USERMANUAL RFID SYSTEM INSTALLATION OF THE BL IDENTSYSTEM S1583/ 01
D101583 0207 BL ident
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.
Devices for mounting in 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.
Contents Contents About this manual Documentation concept..............................................................................0 – 2 Description of symbols used ......................................................................0 – 4 Prescribed use ......................................................................................0 – 5 Notes concerning planning / Installation of this product ......................
Contents 3 Installation guidelines Overview .....................................................................................................3 – 2 Reduction of metallic influences .................................................................3 – 2 Installation of several read-write heads on metal frames or metal supports ........................................................................................3 – 3 No mounting of the data carrier directly on metal ....................................
Contents TW-R50-90-HT-B128................................................................................5 – 23 TW-R50-90-HT-K2................................................................................... 5 – 25 TW-I14-B128.............................................................................................5 – 27 TW-L43-43-F-B128...................................................................................5 – 29 TW-L82-49-P-B128 ..........................................................
Contents TN-Q80-H1147 .........................................................................................6 – 24 TN-Q80-H1147/S1126 (optimised for special data carriers) ....................6 – 25 TNER-Q80-H1147 (increased range) ........................................................6 – 26 TNLR-Q80-H1147 (long range) .................................................................6 – 27 TNLR-Q80-H1147/S1126 (long range, optimised for special data carriers) ..........................................
Contents TNER-Q80-H1147 .....................................................................................7 – 19 TNLR-Q80-H1147......................................................................................7 – 20 TNLR-Q80-H1147/S1126 ..........................................................................7 – 21 TN-S32XL-H1147 ......................................................................................
Contents TB-M30-H1147 with data carrier TW-R30-…K2.......................................8 – 15 TN-M30-H1147 with data carrier TW-R50-…K2 ......................................8 – 15 TB-M30-H1147 with data carrier TW-R50-…K2.......................................8 – 16 Overtravel distance read-write head – housing style Q40 TN-CK40-H1147 with data carrier TW-R16-…B128.................................8 – 16 TN-CK40-H1147 with data carrier TW-R20-…B128.................................
Contents Accessories for read-write heads of housing style M18 Mounting clip BS18.....................................................................................9 – 5 Mounting clip BSN18 ..................................................................................9 – 6 Mounting clip with limit stop BST-18B .......................................................9 – 7 Mounting clip without limit stop BST-18N ..................................................9 – 8 Quick mounting mounts QM-18 .......
Contents PD-ident-RB..............................................................................................9 – 28 PD-ident-BC..............................................................................................9 – 28 PD-ident-RS..............................................................................................9 – 28 PD-ident-CB..............................................................................................
About this manual About this manual Documentation concept....................................................................................2 Description of symbols used ............................................................................4 Prescribed use ........................................................................................... 5 Notes concerning planning / Installation of this product ...........................
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.
About this manual 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: Manual D101580 - This manual describes the professional application of BL ident interface modules.
About this manual Description of symbols used Warning This 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 This 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.
About this manual 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.
About this manual 0–6 D101583 0207 BL ident
The TURCK BL ident System 1 The TURCK BL ident system 1 Schematic representation of the identification system BL ident .........................2 Support for BL ident projects......................................................................2 Networking with BL ident systems..............................................................3 Identification systems with radio frequency technology (RFID) ........................4 Characteristics and fields of application of the BL ident system.............
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.
The TURCK BL ident System Networking with BL ident systems 1 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.
The TURCK BL ident System 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.
The TURCK BL ident System Characteristics and fields of application of the BL ident system 1 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 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.
The TURCK BL ident System Compatibility 1 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.
The TURCK BL ident System The BL ident configurator The use of sensors and actuators – and even fieldbusses – is stateof-the-art in many industrial fields. When RFID systems are used on the other hand, there are always questions relating to the airinterface, e.g. "How fast and at which distance can I move the data carrier past the write-read heads?". That is to say that there is a certain amount of general uncertainty concerning the range of applications of an RFID system.
The TURCK BL ident System 1 Figure: 2 BL ident configurator 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 configurator also generates the corresponding data sheets and documentation.
The TURCK BL ident System 1 – 10 D101583 0207 BL ident
BL ident System – Planning 2 TURCK-BL ident System – Planning Selection criteria for data carriers, read-write head and interface module.......2 Transfer zone and read-write distance .............................................................3 Length of the transfer zone and width offset ....................................................4 Minimum distance of the data carriers to read-write head, influence of adjacent fields...............................................................................
BL ident System – Planning Selection criteria for data carriers, read-write head and interface module The application should be judged using the 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
BL ident System – Planning 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 H Sr Lsr Exchange of data is only possible within the transfer zone (Fig.
BL ident System – Planning Length of the transfer zone LSr and width offset The length of the transfer zone LSr (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. Note An illustrative representation of this relationship can be found in the BL ident configurator at www.turck.com.
BL ident System – Planning Dwell time of the data carrier Td The dwell time Td is the time in which the data carrier is present in the transfer zone of the read-write head as it passes by. The readwrite head exchanges data with the data carrier during this time. The dwell time Td is calculated as follows: Td = LSr / VTag where: LSr:length of the transfer zone VTag:speed of the data carrier in dynamic operation In static mode the dwell time can be as long as necessary.
BL ident System – Planning The read-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.
Installation guidelines 3 Installation guidelines Overview ...........................................................................................................2 Reduction of metallic influences .......................................................................2 Installation of several read-write heads on metal frames or metal supports ..............................................................................................3 No mounting of the data carrier directly on metal ...............
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.
Installation guidelines Remedy: Install the data carriers in a different manner and there will no longer by an influence on the transfer zone (Fig. 2). 3 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.
Installation guidelines Remedy 1: Extend the distance d between both read-write heads (Fig. 3). Figure 3 Extending the distance d read/write head Remedy 2: Fit one or several iron struts which should short-circuit the parasitic fields (Fig. 4).
Installation guidelines 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 significantly reduce the parasitic coupling of the field and the support (Fig. 5). 3 Figure 5 Addition of an intermediary nonmetallic 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.
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).
Installation guidelines 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) It is important to ensure that no metallic rails (or similar parts) intersect the transfer zone. The metal rails would interfere with the field data.
Installation guidelines 3–8 D101583 0207 BL ident
EMC Directives 4 EMC directives For whom are the EMC directives intended?................................................... 2 Dispersion of electromagnetic interference ......................................................2 How can RFID be subject to interference? .................................................3 Coupled interference ...................................................................................3 What does EMC mean? ..................................................................
EMC Directives For whom are the EMC directives intended? These EMC 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.
EMC Directives 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.
EMC Directives With the switch cabinet or 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.
EMC Directives undertaken during system design save expensive modifications and elimination of interference at a later date. Fundamentals for EMC protection The following elementary rules relating to electromagnetic compatibility (EMC) must be observed: 4 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.
EMC 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.
EMC Directives 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 combinations, freewheel diodes etc. This also avoids inductive interference in the cables which are laid parallel to the coil cables.
EMC Directives The following must be observed: As the interference signals are frequently in a range > 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.
Description of the data carrier 5 Description of the data carrier Type overview ...................................................................................................2 Function principle..............................................................................................3 Memory module ..........................................................................................3 Data carrier electronics ...............................................................................
Description of the data carrier Type overview Table 1: Data carrier type overview 5–2 Type Memory size Memory type Highly temperature resistant TW-R16-B64 64 Byte EEPROM – TW-R16-B128 128 Byte EEPROM – TW-R20-B128 128 Byte EEPROM – TW-R30-B128 128 Byte EEPROM – TW-R50-B128 128 Byte EEPROM – TW-R20-K2 2 kByte FRAM – TW-R30-K2 2 kByte FRAM – TW-R50-K2 2 kByte FRAM – TW-R22-HT-B64 64 Byte EEPROM ✔ TW-R50-90-HT-B128 128 Byte EEPROM ✔ TW-R50-90-HT-K2 2 kByte FRAM
Description of the data carrier Function principle The BLident data carriers (TAGs) can be written and read on a noncontact 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 data transfer is initiated. The achievable distances vary depending on the sizes from 15…200 mm.
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.
Description of the data carrier Technical data TW-R16-B64 Figure 2 TW-R16-B64 16 3 Table 2: TW-R16-B64 2,5 Type Ident-No. 5 TW-R16-B64 6900??? 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.
Description of the data carrier Table 2: TW-R16-B64 5–6 Type Ident-No.
Description of the data carrier Technical data TW-R16-B128 Figure 3 TW-R16-B128 16 3 Table 3: TW-R16-B128 2,5 Type Ident-No. 5 TW-R16-B128 6900501 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.
Description of the data carrier Table 3: TW-R16-B128 5–8 Type Ident-No.
Description of the data carrier Technical data TW-R20-B128 Figure 4 TW-R20-B128 ø 20 ø 20 1,52,5 Table 4: TW-R20-B128 Type Ident-No. 5 TW-R20-B128 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.
Description of the data carrier Table 4: TW-R20-B128 5 – 10 Type Ident-No.
Description of the data carrier Technical data TW-R30-B128 Figure 5 TW-R30-B128 ø 3,2 ø 30 ø 5,2 ø 30 1,52,5 Table 5: TW-R30-B128 Type Ident-No. 5 TW-R30-B128 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.
Description of the data carrier Table 5: TW-R30-B128 5 – 12 Type Ident-No.
Description of the data carrier Technical data TW-R50-B128 Figure 6 TW-R50-B128 ø 4,2 ø 5,2 ø 50 ø 50 5 1,5 3 Table 6: TW-R50-B128 Type Ident-No. TW-R50-B128 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.
Description of the data carrier Table 6: TW-R50-B128 5 – 14 Type Ident-No.
Description of the data carrier Technical data TW-R20-K2 Figure 7 TW-R20-K2 ø 20 2,5 5 Table 7: TW-R20-K2 Type Ident-No. TW-R20-K2 6900505 Memory data Operating frequency 13.56 MHz Memory size 2 KBytes Number of read operations unlimited Number of write operations 1010 Read time (typical) 0.5…5 ms/Byte Write time (typical) 0.
Description of the data carrier Table 7: TW-R20-K2 5 – 16 Type Ident-No.
Description of the data carrier Technical data TW-R30-K2 Figure 8 TW-R30-K2 ø 5,2 ø 30 2,5 Table 8: TW-R30-K2 Type Ident-No. 5 TW-R30-K2 6900506 Memory data Operating frequency 13.56 MHz Memory size 2 KBytes Number of read operations unlimited Number of write operations 1010 Read time (typical) 0.5…5 ms/Byte Write time (typical) 0.
Description of the data carrier Table 8: TW-R30-K2 5 – 18 Type Ident-No.
Description of the data carrier Technical data TW-R50-K2 Figure 9 TW-R50-K2 ø 5,2 ø 50 5 3 Table 9: TW-R50-K2 Type Ident-No. TW-R50-K2 6900507 Memory data Operating frequency 13.56 MHz Memory size 2 KBytes Number of read operations unlimited Number of write operations 1010 Read time (typical) 0.5…5 ms/Byte Write time (typical) 0.
Description of the data carrier Table 9: TW-R50-K2 5 – 20 Type Ident-No.
Description of the data carrier Technical data TW-R22-HT-B64 Figure 10 TW-R22-HT-B64 30 ø 22 125 5 10 Table 10: TW-R22-HT-B64 Type Ident-No. TW-R22-HT-B64 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.
Description of the data carrier Table 10: TW-R22-HT-B64 5 – 22 Type Ident-No.
Description of the data carrier Technical data TW-R50-90-HT-B128 Figure 11 TW-R50-90-HTB128 ø 95 68 ø 108,5 ø 136,5 ø 125 5 ø 5,5 (3 x 120°) Table 11: TW-R50-90HTB128 Type Ident-No. TW-R50-90-HT-B128 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.
Description of the data carrier Table 11: TW-R50-90HTB128 5 – 24 Type Ident-No.
Description of the data carrier Technical data TW-R50-90-HT-K2 Figure 12 TW-R50-90-HTK2 ø 95 68 ø 108,5 ø 136,5 ø 125 5 ø 5,5 (3 x 120°) Table 12: TW-R50-90-HTK2 Type Ident-No. TW-R50-90-HT-K2 1542329 Memory data Operating frequency 13.56 MHz Memory size 2 KBytes Number of read operations unlimited Number of write operations 1010 Read time (typical) 0.5…5 ms/Byte Write time (typical) 0.
Description of the data carrier Table 12: TW-R50-90-HTK2 5 – 26 Type Ident-No.
Description of the data carrier Technical data TW-I14-B128 Figure 13 TW-I14-B128 14 5 Table 13: TW-I14-B128 Type Ident-No. TW-I14-B128 6900526 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.
Description of the data carrier Table 13: TW-I14-B128 5 – 28 Type Ident-No.
Description of the data carrier Technical data TW-L43-43-F-B128 Figure 14 TW-L43-43-FB128 43 5 43 Table 14: TW-L43-43-FB128 Type Ident-No. TW-L43-43-F-B128 6901344 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.
Description of the data carrier Table 14: TW-L43-43-FB128 5 – 30 Type Ident-No.
Description of the data carrier Technical data TW-L82-49-P-B128 Figure 15 TW-L82-49-PB128 49 5 82 Table 15: TW-L82-49-PB128 Type Ident-No. TW-L82-49-P-B128 6901345 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.
Description of the data carrier Table 15: TW-L82-49-PB128 5 – 32 Type Ident-No.
Description of the read-write heads 6 Description of the read-write heads Type overview ...................................................................................................2 Function principle..............................................................................................3 Read-write head electronics .......................................................................3 Read-write head antenna ............................................................................
Description of the read-write heads Type overview Table 1: Type overview read-write heads 6–2 Type InstallaOutput tion function conditions TB-M18-H1147 TB-M18-H1147/S1126 TB-EM18WD-H1147 TB-EM18WD-H1147/S1126 flush Read/write via BLident cable TN-M18-H1147 TN-M18-H1147/S1126 TN-EM30WD-H1147 TN-EM30WD-H1147/S1126 nonflush Read/write via BLident cable TB-M30-H1147 TB-M30-H1147/S1126 TB-EM30WD-H1147 TB-EM30WD-H1147/S1126 flush Read/write via BLident cable TN-M30-H1147 TN-M30-H1147/S1126 TN-EM30WD
Description of the read-write heads Function principle The BLident read-write heads (transceivers) are used for noncontact 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.
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 and energy transfer is only possible as long as the data carrier is located in this field (Figure 2).
Description of the read-write heads Technical data TB-M18-H1147 Figure 3 TB-M18-H1147 M18 x 1 56 24/4 72 LED 9 M12 x 1 Table 2: TB-M18-H1147 D101583 0207 6 Type Ident-No. TB-M18-H1147 7030001 Mounting condition flush Ambient temperature -25…+ 70 °C Data transfer inductive Output function Read/write Operating frequency 13.
Description of the read-write heads Technical data TB-M18-H1147/S1126 Figure 4 TB-M18-H1147/ S1126 M18 x 1 56 24/4 72 LED 9 M12 x 1 Table 3:TB-M18H1147/S1126 6–6 Type Ident-No. TB-M18-H1147/S1126 7030212 Mounting condition flush Ambient temperature -25…+ 70 °C Data transfer inductive Output function Read/write Operating frequency 13.
Description of the read-write heads Technical data TB-EM18WD-H1147 Figure 5 TB-EM18WDH1147 M18 x 1 56 24/4 72 LED 9 M12 x 1 Table 4:TBEM18WD-H1147 D101583 0207 6 Type Ident-No. TB-EM18WD-H1147 7030224 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 × 1 Housing material Metal, A4 1.
Description of the read-write heads Technical data TB-EM18WD-H1147/S1126 Figure 6 TB-EM18WDH1147/S1126 M18 x 1 56 24/4 72 LED 9 M12 x 1 Table 5:TB-EM18 WD-H1147/S1126 6–8 Type Ident-No. TB-EM18WD-H1147/S1126 7030228 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 × 1 Housing material Metal, A4 1.
Description of the read-write heads Technical data TN-M18-H1147 Figure 7 TN-M18-H1147 M18 x 1 10 56 24/4 72 LED 9 M12 x 1 Table 6: TN-M18-H1147 D101583 0207 6 Type Ident-No. TN-M18-H1147 7030002 Mounting condition non-flush Ambient temperature -25…+ 70 °C Data transfer inductive Output function Read/write Operating frequency 13.
Description of the read-write heads Technical data TN-M18-H1147/S1126 Figure 8 TN-M18-H1147/ S1126 M18 x 1 10 56 24/4 72 LED 9 M12 x 1 Table 7:TN-M18H1147/S1126 6 – 10 Type Ident-No. TN-M18-H1147/S1126 7030213 Mounting condition non-flush Ambient temperature -25…+ 70 °C Data transfer inductive Output function Read/write Operating frequency 13.
Description of the read-write heads Technical data TN-EM18WD-H1147 Figure 9 TN-EM18WDH1147 M18 x 1 10 56 24/4 72 LED 9 M12 x 1 Table 8:TNEM18WD-H1147 D101583 0207 6 Type Ident-No. TN-EM18WD-H1147 7030223 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, M18 × 1 Housing material Metal, A4 1.
Description of the read-write heads Technical data TN-EM18WD-H1147/S1126 Figure 10 TN-EM18WDH1147/S1126 M18 x 1 10 56 24/4 72 LED 9 M12 x 1 Table 9:TN-EM18 WD-H1147/S1126 6 – 12 Type Ident-No. TN-EM18WD-H1147/S1126 7030227 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, M18 × 1 Housing material Metal, A4 1.
Description of the read-write heads Technical data TB-M30-H1147 Figure 11 TB-M30-H1147 M30 x 1,5 46 36/5 LED 62 9 M12 x 1 Table 10: TB-M30-H1147 D101583 0207 This device complies with Part 15 of the FCC Rules. Operation is subject to the following two conditions: (1) this device may not cause harmful interference, and (2) this device must accept any interference received, including interference that may cause undesired operation. Type Ident-No.
Description of the read-write heads Technical data TB-M30-H1147/S1126 Figure 12 TB-M30-H1147/ S1126 M30 x 1,5 46 36/5 LED 62 9 M12 x 1 Table 11:TB-M30 -H1147/S1126 6 – 14 This device complies with Part 15 of the FCC Rules. Operation is subject to the following two conditions: (1) this device may not cause harmful interference, and (2) this device must accept any interference received, including interference that may cause undesired operation. Type Ident-No.
Description of the read-write heads Technical data TB-EM30WD-H1147 Figure 13 TB-EM30WDH1147 M30 x 1,5 46 36/5 LED 62 9 M12 x 1 Table 12:TBEM30WD-H1147 D101583 0207 This device complies with Part 15 of the FCC Rules. Operation is subject to the following two conditions: (1) this device may not cause harmful interference, and (2) this device must accept any interference received, including interference that may cause undesired operation. Type Ident-No.
Description of the read-write heads Technical data TB-EM30WD-H1147/S1126 Figure 14 TB-EM30WDH1147/S1126 M30 x 1,5 46 36/5 LED 62 9 M12 x 1 Table 13:TB-EM30 Type WD-H1147/S1126 Ident-No. 6 – 16 This device complies with Part 15 of the FCC Rules. Operation is subject to the following two conditions: (1) this device may not cause harmful interference, and (2) this device must accept any interference received, including interference that may cause undesired operation.
Description of the read-write heads Technical data TN-M30-H1147 Figure 15 TN-M30-H1147 M30 x 1,5 15 46 36/5 62 LED 9 M12 x 1 Table 14: TN-M30-H1147 D101583 0207 This device complies with Part 15 of the FCC Rules. Operation is subject to the following two conditions: (1) this device may not cause harmful interference, and (2) this device must accept any interference received, including interference that may cause undesired operation. Type Ident-No.
Description of the read-write heads Technical data TN-M30-H1147/S1126 Figure 16 TN-M30-H1147/ S1126 M30 x 1,5 15 46 36/5 62 LED 9 M12 x 1 Table 15:TN-M30- Type H1147/S1126 Ident-No. 6 – 18 This device complies with Part 15 of the FCC Rules. Operation is subject to the following two conditions: (1) this device may not cause harmful interference, and (2) this device must accept any interference received, including interference that may cause undesired operation.
Description of the read-write heads Technical data TN-EM30WD-H1147 Figure 17 TN-EM30WDH1147 M30 x 1,5 15 46 36/5 62 LED 9 M12 x 1 Table 16:TNEM30WD-H1147 D101583 0207 This device complies with Part 15 of the FCC Rules. Operation is subject to the following two conditions: (1) this device may not cause harmful interference, and (2) this device must accept any interference received, including interference that may cause undesired operation. Type Ident-No.
Description of the read-write heads Technical data TN-EM30WD-H1147/S1126 Figure 18 TN-EM30WDH1147/S1126 M30 x 1,5 15 46 36/5 62 LED 9 M12 x 1 Table 17:TN-EM30 Type WD-H1147/S1126 Ident-No. 6 – 20 This device complies with Part 15 of the FCC Rules. Operation is subject to the following two conditions: (1) this device may not cause harmful interference, and (2) this device must accept any interference received, including interference that may cause undesired operation.
Description of the read-write heads Technical data TN-CK40-H1147 Figure 19 TN-CK40-H1147 LED 30 40 5,3 x 7,3 40 M12 x 1 ø 5,3 46 20 60 65 Table 18: TN-CK40-H1147 D101583 0207 This device complies with Part 15 of the FCC Rules. Operation is subject to the following two conditions: (1) this device may not cause harmful interference, and (2) this device must accept any interference received, including interference that may cause undesired operation. Type Ident-No.
Description of the read-write heads Technical data TN-CK40-H1147/S1126 Figure 20 TN-CK40-H1147 LED 30 40 5,3 x 7,3 40 M12 x 1 ø 5,3 46 20 60 65 Table 19:TN-CK40 Type -H1147/S1126 Ident-No. 6 – 22 This device complies with Part 15 of the FCC Rules. Operation is subject to the following two conditions: (1) this device may not cause harmful interference, and (2) this device must accept any interference received, including interference that may cause undesired operation.
Description of the read-write heads Technical data TN-Q80-H1147 Figure 21 TN-Q80-H1147 LED 40 27,2 65 ø 5,3 M12 x 1 Table 20: TN-Q80-H1147 D101583 0207 80 92 114 This device complies with Part 15 of the FCC Rules. Operation is subject to the following two conditions: (1) this device may not cause harmful interference, and (2) this device must accept any interference received, including interference that may cause undesired operation. Type Ident-No.
Description of the read-write heads Technical data TN-Q80-H1147/S1126 Figure 22 TN-Q80-H1147/ S1126 LED 40 27,2 65 ø 5,3 M12 x 1 80 92 114 Table 21:TN-Q80- Type H1147/S1126 Ident-No. 6 – 24 This device complies with Part 15 of the FCC Rules. Operation is subject to the following two conditions: (1) this device may not cause harmful interference, and (2) this device must accept any interference received, including interference that may cause undesired operation.
Description of the read-write heads Technical data TNER-Q80-H1147 Figure 23 TNER-Q80H1147 LED 40 27,2 65 ø 5,3 M12 x 1 Table 22:TNERQ80-H1147 D101583 0207 80 92 114 This device complies with Part 15 of the FCC Rules. Operation is subject to the following two conditions: (1) this device may not cause harmful interference, and (2) this device must accept any interference received, including interference that may cause undesired operation. Type Ident-No.
Description of the read-write heads Technical data TNLR-Q80-H1147 Figure 24 TNLR-Q80-H1147 LED 40 27,2 65 ø 5,3 M12 x 1 Table 23:TNLRQ80-H1147 6 – 26 80 92 114 This device complies with Part 15 of the FCC Rules. Operation is subject to the following two conditions: (1) this device may not cause harmful interference, and (2) this device must accept any interference received, including interference that may cause undesired operation. Type Ident-No.
Description of the read-write heads Technical data TNLR-Q80-H1147/S1126 Figure 25 TNLR-Q80H1147/S1126 LED 40 27,2 65 ø 5,3 M12 x 1 Table 24:TNLRQ80-H1147/S1126 D101583 0207 80 92 114 This device complies with Part 15 of the FCC Rules. Operation is subject to the following two conditions: (1) this device may not cause harmful interference, and (2) this device must accept any interference received, including interference that may cause undesired operation. Type Ident-No.
Description of the read-write heads Technical data TN-S32XL-H1147 Figure 26 TN-S32XL-H1147 This device complies with Part 15 of the FCC Rules. Operation is subject to the following two conditions: (1) this device may not cause harmful interference, and (2) this device must accept any interference received, including interference that may cause undesired operation. ø 100 ø 6,5 LED Pot. 60 137,5 120 111,25 M12 x 1 32 Table 25: Type TN-S32XL-H1147 Ident-No.
Description of the read-write heads Connection of the read-write heads The read-write heads are connected via an M12 × 1 connector with the BLident interface module. The power supply (24 V DC) and function are implemented via the BLident interface module. The standard cordsets feature the wiring diargam shown in figure 27. Figure 27 Wiring diagram, standard cables 6 1 BN 3 BU 4 WH 2 BK + Data Data 2 1 3 4 The special cordsets .../S2502 feature a different wiring diagram (see figure 28).
Description of the read-write heads 6 – 30 D101583 0207 BL ident
Operating data 7 Description of the read-write heads with corresponding data carriers Notes for the operating data .............................................................................2 Operating data TB-M18-H1147............................................................................................3 TB-EM18WD-H1147 ...................................................................................3 TB-M18-H1147/S1126 ...........................................................................
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. Note Remember that the auxiliary factors, e.g. the influence of metals, are not considered for the sake of simplification.
Operating data Operating data for read-write head – TB-M18-H1147 – TB-EM18WD-H1147 Table 1: Operating data TB-...M18...
Operating data Operating data for read-write head – TB-M18-H1147/S1126 – TB-EM18WD-H1147/S1126 Table 2: Operating data TB-...M18...
Operating data Operating data for read-write head – TN-M18-H1147 – TN-EM18WD-H1147 Table 3: Operating data TN-...M18...
Operating data Operating data for read-write head – TN-M18-H1147/S1126 – TN-EM18WD-H1147/S1126 Table 4: Operating data TN-...M18...
Operating data Operating data for read-write head – TB-M30-H1147 Table 5: Operating data TB-M30-H1147 D101583 0207 Corresponding data carrier Read-write distance Recommended [mm] Maximum [mm] TW-R16-B64 12 23 TW-R16-B128 12 23 TW-R20-B128 15 27 TW-R30-B128 13 30 TW-R50-B128 20 43 TW-R20-K2 15 22 TW-R30-K2 15 27 TW-R50-K2 15 33 TW-R50-90-HT-B128 5 10 TW-I14-B128 15 27 TW-L43-43-F-B128 25 42 TW-L82-49-P-B128 20 43 BL ident 7 7–7
Operating data Operating data for read-write head – TB-EM30WD-H1147 Table 6: Operating data TB-...M30...
Operating data Operating data for read-write head – TB-M30-H1147/S1126 Table 7: Operating data TB-M30-H1147/ S1126 D101583 0207 Corresponding data carrier Read-write distance Recommended [mm] Maximum [mm] TW-R16-B128 12 23 TW-R20-B128 15 27 TW-R30-B128 13 30 TW-R50-B128 20 43 TW-R22-HT-B64 5 17 TW-R50-90-HT-B128 5 10 TW-I14-B128 15 27 TW-L43-43-F-B128 25 42 TW-L82-49-P-B128 20 43 BL ident 7 7–9
Operating data Operating data for read-write head – TB-EM30WD-H1147/S1126 Table 8: Operating data TB-...M30...
Operating data Operating data for read-write head – TN-M30-H1147 Table 9: Operating data TN-M30-H1147 D101583 0207 Corresponding data carrier Read-write distance Recommen-ded [mm] Maximum [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-R50-90-HT-B128 19 39 TW-R50-90-HT-K2 12 25 TW-I14-B128 22 40 TW-L43-43-F-B128 30 64 TW-L82-49-P-B128 30 65 BL ident 7 7 – 11
Operating data Operating data for read-write head – TN-EM30WD-H1147 Table 10: Operating data TN-...M30...
Operating data Operating data for read-write head – TN-M30-H1147/S1126 Table 11: Operating data TN-M30-H1147/ S1126 D101583 0207 Corresponding data carrier Read-write distance Recommended [mm] Maximum [mm] TW-R16-B64 20 38 TW-R16-B128 20 38 TW-R20-B128 22 40 TW-R30-B128 22 43 TW-R50-B128 40 72 TW-R22-HT-B64 12 30 TW-R50-90-HT-B128 19 39 TW-I14-B128 22 40 TW-L43-43-F-B128 30 64 TW-L82-49-P-B128 30 65 BL ident 7 7 – 13
Operating data Operating data for read-write head – TN-EM30WD-H1147/S1126 Table 12: Operating data TN-EM30WDH1147/S1126 7 – 14 Corresponding data carrier Read-write distance Recommended [mm] Maximum [mm] TW-R16-B64 20 38 TW-R16-B128 20 38 TW-R20-B128 22 40 TW-R30-B128 22 43 TW-R50-B128 40 72 TW-R22-HT-B64 12 30 TW-R50-90-HT-B128 19 39 TW-I14-B128 22 40 TW-L43-43-F-B128 30 64 TW-L82-49-P-B128 30 65 D101583 0207 BL ident
Operating data Operating data for read-write head – TN-CK40-H1147 Table 13: Operating data TN-CK40-H1147 D101583 0207 Corresponding data carrier Read-write distance Recommended [mm] Maximum [mm] TW-R16-B64 28 50 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-R50-90-HT-B128 26 52 TW-R50-90-HT-K2 24 48 TW-I14-B128 30 50 TW-L43-43-F-B128 50 90 TW-L82-49-P-B128 50 96 BL ident 7 7 – 15
Operating data Operating data for read-write head – TN-CK40-H1147/S1126 Table 14: Operating data TN-CK40-H1147/ S1126 7 – 16 Corresponding data carrier Read-write distance Recommended [mm] Maximum [mm] TW-R16-B64 28 50 TW-R16-B128 28 50 TW-R20-B128 30 50 TW-R30-B128 30 53 TW-R50-B128 45 85 TW-R22-HT-B64 20 40 TW-R50-90-HT-B128 26 52 TW-I14-B128 30 50 TW-L43-43-F-B128 50 90 TW-L82-49-P-B128 50 96 D101583 0207 BL ident
Operating data Operating data for read-write head – TN-Q80-H1147 Table 15: Operating data TN-Q80-H1147 D101583 0207 Corresponding data carrier Read-write distance Recommen-ded [mm] Maximum [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-R50-90-HT-B128 42 85 TW-R50-90-HT-K2 33 67 TW-I14-B128 35 65 TW-L43-43-F-B128 60 115 TW-L82-49-P-B128 65 128 BL ident 7 7 – 17
Operating data Operating data for read-write head – TN-Q80-H1147/S1126 Table 16: Operating data TN-Q80-H1147/ S1126 7 – 18 Corresponding data carrier Read-write distance Recommended [mm] Maximum [mm] TW-R16-B64 20 52 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-R22-HT-B64 25 55 TW-R50-90-HT-B128 42 85 TW-I14-B128 35 65 TW-L43-43-F-B128 60 115 TW-L82-49-P-B128 65 128 D101583 0207 BL ident
Operating data Operating data for read-write head – TNER-Q80-H1147 Table 17: Operating data TNER-Q80H1147 Corresponding data carrier Read-write distance Recommended [mm] Maximum [mm] TW-R16-B64 20 52 TW-R22-HT-B64 35 70 7 D101583 0207 BL ident 7 – 19
Operating data Operating data for read-write head – TNLR-Q80-H1147 Table 18: Corresponding Operating data data carrier TNLR-Q80-H1147 7 – 20 Read-write distance Recommended [mm] Maximum [mm] TW-R16-B128 50 85 TW-R20-B128 50 88 TW-R30-B128 60 115 TW-R50-B128 80 165 TW-R20-K2 40 75 TW-R30-K2 60 98 TW-R50-K2 90 144 TW-R50-90-HT-B128 60 135 TW-R50-90-HT-K2 60 114 TW-I14-B128 50 85 TW-L43-43-F-B128 90 155 TW-L82-49-P-B128 90 168 D101583 0207 BL ident
Operating data Operating data for read-write head – TNLR-Q80-H1147/S1126 Table 19: Operating data TNLR-Q80H1147/S1126 D101583 0207 Corresponding data carrier Read-write distance Recommended [mm] Maximum [mm] TW-R20-B128 50 88 TW-R30-B128 60 115 TW-R50-B128 80 165 TW-R22-HT-B64 39 74 TW-R50-90-HT-B128 60 135 TW-I14-B128 50 85 TW-L43-43-F-B128 90 155 TW-L82-49-P-B128 90 168 BL ident 7 7 – 21
Operating data Operating data for read-write head – TN-S32XL-H1147 Table 20: Corresponding Operating data data carrier TN-S32XL-H1147 7 – 22 Read-write distance Recommen-ded [mm] Maximum [mm] TW-R16-B128 20 67 TW-R20-B128 36 72 TW-R30-B128 30 80 TW-R50-B128 80 150 TW-R20-K2 32 64 TW-R30-K2 30 78 TW-R50-K2 60 128 TW-R50-90-HT-B128 58 1117 TW-R50-90-HT-K2 42 85 TW-I14-B128 36 72 TW-L43-43-F-B128 80 140 TW-L82-49-P-B128 80 160 D101583 0207 BL ident
Overtravel ranges 8 Description of the read-write heads with corresponding data carriers Notes for the overtravel distances ....................................................................3 Overtravel distance read-write head – housing style M18 TN-...M18...-H1147... with data carrier TW-R16-B128. ..............................5 TB-...M18...-H1147... with data carrier TW-R16-B128 ...............................5 TN-...M18...-H1147... with data carrier TW-R20-B128. ..............................6 TB-..
Overtravel ranges Overtravel distance read-write head – housing style Q40 TN-CK40-H1147... with data carrier TW-R16-B128 .................................21 TN-CK40-H1147... with data carrier TW-R20-B128 .................................22 TN-CK40-H1147... with data carrier TW-R30-B128 .................................22 TN-CK40-H1147... with data carrier TW-R50-B128 .................................23 TN-CK40-H1147... with data carrier TW-R20-K2......................................23 TN-CK40-H1147...
Overtravel ranges 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 readwrite head and the data carrier, but also on the memory type of the data carrier (EEPROM or FRAM) (see Overview table 1). The characteristic curves of the high temperature data carriers TW50-90-HT-B128 and TW-50-90-HT-K2 are not listed separately.
Overtravel ranges Table 1: Data carrier memory type 8–4 Type HighMemory temperature size resistant Memory type TW-R16-B64 – 64 Byte EEPROM TW-R16-B128 – 128 Byte EEPROM TW-R20-B128 – 128 Byte EEPROM TW-R30-B128 – 128 Byte EEPROM TW-R50-B128 – 128 Byte EEPROM TW-R20-K2 – 2 kByte FRAM TW-R30-K2 – 2 kByte FRAM TW-R50-K2 – 2 kByte FRAM TW-R22-HT-B64 ✔ 64 Byte EEPROM TW-R50-90-HT-B128 ✔ 128 Byte EEPROM TW-R50-90-HT-K2 ✔ 2 kByte FRAM TW-I14-B128 – 128 Byte EEPR
Overtravel ranges Read-write head TN-...M18...-H1147... overtravel distance with data carrier TW-R16-B128. Figure 1 Overtravel distance TN...M18...-H1147... with TW-R16B128 30 mm 25 20 15 10 5 0 0 5 10 8 20 mm 25 15 Read-write head TB-...M18...-H1147... overtravel distance with data carrier TW-R16-B128. Figure 2 Overtravel distance TB...M18...-H1147...
Overtravel ranges Read-write head TN-...M18...-H1147... overtravel distance with data carrier TW-R20-B128. 25 20 15 mm Figure 3 Overtravel distance TN....M18...-H1147... with TW-R20B128 10 5 0 0 5 10 15 20 25 30 mm Read-write head TB-...M18...-H1147... overtravel distance with data carrier TW-R20-B128. Figure 4 Overtravel distance TB...M18...-H1147...
Overtravel ranges Read-write head TN-...M18...-H1147... overtravel distance with data carrier TW-R30-B128. Figure 5 Overtravel distance TN...M18...-H1147... with TW-R30B128 30 mm 25 20 15 10 5 0 0 5 10 15 20 25 mm 30 8 Read-write head TB-...M18...-H1147... overtravel distance with data carrier TW-R30-B128. Figure 6 Overtravel distance TB...M18...-H1147...
Overtravel ranges Figure 7 Overtravel distance TN...M18...-H1147... with TW-R50B128 mm Read-write head TN-...M18...-H1147... overtravel distance with data carrier TW-R50-B128., 45 40 35 30 25 20 15 10 5 0 0 10 20 30 40 50 60 mm Read-write head TN-...M18...-H1147... overtravel distance with data carrier TW-R20-K2, Figure 8 Overtravel distance TN...M18...-H1147...
Overtravel ranges Read-write head TB-...M18...-H1147... overtravel distance with data carrier TW-R20-K2, Figure 9 Overtravel distance TB...M18...-H1147... with TW-R20-K2 14 12 10 mm 8 6 4 2 0 -2 8 0 2 4 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...
Overtravel ranges Read-write head TN...-...M18...-H1147... overtravel distance with data carrier TW-R50-K2 Figure 11 Overtravel distance TN-M18H1147 with TWR50-K2 35 30 mm 25 20 15 10 5 0 0 10 20 30 40 mm 50 Read-write head TN-...M18..-H1147... overtravel distance with data carrier TW-L43-43-F-B128 40 mm Figure 12 Overtravel distance TN...M18...-H1147...
Overtravel ranges Read-write head TB-...M18..-H1147... overtravel distance with data carrier TW-L43-43-F-B128 35 30 25 mm Figure 13 Overtravel distance TB...M18...-H1147... with TW-L43-43F-B128 20 15 10 5 0 0 5 10 15 20 25 30 mm Read-write head TN-...M18..-H1147... overtravel distance with data carrier TW-L82-49-P-B128 40 mm Figure 14 Overtravel distance TN...M18...-H1147...
Overtravel ranges Read-write head TB-...M18..-H1147... overtravel distance with data carrier TW-L82-49-P-B128 Figure 15 Overtravel distance TB-...M18...H1147... with TW-L82-4-PB128 30 mm 25 20 15 10 5 0 0 10 20 30 40 mm 50 Read-write head TN-...M30...-H1147... overtravel distance with data carrier TW-R16-B128.
Overtravel ranges Read-write head TB-...M30...-H1147... overtravel distance with data carrier TW-R16-B128. Figure 17 Overtravel distance TB...M30...-H1147... with TW-R16B128 25 mm 20 15 10 5 0 0 5 10 15 20 mm 25 8 Read-write head TN-...M30...-H1147... overtravel distance with data carrier TW-R20-B128. Figure 18 Overtravel distance TN...M30...-H1147...
Overtravel ranges Read-write head TB-...M30...-H1147... overtravel distance with data carrier TW-R20-B128. Figure 19 Overtravel distance TB...M30...-H1147... with TW-R20B128 45 40 35 30 mm 25 20 15 10 5 0 0 10 20 30 mm 40 Read-write head TN-...M30...-H1147... overtravel distance with data carrier TW-R30-B128. Figure 20 Overtravel distance TN...M30...-H1147...
Overtravel ranges Read-write head TB-...M30...-H1147... overtravel distance with data carrier TW-R30-B128. Figure 21 Overtravel distance TB...M30...-H1147... with TW-R30B128 35 30 mm 25 20 15 10 5 0 0 5 10 15 20 25 mm 30 8 Read-write head TN-...M30...-H1147... overtravel distance with data carrier TW-R50-B128. Figure 22 Overtravel distance TN...M30...-H1147...
Overtravel ranges Read-write head TB-...M30...-H1147... overtravel distance with data carrier TW-R50-B128 Figure 23 Overtravel distance TB...M30...-H1147... with TW-R50B128 50 45 40 35 mm 30 25 20 15 10 5 0 0 10 20 30 mm 40 Read-write head TN-...M30...-H1147... overtravel distance with data carrier TW-R20-K2 Figure 24 Overtravel distance TN...M30...-H1147...
Overtravel ranges Read-write head TB-...M30...-H1147... overtravel distance with data carrier TW-R20-K2 Figure 25 Overtravel distance TB...M30...-H1147... with TW-R20-K2 25 mm 20 15 10 5 8 0 0 5 10 15 mm 20 Read-write head TN-...M30...-H1147... overtravel distance with data carrier TW-R30-K2 Figure 26 Overtravel distance TN...M30...-H1147...
Overtravel ranges Read-write head TB-...M30...-H1147... overtravel distance with data carrier TW-R30-K2 Figure 27 Overtravel distance TB...M30...-H1147... with TW-R30-K2 30 mm 25 20 15 10 5 0 0 5 10 15 20 25 30 mm Read-write head TN-...M30...-H1147... overtravel distance with data carrier TW-R50-K2 Figure 28 Overtravel distance TN...M30...-H1147...
Overtravel ranges Read-write head TB-...M30...-H1147... overtravel distance with data carrier TW-R50-K2 Figure 29 Overtravel distance TB...M30...-H1147... with TW-R50…K2 35 mm 30 25 20 15 10 5 0 0 10 30 mm 40 20 8 Read-write head TN-...M30...-H1147... overtravel distance with data carrier TW-L43-43-F-B128 70 mm Figure 30 Overtravel distance TN...M30...-H1147...
Overtravel ranges Read-write head TB-...M30...-H1147... overtravel distance with data carrier TW-L43-43-F-B128 50 mm Figure 31 Overtravel distance TB...M30...-H1147... with TW-L43-43F-B128 40 30 20 10 0 0 10 20 30 40 mm 50 Read-write head TN-...M30...-H1147... overtravel distance with data carrier TW-L82-49-P-B128 70 mm Figure 32 Overtravel distance TN...M30...-H1147...
Overtravel ranges Read-write head TB-...M30...-H1147... overtravel distance with data carrier TW-L82-49-P-B128 50 mm Figure 33 Overtravel distance TNB-M30H1147 with TWL82-49-P-B128 40 30 20 10 0 0 10 20 30 40 50 mm 60 8 Read-write head TN-CK40-H1147... overtravel distance with data carrier TW-R16-B128 Figure 34 Overtravel distance TNCK40-H1147...
Overtravel ranges Read-write head TN-CK40-H1147... overtravel distance with data carrier TW-R20-B128 60 50 40 mm Figure 35 Overtravel distance TNCK40-H1147... with TW-R20B128 30 20 10 0 0 10 20 30 40 mm 50 Read-write head TN-CK40-H1147... overtravel distance with data carrier TW-R30-B128 Figure 36 Overtravel distance TNCK40-H1147...
Overtravel ranges Read-write head TN-CK40-H1147... overtravel distance with data carrier TW-R50-B128 Figure 37 Overtravel distance TNCK40-H1147... with TW-R50B128 90 80 70 60 mm 50 40 30 20 10 0 0 20 40 60 80 mm 100 8 Read-write head TN-CK40-H1147... overtravel distance with data carrier TW-R20-K2 Figure 38 Overtravel distance TNCK40-H1147...
Overtravel ranges Read-write head TN-CK40-H1147... overtravel distance with data carrier TW-R30-K2 Figure 39 Overtravel distance TNCK40-H1147... with TW-R30-K2 60 mm 50 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 40 Overtravel distance TNCK40-H1147...
Overtravel ranges Read-write head TN-CK40-H1147... overtravel distance with data carrier TW-L43-43-F-B128 100 90 80 70 60 50 40 30 20 10 0 mm Figure 41: Overtravel distance TNCK40-H1147... with TW-L82-49P-B128 0 10 20 30 40 50 60 70 80 mm 8 Read-write head TN-CK40-H1147... overtravel distance with data carrier TW-L82-49-P-B128 Figure 42 Overtravel distance TN-CK40H1147...
Overtravel ranges Read-write head TN-Q80-H1147 overtravel distance with data carrier TW-R16-B128 Figure 43 Overtravel distance TN-Q80H1147 with TWR16-B128 60 mm 50 40 30 20 10 0 0 10 20 30 40 50 mm 60 Read-write head TN-Q80-H1147 overtravel distance with data carrier TW-R20-B128 Figure 44 Overtravel distance TN-Q80H1147 with TWR20-B128 70 60 50 mm 40 30 20 10 0 8 – 26 0 10 20 30 40 50 60 70 mm D101583 0207 BL ident
Overtravel ranges Read-write head TN-Q80-H1147 overtravel distance with data carrier TW-R30-B128 Figure 45 Overtravel distance TN-Q80H1147 with TWR30-B128 80 70 60 mm 50 40 30 20 10 0 0 10 20 30 40 50 60 70 80 mm 8 Read-write head TN-Q80-H1147 overtravel distance with data carrier TW-R50-B128 Figure 46 Overtravel distance TN-Q80H1147 with TWR50-B128 120 mm 100 80 60 40 20 0 D101583 0207 0 BL ident 20 40 60 80 100 120 mm 8 – 27
Overtravel ranges Read-write head TN-Q80-H1147 overtravel distance with data carrier TW-R20-K2 Figure 47 Overtravel distance TN-Q80H1147 with TWR20-K2 60 50 mm 40 30 20 10 0 0 10 20 30 40 50 60 mm Read-write head TN-Q80-H1147 overtravel distance with data carrier TW-R30-K2 Figure 48 Overtravel distance TN-Q80H1147 with TWR30-K2 80 70 60 mm 50 40 30 20 10 0 8 – 28 0 10 20 30 40 50 60 70 80 mm D101583 0207 BL ident
Overtravel ranges Read-write head TN-Q80-H1147 overtravel distance with data carrier TW-R50-K2 Figure 49 Overtravel distance TN-Q80H1147 with TWR50-K2 120 mm 100 80 60 40 20 0 8 0 20 40 60 80 mm 100 Read-write head TN-Q80-H1147 overtravel distance with data carrier TW-L43-43-F-B128 Figure 50 Overtravel distance TN-Q80H1147 with TWL43-43-B128 140 120 100 mm 80 60 40 20 0 D101583 0207 0 BL ident 20 40 60 80 100 120 mm 8 – 29
Overtravel ranges Read-write head TN-Q80-H1147 overtravel distance with data carrier TW-L82-49-P-B128 Figure 51 Overtravel distance TN-Q80H1147 with TWL82-49-P-B128 140 120 100 mm 80 60 40 20 0 50 100 mm 150 Read-write head TNLR-Q80-H1147 overtravel distance with data carrier TW-R16-B128 100 90 80 70 60 50 40 30 20 10 0 mm Figure 52 Overtravel distance TNLR-Q80H1147 with TWR16-B128 8 – 30 0 10 20 30 40 50 60 70 80 mm D101583 0207 BL ident
Overtravel ranges Read-write head TNLR-Q80-H1147 overtravel distance with data carrier TW-R20-B128 100 90 80 70 60 50 40 30 20 10 0 mm Figure 53 Overtravel distance TNLR-Q80H1147 with TWR20-B128 0 10 20 30 40 50 60 70 80 mm 8 Read-write head TNLR-Q80-H1147 overtravel distance with data carrier TW-R20-K2 80 70 60 50 40 30 20 10 0 mm Figure 54 Overtravel distance TNLR-Q80H1147 with TWR20-K2 D101583 0207 0 BL ident 10 20 30 40 50 60 70 80 mm 8 – 31
Overtravel ranges Read-write head TNLR-Q80-H1147 overtravel distance with data carrier TW-R30-B128 Figure 55 Overtravel distance TNLR-Q80H1147 with TWR30-B128 140 120 100 mm 80 60 40 20 0 0 20 40 60 80 mm 100 Read-write head TNLR-Q80-H1147 overtravel distance with data carrier TW-R30-K2 Figure 56 Overtravel distance TNLR-Q80H1147 with TWR30-K2 120 100 mm 80 60 40 20 0 8 – 32 0 20 40 60 80 100 mm D101583 0207 BL ident
Overtravel ranges Read-write head TNLR-Q80-H1147 overtravel distance with data carrier TW-R50-B128 180 160 140 120 100 80 60 40 20 0 mm Figure 57 Overtravel distance TNLR-Q80H1147 with TWR50-B128 0 50 100 mm 150 8 Read-write head TNLR-Q80-H1147 overtravel distance with data carrier TW-R50-K2 160 140 120 100 80 60 40 20 0 mm Figure 58 Overtravel distance TNLR-Q80H1147 with TWR50-K2 D101583 0207 0 BL ident 50 100 mm 150 8 – 33
Overtravel ranges Read-write head TNLR-Q80-H1147 overtravel distance with data carrier TW-L43-43-F-B128 180 160 140 120 100 80 60 40 20 0 mm Figure 59 Overtravel distance TNLR-Q80H1147 with TWL43-43-F-B128 0 50 100 mm 150 Read-write head TNLR-Q80-H1147 overtravel distance with data carrier TW-L82-49-P-B128 Figure 60 Overtravel distance TNLR-Q80H1147 with TWL82-49-P-B128 180 160 140 120 100 mm 80 60 40 20 0 8 – 34 0 50 100 mm D101583 0207 150 BL ident
Overtravel ranges Read-write head TN-S32XL-H1147 overtravel distance with data carrier TW-R16-B128 80 70 60 50 mm Figure 61 Overtravel distance TNS32XL-H1147 with TW-R16B128 40 30 20 10 0 0 20 40 60 80 mm 100 8 Read-write head TN-S32XL-H1147 overtravel distance with data carrier TW-R30-B128 Figure 62 Overtravel distance TN32XL-H1147 with TW-R30-B128 90 80 70 mm 60 50 40 30 20 10 0 D101583 0207 0 BL ident 20 40 60 80 mm 100 8 – 35
Overtravel ranges Read-write head TN-S32XL-H1147 overtravel distance with data carrier TW-R50-B128.
Overtravel ranges Read-write head TN-S32XL-H1147 overtravel distance with data carrier TW-R50-K2 Figure 65 Overtravel distance TNS32XL-H1147 with TW-R50…K2 140 mm 120 100 80 60 40 20 0 0 20 40 60 80 8 100 120 140 mm Read-write head TN-S32XL-H1147 overtravel distance with data carrier TW-L43-43-F-B128 160 140 120 100 80 60 40 20 0 mm Figure 66 Overtravel distance TN-S32XLH1147 with TWL43-43-F-B128 D101583 0207 0 BL ident 50 100 mm 150 8 – 37
Overtravel ranges Read-write head TN-S32XL-H1147 overtravel distance with data carrier TW-L82-49-P-B128 180 160 140 120 100 80 60 40 20 0 mm Figure 67 Overtravel distance TN-S32XLH1147 with TWL82-49-P-B128 8 – 38 0 50 100 mm D101583 0207 150 BL ident
Accessories 9 Accessories General description of the accessories.............................................................2 Accessories for Ø 30 mm and Ø 50 mm data carriers Spacer DS-R30 ...........................................................................................3 Spacer DS-R50 ...........................................................................................4 Accessories for cylindrical read-write heads of housing style M18 Mounting clip BS18 ..................................
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-write heads. Spacers are used for mounting the Ø 30 mm and Ø 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.
Accessories Accessories for Ø 30 mm and Ø 50 mm data carriers Spacer DS-R30. Figure 1 Spacer DS-R30 ø 3,9 ø 30 10 9 Table 1: Spacer DS-R30 D101583 0207 Type DS-R30 Ident-No.
Accessories Spacer DS-R50. Figure 2 Spacer DS-R50 ø 3,9 ø 50 10 Table 2: Spacer DS-R50 9–4 Type DS-R50 Ident-No.
Accessories Accessories for cylindrical read-write heads of housing style M18 Mounting clip BS185 Figure 3 Mounting clip BS185 ø 18.2 fixing screw 22 40 7.5 ø 5.5 Table 3: Mounting clip BS185 D101583 0207 Type 45 30 BS18 9 Ident-No.
Accessories Mounting clip BSN18 Figure 4 Mounting clip BSN18 20 25 32 18 40 Table 4: Mounting clip BSN18 9–6 Type BSN18 Ident-No.
Accessories Mounting clip with limit stop BST-18B Figure 5 Mounting clip BST-18B M5 28 20 40 24 ø 18 Table 5: Mounting clip BST-18B D101583 0207 30 Type BST-18B Ident-No.
Accessories Mounting clip without limit stop BST-18N Figure 6 Mounting clip BST-18N M5 20 28 40 24 ø 18 Table 6: Mounting clip BST-18N 9–8 30 Type BST-18N Ident-No.
Accessories Quick mounting mounts QM-18 Figure 7 Quick mounting mounts QM-18 30/5 M24 x 1,5 ø 18 Table 7: Quick mounting mounts QM-18 D101583 0207 20,5 36 Type QM-18 Ident-No.
Accessories Cover cap SKN/M18 Figure 8 Cover cap SKN/ M18 22 5 M18 x 1 Table 8: Cover cap SKN/ M18 9 – 10 Type SKN/M18 Ident-No.
Accessories Accessories for cylindrical read-write heads of housing style M30 Mounting clip with limit stop BST-30B Figure 9 Mounting clip BST-30B M5 54 20 42 36 ø 30 30 Table 9: Mounting clip BST-30B D101583 0207 9 Type BST-30B Ident-No. 6947216 Description Mounting clip with limit stop for cylindrical read-write heads M30 x 1.
Accessories Mounting clip without limit stop BST-30N Figure 10 Mounting clip BST-30N M5 20 54 42 36 ø 30 30 Table 10: Mounting clip BST-30N 9 – 12 Type BST-30N Ident-No. 6947217 Description Mounting clip without limit stop for cylindrical read-write heads M30 x 1.
Accessories Quick mounting mounts QM-30 Figure 11 Quick mounting mounts QM-30 41/6 ø 30 20,5 36 Table 11: Quick mounting mounts QM-30 D101583 0207 Type QM-30 Ident-No. 6945103 Description Quick mounting mounts for cylindrical read-write heads M30 x 1.
Accessories Cover cap SKN/M30 Figure 12 Cover cap SKN/ M30 34 9 M30 x 1,5 Table 12: Cover cap SKN/ M30 9 – 14 Type SKN/M30 Ident-No. – Description Teflon cover cap for cylindrical read-write heads M30 × 1.
Accessories 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 30 40 60 15 24 9 Table 13: Mounting aid BST-UH D101583 0207 Type BST-UH Ident-No. 6947219 Description Mounting aid for BST mounting clipsfor cylindrical read-write heads M18 × 1 and M30 × 1.
Accessories Mounting aid for BST mounting clips BST-UV Figure 14 Mounting aid BST-UV 13 40 54 15 24 Table 14: Mounting aid BST-UV 9 – 16 Type BST-UV Ident-No. 6947218 Description Mounting aid for BST mounting clipsfor cylindrical read-write heads M18 × 1 and M30 × 1.
Accessories Inscription labels for BST mounting clips BST-BS Figure 15 Inscription labels BST-BS 77x Table 15: Inscription labels BST-BS D101583 0207 Type BST-BS 9 Ident-No. 6947220 Description Inscription labels for BST mounting clipsfor cylindrical read-write heads M18 × 1 and M30 × 1.
Accessories Accessories for rectangular read-write heads of housing style CK40 Protective mounting MF-CK40-1S Figure 16 Protective mounting MF-CK40-1S 9 22 46 60 65 1 ø 5,3 (6x) Table 16: Protective mounting MF-CK40-1S 9 – 18 20 30 40 Type MF-CK40-1S Ident-No.
Accessories Protective mounting MF-CK40-2S Figure 17 Protective mounting MF-CK40-2S 65 60 22 46 9 21,5 9 20 20 30 43 ø 5,3 (8x) 1 Table 17: Protective mounting MF-CK40-2S D101583 0207 40 9 Type MF-CK40-2S Ident-No.
Accessories Protective mounting MF-CK40-3S Figure 18 Protective mounting MF-CK40-3S 65 60 22 46 9 9 20 20 30 45 ø 5,3 (10x) 1 Table 18: Protective mounting MF-CK40-3S 9 – 20 40 Type MF-CK40-3S Ident-No.
Accessories Protective housing SG40 Figure 19 Protective housing SG40 50 55 67 75 50 143 Pg 13,5 Table 19: Protective housing SG40 D101583 0207 190 9 Type SG40 Ident-No.
Accessories Protective housing SG40/2 Figure 20 Protective housing SG40/2 50 55 67 75 50 143 Pg 13,5 Table 20: Protective housing SG40/2 9 – 22 190 Type SG40/2 Ident-No.
Accessories Adjustable rail JS 025/037 Figure 21 Adjustable rail JS 025/037 40 ø 5,3 70 30 100 5 Table 21: Adjustable rail JS 025/037 D101583 0207 9 Type JS 025/037 Ident-No.
Accessories Cover cap MF-CK40-1S Figure 22 Cover cap T-CK40-T-FC Table 22: Cover cap T-CK40-T-FC 9 – 24 Type T-CK40-T-FC Ident-No.
Accessories Cover cap T-CK40-D-FC Figure 23 Cover cap T-CK40-D-FC Table 23: Cover cap T-CK40-D-FC D101583 0207 Type T-CK40-D-FC Ident-No.
Accessories Handheld with accessories Handheld computer PD-ident Figure 24 Handheld computer PDident Table 24: Handheld computer PDident Type PD-ident Ident-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.
Accessories Handheld computer PS-ident-WLAN with WLAN functionality Table 25: Handheld computer PDident-WLAN Type PD-ident-WLAN Ident-No. 1542340 Description Same features as PD-ident additionally with WLAN and Bluetooth functionality Handheld accessories 9 Table 26: Handheld computer PDident-PF Table 27: Handheld computer PDident-DS D101583 0207 Type PD-ident-PF Ident-No. 1542336 Description Display protective file (25 pieces) Type PD-ident-DS Ident-No.
Accessories Table 28: Handheld computer PDident-RB Table 29: Handheld computer PDident-BC Table 30: Handheld computer PDident-RS Table 31: Handheld computer PDident-CB 9 – 28 Type PD-ident-RB Ident-No. 1542337 Description Spare rechargeable battery Type PD-ident-BC Ident-No. 1542335 Description Rechargeable battery charger Type PD-ident-RS Ident-No. 1542338 Description Spare pins (25 pieces) Type PD-ident-CB Ident-No.
D101583 0207 BL ident 9 – 29
TURCK WORLD-WIDE HEADQUARTERS www.turck.com GERMANY Hans Turck GmbH & Co. KG Witzlebenstraße 7 45472 Mülheim an der Ruhr P. O. Box 45466 Mülheim an der Ruhr Phone +49 208 4952-0 Fax +49 208 4952-2 64 E-Mail more@turck.