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1 | User Manual BD PoE | Users Manual | 1.90 MiB | December 06 2019 |
IDENTIFICATION INSTALLATION ID LRU500i-BD / ID LRU500i-PoE
(EU: 5117.000.00 / 5117.001.00; FCC: 5117.000.10 / 5117.001.10) M81210-2e-ID-B IDENTIFICATION ID LRU500i Note Note Note FEIG ELECTRONIC GmbH Lange Strasse 4 D-35781 Weilburg (Germany) Tel.: +49 6471 3109-0 http://www.feig.de identification-support@feig.de Copyright by With the edition of this document, all previous editions become void. Indications made in this manual may be changed without previous notice. Copying of this document and giving it to others and the use or communication of the contents thereof are forbidden without express authority. Offenders are liable to the payment of damages. All rights are reserved in the event of the grant of a patent or the registration of a utility model or design. Composition of the information in this document has been done to the best of our knowledge. FEIG ELECTRONIC GmbH does not guarantee the correctness and completeness of the details given in this manual and may not be held liable for damages ensuing from incorrect or incomplete information. Since, despite all our efforts, errors may not be completely avoided, we are always grateful for your useful tips. The instructions given in this manual are based on advantageous boundary conditions. FEIG ELECTRONIC GmbH does not give any guarantee promise for perfect function in cross environments and does not give any guarantee for the functionality of the complete system which incorporates the subject of this document. FEIG ELECTRONIC GmbH calls explicit attention that devices which are subject of this document are not designed with components and testing methods for a level of reliability suitable for use in or in connection with surgical implants or as critical components in any life support systems whose failure to perform can reasonably be expected to cause significant injury to human health. To avoid damage, injury or death the user or application designer must take reasonably prudent steps to protect against system failures. FEIG ELECTRONIC GmbH assumes no responsibility for the use of any information contained in this document and makes no representation that they are free of patent infringement. FEIG ELECTRONIC GmbH does not convey any license under its patent rights nor the rights of others. Installation Page 2 of 35 IDENTIFICATION ID LRU500i Contents Contents Contents 1 Safety Instructions 5 2 2.1 2.2 3 3.1 3.2 Performance Features of ID LRU500i 6 Performance Features ....................................................................................................... 6 Available Reader Types .................................................................................................... 6 7 Scope of Delivery ID LRU500i-BD ................................................................................................................... 7 ID LRU500i-PoE ................................................................................................................. 7 4 Installation 8 5 5.1 5.2 5.3 5.4 5.5 5.6 5.7 5.8 5.9 Terminals 12 Antenna Connection ........................................................................................................ 13 Power Supply ................................................................................................................... 14 5.2.1 Power Supply via Connector X2 ........................................................................... 14 5.2.2 Power Supply via PoE (Power over Ethernet) ...................................................... 15 Ethernet Interface on Connector X1 ............................................................................... 16 RS485 Interface on Connector X3 .................................................................................. 17 Data-Clock Interface on Connector X3 ........................................................................... 18 Digital Outputs on Connector X4 .................................................................................... 19 Relay Outputs on Connector X4 ..................................................................................... 20 Digital Inputs on Connector X5 ...................................................................................... 21 USB Mini Interface on Connector X6 .............................................................................. 23 5.9.1 USB Flash Drive Service Functions ...................................................................... 23 5.9.2 Reading of Log and Service Data ......................................................................... 23 5.9.3 Storing the Reader Configuration on a USB Flash Drive ...................................... 24 5.9.4 Copying the Configuration onto a Reader (Config-Cloning) .................................. 24 6 Operating and Display Elements 26 Installation Page 3 of 35 IDENTIFICATION ID LRU500i Contents 6.1 6.2 6.3 6.4 6.5 Status LEDs ..................................................................................................................... 26 Push Button T1 ................................................................................................................ 26 DIP Switches S1 ............................................................................................................... 27 Buzzer .............................................................................................................................. 27 Reader Power Adjustment .............................................................................................. 27 7 Technical Data 28 8 8.1 8.2 Radio Approvals 30 Europe (CE) ...................................................................................................................... 30 USA (FCC) and Canada (IC) ............................................................................................ 31 8.2.1 USA (FCC) and Canada (IC) Warning Notices ..................................................... 31 8.2.2 Installation with FCC/IC Approval ......................................................................... 31 8.2.3 Label Information ................................................................................................. 32 8.2.4 Antennas Approved in the USA (FCC) and Canada (IC) ...................................... 32 Annex A: Accessories ........................................................................................................... 33 List of Tables List of Figures 34 35 Installation Page 4 of 35 IDENTIFICATION ID LRU500i 1 Safety Instructions Safety Instructions 1 Safety Instructions The device may only be used for the intended purpose designed by the manufacturer. The manual should be conveniently kept available at all times for each user. Unauthorized changes and the use of spare parts and additional devices which have not been sold or recommended by the manufacturer may cause fire, electric shocks or injuries. Such unauthorized measures shall exclude any liability by the manufacturer. The liability-prescriptions of the manufacturer in the issue valid at the time of purchase are valid for the device. The manufacturer shall not be held legally responsible for inaccuracies, errors, or omissions in the manual or automatically set parameters for a device or for an incorrect application of a device. Repairs may only be executed by the manufacturer. Installation, operation and maintenance procedures should only be carried out by qualified personnel. Use of the device and its installation must be in accordance with national legal requirements and local electrical codes. When working on devices the valid safety regulations must be observed. This device is not suitable to be used in places where children are present. Prevent children access to the device. Equipment is intended for use only in restricted access area. Special advice for carriers of cardiac pacemakers:
Although this device doesnt exceed the valid limits for electromagnetic fields you should keep a minimum distance of 25 cm between the device or the antenna and your cardiac pacemaker. Installation Page 5 of 35 IDENTIFICATION ID LRU500i 2 Performance Features 2 Performance Features of ID LRU500i 2.1 Performance Features Performance Features With its compact size, its weather-resistant housing, a read range of 8 to 10 m and the circular-polarized antenna supporting any transponder orientation, the UHF Compact Reader ID LRU500i is ideally suited to provide efficient and secure vehicle access control. The Compact Reader can be easily installed on a VESA mount next to a barrier, gate or bollard due to its mechanical construction. The ID LRU500i can be easily integrated into existing access control systems via the Wiegand or RS485 interface. A version with Power-over-Ethernet (PoE) and USB is also available. To install the compact reader one cable is required for each interface and power supply; for PoE only the network cable is required. 2.2 Available Reader Types The following readers are available:
Order Number Reader Type 5117.001.00 5117.001.10 5117.000.00 5117.000.10 Description Device version with Power-over-Ethernet and USB for Europe ID LRU500i-PoE-EU ID LRU500i-PoE-FCC Device version with Power-over-Ethernet and USB for North America ID LRU500i-BD-EU ID LRU500i-BD-FCC Device version with Wiegand interface, RS485 and USB for Europe Device version with Wiegand interface, RS485 and USB for North America Installation Page 6 of 35 IDENTIFICATION ID LRU500i 3 Scope of Delivery 3 Scope of Delivery 3.1 ID LRU500i-BD Scope of Delivery The scope of delivery includes following components:
1 x ID LRU500i-BD 1 x ESKV 20 M20 cable gland for cable 613 mm; for USB 1 x RDE 20 M20 reduction sealing insert for cable 48 mm 1 x MFD 20/02/040 M20 multiple sealing insert for 2 cables; cable 24 mm 1 x MFD 20/03/045 M20 multiple sealing insert for 3 cables; cable 2.54.5 mm 2 x ID CTF-U UHF Windshield Transponder 3.2 ID LRU500i-PoE The scope of delivery includes following components:
1 x ID LRU500i-PoE 1 x MFD 25/01/065 M25 multiple sealing insert for 1 cable; cable 46.5 mm 1 x ESKV 20 M20 cable gland for cable 613 mm; for USB 1 x RDE 20 M20 reduction sealing insert for cable 48 mm 1 x MFD 20/02/040 M20 multiple sealing insert for 2 cables; cable 24 mm 1 x MFD 20/04/040 M20 multiple sealing insert for 4 cables; cable 24 mm 1 x MFD 16/02/040 M16 multiple sealing insert for 2 cables; cable 24 mm 2 x ID CTF-U UHF Windshield Transponder Installation Page 7 of 35 IDENTIFICATION 4 Installation Installation ID LRU500i 4 Installation The ID LRU500i is designed to be mounted outdoors on a VESA bracket. The reader should be mounted with the connections facing downwards to ensure tightness as shown below. Four holes for M5 screws are provided on the backside of the housing for mounting on the VESA bracket. The screws used should have a screw-in depth of maximum 8 mm. The housing can be opened by means of a hinge Therefore loosen the screws marked blue in Fig. 1 and swing away the front part of the reader. During installation, the dimensions of the reader when opened should be taken into account (see Fig. 3). For secondary protection the reader should be secured by means of an eye bolt (see Fig. 4), that should be fixed with screw locking varnish, and e.g. a wire rope. The suitable accessory ID ANT.UEB-A can be purchased from FEIG ELECTRONIC. Fig. 1: Dimensional drawing back view Installation Page 8 of 35 IDENTIFICATION ID LRU500i 4 Installation Fig. 2: Dimensional drawing side view Installation Page 9 of 35 IDENTIFICATION ID LRU500i 4 Installation Fig. 3: Dimensional drawing top view: opened housing Installation Page 10 of 35 IDENTIFICATION ID LRU500i 4 Installation Fig. 4: Secondary protection via eye bolt NOTE:
FEIG ELECTRONIC GmbH strongly recommends to secure the reader against falling by means of an eye bolt to prevent damage. Installation Page 11 of 35 IDENTIFICATION 5 Terminals Terminals ID LRU500i 5 Terminals The cable connections are located on the lower side of the reader. Fig. 5 shows the arrangement of the connectors and Table 1 gives an overview on the available connectors and interfaces. Table 2 lists the available operating and display elements. Fig. 5: Connection Overview Connector Description X1 X2 X3 X4 X5 X6 10/100 Base-T Ethernet with RJ45 Power Supply 1224 V DC 1 0 %
RS485 & Data/Clock (Wiegand) Relay Outputs & Digital Outputs Digital Inputs USB Mini Interface Table 1: Connection Terminals Operating /
Display Element Description T1 S1 LED 1 Push Button for configuration reset DIP switches to set pre-configured options Status LEDs for service & maintenance Buzzer Table 2: Operating and Display Elements Installation Page 12 of 35 IDENTIFICATION 5.1 Antenna Connection ID LRU500i 5 Terminals The TNC socket for connecting the external antenna is located on the lower side of the reader. The maximum tightening torque for the TNC sockets is 0.69 Nm (6.11 lbf in). For the power supply of external components, e.g. the UHF antenna multiplexer ID ISC.ANT.UMUX, it is possible to apply the VCC voltage of the reader (24 V DC / max. 500 mA) directly to the antenna cable. The antenna port must be configured accordingly in the reader. This option is not possible when powering the reader via PoE. Fig. 6: External antenna connection CAUTION:
Exceeding the tightening torque will destroy the antenna connection. The activation of the supply voltage on the antenna cable can damage the antennas from other manufacturers. It is recommended to use high-resistance UHF antennas. For any further questions please contact the FEIG technical support. Installation Page 13 of 35 IDENTIFICATION ID LRU500i 5 Terminals 5.2 Power Supply 5.2.1 Power Supply via Connector X2 The supply voltage of 1224 V DC has to be connected to terminal X2. Fig. 7: Connector X2 pin assignment for power supply Pin Number at Connector X2 Abbreviation 1 2 GND 1224 V Description Ground suppy voltage Supply voltage 1224 V DC 10 %
Table 3: Pin assignment for power supply CAUTION:
The reader has to be supplied by a limited power supply according EN 62368-1 Chapter Q.1, or with a NEC Class 2/LPS certified power supply. Each reader has to be supplied by a separate external power supply. Reversing the polarity of the supply voltage on X2 may destroy the device. External wiring for the power supply must fulfil the following norms/validation procedures:
Conductor Cross Section Validation Procedure from 0,5 mm or bigger smaller than 0,5 mm IEC 60332-1-2 and IEC 60332-1-3 IEC 60332-2-1 and IEC 60332-2-2 Table 4: Validation procedures for external wiring of the power supply Installation Page 14 of 35 IDENTIFICATION ID LRU500i 5 Terminals 5.2.2 Power Supply via PoE (Power over Ethernet) Optional the reader (only ID LRU500i-PoE) can be powered via the Ethernet interface on X1 with the use of a PoE Power over Ethernet power supply according to IEEE802.3at*, Class4 (30/25,5Watt). The DC supply can be achieved via the free pins 4, 5 and 7, 8 (Midspan-Power). Also a Phantom Powering (Inline-Power) via the signal pins 1, 2, 3 and 6 is possible. Depending on the conductor cross-section the following cable distances can be used:
Conductor Cross Section
(CAT57) 0,4 mm 0,6 mm Max. Cable Length for PoE
~ 30 m
~ 70 m Table 5: Max. cable length depending on the conductor cross section
* For detailed technical information regarding the 802.3at standard, please refer to the most recent edition of the corresponding IEEE specification. Fig. 8: LAN and PoE Connection NOTE:
This functionality is only available with the reader model ID LRU500i-PoE. An operation of an ID LRU500i-PoE via an external power supply and PoE at the same time is not It must be ensured that the reader is supplied with 42.5 V (48 V DC cable losses) at least. recommended and can cause interferences during operation. If the reader is supplied via PoE, no DC voltage can be provided at the connection for the external antenna. Installation Page 15 of 35 IDENTIFICATION ID LRU500i 5 Terminals 5.3 Ethernet Interface on Connector X1 The reader has an integrated 10/100 base-T network port for an RJ-45. Connection is made on X1 and has an automatic Crossover Detection according to the 100BASE-T Standard. With structured cabling STP CAT5 cables should be used. This ensures a reliable operation at 10 Mbps or 100 Mbps. The prerequisite for using TCP/IP protocol is that each device has a unique IP address on the network. All readers have a factory set IP address. The transmission parameters can be configured as required. Fig. 9: Ethernet connector Network IP Address Subnet Mask Port DHCP Address 192.168.10.10 255.255.0.0 10001 OFF Table 6: Standard factory configuration of the Ethernet connection NOTE The reader is equipped with a DHCP ready Ethernet interface. Installation Page 16 of 35 IDENTIFICATION ID LRU500i 5 Terminals 5.4 RS485 Interface on Connector X3 The RS485 interface is connected on X3. The transmission parameters can be configured via software protocol. Fig. 10: RS485 interface pin assignment on X3 Pin Number at Connector X3 Pin Assignment 4 5 6 RS485 B+
RS485 A GND Table 7: Pin Assignment X3 (RS485 Interface) NOTE:
The RS485 interface is only available in the reader version ID LRU500i-BD. Installation Page 17 of 35 IDENTIFICATION ID LRU500i 5 Terminals 5.5 Data-Clock Interface on Connector X3 The data-clock (Wiegand) interface is connected via terminal X3. Fig. 11: Pin assignment Data-Clock (Wiegand) interface on X3 Pin Number at Connector X4 1 2 3 Pin Assignment Wiegand D1 Wiegand D0 GND Table 8: Pin Assignment Data-Clock (Wiegand) Interface NOTE:
The data-clock interface is only available in Scan Mode in the reader version ID LRU500i-BD. The data-clock (Wiegand) interface cannot be used to configure the reader. For access control applications it is possible to connect the reader to two inputs of a Wiegand controller in parallel via an ID ISC.LR.WS-A Wiegand Switch and thus monitor two lanes (e.g. entrance and exit) simultaneously. Installation Page 18 of 35 IDENTIFICATION ID LRU500i 5 Terminals 5.6 Digital Outputs on Connector X4 There are 2 digital outputs available on terminal X4 (type LRU500i-BD none). The transistor connection, collector and emitter, of the optocoupler output is galvanically isolated from the reader electronic and routed to the outside at terminal X4 without internal additional circuitry. The output must therefore be supplied with an external voltage. Each output is linked fixed with an antenna. Reading of a valid transponder on the internal antenna will affect the digital output OPTO1-OUT, a valid reading on the external antenna will affect the digital output OPTO2-OUT. Fig. 12: Connector X4 pin assignment for digital outputs Pin Number at Connector X4 1 2 3 4 Pin Assignment OPTO2-OUT-C OPTO2-OUT-E OPTO1-OUT-C OPTO1-OUT-E Table 9: Pin Assignment X4 (Digital Outputs) Fig. 13: internal and external wiring of the digital outputs Installation Page 19 of 35 IDENTIFICATION CAUTION:
ID LRU500i 5 Terminals The outputs are designed for an input voltage of 12-24 V DC and an input current of max. 20 mA. Polarity reversal or overload of the outputs leads to their destruction!
The output is only intended for switching resistive loads. 5.7 Relay Outputs on Connector X4 There are 2 relay outputs (type LRU500i-BD only 1) available at terminal X4 as normally open contacts. With the LRU500i-PoE, each output is fixed with an antenna. Reading a valid transponder on the internal antenna affects the relay REL1, reading a valid transponder on the external antenna affects the relay REL2. Fig. 14: Connector X4 pin assignment for relay outputs (version LRU500i-PoE) Pin Number at Connector X4 Pin Assignment 5 6 7 8 REL2-COM REL2-NO REL1-COM REL1-NO Table 10: Pin Assignment Relay Outputs REL1/REL2 Fig. 15: External wiring of the relay outputs Installation Page 20 of 35 IDENTIFICATION ID LRU500i 5 Terminals Fig. 16: Connector X4 pin assignment for relay outputs (version LRU500i-BD) CAUTION:
The relay outputs are designed for max. 24 V DC / 2 A continuous load. The maximum switching current must not exceed 1 A. The relay outputs are intended for switching resistive loads only. In case an inductive load is connected, the relay contacts must be protected by an external protective circuit. 5.8 Digital Inputs on Connector X5 There are 2 digital inputs available on X5. The optocouplers on X5 are galvanically isolated from the reader electronics and must therefore be supplied with an external voltage. Fig. 17: Connector X5 pin assignment for digital inputs Installation Page 21 of 35 IDENTIFICATION ID LRU500i 5 Terminals Pin Number at Connector X5 Pin Assignment 1 2 3 4 OPTO2-IN OPTO2-IN +
OPTO1-IN OPTO1-IN +
Table 11: Pin Assignment X5 (digital inputs) Fig. 18: External wiring of the digital inputs The external resistor Rext is optional. When wiring the reader, make sure that the input voltage is at least 10.5 V. CAUTION:
The inputs are designed for an input voltage of 12-24 V DC and an input current of max. 20 mA. Polarity reversal or overload of the inputs leads to their destruction!
Installation Page 22 of 35 IDENTIFICATION ID LRU500i 5 Terminals 5.9 USB Mini Interface on Connector X6 The reader is equipped with an integrated USB on-the-go interface. This can be used either to connect the reader to a host system or, by means of a special on-the-go adapter cable, for connection of a USB memory stick to the reader. In both cases, the connection is carried out via terminal X6. The pinout is standardized. A standard shielded USB cable can be used to connect the reader to a host system. The data rate of the reader is limited to 12 Mbit (USB full speed). Fig. 19: USB Mini interface for host communication NOTE:
The length of the USB cable must not exceed 5 m (200 inch). It is not allowed to use longer cables. 5.9.1 USB Flash Drive Service Functions Via an optionally available USB On-The-Go adapter cable, the interface can be converted to a USB host interface. The adapter cable allows the connection of a USB memory stick to the reader. The USB memory stick can be used to carry out various service functions, such as reading log and service data and uploading a configuration file. 5.9.2 Reading of Log and Service Data When connecting the USB flash drive during a running operation, the reader will create a subdirectory in the root directory named after the device ID of the connected reader (see label on the back side of the reader) and store device information such as firmware status and IP address in the INFO.LOG file within this directory. If a corresponding file already exists for this reader the file will be updated with the new information and the current date and time. Fig. 20: USB On-The-Go adapter cable Installation Page 23 of 35 IDENTIFICATION ID LRU500i 5 Terminals In addition, the files ACTION.LOG and SERVICE.LOG with further information for service and maintenance for the devices will be generated and stored on the USB flash drive. The function of the CONFIG.INI is described in the following chapter. After plugging in the USB flash drive the green and red status LEDs will light up permanently. After successful completion of the USB actions the red LED will go out and the green LED will start flashing again. The USB flash drive can be disconnected from the device after the red status LED goes out. In case of an error, the red status LED will start flashing until the USB flash drive is removed. NOTE:
After plugging in the USB flash drive the status LEDs of the reader should be observed. The USB flash drive may only be disconnected from the reader if the USB actions have been completed!
The USB on-the-go adapter cable may only be used in conjunction with a USB flash drive. When used for a PC connection the reader may be destroyed or work with strange behavior!
5.9.3 Storing the Reader Configuration on a USB Flash Drive When connecting the USB flash drive during running operation, the reader will store the readable configuration as an editable and readable CSV file (CONFIG.INI) on the USB flash drive. This file will be stored in the root directory of the USB flash drive for easy copying of the configuration (See chapter 0 Copying the Configuration onto a Reader (Config-Cloning) on page 24.). In addition, the same file will be stored in a subdirectory named after the according device ID (see label on the back side of the reader). Thereby it is possible to save the configuration files of several readers e.g. from one system/installation to the same USB flash drive. All non-locked configuration pages (CFG pages) including the interface parameters of a device will be copied onto the USB flash drive. Password protected configuration pages will not be copied. After plugging in the USB flash drive the green and red status LEDs will light up permanently. After successful completion of the USB actions the red LED will go out and the green LED will start flashing again. The USB flash drive can be disconnected after the red status LED goes out. In case of an error the red status LED will start flashing until the USB flash drive is removed. NOTE:
If a configuration file CONFIG.IN already exists in the main directory of the USB memory stick, the old file will be overwritten. Password-protected configuration pages (see CFG 0) are not written to the USB memory stick. No error message appears. After connecting the USB memory stick to the reader, the reader LEDs should be observed. The USB memory sticks may only be disconnected from the reader after the USB actions have been completed. 5.9.4 Copying the Configuration onto a Reader (Config-Cloning) In order to copy the configurations stored in a USB flash drive to a reader, the reader must be switched off before connecting the USB flash drive. After switching on the reader, the reader will search for a USB flash drive during the boot process and copy the configuration from the root directory to its memory. Installation Page 24 of 35 IDENTIFICATION ID LRU500i 5 Terminals It must be ensured that no configuration page (CFG page) is password protected in the reader. If configuration pages are password protected, the configuration file will not be copied onto the reader. This also applies if individual configuration parameters contain values out of the permissible range. After successful completion of the USB actions the red status LED will go out and the green status LED will start flashing again. After the red status LED went out the USB flash drive can be disconnected. In case of an error the red status LED will start flashing until the USB flash drive is removed. NOTE:
Connecting a USB flash drive during a running operation of the reader may overwrite an existing configuration file stored on the USB memory stick (See chapter 5.9.3 Storing the Reader Configuration on a USB Flash Drive on page 24.). Installation Page 25 of 35 IDENTIFICATION ID LRU500i 6 Operating and Display Elements 6 Operating and Display Elements 6.1 Status LEDs Operating and Display Elements The status LEDs are located under the push button T1 and the DIP switches S1. Reader status LEDs Res.
(yellow) FLASH ON
-
-
-
-
-
Warning
(red) COM
(yellow) RUN
(green)
-
-
-
-
ON FLASH
(alternating) FLASH
-
-
-
FLASH
-
-
FLASH
-
-
FLASH FLASH FLASH FLASH
(alternating) FLASH
(sequentially) Description While T1 is pushed and hold for 5 s to initiate a reset. Reader performs a reset (after pushing T1 for 5 s). Reader operates normally. Reader receives a valid protocol from host. RF Warning [0x84]
Hardware warning; perform Reader Diagnostic [0x6E]
for further information. Firmware transfer from host to reader. Do not switch off the reader or disconnect the interface cable during firmware transfer!
Table 12: Reader status LED overview Description UHF power switched on transponder detected antenna impedance error (unequal 50 ) UHF power switched on transponder detected antenna impedance error (unequal 50 ) Table 13: Antenna status LED overview Antenna status LEDs LED Label Ext. Ant. Int. Ant. Color green blue red green blue red 6.2 Push Button T1 By means of the push button T1 a complete configuration reset can be performed. The push button is located between the DIP switches and connector X1 on the circuit board. Fig. X shows the position of the push button. To press the reset button T1 it is necessary to open the housing by means of the hinge after loosening the screws. To reset the reader back to factory default push the button for at least 5 s until the reset LED below the button is switched on continuously. After releasing the push button the reader performs a restart. During a complete configuration reset all parameters of the reader will be reset back to factory default and need to be configured again. Installation Page 26 of 35 IDENTIFICATION 6.3 DIP Switches S1 ID LRU500i 6 Operating and Display Elements The DIP switches S1 are located left of the push button T1 and the X1 Ethernet connector. They can be used to set pre-defined reader configurations. DIP 1 OFF ON DIP 2 OFF OFF DIP 3 OFF OFF DIP 4 OFF OFF OFF ON OFF OFF Profile 0 1 2 315 Description no profile sends Wiegand-26 format for FEIG windshield transponders
(for ID LRU500i-BD only) sends Wiegand-26 format for nedap windshield transponders
(for ID LRU500i-BD only) RFU Table 14: pre-defined reader configurations via DIP switches 6.4 Buzzer The buzzer is located above the digital inputs on terminal X5. It is used to notify the service personnel of events during maintenance and service. 6.5 Reader Power Adjustment In order to achieve high reading ranges, it is necessary to set the reader output power to the highest allowed level. This depends on the reader type used (EU/FCC) and the applicable radio regulations at the installation site. The output power is adjustable in 100 mW steps from 0.1 W to 1 W. NOTE:
Both in the EU version and in the FCC version of the reader the output power of the internal antenna must not exceed 0.8 W. The admissible max. output power is 2 W e.r.p. for EU versions and 4 W e.i.r.p. for FCC versions. The output power depends on the antenna gain. For calculating the reader output power the Excel file Calc-RF-Power.xls is available from FEIG ELECTRONIC GmbH. If a circular polarized antenna is used the antenna gain [dBic] can be reduced by 3 dB. If using a linear polarized antenna the max. antenna gain [dBi] must be used. Installation Page 27 of 35 IDENTIFICATION ID LRU500i 7 Technical Data Technical Data 7 Technical Data Mechanical Data Housing Dimension (W x H x D) Weight Mounting Protection Class Colour Electrical Data Power Supply Current Consumption Operating Frequency EU Reader FCC Reader Output Power Antenna Connection RF Diagnostic Outputs 2 x Optocoupler 2 x Relay (LRU500i-BD: 1 x Relay) Inputs 2 x Optocoupler CAUTION:
Plastic (ASA-PC) Aluminum 290 mm x 290 mm x 100 mm
(11.4 x 11.4 x 3.9) 2800 g VESA FDMI MIS-D 100 mm x 100 mm IP 65 Anthracite, translucent 1224 V DC ( 10 %), PoE+
typical 16 W (22 W with PoE+) 865 MHz to 868 MHz 902 MHz to 928 MHz 100 mW to max. 1 W configurable in steps of 100 mW 1 x R-TNC jack (50 )
(Reverse-TNC) RF channel monitoring, Antenna SWR control, Internal Overheating Protection max. 24 V DC / 20 mA max. 24 V DC / 1 A switching current, 2 A permanent current max. 24 V DC / 20 mA Overheating of the device may result in performance losses. It is recommended to activate the RF of the reader only if there is a transponder in the detection range of an antenna. Ethernet, USB (OTG) Wiegand, RS485, USB (OTG) ISO Host Mode, Notification Mode, Buffered Read Mode ISO Host Mode, Scan Mode EPC Class 1 Gen 2 EPC Class 1 Gen 2 V2 ISO 18000-6-C (upgrade code required) ISO 18000-63 (upgrade code required) Signal light with red/green/blue 10 LEDs to indicate operation and antenna state Buzzer Installation Page 28 of 35 Interfaces Version PoE Version BD Protocol Modes Version PoE Version BD Functional Properties Supported Transponder Types Indicators IDENTIFICATION Further Features Environmental Conditions Temperature Range Operation Storage Humidity Vibration Shock Applicable Standards Radio Regulation Europe USA Canada EMC Safety Human Exposure Others Low Voltage India ID LRU500i 7 Technical Data Anti-Collision, output of RSSI values and phase angle, battery-assisted Real Time Clock, supports encrypted transponder communication, Secure Key Storage, Config Cloning Function
-25 C to 55 C
-25 C to 85 C 5 % to 95 % (non-condensing) EN 60068-2-6 10 Hz to 150 Hz: 0,075 mm / 1 g EN 60068-2-27 Acceleration: 30 g EN 302 208 FCC 47 CFR Part 15 IC RSS-GEN, RSS-210 BIS IS 13252 Part 1 EN 301 489 EN 62368 EN 50364 RoHS, WEEE Installation Page 29 of 35 ID LRU500i 8 Radio Approvals IDENTIFICATION 8 Radio Approvals 8.1 Europe (CE) Radio Approvals Hereby FEIG ELECTRONIC GmbH declares that the radio equipment type ID LRU500i is in compliance with Directive 2014/53/EU. The full text of the EU declaration of conformity is available at the following internet address:
http://www.feig.de/en/downloads-support/declarations-of-conformity.html Performance Classification according to ETSI EN 301 489: Class 2 Installation Page 30 of 35 IDENTIFICATION ID LRU500i 8 Radio Approvals 8.2 USA (FCC) and Canada (IC) 8.2.1 USA (FCC) and Canada (IC) Warning Notices Product name:
FCC ID:
IC:
Notice for USA and Canada ID LRU500i-FCC PJMLRU500i 6633A-LRU500i This device complies with Part 15 of the FCC Rules and with ISED licence-exempt RSS standard(s). 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. Unauthorized modifications may void the authority granted under Federal communications Commission Rules permitting the operation of this device. This equipment has been tested and found to comply with the limits for a Class A digital device, pursuant to Part 15 of the FCC Rules. These limits are designed to provide reasonable protection against harmful interference when the equipment is operated in a commercial environment. This equipment generates, uses, and can radiate radio frequency energy and, if not installed and used in accordance with the instruction manual, may cause harmful interference to radio communications. Operation of this equipment in a residential area is likely to cause harmful interference in which case the user will be required to correct the interference at his own expense. Lmetteur/rcepteur exempt de licence contenu dans le prsent appareil est conforme aux CNR d'Innovation, Sciences et Dveloppement conomique Canada applicables aux appareils radio exempts de licence. L'exploitation est autorise aux deux conditions suivantes :
(1) l'appareil ne doit pas produire de brouillage ;
(2) l'appareil doit accepter tout brouillage radiolectrique subi, mme si le brouillage est susceptible d'en compromettre le fonctionnement. NOTE:
Changes or modifications made to this equipment not expressly approved by FEIG ELECTRONIC GmbH may void the FCC authorization to operate this equipment. 8.2.2 Installation with FCC/IC Approval To comply with FCC Part 15 Rules in the United States / IC Radio Standards in Canada, the system must be professionally installed to ensure compliance with the FCC Part 15 certification / IC certification. It is the responsibility of the operator and professional installer to ensure that only certified systems are deployed in the United States / Canada. The system is intended for industrial and commercial use and requires professional installation. The device and the software required for commissioning and operation are only available from FEIG ELECTRONIC or its distributors. Installation, commissioning, configuration and operation require qualified knowledge of high-frequency and RFID technology due to its complexity. The connections used are from the industrial sector. Installation Page 31 of 35 IDENTIFICATION 8.2.3 Label Information ID LRU500i 8 Radio Approvals The following information must be placed at the outer side of the housing in which the reader is mounted. Contains FCC ID: PJMLRU500i Contains IC: 6633A-LRU500i 8.2.4 Antennas Approved in the USA (FCC) and Canada (IC) This radio transmitter (identify the device by certification number, or model number if Category II) has been approved by Industry Canada to operate with the antenna types listed below with maximum permission gain and required antenna impedance for each antenna type indicated. Antenna types, not included in this list, having a gain greater than the maximum gain indicated for that type, are strictly prohibited for use with this device. The antennas used for this transmitter must be installed to provide a separation distance of at least 23 cm from all persons and must not be located or operating in conjunction with any other antenna or transmitter, except as listed for this product's certification. Le prsent metteur radio (identifier le dispositif par son numro de certification ou son numro de modle sil fait partie du matriel de catgorie I) a t approuv par Industrie Canada pour fonctionner avec les types dantenne nonc ci-dessus et ayant un gain admissible maximal et limpdance requise pour chaque type dantenne. Les types dantenne non inclus dans cette liste, ou dont le gain est suprieur au gain maximal indiqu, sont strictement interdits pour lexploitation de lmetteur. Les antennes utilises pour cet metteur doit tre install pour fournir une distance de sparation d'au moins 23 cm de toutes les personnes et ne doit pas tre situ ou oprant en conjonction avec une autre antenne ou un autre metteur, sauf dans les cas numrs la certification de ce produit. Following antennas are approved by FCC according FCC Part 15 and IC Canada according RS210:
ID ISC.ANT.U290/290 (8.5 dBic) ID ISC.ANR.U580/290 (11.5 dBic) In order not to exceed the limit of 4 W EIRP (Effective Isotropic Radiated Power), the cable attenuation must be sufficiently high at 1 W transmission power at the connection, according to the following table. Antenna ID ANT.U290/290 ID ANT.U580/290 Lin. Gain Cable Attenuation Cable Length*
[dB]
6.6 9.5
[dB]
0.6 3.5
[m]
2 12
* For cables of the type H155 with an attenuation of 0.3 dB per meter. In general, the required cable attenuation for a give output power P of e.g. 30 dBm, corresponding 1 W, is calculated as follows:
Cable Attenuation [dB] = P [dB] - 36 + Lin. Gain [dB]
Installation Page 32 of 35 IDENTIFICATION Annex A: Accessories Accessories ID LRU500i Annex A: Accessories For the ID LRU500i following optional accessories are available:
Order Number 2557.000.00 2558.000.00 2559.000.000 2560.000.00 5255.000.00 5243.001.00 Article ID NET.24V-B ID CAB.NET.24V-B-EU ID CAB.NET.24V-B-GB ID CAB.NET.24V-B-US ID MS.VESA100-A Mounting Set ID ANT.C2-C UHF Antenna Cable Description 24 V Power Supply Unit; Supply Cable available separately for EU, GB and US (not included) Power Supply Unit Cable with continental Europe plug Power Supply Unit Cable with UK plug Power Supply Unit Cable with US plug Mast and wall mounting set with VESA100 receptacle for pipe diameters of 1'' - 3'' (approx. 2.5 cm to 7.6 cm) H155 Coaxial cable for UHF antennas with TNC socket and UHF reader with R-TNC connector R-TNC/TNC 2 m Connection type: Connector R-TNC / Connector TNC Length: 2 m 5243.002.00 ID ANT.C6-C UHF Antenna Cable H155 Coaxial cable for UHF antennas with TNC socket and UHF reader with R-TNC connector R-TNC/TNC 6 m Connection type: Connector R-TNC / Connector TNC 5335.000.00 ID ANT.C6-x UHF Antenna Extension Cable TNC/TNC 6 m Length: 6 m H155 Coaxial extension cable for UHF antennas with TNC socket Connection type: TNC female / TNC male Length: ca. 6 m EU: 5236.000.00 ID ANT.U290/290 Robust UHF antenna for connection to stationary UHF FCC: 5236.000.10 EU: 5238.000.00 FCC: 5238.000.10 UHF wide-range antenna 65 circular ID ANT.U580/290 UHF wide-range antenna 30 circular 5254.000.00 ID ANT.UEB-A Eye Bolt 4104.000.00 ID CPR.USB/OTG readers Connection: TNC socket Robust UHF antenna for connection to stationary UHF readers Optimized beam angle, increased antenna gain Connection: TNC socket M6 eye bolt for fall protection/secondary protection, PU: 10 pieces 4 GB USB memory stick with OTG adapter cable
(USB mini to USB A) 3271.000.00 ID CTF-U Windshield Transponder Self-adhesive, passive UHF transponder for mounting in windshield, PU: 10 pieces Installation Page 33 of 35 IDENTIFICATION ID LRU500i List of Tables List of Tables List of Tables Table 1: Connection Terminals ........................................................................................................................ 12 Table 2: Operating and Display Elements ....................................................................................................... 12 Table 3: Pin assignment for power supply ....................................................................................................... 14 Table 4: Validation procedures for external wiring of the power supply .......................................................... 14 Table 5: Max. cable length depending on the conductor cross section .......................................................... 15 Table 6: Standard factory configuration of the Ethernet connection ............................................................... 16 Table 7: Pin Assignment X3 (RS485 Interface) ............................................................................................... 17 Table 8: Pin Assignment Data-Clock (Wiegand) Interface .............................................................................. 18 Table 9: Pin Assignment X4 (Digital Outputs) ................................................................................................. 19 Table 10: Pin Assignment Relay Outputs REL1/REL2 .................................................................................... 20 Table 11: Pin Assignment X5 (digital inputs) .................................................................................................. 22 Table 12: Reader status LED overview ........................................................................................................... 26 Table 13: Antenna status LED overview ......................................................................................................... 26 Table 14: pre-defined reader configurations via DIP switches ........................................................................ 27 Installation Page 34 of 35 IDENTIFICATION ID LRU500i List of Figures List of Figures List of Figures Fig. 1: Dimensional drawing back view .......................................................................................................... 8 Fig. 2: Dimensional drawing side view ........................................................................................................... 9 Fig. 3: Dimensional drawing top view: opened housing ............................................................................... 10 Fig. 4: Secondary protection via eye bolt ........................................................................................................ 11 Fig. 5: Connection Overview ........................................................................................................................... 12 Fig. 6: External antenna connection ................................................................................................................ 13 Fig. 7: Connector X2 pin assignment for power supply ................................................................................... 14 Fig. 8: LAN and PoE Connection ..................................................................................................................... 15 Fig. 9: Ethernet connector ............................................................................................................................... 16 Fig. 10: RS485 interface pin assignment on X3 .............................................................................................. 17 Fig. 11: Pin assignment Data-Clock (Wiegand) interface on X3 ..................................................................... 18 Fig. 12: Connector X4 pin assignment for digital outputs ................................................................................ 19 Fig. 13: internal and external wiring of the digital outputs ............................................................................... 19 Fig. 14: Connector X4 pin assignment for relay outputs (version LRU500i-PoE) ........................................... 20 Fig. 15: External wiring of the relay outputs .................................................................................................... 20 Fig. 16: Connector X4 pin assignment for relay outputs (version LRU500i-BD) ............................................. 21 Fig. 17: Connector X5 pin assignment for digital inputs .................................................................................. 21 Fig. 18: External wiring of the digital inputs ..................................................................................................... 22 Fig. 19: USB Mini interface for host communication ....................................................................................... 23 Fig. 20: USB On-The-Go adapter cable .......................................................................................................... 23 Installation Page 35 of 35
1 | User Manual MAX | Users Manual | 3.94 MiB | December 06 2019 |
IDENTIFICATION INSTALLATION ID MAX.U500i
(EU: 5118.001.00; FCC: 5118.001.10) M81211-2e-ID-B IDENTIFICATION ID MAX.U500i Note Note Note FEIG ELECTRONIC GmbH Lange Strasse 4 D-35781 Weilburg (Germany) Tel.: +49 6471 3109-0 http://www.feig.de identification-support@feig.de Copyright by With the edition of this document, all previous editions become void. Indications made in this manual may be changed without previous notice. Copying of this document and giving it to others and the use or communication of the contents thereof are forbidden without express authority. Offenders are liable to the payment of damages. All rights are reserved in the event of the grant of a patent or the registration of a utility model or design. Composition of the information in this document has been done to the best of our knowledge. FEIG ELECTRONIC GmbH does not guarantee the correctness and completeness of the details given in this manual and may not be held liable for damages ensuing from incorrect or incomplete information. Since, despite all our efforts, errors may not be completely avoided, we are always grateful for your useful tips. The instructions given in this manual are based on advantageous boundary conditions. FEIG ELECTRONIC GmbH does not give any guarantee promise for perfect function in cross environments and does not give any guarantee for the functionality of the complete system which incorporates the subject of this document. FEIG ELECTRONIC GmbH calls explicit attention that devices which are subject of this document are not designed with components and testing methods for a level of reliability suitable for use in or in connection with surgical implants or as critical components in any life support systems whose failure to perform can reasonably be expected to cause significant injury to human health. To avoid damage, injury or death the user or application designer must take reasonably prudent steps to protect against system failures. FEIG ELECTRONIC GmbH assumes no responsibility for the use of any information contained in this document and makes no representation that they are free of patent infringement. FEIG ELECTRONIC GmbH does not convey any license under its patent rights nor the rights of others. Page 2 of 36 IDENTIFICATION ID MAX.U500i Contents Contents Contents 1 Safety Instructions 5 Performance Features of ID MAX.U500i 6 2 2.1 Performance Features ....................................................................................................... 6 2.2 myAXXESS Manager ......................................................................................................... 6 Available Reader Types .................................................................................................... 6 2.3 Scope of Delivery Installation 7 8 Terminals 12 Antenna Connection ........................................................................................................ 13 Power Supply ................................................................................................................... 14 5.2.1 Power Supply via Connector X2 ........................................................................... 14 5.2.2 Power Supply via PoE (Power over Ethernet) ...................................................... 15 Ethernet Interface on Connector X1 ............................................................................... 16 Digital Outputs on Connector X4 .................................................................................... 17 Relay Outputs on Connector X4 ..................................................................................... 18 Digital Inputs on Connector X5 ...................................................................................... 19 USB Mini Interface on Connector X6 .............................................................................. 21 5.7.1 USB Flash Drive Service Functions ...................................................................... 21 5.7.2 Reading of Log and Service Data ......................................................................... 21 5.7.3 Storing the Reader Configuration on a USB Flash Drive ...................................... 22 5.7.4 Copying the Configuration onto a Reader (Config-Cloning) .................................. 23 24 Operating and Display Elements Status LEDs ..................................................................................................................... 24 Push Button T1 ................................................................................................................ 24 6.2.1 Teach-In Mode ..................................................................................................... 24 6.2.2 Configuration Reset.............................................................................................. 25 Page 3 of 36 3 4 5 5.1 5.2 5.3 5.4 5.5 5.6 5.7 6 6.1 6.2 IDENTIFICATION ID MAX.U500i Contents 6.3 6.4 7 8 9 Buzzer .............................................................................................................................. 25 Reader Power Adjustment .............................................................................................. 25 Positioning of the Antenna Mounting of the Transponder Technical Data 26 28 29 Radio Approvals 10 31 10.1 Europe (CE) ...................................................................................................................... 31 10.2 USA (FCC) and Canada (IC) ............................................................................................ 32 USA (FCC) and Canada (IC) Warning Notices ................................................. 32 Installation with FCC/IC Approval ..................................................................... 32 Label Information .............................................................................................. 33 Antennas Approved in the USA (FCC) and Canada (IC) ................................... 33 Annex A: Accessories ........................................................................................................... 34 10.2.1 10.2.2 10.2.3 10.2.4 List of Tables List of Figures 35 36 Page 4 of 36 IDENTIFICATION ID MAX.U500i 1 Safety Instructions Safety Instructions 1 Safety Instructions The device may only be used for the intended purpose designed by the manufacturer. The manual should be conveniently kept available at all times for each user. Unauthorized changes and the use of spare parts and additional devices which have not been sold or recommended by the manufacturer may cause fire, electric shocks or injuries. Such unauthorized measures shall exclude any liability by the manufacturer. The liability-prescriptions of the manufacturer in the issue valid at the time of purchase are valid for the device. The manufacturer shall not be held legally responsible for inaccuracies, errors, or omissions in the manual or automatically set parameters for a device or for an incorrect application of a device. Repairs may only be executed by the manufacturer. Installation, operation and maintenance procedures should only be carried out by qualified personnel. Use of the device and its installation must be in accordance with national legal requirements and local electrical codes. When working on devices the valid safety regulations must be observed. This device is not suitable to be used in places where children are present. Prevent children access to the device. Equipment is intended for use only in restricted access area. Special advice for carriers of cardiac pacemakers:
Although this device doesnt exceed the valid limits for electromagnetic fields you should keep a minimum distance of 25 cm between the device or the antenna and your cardiac pacemaker. Page 5 of 36 IDENTIFICATION ID MAX.U500i 2 Performance Features 2 Performance Features of ID MAX.U500i 2.1 Performance Features Performance Features With its compact size, its weather-resistant housing, a read range of 8 to 10 m and the circular-polarized antenna supporting any transponder orientation, the UHF Vehicle Access Control Reader ID MAX.U500i is ideally suited to provide efficient and secure vehicle access control. Up to 9000 users and vehicles can be stored in the internal storage of the ID MAX.U500i. The vehicle access control reader can be easily installed on a VESA mount next to a barrier, gate or bollard due to its mechanical construction. To install the compact reader one cable is required for each interface and power supply; for PoE only the network cable is required. 2.2 myAXXESS Manager With the help of the software myAXXESS Manager user data and access rights can be easily handled via PC. After programming the access rights into the vehicle access control reader via a temporary USB or network connection the reader is working offline as a standalone system. The Windows software is suitable for network based vehicle and door access control systems and is based on a SQL database. The myAXXESS Manager is available in the FEIG download area. In small applications without any time restrictions for the access rights new transponders can be added to the reader by the Teach-In Mode without above mentioned software (See chapter 6.2.1 Teach-In Mode on page 24.). 2.3 Available Reader Types The following readers are available:
Order Number Reader Type 5118.001.00 5118.001.10 ID MAX.U500i-EU ID MAX.U500i-FCC Description Device version for Europe Device version for North America Page 6 of 36 IDENTIFICATION 3 Scope of Delivery Scope of Delivery ID MAX.U500i 3 Scope of Delivery The scope of delivery includes following components:
1 x ID MAX.U500i 1 x MFD 25/01/065 M25 multiple sealing insert for 1 cable; cable 46.5 mm 1 x ESKV 20 M20 cable gland for cable 613 mm; for USB 1 x RDE 20 M20 reduction sealing insert for cable 48 mm 1 x MFD 20/02/040 M20 multiple sealing insert for 2 cables; cable 24 mm 1 x MFD 20/04/040 M20 multiple sealing insert for 4 cables; cable 24 mm 1 x MFD 16/02/040 M16 multiple sealing insert for 2 cables; cable 24 mm 2 x ID CTF-U UHF Windshield Transponder Page 7 of 36 IDENTIFICATION 4 Installation Installation ID MAX.U500i 4 Installation The ID MAX.U500i is designed to be mounted outdoors on a VESA bracket. The reader should be mounted with the connections facing downwards to ensure tightness as shown below. Four holes for M5 screws are provided on the backside of the housing for mounting on the VESA bracket. The screws used should have a screw-in depth of maximum 8 mm. The housing can be opened by means of a hinge Therefore loosen the screws marked blue in Fig. 1 and swing away the front part of the reader. During installation, the dimensions of the reader when opened should be taken into account (see Fig. 3). For secondary protection the reader should be secured by means of an eye bolt (see Fig. 4), that should be fixed with screw locking varnish, and e.g. a wire rope. The suitable accessory ID ANT.UEB-A can be purchased from FEIG ELECTRONIC. Fig. 1: Dimensional drawing back view Page 8 of 36 IDENTIFICATION ID MAX.U500i 4 Installation Fig. 2: Dimensional drawing side view Page 9 of 36 IDENTIFICATION ID MAX.U500i 4 Installation Fig. 3: Dimensional drawing top view: opened housing Page 10 of 36 IDENTIFICATION ID MAX.U500i 4 Installation Fig. 4: Secondary protection via eye bolt NOTE:
FEIG ELECTRONIC GmbH strongly recommends to secure the reader against falling by means of an eye bolt to prevent damage. Page 11 of 36 IDENTIFICATION 5 Terminals Terminals ID MAX.U500i 5 Terminals The cable connections are located on the lower side of the reader. Fig. 5 shows the arrangement of the connectors and Table 1 gives an overview on the available connectors and interfaces. Table 2 lists the available operating and display elements. Fig. 5: Connection Overview Connector Description X1 X2 X4 X5 X6 10/100 Base-T Ethernet with RJ45 Power Supply 1224 V DC 1 0 %
Relay Outputs & Digital Outputs Digital Inputs USB Mini Interface Table 1: Connection Terminals Operating /
Display Element Description T1 LED 1 Push Button for configuration reset or Teach-In Mode Status LEDs for service & maintenance Buzzer Table 2: Operating and Display Elements Page 12 of 36 IDENTIFICATION 5.1 Antenna Connection ID MAX.U500i 5 Terminals The TNC socket for connecting the external antenna is located on the lower side of the reader. The maximum tightening torque for the TNC sockets is 0.69 Nm (6.11 lbf in). Fig. 6: External antenna connection CAUTION:
Exceeding the tightening torque will destroy the antenna connection. Page 13 of 36 IDENTIFICATION ID MAX.U500i 5 Terminals 5.2 Power Supply 5.2.1 Power Supply via Connector X2 The supply voltage of 1224 V DC has to be connected to terminal X2. Fig. 7: Connector X2 pin assignment for power supply Pin Number at Connector X2 Abbreviation 1 2 GND 1224 V Description Ground suppy voltage Supply voltage 1224 V DC 10 %
Table 3: Pin assignment for power supply CAUTION:
The reader has to be supplied by a limited power supply according EN 62368-1 Chapter Q.1, or with a NEC Class 2/LPS certified power supply. Each reader has to be supplied by a separate external power supply. Reversing the polarity of the supply voltage on X2 may destroy the device. External wiring for the power supply must fulfil the following norms/validation procedures:
Conductor Cross Section Validation Procedure from 0,5 mm or bigger smaller than 0,5 mm IEC 60332-1-2 and IEC 60332-1-3 IEC 60332-2-1 and IEC 60332-2-2 Table 4: Validation procedures for external wiring of the power supply Page 14 of 36 IDENTIFICATION ID MAX.U500i 5 Terminals 5.2.2 Power Supply via PoE (Power over Ethernet) Optional the reader can be powered via the Ethernet interface on X1 with the use of a PoE Power over Ethernet power supply according to IEEE802.3at*, Class4 (30/25,5Watt). The DC supply can be achieved via the free pins 4, 5 and 7, 8 (Midspan-Power). Also a Phantom Powering (Inline-Power) via the signal pins 1, 2, 3 and 6 is possible. Depending on the conductor cross-section the following cable distances can be used:
Conductor Cross Section
(CAT57) 0,4 mm 0,6 mm Max. Cable Length for PoE
~ 30 m
~ 70 m Table 5: Max. cable length depending on the conductor cross section
* For detailed technical information regarding the 802.3at standard, please refer to the most recent edition of the corresponding IEEE specification. Fig. 8: LAN and PoE Connection NOTE:
An operation of an ID MAX.U500i via an external power supply and PoE at the same time is not It must be ensured that the reader is supplied with 42.5 V (48 V DC cable losses) at least. recommended and can cause interferences during operation. If the reader is supplied via PoE, no DC voltage can be provided at the connection for the external antenna. Page 15 of 36 IDENTIFICATION ID MAX.U500i 5 Terminals 5.3 Ethernet Interface on Connector X1 The reader has an integrated 10/100 base-T network port for an RJ-45. Connection is made on X1 and has an automatic Crossover Detection according to the 100BASE-T Standard. With structured cabling STP CAT5 cables should be used. This ensures a reliable operation at 10 Mbps or 100 Mbps. The prerequisite for using TCP/IP protocol is that each device has a unique IP address on the network. All readers have a factory set IP address. The transmission parameters can be configured as required. Fig. 9: Ethernet connector Network IP Address Subnet Mask Port DHCP Address 192.168.10.10 255.255.0.0 10001 OFF Table 6: Standard factory configuration of the Ethernet connection NOTE The reader is equipped with a DHCP ready Ethernet interface. Page 16 of 36 IDENTIFICATION ID MAX.U500i 5 Terminals 5.4 Digital Outputs on Connector X4 There are 2 digital outputs available on terminal X4. The transistor connection, collector and emitter, of the optocoupler output is galvanically isolated from the reader electronic and routed to the outside at terminal X4 without internal additional circuitry. The output must therefore be supplied with an external voltage. Each output is linked fixed with an antenna. Reading of a valid transponder on the internal antenna will affect the digital output OPTO1-OUT, a valid reading on the external antenna will affect the digital output OPTO2-OUT. Fig. 10: Connector X4 pin assignment for digital outputs Pin Number at Connector X4 1 2 3 4 Pin Assignment OPTO2-OUT-C OPTO2-OUT-E OPTO1-OUT-C OPTO1-OUT-E Table 7: Pin Assignment X4 (Digital Outputs) Fig. 11: internal and external wiring of the digital outputs Page 17 of 36 IDENTIFICATION CAUTION:
ID MAX.U500i 5 Terminals The outputs are designed for an input voltage of 12-24 V DC and an input current of max. 20 mA. Polarity reversal or overload of the outputs leads to their destruction!
The output is only intended for switching resistive loads. 5.5 Relay Outputs on Connector X4 There are 2 relay outputs available at terminal X4 as normally open contacts. Each output is linked fixed with an antenna. Reading of a valid transponder on the internal antenna will affect the relay REL1, a valid reading on the external antenna will affect the relay REL2. Fig. 12: Connector X4 pin assignment for relay outputs Pin Number at Connector X4 Pin Assignment 5 6 7 8 REL2-COM REL2-NO REL1-COM REL1-NO Table 8: Pin Assignment Relay Outputs REL1/REL2 Fig. 13: External wiring of the relay outputs Page 18 of 36 IDENTIFICATION CAUTION:
ID MAX.U500i 5 Terminals The relay outputs are designed for max. 24 V DC / 2 A continuous load. The maximum switching current must not exceed 1 A. The relay outputs are intended for switching resistive loads only. In case an inductive load is connected, the relay contacts must be protected by an external protective circuit. 5.6 Digital Inputs on Connector X5 There are 2 digital inputs available on X5. The optocouplers on X5 are galvanically isolated from the reader electronics and must therefore be supplied with an external voltage. Fig. 14: Connector X5 pin assignment for digital inputs Pin Number at Connector X5 Pin Assignment 1 2 3 4 OPTO2-IN OPTO2-IN +
OPTO1-IN OPTO1-IN +
Table 9: Pin Assignment X5 (digital inputs) Fig. 15: External wiring of the digital inputs Page 19 of 36 IDENTIFICATION ID MAX.U500i 5 Terminals The external resistor Rext is optional. When wiring the reader, make sure that the input voltage is at least 10.5 V. CAUTION:
The inputs are designed for an input voltage of 12-24 V DC and an input current of max. 20 mA. Polarity reversal or overload of the inputs leads to their destruction!
Page 20 of 36 IDENTIFICATION ID MAX.U500i 5 Terminals 5.7 USB Mini Interface on Connector X6 The reader is equipped with an integrated USB on-the-go interface. This can be used either to connect the reader to a host system or, by means of a special on-the-go adapter cable, for connection of a USB memory stick to the reader. In both cases, the connection is carried out via terminal X6. The pinout is standardized. A standard shielded USB cable can be used to connect the reader to a host system. The data rate of the reader is limited to 12 Mbit (USB full speed). Fig. 16: USB Mini interface for host communication NOTE:
The length of the USB cable must not exceed 5 m (200 inch). It is not allowed to use longer cables. 5.7.1 USB Flash Drive Service Functions Via an optionally available USB On-The-Go adapter cable, the interface can be converted to a USB host interface. The adapter cable allows the connection of a USB memory stick to the reader. The USB memory stick can be used to carry out various service functions, such as reading log and service data and uploading a configuration file. 5.7.2 Reading of Log and Service Data When connecting the USB flash drive during a running operation, the reader will create a subdirectory in the root directory named after the device ID of the connected reader (see label on the back side of the reader) and store device information such as firmware status and IP address in the INFO.LOG file within this directory. If a corresponding file already exists for this reader the file will be updated with the new information and the current date and time. Fig. 17: USB On-The-Go adapter cable Page 21 of 36 IDENTIFICATION ID MAX.U500i 5 Terminals In addition, the files ACTION.LOG and SERVICE.LOG with further information for service and maintenance for the devices will be generated and stored on the USB flash drive. The function of the CONFIG.INI is described in the following chapter. As vehicle access control reader the ID MAX.U500i stores the event table in the same subdirectory. This table contains the last recorded access control events and is stored as file EVENT.LOG in CSV format. An existing file will be overwritten. After plugging in the USB flash drive the green and red status LEDs will light up permanently. After successful completion of the USB actions the red LED will go out and the green LED will start flashing again. The USB flash drive can be disconnected from the device after the red status LED goes out. In case of an error, the red status LED will start flashing until the USB flash drive is removed. NOTE:
After plugging in the USB flash drive the status LEDs of the reader should be observed. The USB flash drive may only be disconnected from the reader if the USB actions have been completed!
The USB on-the-go adapter cable may only be used in conjunction with a USB flash drive. When used for a PC connection the reader may be destroyed or work with strange behavior!
5.7.3 Storing the Reader Configuration on a USB Flash Drive When connecting the USB flash drive during running operation, the reader will store the readable configuration as an editable and readable CSV file (CONFIG.INI) on the USB flash drive. This file will be stored in the root directory of the USB flash drive for easy copying of the configuration (See chapter 5.7.4 Copying the Configuration onto a Reader (Config-Cloning) on page 23.). In addition, the same file will be stored in a subdirectory named after the according device ID (see label on the back side of the reader). Thereby it is possible to save the configuration files of several readers e.g. from one system/installation to the same USB flash drive. All non-locked configuration pages (CFG pages) including the interface parameters of a device will be copied onto the USB flash drive. Password protected configuration pages will not be copied. As vehicle access control reader the ID MAX.U500i stores the access control data (list of access rights, time zone list and holiday table) within the file ACCESS.INI in the root directory of the USB flash drive. An existing file will be overwritten. After plugging in the USB flash drive the green and red status LEDs will light up permanently. After successful completion of the USB actions the red LED will go out and the green LED will start flashing again. The USB flash drive can be disconnected after the red status LED goes out. In case of an error the red status LED will start flashing until the USB flash drive is removed. NOTE:
If a configuration file CONFIG.IN already exists in the main directory of the USB memory stick, the old file will be overwritten. Password-protected configuration pages (see CFG 0) are not written to the USB memory stick. No error message appears. After connecting the USB memory stick to the reader, the reader LEDs should be observed. The USB memory sticks may only be disconnected from the reader after the USB actions have been completed. Page 22 of 36 IDENTIFICATION ID MAX.U500i 5 Terminals 5.7.4 Copying the Configuration onto a Reader (Config-Cloning) In order to copy the configurations and access control data stored in a USB flash drive to a reader, the reader must be switched off before connecting the USB flash drive. After switching on the reader, the reader will search for a USB flash drive during the boot process and copy the configuration and access control data from the root directory to its memory. It must be ensured that no configuration page (CFG page) is password protected in the reader. If configuration pages are password protected, the configuration file will not be copied onto the reader. This also applies if individual configuration parameters contain values out of the permissible range. After successful completion of the USB actions the red status LED will go out and the green status LED will start flashing again. After the red status LED went out the USB flash drive can be disconnected. In case of an error the red status LED will start flashing until the USB flash drive is removed. NOTE:
Connecting a USB flash drive during a running operation of the reader may overwrite an existing configuration file stored on the USB memory stick (See chapter 5.7.4 Copying the Configuration onto a Reader (Config-Cloning) on page 23.). Page 23 of 36 IDENTIFICATION ID MAX.U500i 6 Operating and Display Elements 6 Operating and Display Elements 6.1 Status LEDs Operating and Display Elements The status LEDs are located under the push button T1 and the DIP switches S1. Reader status LEDs Res.
(yellow) FLASH ON
-
-
-
-
-
Warning
(red) COM
(yellow) RUN
(green)
-
-
-
-
ON FLASH
(alternating) FLASH
-
-
-
FLASH
-
-
FLASH
-
-
FLASH FLASH FLASH FLASH
(alternating) FLASH
(sequentially) Description While T1 is pushed and hold for 5 s to initiate a reset. Reader performs a reset (after pushing T1 for 5 s). Reader operates normally. Reader receives a valid protocol from host. RF Warning [0x84]
Hardware warning; perform Reader Diagnostic [0x6E]
for further information. Firmware transfer from host to reader. Do not switch off the reader or disconnect the interface cable during firmware transfer!
Antenna status LEDs LED Label Ext. Ant. Int. Ant. Color green blue red green blue red Table 10: Reader status LED overview Description UHF power switched on transponder detected antenna impedance error (unequal 50 ) UHF power switched on transponder detected antenna impedance error (unequal 50 ) Table 11: Antenna status LED overview 6.2 Push Button T1 By means of the push button T1 a complete configur ati on reset can be performed. T he push button is l ocated between the DIP switches and connector X1 on the circui t board. Figure X shows the positi on of the push button. T o press the r eset button T 1 it is necessar y to open the housi ng by means of the hinge after looseni ng the screws X and X. By means of the push button T1 the reader can be switched to Teach-In mode or a complete configuration reset can be performed. The push button is located between the DIP switches and connector X1 on the circuit board. Fig. X shows the position of the push button. To press the button T1 it is necessary to open the housing by means of the hinge after loosening the screws. 6.2.1 Teach-In Mode The Teach-In Mode can be used for easy programming of new authorized transponders if the configuration software myAXXESS Manager is not or cannot be used. In Teach-In Mode it is not possible to configure time restrictions for the different users. This means transponders registered via Teach-In Mode are valid and have access 24/7. Activation of the Teach-In Mode:
Activate the Teach-In Mode by briefly pressing the push button T1 twice within a short time Page 24 of 36 IDENTIFICATION ID MAX.U500i 6 Operating and Display Elements As long as the Teach-In Mode is active, the yellow LED (V4) is switched on. Access will be granted immediately to all transponders which are read and stored in the reader during this time. At first the new authorizations will be stored temporarily in the reader. If the Teach-In Mode is disabled again by pressing the push button T1 briefly twice again, all new authorizations will be stored permanently in the reader. These transponders will now have permanent access. Authorizations stored permanently in the reader will still be available if the system was powered off, while temporarily stored authorizations will be lost in the event of a power loss. NOTE:
In case of power down during activated Teach-In Mode all temporarily stored authorizations are lost and have to be read again. In case of power down during deactivation of the Teach-In Mode (after pressing the push button T1 twice within short time the second time) all authorizations stored in the reader may be lost. A stable power supply must be ensured!
The use of the Teach-In Mode is only recommended for small systems with a manageable number of authorized transponders and users. It is possible to import access control data to the reader by connecting a USB flash drive. Please note that in some vehicles RFID transponders may already be installed by the manufacturer or other system provider. These transponders could also be detected by the reader in Teach-In Mode. 6.2.2 Configuration Reset By means of the push button T1 a complete configuration reset can be performed. Push the button for at least 5 s until the reset LED below the button is switched on continuously. After releasing the push button the reader performs a restart. During a complete configuration reset all parameters of the reader will be reset back to factory default and need to be configured again. Access authorizations stored in the access control reader are not affected. 6.3 Buzzer The buzzer is located above the digital inputs on terminal X5. It is used to notify the service personnel of events during maintenance and service. 6.4 Reader Power Adjustment In order to achieve high reading ranges, it is necessary to set the reader output power to the highest allowed level. This depends on the reader type used (EU/FCC) and the applicable radio regulations at the installation site. The output power is adjustable in 100 mW steps from 0.1 W to 1 W. NOTE:
Both in the EU version and in the FCC version of the reader the output power of the internal antenna must not exceed 0.8 W. The admissible max. output power is 2 W e.r.p. for EU versions and 4 W e.i.r.p. for FCC versions. The output power depends on the antenna gain. For calculating the reader output power the Excel file Calc-RF-Power.xls is available from FEIG ELECTRONIC GmbH. If a circular polarized antenna is used the antenna gain [dBic] can be reduced by 3 dB. If using a linear polarized antenna the max. antenna gain [dBi] must be used. Page 25 of 36 IDENTIFICATION ID MAX.U500i 7 Positioning of the Antenna 7 Positioning of the Antenna Positioning of the Antenna h It is recommended to mount the antenna at the side of the roadway on a mast. The mounting height depends on the type of vehicle that should be detected. Vehicle Type cars only lorries and busses only cars, lorries & busses Recommended Mounting Height approx. 2.0 m approx. 2.5 m approx. 2.0 m Table 12: Recommended mounting height depending on vehicle type The antenna should be mounted at an angle of approx. 45 to the roadway. If the vehicle access control reader is used to control a barrier, the antenna should be mounted at a sufficient distance in front of the barrier. The distance depends on the permitted or desired speed of the vehicles. In this way, it is possible for the individual vehicles to access the respective area smoothly and without delay. In case an access from two different directions is possible, or in case of difficult environmental conditions at the point of installation, a second additional antenna can be installed and connected to the reader. Fig. 18: Angle of the antenna to the roadway Page 26 of 36 IDENTIFICATION ID MAX.U500i 7 Positioning of the Antenna Fig. 19: Typical vehicle access control application Fig. 20: Positioning of the antenna Page 27 of 36 IDENTIFICATION ID MAX.U500i 8 Mounting of the Transponder 8 Mounting of the Transponder Mounting of the Transponder Passive UHF transponders operating at a frequency of 865928 MHz are used for identification of vehicles with the vehicle access control reader. To ensure a reliable identification of the transponder and to reduce interfering environmental influences such as metal, it is recommended to mount the transponder label in the middle of the windshield behind the interior mirror. The transponders optionally available from FEIG ELECTRONIC GmbH are self-adhesive labels. To mount these transponders, simply remove the protective foil on the back and attach the transponder to the windshield. Before mounting the transponder the windshield should be thoroughly cleaned to ensure optimum adhesion of the self-adhesive labels. Vehicles with integrated windshield heating require special mounting of the transponder. In this case the transponder should be mounted in an area of the windshield where no wires of the windshield heating run. Usually corresponding information can be found in the manual of the vehicle. Otherwise, the information can be obtained from the manufacturer. Vehicles with tinted, vaporized or metallized windshields may occasionally experience problems identifying the transponder. These vehicles usually also have an area in the windshield where no coating has been applied to enable radio systems to communicate with the exterior. If possible the transponder should be mounted at such an uncoated position. The position of the uncoated area can usually be found in the manual of the vehicle or can be obtained from the manufacturer. Fig. 21: Positioning of transponders on different windshield types Page 28 of 36 IDENTIFICATION ID MAX.U500i 9 Technical Data Technical Data 9 Technical Data MECHANICAL DATA Housing Dimension (W x H x D) Weight Mounting Protection Class Colour ELECTRICAL DATA Power Supply Current Consumption Operating Frequency EU Reader FCC Reader Output Power Antenna Connection RF Diagnostic Outputs 2 x Optocoupler 2 x Relay Inputs 2 x Optocoupler CAUTION:
Plastic (ASA-PC) Aluminum 290 mm x 290 mm x 100 mm
(11.4 x 11.4 x 3.9) 2800 g VESA FDMI MIS-D 100 mm x 100 mm IP 65 Anthracite, translucent 1224 V DC ( 10 %), PoE+
typical 16 W (22 W with PoE+) 865 MHz to 868 MHz 902 MHz to 928 MHz 100 mW to max. 1 W configurable in steps of 100 mW 1 x R-TNC jack (50 )
(Reverse-TNC) RF channel monitoring, Antenna SWR control, Internal Overheating Protection max. 24 V DC / 20 mA max. 24 V DC / 1 A switching current, 2 A permanent current max. 24 V DC / 20 mA Overheating of the device may result in performance losses. It is recommended to activate the RF of the reader only if there is a transponder in the detection range of an antenna. Interfaces Protocol Modes FUNCTIONAL P ROPERTIES Supported Transponder Types Indicators Further Features Ethernet, USB (OTG) ISO Host Mode, Access Mode EPC Class 1 Gen 2 EPC Class 1 Gen 2 V2 ISO 18000-6-C ISO 18000-63 Signal light with red/green/blue 10 LEDs to indicate operation and antenna state Buzzer Anti-Collision, output of RSSI values and phase angle, battery-assisted Real Time Clock, supports encrypted transponder communication, Secure Key Storage, Config Cloning Function Page 29 of 36 IDENTIFICATION ENVIRONMENTAL CONDITIONS Temperature Range Operation Storage Humidity Vibration Shock APPLICABLE S TANDARDS Radio Regulation Europe USA Canada EMC Safety Human Exposure Others Low Voltage India ID MAX.U500i 9 Technical Data
-25 C to 55 C
-25 C to 85 C 5 % to 95 % (non-condensing) EN 60068-2-6 10 Hz to 150 Hz: 0,075 mm / 1 g EN 60068-2-27 Acceleration: 30 g EN 302 208 FCC 47 CFR Part 15 IC RSS-GEN, RSS-210 BIS IS 13252 Part 1 EN 301 489 EN 62368 EN 50364 RoHS, WEEE Page 30 of 36 ID MAX.U500i 10 Radio Approvals IDENTIFICATION 10 Radio Approvals 10.1 Europe (CE) Radio Approvals Hereby FEIG ELECTRONIC GmbH declares that the radio equipment type ID MAX.U500i is in compliance with Directive 2014/53/EU. The full text of the EU declaration of conformity is available at the following internet address:
http://www.feig.de/en/downloads-support/declarations-of-conformity.html Performance Classification according to ETSI EN 301 489: Class 2 Page 31 of 36 IDENTIFICATION ID MAX.U500i 10 Radio Approvals 10.2 USA (FCC) and Canada (IC) 10.2.1 USA (FCC) and Canada (IC) Warning Notices Product name:
FCC ID:
IC:
Notice for USA and Canada ID MAX.U500i-FCC PJMLRU500i 6633A-LRU500i This device complies with Part 15 of the FCC Rules and with ISED licence-exempt RSS standard(s). 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. Unauthorized modifications may void the authority granted under Federal communications Commission Rules permitting the operation of this device. This equipment has been tested and found to comply with the limits for a Class A digital device, pursuant to Part 15 of the FCC Rules. These limits are designed to provide reasonable protection against harmful interference when the equipment is operated in a commercial environment. This equipment generates, uses, and can radiate radio frequency energy and, if not installed and used in accordance with the instruction manual, may cause harmful interference to radio communications. Operation of this equipment in a residential area is likely to cause harmful interference in which case the user will be required to correct the interference at his own expense. Lmetteur/rcepteur exempt de licence contenu dans le prsent appareil est conforme aux CNR d'Innovation, Sciences et Dveloppement conomique Canada applicables aux appareils radio exempts de licence. L'exploitation est autorise aux deux conditions suivantes :
(1) l'appareil ne doit pas produire de brouillage ;
(2) l'appareil doit accepter tout brouillage radiolectrique subi, mme si le brouillage est susceptible d'en compromettre le fonctionnement. NOTE:
Changes or modifications made to this equipment not expressly approved by FEIG ELECTRONIC GmbH may void the FCC authorization to operate this equipment. 10.2.2 Installation with FCC/IC Approval To comply with FCC Part 15 Rules in the United States / IC Radio Standards in Canada, the system must be professionally installed to ensure compliance with the FCC Part 15 certification / IC certification. It is the responsibility of the operator and professional installer to ensure that only certified systems are deployed in the United States / Canada. The system is intended for industrial and commercial use and requires professional installation. The device and the software required for commissioning and operation are only available from FEIG ELECTRONIC or its distributors. Installation, commissioning, configuration and operation require qualified knowledge of high-frequency and RFID technology due to its complexity. The connections used are from the industrial sector. Page 32 of 36 IDENTIFICATION 10.2.3 Label Information ID MAX.U500i 10 Radio Approvals The following information must be placed at the outer side of the housing in which the reader is mounted. Contains FCC ID: PJMLRU500i Contains IC: 6633A-LRU500i 10.2.4 Antennas Approved in the USA (FCC) and Canada (IC) This radio transmitter (identify the device by certification number, or model number if Category II) has been approved by Industry Canada to operate with the antenna types listed below with maximum permission gain and required antenna impedance for each antenna type indicated. Antenna types, not included in this list, having a gain greater than the maximum gain indicated for that type, are strictly prohibited for use with this device. The antennas used for this transmitter must be installed to provide a separation distance of at least 23 cm from all persons and must not be located or operating in conjunction with any other antenna or transmitter, except as listed for this product's certification. Le prsent metteur radio (identifier le dispositif par son numro de certification ou son numro de modle sil fait partie du matriel de catgorie I) a t approuv par Industrie Canada pour fonctionner avec les types dantenne nonc ci-dessus et ayant un gain admissible maximal et limpdance requise pour chaque type dantenne. Les types dantenne non inclus dans cette liste, ou dont le gain est suprieur au gain maximal indiqu, sont strictement interdits pour lexploitation de lmetteur. Les antennes utilises pour cet metteur doit tre install pour fournir une distance de sparation d'au moins 23 cm de toutes les personnes et ne doit pas tre situ ou oprant en conjonction avec une autre antenne ou un autre metteur, sauf dans les cas numrs la certification de ce produit. Following antennas are approved by FCC according FCC Part 15 and IC Canada according RS210:
ID ISC.ANT.U290/290 (8.5 dBic) ID ISC.ANR.U580/290 (11.5 dBic) In order not to exceed the limit value of 4 W EIRP (Effective Isotopic Radiated Power), the cable attenuation must be sufficiently high at 1 W transmission power at the antenna connection, according to the following table:
Antenna ID ANT.U290/290 ID ANT.U580/290 Lin. Gain Cable Attenuation Cable Length*
[dB]
6.6 9.5
[dB]
0.6 3.5
[m]
2 12
* For cables of the type H155 with an attenuation of 0.3 dB per meter. In general, the required cable attenuation for a given output power P of e.g. 30 dBm, corresponding 1 W, is calculated as follows:
Cable Attenuation [dB] = P [dB] - 36 + Lin. Gain [DB]
Page 33 of 36 IDENTIFICATION Annex A: Accessories ID MAX.U500i Annex A: Radio Approvals For the ID MAX.U500i following optional accessories are available:
Order Number 2557.000.00 2558.000.00 2559.000.000 2560.000.00 5255.000.00 5243.001.00 Article ID NET.24V-B ID CAB.NET.24V-B-EU ID CAB.NET.24V-B-GB ID CAB.NET.24V-B-US ID MS.VESA100-A Mounting Set ID ANT.C2-C UHF Antenna Cable Description 24 V Power Supply Unit; Supply Cable available separately for EU, GB and US (not included) Power Supply Unit Cable with continental Europe plug Power Supply Unit Cable with UK plug Power Supply Unit Cable with US plug Mast and wall mounting set with VESA100 receptacle for pipe diameters of 1'' - 3'' (approx. 2.5 cm to 7.6 cm) H155 Coaxial cable for UHF antennas with TNC socket and UHF reader with R-TNC connector R-TNC/TNC 2 m Connection type: Connector R-TNC / Connector TNC Length: 2 m 5243.002.00 ID ANT.C6-C UHF Antenna Cable H155 Coaxial cable for UHF antennas with TNC socket and UHF reader with R-TNC connector R-TNC/TNC 6 m Connection type: Connector R-TNC / Connector TNC 5335.000.00 ID ANT.C6-x UHF Antenna Extension Cable TNC/TNC 6 m Length: 6 m H155 Coaxial extension cable for UHF antennas with TNC socket Connection type: TNC female / TNC male Length: ca. 6 m EU: 5236.000.00 ID ANT.U290/290 Robust UHF antenna for connection to stationary UHF FCC: 5236.000.10 EU: 5238.000.00 FCC: 5238.000.10 UHF wide-range antenna 65 circular ID ANT.U580/290 UHF wide-range antenna 30 circular 5254.000.00 ID ANT.UEB-A Eye Bolt 4104.000.00 ID CPR.USB/OTG readers Connection: TNC socket Robust UHF antenna for connection to stationary UHF readers Optimized beam angle, increased antenna gain Connection: TNC socket M6 eye bolt for fall protection/secondary protection, PU: 10 pieces 4 GB USB memory stick with OTG adapter cable
(USB mini to USB A) 3271.000.00 ID CTF-U Windshield Transponder Self-adhesive, passive UHF transponder for mounting in windshield, PU: 10 pieces Page 34 of 36 IDENTIFICATION ID MAX.U500i List of Tables List of Tables List of Tables Table 1: Connection Terminals ........................................................................................................................ 12 Table 2: Operating and Display Elements ....................................................................................................... 12 Table 3: Pin assignment for power supply ....................................................................................................... 14 Table 4: Validation procedures for external wiring of the power supply .......................................................... 14 Table 5: Max. cable length depending on the conductor cross section .......................................................... 15 Table 6: Standard factory configuration of the Ethernet connection ............................................................... 16 Table 7: Pin Assignment X4 (Digital Outputs) ................................................................................................. 17 Table 8: Pin Assignment Relay Outputs REL1/REL2 ...................................................................................... 18 Table 9: Pin Assignment X5 (digital inputs) .................................................................................................... 19 Table 10: Reader status LED overview ........................................................................................................... 24 Table 11: Antenna status LED overview ......................................................................................................... 24 Table 12: Recommended mounting height depending on vehicle type .......................................................... 26 Page 35 of 36 IDENTIFICATION ID MAX.U500i List of Figures List of Figures List of Figures Fig. 1: Dimensional drawing back view .......................................................................................................... 8 Fig. 2: Dimensional drawing side view ........................................................................................................... 9 Fig. 3: Dimensional drawing top view: opened housing ............................................................................... 10 Fig. 4: Secondary protection via eye bolt ........................................................................................................ 11 Fig. 5: Connection Overview ........................................................................................................................... 12 Fig. 6: External antenna connection ................................................................................................................ 13 Fig. 7: Connector X2 pin assignment for power supply ................................................................................... 14 Fig. 8: LAN and PoE Connection ..................................................................................................................... 15 Fig. 9: Ethernet connector ............................................................................................................................... 16 Fig. 10: Connector X4 pin assignment for digital outputs ................................................................................ 17 Fig. 11: internal and external wiring of the digital outputs ............................................................................... 17 Fig. 12: Connector X4 pin assignment for relay outputs ................................................................................. 18 Fig. 13: External wiring of the relay outputs .................................................................................................... 18 Fig. 14: Connector X5 pin assignment for digital inputs .................................................................................. 19 Fig. 15: External wiring of the digital inputs ..................................................................................................... 19 Fig. 16: USB Mini interface for host communication ....................................................................................... 21 Fig. 17: USB On-The-Go adapter cable .......................................................................................................... 21 Fig. 18: Angle of the antenna to the roadway .................................................................................................. 26 Fig. 19: Typical vehicle access control application .......................................................................................... 27 Fig. 20: Positioning of the antenna .................................................................................................................. 27 Fig. 21: Positioning of transponders on different windshield types ................................................................. 28 Page 36 of 36
1 | Internal Photos | Internal Photos | 1.77 MiB | December 06 2019 |
Annex B 1-7303/18-01-01_AnnexB Internal photos of the Equipment Under Test This addendum is electronically signed and valid without handwritten signature. For verification of the electronic signatures, the public keys can be requested at the testing laboratory. Document authorized:
Ren Oelmann Testing Manager Radio Communications & EMC CTC advanced GmbH Untertuerkheimer Str. 6-10 66117 Saarbruecken / Germany Phone: +49 681 5 98 - 0 Fax: +49 681 5 98 - 9075 web: ctcadvanced.com e-mail: mail@ctcadvanced.com Photos Photo 1 - EUT with POE Photo 2 - EUT with POE 2019-05-20 Document No. 1-7303/18-01-01_AnnexB 2/11 Photo 3 - EUT with POE Photo 4 - EUT with POE 2019-05-20 Document No. 1-7303/18-01-01_AnnexB 3/11 Photo 5 - EUT with POE Photo 6 - EUT with POE 2019-05-20 Document No. 1-7303/18-01-01_AnnexB 4/11 Photo 7 - EUT without POE Photo 8 - EUT without POE 2019-05-20 Document No. 1-7303/18-01-01_AnnexB 5/11 Photo 9 - EUT without POE Photo 10 - EUT without POE 2019-05-20 Document No. 1-7303/18-01-01_AnnexB 6/11 Photo 11 - EUT without POE Photo 12 - View to antenna 2019-05-20 Document No. 1-7303/18-01-01_AnnexB 7/11 Photo 13 - antenna connector Photo 14 - antenna connector 2019-05-20 Document No. 1-7303/18-01-01_AnnexB 8/11 Photo 15 - antenna connector Photo 16 - antenna connector 2019-05-20 Document No. 1-7303/18-01-01_AnnexB 9/11 Photo 17 - antenna connector Photo 18 - internal antenna patch 2019-05-20 Document No. 1-7303/18-01-01_AnnexB 10/11 Document history Version Applied changes initial release
- END OF DOCUMENT -
Date of release 2019-05-20 2019-05-20 Document No. 1-7303/18-01-01_AnnexB 11/11
1 | Internal Photos Feig | Internal Photos | 195.99 KiB | December 06 2019 |
Internal Photos ID LRU500i-FCC FCC ID: PJM LRU500I IC: 6633A-LRU500I Date : 2019-03-22 Image 1, device open:
1 / 2 Image 2, front cover removed, viewing antenna and light guides:
FEIG ELECTRONIC GmbH 1/2 Internal Photos ID LRU500i-FCC FCC ID: PJM LRU500I IC: 6633A-LRU500I Date : 2019-03-22 2 / 2 Image 3, device open, showing PCB and typical cable fittings for the variants:
Image 4, PCB removed:
FEIG ELECTRONIC GmbH 2/2
1 | External Photos | External Photos | 884.83 KiB | December 06 2019 |
Annex A 1-7303/18-01-01_AnnexA External photos of the Equipment Under Test This addendum is electronically signed and valid without handwritten signature. For verification of the electronic signatures, the public keys can be requested at the testing laboratory. Document authorized:
Ren Oelmann Lab Manager Radio Communications & EMC CTC advanced GmbH Untertuerkheimer Str. 6-10 66117 Saarbruecken / Germany Phone: +49 681 5 98 - 0 Fax: +49 681 5 98 - 9075 web: ctcadvanced.com e-mail: mail@ctcadvanced.com Photos Photo 1 Photo 2 2019-05-13 Document No. 1-7303/18-01-01_AnnexA 2/7 Photo 3 Photo 4 2019-05-13 Document No. 1-7303/18-01-01_AnnexA 3/7 Photo 5 Photo 6 2019-05-13 Document No. 1-7303/18-01-01_AnnexA 4/7 Photo 7 Photo 8 2019-05-13 Document No. 1-7303/18-01-01_AnnexA 5/7 Photo 9 2019-05-13 Document No. 1-7303/18-01-01_AnnexA 6/7 Document history Version Applied changes initial release
- END OF DOCUMENT -
Date of release 2019-05-13 2019-05-13 Document No. 1-7303/18-01-01_AnnexA 7/7
1 | External Photos Feig | External Photos | 571.28 KiB | December 06 2019 |
External Photos ID LRU500i-FCC FCC ID: PJM LRU500I IC: 6633A-LRU500I Date : 2019-03-22 1 / 2 Image 1: Reader mounted on pole with signalling LEDs active Image 2 FEIG ELECTRONIC GmbH 1/2 External Photos ID LRU500i-FCC FCC ID: PJM LRU500I IC: 6633A-LRU500I Date : 2019-03-22 Image 3 2 / 2 Image 4 FEIG ELECTRONIC GmbH 2/2
1 | Product Label | ID Label/Location Info | 185.28 KiB | December 06 2019 |
Label ID LRU500i FCC ID: PJM LRU500I IC: 6633A-LRU500I Date : 2019-05-14 1 / 1 Label Model dependent
1 | Declaration Internal Antenna | Cover Letter(s) | 28.31 KiB | December 06 2019 |
FEIG ELECTRONIC GmbH Lange Strae 4 35781 Weilburg, Germany Receiver Federal Communication Commission Equipment Authorization Devision, Application Processing Branch 7435 Oakland Mills Road Columbia, MD 21048 Certification and Engineering Bureau Innovation, Science and Economic Development Canada Spectrum Engineering Branch 3701 Carling Avenue, Building 94 Ottawa, Ontario K2H 8S2 Subject:
Object of Declaration:
Declaration of limited power Date: 05/24/2019 FCC ID: PJMLRU500I IC: 6633A- LRU500I HVIN: ID MAX.U500i-FCC ID LRU500i-BD-FCC ID LRU500i-PoE-FCC TO WHOM IT MAY CONCERN We, Feig Electronic GmbH hereby declare and ensure that for those models the selectable output power for the operator is limited by firmware to 0.8W for the internal integrated antenna. If you have any questions, please feel free to contact us at the address shown below. Best Regards, Name:
Company:
Address:
Phone:
Fax:
Email:
Reinhard Monno Feig Electronic GmbH Lange Strasse 4, 35781 Weilburg / Germany
+49 6471 3109 0
+49 6471 3109 99 reinhard.monno@feig.de
1 | Permanent Confidentiality Letter | Cover Letter(s) | 20.20 KiB | December 06 2019 |
CONFIDENTIALITY REQUEST for Certification Service in USA Model names ID LRU500i-BD-FCC ID LRU500i-PoE-FCC ID MAX.U500i-FCC Federal Communication Commission Equipment Authorization Division, Application Processing Branch 7435 Oakland Mills Road Columbia, MD 21048 5/14/2019 TO WHOM IT MAY CONCERN Pursuant to Paragraphs 0.457 and 0.459 of the Commissions Rules (47 C.F.R.) and Section 552(b)(4) of the Freedom of Information Act, we request confidentiality for the following products:
FCC ID PJMLRU500I For the product stated above, we request permanent confidentiality for exhibits which contain Operational Description, Block Diagram, Schematics, PCB Layout, Part Lists or Tune Up Information. For the products stated above, we request that at least the following information is held confidential:
1. Electrical Schematic, Adobe Acrobat file LRU500i_Schematic.pdf (18 pages) 2. PCB Layout, Adobe Acrobat file LRU500i_PCB Prints.PDF (15 pages) 3. Block Diagram, Adobe Acrobat file LRU500i_Block_Diagram.pdf (1 page) 4. Partlists, Adobe Acrobat files LRU500i_BOM_LRU500i-BD.pdf (5 pages) and 5. Description, Adobe Acrobat file LRU500i_Operational_Description.pdf (2 pages) The above exhibits contain our trade secrets and proprietary information that could be of benefit to our competitors. If you have any questions, please feel free to contact me at the address shown below. Sincerely, LRU500i_BOM_LRU500i-POE_MAXU500i.pdf (6 pages) Name:
Company:
Address:
Phone:
Fax:
Email:
Reinhard Monno Feig Electronic GmbH Lange Strasse 4, 35781 Weilburg / Germany
+49 6471 3109 0
+49 6471 3109 99 reinhard.monno@feig.de
frequency | equipment class | purpose | ||
---|---|---|---|---|
1 | 2019-06-12 | 902.75 ~ 927.25 | DSS - Part 15 Spread Spectrum Transmitter | Original Equipment |
app s | Applicant Information | |||||
---|---|---|---|---|---|---|
1 | Effective |
2019-06-12
|
||||
1 | Applicant's complete, legal business name |
Feig Electronic GmbH
|
||||
1 | FCC Registration Number (FRN) |
0007634793
|
||||
1 | Physical Address |
Lange Strae 4
|
||||
1 |
Weilburg-Waldhausen, N/A D-35781
|
|||||
1 |
Germany
|
|||||
app s | TCB Information | |||||
1 | TCB Application Email Address |
T******@ctcadvanced.com
|
||||
1 | TCB Scope |
A4: UNII devices & low power transmitters using spread spectrum techniques
|
||||
app s | FCC ID | |||||
1 | Grantee Code |
PJM
|
||||
1 | Equipment Product Code |
LRU500I
|
||||
app s | Person at the applicant's address to receive grant or for contact | |||||
1 | Name |
E****** R****
|
||||
1 | Title |
Manager
|
||||
1 | Telephone Number |
+49 6********
|
||||
1 | Fax Number |
+49 6********
|
||||
1 |
e******@feig.de
|
|||||
app s | Technical Contact | |||||
n/a | ||||||
app s | Non Technical Contact | |||||
n/a | ||||||
app s | Confidentiality (long or short term) | |||||
1 | Does this application include a request for confidentiality for any portion(s) of the data contained in this application pursuant to 47 CFR § 0.459 of the Commission Rules?: | Yes | ||||
1 | Long-Term Confidentiality Does this application include a request for confidentiality for any portion(s) of the data contained in this application pursuant to 47 CFR § 0.459 of the Commission Rules?: | No | ||||
if no date is supplied, the release date will be set to 45 calendar days past the date of grant. | ||||||
app s | Cognitive Radio & Software Defined Radio, Class, etc | |||||
1 | Is this application for software defined/cognitive radio authorization? | No | ||||
1 | Equipment Class | DSS - Part 15 Spread Spectrum Transmitter | ||||
1 | Description of product as it is marketed: (NOTE: This text will appear below the equipment class on the grant) | RFID UHF Reader | ||||
1 | Related OET KnowledgeDataBase Inquiry: Is there a KDB inquiry associated with this application? | No | ||||
1 | Modular Equipment Type | Does not apply | ||||
1 | Purpose / Application is for | Original Equipment | ||||
1 | Composite Equipment: Is the equipment in this application a composite device subject to an additional equipment authorization? | No | ||||
1 | Related Equipment: Is the equipment in this application part of a system that operates with, or is marketed with, another device that requires an equipment authorization? | No | ||||
1 | Grant Comments | Output power listed is peak conducted. This device must be professionally installed. This device must be installed to provide a separation distance of at least 23 cm from all persons. RF exposure compliance is addressed for 1.1310 and 2.1091 MPE limits. End Users must be provided with transmitter operation conditions for satisfying RF exposure compliance. Only those antenna(s) as mentioned within the installation instructions must be used with this transmitter. | ||||
1 | Is there an equipment authorization waiver associated with this application? | No | ||||
1 | If there is an equipment authorization waiver associated with this application, has the associated waiver been approved and all information uploaded? | No | ||||
app s | Test Firm Name and Contact Information | |||||
1 | Firm Name |
CTC advanced GmbH (former CETECOM ICT Services )
|
||||
1 | Name |
G****** S********
|
||||
1 | Telephone Number |
49-68********
|
||||
1 | Fax Number |
49-68********
|
||||
1 |
t******@ctcadvanced.com
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Equipment Specifications | |||||||||||||||||||||||||||||||||||||||||
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Line | Rule Parts | Grant Notes | Lower Frequency | Upper Frequency | Power Output | Tolerance | Emission Designator | Microprocessor Number | |||||||||||||||||||||||||||||||||
1 | 1 | 15C | 36 | 902.75000000 | 927.25000000 | 0.9800000 | 90K0FXD |
some individual PII (Personally Identifiable Information) available on the public forms may be redacted, original source may include additional details
This product uses the FCC Data API but is not endorsed or certified by the FCC