Feig Electronic ID ISC.LRM2500-A Installation Manual
Long range reader
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Summary of Contents for Feig Electronic ID ISC.LRM2500-A
- Page 1 IDENTIFICATION === Ende der Liste für T extm arke Deckbl att === INSTALLATION ID ISC.LRM2500-A Long Range Reader M10210-8e-ID-B...
- Page 2 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.
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Page 3: Table Of Contents
IDENTIFICATION ID ISC.LRM2500-A Content Contents Safety Instructions Performance Features of Reader Family ID ISC.LRM2500 Performance Features ....................... 6 Available Reader Types ....................6 Installation and mounting Mounting ..........................7 Terminals ........................... 9 Antenna connection ......................10 Supply voltage ......................... 11 X2: Optocoupler Inputs (IN1, IN2, IN3) ................ - Page 4 IDENTIFICATION ID ISC.LRM2500-A Technical Data === Ende der Liste für T extm arke Note === Page 4 of 30...
- Page 5 IDENTIFICATION ID ISC.LRM2500-A 1 Safety Instructions ► The device may only be used for the intended purpose designed by for the manufacturer. ► The operation 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.
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Page 6: Performance Features Of Reader Family Id Isc.lrm2500
IDENTIFICATION ID ISC.LRM2500-A 2 Performance Features of Reader Family ID ISC.LRM2500 2.1 Performance Features The Reader has been developed for reading passive data carriers, so-called „Smart Labels“, using an operating frequency of 13.56 MHz. For the operation it is necessary to connect a appropriate external antenna to the connector ANT1. -
Page 7: Installation And Mounting
IDENTIFICATION ID ISC.LRM2500-A 3 Installation and mounting 3.1 Mounting The Reader Module is designed for installation on a heat sink. Mounting is accomplished using the 4.5 mm holes located in each corner of the base plate (see: Figure 1). - Page 8 IDENTIFICATION ID ISC.LRM2500-A To fully exploit the performance of the Reader Module, the heat sink should have a thermal resistance R of max. 1 K/W. When attaching the Reader Module to the heat sink you should strive for a little heat transfer resistance between the base plate and the heat sink as possible. The use of heat sink compound is recommended.
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Page 9: Terminals
IDENTIFICATION ID ISC.LRM2500-A 3.2 Terminals Figure 2 shows the terminals and control elements of the ID ISC.LRM2500-A Figure 2: Reader terminals Page 9 of 30... -
Page 10: Antenna Connection
IDENTIFICATION ID ISC.LRM2500-A 3.3 Antenna connection The SMA socket „ANT1“ is located on the lower circuit board for connecting the antenna to the ID ISC.LRM2500. Active external function units (e.g. ID ISC.DAT) can also be supplied with 8 V through the antenna terminal. -
Page 11: Supply Voltage
IDENTIFICATION ID ISC.LRM2500-A 3.4 Supply voltage The reader has to be supplied by a limited power supply according to EN 62368-1 Chapter Q.1, or with a NEC Class 2/LPS certified power supply. The external wiring for the power supply must be compliant with - IEC 60332-2-1 and IEC 60332-2-2 for Wire Cross Section <... -
Page 12: X2: Optocoupler Inputs (In1, In2, In3)
IDENTIFICATION ID ISC.LRM2500-A 3.5 X2: Optocoupler Inputs (IN1, IN2, IN3) The three optocouplers inputs are available on Terminal X2. Figure 5: Optocoupler pin-outs on terminal X2 The optocoupler on terminal strips X2 are galvanically isolated from the Reader electronics and must therefore be powered externally, see Figure 6. - Page 13 IDENTIFICATION ID ISC.LRM2500-A 24 V 24 V 24 V Figure 7: Possible internal power supply for the optocouplers The input LED for the optocouplers are internally connected to a series resistor of 1290 and are limited to an input current of max.
- Page 14 IDENTIFICATION ID ISC.LRM2500-A Note: • The input is configured for a maximum input voltage of 24 V and an input current of maximum 20mA. • Reversing the polarity or overloading the input will destroy it. Jumper Description Series resistance IN1 (X2)
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Page 15: X2 Optocoupler Outputs (Out1, Out2)
IDENTIFICATION ID ISC.LRM2500-A 3.6 X2 Optocoupler outputs (OUT1, OUT2) The transistor connections, collector and emitter, of the optocoupler outputs are galvanically isolated from the Reader electronics and are carried to the outside without any internal ancillary circuitry on Terminal X2. -
Page 16: X2 Relay (Rel1, Rel2, Rel3)
IDENTIFICATION ID ISC.LRM2500-A 3.7 X2 Relay (REL1, REL2, REL3) The relay outputs are all a normally open contact. These outputs, which are located on terminals X2, are galvanically isolated from the Reader electronics and must therefore be externally supplied. The external voltage may however be provided by the card using jumper J7;J8;J9. - Page 17 IDENTIFICATION ID ISC.LRM2500-A 24 V REL3 24 V REL2 24 V REL1 Figure 13: Internal and possible external wiring of the relay output’s with internal voltage Table 7 shows the assignment of the jumpers to the relay output Jumper Description...
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Page 18: X2 Output 24V (24V, Gnd)
IDENTIFICATION ID ISC.LRM2500-A 3.8 X2 Output 24V (24V, GND) The output 24V/GND can be used to power the optional external circuitry of the digital inputs , outputs or relays. The maximum current consumption must not exceed 500mA. A possible current consumption via J2, J4, J6 or J7, J8, J9 must be factored in. -
Page 19: X8: External Diagnostic Led Connections
IDENTIFICATION ID ISC.LRM2500-A 3.9 X8: External diagnostic LED connections X8 allows for connection of additional external LEDs in parallel with the internal diagnostic LEDs. The external LEDs are connected as shown in Figure 16. Terminal Abbreviation Description X8 / Pin 1 Function same as internal LED V1 Anode ext. -
Page 20: Interfaces
IDENTIFICATION ID ISC.LRM2500-A 3.10 Interfaces 3.10.1 RS232-Interface X3 The RS232 interface is connected on X3. The transmission parameters can be configured by means of software protocol. Figure 16: RS232 interface pin-outs on X3 Kurzzeichen Description RS232 – (Transmit) RS232 – (Receive) RS232 –... -
Page 21: Rs485-Interface X3
IDENTIFICATION ID ISC.LRM2500-A 3.10.2 RS485-Interface X3 The connection of the RS485 interface take place via the X3 connector as well. The interface parameter can be configured via software protocols. Figure 18: RS485 interface pin-outs on X3 (RS485-Interface) Abbreviation Description RS485 – GND RS485 –... - Page 22 IDENTIFICATION ID ISC.LRM2500-A RS485 + RS485 - Figure 19: Jumper of the RS485-interface Figure 20: Position of the Jumper J10, J11 Note: If the Gate People Counter is connected with the RS485 interface the RS485 interface can be not used for host communication.
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Page 23: Usb - Interface X4 (Host Communication, Hid)
IDENTIFICATION ID ISC.LRM2500-A 3.10.3 USB – Interface X4 (Host Communication, HID) The USB socket on the board is terminal X4. The pinout is standardized. The data rate is reduced to 12 Mbit (USB full speed). A standard USB-cable can be used. -
Page 24: Ethernet-Interface On X1 (10/100 Base-T)
IDENTIFICATION ID ISC.LRM2500-A 3.10.5 Ethernet-Interface on X1 (10/100 Base-T) 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 1000 Base-T Standard. -
Page 25: Operating And Display Elements
IDENTIFICATION ID ISC.LRM2500-A 4 Operating and Display Elements 4.1 LEDs Abbreviation Description LED V1 (green) "RUN-LED 1" Indicates proper running of the internal Reader software (DSP) Comes on during Reader initialization after power-on or after a reset. Flashes alternating with V3 and V5 for about 5s while the configuration reset button T2 is pressed. -
Page 26: Reset-Buttons
IDENTIFICATION ID ISC.LRM2500-A 4.2 Reset-Buttons Next to the LAN interface connector the reset buttons T1 and T2 are positioned. With the reset button T1 a manual CPU Reset can be performed. With the push button T2 a complete configuration reset can be performed. All reader parameters will be set to default. -
Page 27: Radio Approvals
5.1 Declaration of Conformity (CE), (UKCA) Declaration of Conformity (CE) Hereby FEIG ELECTRONIC GmbH declares that the radio equipment type ID ISC.LRM2500-A is in compliance with Directive 2014/53/EU. The full text of the EU declaration of conformity is available at the following internet address: https://www.feig.de/en/service/eu-declarations-of-conformity/... -
Page 28: Usa (Fcc) And Canada (Ic)
Warning: Changes or modification made to this equipment not expressly approved by FEIG ELECTRONIC GmbH may void the FCC authorization to operate this equipment. Installation with FCC / IC Approval:... - Page 29 IDENTIFICATION ID ISC.LRM2500-A 6 Technical Data Mechanical Data approx. 0,6 kg (1.32 lb) Weight 160 mm x 120 mm x 46 mm Dimensions (6.29 inch x 4.72 inch x 1.81 inch) (W x H x D) Electrical Data 15 %...
- Page 30 IDENTIFICATION ID ISC.LRM2500-A EN 60068-2-6 Vibration 10 Hz to 150 Hz : 0,075 mm / 1 g EN 60068-2-27 Shock Acceleration: 30 g Applicable Standards RF Approval Europe EN 300 330 EN 300 330 FCC 47 CFR Part 15 Canada...