USER MANUAL RFID-SYSTEM INSTALLATION OF THE BL IDENT® UHF-SYSTEMS Sense it! Connect it! Bus it! Solve it!
1 General Information ................................................................................................................. 5 1.1 Intended purpose of this documentation .............................................................................................. 6 1.2 Meaning of the symbols used ................................................................................................................ 6 1.3 Safety notes ...............................................................
– – – – – – – Overview of UHF data carriers with Impinj Monza® 4QT chip – private mode ............................................................27 Overview of UHF data carriers with Impinj Monza® 4QT chip – public mode ..............................................................28 Overview of UHF data carriers with Impinj Monza® 5 chip ..................................................................................................28 Overview of UHF data carriers with Alien Higgs® 3 chip ............
4.2.3 4 Effect of third party components ...................................................................................................................................................... 53 – Reflections and interference .......................................................................................................................................................... 53 – Third party components in the same frequency band ..........................................................................
8.2 FCC digital device limitations (only for read/write head TN902-…) .................................................... 78 8.3 ANATEL approval (only for read/write head TN902/915-…)................................................................ 78 8.4 SRRC approval (only for read/write head TN840/920-…) .................................................................... 79 8.5 KSQ approval (only for read/write head TN917-…) ........................................................................
1 General Information 1.1 Intended purpose of this documentation .............................................................................................. 8 1.2 Meaning of the symbols used ................................................................................................................ 8 1.3 Safety instructions ................................................................................................................................. 8 1.3.1 1.3.2 1.3.3 Intended use .......
General Information 1.1 Intended purpose of this documentation This manual contains all the information for the proper installation of the BL ident® UHF system particularly with regard to the data carriers and read/write heads. The following chapter give an overview of the BL ident® UHF system, how to plan a BL ident® UHF system, shows the necessary mounting regulations and provides a brief overview of the EMC guidelines.
Safety notes 1.3.1 Intended use Danger The devices described in this manual must only be used for the intended applications described herein and in the relevant technical description, and only in conjunction with certified systems and components of other suppliers. To ensure correct and safe operation of the devices, proper transportation, storage, assembly and installation, as well as careful operation and maintenance must be ensured. 1.3.
General Information Minimum distances to the read/write head acc. to ETSI (Europe) For the maximum permissible total radiant output power acc. to ETSI (2 W EIRP) the safety distance is d = 0.24 m. Do not get closer than 24 cm to the active radiant area of the read/write head for long periods. According to current knowledge, a short stay in this area is not harmful, even when repeated. Minimum distances to the read/write head acc. to FCC (USA) For the maximum permissible total radiant output power acc.
Relevant documents 1.5 Relevant documents The following documents in addition to this manual can be obtained from www.turck.com: D101581 – Interface modules for fieldbus connection. This manual describes the proper operation of BL ident® interface modules.
General Information 12 D101831 0713 BLident® Installation of the UHF System
2 The TURCK BL ident® UHF System 2.1 BL ident® – Modular RFID system.......................................................................................................... 14 2.1.1 2.1.2 2.1.3 2.1.4 BL ident® – System concept.................................................................................................................................................................. 14 BL ident® – Data carriers........................................................................................
The TURCK BL ident® UHF System 2.1 BL ident® – Modular RFID system BL ident® is a complete RFID system that shows its particular benefits primarily in industrial environments. The modular system is based on the BL67 I/O systems (for field mounting) and the BL20 (for control cabinet mounting) and the BL compact fieldbus modules.
BL ident® – Modular RFID system Figure 1: Gateway for BL20 (example PROFIBUS-DP): Standard gateway (left) and ECONOMY gateway (right) LED 114,8 72,6 74,4 75 129,5 33,5 50,6 Figure 2: Gateway for BL67 (example PROFIBUS-DP) LED 32 77,5 145 13 Interface modules: electronic and base modules The individual interface modules of the modular I/O systems each consist of a passive base module and an electronic module.
The TURCK BL ident® UHF System Figure 3: Base module for BL20 (left) and BL67 (right) 128,9 12,6 The electronic modules contain the functions of the interface modules (power supply modules, digital and analog input and output modules and technology modules such as RFID modules). They are fitted to the base modules and are independent of the wiring. During commissioning or maintenance, the electronic modules can be removed and fitted without having to disconnect the field wiring.
BL ident® – Modular RFID system Table 1: Combination and function matrix for BL ident® interfaces (sets) in IP20 (BL20) Fieldbus BL ident® interface (set): Gateway + electronic module (with base module) TypeA Gateway x = No.
The TURCK BL ident® UHF System Table 2: Combination and function matrix for BL ident® interfaces (sets) in IP67 (BL67) Fieldbus BL ident® interface (set): Gateway + electronic module (with base module) TypeA Gateway x = No.
BL ident® – Modular RFID system Table 3: Combination and function matrix for BL ident® BL compact (IP67) Fieldbus InterfaceA Function PROFIBUS-DP BLCDP-2M12MT-2RFID-A BLCDP-2M12MT-2RFID-S DeviceNetTM CANopen Multiprotocol:Modb us-TCP + EtherNet/IPTM Type …2RFID-AB Type …2RFID-SD 2 × read/write head xC x BLCDP-6M12LT-2RFID-A8DI-PD BLCDP-6M12LT-2RFID-S8DI-PD 2 × read/write head + 8 × digital input xC x BLCDP-6M12LT-2RFID-A8XSG-PD BLCDP-6M12LT-2RFID-S8XSG-PD 2 × read/write head + 8 × digita
The TURCK BL ident® UHF System Figure 5: BL compact station (example PROFIBUS-DP): only for read/write heads (left) and with additional digital channels (right) 44,5 32,5 44,5 32,5 71 71 102 ±1 113 20 157 ±1 168 D101831 0713 - BLident® Installation of the UHF System
Schematic representation of the BL ident® UHF identification system 2.2 Schematic representation of the BL ident® UHF identification system The TURCK BL ident® system consists of several levels. Each level offers a wide range of possibilities. An application tailored to the total system is possible.
The TURCK BL ident® UHF System 2.2.1 Networking with BL ident® UHF systems BL ident® systems can be integrated in (existing) bus systems, enabling the networking of several BL ident® systems. The guidelines for the maximum extension of the bus system used apply. A PROFIBUS-DP system can consist of up to 31 stations and a master without the use of repeaters. 2.3 Identification systems with radio frequency technology (RFID) RFID is the acronym for Radio Frequency Identification.
Features and application areas of the BL ident® system 2.4.2 Lifespan The lifespan is determined by the number of possible read/write operations on the data carriers. EEPROM data carriers can ensure an unlimited number of read operations and 105 write operations. The data carriers do not require any batteries. 2.4.3 Transmission frequency The TURCK BL ident® system operates at nationally specified transmission frequencies in the UHF range of (865...
The TURCK BL ident® UHF System 2.4.4 Mounting types Data carriers Data carriers for the UHF RFID range are available in different mounting forms and fixing options, and are either optimized for small housing dimensions or large data transmission ranges. Besides the frequency ranges, the selection criteria for the data carriers depend on the application at hand.
User data areas of the UHF data carrier variants 2.6 User data areas of the UHF data carrier variants 2.7 General information on the UHF data carriers The UHF data carrier memory hierarchy is divided into four logical areas (also called domains) in accordance with ISO 18000-6C and can accommodate several blocks – each block consisting of 2 bytes.
The TURCK BL ident® UHF System Figure 7: UHF data carrier memory hierarchy MSB 00hex MSB 10hex 00hex MSB Bank 11 220hex 210hex User Bank 10 TID Bank 01 EPC/UII/... Bank 00 Reserved 20hex 10hex 00hex MSB 30hex 20hex 10hex 00hex .. . Word 0 of Block 0 .. . TID [15:0] TID [31:16] .. . Optional XPC_W2 [15:0] Optional XPC_W2 [15:0] .. . EPC/UII/... [15:0] .. . EPC/UII/... [N:N-15] PC [15:0] CRC [15:0] .. .
General information on the UHF data carriers 2.7.2 User data areas of the data carrier variants Overview of UHF data carriers with Impinj Monza® 3 chip The type Impinj Monza® 3 UHF data carriers are provided with a UII memory area of 12 bytes. The following table describes the data structure of the data carriers. Table 4: Memory area of Impinj Monza® 3 Bank address Bank name [bin.] 10 01 00 Memory address No.
The TURCK BL ident® UHF System Overview of UHF data carriers with Impinj Monza® 4E chip The type Impinj Monza® 4E UHF data carriers are provided with a UII memory area of 62 bytes. The following table describes the data structure of the data carriers. Table 6: Memory area of Impinj Monza® 4E Bank address [bin.] Memory address No. of bytes Remark [hex.
General information on the UHF data carriers Overview of UHF data carriers with Impinj Monza® 4QT chip – private mode This memory chip has two different states for dividing the memory; Private mode and Public mode. Private mode is the factory setting and is available in operation with the BLxx-2RFID-S, BLxx-2RFID-A electronic modules and BLcompact. The type Impinj Monza® 4QT UHF data carriers in Private mode are provided with a UII memory area of 16 bytes and a freely available user area of 64 bytes.
The TURCK BL ident® UHF System Overview of UHF data carriers with Impinj Monza® 4QT chip – public mode Note The following specifications for the Impinj Monza 4QT in public mode is only for information purposes since public mode is not supported by the BL ident® system. The type Impinj Monza® 4 QT UHF data carriers are provided in public mode with a UII memory area of 12 bytes. The following table describes the data structure of the data carriers.
General information on the UHF data carriers Overview of UHF data carriers with Alien Higgs® 3 chip The type Alien Higgs® 3 UHF data carriers are provided with a UII memory area of 12 bytes and a freely available user area of 64 bytes. The following table describes the data structure of the data carriers. Table 10: Memory area of Alien Higgs® 3 Bank address Bank name [bin.] Memory address No. of bytes Remark [hex.
The TURCK BL ident® UHF System Overview of UHF data carriers with NXP U-Code G2XM/G2XL chip The type NXP U-Code G2XM/G2XL UHF data carriers are provided with a UII memory area of 30 bytes. The following table describes the data structure of the data carriers. Table 11: Memory area of NXP U-Code G2XM/G2XL Bank address [bin.] Memory address No. of bytes Remark [hex.
General information on the UHF data carriers Overview of UHF data carriers NXP U-Code G2IM chip The type NXP U-Code G2IM data carriers are provided with a UII memory area of 16 bytes and a freely available user area of 64 bytes and a user TID of 14 bytes. The following table describes the data structure of the data carriers. Table 12: Memory area of NXP U-Code G2IM Bank address Bank name [bin.] Memory address No. of bytes Remark [hex.
The TURCK BL ident® UHF System Overview of UHF data carriers with NXP U-Code G2IL chip The type NXP U-Code G2IL UHF data carriers are provided with a UII memory area of 16 bytes. The following table describes the data structure of the data carriers. Table 13: Memory area of NXP U-Code G2IL Bank address [bin.] 10 01 00 34 Bank name Memory address No.
Speed of the data carrier at the read/write head on RFID systems 2.8 Speed of the data carrier at the read/write head on RFID systems The speed at which the data carrier can move past the read/write head depends on the data volume to be processed, the combination of read/write head and data carrier as well as the spatial conditions of the environment.
The TURCK BL ident® UHF System 2.10 BL ident® Simulator for UHF-RFID (Ray Tracer) The Ray Tracer is a software simulation tool that enables the functioning of a wide range of different UHF RFID system constellations to be tested in realistic conditions. Three-dimensional computer models of the RFID application environment and algorithms for calculating the radio wave propagation in the space realistically simulate the operation of UHF-RFID systems.
Compatibility Figure 9: Example of a Ray Tracer field strength simulation 2.11 Compatibility All technical data refers to the BL ident® system, i.e. the combinations of BL ident® data carriers, read/ write heads and RFID electronic modules. Completely different values may apply to data carriers of other vendors.
The TURCK BL ident® UHF System 2.12 Application areas (examples): The features stated in the previous chapter allow the use of a TURCK BL ident® system in the following sectors: Automotive Transport and handling Machine building Food and beverage Chemical industry Pharmaceutical and petrochemical industry.
3 BL ident® System – Planning 3.1 Selection criteria for data carriers, read/write heads and interface module ....................................... 40 3.2 Transmission zone and read/write distance ........................................................................................ 40 3.2.1 3.2.2 3.2.3 3.2.4 3.2.5 3.2.6 3.2.7 3.2.8 3.2.9 3.2.10 UHF transmission zone ...................................................................................................................................
BL ident® System – Planning 3.
Transmission zone and read/write distance Reserve transmission distances should be allowed for in planning in order to ensure safe operation. Depending on the mounting conditions, this means for example, that only approx. 40 ... 80 % of the maximum possible distance Dread_ideal is actually used for read operations based on the maximum possible read distance Dread_ideal for a particular combination of read/write head and data carrier. The possible distance for a write mode may be even less, e.g.
BL ident® System – Planning 3.2.4 Reading and writing in static mode In static mode, the data carrier is located in a fixed positioned precisely in front of the read/write head. Unlike HF, UHF allows use up to a greater distance of several meters. In this mode, the processing of a large number of data carriers is possible, however, due to the inhomogeneous UHF field, several transfer attempts may be necessary, and the data carriers may not even be detected in this mode as they are located in a dead zone.
Transmission zone and read/write distance 3.2.9 Minimum distance between two adjacent data carriers in multiple access Multiple access means a read/write head can communicate with several data carriers at the same time. The read/write head can thus address a data carrier selectively by means of its UII/EPC. In order to access several data carriers located at the same time within the wireless sensing range of the read/write head, as large a distance between the data carriers should be selected as possible.
BL ident® System – Planning 44 D101831 0713- BLident® Installation of the UHF System
4 Mounting and operating guidelines 4.1 Effect on the performance of the BL ident® system ............................................................................. 46 4.1.1 4.1.2 4.1.3 4.1.4 4.1.5 4.1.6 4.1.7 4.1.8 4.1.9 Minimum / maximum distance between read/write heads .................................................................................................... 46 Minimum distance of read/write heads to conductive materials ................................................................
Mounting and operating guidelines 4.
Effect on the performance of the BL ident® system 4.1.2 Minimum distance of read/write heads to conductive materials A minimum distance of the read/write heads to conductive materials should be observed due to the detuning of the read/write heads through a conductive environment. The following minimum distances must be observed when mounting read/write heads: A minimum distance of 50 cm must be observed between a read/write head and liquids or metals.
Mounting and operating guidelines 4.1.3 Minimum distance of data carriers to conductive walls A distance of 20...200 mm is recommended if conductive walls and obstacles are present in the environment that shadow the radio field. The effect of walls is minimized in all cases if the polarization axis is orthogonal to the wall. Figure 14: Minimum distances of data carriers to a conductive wall, polarization axis orthogonal conductive wall polarization axis 50...
Effect on the performance of the BL ident® system 4.1.4 Minimum distance between data carriers A minimum distance of 50 mm must be observed between data carriers. Figure 17: Minimum distances between data carriers 50 mm 4.1.5 Minimum distance of smart label data carriers between each other A minimum distance of 50 mm must be observed between smart labels. Figure 18: Minimum distances between data carriers (smart labels) 4.1.
Mounting and operating guidelines Other ways of preventing the interaction between read/write heads are: Observe the necessary minimum antenna distances according to their alignment The necessary minimum distance between the read/write heads using the same frequency depends on the set effective radiant power and the alignment of the antenna.
Effect on the performance of the BL ident® system Note When the read/write heads are used in Europe, the use of DRM filters is advantageous if several read/write heads are operated in a narrow space. These DRM filters can be switched on manually in the WebConfig software in the Link profiles menu. Synchronize read/write heads using a higher-level controller In order to minimize the interference between read/write heads, their mode should be as synchronized as possible, e.g.
Mounting and operating guidelines Figure 21: Frequency ranges in Korea, Frequency hopping procedure 200 kHz 600 kHz max. 4.0 W (EIRP) read/write signal data carrier response 917.0 917.3 Figure 22: Frequency ranges in the USA, frequency hopping procedure 917.9 918.5 919.1 919.7 f [MHz] 920,3 920,8 500 kHz max. 4.0 W (EIRP) 50 channels 902.0 902.5 902.75 Figure 23: Frequency ranges in China, Frequency hopping procedure 927.5 928.0 927.25 f [MHz] 250 kHz max. 2.0 W (ERP) 16 channels 920.
Effect on the performance of the BL ident® system Set the transmission output and possibly other read/write head parameters In order to reduce the mutual interference between components in the application, a practical transmission output setting and if necessary other read/write head parameters should be ensured, for example, via the DTM or the RDemo and WebConfig software tools.
Mounting and operating guidelines 4.1.9 Data carrier orientation in the room The orientation of the data carrier antenna to the antenna of the read/write head determines the read range. In order to achieve optimum performance and maximum read range, the data carrier antenna must be aligned parallel to the read/write head. Figure 24: Parallel data carrier alignment If the data carrier antenna is aligned vertically to the read/write head, this will only result in poor performance and a minimum read range.
Behavior of electromagnetic waves in the UHF range 4.2 Behavior of electromagnetic waves in the UHF range 4.2.1 Effect of reflections and interference Reflections and interference Electromagnetic waves in the UHF range behave and are propagated in a similar way to light waves, i.e. they are reflected on large objects such as ceilings, floors, walls, windows and interfere with each other.
Mounting and operating guidelines Third party components in the same frequency band Third party components may possibly transmit in the same frequency band as the read/write head. Alternatively, the third party components may transmit in other frequency bands with side bands that overlap the frequency bands of the read/write head. This may cause a decrease in the signal-tointerference ratio, thus reducing the performance of a BL ident® system.
5 Startup with the RDemo and WebConfig software tools 5.1 Testing, parameter assignment and configuration of the read/write heads ....................................... 58 5.1.1 5.1.2 Testing with RDemo............................................................................................................................................................................... 58 Parameter assignment and configuration with WebConfig........................................................................
Startup with the RDemo and WebConfig software tools 5.1 Testing, parameter assignment and configuration of the read/write heads The RDemo and WebConfig software application enables the read/write heads to be fully tested, parameterized and configured via a PC. These software tools are only designed for users wishing to make additional settings to the read/write heads other than the parameter options of BL ident®.
Testing, parameter assignment and configuration of the read/write heads 5.1.2 Parameter assignment and configuration with WebConfig The WebConfig software application enables the extensive parameterization and configuration of the read/write heads. The various setting options in WebConfig for the BL ident® read/write heads include the following: (Event handling) event handling with regard to LEDs/buzzers/messages (Gen2 Selection and truncate) Selection of data carriers and the setting of a status.
Startup with the RDemo and WebConfig software tools 60 D101831 0713 - BLident® Installation of the UHF System
6 EMC Guidelines 6.1 Target group ........................................................................................................................................ 62 6.2 Propagation of electromagnetic interference ..................................................................................... 62 6.3 RFID interference ................................................................................................................................. 63 6.4 EMC – Definition.................
EMC Guidelines 6.1 Target group These EMC guidelines are aimed at: Design engineers and planners involved in the planning the installation with the RFID modules to be configured. Fitters, service technicians and engineers using this description to ensure the proper installation of the connection cables or having to rectify faults if interference is present.
RFID interference 6.3 RFID interference Problem: Radiated interference via the current supply through the use of power supply units. Remedy: Use a stabilized power supply unit. Problem: Interference via the serial connection cable. Remedy: Improved cable shielding and/or grounding of the read/write head. Problem: HF interference via the antenna through another RFID read/write head. Remedy: Position the antennas further apart from each other or change the alignment of antennas to each other.
EMC Guidelines As the RFID modules are only components within an overall system and may produce new interference sources through the combination of various components, the design of an installation must comply with specific regulations. The interference immunity of an installation requires the implementation of a complete package of measures; in this case, the operator is responsible for the RFI suppression of the entire installation.
Basic rules for ensuring EMC 6.5.1 Installation in a control cabinet Magnetic and electrical fields and electromagnetic waves can be kept away from the interference sink by using a metal housing. The easier the induced interference current can flow, the greater the intrinsic weakening of the interference field. All housings and metal panels in the cabinet should therefore be connected with a low impedance connection.
EMC Guidelines 6.5.4 Shielding the cables Signal cables must be shielded in order to prevent the coupling of interference. The best shielding is achieved by installing the cables in steel tubes. However, the use of cables with braided shields is normally enough. In either case, however, correct connection is vital for effective shielding, since an unconnected or incorrectly connected shield has no shielding effect.
7 BL ident® – Data carriers for the UHF band 7.1 Function ............................................................................................................................................... 68 7.1.1 7.1.2 Memory module ...................................................................................................................................................................................... 68 Data carrier antenna......................................................................
BL ident® – Data carriers for the UHF band 7.1 Function The BL ident® data carriers are suitable for non-contact read and write operations with the appropriate read/write heads. The operating frequency in the UHF band is between 865 MHz and 928 MHz, depending on the region where the system is to be used. Different transmission distances are possible, depending on the dimensions of the data carrier and therefore the dimensions of its dipole antenna.
Type overview of the data carriers 7.2 Type overview of the data carriers The RFID operating frequencies in the UHF band are subject to national specifications, for example 865...868 MHz in Europe and 902...928 MHz in the USA. TURCK offers different data carrier variants that are specially designed and optimized for national frequency bands in order to achieve as large a transmission range as possible. Wide-band multi-range data carriers for international use are also available as an alternative.
BL ident® – Data carriers for the UHF band Dimensions/housing Memory Memory length size Table 16: (cont.) Type overview of the data carriers [Byte] Operating temperature Special features Type designation Clip with metal loop for fixing TW865-928-Q20L58B110 [° C] 110 8,5 EEPROM -30...+70 10 Customized labeling 57,5 45,9 19 20 112 EEPROM -40...+70 Flexible mounting form, for fixing on bent or irregular surfaces 112 EEPROM -40...
Type overview of the data carriers Table 16: (cont.) Type overview of the data carriers Dimensions/housing Memory Memory length size [Byte] Operating temperature Special features Type designation Ø 50 mm with central hole TW865-868-R50B110 [° C] 110 EEPROM -20...+85 ø 4,9 ø 50 TW902-928-R50B110 3,2 110 EEPROM -25…+85 High TW865-868-Q51-HTtemperature B110 110 EEPROM -35...+60 can be inserted in drill holes with Ø 13 mm, e.g. wood TW860-960-L73-14C-B110 110 EEPROM -35...
BL ident® – Data carriers for the UHF band Table 16: (cont.
8 BL ident® read/write heads for the UHF band 8.1 Function ............................................................................................................................................... 74 8.1.1 Read/write head antenna..................................................................................................................................................................... 74 8.2 Type overview of the read/write heads ...........................................................
BL ident® read/write heads for the UHF band 8.1 Function The BL ident® read/write heads (transceivers) are used for non-contact data exchange with the appropriate data carriers (tags). The UHF read/write heads form a transmission zone for which the size depends on the combination of read/write head, data carrier and the relevant ambient conditions. The maximum read/write distances only represent typical values under laboratory conditions without the effect of materials.
Type overview of the read/write heads 8.
BL ident® read/write heads for the UHF band 8.3 Connecting the read/write heads The read/write heads are connected with the BL ident® RFID electronic module via M12 × 1 male connectors. The power supply (24 VDC) and function are implemented with the BL ident® RFID electronic module.
LED functions of the read/write heads 8.3.1 Connecting the grounding terminal Depending on the device type, the grounding terminal is pre-assembled on the read/write head or is supplied with the device. When installing the read/write head on the tab connector ensure that the supplied cable lug is connected and properly grounded via a yellow/green cable with a cross section of at least 0.75 mm2. 8.
BL ident® read/write heads for the UHF band 8.5 Wall mounting of the TN...-Q240L280-H1147 read/write head with the RH-Q240L280/Q280L640 arm bracket available as an accessory For wall or ceiling mountings, the arm bracket can be fitted directly to the mounting plate of the read/ write head. The bracket enables the read/write head to be positioned in many directions. The two fixing ends of this element are connected to a rotatable arm via ball-joints.
9 Approvals 9.1 CE approvals (only for the TN865-… read/write head) ........................................................................ 80 9.2 FCC digital device limitations (only for read/write head TN902-…) .................................................... 80 9.3 ANATEL approval (only for read/write head TN902/915-…)................................................................ 80 9.4 SRRC approval (only for read/write head TN840/920-…) ..................................................
Approvals 9.1 CE approvals (only for the TN865-… read/write head) Hans Turck GmbH & Co.KGm declares herewith that this RF system in its intended use complies with the basic requirements and the other relevant provisions of the RTTE Directive 1999/5/EC. A complete declaration of conformity is available on request and is enclosed with every UHF RFID read/ write head. Approval in all European countries. 9.
SRRC approval (only for read/write head TN840/920-…) 9.4 SRRC approval (only for read/write head TN840/920-…) In accordance with the provisions on the radio regulations of the People‘s Republic of China, the following radio transmission equipment, after examination, conforms to the provisions with its CMIITID: TN840/920-Q240L280-H1147 TN840/920-Q175L200-H1147 TN840/920-Q120L130-H1147 9.
Approvals 82 D101831 0713 - BLident® Installation of the UHF System
10 A Glossary Automation device A device with inputs and outputs for controlling a connected technical process. Programmable logic controllers (PLCs) are a special group of automation devices. B User area freely available memory area on which user-specific data can be stored. Bus Group signal line for data exchange between hardware components (e.g. between CPU, memory and I/O levels). A bus can be composed of a number of parallel cables (addressing, control and power supply) for data transmission.
Glossary EMC Electromagnetic compatibility (EMC) denotes the normally desired state in which technical devices do not cause or suffer undesired electrical or electromagnetic interference to or from other devices in the same environment. EPC The electronic product code (EPC) is an international code system for a unique identification number, by which products, stock-keeping units (outer packaging, transport pallets etc.), systems, services, documents, reusable transport containers and locations (e.g.
LI IEC 61131 IEC 61131 is an international standard that covers the basic requirements of programmable controllers. Initialization During initialization, the memory space is reserved and filled with initial values (such as variables, code, buffer, ...) required for the execution.
Glossary RFID Radio Frequency Identification. RFID technology This technology enables a contactless transmission of data by means of an electromagnetic alternating field. This transmission method is also called radio frequency technology. A tag is used as a data carrier. S Read/write head The read/write head (also read/write device) generates an electromagnetic high frequency field. This is used to transfer data and the power supply for the data carriers (transponder).
UII Abbreviation for Unique Item Identifier. Identification number by which a data carrier is identified. W WebConfig Configuration tool for configuring UHF read/write heads.
Glossary 88 D101831 0713 - BLident® Installation of the UHF System
A Appendix A.1 Directional characteristics of the antenna for the TN...-Q240L280-H1147 read/write head .............. 90 A.1.1 A.1.2 A.1.3 A.1.4 Azimuth section, horizontal polarization ....................................................................................................................................... 90 Azimuth section, vertical polarization .............................................................................................................................................
Appendix A.1 Directional characteristics of the antenna for the TN...-Q240L280-H1147 read/write head 3dB half power beamwidth, horizontal: 70° 3dB half power beamwidth, vertical: 70° Polarization: circular/linear (adjustable) Represented frequency: f = 867 MHz A.1.
Directional characteristics of the antenna for the TN...-Q240L280-H1147 read/write head A.1.
Appendix A.1.
Directional characteristics of the antenna for the TN...-Q240L280-H1147 read/write head A.1.
Appendix A.2 Type code for BL ident® A.2.
Type code for BL ident® A.2.
Appendix A.2.3 Type code for BL ident® read/write heads Type code – example T N LR … – Q80 – H1147 – S – Ex Type code – explanation T N LR … Read/write head – Q80 Housing Housing M18 M30 Q14 Working frequency blank 13.56 MHz 865 865…868 MHz 902 902…928 MHz 840/ 840.5…844.5 920 MHz & 920.5…924.5 MHz 902/ 902…907 MHz 915 & 915…928 MHz 917 917…920.
Type code for BL ident® A.2.4 Type code for BL ident® data carriers Type code – example T W … – Q51 – M – HT – B128 – Ex Type code – explanation T W … Data carrier – Working frequency blank 13.
Appendix A.2.5 Type code for BL ident® connection technology (RFID cables) Type code – example … – RK4.5T – 5 / S2500 Type code – explanation … Usage – Usage FB– Food & Beverage type; resistant to all common acid and alkaline detergents and disinfectants; IP67 and IP69K RK4.5T Connector type Connector type RK4.5T female straight; 5-pin WK4.5T female angled; 5-pin RS4.5T male straight; 5-pin – 5 Cable length / Cable length 0.3 0.
Type code for fieldbus technology A.3 Type code for fieldbus technology A.3.1 Type code for BLxx gateways BL20 – . – GW – DPV1 BL20 Modular I/O system BL20 BL67 – Degree of protection IP20 Degree of protection IP67 .
Appendix A.3.2 Type code for BL compact BLC DN – x M12 L . – 4AI-VI – 2AO-V BLC DN Product group Fieldbus system CO DN DP CANopen DeviceNet™ PROFIBUS DP System designation BLC BL compact – 2 M12 L . Design – Power supply T separate M12 male for power supply blank no separate power supply Design S small: 93 x 71 x 32.5 mm M middle: 113 x 71 x 32.5 mm L large: 168 X 71 x 32.
Type code for fieldbus technology 2AO-V Optional second I/O module Optional second I/O module 1CVI CANopen interface 1RS232 RS232 interface 1RS485-422 RS485/422 interface 1SSI synchronous serial interface 2AI2AO-VI 2 analog inputs, current or voltage, and two analog outputs, voltage 2AI-I 2 analog inputs, current 2AI-PT 2 analog inputs, resistance thermometer 2AI-TC 2 analog inputs, thermocouple 2AI-V 2 analog inputs, voltage 2AO-I 2 analog outputs, current 2AO-V 2 analog outputs, voltage 2RFID-A adva
Appendix 102 D101831 0713 - BLident®-Installation des UHF-Systems
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