol Ethernet Modbus TCP EtherNet IP TI BL67 DPV1 S 2 TI BL67 DN S 2 TI BL67 EN PN S 2 TI BL67 PN AC 2 TI BL67 PN AC S x TI BL67 EIP S 2 TI BL67 EN S 2 IP67 Interfaces sets for basic communication programmable for PROFIBUS DP Ethernet Modbus TCP EtherNet IP TI BL67 PG DP S 2 TI BL67 PG EN S 2 TI BL67 PG EN 2 TI BL67 PG EIP S 2 0101583 1212 BL ident 2 7 The TURCK BL ident system Compact fieldbus stations with interfaces for fieldbus connection The interfaces of the compact fieldbus stations BL compact have a 2 channel design and in part are equipped with integrated configurable digital I Os Table 5 Dimensions Protec BL compact enclosure lengths tion Compactfieldbus class stations with RFID interface in IP67 Description Model type IP67 Compact fieldbus station for PROFIBUS DP BL compac
16. 6 41 TW BS10X1 5 19 B128 17 5 14 M10 x 1 5 6G 234 12 2 4 Ident No TW BS10X1 5 19 B128 6901383 Data transfer Working frequency Memory type Chip Memory size Memory Freely usable memory Number of read operations Number of write operations Typical read time Typical write time Radio communication and protocol standards inductive coupling 13 56 MHz EEPROM NXP SLI SL2 128 byte read write 112 byte unlimited 10 2 ms byte 3 ms byte ISO 15693 Minimum distance to metal 10 Data carrier can be screwed in metal Ambient temperature 25 85 C Storage temperature 45 85 C Design BS10x1 5 Housing material Material active face Protection class Metal plastic S235JRG2 LCP Plastic yellow LCP GF30 IP68 Packaged quantity 6 42 Mobile data carrier m Read write Compatible with a number of BLident read write heads see data sheet or compatibility table EEPROM memory 128 bytes Functional principle The HF read write heads operating at a fre quency of 13 56 MHz form a transmission zone the size of which 0 500 mm varies depending on the combination of read write head and data carrier The read write distances mentioned here on ly represent standard values measured under laboratory conditions The read write distances of the data carriers for mounting in metal TW R M MF were de termined in
17. E Problem Parasitic induction via the serial connection cable Solution Use better cable shield and or ground read write head E HF interference via the antenna another read write head or inter system interference with the same frequency range Solution Interference caused by another read write head can be avoided with the help of the selective mode please refer to manual BL ident Proxy Ident Block PIB D101578 5 4 Coupling distances There are four types of parasitic induction 8 Galvanic coupling distance E Capacitive coupling distance E Inductive coupling distance 8 Irradiation coupling There are different causes for the interference of coupling distances Cables and cable assemblies 8 Incorrect or unfavorable installation Missing or incorrectly connected shield 8 Unfavorable spatial layout of cable With switching cabinet or enclosure 8 Missing or incorrectly wired potential equalization line Missing or incorrect grounding Unfavorable spatial layout Loosely mounted assemblies Unfavorable switching cabinet installation 0101583 1212 BL ident 5 3 EMC guidelines 5 5 5 4 What does EMC mean More and more interferences are impacting electronic components of an installation because of increasing density of component population added switched power electronics and increasing switching speeds The following is valid here The higher the level of automation the higher the danger of mutual in
18. Ex zone 1 m Every read write head can communicate with a number of different TURCK data carriers Powered and operated only via BLident interface module Connection only via BLident connection cable Connectors S2503 1 RD ma 3 BK ee 4WH Data 2BU Data Wiring diagram Data 0 BK Transceiver GND BU 24 VDC BN ii Data 1 4 WH Functional principle The HF read write heads operating at a fre quency of 13 56 MHz form a transmission zone the size of which 0 500 mm varies depending on the combination of read write head and data carrier The read write distances mentioned here on ly represent standard values measured under laboratory conditions The read write distances of the data carriers for mounting in metal TW R M MF were de termined in metal Attainable distances may vary by up to 30 96 due to component tolerances mounting con ditions ambient conditions and material quali ties especially when mounted in metal Testing of the application under real operat ing conditions is therefore essential especial ly with read write on the fly 0101583 1212 BL ident TN CK40 R130H93 2M Ex Type Ident No TNLR Q80 R192H132 2M EX 7030400 Ambient temperature 20 40 C Device designation 9 II 2G Ex d IIC T6 Operating voltage DC rated operational current Data transfer Working frequency Radio co
19. 1RD 3 BK 4WH Data Connectors 52500 1 BN eo 3 BU 4WH Data Connectors S2501 1 BN 3 BU 4BK Data 2WH Data Functional principle The HF read write heads operating at a fre quency of 13 56 MHz form a transmission zone the size of which 0 500 mm varies depending on the combination of read write head and data carrier The read write distances mentioned here on ly represent standard values measured under laboratory conditions The read write distances of the data carriers for mounting in metal TW R M MF were de termined in metal Attainable distances may vary by up to 30 due to component tolerances mounting con ditions ambient conditions and material quali ties especially when mounted in metal Testing of the application under real operat ing conditions is therefore essential especial ly with read write on the fly 0101583 1212 BL ident TN Q80 H1147 S1126 05 3 080 M12x1 Qo ae 114 Type Ident No TN Q80 H1147 81126 7030217 Mounting condition Ambient temperature non flush flush mountable 25 70 C Operating voltage DC rated operational current Data transfer Working frequency Radio communication and protocol standards Read write distance max Output function 10 30VDC lt 80 mA inductive coupling 13 56 MHz ISO 15693 146 mm 4 wire read write Design Dimensions Housing material Material active
20. Basic rules for safeguarding EMC Industr A 5 6 4 Shielding of cables Signal lines must be shielded to avoid interference The best shield is created when signal lines are installed inside steel pipes however in most cases cables with braided shields are adequate The correct connection is the decisive factor for shield effectiveness in both cases because a non connected or incorrectly connected shield has no shield effectiveness The following must be observed 8 Interference signals are often found in the range of gt 10 kHz and this is why an extensive shield connection is needed 8 The shield rail has excellent conductivity and must be connected to the switching cabinet so that a large surface is covered the shield rail must be as close as possible to the cable entry The insulation must be stripped off the cable the stripped cable must be connected to the shield rail with HF clamps or cable clips The shield rail must be connected to the PE rail If shielded cables must be disrupted the shield must be continued via the respective connector housings of suitable connectors 8 Ifadapter plugs without a suitable shield connection are used the shield must be continued by cable clamps at the location of the disruption 0101583 1212 BL ident 5 7 EMC guidelines 5 8 0101583 1212 BL ident Industr A 6 ident Data carriers for the HF band 6 1 d
21. S2503 1RD BE M 3 BK 4WH Data 2BU Data Wiring diagram Data 0 Transceiver Functional principle The HF read write heads operating at a fre quency of 13 56 MHz form a transmission zone the size of which 0 500 mm varies depending on the combination of read write head and data carrier The read write distances mentioned here on ly represent standard values measured under laboratory conditions The read write distances of the data carriers for mounting in metal TW R M MF were de termined in metal Attainable distances may vary by up to 30 due to component tolerances mounting con ditions ambient conditions and material quali ties especially when mounted in metal Testing of the application under real operat ing conditions is therefore essential especial ly with read write on the fly 7 49 TNLR Q80 R234H172 2M Ex Type Ident No TNLR Q80 R234H172 2M EX 7030401 Ambient temperature 20 40 C Device designation II 2G Ex d IIC T6 Operating voltage DC rated operational current Data transfer Working frequency Radio communication and protocol standards Output function 19 2 28 8VDC lt 90 mA inductive coupling 13 56 MHz ISO 15693 4 wire read write Connection Vibration resistance Shock resistance Operating voltage 7 50 Connection cable 55 Hz 1 mm 30 g 11 ms LED green m ATEX category 11 2
22. carriers TW R16 B64 TW R22 HT B64 E Table 7 Byte No Content Access Block No Datastructureof StartAddress the I Code SL1 one block data carriers comprises 4 Byte 0108 UID Read only Oto 1 9to 12 Conditions for write Read only via special 2 access command 13 to 16 Special functions e g Read write via special 3 4 EAS QUIET commands 17 Family code 18 Application identifier 19 to 64 User data range Read write 4 5 to 15 0101583 1212 BL ident The TURCK BL ident system The HF data carriers type FRAM are readable and writable starting with byte No 0 to Byte No 1999 Table Data structure of the FRAM data carriers page 2 18 describes the data structure of the data carriers TW R20 K2 TW R30 K2 TW R50 K2 TW R50 90 HT K2 Table 8 Data structure of the FRAM data carriers 2 18 Byte No Content Access Block No StartAddress one block comprises 8 Byte 0 to 1999 User data range Read write 0 to 249 2000 to 2007 UID Read only via 250 2008 to 2015 AFI DSFID EAS Read write with 251 limitations via special command 2016 to 2047 Special functions e g Read only via special 252 to 255 EAS QUIET command The HF data carriers type FRAM are readable and writable starting with byte No 0 to Byte No 7935 TW R50 K8 The data carrier applies of 248 blocks 00 up to F7Hex with 32 Bytes each 0101583 1212 BL ident User data ranges of the data carrier versions Indus
23. m Threaded barrel M30 x 1 5 m Chrome plated brass m Every read write head can communicate with a number of different TURCK data carriers m Powered and operated only via BLident interface module m M12x1 connector intended only for use with BLident adapter cable Connectors S2503 1RD gt 3 BK 4WH Data 2BU Data Connectors 52500 1 BN 3 BU 4WH Data Connectors S2501 1 BN 4BK Data gt 2WH Data Functional principle The HF read write heads operating at a fre quency of 13 56 MHz form a transmission zone the size of which 0 500 mm varies depending on the combination of read write head and data carrier The read write distances mentioned here on ly represent standard values measured under laboratory conditions The read write distances of the data carriers for mounting in metal TW R M MF were de termined in metal Attainable distances may vary by up to 30 due to component tolerances mounting con ditions ambient conditions and material quali ties especially when mounted in metal Testing of the application under real operat ing conditions is therefore essential especial ly with read write on the fly 0101583 1212 BL ident TB EM30WD H1147 LED Type TB EM30WD H1147 Ident No 7030221 Mounting condition flush Ambient temperature 25 70 C Operating voltage 10 30VDC DC rated operational current lt 80 mA Dat
24. 18 1147 18 1147 Ident No 7030001 Mounting condition flush Ambient temperature 25 70 C Operating voltage 10 30VDC DC rated operational current lt 80 mA Data transfer inductive coupling Working frequency 13 56 MHz Radio communication and protocol standards ISO 15693 Read write distance max 30 mm Output function 4 wire read write Design Dimensions Housing diameter Housing material Material active face threaded barrel M18 x 1 72mm 18 mm Metal CuZn chrome plated Plastic PA12 GF30 Connection Vibration resistance Shock resistance Protection class Operating voltage 0101583 1212 BL ident connector M12 x 1 55 Hz 1 mm 30 g 11 ms IP67 LED green Industr A m Threaded barrel M18 x 1 m Chrome plated brass m Every read write head can communicate with a number of different TURCK data carriers m Power supply and function only via connection to the BLident interface module m M12x1 connector connect only using BLident adapter cable Connectors S2503 1 RD e 3 BK 4WH Data y Connectors S2500 1 BN ye 3 BU 4WH Data i Connectors S2501 1 BN 3 BU Data 2WH Data Functional principle The HF read write heads operating at a fre quency of 13 56 MHz form a transmission zone the size of which 0 500 mm varies depending on the combination of read write head and data carrier
25. 19 K2 Measured values Data carrier flush mounted on metal St37 0101583 1212 BL ident 8 33 Operating data of the read write heads with corresponding data carriers Table 20 Operating data Data carriers Read write heads TB M30 H1147 S1126 TN EM30WD H1147 1126 TN M30 H1147 S1126 TW BD10X1 5 19 B128 TW BD10X1 5 19 K2 TW BV10X1 5 19 B128 TW BV10X1 5 19 K2 TW SPP18x1 B128 10 10 10 17 26 17 26 24 34 TW R30 M B128 TW R50 M B128 20 27 22 27 22 36 34 TW R80 M B128 TW R30 M K2 TW R50 M K2 Measured values Data carrier flush mounted on metal 5137 8 34 D101583 1212 BL ident Operating data Industri A Table 20 Data carriers Read write heads Operating data 30 1147 51126 TN EM30WD H1147 TN M30 H1147 S1126 1126 TW R80 M K2 E M L TW R4 22 B128 TW L86 54 C B128 0101583 1212 BL ident 8 35 Operating data of the read write heads with corresponding data carriers Table 21 Operating data Data carriers Read write heads TN EM30WD H1147 1126 TN CK40 H1147 1126 TN Q80 H1147 S1126 TW R7 5 B128 E 10 13 10 M 30 30 34 L 28 42 62 TW R9 5 B128 E 11 14 11 M 33 33 37 L 31 46 68 TW R16
26. Approval acc to Ex nA II T4 Gc Il 3D Ex t IIIB T135 C Dc TURCK Ex 10005M X Operating voltage DC rated operational current Data transfer Working frequency Radio communication and protocol standards Read write distance max Output function 10 30VDC lt 75 mA inductive coupling 13 56 MHz ISO 15693 77mm 4 wire read write Design Dimensions Housing diameter Housing material Material active face threaded barrel M30 x 1 5 62 mm 30 mm Stainless steel V2A 1 4301 Plastic LCP GF30 Connection Vibration resistance Shock resistance Protection class Operating voltage 0101583 1212 ident 12 1 55 Hz 1 30 4 11 ms IP68 IP69K LED green Industr A ATEK Kategorie Il 3 G Ex Zone 2 ATEK Kategorie Il 3 D Ex Zone 22 threaded barrel M30 x 1 Stainless steel 1 4404 front cap made of liquid crystal polymer Vectra C130 m high degree of protection IP69K for ex treme environmental conditions m special double lip seal m protection against all common acid and alkaline cleaning agents m Suited for applications in the food in dustry m permanently legible type label due to laser engraving m Every read write head can communicate with a number of different TURCK data carriers m Powered and operated only via BLident interface module m 12 1 connector intended only for use with BLident adapter cable Connectors S250
27. Determine whether device is free of voltage Grounding and short circuiting Cover or enclose adjacent parts which remain under voltage The instructions provided for mounting the device must be followed Only personnel qualified per EN 50 110 1 2 VDE 0105 Section 100 are permitted to handle and operate this device system 8 Inregards to the installation please ensure that you follow the statical discharge procedure on your person prior to touching the device 8 The function earth FS must be connected to the protective earth PE or the potential equalization The establishment of this connection is the responsibility of the installer 8 Connection and signal cables must be installed in such a way that inductive and capacitive interspersions may not impact the automation functions 8 Automation technology equipment and their operating elements must be installed in such a way that they are protected from accidental operation E In order to prevent undefined states the automation equipment caused by cable and wire breakage on the signal side respective safety measures must be implemented on the hardware and software side when establishing the l O connection 8 Please ensure the safe isolation of low voltage in connection with a 24 Volt supply Use only power supply units which meet the requirements per IEC 60 364 4 41 or rather HD 384 4 41 S2 VDE 0100 Section 410 8 Fluctuations or rather deviations of the power supply vol
28. External interference via the grid are avoided by installing line filters Here the line filter should be correctly dimensioned and it should be directly affixed at the switching cabinet entry 5 6 2 Avoiding sources of interference Avoid the installation of sources of interference which occur primarily with switched inductances Interferences are created primarily by relay gate fluorescent lamps inside the switching cabinet and valves the interference is prevented by using RC combinations recovery diodes etc This also avoids inductive interspersions into cables which are installed parallel to the coiled cables 5 6 3 Potential equalization If the system parts are assembled in different ways and if different voltage levels are present potential differences may result between system parts Equalization currents then flow across signal lines potential equalization should not be confused with protective earth This is why potential equalization per specifications is essential The following points should be observed here 8 The potential equalization line must have an adequate diameter min 10 mm 8 The distance between signal line and corresponding potential equalization line must be as short as possible E cable with fine wires must be used Ifthe potential equalization lines are connected to the central potential equalization rail line components and non line components must be combined D101583 1212 BL ident
29. Figure 5 Pause times when reading from a data carrier type EEPROM I Code SL 1 80 t ms 70 60 50 40 30 20 10 4 8 16 32 48 64 112 128 Figure Pause times when writing to a data carrier type EEPROM I Code SL 1 400 t ms 350 300 250 200 150 100 50 4 8 16 32 48 64 112 128 2 24 0101583 1212 BL ident Read write time the data collection range of the HF read write head Industr A FRAM data carrier The FRAM data carrier is divided into data blocks Each data block comprises 8byte The start address and length of the Byte to be read from and written to can be freely selected within the user data range Data structure of the FRAM data carriers page 2 18 For examining the required read write times it should be observed that access to the user data range always occurs block by block For example time is not shortened when the length of the byte to be read is less than 8 byte The start addresses of the blocks are 8 16 24 32 Two blocks are processed when the selected start address is 19 and the length of the byte to be read is For time critical applications please observe the two instructions below Note As start address and length of the byte to be read from and written to please enter multiple of 8 only The start address and length of the byte to be read from and written to are attributes of the read write
30. TW R50 90 HT B128 TW R50 90 HT K2 74 TW R50 MF K2 TW 114 B128 TW L43 43 F B128 TW L82 49 P B128 TW BS10X1 5 19 B128 TW BS10X1 5 19 K2 2Measured values Data carrier flush mounted on metal St37 0101583 1212 BLident 8 41 Operating data of the read write heads with corresponding data carriers Table 22 Data carriers Read write heads Operating data TNLR Q80 H1147 HT Ident H1147 HT Ident H1187 51126 TW BD10X1 5 19 B128 TW BD10X1 5 19 K2 TW BV10X1 5 19 B128 TW BV10X1 5 19 K2 TW SPP18x1 B128 TW R30 M B128 TW R50 M B128 TW R80 M B128 TW R30 M K2 E M L TW R50 M K2 E 15 15 M 37 37 L 46 46 2Measured values Data carrier flush mounted on metal 5137 8 42 0101583 1212 BL ident Operating data Industri A Table 22 Data carriers Read write heads Operating data TW R80 M K2 TW R4 22 B128 TW L86 54 C B128 0101583 1212 BL ident 8 43 Operating data of the read write heads with corresponding data carriers 8 44 0101583 1212 BL ident 9 1 9 2 9 21 9 2 2 9 3 9 3 1 9 3 2 9 3 3 9 3 4 9 3 5 9 3 6 9 4 9 4 1 9 4 2 9 4 3 9 44 9 5 9 5 1 9 5 2 9 5 3 9 6 9 6 1 9 6 2 9 6 3 9 6 4 9 6 5 9 6 6 9 6 7 9 6 8 9 7 9 7 1 9 7 2
31. Typical read time 2 ms byte Typical write time 3 ms byte Radio communication and protocol standards ISO 15693 Minimum distance to metal 10mm Ambient temperature 25 85 C Storage temperature 45 85 C 140 C 1x100 h Design Housing material Material active face Protection class R20 Plastic PA6 Plastic black PA6 IP69K Packaged quantity 6 12 Mobile data carrier Read write Compatible with a number of BLident read write heads see data sheet or compatibility table m EEPROM memory 128 bytes Functional principle The HF read write heads operating at a fre quency of 13 56 MHz form a transmission zone the size of which 0 500 mm varies depending on the combination of read write head and data carrier The read write distances mentioned here on ly represent standard values measured under laboratory conditions The read write distances of the data carriers for mounting in metal TW R M MF were de termined in metal Attainable distances may vary by up to 30 due to component tolerances mounting con ditions ambient conditions and material quali ties especially when mounted in metal Testing of the application under real operat ing conditions is therefore essential especial ly with read write on the fly 0101583 1212 BL ident TW R20 B128 Ex Type Ident No TW R20 B128 Ex 7030242 Data transfer inductive coupling Working frequenc
32. termined in metal Attainable distances may vary by up to 30 due to component tolerances mounting con ditions ambient conditions and material quali ties especially when mounted in metal Testing of the application under real operat ing conditions is therefore essential especial ly with read write on the fly 0101583 1212 BL ident TW R30 K2 Ex Type Ident No TW R30 K2 Ex 7030246 Data transfer inductive coupling Working frequency 13 56 MHz Memory type FRAM Chip Fujitsu MB89R118 Memory size 2048 byte Memory read write Freely usable memory 2000 byte Number of read operations unlimited Number of write operations 1019 Typical read time 0 5 ms byte Typical write time 0 5 ms byte Radio communication and protocol standards ISO 15693 Minimum distance to metal 10mm Ambient temperature 25 85 C Storage temperature 45 85 C 140 C 1x100 h in the explosion hazardous area see instruc tion leaflet Device designation Approval acc to II 2 G Ex ia IIC T4 T6 11 2D Ex 21 T110 C BVS 09 ATEX E 036 X Design Housing material Material active face Protection class R30 Plastic PA6 Plastic black PA6 IP69K Packaged quantity 0101583 1212 ident Industr A ATEX category 11 2 G Ex Zone 1 ATEX category Il 2 D Ex Zone 21 Mobile data carrier Read write Compatible with a number of BLident read write heads see data sheet or com
33. 11 ms IP67 LED green Industr A m Rectangular height 14mm m Active face on top m Plastic PBT GF30 VO m Every read write head can communicate with a number of different TURCK data carriers m Powered and operated only via BLident interface module m M12x1 connector intended only for use with BLident adapter cable Connectors S2503 1RD e 3 BK 4WH Data Connectors 52500 1 BN 5 4WH Data Connectors S2501 1 BN Data 2WH Data Functional principle The HF read write heads operating at a fre quency of 13 56 MHz form a transmission zone the size of which 0 500 mm varies depending on the combination of read write head and data carrier The read write distances mentioned here on ly represent standard values measured under laboratory conditions The read write distances of the data carriers for mounting in metal TW R M MF were de termined in metal Attainable distances may vary by up to 30 due to component tolerances mounting con ditions ambient conditions and material quali ties especially when mounted in metal Testing of the application under real operat ing conditions is therefore essential especial ly with read write on the fly 7 33 TN CK40 H1147 Type Ident No TN CK40 H1147 7030006 Mounting condition Ambient temperature non flush flush mountable 25 70 C Operating voltage DC rat
34. Industr A Rectangular height 40 mm Active face on top Plastic PBT GF30 V0 Every read write head can communicate with a number of different TURCK data carriers m Powered and operated only via BLident interface module m M12x1 connector intended only for use with BLident adapter cable Connectors S2503 1 RD 5 3 BK 4WH Data Connectors S2500 1 BN eus 3 BU 4WH Data Connectors 52501 1 BN 4BK Data 2WH Data Functional principle The HF read write heads operating at a fre quency of 13 56 MHz form a transmission zone the size of which 0 500 mm varies depending on the combination of read write head and data carrier The read write distances mentioned here on ly represent standard values measured under laboratory conditions The read write distances of the data carriers for mounting in metal TW R M MF were de termined in metal Attainable distances may vary by up to 30 due to component tolerances mounting con ditions ambient conditions and material quali ties especially when mounted in metal Testing of the application under real operat ing conditions is therefore essential especial ly with read write on the fly 7 41 TNLR Q80 H1147 65 05 3 080 M12x1 Reet 114 Type Ident No TNLR Q80 H1147 7030230 Mounting condition Ambient temperature non flush flush mountable 25 70 C Operating voltage DC rated
35. PA6 IP68 Packaged quantity 6 44 Mobile data carrier m Read write Compatible with a number of BLident read write heads see data sheet or compatibility table EEPROM memory 128 bytes Functional principle The HF read write heads operating at a fre quency of 13 56 MHz form a transmission zone the size of which 0 500 mm varies depending on the combination of read write head and data carrier The read write distances mentioned here on ly represent standard values measured under laboratory conditions The read write distances of the data carriers for mounting in metal TW R M MF were de termined in metal Attainable distances may vary by up to 30 due to component tolerances mounting con ditions ambient conditions and material quali ties especially when mounted in metal Testing of the application under real operat ing conditions is therefore essential especial ly with read write on the fly 0101583 1212 BL ident TW BV10X1 5 19 K2 17 5 14 M10 x 1 5 6G TF 23 4 12 Type Ident No TW BV10X1 5 19 K2 6901382 Data transfer Working frequency Memory type Chip Memory size Memory Freely usable memory Number of read operations Number of write operations Typical read time Typical write time Radio communication and protocol standards inductive coupling 13 56 MHz FRAM Fujitsu MB89R118 2048 byte read write 2000 byte unlimited 1
36. Radio communication and protocol standards ISO 15693 Minimum distance to metal Omm Ambient temperature 20 85 C Storage temperature 45 85 C 140 C 1x100 h Design Housing material Material active face Protection class R50 Plastic PA6 Plastic black PA6 IP69K Packaged quantity 6 32 Mobile data carrier m Read write m This data carrier can be mounted in metal flush resp on metal Mount the data carrier such that the la bel is readable and faces towards the read write head Use plastic screws for mounting m FRAM memory size 2 Kbytes Functional principle The HF read write heads operating at a fre quency of 13 56 MHz form a transmission zone the size of which 0 500 mm varies depending on the combination of read write head and data carrier The read write distances mentioned here on ly represent standard values measured under laboratory conditions The read write distances of the data carriers for mounting in metal TW R M MF were de termined in metal Attainable distances may vary by up to 30 due to component tolerances mounting con ditions ambient conditions and material quali ties especially when mounted in metal Testing of the application under real operat ing conditions is therefore essential especial ly with read write on the fly 0101583 1212 BL ident TW R50 MF K2 Ex Type Ident No TW R50 MF K2 Ex 7030248 D
37. Read write distance max 30 mm Output function 4 wire read write Design Dimensions Housing diameter Housing material Material active face threaded barrel M18 x 1 72 18 Stainless steel V4A 1 4404 Plastic LCP GF30 Connection Vibration resistance Shock resistance Protection class Operating voltage 7 12 connector M12 x 1 55 Hz 1 mm 30 g 11 ms IP68 1 69 LED green m Threaded barrel M18 x 1 m Stainless steel 1 4404 m Front cap made of liquid crystal poly mer Vectra C130 High protection class IP69K for rough ambient conditions m Special double lip seal m Protection against all common acid and alkaline cleaning agents m Forthe food industry m Laser engraved label permanently legi ble m Every read write head can communicate with a number of different TURCK data carriers m Powered and operated only via BLident interface module m M12 1 connector intended only for use with BLident adapter cable Connectors 52503 1RD e 3 BK 4WH Data Connectors 52500 1 BN 3 BU 4WH Data 22 BK Data Connectors 52501 1 BN 4 BK Data 2 WH Data 0101583 1212 BL ident TB EM18WD H1147 Ex Type TB EM18WD H1147 Ex Ident No 7030381 Mounting condition flush Ambient temperature 25 70 Storage temperature in the explosion hazardous area see instruc tion leaflet in the explosion hazardous
38. TW R50 K2 Type Ident No TW R50 K2 6900507 Data transfer inductive coupling Working frequency 13 56 MHz Memory type FRAM Chip Fujitsu MB89R118 Memory size 2048 byte Memory read write Freely usable memory 2000 byte Number of read operations unlimited Number of write operations 1010 Typical read time 0 5 ms byte Typical write time 0 5 ms byte Radio communication and protocol standards ISO 15693 Minimum distance to metal 10mm Ambient temperature 25 85 C Storage temperature 45 85 C 140 C 1x100 h Design Housing material Material active face Protection class R50 Plastic PA6 Plastic black PA6 IP69K Packaged quantity 6 22 Mobile data carrier Read write Compatible with a number of BLident read write heads see data sheet or compatibility table FRAM memory size 2 Kbytes Functional principle The HF read write heads operating at a fre quency of 13 56 MHz form a transmission zone the size of which 0 500 mm varies depending on the combination of read write head and data carrier The read write distances mentioned here on ly represent standard values measured under laboratory conditions The read write distances of the data carriers for mounting in metal TW R M MF were de termined in metal Attainable distances may vary by up to 30 due to component tolerances mounting con ditions ambient conditions and material quali ties
39. and use of a single data Carrier 3 2 8 Minimum distance between two adjacent data carriers in stand alone operating mode 3 2 9 Minimum distance between two adjacent data carriers in multi access operating 0101583 1212 BL ident 3 1 BL ident System planning 3 1 Selection criteria for data carriers read write heads and interface module In order to select the correct BL ident system components the individual case should be evaluated per the following criteria Mechanical dimensions Distance of data carriers to read write heads during read write operation Tolerances of mechanical guide Static and or dynamic transmission of data Data volume to be transmitted Speed of dynamic read write operation on the fly Metal free areas with data carriers and read write heads Environmental conditions like humidity temperature and chemical influences etc The selection criteria for read write heads are especially valid here Mechanical dimensions Required transmission range E Size of the used data carrier The following criteria should be especially taken into consideration when utilizing interface modules E Protection class Bus type E Number of channels 3 2 Transmission range and read write distance The read write head creates an inductive alternating field in the HF band The characteristics of an emitted electromagnetic wave are exploited
40. e g PROFIBUS DP Connection to the respective fieldbus system occurrs via a suitable interface module Standardized software components e g the Proxy Ident Function Block for PROFIBUS DP allows user friendly system integration and start up 2 4 Performance characteristics and applications of the BL ident system In order to meet the demands of different application environments the TURCK BL ident system offers numerous combinations from data carriers to read write heads as well as interface modules and automation systems e g PROFIBUS DP Software components allow user friendly integration and start up The following describes the performance characteristics of the TURCK BL ident System 2 4 1 Protection class Some data carriers including the respective read write heads have a high protection class e g IP69K and thus are suitable for use in the harshest industrial environments The read write heads are also available in 69 wash down design Connection to a fieldbus system is realized with a suitable TURCK interface module The interface modules for CANopen are available in protection class IP20 TURCK connection cables with the respective protection class complete the identification system Temperature resistant data carriers up to 240 are available for the high temperature range 0101583 1212 BL ident 2 13 The ident system 2 4 2 Life cycle The life cycle is a result of the data
41. 15963 and locked by manufacturer If the class identifier is E2 TID contains a 12 bit mask designer identifier a vendor defined 12 bit data carrier model number and the usage from addresses above 1 is defined in version 1 5 and above of the EPCglobal data standards If the class identifier is TID contains an 8 bit manufacturer identifier followed by 2 byte user memory present and size data the 48 bit serial number the 1 bit XTID and 15 bit XTID header data The composite 80 bit data carrier ID is unique among all classes of data carriers defined in ISO IEC 15963 and locked by manufacturer User area This bank is optional and contains a memory with various capacity for open user specific use Figure 2 UHF data carrier memory hierarchy MSB LSB OOhex Word 0 of Block 0 OFhex MSB LSB 10hex TID 15 0 1Fhex OOhex TID 31 16 MSB LSB Bank 11 User 220hex Optional XPC_W2 1 5 0 22Fhex 210hex Optional XPC_W2 15 0 21Fhex Bank 10 TID Bank 01 EPC UII EPC UII 15 0 Bank 00 Reserved 20hex EPC UII N N 15 2Fhex 10hex PC 1 5 0 1 OOhex CRC 1 5 0 OFhex MSB LSB 30hex Access Passwd 15 0 3Fhex 20hex Access Passwd 31 16 2Fhex 10hex Kill Passwd 15 0 1Fhex OOhex Kill Passwd 31 16 OF hex 0101583 1212 ident 2 19 The TURCK BL ident system 2 6 2 20 Re
42. 3 x 120 Type Ident No TW R50 90 HT K2 1542329 Data transfer inductive coupling Working frequency 13 56 MHz Memory type FRAM Chip Fujitsu MB89R118 Memory size 2048 byte Memory read write Freely usable memory 2000 byte Number of read operations unlimited Number of write operations 1010 Typical read time 0 5 ms byte Typical write time 0 5 ms byte Radio communication and protocol standards ISO 15693 Minimum distance to metal 10mm Ambient temperature 40 90 C Storage temperature 40 210 C 30 min Design Housing material Material active face Protection class R50 high temperature Plastic PA6T 6l MH 12 190 GF50 Plastic black PA6 IP69K Packaged quantity 6 36 m Mobile data carrier for high temperature applications m Read write m It is necessary to run adequate perfor mance tests of the data carriers in the actual temperature processes of the application Otherwise durability of the data carriers cannot be guaranteed when exposed outside of the denoted ambient temperature range m FRAM memory size 2 Kbytes Functional principle The HF read write heads operating at a fre quency of 13 56 MHz form a transmission zone the size of which 0 500 mm varies depending on the combination of read write head and data carrier The read write distances mentioned here on ly represent standard values measured under laboratory conditions The read write di
43. 9 7 3 Industr A Accessories General description of accessories cccccccccssscsccsscccccccccccccccccccccccccccccccscccsccccccccseccccsssccccccccsccccccees Accessories for data carriers with 30 mm and 50 mm Spacer DS R30 Spacer Pio io NE E Accessories for cylindrical read write heads type M18 ecce e eene eee eee eene eee ette 000 00000000000000 4 Fiking 518 c 4 18 a aas sanan da en 4 Fixing clamp with stopper BST 18B 000000 eaaa 000000 essent aa eaaa ana Nan ANON NA AAN AN Ne ANNA AGA 5 Fixing clamp without stopper BST 18N Quick mount bracket QM 18 Protective SKN M18 Accessories for cylindrical read write heads type M3O 0000000000000000000000000000000000 0000000000000000 0000000000000000 7 Fixing clamp with stopper 7 Fixing clamp without stopper BST 30N 7 Quick mount bracket QM 30 5 8 DEN ANNA 8 Shared accessories for cylindrical read write heads of types M18 30
44. Attainable distances may vary by up to 30 due to component tolerances mounting con ditions ambient conditions and material quali ties especially when mounted in metal Testing of the application under real operat ing conditions is therefore essential especial ly with read write on the fly 6 13 TW R20 K2 Type Ident No TW R20 K2 6900505 Data transfer inductive coupling Working frequency 13 56 MHz Memory type FRAM Chip Fujitsu MB89R118 Memory size 2048 byte Memory read write Freely usable memory 2000 byte Number of read operations unlimited Number of write operations 41010 Typical read time 0 5 ms byte Typical write time 0 5 ms byte Radio communication and protocol standards ISO 15693 Minimum distance to metal 10mm Ambient temperature 25 85 C Storage temperature 45 85 C 140 C 1x100 h Design Housing material Material active face Protection class R20 Plastic PA6 Plastic black PA6 IP69K Packaged quantity 6 14 Mobile data carrier Read write Compatible with a number of BLident read write heads see data sheet or compatibility table FRAM memory size 2 Kbytes Functional principle The HF read write heads operating at a fre quency of 13 56 MHz form a transmission zone the size of which 0 500 mm varies depending on the combination of read write head and data carrier The read write distances mentioned here on ly represe
45. B128 o 29 9 10 Type Ident No TW R30 M B128 7030210 Data transfer inductive coupling Working frequency 13 56 MHz Memory type EEPROM Chip NXP I Code SLI SL2 Memory size 128 byte Memory read write Freely usable memory 112 byte Number of read operations unlimited Number of write operations 10 Typical read time 2 ms byte Typical write time 3 ms byte Radio communication and protocol standards ISO 15693 Minimum distance to metal Omm Ambient temperature 25 85 C Storage temperature 45 85 C 140 C 1x100 h Design Housing material Material active face Protection class R30 Plastic PET Plastic black PET IP68 Packaged quantity 6 26 Mobile data carrier 3 different mounting options in on met al incl accessories Read write m EEPROM memory 128 bytes Functional principle The HF read write heads operating at a fre quency of 13 56 MHz form a transmission zone the size of which 0 500 mm varies depending on the combination of read write head and data carrier The read write distances mentioned here on ly represent standard values measured under laboratory conditions The read write distances of the data carriers for mounting in metal TW R M MF were de termined in metal Attainable distances may vary by up to 30 due to component tolerances mounting con ditions ambient conditions and material quali ties especially when mounted in met
46. B64 E 20 28 20 M 38 50 52 L 44 54 60 TW R16 B128 E 20 28 20 M 38 50 52 L 44 54 60 TW R20 B128 E 22 30 35 M 40 50 65 L 34 50 72 TW R20 K2 E M L TW R30 B128 E 22 30 35 M 43 53 72 L 56 62 80 TW R30 K2 E M L TW R50 B128 E 40 45 65 M 72 85 118 L 76 96 120 1Measured values Data carrier on metal St37 with plastic screws 8 36 0101583 1212 BL ident Operating data Table 21 Data carriers Operating data Read write heads TN EM30WD H1147 1126 Industri A TN CK40 H1147 TN Q80 H1147 S1126 51126 TW R50 K2 TW R22 HT B64 TW R50 90 HT B128 TW R50 90 HT K2 TW R50 MF K2 TW 114 B128 TW L43 43 F B128 TW L82 49 P B128 TW BS10X1 5 19 B128 TW BS10X1 5 19 K2 Measured values Data carrier flush mounted on metal St37 0101583 1212 BL ident 8 37 Operating data of the read write heads with corresponding data carriers Table 21 Operating data Data carriers Read write heads TN EM30WD H1147 1126 TN CK40 H1147 1126 TN Q80 H1147 S1126 TW BD10X1 5 19 B128 TW BD10X1 5 19 K2 TW BV10X1 5 19 B128 TW BV10X1 5 19 K2 TW SPP18x1 10 15 15 B128 24 34 39 34 46 60 TW R30 M B128 TW R50 M 20 23 25 B128 36 46 53 34 48 66 TW R80 M 25 40 B128 53 76 68 76 TW R30 M K2 TW R50 M
47. Connection of the read write heads Industri A 7 2 Connection of the read write heads The read write heads are connected to the BL ident interface module with a M12 x 1 connector The supply 24 VDC and function occurs via the BL ident interface module The cables 52500 have the connection diagram shown in Figure 3 Connection diagram for cables 52500 Figure 3 Connection dia gram for cables S2500 1 BN 2 5 y 4WH Data 2BK Data The cables S2501 have a different connection diagram Figure 4 Connection diagram for the cables 525017 Figure 4 Connection dia gram for the cables S2501 1 BN 2 3 BU gt 4BK Data 3 1 2WH Data 4 The cables S2503 have also a different connection diagram Figure 5 Connection diagram for the cables 52503 Figure 5 Connection dia gram for the cables S2503 1 RD 2 3 BK gt 4WH Data 3 1 2BU Data 4 0101583 1212 BL ident 7 3 BL ident Read write heads for the HF band 7 3 Overview read write head model types Table 1 Overview of read write head model ty pes Dimensions enclo Installa Characte Connection code sure length tion ristics prerequi sites flush standard via TB M18 H1147 BL ident TB M18 H1147 S1126 cable wash via TB EM18WD H1147 down BL ident TB EM18WD H1147 S1126 IP69K cable wash v
48. Connectors S2501 1 BN 3 BU 4BK Data y 2WH Data Functional principle The HF read write heads operating at a fre quency of 13 56 MHz form a transmission zone the size of which 0 500 mm varies depending on the combination of read write head and data carrier The read write distances mentioned here on ly represent standard values measured under laboratory conditions The read write distances of the data carriers for mounting in metal TW R M MF were de termined in metal Attainable distances may vary by up to 30 due to component tolerances mounting con ditions ambient conditions and material quali ties especially when mounted in metal Testing of the application under real operat ing conditions is therefore essential especial ly with read write on the fly 0101583 1212 BL ident TNLR Q80L400 H1147L Type Ident No TNLR Q80L400 H1147L 7030234Lengthwise Mounting condition Ambient temperature non flush flush mountable 25 70 C Operating voltage DC rated operational current Data transfer Working frequency Radio communication and protocol standards Read write distance max Output function 19 2 28 8VDC 230 mA inductive coupling 13 56 MHz ISO 15693 360 mm 4 wire read write Design Dimensions Housing material Material active face rectangular 400x 80x 25mm Plastic PBT GF30 VO black Plastic black C
49. Data carriers Operating data Read write heads TNLR Q350 H1147 Industri A TB M18 H1147 S1126 TB EM18WD H1147 1126 TW R80 M K2 TW R4 22 B128 TW L86 54 C B128 0101583 1212 BL ident 8 31 Operating data of the read write heads with corresponding data carriers Table 20 Operating data Data carriers Read write heads TB M30 H1147 S1126 TN EM30WD H1147 1126 TN M30 H1147 S1126 TW R7 5 B128 E 8 8 10 M 18 18 30 L 20 20 28 TW R9 5 B128 E 9 9 11 M 20 20 33 L 22 22 31 TW R16 B64 12 12 20 23 23 38 L 20 20 44 16 128 E 12 12 20 M 23 23 38 L 20 20 44 TW R20 B128 15 15 22 M EN 27 40 L 20 20 34 TW R20 K2 E M L TW R30 B128 13 13 22 M 30 30 43 L 32 32 56 TW R30 K2 E M L TW R50 B128 20 20 40 M 43 43 72 L 46 46 76 Measured values Data carrier on metal 5137 with plastic screws 8 32 D101583 1212 BL ident Operating data Table 20 Data carriers Operating data Read write heads TB M30 H1147 S1126 Industri A TN EM30WD H1147 TN M30 H1147 S1126 1126 TW R50 K2 TW R22 HT B64 TW R50 90 HT B128 TW R50 90 HT K2 TW R50 MF K2 TW 114 B128 TW L43 43 F B128 TW L82 49 P B128 TW BS10X1 5 19 B128 TW BS10X1 5
50. EEPROM Data carrier PHILIPS I Code SLI 512 Data carrier Fujitsu FRAM Data carrier PHILIPS I Code SL1 8 2 0101583 1212 BL ident Instructions related to operating data Industr A 8 1 1 Distances up to 500 mm Each read write head is able to communicate with different data carrier types from the TURCK program Different distances are created by combining single read write heads and data carriers The reachable distances vary depending on used read write heads Note i The maximum read write distance M and the length of the transmission range L only reprenst typical values under laboratory conditions The reachable distances can vary up to 30 because of component tolerances installation issues involving the application environmental conditions and interference caused by materials especially metals This is why it is absolutely necessary to test the application especially while read write functions are active In addition the recommended distance between data carrier and read write head should be observed if at all possible in order to reach perfect read write processes despite potential distance variations 0101583 1212 BL ident 8 3 Operating data of the read write heads with corresponding data carriers 8 2 Operating data Table 13 Operating data Data carriers Read write heads TB M18 H1147 TB EM18WD H1147 TN M18 H1147 TW R7 5 B128 E TW R9 5 B128
51. K2 Measured values Data carrier flush mounted on metal St37 8 38 D101583 1212 BL ident Operating data Industri A Table 21 Data carriers Read write heads Operating data 1147 TN CK40 H1147 TN Q80 H1147 S1126 1126 1126 TW R80 M K2 E M L TW R4 22 B128 TW L86 54 C B128 0101583 1212 BL ident 8 39 Operating data of the read write heads with corresponding data carriers Table 22 Operating data Data carriers Read write heads TNLR Q80 H1147 1126 HT Ident H1147 HT Ident H1187 TW R7 5 B128 E 20 13 13 M 41 30 30 L 60 42 42 TW R9 5 B128 E 22 14 14 M 45 33 33 L 66 46 46 TW R16 B64 50 M 85 L 90 TW R16 B128 50 28 28 85 50 50 L 90 54 54 TW R20 B128 50 30 30 88 50 50 L 92 50 50 TW R20 K2 E 22 22 M 40 40 L 36 36 TW R30 B128 60 30 30 M 115 53 53 L 116 62 62 TW R30 K2 E 30 30 M 55 55 L 56 56 TW R50 B128 80 45 45 M 165 85 85 L 168 96 96 1 values Data carrier on metal 5137 with plastic screws 8 40 D101583 1212 BL ident Operating data Table 22 Data carriers Operating data Read write heads TNLR Q80 H1147 1126 HT Ident H1147 HT Ident H1187 TW R50 K2 38 38 81 81 82 82 TW R22 HT B64 39
52. M MF were de termined in metal Attainable distances may vary by up to 30 due to component tolerances mounting con ditions ambient conditions and material quali ties especially when mounted in metal Testing of the application under real operat ing conditions is therefore essential especial ly with read write on the fly 6 27 TW R50 M B128 o 49 9 15 Type Ident No TW R50 M B128 7030209 Data transfer inductive coupling Working frequency 13 56 MHz Memory type EEPROM Chip NXP I Code SLI SL2 Memory size 128 byte Memory read write Freely usable memory 112 byte Number of read operations unlimited Number of write operations 10 Typical read time 2 ms byte Typical write time 3 ms byte Radio communication and protocol standards ISO 15693 Minimum distance to metal Ambient temperature 25 85 C Storage temperature 45 85 C 140 C 1x100 h Design Housing material Material active face Protection class R50 Plastic PET Plastic black PET IP68 Packaged quantity 6 28 Mobile data carrier 3 different mounting options in on met al incl accessories Read write m EEPROM memory 128 bytes Functional principle The HF read write heads operating at a fre quency of 13 56 MHz form a transmission zone the size of which 0 500 mm varies depending on the combination of read write head and data carrier The read write distances mentioned
53. MHz Memory type EEPROM Chip NXP SLI SL2 Memory size 128 byte Memory read write Freely usable memory 112 byte Number of read operations unlimited Number of write operations 10 Typical read time 2 ms byte Typical write time 3 ms byte Radio communication and protocol standards ISO 15693 Minimum distance to metal 10mm Ambient temperature 25 85 C Storage temperature 40 85 C Design R7 5 Housing material Material active face Protection class Plastic epoxy Plastic Epoxy IP68 Packaged quantity 0101583 1212 BLident 100 Industr A Mobile data carrier Read write Compatible with a number of BLident read write heads see data sheet or compatibility table EEPROM memory 128 bytes Functional principle The HF read write heads operating at a fre quency of 13 56 MHz form a transmission zone the size of which 0 500 mm varies depending on the combination of read write head and data carrier The read write distances mentioned here on ly represent standard values measured under laboratory conditions The read write distances of the data carriers for mounting in metal TW R M MF were de termined in metal Attainable distances may vary by up to 30 due to component tolerances mounting con ditions ambient conditions and material quali ties especially when mounted in metal Testing of the application under real operat ing conditions is therefore essential especi
54. Measured values Data carrier on metal 5137 with plastic screws 8 28 0101583 1212 BL ident Operating data Industr A Table 19 Data carriers Read write heads Operating data TNLR Q350 H1147 18 1147 51126 TB EM18WD H1147 1126 TW R50 K2 E 200 M 405 L 480 TW R22 HT E B64 M L TW R50 90 E 170 HT B128 M 432 L 530 TW R50 90 E 170 HT K2 M 375 L 480 TW R50 MF E K2 M L TW 114 B128 E 60 10 10 M 203 17 17 L 360 14 14 TW L43 43 F E 200 15 15 B128 M 416 30 30 L 458 34 34 TW L82 49 P E 240 15 15 B128 M 500 23 23 L 518 64 64 TW BS10X1 5 E 19 B128 M L TW BS10X1 5 E 19 K2 M L 2Measured values Data carrier flush mounted on metal 5137 0101583 1212 BL ident 8 29 Operating data of the read write heads with corresponding data carriers Table 19 Operating data Data carriers Read write heads TNLR Q350 H1147 TB M18 H1147 S1126 TB EM18WD H1147 1126 TW BD10X1 5 19 B128 TW BD10X1 5 19 K2 TW BV10X1 5 19 B128 TW BV10X1 5 19 K2 TW SPP18x1 5 5 B128 11 11 14 14 TW R30 M 8 8 B128 12 12 16 16 TW R50 M 8 8 B128 18 18 22 22 TW R80 M B128 TW R30 M K2 TW R50 M K2 Measured values Data carrier flush mounted on metal 5137 8 30 D101583 1212 BL ident Operating data Table 19
55. No 7030225 Mounting condition flush Ambient temperature 25 70 C Operating voltage 10 30VDC DC rated operational current lt 80 mA Data transfer inductive coupling Working frequency 13 56 MHz Radio communication and protocol standards ISO 15693 Read write distance max 45 mm Output function 4 wire read write Design Dimensions Housing diameter Housing material Material active face threaded barrel M30 x 1 5 62 mm 30 mm Stainless steel V2A 1 4301 Plastic LCP GF30 Connection Vibration resistance Shock resistance Protection class Operating voltage 7 24 connector M12 x 1 55 Hz 1 mm 30 g 11 ms IP68 1 69 LED green m threaded barrel M30 x 1 m Stainless steel 1 4404 m front cap made of liquid crystal polymer Vectra C130 m high degree of protection IP69K for ex treme environmental conditions m special double lip seal m protection against all common acid and alkaline cleaning agents m Suited for applications in the food in dustry m permanently legible type label due to laser engraving m Every read write head can communicate with a number of different TURCK data carriers m Powered and operated only via BLident interface module m M12x1 connector intended only for use with BLident adapter cable Connectors S2503 1RD gt 3 BK 4WH Data Connectors 52500 1 BN D 66 3 BU 4WH Data Connectors S2501 1 BN
56. R M MF were de termined in metal Attainable distances may vary by up to 30 due to component tolerances mounting con ditions ambient conditions and material quali ties especially when mounted in metal Testing of the application under real operat ing conditions is therefore essential especial ly with read write on the fly 7 37 TN Q80 H1147 65 05 3 080 M12x1 Reet 114 Type Ident No TN Q80 H1147 7030007 Mounting condition Ambient temperature non flush flush mountable 25 70 C Operating voltage DC rated operational current Data transfer Working frequency Radio communication and protocol standards Read write distance max Output function 10 30VDC 80 mA inductive coupling 13 56 MHz ISO 15693 146 mm 4 wire read write Design Dimensions Housing material Material active face rectangular Q80 92x 80x 40mm Plastic PBT GF30 VO yellow Plastic PBT GF30 VO yellow Connection Vibration resistance Shock resistance Protection class Operating voltage 7 38 connector M12 x 1 55 Hz 1 mm 30 g 11 ms IP67 LED green m Rectangular height 40 mm m Active face on top m Plastic PBT GF30 VO m Every read write head can communicate with a number of different TURCK data carriers m Powered and operated only via BLident interface module m 12 1 connector intended only for use with BLident adapter cable Connectors S2503
57. Typical read time Typical write time Radio communication and protocol standards inductive coupling 13 56 MHz FRAM Fujitsu MB89R118 2048 byte read write 2000 byte unlimited 1010 0 5 ms byte 0 5 ms byte ISO 15693 Minimum distance to metal 10 Data carrier can be screwed in metal Ambient temperature 25 85 C Storage temperature 45 85 C Design BD10x1 5 Housing material Plastic POM Material active face Plastic yellow Protection class IP68 Packaged quantity 1 0101583 1212 BLident Industr A Mobile data carrier Read write Compatible with a number of BLident read write heads see data sheet or compatibility table FRAM memory size 2 Kbytes Functional principle The HF read write heads operating at a fre quency of 13 56 MHz form a transmission zone the size of which 0 500 mm varies depending on the combination of read write head and data carrier The read write distances mentioned here on ly represent standard values measured under laboratory conditions The read write distances of the data carriers for mounting in metal TW R M MF were de termined in metal Attainable distances may vary by up to 30 due to component tolerances mounting con ditions ambient conditions and material quali ties especially when mounted in metal Testing of the application under real operat ing conditions is therefore essential especial ly with read write on the fly
58. and will deliver customized results for the application s respective location The explanatory power of these simulation results is often as good as to those gained from real series of measurements conducted onsite significantly reduing time and costs Generally accepted or rather transferable statements can not be made based on changing physical locations depending on application However Ray Tracer simulations are best suitable to significantly speed up system planning and analysis of UHF RFID systems by taking under consideration customer specific application conditions D101583 1212 BL ident Compatibility Industr A Figure 11 Example of a Ray Tracer field strength simulation withina production line transceivers at pos 0 6 m received tag power combined from both readers dBm amp 0 6 transceivers H out of left 0 5 1 1 5 2 2 5 z dimension a 2 8 Compatibility All technical data refer to the BL ident system this means to the combination of ident data carriers read write heads and interface modules Totally different values may be valid for data carriers of other manufacturers 0101583 1212 BL ident 2 31 The TURCK BL ident system 2 9 2 32 Application examples The performance characteristics described in the previous chapter support the utilization of a TURCK ident system in the following industries Automobile E Transportation
59. be established Please follow the guidelines for maximum expansion concerning the bus system in use For example without repeater a PROFIBUS DP system can comprise a maximum of 31 stations and a master 0101583 1212 BL ident Identification systems with radio frequency technology RFID Industr A 2 3 Identification systems with radio frequency technology RFID RFID is the abbreviation for radio frequency identification A RFID system comprises a data carrier a device to read from and write to a data carrier as well as other devices which are used to transfer and process data The transmission of data from the data carrier to the read write head occurs free of contact via electromagnetic waves This type of transmission is insensitive to mechanical contamination by dirt or temperature fluctuations The data carriers may be directly affixed to an object This is why the term mobile data carrier is used as well Other terms for the data carrier are TAG or transponder The data content may consist of production and manufacturing data Important here are those data which identify the product Thus the description identification system Additional opportunities exist because the data content can be changed by writing to the data carrier Thus production manufacturing processes can be retraced Logistics distribution can be optimized The identification systems can be integrated into existing fieldbus automation systems
60. can be simulated and thus explained 3 2 8 Minimum distance between two adjacent data carriers in stand alone operating mode The minimum distance between two data carriers depends on the size of the transmission range In the dynamic operating mode on the fly the minimum distance between successive data carriers continues to depend on the data volume and the bus cycle time Note Respective tests to determine minimum distance of successive data carriers are to be conducted prior to start up 3 4 0101583 1212 BL ident Transmission range and read write distance Industr A 3 2 9 Minimum distance between two adjacent data carriers in multi access operating mode If multiple data carriers within the transmission range are to be accessed so called pulk processing the distance between the individual data carriers should be as large as possible If the data carriers are too close together successful communication within the air interface cannot always be guaranteed Note A function test under existing conditions of the application will provide information about expected performance 0101583 1212 BL ident 3 5 BL ident System planning 3 6 0101583 1212 BL ident Industr A 4 Installation guidelines 4 1
61. carriers possible read write operations FRAM data carriers can guarantee a unlimited number of read operations and 109 write operations EEPROM data carriers can guarantee a unlimited number of read operations and 107 or 10 write operations The data carriers do not require a battery 2 4 3 Transmission frequency The TURCK BL ident system operates with a transmission frequency of 13 56 MHz in the HF range or with a country specific transmission frequency in the UHF range 860 960 MHz between the data carriers and the read write heads HF Systems which operate with this transmission frequency are mostly insensitive to electromagnetic interference This is why the transmission frequency of 13 56 MHz is now standard for many RFID applications UHF Systems with this frequency range reach longer read write distances compared to HF typically several meters The carrier frequencies are country specific in Europe they are between 865 and 868 MHz for example 2 4 4 Model types Data carriers HF TURCK offers round flat data carriers e g with 16 20 30 and 50 mm diamters for the HF operating frequency The high temperature data carriers have a cylinder design e g 22 x 125 mm Inlays and stickers have foil thickness e g size 49 x 46 mm Special designs are suitable for mounting on metal Other data carrier designs have glas cylinder housing or flat check card format Some data carriers have holes so that they can be affix
62. carriers cannot be guaranteed when exposed outside of the denoted ambient temperature range m memory size 64 bytes Functional principle The HF read write heads operating at a fre quency of 13 56 MHz form a transmission zone the size of which 0 500 mm varies depending on the combination of read write head and data carrier The read write distances mentioned here on ly represent standard values measured under laboratory conditions The read write distances of the data carriers for mounting in metal TW R M MF were de termined in metal Attainable distances may vary by up to 30 due to component tolerances mounting con ditions ambient conditions and material quali ties especially when mounted in metal Testing of the application under real operat ing conditions is therefore essential especial ly with read write on the fly 0101583 1212 BL ident TW R50 90 HT B128 95 108 5 136 5 125 5 5 1207 Ident No TW R50 90 HT B128 1542326 Data transfer inductive coupling Working frequency 13 56 MHz Memory type EEPROM Chip NXP SLI SL2 Memory size 128 byte Memory read write Freely usable memory 112 byte Number of read operations unlimited Number of write operations 10 Typical read time 2 ms byte Typical write time 3 ms byte Radio communication and protocol standards ISO 15693 Minimum distance to metal 10mm Ambient tem
63. commands Note Please select small addresses when selecting the data memory range Attention The following two diagrams are valid when the instructions for time critical applications followed 0101583 1212 BL ident 2 25 The TURCK BL ident system Figure 7 Pause times when reading from the data carrier type 90 t ms 80 70 60 50 40 30 20 10 4 8 16 32 48 64 112 128 Figure 8 Pause times when writing from the data carrier type FRAM 140 t ms 120 100 80 60 40 20 4 8 16 32 48 64 112 128 2 26 0101583 1212 BL ident Data carrier speed to the read write head for HF RFID systems Industr A 2 7 Data carrier speed to the read write head for HF RFID systems Note The speed with which the data carrier can move by the read write head is impacted by the data volume to be processed and varies depending on the selected read write head and data carrier combination Thus numerical data for maximum speed and data volume are always only examples For example the speed with which the data carrier can move by the read write head can be increased up to 2 5 m s for 8 byte at a distance of 36 mm when the data carrier TW R50 K2 and the read write head TN CK40 H1 147 are used The application parameters speed data volume and distance can be variegated with the BL ident Simulator The best read write head and data carrier co
64. double lip seal m Protection against all common acid and alkaline cleaning agents m Forthe food industry m Laser engraved label permanently legi ble m Every read write head can communicate with a number of different TURCK data carriers m Powered and operated only via BLident interface module m M12 1 connector intended only for use with BLident adapter cable Connectors 52503 1RD e 3 BK 4WH Data Connectors 52500 1 BN 3 BU 4WH Data 22 BK Data Connectors 52501 1 BN 4 BK Data 2 WH Data 0101583 1212 BL ident TN EM18WD H1147 Ex M18 x 1 P 24 4 LED 10 56 72 9 HJ 12 1 TN EM18WD H1147 Ex Ident No 7030382 Mounting condition non flush Ambient temperature 25 70 C Storage temperature in the explosion hazardous area see instruc tion leaflet in the explosion hazardous area see instruc tion leaflet Device designation Approval acc to Ex nA Il T4 Gc I 3D Ex t IIIB T135 C Dc TURCK Ex 10005M X Operating voltage DC rated operational current Data transfer Working frequency Radio communication and protocol standards Read write distance max Output function 10 30VDC lt 75mA inductive coupling 13 56 MHz ISO 15693 45 mm 4 wire read write Design Dimensions Housing diameter Housing material Material active face threaded barrel M18 x 1
65. especially when mounted in metal Testing of the application under real operat ing conditions is therefore essential especial ly with read write on the fly 0101583 1212 BL ident TW R50 K2 Ex 04 9 50 Ident No TW R50 K2 Ex 7030247 Data transfer inductive coupling Working frequency 13 56 MHz Memory type FRAM Chip Fujitsu MB89R118 Memory size 2048 byte Memory read write Freely usable memory 2000 byte Number of read operations unlimited Number of write operations 1079 Typical read time 0 5 ms byte Typical write time 0 5 ms byte Radio communication and protocol standards ISO 15693 Minimum distance to metal 10mm Ambient temperature 25 85 C Storage temperature 45 85 C 140 C 1 100 h in the explosion hazardous area see instruc tion leaflet Device designation Approval acc to II 2 G Ex ia T4 T6 11 2D Ex 21 T110 C BVS 09 ATEX E 036 X Design Housing material Material active face Protection class R50 Plastic PA6 Plastic black PA6 IP69K Packaged quantity 0101583 1212 ident Industr A ATEX category Il 2 G Ex Zone 1 ATEX category Il 2 D Ex Zone 21 Mobile data carrier Read write Compatible with a number of BLident read write heads see data sheet or compatibility table m FRAM memory size 2 Kbytes Functional principle The HF read write heads operating at a fre quency of 13 56 MHz form a
66. field For that reason of the reduced read write distance there is no communication between read write head and data carrier orange LED lits Reversely if the LED doesn t lit you cannot assume that there is no magnetic field range reduction In fact the luminous LED is an indication for too much metal in the environment and an enormous reduction of the read write distance appr 50 96 less 0101583 1212 BL ident Industr A m Rectangular 370x350 mm height 20 mm m Active face on top m Plastic PBT GF30 VO m Every read write head can communicate with a number of different TURCK data carriers m Powered and operated only via BLident interface module m M12x1 connector intended only for use with BLident adapter cable Connectors 52503 1RD emo 3 BK 4WH Data 2BU Data Connectors S2500 1 BN Aoc 3 BU 4WH Data 2BK Data Connectors 52501 1 BN 4BK Data 2WH Data Functional principle The HF read write heads operating at a fre quency of 13 56 MHz form a transmission zone the size of which 0 500 mm varies depending on the combination of read write head and data carrier The read write distances mentioned here on ly represent standard values measured under laboratory conditions The read write distances of the data carriers for mounting in metal TW R M MF were de termined in metal Attainable distances may vary by up to 30 due to component toleran
67. here on ly represent standard values measured under laboratory conditions The read write distances of the data carriers for mounting in metal TW R M MF were de termined in metal Attainable distances may vary by up to 30 due to component tolerances mounting con ditions ambient conditions and material quali ties especially when mounted in metal Testing of the application under real operat ing conditions is therefore essential especial ly with read write on the fly 0101583 1212 BL ident TW R50 M K2 49 9 15 LLLI Type TW R50 M K2 Ident No 7030229 Data transfer inductive coupling Working frequency 13 56 MHz Memory type FRAM Chip Fujitsu MB89R118 Memory size 2048 byte Memory read write Freely usable memory 2000 byte Number of read operations unlimited Number of write operations 1010 Typical read time 0 5 ms byte Typical write time 0 5 ms byte Radio communication and protocol standards ISO 15693 Minimum distance to metal Ambient temperature 25 85 C Storage temperature 45 85 C 140 C 1x100 h Design Housing material Material active face Protection class R50 Plastic PET Plastic black PET IP68 Packaged quantity 0101583 1212 BL ident Industr A Mobile data carrier m 3 different mounting options in on met al incl accessories m Read write FRAM memory size 2 Kbytes Functional principle The HF rea
68. in metal Testing of the application under real operat ing conditions is therefore essential especial ly with read write on the fly 6 17 TW R30 K2 05 2 o 30 Type Ident No TW R30 K2 6900506 Data transfer inductive coupling Working frequency 13 56 MHz Memory type FRAM Chip Fujitsu MB89R118 Memory size 2048 byte Memory read write Freely usable memory 2000 byte Number of read operations unlimited Number of write operations 41010 Typical read time 0 5 ms byte Typical write time 0 5 ms byte Radio communication and protocol standards ISO 15693 Minimum distance to metal 10mm Ambient temperature 25 85 C Storage temperature 45 85 C 140 C 1x100 h Design Housing material Material active face Protection class R30 Plastic PA6 Plastic black PA6 IP69K Packaged quantity 6 18 Mobile data carrier Read write Compatible with a number of BLident read write heads see data sheet or compatibility table FRAM memory size 2 Kbytes Functional principle The HF read write heads operating at a fre quency of 13 56 MHz form a transmission zone the size of which 0 500 mm varies depending on the combination of read write head and data carrier The read write distances mentioned here on ly represent standard values measured under laboratory conditions The read write distances of the data carriers for mounting in metal TW R M MF were de
69. material Material active face threaded barrel M30 x 1 5 62 mm 30 mm Stainless steel V2A 1 4301 Plastic LCP GF30 Connection Vibration resistance Shock resistance Protection class Operating voltage 7 30 connector M12 x 1 55 Hz 1 mm 30 g 11 ms IP68 IP69K LED green threaded barrel M30 x 1 m Stainless steel 1 4404 m front cap made of liquid crystal polymer Vectra C130 high degree of protection IP69K for ex treme environmental conditions m special double lip seal m protection against all common acid and alkaline cleaning agents m Suited for applications in the food in dustry m permanently legible type label due to laser engraving m Every read write head can communicate with a number of different TURCK data carriers m Powered and operated only via BLident interface module m M12x1 connector intended only for use with BLident adapter cable Connectors 52503 1 RD he 3 BK 4WH Data Connectors 52500 1 BN e 3 BU 4WH Data 2BK Data Connectors S2501 1 BN 4BK Data 2WH Data 0101583 1212 BL ident TN EM30WD H1147 Ex M30 x 1 5 LED Type TN EM30WD H1147 Ex Ident No 7030386 Mounting condition non flush Ambient temperature 25 70 C Storage temperature in the explosion hazardous area see instruc tion leaflet in the explosion hazardous area see instruc tion leaflet Device designation
70. material quali ties especially when mounted in metal Testing of the application under real operat ing conditions is therefore essential especial ly with read write on the fly 0101583 1212 BL ident TW R16 B64 Type Ident No TW R16 B64 6901346 Data transfer inductive coupling Working frequency 13 56 MHz Memory type EEPROM Chip NXP SL1 Memory size 64 byte Memory read write Freely usable memory 46 byte Number of read operations unlimited Number of write operations 10 Typical read time 2 ms byte Typical write time 3 ms byte Radio communication and protocol standards ISO 15693 Minimum distance to metal 10mm Ambient temperature 25 85 C Storage temperature 25 120 C 160 C 1x35 h 220 C 1x30s Design Housing material Material active face Protection class R16 Plastic PA6 Plastic black PA6 IP69K Packaged quantity 0101583 1212 BL ident Industr A Mobile data carrier Read write Compatible with a number of BLident read write heads see data sheet or compatibility table EEPROM memory size 64 bytes Functional principle The HF read write heads operating at a fre quency of 13 56 MHz form a transmission zone the size of which 0 500 mm varies depending on the combination of read write head and data carrier The read write distances mentioned here on ly represent standard values measured under laboratory con
71. metal Attainable distances may vary by up to 30 due to component tolerances mounting con ditions ambient conditions and material quali ties especially when mounted in metal Testing of the application under real operat ing conditions is therefore essential especial ly with read write on the fly 0101583 1212 BL ident TW BS10X1 5 19 K2 17 5 14 M10 x 1 5 6G TF 23 4 12 Type Ident No TW BS10X1 5 19 K2 6901380 Data transfer Working frequency Memory type Chip Memory size Memory Freely usable memory Number of read operations Number of write operations Typical read time Typical write time Radio communication and protocol standards inductive coupling 13 56 MHz FRAM Fujitsu MB89R118 2048 byte read write 2000 byte unlimited 1010 0 5 ms byte 0 5 ms byte ISO 15693 Minimum distance to metal 10 Data carrier can be screwed in metal Ambient temperature 25 85 C Storage temperature 45 85 C Design BS10x1 5 Housing material Material active face Protection class Metal plastic S235JRG2 LCP Plastic yellow IP68 Packaged quantity 0101583 1212 ident Industr A Mobile data carrier Read write Compatible with a number of BLident read write heads see data sheet or compatibility table FRAM memory size 2 Kbytes Functional principle The HF read write heads operating at a fre quency of 13 56 MHz f
72. min temperature range gt 128 EEPROM 25 85 Inlay TW 114 B128 1 accessories needed where applicable 2 please refer to data sheet for additional information 3 112 G Ex ia IIC T4 T6 Il 2 D Ex ia D 21 T 110 C 6 4 0101583 1212 BL ident Overview data carrier model types Industr A Table 9 Dimensions enclo Memory Memory Operating Characteris Type code Overview of data sure length size tempera tics carrier model ture types Byte c 128 EEPROM 25 70 Smart label TW L49 46 F B128 foil 46 L jg 128 EEPROM 25 70 Smartlabel TW L80 50 P B128 Paper 50 L de d 128 EEPROM 25 85 Screw design TW BD10X1 5 19 214 ary B128 32 p 2k FRAM TW BD10X1 5 19 K2 M10 x 1 5 6G 128 TW BS10X1 5 19 B128 2k FRAM TW BS10X1 5 19 K2 128 EEPROM TW BV10X1 5 19 B128 2k FRAM TW BV10X1 5 19 K2 128 EEPROM 25 85 Suitable for TW SPP18x1 B128 autoclaves 2 128 25 85 Glass data TW R4 22 B128 carriers og 128 EEPROM 25 50 Check card TW L86 54 C B128 AN design also printed if desired 0101583 1212 BLident 6 5 BL ident Data carriers for the 6 6 0101583 1212 BL ident TW R7 5 B128 Type Ident No TW R7 5 B128 7030231 Data transfer inductive coupling Working frequency 13 56
73. of read write head and data carrier The read write distances mentioned here on ly represent standard values measured under laboratory conditions The read write distances of the data carriers for mounting in metal TW R M MF were de termined in metal Attainable distances may vary by up to 30 due to component tolerances mounting con ditions ambient conditions and material quali ties especially when mounted in metal Testing of the application under real operat ing conditions is therefore essential especial ly with read write on the fly 0101583 1212 BL ident Industri A 7 ident Read write heads for the HF band 7 1 Functionality 1 caasa zuzu 2 7 1 1 Read write head 2 7 1 2 Read write head antenna 2 7 2 Connection of the read write heads eee ee ee ree uana ua uuu uaa aua aua 3 7 3 Overview read write head model types sussu 5 8 4 7 4 Premoulded cables for connecting interface and read write heads 39 0101583 1212 BL ident 7 1 BL ident Read write heads for
74. of the data carriers for mounting in metal TW R M MF were de termined in metal Attainable distances may vary by up to 30 due to component tolerances mounting con ditions ambient conditions and material quali ties especially when mounted in metal Testing of the application under real operat ing conditions is therefore essential especial ly with read write on the fly 0101583 1212 BL ident TN CK40 H1147 81126 Type Ident No TN CK40 H1147 S1126 7030216 Mounting condition Ambient temperature non flush flush mountable 25 70 C Operating voltage DC rated operational current Data transfer Working frequency Radio communication and protocol standards Read write distance max Output function 10 30VDC lt 80 mA inductive coupling 13 56 MHz ISO 15693 115 mm 4 wire read write Design Dimensions Housing diameter Housing material Material active face rectangular CK40 65x 40x 40mm 40 mm Plastic PBT GF30 VO black Plastic PA6 GF30 yellow Connection Vibration resistance Shock resistance Protection class Operating voltage Included in scope of supply 0101583 1212 ident connector M12 x 1 55 Hz 1 mm 30 g 11 ms IP67 LED green BS4 CK40 Industr A rectangular height 40 mm 5 read write head positions Plastic PBT GF30 VO Every read write head can communicate with a number of different TURCK data carriers
75. plates to shield the device from electromagentic field induction Please use metallic connector housings for shielded data transmission cables 8 Laminar earth connection Please connect all inactive metal parts in a way that is HF low resistive and covers a large area Please establish a connection that covers a large area between the inactive metal parts and the central ground point Integrate the shield ground into the mass lead this means the shield earth must be connected with mass in a way that covers a large area Designing the cable layout Divide the cables into cable groups and install them separately Always install high voltage cables and data transfer cables in separate channels or bundles Always guide the entire cabling from one direction and if possible in one layer into the cabinet Guide the data transfer cables closely alongside earth surfaces Twist conductor ends of separately installed conductors In many cases there must be a separate layout for the bus cable Ideally the bus cable should serve as a reference for installing the data transfer cable between read write heads and interface modules Shielding of cables Affix the shield on both sides of the data transfer cable Affix the shield on one side of the analog cable e g on the propulsion device Always place the cable shields onto the shield rail at the cabinet entry in a way that covers a large area and affix them with clamps so that they remain conductive Conti
76. read write processes despite potential distance variations Depending on the actual transmission curve of the respective application the parameters reachable traversing speed read write on the fly and the maximum transmittable data volume change as well 2 27 The TURCK BL ident system 2 7 1 Read write distances The reachable read write distances depend on the combination of data carrier and read write head The possible read write distance is impacted by the data volume to be read and written and by the speed with which the data carrier moves by the read write head Read write heads with UHF operating frequences reach a distance of several meters Read write heads with 13 56 MHz HF transmission frequency reach short distances Here the longest distance approx 1000 mm is reached with the model type TNLR Q350 H1 147 e g when the data carrier TW L86 54 C B128 is used 2 7 2 BL ident simulator for HF RFID 2 28 The application parameters speed data volume and distance can be variegated with the software BL ident simulator Thus the optimum combination of read write head and data carrier can be selected The simulator can be found online at http www turck com Nowadays the utilization of sensors and actuators and even fieldbuses is state of the technology in many areas of the industry In contrast when utilizing RFID systems there always are questions concerning the air interface e g How fast can move
77. termined in metal Attainable distances may vary by up to 30 due to component tolerances mounting con ditions ambient conditions and material quali ties especially when mounted in metal Testing of the application under real operat ing conditions is therefore essential especial ly with read write on the fly 0101583 1212 BL ident TNLR Q80 H1147 Ex o M12x1 tcu 114 Type Ident No TNLR Q80 H1147 EX 7030303 Mounting condition Ambient temperature Storage temperature non flush flush mountable 25 70 C in the explosion hazardous area see instruc tion leaflet in the explosion hazardous area see instruc tion leaflet Device designation Approval acc to Ex nA II T4 II 3D Ex tD A22 IP67 T135 C BVS 09 ATEX E 122 X Operating voltage DC rated operational current Data transfer Working frequency Radio communication and protocol standards Read write distance max Output function 19 2 28 8VDC lt 90 mA inductive coupling 13 56 MHz ISO 15693 165 mm 4 wire read write Design Dimensions Housing material Material active face rectangular Q80 92x 80x 40mm Plastic PBT GF30 VO yellow Plastic PBT GF30 VO yellow Connection Vibration resistance Shock resistance Protection class Operating voltage 0101583 1212 BL ident connector M12 x 1 55 Hz 1 mm 30 g 11 ms IP67 LED green Industr A m ATEX category Il
78. the read write head or What distance can use to move the Read write heads This means that a general uncertainty exists concerning the application possibilities of a RFID system General specifications like recommended read write distance or transmission speed 0 5 ms Byte are usually not adequate for determining the usability of the device in a certain application because application variables like data volume speed and distance are the result of a complex interplay between read write head and data carriers The BL ident Simulator is suitable to simulate the respective application leading to the right choice By setting application parameters or rather by playing with the values it is possible to discover possibilities and limitations of the respective combination The online version of the simulator gratis online at http www turck com is based on data in the Turck product database and therefore always provides the most current data Next to the simulation of the application the simulator also creates the respective data sheets or rather the documentation Note i The maximum read write distance and the length of the transmission range only represent typical values under laboratory conditions The reachable distances can vary up to 30 because of component tolerances installation issues involving the application environmental conditions and interference caused by materials especially metals This is why it
79. transmission zone the size of which 0 500 mm varies depending on the combination of read write head and data carrier The read write distances mentioned here on ly represent standard values measured under laboratory conditions The read write distances of the data carriers for mounting in metal TW R M MF were de termined in metal Attainable distances may vary by up to 30 96 due to component tolerances mounting con ditions ambient conditions and material quali ties especially when mounted in metal Testing of the application under real operat ing conditions is therefore essential especial ly with read write on the fly 6 23 TW R50 K8 o 4 9 o 50 Type Ident No TW R50 K8 7030233 Data transfer Working frequency Memory type Chip Memory size Memory Freely usable memory Number of read operations Number of write operations Typical read time Typical write time Radio communication and protocol standards inductive coupling 13 56 MHz FRAM Turck TW K8 8192 byte read write 7936 byte unlimited 1010 0 5 ms byte 0 5 ms byte ISO 15693 access only possible with BLident devices Minimum distance to metal Ambient temperature Storage temperature 10mm 25 85 C 45 85 C 140 C 1x100 h Design Housing material Material active face Protection class R50 Plastic PA6 Plastic black PA6 IP69K Packaged quantity 6 24 Mobile
80. vary by up to 30 due to component tolerances mounting con ditions ambient conditions and material quali ties especially when mounted in metal Testing of the application under real operat ing conditions is therefore essential especial ly with read write on the fly 0101583 1212 BL ident TN EM18WD H1147 M18 x 1 e E 24 4 LED 12 1 TN EM18WD H1147 Ident No 7030223 Mounting condition non flush Ambient temperature 25 70 C Operating voltage 10 30VDC DC rated operational current lt 75mA Data transfer inductive coupling Working frequency 13 56 MHz Radio communication and protocol standards ISO 15693 Read write distance max 45 mm Output function 4 wire read write Design Dimensions Housing diameter Housing material Material active face threaded barrel M18 x 1 72mm 18mm Stainless steel V2A 1 4301 Plastic LCP GF30 Connection Vibration resistance Shock resistance Protection class Operating voltage 0101583 1212 ident connector M12 x 1 55 Hz 1 mm 30 g 11 ms IP68 IP69K LED green Industr A m Threaded barrel M18 x 1 m Stainless steel 1 4404 m Front cap made of liquid crystal poly mer Vectra C130 High protection class IP69K for rough ambient conditions m Special double lip seal m Protection against all common acid and alkaline cleaning agents m Forthe food industry m Laser engrav
81. with UHF The recommended read write distance is based on the data carrier and read write head combination that was chosen With HF the distribution of this field depends on the type of antennas in the data carrier and in the read write head with UHF also on the configuration and type of spatial environment e g reflecting hindrances Figure 12 Transmission range in HF band Data exchange is only possible within the transmission range In the HF band the parameters length of the transmission range S recommended read write distance serve to more accurately quantizise the tramsmission range 12 Transmission range in HF band The transmission range width has decreased with increasing distance between data carrier and read write head at the distance threshold H it has shrunk to a period this means that with increasing distance less data can be transmitted or rather the speed with which the data carrier moves by the read write head must be decreased 3 2 0101583 1212 BL ident Transmission range read write distance Industr A 3 2 1 Length of the HF transmission range L and width offset Note i This behavior can be simulated with the help of the BL ident Simulator at www turck com The length of the transmission range Figure 12 Transmission range HF band depends on the data carrier and read write head combination that was chosen The width offset is especially important
82. 0 L 84 130 390 TW R30 B128 TW R30 K2 M 98 82 125 L 104 132 416 TW R50 B128 Measured values Data carrier on metal 5137 with plastic screws 8 20 0101583 1212 BL ident Operating data Table 17 Operating data Data carriers Read write heads TNLR Q80 H1147 TN S32XL H1147 Visus 2 Industrial Auto TNLR Q80L400 H1147 horizontal TW R50 K2 E 90 60 90 144 128 230 L 150 160 466 TW R22 HT E B64 M L TW R50 90 HT B128 TW R50 90 HT K2 114 98 200 L 150 160 466 TW R50 MF E 30 K2 M 57 TW 114 B128 TW L43 43 F B128 TW L82 49 P B128 TW BS10X1 5 E 19 B128 TW BS10X1 5 E 19 K2 M L 2Measured values Data carrier flush mounted on metal St37 0101583 1212 BL ident 8 21 Operating data of the read write heads with corresponding data carriers Table 17 Operating data Data carriers Read write heads TNLR Q80 H1147 TN S32XL H1147 TNLR Q80L400 H1147 horizontal TW BD10X1 5 E 19 B128 M L TW BD10X1 5 E 19 K2 M L TW BV10X1 5 E 19 B128 M L TW BV10X1 5 E 19 K2 M L TW SPP18x1 E 30 B128 M 66 L 80 TW R30 M E B128 M L TW R50 M 35 B128 M 58 L 64 TW R80 M E 50 30 B128 M 90 77 L 90 398 T
83. 00 150 100 50 4 8 16 32 48 64 112 128 2 22 0101583 1212 BL ident Read write time the data collection range of the HF read write head Industr A EEPROM I Code SL1 data carriers The EEPROM data carrier is divided into data blocks Each data block comprises 4byte The start address and length of the Byte to be read from and written to can be freely selected within the user data range Data structure of the I Code 511 data carriers page 2 17 For examining the required read write times it should be observed that access to the user data range always occurs block by block For example time is not shortened when the length of the byte to be read is less than 4 byte The start addresses of the blocks are 16 20 24 28 Two blocks are processed when the selected start address is 19 and the length of the byte to be read is 4 For time critical applications please observe the two instructions below Note H As start address and length of the byte to be read from and written to please enter multiple of 4 only The start address and length of the byte to be read from and written to are attributes of the read write commands Note Please select small addresses when selecting the data memory range Attention The following two diagrams are valid when the instructions for time critical applications followed 0101583 1212 BL ident 2 23 The TURCK BL ident system
84. 0000 0000000000 11 Support for sa sasana iaaiiai ei erue n ce edere eene 12 Networking with BL ident9 systems 12 Identification systems with radio frequency technology RFID eene eee eee 000000000000 0000000000 13 Performance characteristics and applications of the BL ident system 000000000000000000000000000000000000000 13 Protection CLASS METS CIC Transmission frequency Model Data carriers Read write heads i Memory CAPACITY m User data ranges of the data carrier versions 00000000000000000000000000000 0000000000000000 0000000000000000 0000000000000000 16 Overview of the HF TURCK data carriers eee aana aa 16 Overview of the UHF TURCK data Carriers 00seneo0e00 00000 aaa aaa aana nana a aana aana an Ae aa 19 Read write time the data collection range the HF read write head 00000000000000000000000000000000000000 20 EEPROM I Code SL2 data carriers EEPROM I Code SL1 data carriers FRAM data Data carrier speed to the read write head for HF RFID systems 0o0000000000000000000000000 0000000000000000 000000000 27 Read wirite dist
85. 00000000000000 000000000 27 274 Read Write distances scettr tee anana asi eVi aiai i Eana aiia 28 2 7 2 BLident Simulator for HF RFID 28 27 3 ident Simulator for UHF RFID Ray Tracer 30 2 8 Compatibility cccccccccsccccscccsccccccccccccccccccscccccccsccccccecccccccccsscccccccsccsceccccasccccccccscccccccscccccscessssccces 31 2 9 Application examples 32 0101583 1212 ident Hl 3 3 1 3 2 3 2 1 3 2 2 3 2 3 3 2 4 3 2 5 3 2 6 3 2 7 3 2 8 3 2 9 4 4 1 4 2 4 3 5 1 5 2 5 3 5 5 5 6 5 6 1 5 6 2 5 6 3 5 6 4 6 1 6 1 1 6 1 2 6 1 3 6 2 BL ident system planning Selection criteria for data carriers read write heads and interface module 60000000000000000000000000000000 2 Transmission range and read write distance 00000000000000000000000000000000 0000000000000000 0000000000000000 000000000000 00000 2 Length of the HF transmission range and width offset 0 600000000ee00e0 eaaa anane e0ane e eaaa aana ne eea na eea een eaaa eaaa eaaa eaaa eaaa een 3 Minimum distance of data carrier to read write head 000000000ese 0000000000 testes aana 3 Permissible moving direction and alignment of data lt Read write operation in the static operating mode with HF
86. 0000000000000000 0000000000000000 00000000000000 11 9 6 1 Protective bracket MF CK40 15S cscssssccsseccssecsssecsssecssssesssscsssscssscersccesssecsscessuecessecessecsssecsuseessscetsscetsscessccesscessneccanecesnecesnecessecessecets 11 9 62 Protective bracket 40 25 11 9 63 Protective bracket MF CK40 3S sssssssccsssccssecsssccssscesssecsssscssecssscessssesscessseessuecessecessecsssecssscesssccssscetsseessecseseessssessnecesnecesnecessecesseests 11 9 6 4 Protective housing SG4O nott nott tto to ttti ttt notti nons 12 965 Protective housing 5640 2 e HERRERA S eH 12 0101583 1212 BL ident V 9 6 6 9 6 7 9 6 8 9 7 9 7 1 9 7 2 9 7 3 10 Adjusting rail IS 251037555 apaa e 13 PROTECTIVE Cap TEKAO TEFC sisian das agan aha apapa a NG oa NG a ahaaa se anaa PORE 14 Protective cap 1 CKAO D EC seti nte RR ei rb e ERR ehe e PE RATAN 14 Handheld with accessories 000000000000000000000000000 00000000000000 ee ee 00000000000000 0000000000000000 ee 0000000000000000 Handheld Computer PD Ident Handheld Computer PS Ident WLAN with WLAN functionality Handheld accessories Glossary 0101583 1212 BL ident Industr A Warning Before commencing the installation Switch device off Protect device from accidentally switching it on
87. 010 0 5 ms byte 0 5 ms byte ISO 15693 Minimum distance to metal 10 Data carrier can be screwed in metal Ambient temperature 25 85 C Storage temperature 45 85 C Design BV10x1 5 Housing material Material active face Protection class Metal plastic 1 4401 LCP Plastic yellow IP68 Packaged quantity 0101583 1212 BLident Industr A Mobile data carrier Read write Compatible with a number of BLident read write heads see data sheet or compatibility table FRAM memory size 2 Kbytes Functional principle The HF read write heads operating at a fre quency of 13 56 MHz form a transmission zone the size of which 0 500 mm varies depending on the combination of read write head and data carrier The read write distances mentioned here on ly represent standard values measured under laboratory conditions The read write distances of the data carriers for mounting in metal TW R M MF were de termined in metal Attainable distances may vary by up to 30 due to component tolerances mounting con ditions ambient conditions and material quali ties especially when mounted in metal Testing of the application under real operat ing conditions is therefore essential especial ly with read write on the fly 6 45 TW SPP18x1 B128 Type Ident No TW SPP18x1 B128 6901062 Data transfer Working frequency Memory type Chip Memory size Me
88. 1 Plastic LCP GF30 Connection Vibration resistance Shock resistance Protection class Operating voltage 7 26 connector M12 x 1 55 Hz 1 mm 30 g 11 ms IP68 1 69 LED green ATEX Kategorie Il 3 G Ex Zone 2 ATEX Kategorie Il 3 D Zone 22 threaded barrel M30 x 1 Stainless steel 1 4404 front cap made of liquid crystal polymer Vectra C130 m high degree of protection IP69K for ex treme environmental conditions m special double lip seal m protection against all common acid and alkaline cleaning agents m Suited for applications in the food in dustry m permanently legible type label due to laser engraving m Every read write head can communicate with a number of different TURCK data carriers m Powered and operated only via BLident interface module m M12x1 connector intended only for use with BLident adapter cable Connectors S2503 1RD 3 BK 4WH Data 2BU Data Connectors S2500 1 BN 3 BU _ 4WH Data 2BK Data Connectors S2501 1 BN 4 BK Data 2WH Data 0101583 1212 BL ident TN M30 H1147 M30 x 1 5 12 36 5 LED M12 x 1 Type TN M30 H1147 Ident No 7030004 Mounting condition non flush Ambient temperature 25 70 C Operating voltage 10 30VDC DC rated operational current lt 75mA Data transfer inductive coupling Working frequency 13 56 MHz Radio communication and protocol standards ISO
89. 1 ATEX category Il 2 D Zone 21 Mobile data carrier Read write Compatible with a number of BLident read write heads see data sheet or compatibility table m FRAM memory size 2 Kbytes Functional principle The HF read write heads operating at a fre quency of 13 56 MHz form a transmission zone the size of which 0 500 mm varies depending on the combination of read write head and data carrier The read write distances mentioned here on ly represent standard values measured under laboratory conditions The read write distances of the data carriers for mounting in metal TW R M MF were de termined in metal Attainable distances may vary by up to 30 96 due to component tolerances mounting con ditions ambient conditions and material quali ties especially when mounted in metal Testing of the application under real operat ing conditions is therefore essential especial ly with read write on the fly 6 15 TW R30 B128 05 2 o 30 Type Ident No TW R30 B128 6900503 Data transfer inductive coupling Working frequency 13 56 MHz Memory type EEPROM Chip NXP I Code SLI SL2 Memory size 128 byte Memory read write Freely usable memory 112 byte Number of read operations unlimited Number of write operations 10 Typical read time 2 ms byte Typical write time 3 ms byte Radio communication and protocol standards ISO 15693 Minimum distance to metal 10mm Ambient temperature
90. 15693 Read write distance max 77mm Output function 4 wire read write Design Dimensions Housing diameter Housing material Material active face threaded barrel M30 x 1 5 62 mm 30 mm Metal CuZn chrome plated Plastic PA12 GF30 Connection Vibration resistance Shock resistance Protection class Operating voltage 0101583 1212 BLident connector M12 x 1 55 Hz 1 mm 30 g 11 ms IP67 LED green Industr A Threaded barrel M30 x 1 5 m Chrome plated brass m Every read write head can communicate with a number of different TURCK data carriers m Powered and operated only via BLident interface module m 12 1 connector intended only for use with BLident adapter cable Connectors S2503 1 RD hec 3 BK 4WH Data Connectors S2500 1 BN ec 3 BU 4WH Data 28 Data Connectors S2501 1 BN 3 BU 4BK Data 5 6 2WH Data Functional principle The HF read write heads operating at a fre quency of 13 56 MHz form a transmission zone the size of which 0 500 mm varies depending on the combination of read write head and data carrier The read write distances mentioned here on ly represent standard values measured under laboratory conditions The read write distances of the data carriers for mounting in metal TW R M MF were de termined in metal Attainable distances may vary by up to 30 due to component tolerances mounting con dition
91. 17 31 31 31 L 32 32 32 TW R30 B128 22 22 22 M 43 43 43 L 56 56 56 TW R30 K2 E 23 23 23 M 42 42 42 L 50 50 50 TW R50 B128 40 40 40 M 72 72 72 L 76 76 76 Measured values Data carrier on metal 5137 with plastic screws 8 12 D101583 1212 BL ident Operating data Table 15 Data carriers Read write heads Operating data TN M30 H1147 TN EM30WD H1147 TN Q14 0 15 RS4 47T TW R50 K2 E 30 30 30 M 58 58 58 L 76 76 76 TW R22 HT E B64 TW R50 90 HT B128 TW R50 90 HT K2 TW R50 MF K2 TW 114 B128 TW L43 43 F B128 TW L82 49 P B128 TW BS10X1 5 19 B128 TW BS10X1 5 19 K2 2Measured values Data carrier flush mounted on metal St37 0101583 1212 BLident 8 13 Operating data of the read write heads with corresponding data carriers Table 15 Operating data Data carriers Read write heads TN M30 H1147 TN EM30WD H1147 TN Q14 0 15 RS4 47T TW BD10X1 5 E 20 20 20 19 B128 M 36 36 36 L 38 38 38 TW BD10X1 5 E 14 14 14 19 K2 M 29 29 29 L 30 30 30 TW BV10X1 5 8 8 8 19 B128 M 16 16 16 L 26 26 26 TW BV10X1 5 E 5 5 5 19 K2 M 15 15 15 L 21 21 21 TW SPP18x1 E 10 10 10 B128 M 24 24 24 L 34 34 34 TW R30 M E B128 M L TW R50 M E 20 20 20 B128 M
92. 25 85 C Storage temperature 45 85 C 140 C 1x100 h Design Housing material Material active face Protection class R30 Plastic PA6 Plastic black PA6 IP69K Packaged quantity 6 16 Mobile data carrier Read write Compatible with a number of BLident read write heads see data sheet or compatibility table m EEPROM memory 128 bytes Functional principle The HF read write heads operating at a fre quency of 13 56 MHz form a transmission zone the size of which 0 500 mm varies depending on the combination of read write head and data carrier The read write distances mentioned here on ly represent standard values measured under laboratory conditions The read write distances of the data carriers for mounting in metal TW R M MF were de termined in metal Attainable distances may vary by up to 30 due to component tolerances mounting con ditions ambient conditions and material quali ties especially when mounted in metal Testing of the application under real operat ing conditions is therefore essential especial ly with read write on the fly 0101583 1212 BL ident TW R30 B128 Ex Type Ident No TW R30 B128 Ex 7030243 Data transfer inductive coupling Working frequency 13 56 MHz Memory type EEPROM Chip NXP I Code SLI SL2 Memory size 128 byte Memory read write Freely usable memory 112 byte Number of read operations unlimited Nu
93. 26 ded cable flexible use via HT Ident H1147 BL ident Read handwrite head cable HT Ident H1187 Read handwrite head with scanner LED display and summer Special cable needed standard via TN Q80 H1147 BL ident TN Q80 H1147 S1126 cable ATEX via TN Q80 H1147 Ex BL ident cable long read via TNER Q80 H1147 write BL ident TNLR Q80 H1147 distance cable TNLR Q80 H1147 S1126 long read TNLR Q80 H1147 Ex write BL ident distance cable ATEX 0101583 1212 BL ident 7 5 BL ident Read write heads for the Table 1 Dimensions enclo Installa Characte Connection Type code Overview sure length tion ristics read write prerequi head model ty sites pes non standard via TN S32XL H1147 flush BL ident cable non long read via TNLR Q350 H1147 flush write BL ident distance cable non suitablefor via TNLR Q80L400 H1 147 flush roller BL ident Note see page 7 7 conveyors cable horizontal and vertical alignment possible non suitablefor via TNLR Q80L400 H1147L flush guideroller BL ident Note see page 7 7 conveyors cable horizontal and vertical alignment possible non ATEX via TNLR Q80 R192H132 2M Ex flush BL ident cable I2GExDIIB 7 6 D101583 1212 BL ident Overview read write head model types Table 1 Overview of read write head model ty pes Industri A Dimensions enclo Installa Characte Connection co
94. 3 Ex zone 2 m ATEX category Il 3 D Ex zone 22 m Rectangular height 40 mm m Active face on top m Plastic PBT GF30 VO m Every read write head can communicate with a number of different TURCK data carriers m Powered and operated only via BLident interface module m M12x1 connector intended only for use with BLident adapter cable Connectors S2503 1RD esc 3 BK 4 WH Data 2BU Connectors 52500 1 BN yy 4WH Data 22 BK Data Connectors S2501 1 BN 4BK Data 2WH Data Functional principle The read write heads operating at fre quency of 13 56 MHz form a transmission zone the size of which 0 500 mm varies depending on the combination of read write head and data carrier The read write distances mentioned here on ly represent standard values measured under laboratory conditions The read write distances of the data carriers for mounting in metal TW R M MF were de termined in metal Attainable distances may vary by up to 30 due to component tolerances mounting con ditions ambient conditions and material quali ties especially when mounted in metal Testing of the application under real operat ing conditions is therefore essential especial ly with read write on the fly 7 43 TN S32XL H1147 Type Ident No TN S32XL H1147 7030008 Mounting condition Ambient temperature non flush 25 70 C
95. 3 1 RD 5 0 3 BK 4WH Data Connectors 52500 1 BN 4WH Data Connectors S2501 1 BN 3 BU 4BK Data gt 2WH Data 7 31 TN EM30WD H1147 S1126 Ex M30 x 1 5 T 20 36 5 LED M12 x 1 Type TN EM30WD H1147 S1126 EX Ident No 7030388 Mounting condition non flush Ambient temperature 25 70 C Storage temperature in the explosion hazardous area see instruc tion leaflet in the explosion hazardous area see instruc tion leaflet Device designation Approval acc to I 3G Ex nA II T4 Gc I 3D Ex t IIIB T135 C Dc TURCK Ex 10005M X Operating voltage DC rated operational current Data transfer Working frequency Radio communication and protocol standards Read write distance max Output function 10 30VDC lt 75mA inductive coupling 13 56 MHz ISO 15693 77mm 4 wire read write Design Dimensions Housing diameter Housing material Material active face threaded barrel M30 x 1 5 62 mm 30 mm Stainless steel V2A 1 4301 Plastic LCP GF30 Connection Vibration resistance Shock resistance Protection class Operating voltage 7 32 connector M12 x 1 55 Hz 1 mm 30 g 11 ms IP68 IP69K LED green ATEK Kategorie Il 3 G Ex Zone 2 ATEX Kategorie 11 3 D Ex Zone 22 threaded barrel M30 x 1 Stainless steel 1 4404 front cap made of liquid crystal polymer Vectra C130 m high degree of protection IP69K f
96. 36 36 36 L 34 34 34 TW R80 M E B128 M L TW R30 M K2 E M L TW R50 M K2 E 15 15 15 M 30 30 30 L 32 32 32 2Measured values Data carrier flush mounted on metal St37 8 14 0101583 1212 BL ident Operating data Industri A Table 15 Data carriers Read write heads Operating data TN M30 H1147 TN EM30WD H1147 TN Q14 0 15 RS4 47T TW R80 M K2 E M L TW R4 22 B128 TW L86 54 C B128 0101583 1212 BL ident 8 15 Operating data of the read write heads with corresponding data carriers Table 16 Data carriers Read write heads Operating data TW R7 5 B128 E M L TW R9 5 B128 TW R16 B64 TW R16 B128 TW R20 B 128 TW R20 K2 TW R30 B 128 TW R30 K2 TW R50 B 128 Measured values Data carrier on metal 5137 with plastic screws 8 16 0101583 1212 BL ident Operating data Industr A Table 16 Data carriers Read write heads Operating data TN CK40 H1147 TN Q80 H1147 TNER Q80 H1147 TW R50 K2 E 38 50 M 81 100 L 82 110 TW R22 HT E 34 B64 M 69 L 92 TW R50 90 E 15 35 HT B128 M 55 88 L 96 120 TW R50 90 E 8 20 HT K2 M 51 70 L 82 110 TW R50 MF E 10 20 K2 M 33 35 L 50 48 TW 114 B128 E 28 20 50 52 L 54 60 TW L43 43 F E 50 60 B128 M 90 115 L
97. 4 5T 25 S2503 female angled 7030349 25m WK4 5T 50 S2503 0101583 1212 ident female angled 7030350 50m 7 55 Table 1 Dimensions Type code Description Ident BL ident enclosure length No Cables and connectors For food and beverages FB RK4 5T 5 S2500 female straight 7030281 5m FB RK4 5T 10 S2500 female straight 7030282 10m FB RK4 5T 25 S2500 female straight 7030283 25m FB RK4 5T 50 S2500 female straight 7030284 50m FB WK4 5T 5 S2500 female angled 7030285 5m FB WK4 5T 10 S2500 female angled 7030286 10m FB WK4 5T 25 S2500 female angled 7030287 25m FB WK4 5T 50 S2500 female angled 7030288 50m 7 56 0101583 1212 BL ident Premoulded cables for connecting interface and read write heads Industr A Table 1 Dimensions Type code Description Ident BL ident enclosure length No Cables and connectors Connector T BS8151 0 9 premoulded M12 6904613 i 58 7 male clamping 2195 T range 6 8 mm E 5 pole screw type M12 x1 terminal 0 6 8 B8151 0 9 premoulded M12 6904604 M12x1 54 re female clamping a 0 z range 6 8 mm 5 pole screw type terminal no diagram CABLE BLIDENT 100M Bulk stock 100m 8036048 0101583 1212 BLident 7 57 7 58 0101583 1212 ident 8 1 8 1 1 8 2 Industr A Operating data of the read write heads with corresponding data carriers Instru
98. 43 F 80 88 88 B128 222 207 207 464 176 176 TW L82 49 P 100 160 160 B128 270 270 270 488 240 240 TW BS10X1 5 19 B128 TW BS10X1 5 19 K2 2Measured values Data carrier flush mounted on metal 5137 8 25 0101583 1212 BL ident Operating data of the read write heads with corresponding data carriers Table 18 Data carriers Read write heads Operating data TNLR Q80L400 TNLR Q80L400 TNLR Q80L400 H1147L horizontal H1147 crossways H1147L horizontal TW BD10X1 5 E 19 B128 M L TW BD10X1 5 E 19 K2 M L TW BV10X1 5 E 19 B128 M L TW BV10X1 5 E 19 K2 M L TW SPP18x1 E B128 M L TW R30 M E B128 M L TW R50 M E B128 M L TW R80 M E 30 40 40 B128 M 77 77 77 L 398 56 56 TW R30 M K2 E TW R50 M K2 E Measured values Data carrier flush mounted on metal 5137 8 26 D101583 1212 BL ident Operating data Industri A Table 18 Data carriers Read write heads Operating data TW R80 M K2 TW R4 22 B128 TW L86 54 C B128 0101583 1212 BL ident 8 27 Operating data of the read write heads with corresponding data carriers Table 19 Data carriers Read write heads Operating data TW R7 5 B128 E M L TW R9 5 B128 TW R16 B64 TW R16 B128 TW R20 B 128 TW R20 K2 TW R30 B 128 TW R30 K2 TW R50 B 128
99. 5 85 Standard TW R20 B128 920 D 128 EEPROM ATEK TW R20 B128 Ex 2 5 2k FRAM Standard TW R20 K2 2k FRAM ATEX TW R20 K2 Ex 2s 128 EEPROM 25 85 Standard TW R30 B128 aD 128 EEPROM ATEX TW R30 B123 Ex 25 2k FRAM Standard TW R30 K2 2k FRAM ATEX TW R30 K2 Ex 128 EEPROM 25 85 Standard TW R50 B128 94 9 D 128 EEPROM ATEX TW R50 B128 Ex 32k 2k FRAM Standard TW R50 K2 2k FRAM ATEX TW R50 K2 Ex 8k FRAM Standard TW R50 K8 8k FRAM ATEX TW R50 K8 Ex 128 EEPROM 25 85 Standard TW R30 M B128 2k FRAM TW R30 M K2 1 accessories needed where applicable 2 G Ex ia IIC T4 T6 Il 2 D Ex ia D 21 T 110 C 0101583 1212 BL ident 6 3 BL ident Data carriers for the Table 9 Dimensions enclo Memory Memory Operating Characteris code Overview of data sure length size tempera tics carrier model ture types Byte C 0499 128 EEPROM 25 85 Direct TW R50 M B128 mounting on 2k FRAM metal TW R50 M K2 ERI 6799 128 EEPROM 25 85 Direct TW R80 M B128 mounting on i 2 k FRAM metal TW R80 M K2 20 2k FRAM 25 85 TW R50 MF K2 x mounting on 2k FRAM mee TW R50 MF K2 Ex 450 64 EEPROM 40 210 High TW R22 HT B64 30 temperature 2 147 022 A d 135 210 10 128 EEPROM 40 210 High TW R50 90 HT 30 min temperature B128 range FRAM 40 210 High TW R50 90 HT K2 30
100. 52 BU Data Connectors S2500 1 BN em 3 BU 4WH Data 2BK Data Connectors S2501 1 BN 3 BU 4BK Data gt 2WH Data 0101583 1212 BL ident TB M30 H1147 LED Type TB M30 H1147 Ident No 7030003 Mounting condition flush Ambient temperature 25 70 C Operating voltage 10 30VDC DC rated operational current lt 80 mA Data transfer inductive coupling Working frequency 13 56 MHz Radio communication and protocol standards ISO 15693 Read write distance max 45 mm Output function 4 wire read write Design Dimensions Housing diameter Housing material Material active face threaded barrel M30 x 1 5 62 mm 30 mm Metal CuZn chrome plated Plastic PA12 GF30 Connection Vibration resistance Shock resistance Protection class Operating voltage 0101583 1212 BL ident connector M12 x 1 55 Hz 1 mm 30 g 11 ms IP67 LED green Industr A m Threaded barrel M30 x 1 5 m Chrome plated brass m Every read write head can communicate with a number of different TURCK data carriers m Powered and operated only via BLident interface module m 12 1 connector intended only for use with BLident adapter cable Connectors S2503 1 RD hec 3 BK 4WH Data Connectors S2500 1 BN ec 3 BU 4WH Data 28 Data Connectors 52501 1 BN 3 BU 4BK Data 5 6 2WH Data Functional principle The HF read w
101. 72mm 18 Stainless steel V2A 1 4301 Plastic LCP GF30 Connection Vibration resistance Shock resistance Protection class Operating voltage 0101583 1212 ident 12 1 55 Hz 1 30 g 11 ms IP68 IP69K LED green Industr A ATEK Kategorie Il 3 Ex Zone 2 ATEX Kategorie Il 3 D Ex Zone 22 Threaded barrel M18 x 1 Stainless steel 1 4404 Front cap made of liquid crystal poly mer Vectra C130 High protection class IP69K for rough ambient conditions Special double lip seal Protection against all common acid and alkaline cleaning agents For the food industry Laser engraved label permanently legi ble Every read write head can communicate with a number of different TURCK data carriers Powered and operated only via BLident interface module M12 x 1 connector intended only for use with BLident adapter cable Connectors S2503 1 RD gt A 3 BK D 995 4WH Data 2BU Data Connectors S2500 1 BN B eM o 3 BU 4 WH Data 2BK Data Connectors S2501 1 BN 3 BU 4BK Data 2WH Data 7 19 TN EM18WD H1147 S1126 Ex M18 x 1 Na BW 10 E 56 72 9 HJ 12 1 TN EM18WD H1147 S1126 EX Ident No 7030384 Mounting condition non flush Ambient temperature 25 70 C Storage temperature in the explosion hazardous area see instruc tion leaflet in the explos
102. 94 116 TW L82 49 P E 50 65 B128 M 96 128 L 110 136 TW BS10X1 5 E 10 19 B128 M 23 L 30 TW BS10X1 5 E 6 19 K2 M 18 L 34 2Measured values Data carrier flush mounted on metal St37 0101583 1212 BLident 8 17 Operating data of the read write heads with corresponding data carriers Table 16 Data carriers Read write heads Operating data TW BD10X1 5 19 B128 TW BD10X1 5 19 K2 TW BV10X1 5 19 B128 TW BV10X1 5 19 K2 TW SPP18x1 B128 TW R30 M B128 TW R50 M B128 TW R80 M B128 TW R30 M K2 E TW R50 M K2 E 2Measured values Data carrier flush mounted on metal 5137 8 18 0101583 1212 BL ident Operating data Industri A Table 16 Data carriers Read write heads Operating data TN CK40 H1147 TN Q80 H1147 TNER Q80 H1147 TW R80 M K2 15 20 47 55 54 64 TW R4 22 B128 TW L86 54 C B128 0101583 1212 BL ident 8 19 Operating data of the read write heads with corresponding data carriers Table 17 Data carriers Read write heads Operating data TNLR Q80 H1147 TN S32XL H1147 TNLR Q80L400 H1147 horizontal TW R7 5 B128 E TW R9 5 B128 E TW R16 B64 E M L TW R16 B128 TW R20 B128 TW R20 K2 M 75 60 8
103. E rio Clamp BSN 5 P 4 9 3 3 Fixing clamp with stopper BST 18B cssssssssscsssssssscssseccssscssscccssccesseecsscessuccessecsssecessecsusecssscesuscesssecesscessseessscesusceeseecsaceesseessneeesneessase 5 9 34 Fixing clamp without stopper 18 5 9 3 5 Quick mount bracket QM 18 9 3 6 Protective cap SKN M18 9 4 Accessories for cylindrical read write heads type M30 eere eee eee nete eene 0000000000000000 7 9 4 1 Fixing clamp with stopper BST 30B csssscsssscsssscssscssssecssecensccessecesseessscessuccessecsssccessecsnsecssseesucesssccssscessscesssccsuscceuceesuceesacessneeesuseesaes 7 94 2 Fixing clamp without stopper BST 3ON 7 943 Quick mount bracket QM 30 Aan anang ngang an adhang 8 9 44 Protective cap 5 30 8 9 5 Shared accessories for cylindrical read write heads of types M18 and M30 9 5 1 Mounting aid for BST fixing clamps BST UH 9 5 2 Mounting aid for BST fixing clamps BST UV 9 5 3 Name plates for BST fixing clamps BST BS ee ena 0000 emen aaa a ae eaaa nana aa naa ttt no tona 9 6 Accessories for rectangular read write heads of type CK4O 6000000000
104. ED Push button Type HT IDENT H1187 Ident No 7030238 Mounting condition non flush Ambient temperature 25 70 C Operating voltage 10 30VDC DC rated operational current lt 80 mA Data transfer inductive coupling Working frequency 13 56 MHz Radio communication and protocol standards ISO 15693 Read write distance max 115 mm Output function 8 wire read write Dimensions Housing material Material active face 190x 70x 85mm yellow Plastic yellow Connection Vibration resistance Shock resistance Protection class Operating voltage 0101583 1212 BL ident connector M12 x 1 55 Hz 1 mm 30 g 11 ms IP67 LED green Industri A m Every read write head can communicate with a number of different TURCK data carriers m Power supply and function only via connection to the BL ident interface module m M12x1 connector 8 pole m Additional LED buzzer and pushbutton m Customized assigment of functions via the outward contact Wiring diagram pin configuration M12 connectors Functional principle The HF read write heads operating at a fre quency of 13 56 MHz form a transmission zone the size of which 0 500 mm varies depending on the combination of read write head and data carrier The read write distances mentioned here on ly represent standard values measured under laboratory conditions The read write distances of the data carriers for mounting in metal TW
105. FIBUS DPV1 PROFINET IO Ethernet Modbus TCP EtherNet IP Interfaces in 2 4 6 and 8 channel designs are available the last digit of the model type description identifies the number of channels in the example here only the 2 channel versions are shown IP20 Interfaces sets for PROFIBUS DPV1 TI BL20 DPV1 2 PROFINET IO TI BL20 EN PN 2 IP20 Interfaces sets programmable for Ethernet Modbus TCP TI BL20 PG EN 2 EtherNet IP TI BL20 PG EIP 2 IP20 Interfaces sets ECONOMY for PROFIBUS DPV1 TI BL20 E DPV1 2 2 4 D101583 1212 BL ident BL ident Modular RFID system Industr A Table 2 Dimensions Protec Description Model type Expansion and enclosure lengths tion interfaces in 20 class for basic communication IP20 BL20 basic module BL20 S4T SBBS IP20 RFID electronic module for BL20 2RFID S basic O communication for PROFIBUS DPV1 DeviceNet PROFINET IO Ethernet Modbus TCP EtherNet IP CANopen Interfaces in 2 4 6 and 8 channel designs are available the last digit of the model type description identifies the number of channels in the example here only 2 channel versions are shown IP20 Interfaces sets for basic communication PROFIBUS DPV1 TI BL20 DPV1 S 2 DeviceNet TI BL20 DN S 2 Ethernet Modbus TCP TI BL20 EN S 2 PROFINET IO TI BL20 EN PN S 2 EtherNet IP TI BL20 EIP S 2 IP20 Interfaces sets programmable for Eth
106. H Data 2BU Data Connectors 52500 1 BN hemos 59 BU 4 WH Data 2BK Data Connectors 52501 1 BN 54 BK Data gt 2WH Data 7 13 TB EM18WD H1147 81126 Ex Type TB EM18WD H1147 S1126 EX Ident No 7030383 Mounting condition flush Ambient temperature 25 70 C Storage temperature in the explosion hazardous area see instruc tion leaflet in the explosion hazardous area see instruc tion leaflet Device designation Approval acc to II 3G Ex nA II T4 Gc I 3D Ex t IIIB T135 C Dc TURCK Ex 10005M X Operating voltage DC rated operational current Data transfer Working frequency Radio communication and protocol standards Read write distance max Output function 10 30VDC lt 80 mA inductive coupling 13 56 MHz ISO 15693 30 mm 4 wire read write Design Dimensions Housing diameter Housing material Material active face threaded barrel M18 x 1 72mm 18 mm Stainless steel V2A 1 4301 Plastic LCP GF30 Connection Vibration resistance Shock resistance Protection class Operating voltage 7 14 connector M12 x 1 55 Hz 1 mm 30 g 11 ms IP68 1 69 LED green ATEX Kategorie Il 3 G Ex Zone 2 ATEX Kategorie Il 3 D Ex Zone 22 Threaded barrel M18 x 1 Stainless steel 1 4404 Front cap made of liquid crystal poly mer Vectra C130 m High protection class IP69K for rough ambient conditions m Special double
107. M18 x 1 Material Polyamide 0101583 1212 ident 9 5 Accessories 9 3 5 Quick mount bracket QM 18 Figure 33 Quick mount bracket QM 18 Table 29 Type code QM 18 Quick mount bracket QM 18 Ident No 6945102 Description Quick mount bracket for cylindrical read write heads M18 x1 Material Chrome plated brass 9 3 6 Protective cap SKN M18 Figure 34 Protective cap SKN M18 7 22 r 73 5 M18 x 1 Table 30 Type code SKN M18 Protective cap SKN M18 Ident No Description Teflon protective cap for cylindrical read write heads M18x1 Material PTFE 9 6 D101583 1212 BL ident Accessories for cylindrical read write heads type M30 Industr A 9 4 Accessories for cylindrical read write heads type M30 9 4 1 Fixing clamp with stopper BST 30B Figure 35 Fixing clamp BST 30B Table 31 Type code BST 30B Fixing clamp BST 30B Ident No 6947216 Description Fixing clamp with stopper for cylindrical read write heads M30 x 1 5 Material Polyamide 9 4 2 Fixing clamp without stopper BST 30N Figure 36 Fixing clamp BST 30N Table 32 Type code BST 30N Fixing clamp BST 30N Ident No 6947217 Description Fixing clamp without stopper for cylindrical read write heads M30 x 1 5 Material Polyamide 0101583 1212 ident 9 7 Accessories 9 4 3 Quick mount bracket QM 30 Figure 37 Quick mount bracket QM 30
108. R Q80 R192H132 2M Ex Type Ident No TNLR Q80L400 H1147 7030204Lengthwise Mounting condition Ambient temperature non flush flush mountable 25 70 C Operating voltage DC rated operational current Data transfer Working frequency Radio communication and protocol standards Read write distance max Output function 19 2 28 8VDC 230 mA inductive coupling 13 56 MHz ISO 15693 360 mm 4 wire read write Design Dimensions Housing material Material active face rectangular 400x 80x 25mm Plastic PBT GF30 VO black Plastic black Connection Vibration resistance Shock resistance Protection class Operating voltage 7 48 connector M12 x 1 55 Hz 1 mm 30 9 11 ms IP67 LED green m Forroller conveyors m Rectangular 80 x 400 mm height 25 mm Active face top m Plastic PBT GF30 VO m Every read write head can communicate with a number of different TURCK data carriers m Powered and operated only via BLident interface module m M12x1 connector intended only for use with BLident adapter cable Connectors S2503 1 RD 3 BK 4WH Data ya Connectors S2500 1 BN D 3 BU 4WH Data Connectors S2501 1 BN 3 BU 4BK Data y 2WH Data Functional principle The HF read write heads operating at a fre quency of 13 56 MHz form a transmission zone the size of which 0 500 mm varies depend
109. Read and write the dynamic operating mode on the fly Dwell period of the data carrier T 3 eter e eti e M e Mee pde e Her ae det rape Calculation of the maximum number of user data in the dynamic operating mode with HF and use of a single data carrie usui eut tiic anaa ANDA petente eere sadi 4 Minimum distance between two adjacent data carriers in stand alone operating mode Minimum distance between two adjacent data carriers multi access operating mode sss 5 Installation guidelines OVEIVICW J 2 Minimizing interferences caused by 1 eee esee sees esee sees esee esses osse osse osse sss so sss ses esee 2 Mounting of several read write heads on metal frames or metal carriers 000000000000000000000000000000000000 3 No mounting of data carriers on metal 00000000000000000000000000000000 0000000000000000 ases eee esee e een 0000000000000000 00000000 5 Upshot Transmission range interference caused by metal 0000000000000000000000000000000000 0000000000000000 esee eno 5 EMC guidelines Who should use these EMC guidelines eee ee eee eee eee ee eee nena eee eet tno osos 0000000000000000 00000000000000 2 Propagation of an electromagnetic interference 00000000000000000000000000000000 0000000000000000 00000000000000 0000000000 2 Wh
110. The read write distances mentioned here on ly represent standard values measured under laboratory conditions The read write distances of the data carriers for mounting in metal TW R M MF were de termined in metal Attainable distances may vary by up to 30 due to component tolerances mounting con ditions ambient conditions and material quali ties especially when mounted in metal Testing of the application under real operat ing conditions is therefore essential especial ly with read write on the fly 7 9 TB M18 H1147 S1126 Type TB M18 H1147 S1126 Ident No 7030212 Mounting condition flush Ambient temperature 25 70 C Operating voltage 10 30VDC DC rated operational current lt 80 mA Data transfer inductive coupling Working frequency 13 56 MHz Radio communication and protocol standards ISO 15693 Read write distance max 30 mm Output function 4 wire read write Design Dimensions Housing diameter Housing material Material active face threaded barrel M18 x 1 72 mm 18 mm Metal CuZn chrome plated Plastic PA12 GF30 Connection Vibration resistance Shock resistance Protection class Operating voltage 7 10 connector M12 x 1 55 Hz 1 mm 30 g 11 ms IP67 LED green m Threaded barrel M18 x 1 m Chrome plated brass m Every read write head can communicate with a number of different TURCK data carriers m Powered and operated only via BLident
111. W R30 M K2 E M L TW R50 M K2 E 30 M 58 L 76 Measured values Data carrier flush mounted on metal 5137 8 22 D101583 1212 BL ident Operating data Industri A Table 17 Data carriers Read write heads Operating data TW R80 M K2 TW R4 22 B128 TW L86 54 C B128 0101583 1212 BL ident 8 23 Operating data of the read write heads with corresponding data carriers Table 18 Operating data Data carriers Read write heads TNLR Q80L400 801400 TNLR Q80L400 H1147 H1147L horizontal H1147 crossways crossways TW R7 5 B128 E M L TW R9 5 B128 E TW R16 B64 E M L TW R16 B128 TW R20 B128 TW R20 K2 TW R30 B128 TW R30 K2 M 125 122 122 L 416 100 100 TW R50 B128 Measured values Data carrier on metal 5137 with plastic screws 8 24 0101583 1212 BL ident Operating data Table 18 Operating data Data carriers Read write heads TNLR Q80L400 TNLR Q80L400 TUCK Industrial Automation TNLR Q80L400 H1147L horizontal H1147 crossways H1147L crossways TW R50 K2 90 120 120 230 216 216 466 190 190 TW R22 HT B64 TW R50 90 70 120 120 HT B128 238 226 226 484 230 230 TW R50 90 60 90 90 HT K2 200 186 186 466 190 190 TW R50 MF K2 TW 114 B128 30 50 50 105 95 95 410 74 74 TW L43
112. a carriers Read write heads Operating data TB M18 H1147 TB EM18WD H1147 TN M18 H1147 TW R80 M K2 E M L TW R4 22 B128 TW L86 54 C B128 0101583 1212 BL ident 8 7 Operating data of the read write heads with corresponding data carriers Table 14 Operating data Data carriers Read write heads TN EM18WD H1147 TB M30 H1147 TB EM30WD H1147 TW R7 5 B128 E 8 8 8 M 16 16 18 L EE 20 20 TW R9 5 B128 E 9 9 9 M 18 18 20 L 22 22 22 TW R16 B64 M L TW R16 B128 12 12 12 M 23 23 23 L 26 20 20 TW R20 B128 10 15 15 M 22 27 27 L 26 20 20 TW R20 K2 E 12 15 15 M 20 22 22 L 24 20 20 TW R30 B128 10 13 13 M 25 30 30 L 34 32 32 TW R30 K2 E 16 15 15 M 31 27 27 L 32 32 32 TW R50 B128 20 20 20 M 41 43 43 L 70 46 46 Measured values Data carrier on metal 5137 with plastic screws 8 8 D101583 1212 BL ident Operating data Table 14 Data carriers Read write heads Operating data TN EM18WD H1147 TB M30 H1147 TB EM30WD H1147 TW R50 K2 E 12 15 15 M 30 33 33 L 60 36 36 TW R22 HT E B64 TW R50 90 HT B128 TW R50 90 HT K2 TW R50 MF K2 TW 114 B128 TW L43 43 F B128 TW L82 49 P B128 TW BS10X1 5 19 B128 TW BS10X1 5 19 K2 2Measured
113. a controller The characteristics of a fieldbus are high data transfer safety and real time behavior FRAM Ferroelectric Random Access Memory FRAM describes a non volatile electronic memory type based on crystals with ferroelectric characteristics GSD General Station Description Formerly device master file The GSD data file describes the characteristics of the devices which are used in PROFIBUS DP The GSD data file is a readable text file and is available in multiple languages Project planning tools require the device information for configuration and start up The content of GSD data files typically comprises general information e g manufacturer name and version with modular devices communication characteristics e g module descriptions texts for diagnostic messages parameterization options and parameter names Hexadecimal Number system with 16 as basis the count starts at 0 to 9 and continues with the letters A C D E and F IEC 61131 IEC 61131 is an international standard which addresses the basics for programmable controllers Initialization During initialization the memory space e g variables code buffer etc needed for execution is reserved and filled with start values IP International Protection The protection class IP identifies the suitability of electrical devices e g installation material for different environmental conditions and in addition the protection of persons against potential da
114. a transfer inductive coupling Working frequency 13 56 MHz Radio communication and protocol standards ISO 15693 Read write distance max 45 mm Output function 4 wire read write Design Dimensions Housing diameter Housing material Material active face threaded barrel M30 x 1 5 62 mm 30 mm Stainless steel V2A 1 4301 Plastic LCP GF30 Connection Vibration resistance Shock resistance Protection class Operating voltage 0101583 1212 BL ident connector M12 x 1 55 Hz 1 mm 30 g 11 ms IP68 1 69 LED green Industr A m threaded barrel M30 x 1 m Stainless steel 1 4404 m front cap made of liquid crystal polymer Vectra C130 m high degree of protection IP69K for ex treme environmental conditions m special double lip seal m protection against all common acid and alkaline cleaning agents m Suited for applications in the food in dustry m permanently legible type label due to laser engraving m Every read write head can communicate with a number of different TURCK data carriers m Powered and operated only via BLident interface module m 12 1 connector intended only for use with BLident adapter cable Connectors S2503 1 RD hec 3 BK 4WH Data Connectors S2500 1 BN ec 3 BU 4WH Data 2BK Data Connectors S2501 1 BN 4BK Data 2WH Data 7 23 TB EM30WD H1147 S1126 Type TB EM30WD H1147 S1126 Ident
115. abiCes 28 ident simulator for HF RFID NANANG AN NONA AAN Ae 28 ident simulator for UHF RFID 30 Compatibility 31 Application examples o0000000000000000000000000 0000000000 000000000000 0000000000000000 0000000000 000000000000 e0e0e0 nen 0eee0e0 000000000 32 0101583 1212 2 1 The TURCK BL ident system 2 1 BL ident Modular RFID system BL ident is a complete RFID system which showcases its special characteristics especially in the industrial environment The system s modular design is based on the I O systems BL67 field installation and BL20 switching cabinet installation or rather on the compact fieldbus modules BL compact field mount Each BL ident system be assembled as a custom RFID solution by freely combining data carriers read write heads connectivity technology and interfaces gateway and RFID module Available are not only extremely fast FRAM data carriers with almost unlimited write capacity but also high temperature versions up to 240 C which are suitable for a paint finishing line application Another feature BL ident can be integrated very easily into existing system configurations 2 1 1 BLident Flexibility for your application security for your investment The RFID system BL ident provides on
116. ad write time in the data collection range of the HF read write head The time that the data carrier must remain in the data collection range of the read write head in order to savely read and write all needed data depends on the following factors Command type read or write Data carrier with memory type EEPROM or FRAM Data volume Expansion of the data detection range depends on the combination of the type of read write head and the data carrier Note Please observe the recommended distances between the data carrier and the read write head You may find the specifications for recommended and maxium distance in the chapter Operating Data Data detection may be interrupted by the following interferences E Electromagnetic interferences E Strong reflexions on metal parts in the direct environment of the data detection range The following sections show the required time for the read write functions of a specific data volume The required time depends on the memory type of the data carrier Currently BL ident offers HF data carriers with the following memory types 8 EEPROMH Code 511 EEPROMH Code 512 FRAM Currently BL ident offers UHF data carriers with the following memory types EEPROM U Code G2 E EEPROM Monza E EEPROM Higgs 0101583 1212 BL ident Read write time the data collection range of the HF read write head Industr A EEPROM I Code SL2 data carriers The EEPROM data carrie
117. agnetic alternating fields The type of data transfer is also called radio frequency technology A Tag page 10 3 is used as data carrier sS Read Write head The read write head also read write device creates an electromagnetic high frequency field This is how data is transferred and how the data carrier transponder is supplied with power The data is displayed via modulation of the electromagnetic field PLC Programmable Logic Controller Station Function unit or assembly consisting of multiple elements STEP 7 STEP 7 is the actual programming software of the Simatic S7 PLC family of the company Siemens AG and is the replacement of STEP 5 H RFID tags are small transponders custom application housings e g tag chip cards and trailers Transceiver Combination of sender and receiver In RFID technology transceivers are used as so called readers These devices send a signal which is answered by the transponder e g RFID tag and which is again received by the transceiver and sent to a computer system for further processing Transponder Transmitter Responder Responding Device A transponder consists of a microchip with unique identification No a send receive antenna and a housing The data is transferred from a reader to a transponder via electromagnetic waves 0101583 1212 ident 10 3 Glossary Transponder Technology also RFID Technology 10 3 vu UHF Ultra High Frequ
118. al Testing of the application under real operat ing conditions is therefore essential especial ly with read write on the fly 0101583 1212 BL ident TW R30 M K2 29 9 d 10 m Type TW R30 M K2 Ident No 7030206 Data transfer inductive coupling Working frequency 13 56 MHz Memory type FRAM Chip Fujitsu MB89R118 Memory size 2048 byte Memory read write Freely usable memory 2000 byte Number of read operations unlimited Number of write operations 1010 Typical read time 0 5 ms byte Typical write time 0 5 ms byte Radio communication and protocol standards ISO 15693 Minimum distance to metal Omm Ambient temperature 25 85 C Storage temperature 45 85 C 140 C 1x100 h Design Housing material Material active face Protection class R30 Plastic PET Plastic black PET IP68 Packaged quantity 0101583 1212 BL ident Industr A Mobile data carrier m 3 different mounting options in on met al incl accessories m Read write m FRAM memory size 2 Kbytes Functional principle The HF read write heads operating at a fre quency of 13 56 MHz form a transmission zone the size of which 0 500 mm varies depending on the combination of read write head and data carrier The read write distances mentioned here on ly represent standard values measured under laboratory conditions The read write distances of the data carriers for mounting in metal TW R
119. al ly with read write on the fly 6 7 TW R9 5 B128 Type Ident No TW R9 5 B128 7030252 Data transfer inductive coupling Working frequency 13 56 MHz Memory type EEPROM Chip NXP I Code SLI SL2 Memory size 128 byte Memory read write Freely usable memory 112 byte Number of read operations unlimited Number of write operations 10 Typical read time 2 ms byte Typical write time 3 ms byte Radio communication and protocol standards ISO 15693 Minimum distance to metal 10mm Ambient temperature 25 85 C Storage temperature 40 85 C Design R9 5 Housing material Material active face Protection class Plastic epoxy Plastic epoxy IP68 Packaged quantity 6 8 100 Mobile data carrier Read write Compatible with a number of BLident read write heads see data sheet or compatibility table m EEPROM memory 128 bytes Functional principle The HF read write heads operating at a fre quency of 13 56 MHz form a transmission zone the size of which 0 500 mm varies depending on the combination of read write head and data carrier The read write distances mentioned here on ly represent standard values measured under laboratory conditions The read write distances of the data carriers for mounting in metal TW R M MF were de termined in metal Attainable distances may vary by up to 30 due to component tolerances mounting con ditions ambient conditions and
120. all levels the flexibility you need for your application From the selection of the data carriers to the read write heads including connection to the control level You will always have the opportunity to perfectly configure the system in order to meet your specific application needs BL ident is save for the future and interoperable because it is based on international worldwide standards Thus you will enjoy a high level of investment security 2 1 2 BL Data carriers Special small design 7 5 mm for EEPROM data carrier for high piece numbers FRAM data carrier for high speeds and a high number of write cylces El High temperature carrier for continuous process control at 40 240 C Autoclave data carrier for an application with approx 130 C hot steam under pressure E Direct mounting metal L Open and worldwide standards ISO 15693 and ISO 18000 6C 2 1 3 BLident Read write heads Industry suitable and robust design 8 Fully casted read write heads HF 8 Read write distances of up to 1000 mm depending on environmental conditions HF or several meters UHF Suitable for food and beverage applications wash down IP69K 2 2 D101583 1212 BL ident BL ident Modular RFID system 2 1 4 BLident Industr A Interfaces Modular design BL20 and BL67 with up to 16 channels per gateway depending inter alia on the kind of fieldbus system parameter and performance of th
121. and Handling Machine Building E Food and Beverage 8 Chemistry 8 Pharmacy and Petrochemistry Utilization in all areas is possible like 8 Assembly Line Materials Handling Industrial Manufacturing E Storage Logistics Distribution Consignment Transportation Logistics 0101583 1212 BL ident Industr A 3 ident System planning 3 1 Selection criteria for data carriers read write heads and interface module 00000000000000000000000000000000 2 3 2 Transmission range and read write distance Lecce ecce eene eese eee ee 0000000000000000 0000000000000000 00000000000000 3 21 Length of the HF transmission range and width offset 3 2 2 Minimum distance of data carrier to read write head 3 2 3 Permissible moving direction and alignment of data carriers eea aana aa eaaa amanea eaaa ttennntnnnnttnnnnntenenntenn 3 3 24 Read write operation in the static operating mode with HF eese 3 3 2 5 Read and write in the dynamic operating mode on the fly ou sseccssssecsseescesssecssnsccessseecssssecesssecesnsceesssseesssneessnseessnseeeesseeees 3 3 2 6 Dwell period of the data carrier Ty sssssssssssssssssssssososesssssssessssssssssssnssseossssssscssssnssoosssssussssssssssosessnssssessssneseesssnsseesssesussossssssseosessnsees 3 3 27 Calculation of the maximum number of user data in the dynamic operating mode with
122. area see instruc tion leaflet Device designation Approval acc to Ex nA II T4 Gc Il 3D Ex t IIIB T135 C Dc TURCK Ex 10005M X Operating voltage DC rated operational current Data transfer Working frequency Radio communication and protocol standards Read write distance max Output function 10 30VDC lt 80 mA inductive coupling 13 56 MHz ISO 15693 30 mm 4 wire read write Design Dimensions Housing diameter Housing material Material active face threaded barrel M18 x 1 72mm 18 mm Stainless steel V2A 1 4301 Plastic LCP GF30 Connection Vibration resistance Shock resistance Protection class Operating voltage 0101583 1212 BL ident connector M12 x 1 55 Hz 1 mm 30 g 11 ms IP68 IP69K LED green Industr A ATEX Kategorie Il 3 G Ex Zone 2 ATEX Kategorie Il 3 D Ex Zone 22 Threaded barrel M18 x 1 Stainless steel 1 4404 Front cap made of liquid crystal poly mer Vectra C130 High protection class IP69K for rough ambient conditions Special double lip seal Protection against all common acid and alkaline cleaning agents For the food industry Laser engraved label permanently legi ble Every read write head can communicate with a number of different TURCK data carriers Powered and operated only via BLident interface module M12 x 1 connector intended only for use with BLident adapter cable Connectors S2503 1RD 3 BK 4W
123. at can interfere with RFID e eee eee eee ooo see ase osos ee eee ee eene nass sees eee eese eene sese esee eese 3 Coupling distants 3 What TXI si 4 Basic rules for safeguarding 5 Assembly of switching cabinet anak aaa pana aaa ng aa aa 6 Avoiding sources of 6 Potential equalization tm e Pe eR ENTRATE RYANAIR ES 6 Shielding Of Cables cit M DRE 7 BL ident Data carriers for the HF band Functionality 2 Memory COMPOME ME espe e c E 2 Data carrier electronics Data Carrer antena tua ou een ga aa AE aa at 2 Overview of data carrier model types 00000000000000000000000000000 0000000000000000 000000000000 00000000000000 0000000000000000 3 0101583 1212 BL ident Industr A 7 BL ident Read write heads for the HF band 7 1 dE
124. ata transfer inductive coupling Working frequency 13 56 MHz Memory type FRAM Chip Fujitsu MB89R118 Memory size 2048 byte Memory read write Freely usable memory 2000 byte Number of read operations unlimited Number of write operations 1010 Typical read time 0 5 ms byte Typical write time 0 5 ms byte Radio communication and protocol standards ISO 15693 Minimum distance to metal Omm Ambient temperature 25 85 C Storage temperature 45 85 C 140 C 1x100 h in the explosion hazardous area see instruc tion leaflet Device designation Approval acc to II 2 G Ex ia IIC T4 T6 II 2D Ex 21 T110 C BVS 09 ATEX E 036 X Design Housing material Material active face Protection class R50 Plastic PAG Plastic black PA6 IP69K Packaged quantity 0101583 1212 ident Industr A ATEK category Il 2 Ex Zone 1 ATEX category Il 2 D Ex Zone 21 Mobile data carrier Read write This data carrier can be mounted in metal flush resp on metal Mount the data carrier such that the la bel is readable and faces towards the read write head Use plastic screws for mounting m FRAM memory size 2 Kbytes Functional principle The HF read write heads operating at a fre quency of 13 56 MHz form a transmission zone the size of which 0 500 mm varies depending on the combination of read write head and data carrier The read write distances mentioned here on ly repre
125. aterial Plastic PA6 Material active face Plastic black PA6 Protection class IP69K Packaged quantity 0101583 1212 ident Industr A ATEK category Il 2 Ex Zone 1 ATEX category II 2 D Ex Zone 21 Mobile data carrier Read write Compatible with a number of BLident read write heads see data sheet or compatibility table m EEPROM memory 128 bytes Functional principle The HF read write heads operating at a fre quency of 13 56 MHz form a transmission zone the size of which 0 500 mm varies depending on the combination of read write head and data carrier The read write distances mentioned here on ly represent standard values measured under laboratory conditions The read write distances of the data carriers for mounting in metal TW R M MF were de termined in metal Attainable distances may vary by up to 30 due to component tolerances mounting con ditions ambient conditions and material quali ties especially when mounted in metal Testing of the application under real operat ing conditions is therefore essential especial ly with read write on the fly 6 11 TW R20 B128 Type Ident No TW R20 B128 6900502 Data transfer inductive coupling Working frequency 13 56 MHz Memory type EEPROM Chip NXP I Code SLI SL2 Memory size 128 byte Memory read write Freely usable memory 112 byte Number of read operations unlimited Number of write operations 10
126. ation of an electromagnetic interference What does EMC mean Basic rules for safeguarding EMC Assembly of a switching cabinet Avoiding sources of interference Potential equalization Shielding of cables 5 2 Propagation of an electromagnetic interference Electromagnetic interference in an installation can only occur when the following components are present E Source of interference E Link E Susceptible equipment If one of these components is missing e g the coupling distance no interference will occur even when the source of interference is sending strong jamming signals Figure 20 Interference components Figure 20 Interference components Source of interference link susceptible equipment e g motor e g cable connector e g read write head The measurements for avoiding interference EMC are suitable in connection with all three components When assembling a system the manufacturer is obligated to implement all possible measures to prevent the creation of a source of interference The system must be assembled in such a way that the mutual interference of single components can not occur or is kept to a minimum 0101583 1212 BL ident What can interfere with RFID Industr A 5 3 What can interfere with RFID 8 Problem Irradiation interference via a power supply line when switching power supply components are used Solution Use a controlled switching power supply component
127. ation under real operat ing conditions is therefore essential especial ly with read write on the fly 7 51 7 52 0101583 1212 ident Premoulded cables for connecting interface and read write heads Industr A 7 4 Premoulded cables for connecting interface and read write heads Table 1 Dimensions Type code Description Ident BL ident enclosure length No Cables and connectors Connection cables RK4 5T 0 3 RS4 5T S2500 female straight 6699210 RK4 5T 0 3 RS4 5T S2503 male straight 7030330 0 3m RK4 5T 2 RS4 5T S2500 female straight 6699200 RK4 5T 2 RS4 5T S2503 male straight 2m 7030331 RK4 5T 5 RS4 5T S2500 female straight 6699201 RK4 5T 5 RS4 5T S2503 male straight 5 m 7030332 RK4 5T 10 RS4 5T S2500 female straight 6699202 RK4 5T 10 RS4 5T S2503 male straight 7030333 10m RK4 5T 25 RS4 5T S2500 female straight 6699211 RK4 5T 25 RS4 5T S2503 male straight 7030334 25m RK4 5T 50 RS4 5T S2500 female straight 8035246 RK4 5T 50 RS4 5T S2503 male straight 7030335 50m Connection cables WK4 5T 2 RS4 5T S2500 female angled 6699203 male straight 2 m WK4 5T 5 RS4 5T S2500 female angled 6699204 male straight 5 m WK4 5T 10 RS4 5T S2500 female angled 6699205 male straight 10m WK4 5T 25 RS4 5T S2500 female angled 6638425 male straight 25m WK4 5T 50 RS4 5T S2500 female angled 6638426 male straight 50m 0101583 1212 ident 7 53 Table 1 Dimensions Type code Des
128. ces mounting con ditions ambient conditions and material quali ties especially when mounted in metal Testing of the application under real operat ing conditions is therefore essential especial ly with read write on the fly 7 45 TNLR Q80L400 H1147 Type Ident No TNLR Q80L400 H1147 7030204Lengthwise Mounting condition Ambient temperature non flush flush mountable 25 70 C Operating voltage DC rated operational current Data transfer Working frequency Radio communication and protocol standards Read write distance max Output function 19 2 28 8VDC 230 mA inductive coupling 13 56 MHz ISO 15693 360 mm 4 wire read write Design Dimensions Housing material Material active face rectangular 400x 80x 25mm Plastic PBT GF30 VO black Plastic black Connection Vibration resistance Shock resistance Protection class Operating voltage 7 46 connector M12 x 1 55 Hz 1 mm 30 9 11 ms IP67 LED green m Forroller conveyors m Rectangular 80 x 400 mm height 25 mm Active face top m Plastic PBT GF30 VO m Every read write head can communicate with a number of different TURCK data carriers m Powered and operated only via BLident interface module m M12x1 connector intended only for use with BLident adapter cable Connectors S2503 1 RD 3 BK 4WH Data ya Connectors S2500 1 BN D 3 BU 4WH Data
129. ciple The HF read write heads operating at a fre quency of 13 56 MHz form a transmission zone the size of which 0 500 mm varies depending on the combination of read write head and data carrier The read write distances mentioned here on ly represent standard values measured under laboratory conditions The read write distances of the data carriers for mounting in metal TW R M MF were de termined in metal Attainable distances may vary by up to 30 due to component tolerances mounting con ditions ambient conditions and material quali ties especially when mounted in metal Testing of the application under real operat ing conditions is therefore essential especial ly with read write on the fly 0101583 1212 BL ident TN EM30WD H1147 M30 x 1 5 2 36 5 LED M12 x 1 Type TN EM30WD H1147 Ident No 7030222 Mounting condition non flush Ambient temperature 25 70 C Operating voltage 10 30VDC DC rated operational current lt 75mA Data transfer inductive coupling Working frequency 13 56 MHz Radio communication and protocol standards ISO 15693 Read write distance max 77mm Output function 4 wire read write Design Dimensions Housing diameter Housing material Material active face threaded barrel M30 x 1 5 62 mm 30 mm Stainless steel V2A 1 4301 Plastic LCP GF30 Connection Vibration resistance Shock resistance Protection class Operating volta
130. cription Ident BL ident enclosure length No Cables and connectors Connection cables WK4 5T 2 RS4 5T S2503 female angled 7030336 male straight 2 m WK4 5T 5 RS4 5T S2503 female angled 7030337 male straight 5 WK4 5T 10 RS4 5T S2503 female angled 7030338 male straight 10m WK4 5T 25 RS4 5T S2503 female angled 7030339 male straight 25m WK4 5T 50 RS4 5T S2503 female angled 7030340 male straight 50m Connector RK4 5T 2 S2500 female straight 8035244 RK4 5T 2 92503 2m 7030341 RK4 5T 5 S2500 female straight 6699206 RK4 5T 5 S2503 5m 7030342 RK4 5T 10 S2500 female straight 6699207 RK4 5T 10 92503 10m 7030343 RK4 5T 25 S2500 female straight 6638421 RK4 5T 25 S2503 25m 7030344 RK4 5T 50 S2500 female straight 6638422 RK4 5T 50 S2503 50m 7030345 7 54 D101583 1212 BL ident Premoulded cables for connecting interface and read write heads Industr A Table 1 Dimensions Type code Description Ident ident enclosure length No Cables and connectors Connector WK4 5T 2 S2500 female angled 8035245 2m WK4 5T 5 S2500 female angled 6699208 5m WK4 5T 10 S2500 WK4 5T 25 S2500 female angled 6699209 10m female angled 6638423 25m WK4 5T 50 S2500 female angled 6638424 50m WK4 5T 2 S2503 WK4 5T 5 S2503 female angled 7030346 2m female angled 7030347 5m WK4 5T 10 S2503 female angled 7030348 10m WK
131. ctions related to operating data 000000000000000000000000000000000000 0000000000000000 0 00000000000000 00000000000000 0000000000 2 aaa 3 Operating p c 4 0101583 1212 BL ident 8 1 Operating data of the read write heads with corresponding data carriers 8 1 Instructions related to operating data The operating data are sufficient for a basic system specification If a more accurate evaluation of the performance of the read write head is needed the respecitve cross path can be used Note Please note that marginal parameters like e g interference caused by metal are not being taken into consideration for reasons of simplification Respective tests are to be conducted prior to start up The following tables with operating data show possible combinations of read write heads and data carriers E recommended read write distance x undetermined max read write distance L Length of the transmission range at recommended distance The read write heads with the digits 1126 as part of the model type description are optimized for different data carriers The following color definitions exist in the tables with the operating data Table 12 Color Description Color definition tables operating data Read write heads also for Texas Instruments EEPROM Infineon
132. d write distances mentioned here on ly represent standard values measured under laboratory conditions The read write distances of the data carriers for mounting in metal TW R M MF were de termined in metal Attainable distances may vary by up to 30 due to component tolerances mounting con ditions ambient conditions and material quali ties especially when mounted in metal Testing of the application under real operat ing conditions is therefore essential especial ly with read write on the fly 6 37 TW L49 46 F B128 49 46 Type Ident No TW L49 46 F B128 7030390 Data transfer inductive coupling Working frequency 13 56 MHz Memory type EEPROM Chip NXP I Code SLI SL2 Memory size 128 byte Memory read write Freely usable memory 112 byte Number of read operations unlimited Number of write operations 10 Typical read time 2 ms byte Typical write time 3 ms byte Radio communication and protocol standards ISO 15693 Minimum distance to metal 10mm Ambient temperature 20 70 C Storage temperature 20 70 C Design Smart Label Housing material Plastic PET Material active face Foil Protection class IP40 Packaged quantity 6 38 Mobile data carrier Read write m Compatible with a number of BLident read write heads see data sheet or compatibility table m EEPROM memory 128 bytes Functional principle The HF read write heads operating at a fre quency o
133. d write heads operating at a fre quency of 13 56 MHz form a transmission zone the size of which 0 500 mm varies depending on the combination of read write head and data carrier The read write distances mentioned here on ly represent standard values measured under laboratory conditions The read write distances of the data carriers for mounting in metal TW R M MF were de termined in metal Attainable distances may vary by up to 30 due to component tolerances mounting con ditions ambient conditions and material quali ties especially when mounted in metal Testing of the application under real operat ing conditions is therefore essential especial ly with read write on the fly 6 29 TW R80 M B128 pul Type Ident No TW R80 M B128 7030207 Data transfer inductive coupling Working frequency 13 56 MHz Memory type EEPROM Chip NXP I Code SLI SL2 Memory size 128 byte Memory read write Freely usable memory 112 byte Number of read operations unlimited Number of write operations 10 Typical read time 2 ms byte Typical write time 3 ms byte Radio communication and protocol standards ISO 15693 Minimum distance to metal Ambient temperature 25 85 C Storage temperature 45 85 C 140 C 1x100 h Design Housing material Material active face Protection class R80 Plastic PET Plastic black PET IP68 Packaged quantity 6 30 Mobile data carrier
134. data carrier Read write m Compatible with a number of BLident read write heads see data sheet or compatibility table m FRAM memory 8 Kbytes Functional principle The HF read write heads operating at a fre quency of 13 56 MHz form a transmission zone the size of which 0 500 mm varies depending on the combination of read write head and data carrier The read write distances mentioned here on ly represent standard values measured under laboratory conditions The read write distances of the data carriers for mounting in metal TW R M MF were de termined in metal Attainable distances may vary by up to 30 96 due to component tolerances mounting con ditions ambient conditions and material quali ties especially when mounted in metal Testing of the application under real operat ing conditions is therefore essential especial ly with read write on the fly D101583 1212 BL ident TW R50 K8 Ex 04 9 50 Ident No TW R50 K8 Ex 7030249 Data transfer Working frequency Memory type Chip Memory size Memory Freely usable memory Number of read operations Number of write operations Typical read time Typical write time Radio communication and protocol standards inductive coupling 13 56 MHz FRAM Turck TW K8 8192 byte read write 7936 byte unlimited 1019 0 5 ms byte 0 5 ms byte ISO 15693 access only possible with BLident devices Minimum distanc
135. de sure length tion ristics prerequi sites non ATEX via TNLR Q80 R234H172 2M Ex flush BL ident cable partically ATEX via TN CK40 R130H93 2M Ex embed BL ident ded cable Note The TNLR Q80L400 read write heads are on principle suited for application in roller conveyors However data may not be transmitted interference free because the high frequency magnetic field produced by the read write head can be modulated strongly via the roller bearings and the framework of electrically connected rotating rollers Therefore the mounting of additional shields is optionally required to protect the read write head against interference Made of metal and forming a U profile the shields have to be mounted flush with the top edge of the read write head Direct contact with the read write head must be avoided Electrical interconnection between the shields and the framework must be established When mounting the read write head in the U profile plastic spacers must be used Once mounted in the application the attainable read write distance and the travel speed must be determined under real operating conditions see illustration Fig 27 The following drawing is only an example The dimensions to be used in the application may differ from it 0101583 1212 BL ident 7 7 BL ident Read write heads for the Figure 6 Mounting TNLR Q80L400 in U profile 7 8 0101583 1212 BL ident
136. ditions The read write distances of the data carriers for mounting in metal TW R M MF were de termined in metal Attainable distances may vary by up to 30 due to component tolerances mounting con ditions ambient conditions and material quali ties especially when mounted in metal Testing of the application under real operat ing conditions is therefore essential especial ly with read write on the fly 6 9 TW R16 B128 1 a 2 5 Pas 16 Type Ident No TW R16 B128 6900501 Data transfer inductive coupling Working frequency 13 56 MHz Memory type EEPROM Chip NXP I Code SLI SL2 Memory size 128 byte Memory read write Freely usable memory 112 byte Number of read operations unlimited Number of write operations 10 Typical read time 2 ms byte Typical write time 3 ms byte Radio communication and protocol standards ISO 15693 Minimum distance to metal 10mm Ambient temperature 25 85 C Storage temperature 25 120 C 160 C 1x35 h 220 C 1 30 8 Design Housing material Material active face Protection class R16 Plastic PA6 Plastic black PA6 IP69K Packaged quantity 6 10 Mobile data carrier Read write Compatible with a number of BLident read write heads see data sheet or compatibility table m EEPROM memory 128 bytes Functional principle The HF read write heads operating at a fre quency of 13 56 MHz form a tra
137. dwell time is as long as needed The dwell time must be long enough to ensure that communication with the data carrier has been completed 0101583 1212 ident 3 3 BL ident System planning In the dynamic operating mode the dwell time is defined by the system environment The dwell time must be matched to the data volume to be transmitted This means the shorter the dwell time the smaller the volume of data to be transmitted Note i With the BL ident Simulator at www turck com you may view different HF band examples for this subject 3 2 7 Calculation of the maximum number of user data in the dynamic operating mode with HF and use of a single data carrier The calculation of the maximum number of user data depends on the data carrier and read write head that were chosen Example The transport system moves the pallettes with the transponders with a maximum speed of V 1 0 m s dynamic operating mode The following RFID components were selected Read write heads TB M18 H1147 data carriers TW R30 K2 L Length of the transmission range 1 Calculate dwell time of the transponder t 2L Vr 20 018m 1 0 m s 0 018 s 18 ms 2 Calculate maximum user data N max for read operation 9 Read ty 18 ms 0 5 ms 36 byte gt Nmax 36 byte max When the transponder moves by a maximum 36 byte can be read Note i With the BL ident Simulator at www turck com different dynamic operating modes
138. e distances may vary by up to 30 due to component tolerances mounting con ditions ambient conditions and material quali ties especially when mounted in metal Testing of the application under real operat ing conditions is therefore essential especial ly with read write on the fly 0101583 1212 BL ident TNLR Q350 H1147 Type TNLR Q350 H1147 Ident No 7030220 Mounting condition non flush Ambient temperature 25 70 C Operating voltage 19 2 28 8VDC DC rated operational current 250mA Data transfer inductive coupling Working frequency 13 56 MHz Radio communication and protocol standards ISO 15693 Read write distance max 662 mm Output function 4 wire read write Design Dimensions Housing material Material active face rectangular Q350 370x 350x 20mm Plastic PBT GF30 VO black Plastic black Connection Vibration resistance Shock resistance Protection class Operating voltage Note connector M12 x 1 55 Hz 1 mm 30 g 11 ms IP67 LED green If read write head is turned on it checks whether the resonance frequency is influenced by the surrounding metal In this case the oscillation circuit tunes its frequency to reach the resonance frequency again optimum But this is only possible to a certain extent If there is too much metal in the environment of the read write head tuning is not possible resp the surrounding metal reduces the energy of the magnetic
139. e essential especial ly with read write on the fly 7 39 TNER Q80 H1147 05 3 080 M12x1 Qo m 114 Type Ident No TNER Q80 H1147 7030211 Mounting condition Ambient temperature non flush flush mountable 25 70 C Operating voltage DC rated operational current Data transfer Working frequency Radio communication and protocol standards Read write distance max Output function 19 2 28 8VDC lt 90 mA inductive coupling 13 56 MHz ISO 15693 80 mm 4 wire read write Design Dimensions Housing material Material active face rectangular Q80 92x 80x 40mm Plastic PBT GF30 VO yellow Plastic PBT GF30 VO yellow Connection Vibration resistance Shock resistance Protection class Operating voltage 7 40 connector M12 x 1 55 Hz 1 mm 30 9 11 ms IP67 LED green Rectangular height 40 mm Active face on top Plastic PBT GF30 VO Every read write head can communicate with a number of different TURCK data carriers m Powered and operated only via BLident interface module m M12x1 connector intended only for use with BLident adapter cable Connectors S2503 1RD D o 3 BK 4WH Data Connectors 52500 1 BN hem 3 BU 4WH Data Connectors S2501 1 BN 3 BU Data 2WH Data Functional principle The HF read write heads operating at a fre quency of 13 56 MHz form a transmission zone the size of which 0 500 m
140. e periphery BL ident for switching cabinet installation BL67 for direct field installation BL compact for direct field installation in part with integrated I Os Cable length to read write head up to 50 m Possible alternating operation of HF and UHF read write heads on the same interface modules Versatile and user friendly fieldbus connections PROFIBUS DP DeviceNet CANopen PROFINET IO Ethernet Modbus TCP EtherNet IP EtherCAT Programmable gateways for decentralized and autarkic control tasks Additional integration of I O modules on the same gateway or rather bus node Modules for space saving and user friendly mounting in the field BL compact 0101583 1212 BL ident 2 3 The TURCK BL ident system Interfaces for the fieldbus connection Sets and single components Complete sets of interfaces are available for connecting the fieldbus An existing set may be retroactively fitted with an additional channel an electronic and basic module are needed for a pair of channels The interfaces may be populated with a maximum of 8 channels interfaces with simple 1 communication allow a maximum of 16 channels depending on the fieldbus type Table 1 Dimensions Protec Description Model type Expansion and enclosure lengths tion interfaces IP20 class IP20 BL20 basic module BL20 S4T SBBS IP20 RFID electronic module for BL20 2RFID A use with function blocks or rather with programmable gateway for PRO
141. e to metal Ambient temperature Storage temperature 10mm 25 85 C 45 85 C 140 C 1x100 h in the explosion hazardous area see instruc tion leaflet Device designation Approval acc to II 2 G Ex ia IIC T4 T6 11 2D Ex 21 T110 C BVS 09 ATEX E 036 X Design Housing material Material active face Protection class R50 Plastic PA6 Plastic black PA6 IP69K Packaged quantity 0101583 1212 ident Industr A ATEX category Il 2 G Ex Zone 1 ATEX category Il 2 D Ex Zone 21 Mobile data carrier Read write Compatible with a number of BLident read write heads see data sheet or compatibility table m FRAM memory 8 Kbytes Functional principle The HF read write heads operating at a fre quency of 13 56 MHz form a transmission zone the size of which 0 500 mm varies depending on the combination of read write head and data carrier The read write distances mentioned here on ly represent standard values measured under laboratory conditions The read write distances of the data carriers for mounting in metal TW R M MF were de termined in metal Attainable distances may vary by up to 30 due to component tolerances mounting con ditions ambient conditions and material quali ties especially when mounted in metal Testing of the application under real operat ing conditions is therefore essential especial ly with read write on the fly 6 25 TW R30 M
142. eachable read write distance will be decreased Note Tests under realistic conditions must be conducted Figure 18 Installation with non metallic non metallic spacer data carrier spacers The data carriers must be installed in such a way that the minimum distance requirements between the metal and around the data carrier are met This minimum distance depends on the design of the read write head an assumed guideline is that a 10 mm around the data carrier Figure 19 Installation while observing the minimum distance to metal Nevertheless the reachable read write distance will be decreased Some data carriers are designed in such a way that they can be mounted on metal without needing to take additional measures Figure 19 Installation while observing the minimum distance to metal 4 5 Upshot Transmission range interference caused by metal The following points should be observed when installing BL ident components 8 Do not mount data carriers except especially designed data carriers metal or use suitable accessories distance disks 8 Please ensure that no metal rod or similar intersects with the transmission range The metal rod would interfere with the field data Only use plastic screws to affix the read write heads and data carriers 0101583 1212 BL ident 4 5 Installation guidelines 4 6 0101583 1212 BL ident Industr A 5 EMC guidelines 5 1 Who should use the
143. ed label permanently legi ble m Every read write head can communicate with a number of different TURCK data carriers m Powered and operated only via BLident interface module m M12 1 connector intended only for use with BLident adapter cable Connectors S2503 1RD gt 3 BK 4WH Data 2BU Data Connectors 52500 1 BN hM cc 3 BU 4WH Data 2BK Data Connectors S2501 1 BN 54 BK Data 7 17 TN EM18WD H1147 S1126 M18 x1 x I 24 4 LED LE 9 M12 x 1 Type TN EM18WD H1147 S1126 Ident No 7030227 Mounting condition non flush Ambient temperature 25 70 C Operating voltage 10 30VDC DC rated operational current lt 75mA Data transfer inductive coupling Working frequency 13 56 MHz Radio communication and protocol standards ISO 15693 Read write distance max 45 mm Output function 4 wire read write Design Dimensions Housing diameter Housing material Material active face threaded barrel M18 x 1 72mm 18mm Stainless steel V2A 1 4301 Plastic LCP GF30 Connection Vibration resistance Shock resistance Protection class Operating voltage 7 18 connector M12 x 1 55 Hz 1 mm 30 g 11 ms IP68 1 69 LED green m Threaded barrel M18 x 1 m Stainless steel 1 4404 m Front cap made of liquid crystal poly mer Vectra C130 m High protection class IP69K for rough ambient conditions m Special
144. ed operational current Data transfer Working frequency Radio communication and protocol standards Read write distance max Output function 10 30VDC 80 mA inductive coupling 13 56 MHz ISO 15693 115 mm 4 wire read write Design Dimensions Housing diameter Housing material Material active face rectangular CK40 65x 40x 40mm 40 mm Plastic PBT GF30 VO black Plastic PA6 GF30 yellow Connection Vibration resistance Shock resistance Protection class Operating voltage Included in scope of supply 7 34 connector M12 x 1 55 Hz 1 mm 30 9 11 ms IP67 LED green BS4 CK40 m rectangular height 40 mm m 5read write head positions m Plastic PBT GF30 VO m Every read write head can communicate with a number of different TURCK data carriers m Powered and operated only via BLident interface module m M12x1 connector intended only for use with BLident adapter cable Connectors S2503 1RD 3 BK 4WH Data Connectors 52500 1 BN eo 3 BU 4WH Data Connectors S2501 1 BN 3 BU 4BK Data 2WH Data Functional principle The HF read write heads operating at a fre quency of 13 56 MHz form a transmission zone the size of which 0 500 mm varies depending on the combination of read write head and data carrier The read write distances mentioned here on ly represent standard values measured under laboratory conditions The read write distances
145. ed with screws UHF UHF suitable data carriers have different designs and can be mounted in various ways they are either optimized for small housing dimensions or long data transmission distances Data carriers with high protection class also for external applications are available including data carriers for direct mounting on metal or printable labels TURCK delivers customer specific data carrier solutions upon request Read write heads HF The read write heads are available in different designs from standard M18 and M30 thread to cuboid designs Q14 CK40 Q80 32XL including Q80L400 and Q350 for long distances of up to 1000 mm UHF Different cuboid designs are available e g compact read write heads in a housing with approx 170 mm or 280 mm edge length for long data transmission distances of up to several meters 2 14 D101583 1212 BL ident Performance characteristics and applications of the ident system Industr A 2 4 5 Memory capacity The memory capacity of the data carriers for the HF range is 64 or 128 byte 48 or 112 Byte user data with an EEPROM memory and 2 or 8 Kbyte 2000 or 7936 byte user data with a FRAM memory EEPROM data carriers with up to 110 byte 94 byte user data are available for the UHF range FRAM Ferroelectric Random Access Memory non volatile longer life cycle because of a larger number of read write operations and faster write operations compared to EEPROM EEPROM Electr
146. ency This frequency range belongs to the microwave range RIFD operates in Europe with 865 868 MHz in USA with 902 928 MHz in Japan with 955MHz in China with 840 845 MHz and 920 925 MHz UID Unique Identifier The unique identifier is a unique serial No for the transponder The address refers to the data corresponding to the transponder or rather the tagged product The data can be stored in a database for example 10 4 D101583 1212 BL ident Industrial Automation www turck com Support RFID Tel 49 0 208 4952 4666 E Mail rfid support turck com Hans Turck GmbH amp Co KG WitzlebenstraBe 7 45472 M lheim an der Ruhr Germany Tel 49 0 208 4952 0 9 0 208 4952 264 E Mail more turck com b101531212 f Fax Internet www turck com
147. erature resistant Material Delrin 9 14 D101583 1212 BL ident Handheld with accessories 9 7 Handheld with accessories 9 7 1 Handheld computer PD Ident Industr A Figure 50 Handheld Computer PD Ident Table 46 Type code Handheld Computer PD Ident PD Ident Ident No 1542331 Description Read from and write to all TURCK data carriers independent of location Windows CE Illuminated touchscreen Protection Class IP65 Programming device handheld Display in decimal binary hexadecimal and ASCII codes Definition of password protected areas possible Automatic reading of data carrier incl docking station 9 7 2 Handheld computer PS Ident WLAN with WLAN functionality Table 47 Type code Handheld Computer PD Ident WLAN PD Ident WLAN Ident No 1542340 Description Same features as PD Ident also with WLAN and Bluetooth functionality 0101583 1212 BL ident 9 15 Accessories 9 7 3 Handheld accessories Table 48 Type code PD Ident PF Handheld Computer PD Ident PF Ident No 1542336 Description Display protective foil 25 pieces Table 49 Type code PD Ident DS Handheld Computer PD Ident DS Ident No 1542333 Description Docking station incl power supply RS232 cable Table 50 Type code PD Ident RB Handheld Computer PD Ident RB Ident No 1542337 Description Spare recha
148. ernet Modbus TCP TI BL20 PG EN S 2 TI BL20 PG EN 2 EtherNet IP TI BL20 PG EIP S 2 TI BL20 PG EIP 2 IP20 Interfaces Sets ECONOMY gt m TI p Q gt s C564 08 80 6 932 for basic communication PROFIBUS DPV1 DeviceNet CANopen EtherCAT TI BL20 E DPV1 S 2 TI BL20 E DN S 2 TI BL20 E CO S 2 TI BL20 E EC S 2 0101583 1212 ident 2 5 The TURCK BL ident system Table 3 Dimensions Protec Description Model type Expansion and enclosure lengths tion interfaces in IP67 class IP67 BL67 basic module BL67 B 2M12 IP67 RFID electronic module for BL67 2RFID A PROFINET IO EtherNet IP use with function blocks or rather with programmable gateway for PROFIBUS DPV1 Ethernet Modbus TCP Interfaces in 2 4 6 and 8 channel designs are available the last digit of the model type description identifies the number of channels in the example here only 2 channel versions are shown IP67 Interfaces sets for PROFIBUS DPV1 TI BL67 DPV1 2 PROFINET IO TI BL67 EN PN 2 IP67 Interfaces sets programmable for PROFIBUS DP TI BL67 PG DP 2 Ethernet Modbus TCP TI BL67 PG EN 2 EtherNet IP TI BL67 PG EIP 2 2 6 0101583 1212 BL ident BL ident Modular RFID system Industr A Table 4 Dimensions Protec Description Model type Expansion and enclosure lengths tion interfaces in IP67 class for basic communication
149. f 13 56 MHz form a transmission zone the size of which 0 500 mm varies depending on the combination of read write head and data carrier The read write distances mentioned here on ly represent standard values measured under laboratory conditions The read write distances of the data carriers for mounting in metal TW R M MF were de termined in metal Attainable distances may vary by up to 30 96 due to component tolerances mounting con ditions ambient conditions and material quali ties especially when mounted in metal Testing of the application under real operat ing conditions is therefore essential especial ly with read write on the fly D101583 1212 BL ident TW L80 50 P B128 80 Type Ident No TW L80 50 P B128 7030389 Data transfer inductive coupling Working frequency 13 56 MHz Memory type EEPROM Chip NXP I Code SLI SL2 Memory size 128 byte Memory read write Freely usable memory 112 byte Number of read operations unlimited Number of write operations 10 Typical read time 2 ms byte Typical write time 3 ms byte Radio communication and protocol standards ISO 15693 Minimum distance to metal 10mm Ambient temperature 20 70 C Storage temperature 20 70 C Design Smart Label Housing material Plastic PET Material active face Paper Protection class IP40 Packaged quantity 0101583 1212 BLident Industr A m Mobile data carrier m Read write
150. face rectangular Q80 92x 80x 40mm Plastic PBT GF30 VO yellow Plastic PBT GF30 VO yellow Connection Vibration resistance Shock resistance Protection class Operating voltage 0101583 1212 BL ident connector M12 x 1 55 Hz 1 mm 30 g 11 ms IP67 LED green Industr A m Rectangular height 40 mm m Active face on top m Plastic PBT GF30 VO m Every read write head can communicate with a number of different TURCK data carriers m Powered and operated only via BLident interface module m M12x1 connector intended only for use with BLident adapter cable Connectors S2503 1RD e 3 BK 4WH Data Connectors 52500 1 BN 5 4WH Data Connectors S2501 1 BN Data 2WH Data Functional principle The HF read write heads operating at a fre quency of 13 56 MHz form a transmission zone the size of which 0 500 mm varies depending on the combination of read write head and data carrier The read write distances mentioned here on ly represent standard values measured under laboratory conditions The read write distances of the data carriers for mounting in metal TW R M MF were de termined in metal Attainable distances may vary by up to 30 due to component tolerances mounting con ditions ambient conditions and material quali ties especially when mounted in metal Testing of the application under real operat ing conditions is therefor
151. for the tolerance of mechanical tracking Note H The BL ident Simulator at www turck com provides a graphic display of this interdependence 3 2 2 Minimum distance of data carrier to read write head Note H With BL ident a minimum distance between data carrier and read write head is not needed 3 2 3 Permissible moving direction and alignment of data carriers The data carriers may move over the read write heads from any direction The data carriers should be aligned parallel to the read write head 3 2 4 Read write operation in the static operating mode with HF In the static operating mode a data exchange is possible up to the distance threshold H Figure 12 Transmission range in HF band The data carrier should be exactly positioned above the read write head 3 2 5 Read and write in the dynamic operating mode on the fly In the dynamic operating mode the data carrier moves by the read write head Data exchange is only possible within the transmission range 3 2 6 Dwell period of the data carrier T The dwell time T is the time the data carrier remains in the transmission range of the read write head when moving by it During this time the read write head can exchange data with the data carrier The dwell time T is calculated as follows Ta Lsr Vrag with L4 Length of the continuously proceeding transmission range Vrag Speed of data carrier in the dynamic operating mode In the static operating mode the
152. ge 0101583 1212 BLident connector M12 x 1 55 Hz 1 mm 30 g 11 ms IP68 IP69K LED green Industr A threaded barrel M30 x 1 Stainless steel 1 4404 front cap made of liquid crystal polymer Vectra C130 high degree of protection IP69K for ex treme environmental conditions special double lip seal protection against all common acid and alkaline cleaning agents m Suited for applications in the food in dustry m permanently legible type label due to laser engraving m Every read write head can communicate with a number of different TURCK data carriers m Powered and operated only via BLident interface module m M12x1 connector intended only for use with BLident adapter cable Connectors S2503 1RD 3 BK y 4WH Data 2BU Data Connectors S2500 1 BN 4WH Data 2BK Data Connectors S2501 1 BN 3 BU 4BK Data 2WH Data 7 29 TN EMS0WD H1147 S1126 M30 x 1 5 T 20 36 5 LED M12 x 1 Type TN EM30WD H1147 81126 Ident No 7030226 Mounting condition non flush Ambient temperature 25 70 C Operating voltage 10 30VDC DC rated operational current lt 75mA Data transfer inductive coupling Working frequency 13 56 MHz Radio communication and protocol standards ISO 15693 Read write distance max 77mm Output function 4 wire read write Design Dimensions Housing diameter Housing
153. ia TB EM18WD H1147 Ex down BL ident TB EM18WD H1147 S1126 IP69K cable Ex ATEX non standard via TN M18 H1147 flush BL ident TN M18 H1147 81126 cable wash via TN EM18WD H1 1471 down BL ident TN EM18WD H1147 S1126 IP69K cable wash via TN EM18WD H1 147 Ex down BL ident TN EM18WD H1147 81126 IP69K cable Ex ATEX flush standard via TB M30 H1147 BL ident TB M30 H1147 S1126 cable wash via TB EMSOWD H1 147 down BL ident TB EM30WD H1147 S1126 IP69K cable wash via TB EMS3OWD H1147 Ex down BL ident TB EMSOWD H1147 S1126 IP69K cable Ex ATEX non standard via TN M30 H1147 flush BL ident TN M30 H1147 S1126 cable wash via TN EMSOWD H1147 down BL ident TN EMSOWD H1147 81126 IP69K cable M12x1 wash TN EMS3OWD H1 147 Ex down TN EMSOWD H1147 81126 IP69K Ex ATEX WD series is resistant against all commercial acidic and alkaline cleaners and disinfectors tube material 1 4404 3161 front cap LCP Vectra 140 2113 G Ex nA II Gc II D Ex t Ill B T135 C Dc 7 4 D101583 1212 BL ident Overview read write head model types Industri A Table 1 Dimensions enclo Installa Characte Connection Type code Overview sure length tion ristics read write prerequi head model ty sites pes non flat design via TN Q14 0 15 RS4 47T flush BL ident cable partically standard TN CK40 H1 147 embed BL ident TN CK40 H1147 811
154. ically Eraseable Programmable Read Only Memory non volatile The data carriers for HF operating frequency meet the ISO 15693 communication standard The data carriers for the UHF frequency range meet the ISO 18000 6C and EPCglobal Class 1 Gen 2 communication standard 0101583 1212 BL ident 2 15 The TURCK BL ident system 2 5 User data ranges of the data carrier versions 2 5 1 Overview of the HF TURCK data carriers The HF data carriers type 512 are writable and readable starting with byte 0 to Byte No 111 Table Data structure of the I Code 512 data carriers page 2 16 describes the data structure of the data carriers TW 114 B128 TW L43 43 F B128 TW L82 49 P B128 TW R16 B128 TW R20 B128 TW R30 B128 TW R50 B128 TW R50 90 HT B128 Table 6 Data structure of the I Code 512 data carriers 2 16 Byte No Content Access Block No StartAddress one block comprises 4 Byte 16 to 9 UID Read only 4 to 3 8 to 5 Tag information Read only via special 2 commands 4to 1 Conditions for write 1 access 0to111 User data range Read write 01027 0101583 1212 ident User data ranges of the data carrier versions Industr A The HF data carriers type 511 are readable and writable starting with byte No 19 to Byte No 64 Table Data structure of the I Code SL1 data carriers page 2 17 describes the data structure of the data
155. ign Housing material Material active face Protection class R80 Plastic PET Plastic black PET IP68 Packaged quantity 0101583 1212 BL ident Industr A Mobile data carrier m 3 different mounting options in on met al incl accessories m Read write m FRAM memory size 2 Kbytes Functional principle The HF read write heads operating at a fre quency of 13 56 MHz form a transmission zone the size of which 0 500 mm varies depending on the combination of read write head and data carrier The read write distances mentioned here on ly represent standard values measured under laboratory conditions The read write distances of the data carriers for mounting in metal TW R M MF were de termined in metal Attainable distances may vary by up to 30 due to component tolerances mounting con ditions ambient conditions and material quali ties especially when mounted in metal Testing of the application under real operat ing conditions is therefore essential especial ly with read write on the fly 6 31 TW R50 MF K2 Type Ident No TW R50 MF K2 7030232 Data transfer inductive coupling Working frequency 13 56 MHz Memory type FRAM Chip Fujitsu MB89R118 Memory size 2048 byte Memory read write Freely usable memory 2000 byte Number of read operations unlimited Number of write operations 1010 Typical read time 0 5 ms byte Typical write time 0 5 ms byte
156. imum distance to metal 10mm Ambient temperature 25 85 C Storage temperature 45 85 C 140 C 1x100 h in the explosion hazardous area see instruc tion leaflet Device designation Approval acc to II 2 G Ex ia IIC T4 T6 11 2D Ex 21 T110 C BVS 09 ATEX E 036 X Design Housing material Material active face Protection class R50 Plastic PA6 Plastic black PA6 IP69K Packaged quantity 0101583 1212 BLident Industr A ATEX category 11 2 G Ex Zone 1 ATEX category 11 2 D Ex Zone 21 Mobile data carrier Read write Compatible with a number of BLident read write heads see data sheet or compatibility table m EEPROM memory 128 bytes Functional principle The HF read write heads operating at a fre quency of 13 56 MHz form a transmission zone the size of which 0 500 mm varies depending on the combination of read write head and data carrier The read write distances mentioned here on ly represent standard values measured under laboratory conditions The read write distances of the data carriers for mounting in metal TW R M MF were de termined in metal Attainable distances may vary by up to 30 due to component tolerances mounting con ditions ambient conditions and material quali ties especially when mounted in metal Testing of the application under real operat ing conditions is therefore essential especial ly with read write on the fly 6 21
157. ing diameter Housing material Material active face threaded barrel M18 x 1 72mm 18 mm Stainless steel V2A 1 4301 Plastic LCP GF30 Connection Vibration resistance Shock resistance Protection class Operating voltage 0101583 1212 BL ident connector M12 x 1 55 Hz 1 mm 30 g 11 ms IP68 1 69 LED green Industr A m Threaded barrel M18 x 1 m Stainless steel 1 4404 m Front cap made of liquid crystal poly mer Vectra C130 m High protection class IP69K for rough ambient conditions m Special double lip seal m Protection against all common acid and alkaline cleaning agents m Forthe food industry m Laser engraved label permanently legi ble m Every read write head can communicate with a number of different TURCK data carriers m Powered and operated only via BLident interface module m 12 1 connector intended only for use with BLident adapter cable Connectors 52503 1 RD 5 3 BK 4WH Data 2BU Data Connectors S2500 1 BN 3 BU 4WH Data Connectors S2501 1 BN 54 BK Data 52 WH Data 7 11 TB EM18WD H1147 81126 Type TB EM18WD H1147 S1126 Ident No 7030228 Mounting condition flush Ambient temperature 25 70 C Operating voltage 10 30VDC DC rated operational current lt 80 mA Data transfer inductive coupling Working frequency 13 56 MHz Radio communication and protocol standards ISO 15693
158. ing on the combination of read write head and data carrier The read write distances mentioned here on ly represent standard values measured under laboratory conditions The read write distances of the data carriers for mounting in metal TW R M MF were de termined in metal Attainable distances may vary by up to 30 due to component tolerances mounting con ditions ambient conditions and material quali ties especially when mounted in metal Testing of the application under real operat ing conditions is therefore essential especial ly with read write on the fly 0101583 1212 BL ident TNLR Q80 R192H132 2M Ex Type Ident No TNLR Q80 R192H132 2M EX 7030400 Ambient temperature 20 40 C Device designation 9 II 2G Ex d IIC T6 Operating voltage DC rated operational current Data transfer Working frequency Radio communication and protocol standards Output function 19 2 28 8VDC lt 90 mA inductive coupling 13 56 MHz ISO 15693 4 wire read write Connection Vibration resistance Shock resistance Operating voltage 0101583 1212 BL ident Connection cable 55 Hz 1 mm 30 g 11 ms LED green Industr A m ATEX category Il 2 G Ex zone 1 m Every read write head can communicate with a number of different TURCK data carriers m Powered and operated only via BLident interface module m Connection only via BLident connection cable Connectors
159. interface module M12x1 connector intended only for use with BLident adapter cable Connectors S2503 1RD 3 BK 4WH Data Connectors 52500 1 BN 65 4WH Data Connectors S2501 1 BN 3 BU 4BK Data 2WH Data Functional principle The HF read write heads operating at a fre quency of 13 56 MHz form a transmission zone the size of which 0 500 mm varies depending on the combination of read write head and data carrier The read write distances mentioned here on ly represent standard values measured under laboratory conditions The read write distances of the data carriers for mounting in metal TW R M MF were de termined in metal Attainable distances may vary by up to 30 due to component tolerances mounting con ditions ambient conditions and material quali ties especially when mounted in metal Testing of the application under real operat ing conditions is therefore essential especial ly with read write on the fly 0101583 1212 BL ident TB EM18WD H1147 Type TB EM18WD H1147 Ident No 7030224 Mounting condition flush Ambient temperature 25 70 C Operating voltage 10 30VDC DC rated operational current lt 80 mA Data transfer inductive coupling Working frequency 13 56 MHz Radio communication and protocol standards ISO 15693 Read write distance max 30 mm Output function 4 wire read write Design Dimensions Hous
160. ion hazardous area see instruc tion leaflet Device designation Approval acc to II 3G Ex nA II T4 Gc I 3D Ex t IIIB T135 C Dc TURCK Ex 10005M X Operating voltage DC rated operational current Data transfer Working frequency Radio communication and protocol standards Read write distance max Output function 10 30VDC lt 75mA inductive coupling 13 56 MHz ISO 15693 45 mm 4 wire read write Design Dimensions Housing diameter Housing material Material active face threaded barrel M18 x 1 72mm 18 Stainless steel V2A 1 4301 Plastic LCP GF30 Connection Vibration resistance Shock resistance Protection class Operating voltage 7 20 connector M12 x 1 55 Hz 1 mm 30 g 11 ms IP68 IP69K LED green ATEK Kategorie Il 3 Ex Zone 2 ATEX Kategorie Il 3 D Ex Zone 22 Threaded barrel M18 x 1 Stainless steel 1 4404 Front cap made of liquid crystal poly mer Vectra C130 m High protection class IP69K for rough ambient conditions m Special double lip seal m Protection against all common acid and alkaline cleaning agents m Forthe food industry Laser engraved label permanently legi ble m Every read write head can communicate with a number of different TURCK data carriers m Powered and operated only via BLident interface module m M12x1 connector intended only for use with BLident adapter cable Connectors 52503 1 RD 3 BK 4WH Data
161. ire field Especially the transmission range between read write head and data carrier is decreased Figure 13 Interfering metal carriers Figure 13 Interfering metal carriers plate non metallic spacer metal core data carrier read write head 4 2 D101583 1212 BL ident Mounting of several read write heads metal frames or metal carriers Industr A Solution Mount the data carriers differently thus avoiding any interference with the transmission range Figure 14 Different arrangement of the data carrier Figure 14 Different arrangement of the data carrier plate metal core non metallic spacer data carrier read write head 4 3 Mounting of several read write heads on metal frames or metal carriers Each read write head which is mounted on metal couples part of the field onto the metal carrier If the minimum distance d and the metal free spaces are observed there will be in general no mutual interference However if a metal frame has an unfavorable design interference is still possible The result will be longer data transmission times or rather error messages in the interface module Problem Mutual interference of read write heads Solution 1 Enlarge the distance d between both read write heads Figure 15 Increasing the distance Figure 15 Increasing the distance read write head 0101583 1212 ident 4 3 Installation guidelines S
162. is absolutely necessary to test the application especially when the read write functions are active In addition the recommended distance between data carrier and read write head should be observed if at all possible in order to reach perfect read write processes despite potential distance variations 0101583 1212 BL ident Data carrier speed to the read write head for HF RFID systems Industri A Fi 1gure 9 Datei Bearbeiten Ansicht Favoriten Extras BL ident Simulator tic ix a 2 Suchen Sie Favoriten E LJ Adresse http pdb turck de rfid start jsp lang de D WISSEN WAS KOMMT B 9 Modulare Identifikationssysteme von TURCK d 115810 1874 Bytes 937 47 msec 136 82 365 Bytes 182 80 msec 26 67 mm Bauform 1542329 TW R50 HT Leistungsprofil Speichergr e 2048 Speicherart FRAM Schreibleseabstand 5 60 Bauform TN S32XL H1147 Leistungsprofil Auswahl Typ TN 532XL H1147 4 bernehmen Einbeubedinqungen nicht b ndig Schreibleseabstand 15 160 aus Datenmenge byte 1803 LESEMODUS SCHREIBMODUS PL Geschwindigkeit m Sek 0 14 eR SUE MN 65 0 Fertig 0101583 1212 BL ident 2 29 The TURCK BL ident system 2 7 3 BLident Simulator for UHF RFID Ray Tracer Ray Tracer is a simulation software which is suitable to test different UHF RFID system constellations for functionality under practical
163. l M18 x 1 m Chrome plated brass m Every read write head can communicate with a number of different TURCK data carriers m Powered and operated only via BLident interface module m 12 1 connector intended only for use with BLident adapter cable Connectors S2503 1 RD hec 3 BK 4WH Data Connectors S2500 1 BN ec 3 BU 4WH Data 28 Data Connectors 52501 1 BN 3 BU 4BK Data 5 6 2WH Data Functional principle The HF read write heads operating at a fre quency of 13 56 MHz form a transmission zone the size of which 0 500 mm varies depending on the combination of read write head and data carrier The read write distances mentioned here on ly represent standard values measured under laboratory conditions The read write distances of the data carriers for mounting in metal TW R M MF were de termined in metal Attainable distances may vary by up to 30 due to component tolerances mounting con ditions ambient conditions and material quali ties especially when mounted in metal Testing of the application under real operat ing conditions is therefore essential especial ly with read write on the fly 7 15 18 1147 51126 M18x 1 24 4 LED LE 9 M12 x 1 Type TN M18 H1147 S1126 Ident No 7030213 Mounting condition non flush Ambient temperature 25 70 C Operating voltage 10 30VDC DC rated operational curre
164. lip seal m Protection against all common acid and alkaline cleaning agents m Forthe food industry Laser engraved label permanently legi ble m Every read write head can communicate with a number of different TURCK data carriers m Powered and operated only via BLident interface module m M12x1 connector intended only for use with BLident adapter cable Connectors 52503 1 RD 3 BK 4WH Data 52 BU Data Connectors S2500 1 BN em 3 BU 4WH Data 2BK Data Connectors S2501 1 BN 3 BU 4BK Data gt 2WH Data 0101583 1212 BL ident 18 1147 18 1 SN BW 7 9 HJ 12 1 10 71 56 2 Type TN M18 H1147 Ident No 7030002 Mounting condition non flush Ambient temperature 25 70 C Operating voltage 10 30VDC DC rated operational current lt 75mA Data transfer inductive coupling Working frequency 13 56 MHz Radio communication and protocol standards ISO 15693 Read write distance max 45 mm Output function 4 wire read write Design Dimensions Housing diameter Housing material Material active face threaded barrel M18 x 1 72mm 18mm Metal CuZn chrome plated Plastic PA12 GF30 Connection Vibration resistance Shock resistance Protection class Operating voltage 0101583 1212 BLident connector M12 x 1 55 Hz 1 mm 30 g 11 ms IP67 LED green Industr A m Threaded barre
165. m varies depending on the combination of read write head and data carrier The read write distances mentioned here on ly represent standard values measured under laboratory conditions The read write distances of the data carriers for mounting in metal TW R M MF were de termined in metal Attainable distances may vary by up to 30 due to component tolerances mounting con ditions ambient conditions and material quali ties especially when mounted in metal Testing of the application under real operat ing conditions is therefore essential especial ly with read write on the fly 0101583 1212 BL ident TNLR Q80 H1147 S1126 05 3 080 M12x 1 SN 114 Type Ident No TNLR Q80 H1147 S1126 7030219 Mounting condition Ambient temperature non flush flush mountable 25 70 C Operating voltage DC rated operational current Data transfer Working frequency Radio communication and protocol standards Read write distance max Output function 19 2 28 8VDC lt 90 mA inductive coupling 13 56 MHz ISO 15693 215 mm 4 wire read write Design Dimensions Housing material Material active face rectangular Q80 92x 80x 40mm Plastic PBT GF30 VO yellow Plastic PBT GF30 VO yellow Connection Vibration resistance Shock resistance Protection class Operating voltage 0101583 1212 BL ident connector M12 x 1 55 Hz 1 mm 30 g 11 ms IP67 LED green
166. m Compatible with a number of BLident read write heads see data sheet or compatibility table m EEPROM memory 128 bytes Functional principle The HF read write heads operating at a fre quency of 13 56 MHz form a transmission zone the size of which 0 500 mm varies depending on the combination of read write head and data carrier The read write distances mentioned here on ly represent standard values measured under laboratory conditions The read write distances of the data carriers for mounting in metal TW R M MF were de termined in metal Attainable distances may vary by up to 30 due to component tolerances mounting con ditions ambient conditions and material quali ties especially when mounted in metal Testing of the application under real operat ing conditions is therefore essential especial ly with read write on the fly 6 39 TW BD10X1 5 19 B128 17 5 14 M10 x 1 5 6G 234 12 2 4 Ident No TW BD10X1 5 19 B128 6901384 Data transfer Working frequency Memory type Chip Memory size Memory Freely usable memory Number of read operations Number of write operations Typical read time Typical write time Radio communication and protocol standards inductive coupling 13 56 MHz EEPROM NXP SLI SL2 128 byte read write 112 byte unlimited 10 2 ms byte 3 ms byte ISO 15693 Minimum distance to metal 10 screwable int
167. m Powered and operated only via BLident interface module m 12 1 connector intended only for use with BLident adapter cable Connectors S2503 1 RD 5 3 BK 4WH Data MM Connectors S2500 1 BN eus 3 BU 4WH Data gt RE Connectors 52501 1 BN 4BK Data 2WH Data Functional principle The HF read write heads operating at a fre quency of 13 56 MHz form a transmission zone the size of which 0 500 mm varies depending on the combination of read write head and data carrier The read write distances mentioned here on ly represent standard values measured under laboratory conditions The read write distances of the data carriers for mounting in metal TW R M MF were de termined in metal Attainable distances may vary by up to 30 due to component tolerances mounting con ditions ambient conditions and material quali ties especially when mounted in metal Testing of the application under real operat ing conditions is therefore essential especial ly with read write on the fly 7 35 HT Ident H1147 Type HT IDENT H1147 Ident No 7030236 Mounting condition non flush Ambient temperature 25 70 C Operating voltage 10 30VDC DC rated operational current lt 80 mA Data transfer inductive coupling Working frequency 13 56 MHz Radio communication and protocol standards ISO 15693 Output function 4 wire read write Dimensions H
168. marginal conditions 3 dimensional computer models of RFID application environments and algorithms to calculate spacial radio proliferation are used to realistically simulate the operation of UHF RFID systems Thus the execution of different simulation cycles allows to limit and pre select suitable system components prior to the actual UHF RFID hardware installation With complex spatial application environments the Ray Tracer also analyzes the technical feasability of the UHF RFID radio applications for a respective preset spatial infrastructure Figure 10 Application environment with evaluation of the spatial field strength distribution when a UHF RFID read portal is in operation 2 30 All essential physical effects that are connected to the expansion of radio waves are taken into consideration Here are examples Damping characteristics in air and other media hindrances reflexion and transmission characteristics on with objects made of different materials polarization characteristics antennas characteristics and gain from read write units and data carriers Ray Tracer operation requires a high degree of technical know how and professional training this is why TURCK RFID specialists or rather their system partners will conduct customer specific simulations upon request Each simulation is based on concrete spatial environmental conditions of the application this is why each simulation process is always customer specific
169. mber of write operations 10 Typical read time 2 ms byte Typical write time 3 ms byte Radio communication and protocol standards ISO 15693 Minimum distance to metal 10mm Ambient temperature 25 85 C Storage temperature 45 85 C 140 C 1x100 h in the explosion hazardous area see instruc tion leaflet Device designation Approval acc to II 2 G Ex ia IIC T4 T6 11 2D Ex 21 T110 C BVS 09 ATEX E 036 X Design Housing material Material active face Protection class R30 Plastic PA6 Plastic black PA6 IP69K Packaged quantity 0101583 1212 ident Industr A ATEX category 11 2 G Ex Zone 1 ATEX category Il 2 D Ex Zone 21 Mobile data carrier Read write Compatible with a number of BLident read write heads see data sheet or compatibility table m EEPROM memory 128 bytes Functional principle The HF read write heads operating at a fre quency of 13 56 MHz form a transmission zone the size of which 0 500 mm varies depending on the combination of read write head and data carrier The read write distances mentioned here on ly represent standard values measured under laboratory conditions The read write distances of the data carriers for mounting in metal TW R M MF were de termined in metal Attainable distances may vary by up to 30 96 due to component tolerances mounting con ditions ambient conditions and material quali ties especially when mounted
170. mbination for the respective application can be seen in the simulator The simulator can be found online at http www turck com In any case please pay attention to the instructions and the limits explained in this section Note Next to the data processing time of the read write head the processing time of the entire identification system should be taken into consideration as well System overview page 2 11 The time it takes to transfer and process data within the entire identification system can vary from application to application If your application requires a fast sequence of data carriers it might be necessary to decrease the speed with which the data carriers move by the read write heads In case of doubt we recommend an empirical determination of the possible speed 0101583 1212 ident Note The transmission curves maximum read write distance length of transmission range only represent typical values under laboratory conditions The reachable distances may vary by 30 because of component tolerances installation issues involving the application environmental conditions and interference caused by materials especially metals This is why the application should be tested under realistic conditions especially when the read write functions are active In addition the recommended distance between the data carrier to the read write head should be observed if at all possible in order to reach perfect
171. mmunication and protocol standards Output function 19 2 28 8VDC lt 90 mA inductive coupling 13 56 MHz ISO 15693 4 wire read write Connection Vibration resistance Shock resistance Operating voltage 0101583 1212 ident 55 Hz 1 30 9 11 ms Industr A m ATEX category 11 2 G Ex zone 1 m Every read write head can communicate with a number of different TURCK data carriers m Powered and operated only via BLident interface module Connection only via BLident connection cable Connectors S2503 1RD BE M 3 BK 4WH Data 2BU Data Wiring diagram Data 0 Transceiver GND 3 BU 24 VDC 1 BN Transceiver Data 1 2 BK i Data 1 4 Functional principle The HF read write heads operating at a fre quency of 13 56 MHz form a transmission zone the size of which 0 500 mm varies depending on the combination of read write head and data carrier The read write distances mentioned here on ly represent standard values measured under laboratory conditions The read write distances of the data carriers for mounting in metal TW R M MF were de termined in metal Attainable distances may vary by up to 30 due to component tolerances mounting con ditions ambient conditions and material quali ties especially when mounted in metal Testing of the applic
172. mory Freely usable memory Number of read operations Number of write operations Typical read time Typical write time Radio communication and protocol standards inductive coupling 13 56 MHz EEPROM NXP I Code SLI SL2 128 byte read write 112 byte unlimited 10 2 ms byte 3 ms byte ISO 15693 Minimum distance to metal 0 Data carrier can be screwed in metal The attainable read write distances have to be de termined with tests Ambient temperature 25 85 C Storage temperature 40 85 C Design SPP18x1 Housing material Plastic PP Material active face Protection class Plastic grey PP IP68 Packaged quantity 6 46 Mobile data carrier Read write Compatible with a number of BLident read write heads see data sheet or compatibility table m EEPROM memory 128 bytes Functional principle The HF read write heads operating at a fre quency of 13 56 MHz form a transmission zone the size of which 0 500 mm varies depending on the combination of read write head and data carrier The read write distances mentioned here on ly represent standard values measured under laboratory conditions The read write distances of the data carriers for mounting in metal TW R M MF were de termined in metal Attainable distances may vary by up to 30 due to component tolerances mounting con ditions ambient conditions and material quali ties especially when mounted in metal Te
173. mory size is 64 Byte 128 Byte 2 kByte or 8 Byte The memory component has the following alternative components EEPROM Unlimited reading but limited write cycles 10 possible No battery needed FRAM Ferroelectric memory Unlimited reading but almost unlimited write cylces 1079 possible No battery needed Data maintenance time of the memory E 1 year at 85 C 10 years at 55 C 120 years at 25 C Electrical fields have no impact because they normally have too low of a frequency to delete the memory 6 1 2 Data carrier electronics The electronic system ensures the communication on both sides of the data carrier with the help of the read write head 6 1 3 Data carrier antenna 6 2 The antenna serves to transfer data and energy between data carrier and read write head 0101583 1212 BL ident Overview data carrier model types 6 2 Overview of data carrier model types Industr A Table 9 Dimensions enclo Memory Memory Operating Characteris Type code Overview of data sure length size tempera tics carrier model ture types Byte 128 25 70 Small design TW R7 5 B128 128 EEPROM 25 70 Small design TW R9 5 B128 64 EEPROM 25 85 Expanded TW R16 B64 167 storage e 128 EEPROM temperature TW R16 B128 3625 range 128 EEPROM ATEX TW R16 B128 Ex 128 EEPROM 2
174. nal work caused by incorrect actions 1 2 Introduction This manual contains all information for the professional installation of the BL ident system especially in regards to data carriers and read write heads The following chapters provide an overview of the BL ident system how to plan a BL ident system show the required installation guidelines and provide a short overview of the EMC guidelines In addition the manual describes functional principles of the data carriers and the read write heads technical data and operating data as well as available accessories 1 3 General instructions Attention p Please read this section carefully Safety aspects cannot be left to chance when handling electrical devices This manual contains the required information for the start up of the TURCK BL ident system It was specifically developed for qualified professional personnel with the required technical know how 1 2 0101583 1212 BL ident General instructions Industr A 1 3 1 Intended use Danger The devices described in this manual must be used only in applications outlined in this manual and the respective technical descriptions and only in connection with devices and components from certified third party manufacturers The prerequisites for perfect and save operation of the devices are proper transportation storage assembly and installation as well as careful operation and maintenance 1 3 2 Instructions f
175. nger when using the electrical devices Configuration Systematic arrangement of a station s I O modules LSB Least Significant Bit Bit with the lowest value Logistics Logistics comprises entire planning control execution preparation and optimization of processes used to transport goods data energy and persons as well as the needed vehicles of transportation Master The Master controls access during the mater slave process in the fieldbus Mode Operating mode modus MSB Most Significant Bit Bit with the highest value D101583 1212 BL ident Industr A Parameterization Setting of parameters of individual bus participants or rather their modules in the configuration software of the DP Master PIB Proxy Ident Function Block The function block represents an Ident system in the controller Thus a standard program interface exists for the actual application Bulk Collection Simultaneous clear recognition of multiple RFID data carriers which move across a read write head transceiver R Repeater In digital communication technology the repeater is a signal regenerator which receives a signal in the bit transfer layer the repeater then reprocesses the signal and resends it This type of processing eleviates the signal from noise jitter and any impact on the pulse RFID Radio Frequency Indentification RFID Technology This technology permits a contact free transfer of data with the help of electrom
176. nsmission zone the size of which 0 500 mm varies depending on the combination of read write head and data carrier The read write distances mentioned here on ly represent standard values measured under laboratory conditions The read write distances of the data carriers for mounting in metal TW R M MF were de termined in metal Attainable distances may vary by up to 30 due to component tolerances mounting con ditions ambient conditions and material quali ties especially when mounted in metal Testing of the application under real operat ing conditions is therefore essential especial ly with read write on the fly 0101583 1212 BL ident TW R16 B128 Ex Type Ident No TW R16 B128 Ex 7030241 Data transfer inductive coupling Working frequency 13 56 MHz Memory type EEPROM Chip NXP I Code SLI SL2 Memory size 128 byte Memory read write Freely usable memory 112 byte Number of read operations unlimited Number of write operations 10 Typical read time 2 ms byte Typical write time 3 ms byte Radio communication and protocol standards ISO 15693 Minimum distance to metal 10mm Ambient temperature 25 85 C Storage temperature 25 120 C 160 C 1x35 h 220 C 1x30 s in the explosion hazardous area see instruc tion leaflet Device designation II 2 G Ex ia T4 T6 II 2D Ex 21 T110 C Approval acc to BVS 09 ATEX E 036 X Design R16 Housing m
177. nt lt 75mA Data transfer inductive coupling Working frequency 13 56 MHz Radio communication and protocol standards ISO 15693 Read write distance max 45 mm Output function 4 wire read write Design Dimensions Housing diameter Housing material Material active face threaded barrel M18 x 1 72mm 18mm Metal CuZn chrome plated Plastic PA12 GF30 Connection Vibration resistance Shock resistance Protection class Operating voltage 7 16 connector M12 x 1 55 Hz 1 mm 30 g 11 ms IP67 LED green m Threaded barrel M18 x 1 m Chrome plated brass m Every read write head can communicate with a number of different TURCK data carriers m Powered and operated only via BLident interface module m M12x1 connector intended only for use with BLident adapter cable Connectors S2503 1RD gt 3 BK 4WH Data 2BU Data Connectors 52500 1 BN 3 BU 4WH Data Connectors S2501 1 BN 4BK Data gt 2WH Data Functional principle The HF read write heads operating at a fre quency of 13 56 MHz form a transmission zone the size of which 0 500 mm varies depending on the combination of read write head and data carrier The read write distances mentioned here on ly represent standard values measured under laboratory conditions The read write distances of the data carriers for mounting in metal TW R M MF were de termined in metal Attainable distances may
178. nt standard values measured under laboratory conditions The read write distances of the data carriers for mounting in metal TW R M MF were de termined in metal Attainable distances may vary by up to 30 due to component tolerances mounting con ditions ambient conditions and material quali ties especially when mounted in metal Testing of the application under real operat ing conditions is therefore essential especial ly with read write on the fly 0101583 1212 BL ident TW R20 K2 Ex Type Ident No TW R20 K2 Ex 7030245 Data transfer inductive coupling Working frequency 13 56 MHz Memory type FRAM Chip Fujitsu MB89R118 Memory size 2048 byte Memory read write Freely usable memory 2000 byte Number of read operations unlimited Number of write operations 1010 Typical read time 0 5 ms byte Typical write time 0 5 ms byte Radio communication and protocol standards ISO 15693 Minimum distance to metal 10mm Ambient temperature 25 85 C Storage temperature 45 85 C 140 C 1x100 h in the explosion hazardous area see instruc tion leaflet Device designation Approval acc to 9 II 2G Ex ia T4 T6 Il 2D Ex 21 T110 C BVS 09 ATEX E 036 X Design Housing material Material active face Protection class R20 Plastic PA6 Plastic black PA6 IP69K Packaged quantity 0101583 1212 ident Industr A ATEK category Il 2 Ex Zone
179. nue the affixed shield to the assembly in one stretch Use braids instead of foil E Line and signal filter Only use line filters with metal housings Connect the filter housing with the cabinet earth in a laminar and HF low ohmic way Never affix the filter housings to coated surfaces Affix filters at the switching cabinet entry or in the direction of the source of interference 0101583 1212 BL ident 5 5 EMC guidelines 5 6 1 Assembly of a switching cabinet Metal housings keep magnetic and electrical fields as well as electromagnetic waves away from the susceptible device The better the induced interference current can flow the more the interference field will weaken itself This is why it must be ensured that all housing panels are connected to each other in a way that allows excellent conduction If the switching cabinet panels are isolated from each other a HF conducting connection can be established with ribbon cables and HF clamps or HF paste the more extensive the connection the better it is Interferences can also be avoided with optimum assembly of the switching cabinet The following is valid here E The effects of the interference decreases with increasing distance between the source of the interference and the susceptible device E An additional decrease of the interference can be reached by installing shrouds Signal lines should have a minimum distance of 10 cm to high voltage cables or load power cables
180. o metal Ambient temperature 25 85 C Storage temperature 45 85 C Design BD10x1 5 Housing material Plastic POM Material active face Protection class Plastic yellow POM IP68 Packaged quantity 6 40 Mobile data carrier m Read write Compatible with a number of BLident read write heads see data sheet or compatibility table EEPROM memory 128 bytes Functional principle The HF read write heads operating at a fre quency of 13 56 MHz form a transmission zone the size of which 0 500 mm varies depending on the combination of read write head and data carrier The read write distances mentioned here on ly represent standard values measured under laboratory conditions The read write distances of the data carriers for mounting in metal TW R M MF were de termined in metal Attainable distances may vary by up to 30 due to component tolerances mounting con ditions ambient conditions and material quali ties especially when mounted in metal Testing of the application under real operat ing conditions is therefore essential especial ly with read write on the fly 0101583 1212 BL ident TW BD10X1 5 19 K2 17 5 14 M10 x 1 5 6G TF 23 4 12 Type Ident No TW BD10X1 5 19 K2 6901381 Data transfer Working frequency Memory type Chip Memory size Memory Freely usable memory Number of read operations Number of write operations
181. olution 2 Affix one or several iron rods to short circuit the parasitic fields 16 Installing additional struncks Figure 16 additional strunck Installing additional struncks Solution 3 Place a non metallic spacer piece of 20 to 40 mm thickness between read write head and iron rod Thus the parasitic coupling of the field onto the carrier is significantly minimized Figure 17 Positioning a non metallic spacer Figure 17 Positioning a non metallic spacer non metallic spacer Solution 4 It is also possible to contact the read write heads via function block SPS and to use it to switch them on and off The interference through another read write head can be avoided by using the selective mode in this mode only the channel is active where the data carrier is positioned in its transmission window Please refer to the user guide BL ident Proxy Ident Block 0101578 Thus the adjacent read write head does not signal a field and there is no mutual interference 4 4 0101583 1212 BL ident No mounting data carriers on metal Industr A 4 4 No mounting of data carriers on metal The data carriers with exception of especially designed data carriers may not be mounted on metal Non metallic spacers please refer to Chapter 9 Accessories allow mounting which does not lead to an interruption of functions Figure 18 Installation with non metallic spacers Nevertheless the r
182. on against all common acid and alkaline cleaning agents m Suited for applications in the food in dustry m permanently legible type label due to laser engraving m Every read write head can communicate with a number of different TURCK data carriers m Powered and operated only via BLident interface module m M12x1 connector intended only for use with BLident adapter cable Connectors S2503 1RD 3 BK y 4 WH Data 2BU Data Connectors 52500 1 BN 3 BU 4WH Data 2BK Data Connectors S2501 1 BN 3 BU 54 BK Data 2WH Data 7 25 1147 51126 LED Type TB EM30WD H1147 S1126 EX Ident No 7030387 Mounting condition flush Ambient temperature 25 70 C Storage temperature in the explosion hazardous area see instruc tion leaflet in the explosion hazardous area see instruc tion leaflet Device designation Approval acc to II 3G Ex nA II T4 Gc I 3D Ex t IIIB T135 C Dc TURCK Ex 10005M X Operating voltage DC rated operational current Data transfer Working frequency Radio communication and protocol standards Read write distance max Output function 10 30VDC lt 80 mA inductive coupling 13 56 MHz ISO 15693 45 mm 4 wire read write Design Dimensions Housing diameter Housing material Material active face threaded barrel M30 x 1 5 62 mm 30 mm Stainless steel V2A 1 430
183. onnection Vibration resistance Shock resistance Protection class Operating voltage 0101583 1212 BL ident connector M12 x 1 55 Hz 1 mm 30 g 11 ms IP67 LED green Industr A m Forroller conveyors m Rectangular 400 x 80 mm height 25 mm m Active face on top m Plastic PBT GF30 VO m Every read write head can communicate with a number of different TURCK data carriers m Powered and operated only via BLident interface module m 12 1 connector intended only for use with BLident adapter cable Connectors 52503 1 RD 3 BK 4 WH Data 2 BU Data Connectors S2500 1 BN 3 BU 4WH Data Connectors 52501 1 BN 4BK Data 2WH Data Functional principle The HF read write heads operating at a fre quency of 13 56 MHz form a transmission zone the size of which 0 500 mm varies depending on the combination of read write head and data carrier The read write distances mentioned here on ly represent standard values measured under laboratory conditions The read write distances of the data carriers for mounting in metal TW R M MF were de termined in metal Attainable distances may vary by up to 30 due to component tolerances mounting con ditions ambient conditions and material quali ties especially when mounted in metal Testing of the application under real operat ing conditions is therefore essential especial ly with read write on the fly 7 47 TNL
184. operational current Data transfer Working frequency Radio communication and protocol standards Read write distance max Output function 19 2 28 8VDC lt 90 mA inductive coupling 13 56 MHz ISO 15693 215 mm 4 wire read write Design Dimensions Housing material Material active face rectangular Q80 92x 80x 40mm Plastic PBT GF30 VO yellow Plastic PBT GF30 VO yellow Connection Vibration resistance Shock resistance Protection class Operating voltage 7 42 connector M12 x 1 55 Hz 1 mm 30 g 11 ms IP67 LED green m Rectangular height 40 mm m Active face on top m Plastic PBT GF30 VO m Every read write head can communicate with a number of different TURCK data carriers m Powered and operated only via BLident interface module m 12 1 connector intended only for use with BLident adapter cable Connectors S2503 1RD 3 BK 4WH Data Connectors 52500 1 BN eo 3 BU 4WH Data Connectors S2501 1 BN 3 BU 4BK Data 2WH Data Functional principle The HF read write heads operating at a fre quency of 13 56 MHz form a transmission zone the size of which 0 500 mm varies depending on the combination of read write head and data carrier The read write distances mentioned here on ly represent standard values measured under laboratory conditions The read write distances of the data carriers for mounting in metal TW R M MF were de
185. or ex treme environmental conditions m special double lip seal m protection against all common acid and alkaline cleaning agents m Suited for applications in the food in dustry m permanently legible type label due to laser engraving Every read write head can communicate with a number of different TURCK data carriers Powered and operated only via BLident interface module m M12x1 connector intended only for use with BLident adapter cable Connectors S2503 1RD LLL 3 BK gt 4 WH Data 2BU Data Connectors S2500 1 BN e 3 BU 4WH Data 2BK Data Connectors S2501 1 BN 54 BK Data 2WH Data 0101583 1212 BL ident TN Q14 0 15 RS4 47T Type Ident No TN Q14 0 15 RS4 47T 7030235 Mounting condition Ambient temperature non flush flush mountable 25 70 C Operating voltage DC rated operational current Data transfer Working frequency Radio communication and protocol standards Read write distance max Output function 10 30VDC lt 75mA inductive coupling 13 56 MHz ISO 15693 72mm 4 wire read write Design Dimensions Housing material Material active face rectangular Q14 52x 30x 14mm Plastic PBT GF30 VO yellow Plastic PBT GF30 VO yellow Connection Vibration resistance Shock resistance Protection class Operating voltage 0101583 1212 BL ident connector M12 x 1 55 Hz 1 mm 30 g
186. or project planning product installation Danger It is imperative that the safety and accident protection guidelines are heeded in regards to each application The prerequisites for perfect and save operation of the devices are proper transportation storage assembly and installation as well as careful operation and maintenance Danger It is imperative that the safety and accident protection guidelines are heeded in regards to each application 0101583 1212 BL ident 1 3 About this manual 1 4 0101583 1212 BL ident 2 1 2 1 1 2 1 2 2 1 3 2 1 4 2 2 2 2 1 2 2 2 2 3 2 4 24 1 242 24 3 244 24 5 2 5 2 5 1 252 2 6 2 6 1 2 62 2 6 3 2 7 24 1 242 2 7 3 Industr A The TURCK BL ident system BL ident Modular RFID System 000000000000000000000000 0000000000000000 0000000000000000 eee osos sese eee esee eno osos esee eee ennann 2 BL ident Flexibility for your application security for your investment eese nnt 2 BL ident Data carriers BL ident Read write heads BL ident Interfaces Interfaces for the fieldbus connection Sets and single components 4 Compact fieldbus stations with interfaces for fieldbus connection 8 Schematic display of the identification system BL ident 0o0o000000000000000000 0000000000 0000000000 000000
187. orm a transmission zone the size of which 0 500 mm varies depending on the combination of read write head and data carrier The read write distances mentioned here on ly represent standard values measured under laboratory conditions The read write distances of the data carriers for mounting in metal TW R M MF were de termined in metal Attainable distances may vary by up to 30 due to component tolerances mounting con ditions ambient conditions and material quali ties especially when mounted in metal Testing of the application under real operat ing conditions is therefore essential especial ly with read write on the fly 6 43 TW BV10X1 5 19 B128 17 5 14 M10 x 1 5 6G 234 12 2 4 Ident No TW BV10X1 5 19 B128 6901385 Data transfer Working frequency Memory type Chip Memory size Memory Freely usable memory Number of read operations Number of write operations Typical read time Typical write time Radio communication and protocol standards inductive coupling 13 56 MHz EEPROM NXP I Code SLI SL2 128 byte read write 112 byte unlimited 10 2 ms byte 3 ms byte ISO 15693 Minimum distance to metal 10 Data carrier can be screwed in metal Ambient temperature 25 85 C Storage temperature 45 85 C Design BV10x1 5 Housing material Material active face Protection class Metal plastic 1 4401 LCP Plastic yellow
188. ousing material Material active face 190x 70x 85mm yellow Plastic yellow Connection Vibration resistance Shock resistance Protection class Operating voltage 7 36 connector M12 x 1 55 Hz 1 mm 30 9 11 ms IP67 LED green Every read write head can communicate with a number of different TURCK data carriers m Powered and operated only via BLident interface module m M12 1 connector intended only for use with BLident adapter cable Connectors S2503 1RD 65 3 BK 4WH Data Connectors 52500 1BN Loo 3 BU 4WH Data y M 2 2BK Data Connectors S2501 1 BN 24 BK Data 52 WH Data Functional principle The HF read write heads operating at a fre quency of 13 56 MHz form a transmission zone the size of which 0 500 mm varies depending on the combination of read write head and data carrier The read write distances mentioned here on ly represent standard values measured under laboratory conditions The read write distances of the data carriers for mounting in metal TW R M MF were de termined in metal Attainable distances may vary by up to 30 due to component tolerances mounting con ditions ambient conditions and material quali ties especially when mounted in metal Testing of the application under real operat ing conditions is therefore essential especial ly with read write on the fly 0101583 1212 BL ident HT Ident H1187 L
189. patibility table m FRAM memory size 2 Kbytes Functional principle The HF read write heads operating at a fre quency of 13 56 MHz form a transmission zone the size of which 0 500 mm varies depending on the combination of read write head and data carrier The read write distances mentioned here on ly represent standard values measured under laboratory conditions The read write distances of the data carriers for mounting in metal TW R M MF were de termined in metal Attainable distances may vary by up to 30 96 due to component tolerances mounting con ditions ambient conditions and material quali ties especially when mounted in metal Testing of the application under real operat ing conditions is therefore essential especial ly with read write on the fly 6 19 TW R50 B128 Type Ident No TW R50 B128 6900504 Data transfer inductive coupling Working frequency 13 56 MHz Memory type EEPROM Chip NXP I Code SLI SL2 Memory size 128 byte Memory read write Freely usable memory 112 byte Number of read operations unlimited Number of write operations 10 Typical read time 2 ms byte Typical write time 3 ms byte Radio communication and protocol standards ISO 15693 Minimum distance to metal 10mm Ambient temperature 25 85 C Storage temperature 45 85 C 140 C 1x100 h Design Housing material Material active face Protection class R50 Plastic PA6 Plas
190. perature 40 90 C Storage temperature 40 210 C 30 min Design Housing material Material active face Protection class R50 high temperature Plastic PA6T 6l MH 12 190 GF50 Plastic black PA6 IP69K Packaged quantity 0101583 1212 ident Industr A Mobile high temperature data carrier m Read write m Itis necessary to run adequate perfor mance tests of the data carriers in the actual temperature processes of the application Otherwise durability of the data carriers cannot be guaranteed when exposed outside of the denoted ambient temperature range m EEPROM memory 128 bytes Functional principle The HF read write heads operating at a fre quency of 13 56 MHz form a transmission zone the size of which 0 500 mm varies depending on the combination of read write head and data carrier The read write distances mentioned here on ly represent standard values measured under laboratory conditions The read write distances of the data carriers for mounting in metal TW R M MF were de termined in metal Attainable distances may vary by up to 30 due to component tolerances mounting con ditions ambient conditions and material quali ties especially when mounted in metal Testing of the application under real operat ing conditions is therefore essential especial ly with read write on the fly 6 35 TW R50 90 HT K2 95 108 5 136 54 125 05 5
191. r is divided into data blocks Each data block comprises E 4byte The start address and length ofthe byte to be read from and written to can be freely selected within the user data range Data structure of the l Code SL2 data carriers page 2 16 For examining the required read write times it should be observed that access to the user data range always occurs block by block For example time is not shortened when the length of the byte to be read is less than 4 byte The start addresses of the blocks are 0 4 8 12 Two blocks are processed when the selected start address is 5 and the length of the byte to be read is 4 For time critical applications please observe the two instructions below Note i As start address and length of the byte to be read please only enter multiple of 4 The start address and length of the byte to be read are attributes of the read write commands Note Please select small addresses when selecting the data memory range Attention H The following two diagrams are valid when the instructions for time critical applications are followed 0101583 1212 ident 2 21 The TURCK BL ident system Figure 3 Pause times when reading a data carrier type EEPROM I Code SL2 80 t ms 70 60 50 40 30 20 10 4 8 16 32 48 64 112 128 Figure 4 Pause times when writing a data carrier type EEPROM I Code SL2 400 t ms 350 300 250 2
192. rgeable battery Table 51 Type code PD Ident BC Handheld Computer PD Ident BC Ident No 1542335 Description Rechargeable battery charger Table 52 Type code PD Ident RS Handheld Computer PD Ident RS Ident No 1542338 Description Spare pins 25 pieces Table 53 Type code PD Ident CB Handheld Computer PD Ident CB Ident No 1542334 Description Carrying bag 9 16 D101583 1212 BL ident Industr A 10 Glossary Automation device Controller with inputs and outputs which is connected to a technical process Programmable logic controllers PLC are a special group of automation devices Bus Bus system for transferring data between hardware components e g CPU memory and I O level A bus may consist of multiple parallel data transfer cables addressing control and power supply Bus system All units which communicate with each other via a bus CPU Central Processing Unit Central processing unit the heart of a data processor Distribution Distribution includes all activities relevant to the transport of goods from one economic agent to another DIN German abbreviation for Deutsches Institut f r Normung e V DP Master Class 1 The automation system PLC which mainly controls processing of cyclic process data The 1 functions may be additionally or optionally used also DPM1 DPC1 DP Master Class 2 Only acyclic demand data are transferred This type of data transfer may be completed with
193. rite heads operating at a fre quency of 13 56 MHz form a transmission zone the size of which 0 500 mm varies depending on the combination of read write head and data carrier The read write distances mentioned here on ly represent standard values measured under laboratory conditions The read write distances of the data carriers for mounting in metal TW R M MF were de termined in metal Attainable distances may vary by up to 30 96 due to component tolerances mounting con ditions ambient conditions and material quali ties especially when mounted in metal Testing of the application under real operat ing conditions is therefore essential especial ly with read write on the fly 7 21 TB M30 H1147 S1126 Type TB M30 H1147 S1126 Ident No 7030214 Mounting condition flush Ambient temperature 25 70 C Operating voltage 10 30VDC DC rated operational current lt 80 mA Data transfer inductive coupling Working frequency 13 56 MHz Radio communication and protocol standards ISO 15693 Read write distance max 45 mm Output function 4 wire read write Design Dimensions Housing diameter Housing material Material active face threaded barrel M30 x 1 5 62 mm 30 mm Metal CuZn chrome plated Plastic PA12 GF30 Connection Vibration resistance Shock resistance Protection class Operating voltage 7 22 connector M12 x 1 55 Hz 1 mm 30 g 11 ms IP67 LED green
194. s The read write distances of the data carriers for mounting in metal TW R M MF were de termined in metal Attainable distances may vary by up to 30 due to component tolerances mounting con ditions ambient conditions and material quali ties especially when mounted in metal Testing of the application under real operat ing conditions is therefore essential especial ly with read write on the fly 6 47 TW L86 54 C B128 86 Ident No TW L86 54 C B128 6900479 Data transfer inductive coupling Working frequency 13 56 MHz Memory type EEPROM Chip NXP I Code SLI SL2 Memory size 128 byte Memory read write Freely usable memory 112 byte Number of read operations unlimited Number of write operations 10 Typical read time 2 ms byte Typical write time 3 ms byte Radio communication and protocol standards ISO 15693 Minimum distance to metal 10mm Storage temperature 20 70 C Design smart card Housing material Plastic Makrolon Material active face Plastic PVC Protection class IP40 Packaged quantity 6 48 Mobile data carrier Read write Compatible with a number of BLident read write heads see data sheet or compatibility table m EEPROM memory 128 bytes Functional principle The HF read write heads operating at a fre quency of 13 56 MHz form a transmission zone the size of which 0 500 mm varies depending on the combination
195. s ambient conditions and material quali ties especially when mounted in metal Testing of the application under real operat ing conditions is therefore essential especial ly with read write on the fly 7 27 TN M30 H1147 S1126 M30 x 1 5 36 5 LED Type TN M30 H1147 S1126 Ident No 7030215 Mounting condition non flush Ambient temperature 25 70 C Operating voltage 10 30VDC DC rated operational current lt 75mA Data transfer inductive coupling Working frequency 13 56 MHz Radio communication and protocol standards ISO 15693 Read write distance max 77mm Output function 4 wire read write Design Dimensions Housing diameter Housing material Material active face threaded barrel M30 x 1 5 62 mm 30 mm Metal CuZn chrome plated Plastic PA12 GF30 Connection Vibration resistance Shock resistance Protection class Operating voltage 7 28 connector M12 x 1 55 Hz 1 mm 30 9 11 ms IP67 LED green m Threaded barrel M30 x 1 5 m Chrome plated brass m Every read write head can communicate with a number of different TURCK data carriers m Powered and operated only via BLident interface module m M12x1 connector intended only for use with BLident adapter cable Connectors 52503 1 RD he 3 BK 4WH Data Connectors 52500 1 BN 3 BU 4WH Data Connectors S2501 1 BN 4BK Data 7 6 2WH Data Functional prin
196. se EMC guidelines 000000000000000000000000000 0000000000000000 00000 0000000000000000 00000000000000 000000 2 5 2 Propagation of an electromagnetic interference 00000000000000000000000000000000000 0000000000000000 000000000 00000000000 2 5 3 What can interfere with RFID sssssccccccoececcccccoccccccccccccccocccceccccccccocccccccccccccocccocceccccsccsoccocccccccccsocccceeeee 3 5 4 CI IEE 3 5 5 What EX4IT Y J 4 5 6 Basic rules for safeguarding EMC 00000000000000000000000000000000 0000000000000000 0000000000000000 00000000000000 0000000 0000000000 5 5 6 1 Assembly of a switching Cabinet 6 5 6 2 Avoiding sources of interference 6 563 P 6tentiale gualizatiOon M 6 Exe MEE gt eL 7 0101583 1212 BL ident 5 1 EMC guidelines 5 1 Who should use these EMC guidelines These EMC guidelines are for E Project engineers who plan installations with RFID components which need to be configured 8 Assemblers operators service technicians and engineers who professionally install connection cables according to specifications or who will need to fix existing errors caused by interferences You may read more about EMC guidelines in this chapter especially Propag
197. sent standard values measured under laboratory conditions The read write distances of the data carriers for mounting in metal TW R M MF were de termined in metal Attainable distances may vary by up to 30 due to component tolerances mounting con ditions ambient conditions and material quali ties especially when mounted in metal Testing of the application under real operat ing conditions is therefore essential especial ly with read write on the fly 6 33 TW R22 HT B64 Type Ident No TW R22 HT B64 1542323 Data transfer inductive coupling Working frequency 13 56 MHz Memory type EEPROM Chip NXP I Code SL1 Memory size 64 byte Memory read write Freely usable memory 46 byte Number of read operations unlimited Number of write operations 10 Typical read time 2 ms byte Typical write time 3 ms byte Radio communication and protocol standards ISO 15693 Minimum distance to metal 10mm Ambient temperature 40 90 C Storage temperature 40 210 C 30 min Design Housing material Material active face Protection class R22 high temperature Plastic PA6T 6l MH 12 190 GF50 Plastic black PA6 IP68 Packaged quantity 6 34 m Mobile data carrier for high temperature applications m Read write m It is necessary to run adequate perfor mance tests of the data carriers in the actual temperature processes of the application Otherwise durability of the data
198. snscessseessscessesesasecsseeeescessueessneecsnecesneessass Handheld computer PS Ident WLAN with WLAN functionality Handheld accessories 0101583 1212 BL ident 9 1 Accessories 9 1 General description of accessories 9 2 TURCK offers a variety of accessories for mounting the data carriers and for mounting and protecting the read write heads Spacers are used for mounting data carriers with 30 mm and 50 mm The offer includes suitable fixing clamps as well as quick mount brackets for the cylindrical read write heads types M18 x 1 and M30 The adjusting rail J5025 037 facilitates mounting and adjustment of the read write heads type CK40 Added protection against mechanical damages is provided by protective clamps which also facilitate mounting type CK40 The computer handheld PD Ident is equipped with numerous features to read from and write to all BL ident data carriers independent of location and under Windows it is also available with WLAN and Bluetooth functionality Note Mounting accessories may decrease the read write distance Respective tests need to be conducted prior to start up 0101583 1212 BL ident Accessories for data carriers with 30 mm 50 mm Industr A 9 2 Accessories for data carriers with 30 mm and 50 mm 9 2 1 Spacer DS R30 Figure 27 Spacer DS R30 93 9 230 Table 23 Type code DS R30 Spacer DS R30 Iden
199. st be closed during operation 0101583 1212 BL ident VII Vill 0101583 1212 BL ident Industr A 1 About this manual 1 1 Explanation of used symbols ccccccccccccccccccssccccccsscccccccscscccccccccccccccccccccccccsccccsccccscccscccsccesccccccccsscccccocs 2 1 2 Introduction 2 1 3 TL T 2 Tak KERE aaa aana aan a E NG A EA MEM EIE 3 1 3 2 Instructions for project planning product installation eese testes tte ntto netos tton 3 0101583 1212 BL ident 1 1 About this manual 1 1 Explanation of used symbols Danger Certain risk of personal injury Proceed with special caution This symbol is shown next to warnings indicating a potential source of danger This refers to personal injury or death that are almost certain if warning instructions are not observed Attention d Risk of damage to devices Proceed with special care This symbol is shown next to warnings indicating a potential source of danger This refers to possible damage to systems hardware and software and installations Note Important information and description of a particular procedure This symbol is placed next to general instructions that indicate important information on the procedure for one or several operations The relevant instructions may simplify the work and help for example to avoid additio
200. stances of the data carriers for mounting in metal TW R M MF were de termined in metal Attainable distances may vary by up to 30 due to component tolerances mounting con ditions ambient conditions and material quali ties especially when mounted in metal Testing of the application under real operat ing conditions is therefore essential especial ly with read write on the fly 0101583 1212 BL ident TW H4 B128 Type Ident No TW I14 B128 6900526 Data transfer inductive coupling Working frequency 13 56 MHz Memory type EEPROM Chip NXP SLI SL2 Memory size 128 byte Memory read write Freely usable memory 112 byte Number of read operations unlimited Number of write operations 10 Typical read time 2 ms byte Typical write time 3 ms byte Radio communication and protocol standards ISO 15693 Minimum distance to metal 10mm Ambient temperature 25 85 C Storage temperature 25 120 C 160 C 1x35 h 220 C 1 30 8 Design Housing material Protection class inlay epoxy IP20 Packaged quantity 0101583 1212 BL ident Industr A Mobile data carrier Inlay design e g for customizing Read write EEPROM memory 128 bytes Functional principle The HF read write heads operating at a fre quency of 13 56 MHz form a transmission zone the size of which 0 500 mm varies depending on the combination of read write head and data carrier The rea
201. sting of the application under real operat ing conditions is therefore essential especial ly with read write on the fly 0101583 1212 BL ident TW R4 22 B128 Type Ident No TW R4 22 B128 7030237 Data transfer inductive coupling Working frequency 13 56 MHz Memory type EEPROM Chip NXP SLI SL2 Memory size 128 byte Memory read write Freely usable memory 112 byte Number of read operations unlimited Number of write operations 10 Typical read time 2 ms byte Typical write time 3 ms byte Radio communication and protocol standards ISO 15693 Minimum distance to metal 10mm Ambient temperature 25 85 C Storage temperature 40 140 C Design R4 22 Housing material glass Material active face Glass Vibration resistance 200 Hz 1 mm Shock resistance 30 g 11 ms Protection class IP68 Static pressure 10 bar Packaged quantity 0101583 1212 BL ident Industr A Mobile data carrier for use in auto claves Read write m Distances measured with narrow side of data carrier aimed towards the read write head m EEPROM memory 128 bytes Functional principle The HF read write heads operating at a fre quency of 13 56 MHz form a transmission zone the size of which 0 500 mm varies depending on the combination of read write head and data carrier The read write distances mentioned here on ly represent standard values measured under laboratory condition
202. t advanced RFID interface azyclic data exchange BLCDP 2M12MT 2RFID A IP67 Compact fieldbus station for PROFIBUS DP BL compact simple RFID interface simple communication BLCDP 2M12MT 2RFID S IP67 Compact fieldbus station for PROFIBUS DP BL compact basic RFID interface simple l O communication and 8 digital inputs outputs configurable PNP with diagnostic function BLCDP 6M12LT 2RFID S 8XSG PD IP67 Compact fieldbus station for DeviceNet BL compact simple RFID Interface simple communication 8 digital inputs outputs configurable PNP with diagnostic function BLCDN 6M12LT 2RFID S 8XSG PD IP67 Compact fieldbus station for PROFIBUS DP BL compact advanced RFID interface acyclic data exchange 8 digital inputs PNP with diagnostic function BLCDP 6M12LT 2RFID A 8DI PD IP67 2 8 Compact fieldbus station for PROFIBUS DP BL compact advanced RFID interface acyclic data exchange 8 digital inputs outputs configurable PNP with diagnostic function BLCDP 6M12LT 2RFID A 8XSG PD 0101583 1212 BL ident BL ident Modular RFID system Table 5 BL compact Compactfieldbus stations with RFID interface in IP67 Dimensions enclosure lengths Protec tion class Description Industr A Model type IP67 Compact fieldbus station for PROFIBUS DP BL compact simple RFID interface simple comm
203. t No 6900512 Description Spacer for data carrier with 30 mm Material Plastic 9 2 2 Spacer DS R50 Figure 28 Spacer DS R50 23 9 2 50 Table 24 Type code DS R50 Spacer DS R50 Ident No 6900386 Description Spacer for data carrier with 50 mm Material Plastic 0101583 1212 ident 9 3 Accessories 9 3 Accessories for cylindrical read write heads type M18 9 3 1 Fixing clamp BS18 Figure 29 Fixing clamp BS18 Table 25 Type code BS18 Fixing clamp BS18 Ident No 69471 Description Fixing clamp for cylindrical read write heads M18 x 1 Material Polyamide 9 3 2 Fixing clamp BSN18 Figure 30 Fixing clamp BSN18 Table 26 Type code BSN18 Fixing clamp BSN18 Ident No 69472 Description Fixing clamp for cylindrical read write heads M18 x 1 Material PBT 9 4 0101583 1212 BL ident Accessories for cylindrical read write heads type M18 9 3 3 Fixing clamp with stopper BST 18B Industr A Figure 31 Fixing clamp BST 18B Table 27 Type code BST 18B Fixing clamp BST 18B Ident No 6947214 Description Fixing clamp with stopper for cylindrical read write heads M18 x 1 Material Polyamide 9 3 4 Fixing clamp without stopper BST 18N Figure 32 Fixing clamp BST 18N Table 28 Type code BST 18N Fixing clamp BST 18N Ident No 6947215 Description Fixing clamp without stopper for cylindrical read write heads
204. tage from the nominal value may not exceed tolerances listed in the technical data otherwise operating failures and dangerous situations can not be excluded E Emergency Off equipment per IEC EN 60 204 1 must remain in effect in all operating modes of the automation equipment Release of the Emergency Off equipment must not cause a restart Built in devices for enclosures or cabinets must only be operated and maintained when installed tabletop devices or portables only when the housing is closed Measures must be taken to ensure that an interrupted program can be restarted according to specifications following voltage drops and failures Here no dangerous operating states including brief ones must occur if necessary force Emergency Off E External measures must be taken at locations where failures of the automation equipment may cause damage to persons and property these external measures must ensure or rather force safe operation even when failures or interferences occur e g with the help of independent limit switches mechanical locks etc The electrical installation must be completed according to relevant specifications e g cable diameters fuses connection of earth conductor Only qualified personnel is permitted to complete all work related to transportation installation start up and maintenance Adhere to IEC 60 364 or rather HD 384 or DIN VDE 0100 and national accident prevention rules 8 All covers and doors mu
205. terference Definition of EMC Electromagnetic Compatibility is the ability of an electrical or electronic device to function free of errors within an electromagnetic environment without interfering with the environment beyond certain thresholds The TURCK BL ident devices are tested for EMC per the following basic norms EN 61000 4 2 ESD EN 61000 4 3 electromagnetic fields EN 61000 4 4 burst EN 61000 4 5 surge EN 61000 4 6 conducted HF An installation must be assembled per certain guidelines because RFID components are components of an entire system and the combination of different components may cause interference An entire package of measures must be implemented in order to have an interference free installation here the operator is responsible for radio shielding of the entire installation The operator must also comply to country specific rules and regulations All measures taken when the installation is being assembled will later save expensive retrofitting and elimination of interference 0101583 1212 BL ident Basic rules for safeguarding EMC Industr A 5 6 Basic rules for safeguarding EMC These basic rules are to be followed to ensure electromagnetic compatibility EMC Shielding via housing Please protect the device from external interference by installing it into a cabinet or housing it in an enclosure The cabinet or the enclosure must be part of the ground connection Please use insulating
206. tfor BE ident proJects e eret e E eri tna TENAN iere 12 2 22 Networking with BL ident systems eese 12 2 3 Identification systems with radio frequency technology RFID 606000000000000000000000000 00000000000000 000000000000 13 2 4 Performance characteristics and applications of the BL ident system eee esee ee eene eene eene noue 13 24 Protection Class isere ettet tete ee aa AKA pede era band yan again ete ped Mere ENTE 242 NI aje m n 24 3 Transmission frequency 24 4 Modeltypes Data carriers Read write heads E 245 2 5 User data ranges of the data carrier versions 000000000000000000000000 0000000000 00000000000000 00000000000000 0000000000 000000 16 25 1 Overview of the HF TURCK data carriers 16 25 2 Overview of the UHF TURCK data carriers 19 2 6 Read write time in the data collection range of the HF read write head 20 2 6 1 EEPROM I Code SL2 data carriers 2 6 0 EEPROM I Code SL1 data carriers 2 6 3 FRAM data 2 7 Data carrier speed to the read write head for HF RFID systems 00
207. the HF band 7 1 Functionality The BL ident read write heads transceiver are used for contactless data exchange with the respective data carriers TAGs They form a so called air interface transmission window the size of which depends and varies on the data carrier and transciever combination that was chosen In this air interface the data carrier is supplied with power and the data exchange is realized The operating frequency is 13 56 MHz The reachable distances vary depending lengths between 0 500 mm The read write head consists of electronics and an antenna Figure 1 Block switching diagram read write head Fig ure 1 Demodulator Block switching X gt WA gt diagram read N TET write head Lo Modulator CX Generator TNI With the help of the electronics communication between the data carrier the read write head and the BL ident interface module is ensured 7 1 1 Read write head electronics 7 1 2 Read write head antenna The antenna consists of an air coil The antenna serves to transfer data and power between data carrier and read write head The antenna creates an electromagnetic field which is recognized by the data carrier within the transmission range Data and power transmission is only possible as long as the data carrier remains in this field Figure 2 Transmission range Figure 2 Transmission range 7 2 D101583 1212 BL ident
208. the help of an engineering tool PC user program for example DPV1 Function expansion to PROFIBUS DP In addition to the cyclic process data demand data can be transferred via acyclic communication functions Acyclic services are processed temporally parallel with low priority and in addition to the cyclic process data transfer EEPROM Electrically Erasable Programmable Read Only Memory EEPROM describes a non volatile electronic memory chip The EEPROM is comprised of a field effect transistor matrix with isolated floating gate in which each transistor represents a bit EMC Electromagnetic compatibility EMC identifies the generally preferred state in which electrical devices do not interfere with each other through undesired electrical or electromagnetic effects Earth In electrical engineering the term earth is used to describe conductive earth and its electrical potential equalling zero at each point The term common ground reference potential is used in connection with the environment surrounding grounding equipment where the electrical potential of the earth may not be zero Grounding Connection of an electrically conductive part to the ground electrode via grounding equipment 0101583 1212 BL ident 10 1 Glossary 10 2 Ground Electrode One or more components which have direct and solid contact with the earth Fieldbus Data network at the sensor actuator level A fieldbus connects the devices in the field with
209. tic black PA6 IP69K Packaged quantity 6 20 Mobile data carrier Read write Compatible with a number of BLident read write heads see data sheet or compatibility table m EEPROM memory 128 bytes Functional principle The HF read write heads operating at a fre quency of 13 56 MHz form a transmission zone the size of which 0 500 mm varies depending on the combination of read write head and data carrier The read write distances mentioned here on ly represent standard values measured under laboratory conditions The read write distances of the data carriers for mounting in metal TW R M MF were de termined in metal Attainable distances may vary by up to 30 due to component tolerances mounting con ditions ambient conditions and material quali ties especially when mounted in metal Testing of the application under real operat ing conditions is therefore essential especial ly with read write on the fly 0101583 1212 BL ident TW R50 B128 Ex 04 9 50 Ident No TW R50 B128 Ex 7030244 Data transfer inductive coupling Working frequency 13 56 MHz Memory type EEPROM Chip NXP I Code SLI SL2 Memory size 128 byte Memory read write Freely usable memory 112 byte Number of read operations unlimited Number of write operations 10 Typical read time 2 ms byte Typical write time 3 ms byte Radio communication and protocol standards ISO 15693 Min
210. tr A 2 5 2 Overview of the UHF TURCK data carriers The UHF data carrier memory hierarchy is divided into four logical banks per ISO 18000 6C and can accommodate several blocks Reserved area Among other things depending on the type of data carrier this bank contains the passwords for memory access and memory deactivation The passwords for the deactivation function are stored in the memory addresses 00 to 1Fhex Memory access occurs via separate protocol commands EPC Electronic Product Code or UII Unique Item Identifier This bank contains the basic identification data of the transponder Thus a clear identification is later possible during operation ifthe data is different In the first data word 2 Bytes there are the specific protocol control bytes for the data carrier from address 0x0000 on The second word contains the 16 bit check sum CRC in the memory addresses from 0x0002 on The data range of the EPC begins with address 0x0004 The data carriers vary on the basis of the first 8 bytes of the data range addresses 0x0004 up to 0x000C TID Data Carrier Identification This bank contains one of three class identifier values EO ex E2hex or E3 per ISO IEC 15963 in the memory addresses 00 to 07 The class identifier does not specify the application If the class identifier is EO ex TID contains a 48 bit serial number the composite 64 bit data carrier ID is unique among all data carrier classes defined in ISO IEC
211. unication 8 digital inputs PNP with diagnostic function BLCDP 6M1 2LT 2RFID S 8DI PD IP67 IP67 Compact fieldbus station for DeviceNet BL compact simple RFID interface simple communication 8 digital inputs outputs configurable PNP with diagnostic function Compact fieldbus station for CANopen BL compact simple RFID interface simple I O communication 8 digital inputs outputs configurable PNP with diagnostic function BLCDN 6M12LT 2RFID S 8XSG PD BLCCO 6M12LT 2RFID S 8XSG PD IP67 Compact fieldbus station for CANopen BL compact simple RFID interface simple I O communication BLCCO 4M1 2L 2RFID S 2RFID S IP67 IP67 Compact fieldbus station for Multi protocol Ethernet Modbus TCP EtherNet IP BL compact simple RFID interface simple l O communication Compact fieldbus station for Multi protocol Ethernet Modbus TCP EtherNet IP BL compact simple RFID interface simple I O communication 8 digital inputs outputs configurable PNP with diagnostic function BLCEN 2M12LT 2RFID S BLCEN 4M12LT 2RFID S 2RFID S BLCEN 6M12LT 2RFID S 8XSG PD IP67 Compact fieldbus station for Multi protocol Ethernet Modbus TCP EtherNet IP BL compact simple RFID interface simple I O communication RS232 serial interface BLCEN 3M12LT 1RS232 2RFID S 0101583 1212 ident 2 9 The TURCK BL ident system
212. values Data carrier flush mounted on metal St37 0101583 1212 BLident 8 9 Operating data of the read write heads with corresponding data carriers Table 14 Data carriers Read write heads Operating data TN EM18WD H1147 TB M30 H1147 TB EM30WD H1147 TW BD10X1 5 19 B128 TW BD10X1 5 19 K2 TW BV10X1 5 19 B128 TW BV10X1 5 19 K2 TW SPP18x1 B128 TW R30 M B128 TW R50 M B128 TW R80 M B128 TW R30 M K2 E 6 M 13 L 10 TW R50 M K2 E 10 10 10 22 21 21 L 32 26 26 2Measured values Data carrier flush mounted on metal St37 8 10 0101583 1212 BL ident Operating data Industri A Table 14 Data carriers Read write heads Operating data TN EM18WD H1147 TB M30 H1147 TB EM30WD H1147 TW R80 M K2 E M L TW R4 22 B128 TW L86 54 C B128 0101583 1212 BL ident 8 11 Operating data of the read write heads with corresponding data carriers Table 15 Operating data Data carriers Read write heads TN M30 H1147 TN EM30WD H1147 TN Q14 0 15 RS4 47T TW R7 5 B128 E 10 10 10 M 30 30 30 L 28 28 28 TW R9 5 B128 E 11 11 11 33 33 33 L 31 31 31 TW R16 B64 M L TW R16 B128 20 20 20 M 38 38 38 L 44 44 44 TW R20 B128 E 22 22 22 M 40 40 40 L 34 34 34 TW R20 K2 E EE 17
213. y 13 56 MHz Memory type EEPROM Chip NXP I Code SLI SL2 Memory size 128 byte Memory read write Freely usable memory 112 byte Number of read operations unlimited Number of write operations 10 Typical read time 2 ms byte Typical write time 3 ms byte Radio communication and protocol standards ISO 15693 Minimum distance to metal 10mm Ambient temperature 25 85 C Storage temperature 45 85 C 140 C 1x100 h in the explosion hazardous area see instruc tion leaflet Device designation Approval acc to II 2 G Ex ia IIC T4 T6 II 2D Ex 21 T110 C BVS 09 ATEX E 036 X Design Housing material Material active face Protection class R20 Plastic PA6 Plastic black PA6 IP69K Packaged quantity 0101583 1212 ident Industr A ATEX category 11 2 G Ex Zone 1 ATEX category Il 2 D Ex Zone 21 Mobile data carrier Read write Compatible with a number of BLident read write heads see data sheet or compatibility table m EEPROM memory 128 bytes Functional principle The HF read write heads operating at a fre quency of 13 56 MHz form a transmission zone the size of which 0 500 mm varies depending on the combination of read write head and data carrier The read write distances mentioned here on ly represent standard values measured under laboratory conditions The read write distances of the data carriers for mounting in metal TW R M MF were de termined in metal

bl ident

Contents

Download Pdf Manuals

Related Search

Related Contents