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User Manual RFID System - Installation of the BL ident system

1. 4 4 Fundamentals for EMC protection Installation in switch Avoiding sources of interference Potential equalization Shielding the cable D101583 0207 BL ident 4 1 Directives For whom are the directives intended These directives are intended for Project engineers and planners who are planning the system with the RFID modules to be configured Installation personnel service technicians and engineers who use this description to correctly lay the connection cables or have to remedy the existing problems during a malfunction In this chapter you will learn more about the EMC guidelines particularly Dispersion of electromagnetic interference What does EMC mean Fundamentals for EMC protection Installation in a switch cabinet Avoiding sources of interference Potential equalisation Shielding the cable Dispersion of electromagnetic interference In a system or installation electromagnetic interference can only occur if the following components are mutually present Source of interference Interference path Susceptible equipment If one of these components is not present for example the interference path no interference will occur even if the source of interference sends high levels of interference Fig 1 Figure 1 Interference components source of interference l
2. 4 Prescribed Se M 5 Notes concerning planning Installation of this product 5 D101583 0207 BL ident 0 1 About this manual Documentation concept This manual contains all the information necessary for professional installation of the BL ident systems particularly with regard to the data carriers and the read write heads The following chapter provides an overview of the BL ident system how to plan a BL ident system and indicates the necessary installation guidelines while providing a brief overview of the EMC directives The manual also describes the functional principle of the data carriers and read write heads the technical data and operating data as well as the available accessories The manuals for BL67 and BL20 I O modules contain information concerning the non bus specific modules of the modular TURCK BL67 and BL20 systems You can find a short system description a detailed function description of the modules as well as all the information concerning topics such as mounting dismounting and inscription The manuals contain a short description of the I O ASSISTANT which is the engineering and configuration software for TURCK products Manual BL67 I O Modules TURCK documentation number German D300572 English D300529 Manual BL20 I O Modules TURCK documentation number German D300716 English D300717 Also included are manual
3. 9 TN M30 H1147 with data carrier TW R30 HT B128 9 TN M30 H1147 with data carrier TW R50 HT B128 9 TN M30 H1147 with data carrier TW R20 HT K2 9 TN M30 H1147 with data carrier TW R30 HT K2 9 TN M30 H1147 with data carrier TW R50 HT K2 9 TN CK40 H1147 with data carrier TW R16 B128 10 TN CK40 H1147 with data carrier TW R20 B128 10 TN CK40 H1147 with data carrier TW R30 B128 10 TN CK40 H1147 with data carrier TW R50 B128 10 TN CK40 H1147 with data carrier 20 2 10 TN CK40 H1147 with data carrier TW R30 KO2 ccce 10 40 1147 with data carrier 50 2 10 TN CK40 H1147 with data carrier TW R16 HT B128 10 TN CK40 H1147 with data carrier TW R20 HT B128 10 TN CK40 H1147 with data carrier 22 64 10 TN CK40 H1147 with data carrier TW R22 HT B128 10 TN CKA40 H1 147 with data carrier TW R30 HT B128 10 40 1147 with
4. TN M18 H1147 with data carrier 22 64 18 1147 with data carrier TW R22 HT B128 TN M18 H1147 with data carrier 128 TN M18 H1147 with data carrier TW R50 HT B128 TN M18 H1147 with data carrier TW R20 HT K2 TN M18 H1147 with data carrier TW R30 HT K2 18 1147 with data carrier TW R50 HT K2 TB M30 H1147 with data carrier 16 128 TB M30 H1147 with data carrier 20 128 0 2 TB M30 H1147 with data carrier 0 128 2 2 242424242 TB M30 H1147 with data carrier 50 128 TB M30 H1147 with data carrier 20 2 TB M30 H1147 with data carrier 2 TB M30 H1147 with data carrier 50 2 TB M30 H1147 with data carrier 16 128 TB M30 H1147 with data carrier TW R20 HT B128 TB M30 H1147 with data carrier TW R22 HT B64 TB M30 H1147 with data carrier
5. Industrial Automation i MN 4 17 m Ve pm USER MANUAL RFID SYSTEM INSTALLATION OF THE BL IDENT SYSTEM p 1583 01 0101583 0207 BL ident 0101583 0207 Industri A Safety Instructions Before beginning installation work Disconnect the device from the power supply Ensure against accidental restart Verify isolation from the supply Cover or close off neighbouring units that are live The assembly instructions provided for the device are to be complied with Only suitably qualified personnel according to EN 50 110 1 2 VDE 0105 part 100 are authorised to carry out work on this device system When conducting installation work ensure that you are free of electrostatic charge before touching the device Connection and signal cables are to be installed so that any inductive or capacitive interference does not impair the automation functions The installation of automation devices and their operating elements is to be carried out in such a way as to prevent unintentional operation In order to prevent cable or wire breakage on the signal side generating undefined states in the automation devices appropriate safety measures are to be taken for the I O coupling on the hardware and software side The functional earth FE must be connected to the protective earth PE or the equipotential bonding The system installer is responsible for e
6. 11 TN Q80 H1147 with data carrier 20 2 11 TN Q80 H1147 with data carrier 2 11 TN Q80 H1147 with data carrier 50 2 11 TN S32XL H1147 with data carrier 16 128 2 12 TN S32XL H1147 with data carrier 20 128 2 12 TN S32XL H1147 with data carrier TW R30 B128 12 TN S32XL H1147 with data carrier 50 128 2 12 TN S32XL H1147 with data carrier TW R20 K2 oooooo ro Woo 12 TN S32XL H1147 with data carrier 2 12 TN S32XL H1147 with data carrier TW R50 K2 oocoooo o Wo 12 TN S32XL H1147 with data carrier TW R16 HT B128 12 TN S32XL H1147 with data carrier TW R20 HT B128 12 TN S32XL H1147 with data carrier 22 64 4 4 2 12 TN S32XL H1147 with data carrier TW R22 HT B128 12 TN S32XL H1147 with data carrier TW R30 HT B128 12 TN S32XL H1147 with data carrier TW R50 HT B128 12 TN S32XL H1147 with data carrier 20 2 242 222 12 TN S32XL H1147 with data carrier 30 2 222 2 1 12 TN S32XL H1147 with data carrier
7. Connection Connector M12 x 1 Vibration resistance 55 Hz 1 mm Shock resistance 30 g 11 ms Degree of protection IP67 Power ON indication Green LED Function display Green LED flashing D101583 0207 BL ident Description of the read write heads Technical data TN S32XL H1147 Industri A Figure 9 TN S32XL H1147 Table 8 TN S32XL H1147 D101583 0207 Type Ident No TN S32XL H1147 7030008 Mounting condition non flush installation on metal possible Ambient temperature 25 70 C Data transfer inductive Output function Read write Operating frequency 13 56 MHz Housing style Ring sensor S32 Housing material Plastic ABS yellow Ring internal diameter 100 mm Connection Connector M12 x 1 Vibration resistance 55 Hz 1 mm Shock resistance 30 g 11 ms Degree of protection IP67 Power ON indication Green LED Function display Green LED flashing BL ident Description of the read write heads Description of the read write heads The read write heads are connected via an M12 x 1 connector with the BLident interface module The power supply 24 V DC and function are implemented via the BLident interface module Figure 10 Wiring diagram 1 BN 9 3 BU 3 1 4WH Data 2BK Data a 6 12 D101583 0207 BL ident Operating data 7 Description of the read write heads with corresponding d
8. ooooWo W oom 4 7 Potential 4 7 Shielding the Cable momongan aan al 4 7 5 Description of the data carrier TYPO OVORVIOW 5 2 Function principle een 5 3 Technical data TW R16 AT B128 le ne decente ea aan 5 5 IW R2O HIT BI2B an ee een 5 7 TAWSR22zHT BO04 ricette idee dte fees 5 9 TWER225H TB 128 Seat men uk makanan Speo eua de 5 11 TW RS0 AT B128 22 22 Er 5 13 TW RS0 HT BI2B a aeie aaee aeae a ne 5 15 2 EE aa E en Neal 5 17 TWRS OHT CER 5 19 50 2 6 i ind deett eed Tag nan etta 5 21 6 D101583 0207 BL ident Contents Industri A TW R16 B128 sssssssssssssseeeeeeene tentent enne nennt rnnt nnn nnn 5 23 TWSR20 B128 inkang aeter eati eda REA Ra 5 25 TWER3S0 B4128 irre ie Reg aan 5 27 TW R50 B128 sse teen tnnt netten snnt nennen nne 5 29 TIW R2D R2 ME 5 31 NUEBIKLLV 5 33 TWERBOSK2 iid a a a oat idt 5 35 6 Description of the read write heads TYPE OVENVIOW akasa 6 2 Function principle sana Naga tpe debet te as nahan 6 3 Technical data TB MIS HiNA7 E 6 5 M Es lpDrI 6 6 Did m 6 7 6 8 40
9. Table 7 Corresponding Read write distance Operating data data carrier TN S32XL H1147 Recommen Minimum Maximum ded mm mm mm TW R16 B128 20 67 TW R20 B128 25 72 TW R30 B128 30 80 TW R50 B128 80 150 TW R20 K2 20 60 TW R30 K2 30 78 TW R50 K2 60 128 TW R16 HT B128 10 57 TW R20 HT B128 15 62 TW R22 HT B64 15 62 TW R22 HT B128 15 62 TW R30 HT B128 20 70 TW R50 HT B128 70 140 TW R20 HT K2 10 50 TW R30 HT K2 20 68 TW R50 HT K2 50 118 0101583 0207 BL ident 7 11 Operating data 7 12 D101583 0207 BL ident Overtravel ranges Industri A 8 Description of the read write heads with corresponding data carriers Notes for the overtravel distances ooh 3 Overtravel distance read write head housing style M18 TN M18 H1147 with data carrier TW R16 18 1147 with data carrier TW R16 TN M18 H1147 with data carrier TW R20 TB M18 H1147 with data carrier TW R20 TN M18 H1147 with data carrier TW R30 18 1147 with data carrier TW R30 TN M18 H1147 with data carrier TW R50 TN M18 H1147 with data carrier TW R20 TB M18 H1147 with data carrier TW R20 TN M18 H1147 with data car
10. 22 128 TB M30 H1147 with data carrier TW R30 HT B128 TB M30 H1147 with data carrier TW R50 HT B128 TB M30 H1147 with data carrier TW R20 HT K2 D101583 0207 BL ident Industri A Operating data TB M30 H1147 with data carrier TW R30 HT K2 8 TB M30 H1 147 with data carrier TW R50 HT K2 8 TN M30 H1147 with data carrier 16 128 2 2 2 4 4 9 TN M30 H1147 with data carrier 20 128 9 TN M30 H1147 with data carrier 128 9 TN M30 H1147 with data carrier 50 128 9 TN M30 H1147 with data carrier TW R20 K2 9 TN M30 H1147 with data carrier TW R30 K2 9 TN M30 H1147 with data carrier TW R50 K2 9 TN M30 H1147 with data carrier 16 128 9 TN M30 H1147 with data carrier 20 128 9 TN M30 H1 147 with data carrier 22 64 9 TN M30 H1147 with data carrier TW R22 HT B128
11. 8 20 D101583 0207 BL ident Overtravel ranges Industri A Read write head TN Q80 H1147 overtravel distance with data carrier TW R30 B128 Figure 35 Overtravel x distance TN Q80 70 1147 with TW R30 B128 60 50 40 30 20 10 0 0 10 20 30 40 50 60 70 80 mm Read write head TN Q80 H1147 overtravel distance with data carrier TW R50 B128 Figure 36 Overtravel 120 distance TN Q80 1147 with TW 100 R50 B128 80 60 40 20 0 0 20 40 60 80 100 120 mm D101583 0207 BL ident 8 21 Overtravel ranges Read write head TN Q80 H1147 overtravel distance with data carrier TW R20 K2 Figure 37 Overtravel 60 distance TN Q80 H1147 with TW 50 R20 K2 40 20 10 0 Read write head TN Q80 H1147 overtravel distance with data carrier TW R30 K2 Figure 38 Overtravel 80 distance TN Q80 70 H1147 with TW R30 K2 60 50 40 30 20 10 0 0 10 20 30 40 50 60 70 80 mm 8 22 D101583 0207 BL ident Overtravel ranges Industri A Read write head TN Q80 H1147 overtravel distance with data carrier TW R50 K2 Figure 39 Overtravel 120 distance TN Q80 mm H1147 with TW 100 R50 K2 80 60 40 20 0 Read write head T
12. Installation guidelines Industri A 3 Installation guidelines 2 0 TII TM Reduction of metallic influences oooo ola Installation of several read write heads on metal frames or metal Supports enarrare No mounting of the data carrier directly on metal Conclusion influence on the transfer from metal D101583 0207 BL ident 3 1 Installation guidelines Overview Because of the inductive operating principle of the data carriers and read write heads every type of metal particularly iron and ferromagnetic materials should be avoided in proximity of these devices as they will influence the manner in which they function It is necessary to observe the following important points during engineering and installation Minimum distance between read write heads Minimum distance between two adjacent data carriers see chapter 2 page 2 6 Metal free areas with installation of read write heads and data carriers on metals Installation of several read write heads on metal frames or metal supports Reduction of metallic influences Problem A metal support is located above the transfer zone of the read write head This influences the entire field Specifically the transfer zone between read write head and data carrier is reduced Fig 1 Figure 1 Interfering metal supports plate non metal
13. dco ana 5 ep M EE 6 Read write time t t 6 esas GENG aa RE 7 Areas of application 7 The BL ident configurator 8 D101583 0207 BL ident 1 1 The TURCK BL ident System Schematic representation of the identification system BL ident The TURCK BL ident system consists of several levels Every level offers variation options An application adapted to the overall system is possible Figure 1 System overview PLC PC for commissioning Interface module for integration in the fieldbus systems Read write devices Mobile data carriers Support for BL ident projects Further support can be found in the following software for engineering installation and commissioning For simulation and optimisation of an application a BL ident configurator is available free of charge on the internet at www turck com see page 1 8 1 2 D101583 0207 BL ident TURCK BL ident System Industri A Networking with BL ident systems As it is possible to integrate BL ident systems in existing bus systems networking of several BL ident systems is possible The guidelines which relate to the maximum extension of the respective bus systems apply A PROFIBUS system can only extend for example up to a maximum of 31 stations with 1 master when a repeater is not used D101583 0207 BL ident 1 3 The TURCK BL ident Syste
14. 15 10 5 0 oO 10 15 mm 20 D101583 0207 BL ident 8 7 Overtravel ranges Read write head TB M18 H1147 overtravel distance with data carrier TW R20 K2 Figure 9 14 Overtravel distance TB M18 12 H1147 with TW R20 K2 10 8 E 6 4 2 0 2 6 8 mm 10 Read write head TN M18 H1147 overtravel distance with data carrier TW R30 K2 Figure 10 Overtravel distance TN M18 H1147 with TW R30 K2 mm D101583 0207 BL ident Overtravel ranges Industri A Read write head TN M18 H1147 overtravel distance with data carrier TW R50 K2 Figure 11 Overtravel 35 distance TN M18 30 H1147 with TW 25 R50 K2 E 20 E 15 10 5 0 10 20 30 40 50 Read write head TN M30 H1147 overtravel distance with data carrier TW R16 B128 Figure 12 Overtravel 40 distance TN M30 35 H1147 with TW R16 B128 30 25 20 115 10 5 0 0 5 10 15 20 25 30 35 40 mm D101583 0207 BL ident 8 9 Overtravel ranges Read write head TB M30 H1147 overtravel distance with data carrier TW R16 B128 Figure 13 Overtravel 25 distance TB M30 mm H1147 with TW 20 R16 B128 15 10 5 0 0 5 10 15 20 25 Read write head TN M3
15. 50 2 4 42 222 12 D101583 0207 BL ident 7 3 Operating data Notes for the operating data The operating data are sufficient for the fundamental specification of a system They provide a simplified analysis of the overtravel distances which can be found in chapter 8 If a more detailed examination of the performance of read write heads is necessary the corresponding overtravel distances can be consulted 1 Note Remember that the auxiliary factors e g the influence of metals are not considered for the sake of simplification Corresponding tests should be undertaken before commissioning 7 4 D101583 0207 BL ident Operating data Operating data for read write head TB M18 H1147 Industri A Table 1 Operating data TB M18 H1147 D101583 0207 Corresponding data carrier Read write distance Recommen Minimum Maximum ded mm mm mm TW R16 B128 6 13 TW R20 B128 6 13 TW R30 B128 7 15 TW R20 K2 5 12 TW R16 HT B128 3 TW R20 HT B128 3 TW R22 HT B64 2 3 TW R22 HT B128 2 3 BL ident 7 5 Operating data Operating data for read write head TN M18 H1147 Table 2 Corresponding Read write distance Operating data data carrier TN M18 H1147 Recommen Minimum Maximum ded mm mm mm TW R16 B128 12 23 TW R20 B128 10 22 TW R30 B128 13 25 TW R50 B128 20 41 TW R20 K2 12 2 20 TW R3
16. TW R50 B128 70 60 50 E40 30 20 10 0 0 20 40 60 80 100 mm Read write head TN CK40 H1147 overtravel distance with data carrier TW R20 K2 Figure 30 Overtravel 45 distance TN 40 40 1147 with 35 TW R20 K2 30 E 25 E20 15 10 5 0 0 10 20 30 40 8 18 0101583 0207 BL ident Overtravel ranges Industri A Read write head TN CK40 H1147 overtravel distance with data carrier TW R30 K2 Figure 31 Overtravel 60 distance TN mm CK40 H1 147 with 50 TW R30 K2 40 30 20 10 0 0 10 20 30 40 mm 50 Read write head TN CK40 H1147 overtravel distance with data carrier TW R50 K2 Figure 32 Overtravel 90 distance TN 80 CK40 H1147 with TW R50 K2 70 60 E 50 E 40 30 20 10 0 0 20 40 60 80 0101583 0207 BL ident 8 19 Overtravel ranges Read write head TN Q80 H1147 overtravel distance with data carrier TW R16 B128 Figure 33 Overtravel 60 distance TN Q80 mm H1147 with TW 50 R16 B128 40 30 20 10 0 Read write head TN Q80 H1147 overtravel distance with data carrier TW R20 B128 Figure 34 Overtravel 70 distance TN Q80 H1147 with TW 60 R20 B128 50 4 0 30 20 10 0 0 10 20 30 40 50 60 70 mm
17. possible TN S32XL H1 147 non Read write via BLident flush cable installation on metal possible 6 2 D101583 0207 BL ident Description of the read write heads Industri A Function principle The BLident read write heads transceivers are used for non contact data exchange with the corresponding data carriers TAGs They form the so called air interface transfer window whose size varies depending on the combination of data carrier and transceiver In this air interface the data carrier is supplied with energy and the exchange of data is also implemented The operating frequency is 13 56 MHz The achievable distances vary depending on the sizes from 15 200 mm The read write heads consist of electronics and an antenna Figure 1 Figure 1 Block diagram Read write head D101583 0207 Demodulator x H gt naka Tim a H gt Modulator Ru ENS Generator XG ij Read write head electronics The electronics ensure the communication between the data carrier the read write head and the BLident interface module BL ident 6 3 Description of the read write heads Read write head antenna The antenna consists of an air coil It is used to transfer data and energy between the data carrier and the read write head The antenna generates an electromagnetic field which is detected by the data carrier within the transfer zone A data a
18. saa aga sana ana naa ae 6 9 80 3 475 m eR La aa 6 10 UU ESPAGNE 6 11 7 Description of the read write heads with corresponding data carriers Notes for the operating 22 444 000 7 5 18 1147 7 6 TN M18 H1147 2 per saku 7 7 TB M3OC HINAT u ae 7 8 TN M30 H1147 7 9 TN CKA40 H1147 senen alah need arema eee 7 10 DU Ee nU ia aan 7 11 TN S32XL H1147 uunnensenssennennnnnennnennnnnnennnnnonnnnnnnnennnennnnnnnnonnnnn nennen 7 12 D101583 0207 BL ident 7 Contents 8 Overtravel distances of the read write heads with corresponding data carriers Notes for the overtravel 8 3 Overtravel distance read write head housing style M18 TN M18 H1147 with data carrier 16 128 8 4 TB M18 H1147 with data carrier 16 128 2 2 2 224 8 4 TN M18 H1147 with data carrier TW R20 B128 8 5 TB M18 H1147 with data carrier 20 128 8 5 TN M18 H1147 with data carrier 30 128 2 2 2 8 6 TB M18 H1147 with data carrier 30 128 2 21
19. 8 6 TN M18 H1147 with data carrier 50 128 2 2 2 2 1 8 7 TN M18 H1147 with data carrier 20 2 8 7 TB M18 H1147 with data carrier TW R20 K2 sess 8 8 TN M18 H1147 with data carrier 30 2 2 8 8 TN M18 H1147 with data carrier 50 2 8 9 Overtravel distance read write head housing style M30 TN M30 H1147 with data carrier 16 128 8 9 TB M30 H1147 with data carrier 16 128 8 10 TN M30 H1147 with data carrier 20 128 2 2 2 2 22 8 10 TB M30 H1147 with data carrier 20 128 22 2 8 11 TN M30 H1147 with data carrier 128 8 11 TB M30 H1147 with data carrier 0 128 2 2 2 2 22 8 12 TN M30 H1147 with data carrier 50 128 22 2 22 2 224 8 12 TB M30 H1147 with data carrier 50 128 22 8 13 TN M30 H1147 with data carrier TW R20 K2 8 13 TB M30 H1147 with data carrier TW R20 K2 o oooooooooooo 8 14 TN M30 H1147 with data carrier 0 2 2222222 8 14 TB M30 H1147 with data carrier 2 8 15 TN M30 H1147 with data carrier TW R5
20. SKN M30 Figure 12 Cover cap SKN M30 34 m 9 M30 x 1 5 Table 12 Type SKN M30 Cover cap SKN M30 Ident No Description Teflon cover cap for cylindrical read write heads M30 x 1 5 Material PTFE 9 14 0101583 0207 BL ident Accessories Industri A Common accessories for cylindrical read write heads of housing style M18 and M30 Mounting aid for BST mounting clips BST UH Figure 13 Mounting aid BST UH Table 13 Type BST UH Mounting aid BST UH Ident No 6947219 Description Mounting aid for BST mounting clipsfor cylindrical read write heads M18 x 1 and M30 x 1 5 Material Polyamide D101583 0207 BL ident 9 15 Accessories Mounting aid for BST mounting clips BST UV Figure 14 Mounting aid BST UV Table 14 Type BST UV Mounting aid BST UV Ident No 6947218 Description Mounting aid for BST mounting clipsfor cylindrical read write heads M18x 1 and M30 x 1 5 Material Polyamide 9 16 D101583 0207 BL ident Accessories Industri A Inscription labels for BST mounting clips BST BS Figure 15 Inscription labels BST BS TTX Table 15 Type BST BS Inscription labels BST BS Ident No 6947220 Description Inscription labels for BST mounting clipsfor cylindrical read write heads M18 x 1 and M30 x 1 5 Material Plastic D101583 0207 BL ident Accessories Accessories for rectangular read write heads of housing styl
21. configurator also generates the corresponding data sheets and documentation D101583 0207 BL ident 1 9 TURCK BL ident System 1 10 D101583 0207 BL ident ident System Planning Industri A 2 TURCK BL ident System Planning Selection criteria for data carriers read write head and interface module 2 Transfer zone and read write distance oooooW oo 3 Length of the transfer zone and width offset 4 Minimum distance of the data carriers to read write head influence of adjacent 4 Permissible direction of movement and alignment of the data carrier 4 Reading and writing in static operation Reading and writing in dynamic operation on the fly Dwell time of the data carrier 5 Calculation of the maximum quantity of user data in dynamic operation 5 Minimum distances between two adjacent data carriers 6 D101583 0207 BL ident 2 1 ident System Planning Selection criteria for data carriers read write head and interface module The application should be judged using t
22. data carrier TW R50 HT B128 10 TN CK40 H1147 with data carrier TW R20 HT K2 10 TN CKA40 H1 147 with data carrier TW R30 HT K2 10 TN CK40 H1147 with data carrier TW R50 HT K2 10 TN Q80 H1147 with data carrier 16 128 11 TN Q80 H1147 with data carrier 20 128 2 2 11 TN Q80 H1147 with data carrier 0 128 2 2 222 11 TN Q80 H1147 with data carrier 50 128 11 TN Q80 H1147 with data carrier 20 2 11 TN Q80 H1147 with data carrier 2 11 TN Q80 H1147 with data carrier 50 2 11 TN Q80 H1 147 with data carrier 16 128 11 TN Q80 H1147 with data carrier 20 128 11 D101583 0207 BL ident Operating data Industri A TN Q80 H1147 with data carrier 22 64 11 TN Q80 H1147 with data carrier TW R22 HT B128 11 TN Q80 H1147 with data carrier 0 128 11 TN Q80 H1147 with data carrier 50 128
23. housing SG40 2 Figure 20 Protective housing SG40 2 Table 20 Type SG40 2 Protective housing SG40 2 Ident No 69497 Description Temperature resistant protective housing for rectangular read write heads of housing style CK40 Material Ultem 9 22 D101583 0207 BL ident Accessories Industri A Adjustable rail JS 025 037 Figure 21 Adjustable rail JS 025 037 an Type JS 025 037 Adjustable rail JS 025 037 Ident No 69429 Description Adjustable rail for rectangular read write heads of housing style CK40 Material Stainless steel rust free D101583 0207 BL ident 9 23 Accessories Cover MF CK40 1S Figure 22 Cover cap T CK40 T FC er Type T CK40 T FC Cover cap T CK40 T FC Ident No 6900146 Description Teflon cover cap for rectangular read write heads of housing style CK40 Material PTFE 9 24 D101583 0207 BL ident Accessories Industri A Cover cap T CK40 D FC Figure 23 Cover cap T CK40 D FC 2 T CK40 D FC Cover cap T CK40 D FC Ident No 6900146 Description Teflon cover cap for rectangular read write heads of housing style CK40 high temperature resistant Material Delrin D101583 0207 BL ident 9 25 Accessories Handheld with accessories Handheld computer PD ident Figure 24 Handheld computer PD ident Table 24 Type PD ident Handheld computer PD ident Id
24. only in applications prescribed in this manual or in the respective technical descriptions and only in connection with components and devices from third party manufacturers that have been certified Appropriate transport storage deployment and mounting as well as careful operating and thorough maintenance guarantee trouble free and safe operation of these devices Notes concerning planning Installation of this product A Warning It is imperative that all respective safety measures and accident protection guidelines be adhered to D101583 0207 BL ident 0 5 About this manual 0 6 D101583 0207 BL ident The TURCK BL ident System Industri A 1 The TURCK BL ident system Schematic representation of the identification system BL ident 2 Support for BL ident projects 2 Networking with BL ident oo 3 Identification systems with radio frequency technology RFID 4 Characteristics and fields of application of the BL ident 5 Degree of protection Mia asu masa 5 snudnrse X 5 Transmission frequenoy
25. 0 85 C Degree of protection IEC IP68 60529 EN 60529 Housing material PA6 D101583 0207 BL ident Description of the read write heads Industri A 6 Description of the read write heads TYPO OVONVIQW 2 FUNCTION principle D 3 Read write head electronics oo oo 3 Read write head antenna cooo Woman 4 Technical data of the read write heads TB MIE HANIA H M 5 asra 6 TEMI O A TAA berbenah aa anta 7 TN MSO Hld7 2 8 4 E 9 8 a 10 2 man ra c 11 Connection of the read write 12 D101583 0207 BL ident 6 1 Description of the read write heads Type overview Table 1 Type Installation Output Connection Type overview conditions function read write heads TB M18 H1147 flush Read write via BLident cable TN M18 H1147 non Read write via BLident flush cable TB M30 H1147 flush Read write via BLident cable TN M30 H1147 non Read write via BLident flush cable TN CK40 H1147 non Read write via BLident flush cable flush instalation possible TN Q80 H1147 non Read write via BLident flush cable installation on metal
26. 0 K2 8 15 TB M30 H1147 with data carrier 50 2 8 16 Overtravel distance read write head housing style 040 8 D101583 0207 BL ident Contents Industri A TN CK40 H1147 with data carrier 16 128 8 16 TN CK40 H1147 with data carrier 20 128 8 17 40 1147 with data carrier 0 128 2 2 8 17 40 1147 with data carrier 50 128 2 22 2 2 2 8 18 40 1147 with data carrier 20 2 8 18 TN CK40 H1147 with data carrier TW R30 K2 iooooocooooo 8 19 40 1147 with data carrier TW R50 K2 iooocooooo 8 19 Overtravel distance read write head housing style 080 TN Q80 H1 147 with data carrier 16 128 2 8 20 TN Q80 H1 147 with data carrier 20 128 22 8 20 TN Q80 H1147 with data carrier 30 128 22 2 2 2 22 2 8 21 TN Q80 H1147 with data carrier 50 128 2 8 21 TN Q80 H1147 with data carrier TW R20 K2 sss 8 22 TN Q80 H1147 with data carrier TW R30 K2 sss 8 22 TN Q80 H1147 with data carrier 50 2 8 23 Overtravel distance read write head housi
27. 0 H1147 overtravel distance with data carrier TW R20 B128 Figure 14 Overtravel 45 distance TN M30 H1147 with TW 40 R20 B128 35 30 25 E E 20 15 10 5 0 0 10 20 30 40 8 10 0101583 0207 BL ident Overtravel ranges Industri A Read write head TB M30 H1147 overtravel distance with data carrier TW R20 B128 Figure 15 Overtravel 45 distance TB M30 H1147 with TW 40 R20 B128 35 30 25 E 20 15 10 5 0 0 10 20 30 40 Read write head TN M30 H1147 overtravel distance with data carrier TW R30 B128 Figure 16 Overtravel 50 distance TN M30 45 H1147 with TW R30 B128 40 35 30 25 20 19 10 5 0 0 10 20 30 40 mm 50 D101583 0207 BL ident 8 11 Overtravel ranges Read write head TB M30 H1147 overtravel distance with data carrier TW R30 B128 Figure 17 Overtravel 35 distance TB M30 30 H1147 with TW R30 B128 25 E 20 E 15 10 5 0 mm Read write head TN M30 H1147 overtravel distance with data carrier TW R50 B128 Figure 18 Overtravel 80 distance TN M30 70 H1147 with TW R50 B128 60 50 E E 40 30 20 10 0 0 10 20 30 40 50 60 70 80 mm 8 12 D101583 0207 BL ident Overtravel ranges Indu
28. 0 K2 16 31 TW R50 K2 12 30 TW R16 HT B128 2 13 TW R20 HT B128 12 TW R22 HT B64 2 3 TW R22 HT B128 2 3 TW R30 HT B128 15 TW R50 HT B128 10 31 TW R20 HT K2 2 10 TW R30 HT K2 6 21 TW R50 HT K2 2 20 7 6 0101583 0207 BL ident Operating data Operating data for read write head TB M30 H1147 Industri A Table 3 Corresponding Read write distance Operating data data carrier TB M30 H1147 Recommen Minimum Maximum ded mm mm mm TW R16 B128 12 23 TW R20 B128 15 27 TW R30 B128 13 30 TW R50 B128 20 43 TW R20 K2 15 2 22 TW R30 K2 15 27 TW R50 K2 15 33 TW R16 HT B128 2 13 TW R20 HT B128 5 17 TW R22 HT B64 5 17 TW R22 HT B128 5 17 TW R30 HT B128 3 20 TW R50 HT B128 10 33 TW R20 HT K2 5 12 TW R30 HT K2 5 17 TW R50 HT K2 5 23 0101583 0207 BL ident 7 7 Operating data Operating data for read write head TN M30 H1147 Table 4 Corresponding Read write distance Operating data data carrier TN M30 H1147 Recommen Minimum Maximum ded mm mm mm TW R16 B128 20 38 TW R20 B128 22 40 TW R30 B128 22 43 TW R50 B128 40 72 TW R20 K2 17 31 TW R30 K2 23 42 TW R50 K2 30 58 TW R16 HT B128 10 28 TW R20 HT B128 12 30 TW R22 HT B64 12 30 TW R22 HT B128 12 30 TW R30 HT B128 12 33 TW R50 HT B128 30 62 TW R20 HT K2 7 21 TW R30 HT K2 13
29. 0207 BL ident The TURCK BL ident System Characteristics and fields of application of the BL ident system D101583 0207 Industri A In order to comply with the demands presented by different fields of application TURCK offers the BL ident system with a whole range of combination possibilities of data carriers and read write heads as well as interfaces for integration into fieldbus systems e g PROFIBUS DP Software modules enable simple integration and commissioning The characteristics of the TURCK BL ident system are listed in the following Degree of protection All data carriers as well as the suitable write read heads feature high mechanical degree of protection e g IP67 and can thus be subject to the most harsh industrial conditions The integration into a fieldbus system is implemented with suitable TURCK interface modules The interface modules are available in degrees of protection IP20 and IP67 TURCK connection cables featuring an adequate degree of protection round off the identification system Service life The service life results from the possible number or read write operations on the data memory FRAM memory features an unlimited number of read operations and 1019 write operations EEPROM memory features an unlimited number of read operations and 10 write operations The data carrier does not require batteries Transmission frequency The TURCK BL ident system operates with 13 56 MHz tran
30. 1147 with data carrier 16 128 20 TN Q80 H1147 with data carrier 20 128 20 TN Q80 H1147 with data carrier 30 128 21 TN Q80 H1147 with data carrier 50 128 21 TN Q80 H1147 with data carrier 20 2 4 22 22 TN Q80 H1147 with data carrier 30 2 2 4 22 22 TN Q80 H1147 with data carrier TW R50 K2 23 Overtravel distance read write head housing style 532 TN S32XL H1147 with data carrier 16 128 23 TN S32XL H1147 with data carrier 0 128 24 TN S32XL H1147 with data carrier 50 128 24 TN S32XL H1147 with data carrier 2 25 TN S32XL H1147 with data carrier TW R50 K2 25 8 2 D101583 0207 BL ident Overtravel ranges Industri A Notes for the overtravel distances The following characteristic curves indicate the overtravel distances of the different read write heads with the data carriers used The characteristic curves are not just dependent on the used read write head and the data carrier but also on the memory type of the data carrier EEPROM or FRAM see Overview table 1
31. 32 TW R50 HT K2 20 48 7 8 0101583 0207 BL ident Operating data Operating data for read write head TN CK40 H1147 Industri A Table 5 Corresponding Read write distance Operating data data carrier TN CK40 H1147 Recommen Minimum Maximum ded mm mm mm TW R16 B128 28 50 TW R20 B128 30 50 TW R30 B128 30 53 TW R50 B128 45 85 TW R20 K2 22 40 TW R30 K2 30 55 TW R50 K2 38 81 TW R16 HT B128 18 40 TW R20 HT B128 20 40 TW R22 HT B64 20 40 TW R22 HT B128 20 40 TW R30 HT B128 20 43 TW R50 HT B128 35 75 TW R20 HT K2 12 30 TW R30 HT K2 20 45 TW R50 HT K2 28 71 0101583 0207 BL ident 7 9 Operating data Operating data for read write head TN Q80 H1147 Table 6 Corresponding Read write distance Operating data data carrier TN Q80 H1147 Recommen Minimum Maximum ded mm mm mm TW R16 B128 20 52 TW R20 B128 35 65 TW R30 B128 35 72 TW R50 B128 65 118 TW R20 K2 25 52 TW R30 K2 35 67 TW R50 K2 50 100 TW R16 HT B128 10 42 TW R20 HT B128 25 55 TW R22 HT B64 25 55 TW R22 HT B128 25 55 TW R30 HT B128 25 62 TW R50 HT B128 55 108 TW R20 HT K2 15 42 TW R30 HT K2 25 57 TW R50 HT K2 40 90 7 10 0101583 0207 BL ident Operating data Industri A Operating data for read write head TN S32XL H1147
32. 583 0207 BL ident 8 25 Overtravel ranges 8 26 D101583 0207 BL ident Accessories Industri A 9 Accessories General description of the 2 Accessories for 30 mm and 50 mm data carriers SPACE M oren nona rename bab ma mna una Mamak kotak as nun makam bean 3 Spacer DS RI 0 ena ee an asam han an kakaknya 4 Accessories for cylindrical read write heads of housing style M18 Mountingi clip BS 18 ee ee 5 Mounting clip BSN18 ooooooo Woman 6 Mounting clip with limit stop BST 18B oooooo oo 7 Mounting clip without limit stop BST 18N oooo oo 8 Quick mounting mounts 18 7 9 sasare gak an aga asanes ap NGA klan a ENENG saa 10 Accessories for cylindrical read write heads of housing style M30 Mounting clip with limit stop 2 2 11 Mounting clip without limit stop 30 2 22 12 Quick mounting mounts 30 13 Cover cap SKN MQDO atia cite een 14 Common accessories for cylindrical read write heads of housing style M18 and M30 Mounting aid for BST mountin
33. 9 TMV IAS OF IA CS 21 IW R16 B128 TTE 23 20 28 Ah enam retta cito eem eee etri e dert eee reis ier 25 30 128 2 5 anan an 27 TNERSOSBI28 ec 29 IR LIU c 31 DR EIC ER 33 IB EI c 35 D101583 0207 BL ident 5 1 Description of the data carrier Type overview Table 1 Data carrier type overview Type Memory Memory Highly size type temperatur resistant TW R16 HT B128 128 Bytes EEPROM TW R20 HT B128 128 Bytes EEPROM TW R22 HT B64 64 Bytes EEPROM v TW R22 HT B128 128 Bytes EEPROM TW R30 HT B128 128 Bytes EEPROM TW R50 HT B128 128 Bytes EEPROM TW R20 HT K2 2 KBytes FRAM v TW R30 HT K2 2 KBytes FRAM v TW R50 HT K2 2 KBytes FRAM v TW R16 B128 128 Bytes EEPROM TW R20 B128 128 Bytes EEPROM TW R30 B128 128 Bytes EEPROM TW R50 B128 128 Bytes EEPROM TW R20 K2 2 KBytes FRAM TW R30 K2 2 KBytes FRAM TW R50 K2 2 KBytes FRAM D101583 0207 BL ident Description of the data carrier Industri A Function principle The BLident data carriers TAGs can be written and read on a non contact basis using the corresponding read write heads The operating frequency is 13 56 MHz The data carriers are passive i e without batteries If the data carriers enter the transfer range of a read write head the energy is inductively coupled and the dat
34. N S32XL H1147 overtravel distance with data carrier TW R16 B128 Figure 40 Overtravel 80 distance TN 70 S32XL H1147 60 with TW R16 50 B128 E E 40 30 20 10 0 0 20 40 60 80 100 0101583 0207 BL ident 8 23 Overtravel ranges Read write head TN S32XL H1147 overtravel distance with data carrier TW R30 B128 Figure 41 Overtravel 90 distance TN 807 32XL H1147 with 70 TW R30 B128 60 50 E 40 30 20 10 0 N o Q oO 80 100 mm Read write head TN S32XL H1147 overtravel distance with data carrier TW R50 B128 Figure 42 Overtravel 180 distance TN 160 S32XL H1147 with TW R50 140 B128 120 100 80 60 40 20 0 0 50 100 150 mm 200 D101583 0207 BL ident Overtravel ranges Industri A Read write head TN S32XL H1147 overtravel distance with data carrier TW R30 K2 Figure 43 Overtravel 90 distance TN 80 S32XL H1147 70 with TW R30 60 K2 50 E 40 30 20 10 0 0 20 40 60 80 100 Read write head TN S32XL H1147 overtravel distance with data carrier TW R50 K2 Figure 44 Overtravel 140 distance TN mm S32XL H1147 120 with TW R50 K2 100 80 60 40 20 0 0 20 40 60 80 100 120 140 mm D101
35. No 6900506 Memory data Operating frequency 13 56 MHz Memory size 2 KBytes Number of read operations unlimited Number of write operations 1019 Read time typical 0 5 5 ms Byte Write time typical 0 5 5 ms Byte Memory type FRAM Installation guidelines Minimum distances when 10 mm mounting in metal around the data carrier General data Colour black Ambient temperature 20 85 C D101583 0207 BL ident 5 33 Description of the data carrier Table 16 TW R30 K2 Type TW R30 K2 Ident No 6900506 Storage temperature 40 85 C Degree of protection IEC IP68 60529 EN 60529 Housing material PA6 D101583 0207 BL ident Description of the data carrier Industri A Technical data TW R50 K2 Figure 17 TW R50 K2 05 2 9 50 l2 Table 17 Type TW R50 K2 TW R50 K2 Ident No 6900507 Memory data Operating freguency 13 56 MHz Memory size 2 KBytes Number of read operations unlimited Number of write operations 1019 Read time typical 0 5 5 ms Byte Write time typical 0 5 5 ms Byte Memory type FRAM Installation guidelines Minimum distances when 10 mm mounting in metal around the data carrier General data Colour black Ambient temperature 20 85 C D101583 0207 BL ident 5 35 Description of the data carrier Table 17 TW R50 K2 Type TW R50 K2 Ident No 6900507 Storage temperature 4
36. The characteristic curves of the high temperature data carriers are not listed separately They deviate from those listed on the following pages only in the fact that the curves must simply be offset downwards by 10 mm Table 1 Type High Memory Memory Data carrier temperature size type memory type resistant TW R16 HT B128 v 128 Bytes EEPROM TW R20 HT B128 v 128 Bytes EEPROM TW R22 HT B64 v 64 Bytes EEPROM TW R30 HT B128 128 Bytes EEPROM TW R50 HT B128 v 128 Bytes EEPROM TW R20 HT K2 v 2 KBytes FRAM TW R30 HT K2 v 2 KBytes FRAM TW R50 HT K2 v 2 KBytes FRAM TW R16 B128 128 Bytes EEPROM TW R20 B128 128 Bytes EEPROM TW R30 B128 128 Bytes EEPROM TW R50 B128 128 Bytes EEPROM TW R20 K2 2 KBytes FRAM TW R30 K2 2 KBytes FRAM TW R50 K2 2 KBytes FRAM D101583 0207 BL ident 8 3 Overtravel ranges Read write head TN M18 H1147 overtravel distance with data carrier TW R16 B128 Figure 1 Overtravel 30 distance TN M18 mm H1147 with TW 25 R16 B128 20 15 10 5 0 15 20 25 Read write head 18 1147 overtravel distance with data carrier TW R16 B128 Figure 2 Overtravel 18 distance TB M18 16 H1147 with TW 14 R16 B128 12 10 8 6 4 2 0 10 15 0101583 0207 BL ident Overtravel ranges Industri A Read write head TN M18 H1147
37. W R20 HT K2 Table 8 Type TW R20 HT K2 TW R20 HT K2 dent No 1542327 Memory data Operating frequency 13 56 MHz Memory size 2 KBytes Number of read operations unlimited Number of write operations 1019 Read time typical 0 5 5 ms Byte Write time typical 0 5 5 ms ByteByte Memory type FRAM Installation guidelines Minimum distances when mounting in metal around the data carrier General data Colour black Ambient temperature 40 210 C time dependent D101583 0207 BL ident 5 17 Description of the data carrier Table 8 TW R20 HT K2 Type TW R20 HT K2 Ident No 1542327 Storage temperature 20 85 C Degree of protection IEC IP68 60529 EN 60529 Housing material PA66 D101583 0207 BL ident Description of the data carrier Industri A Technical data TW R30 HT K2 Figure 9 TW R30 HT K2 Table 9 Type TW R30 HT K2 TW R30 HT K2 Ident No 1542328 Memory data Operating frequency 13 56 MHz Memory size 2 KBytes Number of read operations unlimited Number of write operations 1019 Read time typical 0 5 5 ms Byte Write time typical 0 5 5 ms Byte Memory type FRAM Installation guidelines Minimum distances when mounting in metal around the data carrier General data Colour black Ambient temperature 40 210 C time dependent D101583 0207 BL ident 5 19 Description of th
38. a Colour black Ambient temperature 40 210 C time dependent BL ident Description of the data carrier Table 6 TW R30 HT B128 dent No Type TW R30 HT B128 1542325 Storage temperature 25 120 C Degree of protection IEC IP68 60529 EN 60529 Housing material PA66 D101583 0207 BL ident Description of the data carrier Technical data TW R50 HT B128 Industri A Figure 7 TW R50 HT B128 Table 7 TW R50 HT B128 D101583 0207 Type TW R50 HT B128 Ident No 1542326 Memory data Operating frequency 13 56 MHz Memory size 128 Bytes Number of read operations unlimited Number of write operations 105 Read time typical 0 5 5 ms Byte Write time typical 3 6 ms Byte Memory type EEPROM Installation guidelines Minimum distances when mounting in metal around the data carrier General data Colour black Ambient temperature 40 210 C time dependent BL ident Description of the data carrier Table 7 TW R50 HT B128 dent No Type TW R50 HT B128 1542326 Storage temperature 25 4120 C Degree of protection IEC IP67 60529 EN 60529 Housing material PA66 D101583 0207 BL ident Description of the data carrier Industri A Technical data TW R20 HT K2 Figure 8 T
39. a exchange is possible up to the range of the threshold distance H The data carrier must be positioned exactly above the read write head Reading and writing in dynamic operation on the fly In dynamic operation the data carriers move past the read write head A data exchange is only possible within the transfer zone 2 4 D101583 0207 BL ident ident System Planning Industri A Dwell time of the data carrier Ty The dwell time Tg is the time in which the data carrier is present in the transfer zone of the read write head as it passes by The read write head exchanges data with the data carrier during this time The dwell time Tq is calculated as follows Tg Lsr VTag where Lsr length of the transfer zone Vrag Speed of the data carrier in dynamic operation In static mode the dwell time can be as long as necessary The dwell time must be long enough to ensure that communication with the data carrier has been completed In dynamic operation the dwell time is defined by the system environment The dwell time must be matched to the data quantity to be transferred Conversely this means that the shorter the dwell time the lower the quantity of data to be transferred E Note A t www turck com various examples relating to this topic can be examined with the BL ident configurator Calculation of the maximum quantity of user data in dynamic operation The calculation of the maximum user data quantity is depen
40. a irrespective of the location Manual D101584 This manual contains the hardware description for the so called Handheld programming device which can be used to read data irrespective of the location BL ident 0 3 About this manual Description of symbols used Warning T his sign can be found next to all notes that indicate a source of hazards This can refer to danger to personnel or damage to the system hardware and software This sign means for the operator work with extreme caution Attention N T his sign can be found next to all notes that indicate a source of potential hazards This can refer to possible danger to personnel or damage to the systems hardware and software and installations Note i T his sign can be found next to all general notes that supply important information about one or more operating stages These specific notes are intended to make operation easier and avoid unnecessary work due to incorrect operation 0 4 D101583 0207 BL ident About this manual Industri A Attention Please read this section carefully Safety aspects cannot be left to chance when dealing with electrical equipment This manual contains all the necessary information concerning the intended usage of TURCK products It has been specially developed for qualified personnel who have the required level of expertise Prescribed use Warning The devices described in this manual must be used
41. a transfer is initiated The achievable distances vary depending on the sizes from 15 200 mm All housing styles with the exception of the TW R16 B128 EEPROM only are available both as EEPROM and FRAM memory variants The BLident data carrier consists of a memory module electronics and an antenna see Fig 1 Figure 1 Block diagram Data carrier D101583 0207 memory controllogics dL Memory module The information on the data carrier can be read and new data can also be added read write The memory size is 64 Bytes 128 Bytes or 2 KBytes The memory consists alternatively of the following components EEPROM unlimited read but limited write cycles are possible 10 No battery required FRAM ferroelectric memory unlimited read and almost unlimited write cycles are possible 1019 No battery required BL ident 5 8 Description of the data carrier The data retention time of the memory is 1 year at 85 C 10 years at 55 C 120 years at 25 C Electrical fields do not have an influence as they are normally have a frequency which is much too low to erase the memory Data carrier electronics The electronics ensure the communication on the data carrier side with the read write head Data carrier antenna The antenna is designed as an air coil and is used to transfer data and energy between the data carrier an
42. ad write heads of housing style 18 M30 Mounting aid for BST mounting clips 9 15 Mounting aid for BST mounting clips 9 16 Inscription labels for BST mounting clips BST BS 9 17 Accessories for read write heads of housing style 40 Protective mounting MF CK40 1S oooooWoo Woman 9 18 Protective mounting 40 25 9 19 Protective mounting MF CK40 3S oooooo oom 9 20 Protective housing SG4O eese 9 21 Protective housing SG40 2 temperature 9 22 Adjustable rail JS 025 037 essent 9 23 40 9 24 Cover capT CK40 D FC temperature 9 25 Handheld with accessories PDident amen Rees essen adda 9 26 PD ident WLAN nase anna nat 9 27 PE tate f tt ed ftd 9 27 PDrident DS 43an 9 27 PD ident RB 4 2 22 2202 9 28 PD ident BG N er ee ae 9 28 PD ident RS 9 28 PD ident CB n n anne 9 28 D101583 0207 BL ident About this manual Industri A About this manual Documentation 2 Description of symbols used
43. and can be between 0 and 200 mm With the BL ident configurator the application variables speed range and data quantity can be varied and the optimum combination can be selected for the respective application The configurator is available online at http www turck com also see page 1 8 1 6 D101583 0207 BL ident TURCK BL ident System Industri A Compatibility All technical data relates to the BL ident system i e to the combinations of BL ident data carriers read write heads and interface modules Completely different values may apply for data carriers from other manufacturers Therefore they may only be used after prior approval by TURCK Areas of application examples The characteristics as stated beforehand allow the application of a TURCK BL ident system in the following fields Automotive Transport and handling Machine mechanical engineering Food and beverages Chemicals Pharmaceuticals and petrochemicals Possible areas of application are Assembly lines Conveyors Industrial manufacturing Warehousing Logistics Distribution Component picking Transport logistics D101583 0207 BL ident 1 7 The TURCK BL ident System The BL ident configurator The use of sensors and actuators and even fieldbusses is state of the art in many industrial fields When RFID systems are used on the other hand there are always questions relating to the air interface e g How fast and at whic
44. antly reduce the parasitic coupling of the field and the support Fig 5 Figure 5 Addition of an intermediary non metallic element non metallic spacer Remedy 4 It is also possible to contact the read write heads via the function block PLC and to use it to switch them on and off The influence through another read write head can be avoided using the selective mode where the channel in whose transfer window the data is located is active see manual BL ident Proxy Ident Block PIB D101578 Using this method the adjacent read write heads do not emit a field and there is no mutual interference D101583 0207 BL ident 3 5 Installation guidelines No mounting of the data carrier directly on metal The data carriers with the exception of high temperature data carriers may not be mounted directly on metal Non metallic spacers see chapter 9 Accessories enable mounting which does not lead to an interruption of the functions Fig 6 Figure 6 Installation with non metallic spacer data carrier spacers a The data carriers may not be mounted so that the necessary minimum distance to metal and to the data carriers around them is less than the minimum distance The minimum distance is dependent on the housing design of the read write head a 10 mm around the data carrier can be assumed Fig 7 The high temperature data carrier see page 5 2 table 1 can be constructed so that it can be mounted directly on m
45. ata carriers Notes for the operating data ooooW Wo Wo nnne Operating data TB M18 H1147 with data carrier 16 128 18 1147 with data carrier 20 128 20 2 18 1147 with data carrier 0 128 2222 18 1147 with data carrier TW R20 K2 oooooo Woo TB M18 H1147 with data carrier 16 128 TB M18 H1147 with data carrier TW R20 HT B128 TB M18 H1147 with data carrier TW R22 HT B64 TB M18 H1147 with data carrier 22 128 TN M18 H1147 with data carrier 16 128 TN M18 H1147 with data carrier TW R20 B128 TN M18 H1147 with data carrier TW R30 B128 TN M18 H1147 with data carrier TW R50 B128 TN M18 H1147 with data carrier TW R20 K2 TN M18 H1147 with data carrier TW R30 K2 TN M18 H1147 with data carrier TW R50 K2 TN M18 H1147 with data carrier 1 128 18 1147 with data carrier TW R20 HT B128
46. clusively by qualified personnel in accordance with IEC 60 364 i e HD 384 or DIN VDE 0100 and national accident prevention regulations D101583 0207 BL ident Contents Industri A Contents About this manual Documentation Description of symbols used Prescribed use Notes concerning planning Installation of this product 1 The TURCK BL ident System Overview Schematic representation of the identification system BL ident 1 2 Support for BL ident projects 2 1 2 Networking with BL ident systems oo 1 3 Identification systems with radio frequency technology RFID 1 4 Characteristics and fields of application of the BL identsystem 1 5 Degree of protection eredi caee Transmission frequency SpI M Read Write time 5 cente teer toa deals tuna Fo ax REN Nan Compatibility a25 Areas of application examples 1 7 The BL ident configurator 1 8 2 TURCK BL ident System Planning Selection criteria for data carriers and read write 2 2 Transfer zone and read write distance 2 3 Length of the transfer zone and width 4222222 41 2 4 Minimum distance of the data carriers to read write head influence of adjacent 2 4 Permissible direction of move
47. d the read write head D101583 0207 BL ident Description of the data carrier Technical data TW R16 HT B128 Industri A Figure 2 TW R16 HT B128 Table 2 TW R16 HT B128 D101583 0207 Type TW R16 HT B128 Ident No 1542322 Memory data Operating frequency 13 56 MHz Memory size 128 Bytes Number of read operations unlimited Number of write operations 105 Read time typical 0 5 5 ms Byte Write time typical 3 6 ms Byte Memory type EEPROM Installation guidelines Minimum distances when 10 mm mounting in metal around the data carrier General data Colour black Ambient temperature 40 210 C time dependent BL ident Description of the data carrier Table 2 TW R16 HT B128 dent No Type TW R16 HT B128 1542322 Storage temperature 25 120 C Degree of protection IEC IP68 60529 EN 60529 Housing material PA66 D101583 0207 BL ident Description of the data carrier Technical data TW R20 HT B128 Industri A Figure 3 TW R20 HT B128 Table 3 TW R20 HT B128 D101583 0207 Type TW R20 HT B128 Ident No 1542324 Memory data Operating frequency 13 56 MHz Memory size 128 Bytes Number of read operations unlimited Number of write operations 105 Read time typical 0 5 5 ms Byte Write time typical 3 6
48. dent on the read write head used and the corresponding data carrier Example Read write head TB M18 H1147 Data carrier TW R30 K2 Pass speed 0 5 m s D101583 0207 BL ident 2 5 ident System Planning Theread write head contacts the data carrier when it is entering the transfer zone This takes about 2 7 ms With the second contact to the data carrier the read write head recognizes the data carrier A signal is sent to the interface module Duration about 12 ms The interface module sends a read write command e g read 4 bytes incl version and feedback of the data on the interface module Duration about 7 ms This results in total to about 22 ms Until 4 bytes of data have been processed by the interface module takes about 5 ms byte This means when the data carrier passes the read write head a max of 8 bytes can be read or written 1 Note With the BL ident configurator at www turck com different operating states in dynamic operation can be simulated and represented Minimum distances between two adjacent data carriers The minimum distance between two data carriers is dependent on the size ofthe data carrier and the read write head In dynamic operation on the fly the minimum distance is still dependent on the data quantity and the bus cycle time i Note C orresponding tests for determination of the minimum distance should be undertaken before commissioning 2 6 D101583 0207 BL ident
49. e CK40 Protective mounting MF CK40 1S Figure 16 Protective mounting MF CK40 1S Table 16 Type MF CK40 1S Protective mounting MF CK40 1S Ident No 6900481 Description Protective mounting for rectangular read write heads of housing style CK40 single sided Material Stainless steel rust free 9 18 D101583 0207 BL ident Accessories Industri A Protective mounting MF CK40 2S Figure 17 Protective mounting MF CK40 2S Table 17 Type MF CK40 2S Protective mounting MF CK40 2S Ident No 6900482 Description Protective mounting for rectangular read write heads of housing style CK40 angled Material Stainless steel rust free D101583 0207 BL ident 9 19 Accessories Protective mounting MF CK40 3S Figure 18 Protective mounting MF CK40 3S Kuss Type MF CK40 3S Protective mounting MF CK40 3S Ident No 6900483 Description Protective mounting for rectangular read write heads of housing style CK40 U shaped Material Stainless steel rust free D101583 0207 BL ident Accessories Industri A Protective housing SG40 Figure 19 Protective housing SG40 Table 19 Type SG40 Protective housing SG40 Ident No 69500 Description Protective housing for rectangular read write heads of housing style CK40 Material Polyamide D101583 0207 BL ident 9 21 Accessories Protective
50. e data carrier Table 9 TW R30 HT K2 Type TW R30 HT K2 Ident No 1542328 Storage temperature 20 85 C Degree of protection IEC IP68 60529 EN 60529 Housing material PA66 D101583 0207 BL ident Description of the data carrier Industri A Technical data TW R50 HT K2 Figure 10 TW R50 HT K2 Table 10 Type TW R50 HT K2 TW R50 HT K2 dent No 1542329 Memory data Operating frequency 13 56 MHz Memory size 2 KBytes Number of read operations unlimited Number of write operations 1019 Read time typical 0 5 5 ms Byte Write time typical 0 5 5 ms Byte Memory type FRAM Installation guidelines Minimum distances when mounting in metal around the data carrier General data Colour black Ambient temperature 40 210 C time dependent D101583 0207 BL ident 5 21 Description of the data carrier Table 10 TW R50 HT K2 Type TW R50 HT K2 Ident No 1542329 Storage temperature 20 85 C Degree of protection IEC IP68 60529 EN 60529 Housing material PA66 D101583 0207 BL ident Description of the data carrier Industri A Technical data TW R16 B128 Figure 11 TW R16 B128 16 as 9 5 Table 11 TW R16 B128 TW R16 B128 Ident No 6900501 Memory data Operating frequency 13 56 MHz Memory size 128 Bytes Number of read operation
51. el distance with data carrier TW R50 K2 Figure 24 Overtravel 70 distance TN M30 mm H1147 with TW 60 R50 K2 50 40 30 20 10 0 10 20 30 40 50 60 70 mm D101583 0207 BL ident 8 15 Overtravel ranges Read write head TB M30 H1147 overtravel distance with data carrier TW R50 K2 Figure 25 Overtravel 35 distance TB M30 mm H1147 with TW 30 R50 K2 25 20 15 10 5 0 0 10 20 30 mm 40 Read write head TN CK40 H1147 overtravel distance with data carrier TW R16 B128 Figure 26 Overtravel 60 distance TN mm CK40 H1147 with 50 TW R16 B128 40 30 20 10 0 0 10 20 30 40 mm 50 8 16 0101583 0207 BL ident Overtravel ranges Industri A Read write head TN CK40 H1147 overtravel distance with data carrier TW R20 B128 Figure 27 Overtravel 60 distance TN CK40 H1147 with 50 TW R20 B128 40 30 20 10 0 mm Read write head TN CK40 H1147 overtravel distance with data carrier TW R30 B128 Figure 28 Overtravel 60 distance TN mm CK40 H1 147 with 50 TW R30 B128 40 30 20 10 0 mm D101583 0207 BL ident 8 17 Overtravel ranges Read write head TN CK40 H1147 overtravel distance with data carrier TW R50 B128 Figure 29 Overtravel 90 distance TN 80 CK40 H1147 with
52. ent No 1542331 Description Location independent reading and writing of all TURCK data carriers Windows CE Lit touch screen Protection degree IP54 opt IP65 Programming device handheld Display in decimal binary hexadecimal and ASCII code Definition of password protected areas possible Automatic reading of data carriers incl docking station 9 26 D101583 0207 BL ident Accessories Industri A Handheld computer PS ident WLAN with WLAN functionality Table 25 Type PD ident WLAN Handheld computer PD ident WLAN Ident No 1542340 Description Same features as PD ident additionally with WLAN and Bluetooth functionality Handheld accessories Tablo 26 PD ident PF Handheld computer PD ident PF Ident No 1542336 Description Display protective file 25 pieces PD ident DS Handheld computer PD ident DS Ident No 1542333 Description Docking station incl power supply RS232 cable D101583 0207 BL ident 9 27 Accessories Jabi 28 PD ident RB Handheld computer PD ident RB Ident No 1542337 Description Spare rechargeable battery ee Type PD ident BC Handheld computer PD ident BC Ident No 1542335 Description Rechargeable battery charger Table 30 Type PD ident RS Handheld computer PD ident RS Ident No 1542338 Description Spare pins 25 pieces TADIS 31 Type PD ide
53. erial PA6 D101583 0207 BL ident Description of the data carrier Industri A Technical data TW R30 B128 Figure 13 TW R30 B128 05 2 i 25 Table 13 TW R30 B128 TW R30 B128 Ident No 6900503 Memory data Operating frequency 13 56 MHz Memory size 128 Bytes Number of read operations unlimited Number of write operations 105 Read time typical 0 5 5 ms Byte Write time typical 3 6 ms Byte Memory type EEPROM Installation guidelines Minimum distances when 10 mm mounting in metal around the data carrier General data Colour black Ambient temperature 25 120 C D101583 0207 BL ident 5 27 Description of the data carrier Table 13 TW R30 B128 Type TW R30 B128 Ident No 6900503 Storage temperature 40 85 C Degree of protection IEC IP68 60529 EN 60529 Housing material PA6 D101583 0207 BL ident Description of the data carrier Industri A Technical data TW R50 B128 Figure 14 TW R50 B128 95 2 250 2 Table 14 TW R50 B128 TW R50 B128 Ident No 6900504 Memory data Operating frequency 13 56 MHz Memory size 128 Bytes Number of read operations unlimited Number of write operations 105 Read time typical 0 5 5 ms Byte Write time typical 3 6 ms Byte Memory type EEPROM Installation guidelines Minimum distances when 10 mm mounting in m
54. etal around the data carrier General data Colour black Ambient temperature 25 120 C D101583 0207 BL ident 5 29 Description of the data carrier Table 14 TW R50 B128 Type TW R50 B128 Ident No 6900504 Storage temperature 40 85 C Degree of protection IEC IP68 60529 EN 60529 Housing material PA6 D101583 0207 BL ident Description of the data carrier Industri A Technical data TW R20 K2 Figure 15 TW R20 K2 o 20 Table 15 Type TW R20 K2 TW R20 K2 Ident No 6900505 Memory data Operating frequency 13 56 MHz Memory size 2 KBytes Number of read operations unlimited Number of write operations 1019 Read time typical 0 5 5 ms Byte Write time typical 0 5 5 ms Byte Memory type FRAM Installation guidelines Minimum distances when 10 mm mounting in metal around the data carrier General data Colour black Ambient temperature 20 85 C D101583 0207 BL ident 5 31 Description of the data carrier Table 15 TW R20 K2 Type TW R20 K2 Ident No 6900505 Storage temperature 40 85 C Degree of protection IEC IP68 60529 EN 60529 Housing material PA6 D101583 0207 BL ident Description of the data carrier Industri A Technical data TW R30 K2 Figure 16 TW R30 K2 95 2 30 250 Table 16 TW R30 K2 TW R30 K2 Ident
55. etal without the need for additional measures Figure 7 Installation considering the minimum distance from metal D101583 0207 BL ident Installation guidelines Industri A Conclusion influence on the transfer from metal The following points should be considered with the installation of the BL ident components Data carriers except high temperature data carriers can not be mounted directly on metal or suitable accessories must be used spacers Itis important to ensure that no metallic rails or similar parts intersect the transfer zone The metal rails would interfere with the field data Only plastic or stainless steel screws can be used for attachment of the read write heads D101583 0207 BL ident 3 7 Installation guidelines 3 8 D101583 0207 BL ident Directives Industri A 4 EMC directives For whom are the EMC directives 2 Dispersion of electromagnetic interference How can RFID be subject to interference Coupled interference oo Komo What does
56. g clips BST UH 15 Mounting aid for BST mounting clips 16 Inscription labels for BST mounting clips 5 17 Accessories for rectangular read write heads of housing style CK40 Protective mounting MF CKA40 18 seen 18 Protective mounting 40 25 19 Protective mounting MF CK40 3S ooooo Wo oma 20 Protective housing 6040 22 dinamai 21 Protective housing SG40 2 temperature 22 Adjustable rail JS 025 037 40 24244 1 0 0 00000 aaa 23 Cover cap 40 adan aa sasa 24 Cover T CK40 D FC temperature resistant 25 Handheld with accessories PE ea ia en nennen 26 PD ident WLAN een en aan 27 Psi dent PES ated ad aan da tenan Lean aan 27 PPI dent DS E asea 27 PDzident BRB er een eter vere aan 28 banana Lae ratan esa antenna 28 E 28 PP ident CB tenan ama en Sh Alas 28 D101583 0207 BL ident 9 1 Accessories General description of the accessories TURCK provides an extensive range of accessories for mounting of the data carriers and for mounting and protection of the read
57. h distance can move the data carrier past the write read heads That is to say that there is certain amount of general uncertainty concerning the range of applications of an RFID system General details such as recommended write read distance or transmission speed 0 5 ms byte are usually not sufficient for evaluation of the usage of the devices in a determined application as the application variables such as data quantity speed and distance are the result of a complex interaction between the read write heads and data carriers With the BL ident configurator the respective application can be simulated and the correct preliminary selection can be made The setting of applications parameters by playing with the values allows the user to easily test the options and limits associated with the respective combinations D101583 0207 BL ident TURCK BL ident System Industri Ai Figure 2 BL ident configurator Know what s coming Modular RFID System Amount of Data byte 409 Technical Data Distance mm EREMO 3 2 Max Zone 250 mm Speed m s p 26 The online variants of the configurator available free on the Internet at www turck com accesses the data in the TURCK product database and always provides the most up to date information In addition to simulating the application the
58. he following criteria in order to make the correct selection of BL ident system components Mechanical dimensions Distance from data carriers to read write heads when reading and writing Tolerances in the mechanical guidance Static and or dynamic transfer of data Data quantities to be transferred Speed with dynamic writing and reading on the fly Metal free areas with data carriers and read write heads Ambient conditions such as humidity temperature chemical influences etc There are special selection criteria relating to read write heads Mechanical dimensions Required transfer zone Size of the data carrier in use The following criteria should be considered specially for the use of the interface modules Degree of protection Bus type Number of channels D101583 0207 BL ident ident System Planning Industri A Transfer zone and read write distance The read write head generates an alternating inductive field The recommended read write distance results from the combination of data carrier and read write head The appearance of the distribution of this field depends on the design of the antenna in the data carrier and in the read write head Figure 1 Transfer zone Exchange of data is only possible within the transfer zone Fig 1 with the parameters Ls length of the transfer zone and S recommended write read distance The transfer zone reduces when the distance from the data carr
59. heads M18 x 1 Material Chrome plated brass D101583 0207 BL ident 9 9 Accessories Cover cap SKN M18 Figure 8 Cover cap SKN 18 A 22 m S 5 18 1 SKN M18 Cover cap SKN 18 Ident No Description Teflon cover cap for cylindrical read write heads M18x1 Material PTFE 9 10 D101583 0207 BL ident Accessories Industri A Accessories for cylindrical read write heads of housing style M30 Mounting clip with limit stop BST 30B Figure 9 Mounting clip BST 30B Table 9 Type BST 30B Mounting clip BST 30B Ident No 6947216 Description Mounting clip with limit stop for cylindrical read write heads M30 x 1 5 Material Polyamide D101583 0207 BL ident 9 11 Accessories Mounting clip without limit stop BST 30N Figure 10 Mounting clip BST 30N Table 10 Type BST 30N Mounting clip BST 30N Ident No 6947217 Description Mounting clip without limit stop for cylindrical read write heads M30 x 1 5 Material Polyamide 9 12 D101583 0207 BL ident Accessories Industri A Quick mounting mounts QM 30 Figure 11 Quick mounting mounts QM 30 Table 11 Type QM 30 Quick mounting mounts QM 30 Ident No 6945103 Description Quick mounting mounts for cylindrical read write heads M30 x 1 5 Material Chrome plated brass D101583 0207 BL ident 9 13 Accessories Cover
60. hnical data TW R22 HT B128 Figure 5 TW R22 HT B128 Table 5 Type TW R22 HT B128 TW R22 HT B128 Ident No 1542341 Memory data Operating frequency 13 56 MHz Memory size 128 Bytes Number of read operations unlimited Number of write operations 105 Read time typical 0 5 5 ms Byte Write time typical 3 6 ms Byte Memory type EEPROM Installation guidelines Minimum distances when 10 mm mounting in metal around the data carrier General data Colour black Ambient temperature 40 210 C time dependent D101583 0207 BL ident 5 11 Description of the data carrier Table 5 TW R22 HT B128 dent No Type TW R22 HT B128 1542341 Storage temperature 25 120 C Degree of protection IEC IP68 60529 EN 60529 Housing material PA66 D101583 0207 BL ident Description of the data carrier Technical data TW R30 HT B128 Industri A Figure 6 TW R30 HT B128 Table 6 TW R30 HT B128 D101583 0207 Type TW R30 HT B128 Ident No 1542325 Memory data Operating frequency 13 56 MHz Memory size 128 Bytes Number of read operations unlimited Number of write operations 10 Read time typical 0 5 5 ms Byte Write time typical 3 6 ms Byte Memory type EEPROM Installation guidelines Minimum distances when mounting in metal around the data carrier General dat
61. ier to the read write head increases and is reduced to a point at the threshold distance H i e as the distance increases less data can be transferred or the speed at which the read write head moves past the data carrier must be reduced 1 Note Using the BL ident configurator at www turck com allows the relationships to be simulated D101583 0207 BL ident 2 3 ident System Planning Length of the transfer zone Ls and width offset The length of the transfer zone Lg Fig 1 is dependent on the combination of data carrier and read write head The width is particularly important for the tolerance of mechanical tracking 1 Note A n illustrative representation of this relationship can be found in the BL ident configurator at www turck com Minimum distance of the data carriers to read write head influence of adjacent fields Adjacent fields are practically always available The adjacent fields should not be used for transfer of data so normally there must be an minimum distance between data carriers and read write head But with the TURCK BL ident system a minimum distance must not be observed Permissible direction of movement and alignment of the data carrier The data carrier can pass over the read write head from any direction The data carriers can have any horizontal alignment They should only be aligned in parallel to the read write head Reading and writing in static operation In static operation a dat
62. indrical read write heads of housing style M18 Mounting clip BS185 Figure 3 Mounting clip BS185 Table 3 Type BS18 Mounting clip BS185 Ident No 69471 Description Mounting clip for cylindrical read write heads M18 x 1 Material Polyamide D101583 0207 BL ident 9 5 Accessories Mounting clip BSN18 Figure 4 Mounting clip BSN18 Table 4 Type BSN18 Mounting clip BSN18 Ident No 69472 Description Mounting clip for cylindrical read write heads M18 x 1 Material PBT 9 6 D101583 0207 BL ident Accessories Industri A Mounting clip with limit stop BST 18B Figure 5 Mounting clip BST 18B Table 5 Type BST 18B Mounting clip BST 18B Ident No 6947214 Description Mounting clip with limit stop for cylindrical read write heads M18 x1 Material Polyamide D101583 0207 BL ident 9 7 Accessories Mounting clip without limit stop BST 18N Figure 6 Mounting clip BST 18N Table 6 Type BST 18N Mounting clip BST 18N Ident No 6947215 Description Mounting clip without limit stop for cylindrical read write heads M18x1 Material Polyamide 9 8 D101583 0207 BL ident Accessories Industri A Quick mounting mounts QM 18 Figure 7 Quick mounting mounts QM 18 Table 7 Type QM 18 Quick mounting mounts QM 18 Ident No 6945102 Description Quick mounting mounts for cylindrical read write
63. ink susceptible equipment e g motor e g cable connector e g read write head 4 2 D101583 0207 BL ident Directives Industri A The measures for prevention of the interference EMC are relevant for all three components The manufacturer is obliged to undertake all possible measures to counter the development of sources of interference The installation design must be implemented to ensure that mutual interference of the individual components is avoided or kept to as low a level as possible How can RFID be subject to interference Problem interference radiation from the power supply when switching mode power supplies are used Remedy use of a stabilized power supply Problem interference via the serial connection cable Remedy improved cable shielding and or read write head earthing HF interference via the antenna from another read write head or via an external source of interference which operates using the same frequency Remedy the interference from another read write head can be avoided by using the selective mode see manual BL ident Proxy Ident Block PIB 0101578 Coupled interference There are four possibilities for coupled interference Galvanic coupled interference Capacitive coupled interference Inductive coupled interference Radiated interference There are different causes for the radiated interference on the data interface paths With cables and wiring Inco
64. lic spacer metal core data carrier read write head 3 2 D101583 0207 BL ident Installation guidelines Industri A Remedy Install the data carriers in a different manner and there will no longer by an influence on the transfer zone Fig 2 Figure 2 Other arrangement of the data carrier plate metal core non metallic spacer data carrier read write head Installation of several read write heads on metal frames or metal supports Every read write head which is mounted on metal couples a part of the field to the metal support If the minimum distance d and the metal free zones are observed there is generally no mutual influence If however a metal frame should have an unfavourable form an influence is still possible This results in longer data transfer times and error messages in the interface module Problem Mutual interference of the read write heads D101583 0207 BL ident 3 3 Installation guidelines Remedy 1 Extend the distance d between both read write heads Fig 3 Figure 3 Extending the distance read write head Remedy 2 Fit one or several iron struts which should short circuit the parasitic fields Fig 4 Figure 4 additional strunck Fitting iron struts 3 4 D101583 0207 BL ident Installation guidelines Industri A Remedy 3 Place a non metallic intermediary element of 20 to 40 mm thickness between the read write head and the iron frame This will signific
65. m Identification systems with radio frequency technology RFID RFID is the abbreviation for Radio Frequency Identification An RFID system consists of a data carrier a device for reading the data from the data carrier read write head as well as other devices which perform the transfer and processing of data interfaces The transfer of data from the data carrier to the read write heads is undertaken using electromagnetic waves This type of data transfer is non contact without a visual contact and is insensitive to dirt and temperature fluctuations The data carriers can be attached directly to a product Further terms used for the data carriers are TAGs or transponders The data content can consist of production and manufacturing data Important it that this data identifies the product This is the origination of the term Identification System A whole range of possibilities exist as the data content can be changed by writing on the data carrier Accordingly the production and manufacturing processes can be traced and monitored Logistics distribution can be optimized The Identifications Systems can be integrated into existing fieldbus systems e g PROFIBUS The integration of the respective fieldbus system is undertaken with suitable interfaces Standardized software modules e g the Proxy Ident Function Block for PROFIBUS enable simple system integration and commissioning with different controls D101583
66. ment of the data carrier 2 4 Reading and writing in static Operation 2 4 Reading and writing in dynamic operation on the fly 2 5 Dwell time of the data carrier T 2 5 Calculation of the maximum quantity of user data iri dynamic operation cete tree eia uc ana 2 5 Minimum distances between two adjacent data carriers 2 6 D101583 0207 BL ident 5 Contents 3 Installation guidelines aua E 3 2 Reduction of metallic 3 2 Installation of several read write heads on metal frames or Metal supports corde serae innen 3 3 No mounting of the data carrier directly on 22 3 5 Conclusion influence on the transfer from 3 5 4 EMC directives For whom are the EMC directives 4 2 Dispersion of electromagnetic interference 4 2 How can RFID be subject to interference 4 3 Coupled interference oWoooooo oW oom Wala 4 3 What does 2 0 400400000000 4 4 Fundamentals for 4 5 Installation in a switch 4 6 Avoiding sources of interference
67. ms Byte Memory type EEPROM Installation guidelines Minimum distances when 10 mm mounting in metal around the data carrier General data Colour black Ambient temperature 40 210 C time dependent BL ident Description of the data carrier Table 3 TW R20 HT B128 dent No Type TW R20 HT B128 1542324 Storage temperature 25 120 C Degree of protection IEC IP68 60529 EN 60529 Housing material PA66 D101583 0207 BL ident Description of the data carrier Industri A Technical data TW R22 HT B64 Figure 4 TW R22 HT B64 Table 4 Type TW R22 HT B64 TW R22 HT B64 gent No 1542323 Memory data Operating frequency 13 56 MHz Memory size 64 Bytes Number of read operations unlimited Number of write operations 105 Read time typical 0 5 5 ms Byte Write time typical 3 6 ms Byte Memory type EEPROM Installation guidelines Minimum distances when 10 mm mounting in metal around the data carrier General data Colour black Ambient temperature 40 210 C time dependent D101583 0207 BL ident 5 9 Description of the data carrier Table 4 TW R22 HT B64 Type TW R22 HT B64 Ident No 1542323 Storage temperature 25 4120 C Degree of protection IEC 68 60529 60529 Housing material PA66 D101583 0207 BL ident Description of the data carrier Industri A Tec
68. nce 55 Hz 1 mm Shock resistance 30 g 11 ms Degree of protection IP67 Power ON indication Green LED Function display Green LED flashing D101583 0207 BL ident Description of the read write heads Industri A Technical data TN CK40 H1147 Figure 7 40 1147 Table 6 40 1147 TN CK40 H1147 gent No 7030006 Mounting condition non flush flush installation Ambient temperature 25 70 C Data transfer inductive Output function Read write Operating frequency 13 56 MHz Housing style Rectangular CK40 Housing material Plastic PBT GF30 VO black Active face material Plastic PBT GF30 VO yellow Connection Connector M12 x 1 Vibration resistance 55 Hz 1 mm Shock resistance 30 g 11 ms Degree of protection IP67 Power ON indication Green LED Function display Green LED flashing D101583 0207 BL ident 6 9 Description of the read write heads Technical data TN Q80 H1147 Figure 8 TN Q80 H1147 92 gt P di Table 7 TN Q80 H1147 Type Ident No TN Q80 H1147 7030007 Mounting condition non flush installation on metal possible Ambient temperature 25 70 C Data transfer inductive Output function Read write Operating frequency 13 56 MHz Housing style Q80 Housing material Plastic PBT GF30 VO yellow Active face material Plastic PBT GF30 VO yellow
69. nd energy transfer is only possible as long as the data carrier is located in this field Figure 2 Figure 2 Transfer zone 6 4 D101583 0207 BL ident Description of the read write heads Technical data TB M18 H1147 Industri A Figure 3 TB M18 H1147 Table 2 TB M18 H1147 D101583 0207 Type TB M18 H1147 Ident No 7030001 Mounting condition flush Ambient temperature 25 70 C Data transfer inductive Output function Read write Operating frequency 13 56 MHz Housing style Threaded barrel M18 x 1 Housing material Metal CuZn chrome plated Active face material Plastic PA12 GF30 Connection Connector M12 x 1 Vibration resistance 55 Hz 1 mm Shock resistance 30 g 11 ms Degree of protection IP67 Power ON indication Green LED Function display Green LED flashing BL ident Description of the read write heads Technical data TN M18 H1147 Figure 4 TN M18 H1147 Table 3 TN M18 H1147 Type TN M18 H1147 Ident No 7030002 Mounting condition non flush Ambient temperature 25 70 C Data transfer inductive Output function Read write Operating frequency 13 56 MHz Housing style Threaded barrel 18 x 1 Housing material Metal CuZn chrome plated Active face material Plastic PA12 GF30 Connection Connector M12 x 1 Vibration resistance 55 Hz 1 mm Shock resis
70. ng style S32 TN S32XL H1147 with data carrier 16 128 8 23 TN S32XL H1147 with data carrier 0 128 2 2 8 24 TN S32XL H1147 with data carrier 50 128 22 8 24 TN S32XL H1147 with data carrier 2 8 25 TN S32XL H1147 with data carrier TW R50 K2 8 25 9 Accessories General description of the 9 2 Accessories for 0 30 mm 2 50 mm data carriers Spacer DSAR3O Lain anrika iaaiaee iaia 9 3 Spacer DSRIO P 9 4 Accessories for read write heads of housing style M18 Mounting clip BS18 sea a 9 5 Mounting clip 18 8 9 6 Mounting clip with limit stop BST 18B ooooooWo oom ne 9 7 D101583 0207 BL ident 9 Contents 10 Mounting clip without limit stop 18 2 1 9 8 Quick mounting mounts 18 9 9 Cover Cap SKN M1 82 uuo area 9 10 Accessories for cylindrical read write heads of housing style M30 Mounting clip with limit stop 2 2 9 11 Mounting clip without limit stop 30 2 4 9 12 Quick mounting mounts 30 9 13 Cover 30 4244 anaa BANI anga naga 9 14 Common accessories for re
71. nt CB Handheld computer PD ident CB Ident No 1542334 Description Pouch holder D101583 0207 BL ident 0101583 0207 BL ident TURCK WORLD WIDE HEADQUARTERS GERMANY Hans Turck GmbH amp Co KG Witzlebenstra e 7 45472 M lheim an der Ruhr P Box 45466 M lheim an der Ruhr Phone 49 208 4952 0 Fax 49 208 4952 2 64 E Mail more turck com Industr
72. ombinations freewheel diodes etc This also avoids inductive interference in the cables which are laid parallel to the coil cables Potential equalisation If the system sections are subject to a different design and different voltage levels result potential differences can result between the different sections of the system Equalization currents then flow via signal cables potential equalization should not be confused with a protective earth Therefore correctly implemented potential equalization is essential The following points should be observed The potential equalization cable must have a sufficient cross section min 10 mm The distance between signal cables and the respective potential equalization cable must be as small as possible E A stranded conductor must be used If the potential equalization cables are connected to the central potential equalization bars the power components and the non power components must be combined Shielding the cable Signal cables must be shielded in order to avoid coupled interference Even though the best shielding effect when laying the cables is achieved by using steel ducts the use of cables with braided shields is usually sufficient Decisive for the effect of the shield in both cases is however the correct connection as a non connected or incorrectly connected shield has no effect BL ident 4 7 Directives The following must be observed As the inte
73. on must be subject to certain guidelines In order to obtain an installation which is immune to interference a whole package of measures must be implemented where the operator of the system or installation is responsible for the RFI suppression They must observe and comply with the local and national stipulations and directives All measures which have been 4 4 D101583 0207 BL ident Directives Industri A undertaken during system design save expensive modifications and elimination of interference at a later date Fundamentals for EMC protection D101583 0207 The following elementary rules relating to electromagnetic compatibility EMC must be observed Shielding by a housing Protect the device from external sources of interference by the installation in a switch cabinet or housing The cabinet or the housing must be included in the connection to earth Shield the electromagnetic fields from inductances by partition panels of devices Use shielded data transmission cables with metallic connector housings Large area ground connections Connect all inductive metal parts over a large area and use a low resistance for radio frequencies Establish a large area connection between the inactive metal parts and the central earthing point Integrate the shield earth into the earthing concept i e the end of the shield must be connected to a large area to earth Planning of the cable routes Divide the cables into po
74. overtravel distance with data carrier TW R20 B128 Figure 3 Overtravel 25 distance TN M18 H1147 with TW 20 R20 B128 15 E 10 5 0 mm Read write head TB M18 H1147 overtravel distance with data carrier TW R20 B128 Figure 4 Overtravel 16 distance TB M18 H1147 with TW 14 R20 B128 12 10 8 E E 6 4 2 0 mm D101583 0207 BL ident 8 5 Overtravel ranges Read write head TN M18 H1147 overtravel distance with data carrier TW R30 B128 Figure 5 Overtravel 20 distance TN M18 mm H1147 with TW 25 R30 128 20 15 10 5 0 mm Read write head TB M18 H1147 overtravel distance with data carrier TW R30 B128 Figure 6 Overtravel 18 distance 18 16 1147 with TW R30 B128 14 12 10 E 8 6 4 2 0 mm D101583 0207 12 BL ident Overtravel ranges Industri A Read write head TN M18 H1147 overtravel distance with data carrier TW R50 B128 Figure 7 Overtravel 45 distance TN M18 40 H1147 with TW 35 R50 B128 30 25 E 20 15 10 5 0 Read write head 18 1147 overtravel distance with data carrier TW R20 K2 Figure 8 Overtravel 25 distance TN M18 mm H1147 with TW 20 R20 K2
75. rference signals are frequently in a range gt 10 kHz a large area shield connection is necessary The shield bar is very conductive and connected over a large area with the switch cabinet housing and must be as near as possible to the cable entry The cable must be stripped and connected to the grounding bar with an RF clip or cable tie The shielding bar must be connected with the PE bar If shielded cables have to be interrupted the shield must continue via the corresponding connector housing using suitable connectors If intermediate connectors are used which do not feature a suitable shield the shield must be connected via cable clips to the point where it is interrupted D101583 0207 BL ident Description of the data carrier Industri A 5 Description of the data carrier Type OVONVIQW sa ha ea akan aa aana 2 Function principle c 3 Memory module 0000 cee cee eee eeeee eee eeeeee eee e ee 3 Data carrier ss sasaran een 4 Data carrier antenna ooooW Won 4 Technical data TW R16 HT B 128 ne rit teer retten en roa tente tenti daa ag anna and b TW R2O HT B128 E am hahaa 7 TW R22 HT BO4 E eee maa n hen inh aa lia ata 9 TWESRH22 HT B Ba ee 11 SWSOFT BW Bs aan nana ires te 18 TWO ORT BO ur ote eee ce cohetes 15 TWER2OSHT certet cu utc dori 17 EWERS 0AT Keran an aan bh MAAN ah Re ha aa 1
76. rier TW R30 TN M18 H1147 with data carrier TW R50 TN M30 H1 147 with data carrier TW R16 TB M30 H1 147 with data carrier TW R16 TN M30 H1 147 with data carrier TW R20 TB M30 H1 147 with data carrier TW R20 TN M30 H1 147 with data carrier TW R30 TB M30 H1 147 with data carrier TW R30 TN M30 H1 147 with data carrier TW R50 TB M30 H1 147 with data carrier TW R50 TN M30 H1 147 with data carrier TW R20 TB M30 H1 147 with data carrier TW R20 TN M30 H1 147 with data carrier TW R30 TB M30 H1 147 with data carrier TW R30 TN M30 H1 147 with data carrier TW R50 TB M30 H1 147 with data carrier TW R50 Overtravel distance read write head housing style 040 40 1147 with data carrier 16 128 16 40 1147 with data carrier 20 128 17 40 1147 with data carrier 128 17 40 1147 with data carrier 50 128 2 2 18 TN CK40 H1147 with data carrier 20 2 18 40 1147 with data carrier 2 19 TN CK40 H1147 with data carrier 50 2 19 D101583 0207 BL ident 8 1 Overtravel ranges Overtravel distance read write head housing style Q80 TN Q80 H
77. rrect or poorly laid Missing or incorrectly connected shield Unfavourable arrangement of the cable D101583 0207 BL ident 4 3 Directives With the switch cabinet housing Missing or incorrectly wired potential equalization wiring Missing or incorrect earthing Unfavourable arrangement Modules which are not mounted in a fixed position Unfavourable switch cabinet design What does EMC mean The increasing component density increased switching speed of power electronics and the continuous rise in switching speeds present more and more sources of interference to electronic elements of a system The following generally applies the higher the level of automation the higher the danger of mutual interference Definition of EMC Electromagnetic compatibility EMC is the capability of an electrical or electronic device in an electromagnetic environment to function without fault without influencing or interfering with the environment beyond defined limits The TURCK BL ident devices are subjected to test compliance to the following standards 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 immunity to conducted disturbances induced by radio frequency fields As the RFID modules are only components of an overall system and Sources of interferences can result from the combination of different components the design of a system or installati
78. s concerning the PROFIBUS DP and DeviceNet gateway of the BL67 and BL20 series These include a short BL67 or BL20 system description and a description of the PROFIBUS DP or DeviceNet fieldbus systems Besides you will find exact details concerning the function and design of bus specific gateways as well as all bus specific information concerning the connection to different automation devices the maximum system extension etc Manual BL67 PROFIBUS DP TURCK documentation number German D300570 English D300527 D101583 0207 BL ident About this manual Industri A Manual BL67 DeviceNet TURCK documentation number English D300528 Manual BL20 PROFIBUS DP TURCK documentation number German D300822 English D300458 Manual BL20 DeviceNet TURCK documentation number English D300460 Further support can be found in the following manuals for engineering installation and commissioning D101583 0207 Manual D101580 This manual describes the professional application of BL ident interface modules Manual D101578 This manual includes instructions for commissioning of a BL ident systems using the function block Proxy Ident Function Block The commissioning example is undertaken using a SIMATIC S7 300 station Siemens SIMATIC STEP 7 standard software is used Manual D101606 This manual contains the software description for the so called Handheld programming device which can be used to read dat
79. s unlimited Number of write operations 10 Read time typical 0 5 5 ms Byte Write time typical 3 6 ms Byte Memory type EEPROM Installation guidelines Minimum distances when 10mm mounting in metal around the data carrier General data Colour black Ambient temperature 25 120 C D101583 0207 BL ident 5 23 Description of the data carrier Table 11 TW R16 B128 Type TW R16 B128 Ident No 6900501 Storage temperature 40 85 C Degree of protection IEC IP68 60529 EN 60529 Housing material Epoxy plastic moulded D101583 0207 BL ident Description of the data carrier Industri A Technical data TW R20 B128 Figure 12 TW R20 B128 220 Table 12 TW R20 B128 TW R20 B128 Ident No 6900502 Memory data Operating frequency 13 56 MHz Memory size 128 Bytes Number of read operations unlimited Number of write operations 105 Read time typical 0 5 5 ms Byte Write time typical 3 6 ms Byte Memory type EEPROM Installation guidelines Minimum distances when 10 mm mounting in metal around the data carrier General data Colour black Ambient temperature 25 120 C D101583 0207 BL ident 5 25 Description of the data carrier Table 12 TW R20 B128 Type TW R20 B128 Ident No 6900502 Storage temperature 40 85 C Degree of protection IEC IP68 60529 EN 60529 Housing mat
80. smission frequency between the data memories and the read write devices Systems which operate with these transmission frequencies are practically immune to electromagnetic interference The 13 56 MHz transmission frequency has developed into a standard in many RFID fields of application BL ident 1 5 The TURCK BL ident System Size TURCK supplies the data carriers with diameters of 16 20 30 and 50 mm The read write units are available in different housing styles ranging from cylindrical M18 and M30 to rectangular CK40 and Q80 and ring shaped S32XL Memory capacity The memory capacity on the data storage device is 64 Bytes or 128 Bytes with an EEPROM memory and 2 KBytes with an FRAM memory New data carriers are in the design stage Ferroelectric Random Access Memory non volatile high service life based on the higher number of write read operations 10 up to 1011 EEPROM Electrically Erasable Programmable Read Only Memory non volatile Write time read time air interface only The write and read times depend for all data carriers on the number of bytes which are to be transferred On FRAM data carriers the read and write time are almost identical and are between 0 7 and 3 4 ms byte On EEPROM data carriers the read time is between 0 7 and 6 ms byte and the write time is between 3 3 and 7 9 ms byte The write read distances depend on the corresponding combination of data carrier and read write head
81. stablishing this connection Ensure a reliable isolation of the extra low voltage for the 24 volt supply Only those power supply units that comply with IEC 60 364 4 41 i e HD 384 4 41 S2 VDE 0100 part 410 are to be deployed Fluctuations or deviations of the mains voltage from the nominal value should not exceed the tolerance limits specified in the technical data otherwise malfunctions and dangerous states may occur BL ident 3 Devices for mounting housings or cabinets desktop or portable units are only to be operated and controlled with the housing closed Measures are to be taken to ensure the correct restarting of a program following interruption due to a voltage drop or failure Dangerous operating conditions even short term should not occur as a result If required an emergency stop should be carried out External measures are to be implemented at those locations where faults in the automation installation could lead to injury to persons or damage to property These measures must guarantee safe operating conditions even in the event of a fault or malfunction e g by means of independent limit switches or mechanical locking devices etc The electrical installation must be carried out in accordance with the relevant regulations e g in respect of the cable cross sections fuses and protective earth connections All work involving transport installation commissioning and maintenance is to be carried out ex
82. stri A Read write head TB M30 H1147 overtravel distance with data carrier TW R50 B128 Figure 19 Overtravel 50 distance TB M30 45 H1147 with TW 40 R50 B128 35 30 E 25 20 15 10 5 0 0 10 20 30 40 Read write head TN M30 H1147 overtravel distance with data carrier TW R20 K2 Figure 20 Overtravel 35 distance TN M30 H1147 with TW 30 R20 K2 25 g 20 15 10 5 0 0 5 10 15 20 25 30 35 mm D101583 0207 BL ident 8 13 Overtravel ranges Read write head TB M30 H1147 overtravel distance with data carrier TW R20 Figure 21 Overtravel 25 distance TB M30 mm H1147 with TW R20 K2 20 15 10 5 0 0 5 10 15 mm 20 Read write head TN M30 H1147 overtravel distance with data carrier TW R30 Figure 22 Overtravel 45 distance TN M30 40 H1147 with TW 25 R30 K2 30 25 E 20 15 10 5 0 0 10 20 30 40 mm 50 2 8 14 0101583 0207 BL ident Overtravel ranges Industri A Read write head 30 1147 overtravel distance with data carrier TW R30 K2 Figure 23 Overtravel 30 distance TB M30 mm H1147 with TW 25 R30 K2 20 15 10 5 0 0 5 10 15 20 25 30 mm Read write head TN M30 H1147 overtrav
83. tance 30 g 11 ms Degree of protection IP67 Power ON indication Green LED Function display Green LED flashing D101583 0207 BL ident Description of the read write heads Industri A Technical data TB M30 H1147 Figure 5 TB M30 H1147 M30 x 1 5 36 5 46 LED P 62 a M12 x1 Table 4 Type TB M30 H1147 TB M30 H1147 gent No 7030003 Mounting condition flush Ambient temperature 25 70 C Data transfer inductive Output function Read write Operating frequency 13 56 MHz Housing style Threaded barrel M30 x 1 5 Housing material Metal CuZn chrome plated Active face material Plastic PA12 GF30 Connection Connector M12 x 1 Vibration resistance 55 Hz 1 mm Shock resistance 30 g 11 ms Degree of protection IP67 Power ON indication Green LED Function display Green LED flashing D101583 0207 BL ident 6 7 Description of the read write heads Technical data TN M30 H1147 Figure 6 TN M30 H1147 M30 x 1 5 36 5 LED Table 5 TN M30 H1147 Type TN M30 H1147 Ident No 7030004 Mounting condition non flush Ambient temperature 25 70 C Data transfer inductive Output function Read write Operating frequency 13 56 MHz Housing style Threaded barrel M30 x 1 5 Housing material Metal CuZn chrome plated Active face material Plastic PA12 GF30 Connection Connector M12 x 1 Vibration resista
84. well as electromagnetic waves The better that the induced interference current can flow the better that the interference field will weaken itself It is therefore essential to ensure that all housing panels are connected electrically conducting to each other If the switch cabinet panels are insulated from one another an RF conductive connection using metal braiding and RF clips or RF paste the greater the surface area of the connection the better must be possible Interference can be avoided by optimum switch cabinet design The following generally applies The effects of the interference generally reduce as the distance between the susceptible equipment and the source of interference increases An additional reduction in interference can be achieved by installation of shield panels Signal cables should keep a minimum distance of at least 10 cm from high power cables External interference induced through the mains is avoided by the installation of mains filters Ensure that the mains filter is correctly rated and fitted directly at the entry to the switch cabinet D101583 0207 BL ident Directives 0101583 0207 Industri A Avoiding sources of interference Avoid the installation of sources of interference which occur primarily due to switched inductances Interference is generated primarily by relays contactors fluorescent lamps in the switch cabinet and valves and can be avoided by the use of RC c
85. wer groups and lay them separately Lay the high power cables and the data cables in separate ducts or bundles Introduce the entire cabling into the cabinet only from one side and on a single level when possible Lay the data cables as close to earthed surfaces as possible Twist the incoming and outgoing cables of individually laid conductor pairs In many cases an independent cable guidance for the bus cable is already provided Ideally this should also be used for laying the data cables between read write heads and interface modules Shielding of cables Shield the data transfer cables and apply the shield on gateway side Shield the analogue cables and apply the shield at one end e g on the drive unit Always apply the cable shields at the entry to the switch cabinet to a large area on the grounding bar and attach them with fixing clamps BL ident 4 5 Directives Connect the applied shield to the module without interruption Use a braided shield and not a metal foil shield Mains and signal filter Use the mains filter with metal housing Connect the filter housing on a wide area and with a low radio frequency resistance to the switch cabinet earth Never attach the filter housing to painted surfaces Attach the filter at the switch cabinet entry or in the direction of the interference source Installation in a switch cabinet Metal housings shield susceptible equipment against magnetic and electrical fields as
86. write heads Spacers are used for mounting the 30 mm and 50 mm data carriers Suitable mounting clips as well as quick mounting mounts are available for the cylindrical read write heads M18 x 1 and M30 x 1 5 The adjustable rail JS 025 037 simplifies the mounting and adjustment of read write heads for housing style CK40 Additional protection against mechanical damage is provided by protective mountings which also simplify mounting of the 40 housing style The computer Handheld PD ident provides a range of features for location independent writing and reading of all BL ident data carriers under Windows CE and is also provided with WLAN and Bluetooth functionality Note Mounting accessories may possibly reduce the read write distance Appropriate tests should be undertaken before commissioning 9 2 D101583 0207 BL ident Accessories Industri A Accessories for 30 mm and 50 mm data carriers Spacer DS R30 Figure 1 Spacer DS R30 03 9 30 i 1 Table 1 Type DS R30 Spacer DS R30 6900512 Description Spacer for data carrier 2 30 mm Material Plastic D101583 0207 BL ident 9 3 Accessories Spacer DS R50 Figure 2 Spacer DS R50 Table 2 Type DS R50 Spacer DS R50 Ident No 6900386 Description Spacer for data carrier 50 mm Material Plastic 9 4 D101583 0207 BL ident Accessories Industri A Accessories for cyl

User Manual RFID System - Installation of the BL ident system

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