alternative reader wiring guide -...
TRANSCRIPT
7.3
Alternative Reader Wiring Guide
Lenel® OnGuard® 7.3 Alternative Reader Wiring GuideThis guide is item number DOC-601, revision 7.003, May 2016© 2016 United Technologies Corporation. All rights reserved.
Lenel®, OnGuard® and Prism® (Registered trademarks of UTC Fire & Security Americas Corporation, Inc.) Lenel is a part of UTC Climate, Controls & Security, a unit of United Technologies Corporation.All trademarks are the property of their respective owners.Information in this document is subject to change without notice. No part of this document may be reproduced or transmitted in any form or by any means, electronic or mechanical, for any purpose, without the express written permission of UTC Fire & Security Americas Corporation, Inc.Non-English versions of Lenel documents are offered as a service to our global audiences. We have attempted to provide an accurate translation of the text, but the official text is the English text, and any differences in the translation are not binding and have no legal effect.The software described in this document is furnished under a license agreement and may only be used in accordance with the terms of that agreement. Crystal Reports for Windows is a trademark of Crystal Computer Services, Inc.
OnGuard includes ImageStream® Graphic Filters. © 2002 eBT International, Inc. (f/k/a Inso Corporation). All rights reserved. ImageStream Graphic Filters and ImageStream are registered trademarks of eBT International, Inc. (f/k/a Inso Corporation).Integral and FlashPoint are trademarks of Integral Technologies, Inc. Portions of this product were created using LEADTOOLS ©1991-2011, LEAD Technologies, Inc. ALL RIGHTS RESERVED. Portions of this product are licensed under US patent 5,327,254 and foreign counterparts. Active Directory, Microsoft, SQL Server, Windows, and Windows Server are either registered trademarks or trademarks of Microsoft Corporation in the United States and/or other countries. Oracle is a registered trademark of Oracle and/or its affiliates. Other names may be trademarks of their respective owners.Other product names mentioned may be trademarks or registered trademarks of their respective companies and are hereby acknowledged. WarrantyUTC Fire & Security Americas Corporation, Inc. ("Lenel") warrants that the product is free from defects in material and workmanship under normal use and service with proper maintenance for one year from the date of factory shipment. Lenel assumes no responsibility for products damaged by improper handling, misuse, neglect, improper installation, over-voltages, repair, alteration, or accident. This warranty is limited to the repair or replacement of the defective unit. In no event shall Lenel be liable for loss of use or consequential damages of any kind, however occasioned. There are no expressed warranties other than those set forth herein. Warranty expressly excludes third party additions, deletions and/or upgrades to this product, including those contained herein. Lenel does not make, nor intends, nor does it authorize any agent or representative to make any other warranties or implied warranties, and expressly excludes and disclaims all implied warranties of merchantability or fitness for a particular purpose.Returned units are repaired or replaced from a stock of reconditioned units. All returns must be accompanied by a return authorization number (RMA) obtained from the Lenel customer service department prior to returning or exchanging any product. The RMA number must appear on the outside of the shipping box and on the packing slip. Any items returned without an RMA number will not be accepted and will be returned at the customer's expense. All returns must have transportation, insurance, and custom brokers' fees prepaid.LiabilityIt is expressly understood and agreed that the interface should only be used to control exits from areas where an alternative method for exit is available. This product is not intended for, nor is rated for operation in life-critical control applications. Lenel is not liable under any circumstances for loss or damage caused by or partially caused by the misapplication or malfunction of the product. Lenel's liability does not extend beyond the purchase price of the product.
Alternative Reader Wiring Guide
Table of Contents
Access Readers ...................................................................7
1. UL and EN Evaluated Readers .............................................................. 9
2. AIT Readers ........................................................................................... 92.1. AIT Reader #L-TR200 ................................................................... 9
3. AWID Readers ..................................................................................... 133.1. AWID Sentinel Prox MR-1824 ..................................................... 133.2. AWID Sentinel-Prox SP-6820, SR-2400, and MM-6800 ............. 153.3. AWID Prox with Keypad (KP-6840) ............................................. 183.4. AWID Sentinel-Prox RKP-4600 ................................................... 213.5. AWID Sentinel-Prox LR-911 ........................................................ 223.6. AWID LR-2200 Reader ............................................................... 24
4. BAI Barcode Readers .......................................................................... 274.1. BAI Barcode Reader #BA-200 .................................................... 27
5. Banque-Tec Readers ........................................................................... 295.1. Smart Card Reader (Models BT815 and BT900/818) ................. 29
6. Baran Tec Keypad Readers ................................................................ 316.1. 39201302 and 39201303 8-bit Output Readers .......................... 316.2. Baran Tec Everswitch Proximity Reader Plus Keypad ................ 34
7. Bewator Readers ................................................................................. 377.1. Remote Card Reader Model BC18 ............................................. 37
8. Casi-Rusco Prox Readers ................................................................... 398.1. Casi-Rusco 94x, 97x Prox Readers ............................................ 398.2. Reader (Wiegand) Operation ...................................................... 418.3. Casi-Rusco 940-W Prox Lite (F/2F Mode) .................................. 428.4. Configuration for Casi-Rusco Readers ........................................ 448.5. Reader (F/2F Mode) Operation ................................................... 46
9. CEIA Readers ...................................................................................... 479.1. CEIA Freedom Reader with Keypad (Prox) ................................ 479.2. CEIA Freedom Reader (Output Protocol Clock/Data) ................. 48
10. Checkpoint Systems Readers ........................................................... 51
revision 7 — 3
Table of Contents
10.1. Mirage II Readers ...................................................................... 5110.2. Checkpoint Reader Model SN-MSC 16147 ............................... 5310.3. Mirage Proximity Reader B ....................................................... 55
11. Codeguard Series II/III ....................................................................... 5711.1. Secure Keypad Reader ............................................................. 57
12. Cross Match Readers ........................................................................ 6312.1. Cross Match 900xxx TWIC Readers ......................................... 63
13. Deister Electronics ............................................................................. 6713.1. Smart Card Reader Model PRM 5M, PRX 5 HSF ..................... 6713.2. Reader Model PRL5/2 KPL5/2 .................................................. 68
14. Dorado Readers ................................................................................ 7114.1. Dorado Reader Model 644 ........................................................ 7114.2. Dorado Reader Model 780 ........................................................ 7314.3. Dorado Reader Model 611 ........................................................ 7514.4. Dorado Elevator Reader 570 ..................................................... 7514.5. Dorado 230/240 Combination Readers ..................................... 77
15. Essex Keypads .................................................................................. 7915.1. Essex Keypad Reader #KTP-16212SLI .................................... 7915.2. Essex Keypad Reader #KTP-163SN ........................................ 81
16. HID Readers ...................................................................................... 8316.1 HID ProxPro ............................................................................... 8316.2 HID MaxiProx 5370 A-1 .............................................................. 8516.3 HID MaxiProx 5370/5375AGN00 ............................................... 8616.4 Hughes MiniProx ........................................................................ 8716.5 Classic, EPIC Swipe and Pinpad Wiegand Readers .................. 8916.6 ProxPoint Readers ..................................................................... 9016.7 ProxPro II ................................................................................... 9116.8 iCLASS RW300, RW400 Readers/Encoders ............................. 9316.9 iCLASS and multiCLASS Legacy and SE Readers ................... 9516.10 multiCLASS RMP40 and RMPK40 Readers ............................ 9816.11 EntryProx 4045-905 ............................................................... 10016.12 SensorKey Reader ................................................................. 10216.13 HID MIFARE 6055 .................................................................. 10416.14 HID LCD and bioCLASS Readers (RWKL550/RWKLB575)
Wired for OSDP Support ............................................................... 10616.15 HID MIFARE Format Secure 6075 Reader ............................ 10716.16 HID OSDP Readers ............................................................... 109
4 — revision 7
Alternative Reader Wiring Guide
16.17 SmartID/SmartTRANS Models S10, SK10, SP10, SPK10 ..... 11216.18 ThinLine II Proximity Reader .................................................. 11516.19 ProxPro 5355 Proximity Reader ............................................. 117
17. IDH Max ........................................................................................... 11917.1. IDH Max Door Readers ........................................................... 119
18. ID Solutions Readers ....................................................................... 12318.1. ID Solutions Model 8030/8035 Bar Code Reader ................... 123
19. Infographics Readers ....................................................................... 12519.1. Infographics Reader OTD-60 .................................................. 125
20. Integrated Engineering Readers ...................................................... 12720.1. Integrated Engineering PX007 Mifare Reader ........................ 12720.2. Desfire Reader ........................................................................ 129
21. Keri Systems Readers ..................................................................... 13121.1. Cascade and Sierra Readers (P-300, P-400, P-500, P-600
with Keypad, P-700) ...................................................................... 131
22. Magtek Readers .............................................................................. 13322.1. Magtek 101-Millimeter Swipe Reader (Model 2105002) ......... 133
23. Mifare Readers ................................................................................ 13523.1. Mifare Model LA-WIW-PROXKEY-M ...................................... 13523.2. Iolan Reader Model LA-XXW-PRXKY-MX 1050-4021-092 ..... 137
24. Motorola Indala Readers ................................................................. 13924.1. Indala Readers ASR-120, ASR-122 ........................................ 13924.2. Indala Readers ASR-503, ASR-505, ASR-110, ASR-112 ....... 14124.3. Indala Readers ASR-103, ASR-105, ASR-120, ASR-122,
ASR-124, ASR-136 ....................................................................... 14324.4. Indala Reader ARK-501 .......................................................... 14724.5. Indala Readers ASR-500, ASR-501, ASR-503, ASR-505,
ASR-110 ........................................................................................ 14924.6. Motorola BiStatix Prox Reader (BXR-610) .............................. 15124.7. Indala EM4525F Reader ......................................................... 15224.8. Motorola FlexPass Readers .................................................... 153
25. Nedap Readers ................................................................................ 15525.1. Nedap Transit Readers ........................................................... 155
26. Northern Readers ............................................................................ 15926.1. Northern BR-7 Barcode Reader .............................................. 159
27. Schlage Keypads ............................................................................. 161
revision 7 — 5
Table of Contents
27.1. Schlage SERIII-W Scramble Keypad ...................................... 161
28. Secura Key Readers ........................................................................ 16728.1. e-Tag Prox Reader #ASSY 2014040 ...................................... 16728.2. Touch Card Reader (TC-100) ................................................. 16928.3. Touch Card SK-028W Barium Ferrite Reader ......................... 171
29. Suprema Readers ............................................................................ 17329.1 BioEntry W OSDP Reader ....................................................... 173
30. Synergistics Readers ....................................................................... 17530.1. SR1054FL Swipe Card Reader ............................................... 17530.2. SR1058SLE Swipe Card Reader ............................................ 177
31. Texas Instruments Readers ............................................................. 17931.1. TI S6410 Wall Plate/S6420 Mullion Reader ............................ 179
32. XceedID Readers ............................................................................ 18132.1. XceedID ISO-X Reader ........................................................... 18132.2 XceedID aptiQ PR10/SM10/MT11/MT15/MTK15 ..................... 18532.3 XceedID XF1050-K .................................................................. 18832.4 XceedID XF1500 ...................................................................... 19032.5. XceedID Reader Wiring to Support OSDP Protocol ................ 192
Index ........................................................................................................... 193
6 — revision 7
ACCESS READERS
Alternative Reader Wiring Guide
1. UL and EN Evaluated Readers
For more details on which readers are certified for UL Listed or EN Listed installations, refer to the Hardware Installation Guide, DOC-600, or the NGP Hardware Installation Guide, 55-6000E.
2. AIT Readers
2.1. AIT Reader #L-TR200
AIT readers are used for asset tracking. The reader/antenna is connected to a Wiegand data converter and attached directly to a reader interface module. The Wiegand converter changes the data from RS-485 to a standard Wiegand data string. This allows the software to function with these readers and cards. The reader can effectively read the assets up to 45 feet from the reader using asset tags L-TG100 and L-TG200.
revision 7 — 9
AIT Readers
2.1.1 Wiring the LNL-1300
10 — revision 7
Alternative Reader Wiring Guide
2.1.2 Wiring the LNL-1320
revision 7 — 11
AIT Readers
12 — revision 7
Alternative Reader Wiring Guide
3. AWID Readers
Use the following diagrams to wire (single wire LED control) Single/Dual Reader Interface Modules and AWID Sentinel readers.
If a Sentinel Prox reader is disconnected from the power supply and then reconnected, the readers will not read the initial card presented. Subsequent cards will be read as usual.
3.1. AWID Sentinel Prox MR-1824
This reader has an input current ranging from 250 to 650 mA. The reader distance also varies according to the current, from 15 to 25 inches. Due to this input current, the reader will need to be run off a dedicated power supply.
3.1.1 Wiring the LNL-1300
revision 7 — 13
AWID Readers
3.1.2 Wiring the LNL-1320
14 — revision 7
Alternative Reader Wiring Guide
3.2. AWID Sentinel-Prox SP-6820, SR-2400, and MM-6800
The following readers do not require a dedicated power supply, and can be powered from the reader interface modules. It is important to make sure that the dual reader interface module is set to UNREGULATED POWER MODE (jumper J2). This will allow the maximum amount of current for the readers.
Sentinel-Prox Reader Power Specifications
3.2.1 Wiring the LNL-1300
Note: Connect reader’s cable drain shield to earth ground.
Model Voltage Current
SP-6820 5 to 12 VDC 120 mA
SR-2400 5 to 12 VDC 100 mA
MM-6800 5 to 12 VDC 120 mA
From LNL-1300 To AWID Sentinel-Prox Reader Typical Software Settings
Reader Terminal
Pin Wire Color Description • Reader Type = Wiegand/Prox
• Keypad = No Keypad
• LED Mode = 1-Wire LED Control
TB4
GND Black Ground
BZR Yellow Beeper
LED Brown LED
CLK D1 White Data 1
DAT D0 Green Data 0
V0 Red 5 - 12 VDC
revision 7 — 15
AWID Readers
3.2.2 Wiring the LNL-1320
Note: Connect reader’s cable drain shield to earth ground.
3.2.3 Wiring the LNL-1300-U
Note: Connect reader’s cable drain shield to earth ground.
From LNL-1320 To AWID Sentinel-Prox Reader Typical Software Settings
Reader 1 or Reader 2 Pin Wire Color Description • Reader Type = Wiegand/Prox
• Keypad = No Keypad
• LED Mode = 1-Wire LED Control
GND Black Ground
DAT D0 Green Data 0
CLK D1 White Data 1
BZR Yellow Beeper
LED Brown LED
V0 Red 5-12 VDC
From LNL-1300-U To AWID Sentinel-Prox Reader Typical Software Settings
Reader Terminals
Pin Wire Color Description • Reader Type = Wiegand/Prox
• Keypad = No Keypad
• LED Mode = 1-Wire LED Control
J10
GND Black Ground
DAT D0 Green Data 0
CLK D1 White Data 1
J13
LED1 Brown Green LED
LED2 Not connected Not connected
BZR Yellow Buzzer
V0 Red 5-12 VDC
16 — revision 7
Alternative Reader Wiring Guide
3.2.4 Wiring the LNL-1320-U
Notes: Do not connect the AWID Sentinel-Prox Reader reader to the J15 and J18 terminals on the LNL-1320-U.
Connect reader’s cable drain shield to earth ground.
From LNL-1320-U To AWID Sentinel-Prox Reader Typical Software Settings
Reader Terminals
Pin Wire Color Description • Reader Type = Wiegand/Prox
• Keypad = No Keypad
• LED Mode = 1-Wire LED Control
J10
GND Black Ground
DAT D0 Green Data 0
CLK D1 White Data 1
J13
LED1 Brown Green LED
LED2 Not connected Not connected
BZR Yellow Buzzer
V0 Red 5-12 VDC
revision 7 — 17
AWID Readers
3.3. AWID Prox with Keypad (KP-6840)
Note: The reader firmware must be KP-6840 REV C-8 for proper functionality.
The reader can be powered directly from the Dual Reader Interface.
Prox with Keypad Reader Power Specifications
3.3.1 Wiring the LNL-1300
Note: Connect reader’s cable drain shield to earth ground.
Model Voltage Current
KP-6840 5 to 12 VDC 50 to 120 mA
From LNL-1300 To AWID Prox with Keypad Reader Typical Software Settings
Reader Terminal
Pin Wire Color Description • Reader Type = Wiegand/Prox
• Keypad = 8-Bit Output
• LED Mode = 1-Wire LED Control
TB4
GND Black Ground
BZR Yellow Beeper
LED Brown LED
CLK D1 White Data 1
DAT D0 Green Data 0
V0 Red 5 - 12 VDC
18 — revision 7
Alternative Reader Wiring Guide
3.3.2 Wiring the LNL-1320
Note: Connect reader’s cable drain shield to earth ground.
3.3.3 Wiring the LNL-1300-U
Note: Connect reader’s cable drain shield to earth ground.
From LNL-1320 To AWID Prox with Keypad Reader Typical Software Settings
Reader 1 or Reader 2 Pin Wire Color Description • Reader Type = Wiegand/Prox
• Keypad = 8-Bit Output
• LED Mode = 1-Wire LED Control
GND Black Ground
DAT D0 Green Data 0
CLK D1 White Data 1
BZR Yellow Beeper
LED Brown LED
V0 Red 5-12 VDC
From LNL-1300-U To AWID Prox with Keypad Reader Typical Software Settings
Reader Terminals
Pin Wire Color Description • Reader Type = Wiegand/Prox
• Keypad = 8-Bit Output
• LED Mode = 1-Wire LED Control
J10
GND Black Ground
DAT D0 Green Data 0
CLK D1 White Data 1
J13
LED1 Brown Green LED
LED2 Not connected Not connected
BZR Yellow Buzzer
V0 Red 5-12 VDC
revision 7 — 19
AWID Readers
3.3.4 Wiring the LNL-1320-U
Notes: Do not connect the AWID Prox with Keypad Reader to the J15 and J18 terminals on the LNL-1320-U.
Connect reader’s cable drain shield to earth ground.
From LNL-1320-U To AWID Prox with Keypad Reader Typical Software Settings
Reader Terminals
Pin Wire Color Description • Reader Type = Wiegand/Prox
• Keypad = 8-Bit Output
• LED Mode = 1-Wire LED Control
J10
GND Black Ground
DAT D0 Green Data 0
CLK D1 White Data 1
J13
LED1 Brown Green LED
LED2 Not connected Not connected
BZR Yellow Buzzer
V0 Red 5-12 VDC
20 — revision 7
Alternative Reader Wiring Guide
3.4. AWID Sentinel-Prox RKP-4600
This reader is a radio-frequency proximity reader with a virtually indestructible integrated keypad for access control systems. The reader consists of a 12-key piezoelectric keypad, transmit/receive antenna, and reader electronics, in a slim plastic housing. The reader electronics are potted with epoxy resin to protect against the environment. The reader may be mounted on a single-gang electrical utility box, or on any surface (wall, cabinet, etc.).
3.4.1 Wiring the RKP-4600 Reader
revision 7 — 21
AWID Readers
3.5. AWID Sentinel-Prox LR-911
The LR-911 requires an alternate power source of 5-15 VDC and has a current requirement of 1.5A. There are no LED's on the reader (optional). The reader has a read range of up to 11 feet. See diagram below for proper wiring and setup.
3.5.1 Wiring the LNL-1300
22 — revision 7
Alternative Reader Wiring Guide
3.5.2 Wiring the LNL-1320
revision 7 — 23
AWID Readers
3.6. AWID LR-2200 Reader
The LR-2200 requires an alternate power source of 12-24 VDC and has a current requirement of 1.5 A. The reader has a read range of 15 to 20 feet (4.6 to 6.1 meters).
LR-2200 Reader Power Specifications
3.6.1 Wiring the LNL-1300
Note: Connect the LR-2200 red wire to the power output terminal of the alternate power source. Connect the LR-2200 black and yellow wires to the ground terminal of the alternate power source.
Model Voltage Current
LR-2200 12 to 24 VDC Up to 1.5 A
From LNL-1300 To AWID LR-2200 Reader Typical Software Settings
Reader Terminal
Pin Wire Color Description • Reader Type = Wiegand/Prox
TB4
GND Blue Ground
BZR Not connected Not connected
LED Not connected Not connected
CLK D1 White Data 1
DAT D0 Green Data 0
V0 Not connected Not connected
24 — revision 7
Alternative Reader Wiring Guide
3.6.2 Wiring the LNL-1320
Note: Connect the LR-2200 red wire to the power output terminal of the alternate power source. Connect the LR-2200 black and yellow wires to the ground terminal of the alternate power source.
3.6.3 Wiring the LNL-1300-U
Note: Connect the LR-2200 red wire to the power output terminal of the alternate power source. Connect the LR-2200 black and yellow wires to the ground terminal of the alternate power source.
From LNL-1320 To AWID LR-2200 Reader Typical Software Settings
Reader 1 or Reader 2 Pin Wire Color Description • Reader Type = Wiegand/Prox
GND Blue Ground
DAT D0 Green Data 0
CLK D1 White Data 1
BZR Not connected Not connected
LED Not connected Not connected
V0 Not connected Not connected
From LNL-1300-U To AWID LR-2200 Reader Typical Software Settings
Reader Terminals
Pin Wire Color Description • Reader Type = Wiegand/Prox
J10
GND Blue Ground
DAT D0 Green Data 0
CLK D1 White Data 1
J13
LED1 Not connected Not connected
LED2 Not connected Not connected
BZR Not connected Not connected
V0 Not connected Not connected
revision 7 — 25
AWID Readers
3.6.4 Wiring the LNL-1320-U
Note: Connect the LR-2200 red wire to the power output terminal of the alternate power source. Connect the LR-2200 black and yellow wires to the ground terminal of the alternate power source.
From LNL-1300-U To AWID LR-2200 Reader Typical Software Settings
Reader Terminals
Pin Wire Color Description • Reader Type = Wiegand/Prox
J10
GND Blue Ground
DAT D0 Green Data 0
CLK D1 White Data 1
J13
LED1 Not connected Not connected
LED2 Not connected Not connected
BZR Not connected Not connected
V0 Not connected Not connected
26 — revision 7
Alternative Reader Wiring Guide
4. BAI Barcode Readers
The BAI (BA-200) Barcode reader supports an Wiegand output format of 26, 30, and 31 bits. The reader will support the following barcode formats: 10 digit interleave 2 of 5 barcode, 8 digit interleave 2 of 5 barcode, proprietary format called AFC, and 5 character code 39 barcode. For test purposes, there were no setup modifications made. We used all pre-set factory default settings. There are two LED's on the outside of the reader. The amber light shows that there is power connected to the reader, and the green light will come on when there is a valid card read. The current firmware revision is 1006.
4.1. BAI Barcode Reader #BA-200
4.1.1 Wiring the LNL-1300
revision 7 — 27
BAI Barcode Readers
4.1.2 Wiring the LNL-1320
28 — revision 7
Alternative Reader Wiring Guide
5. Banque-Tec Readers
5.1. Smart Card Reader (Models BT815 and BT900/818)
The smart card reader operates at 12 VDC and communicates with a standard Wiegand output. It uses a single wire LED control. Follow the drawing below to connect the reader to the reader interface module.
5.1.1 Wiring the LNL-1300
revision 7 — 29
Banque-Tec Readers
5.1.2 Wiring the LNL-1320
30 — revision 7
Alternative Reader Wiring Guide
6. Baran Tec Keypad Readers
These readers are available in two styles: 3 x 4 keypads (part number 39201303) and 2 x 6 keypads (part number 39201302).
Baran Tec 39201302 and 39201303 Reader Power Specifications
6.1. 39201302 and 39201303 8-bit Output Readers
The reader requires a 12/24 V, AC or DC power source, and has a current draw of 10 mA. Therefore, the reader can be powered directly from either of the reader interface modules.
The reader features a 2-Wire LED configuration. If the LED support for this keypad is not being used, omit the connections for those two wires. The reader is using a standard 8-bit output format.
Model Voltage Current
39201302 12/ 24 V, AC/DC 10 mA
39201303 12/ 24 V, AC/DC 10 mA
revision 7 — 31
Baran Tec Keypad Readers
Important: If connecting two readers to one interface module, make sure that the LED control is connected for only one reader. Both reader LEDs can not be connected at the same time.
6.1.1 Wiring the LNL-1300
6.1.2 Wiring the LNL-1320
From LNL-1300 To Baran Tec Reader Typical Software Settings
Reader Terminal
Pin Wire Description • Keypad = 8-bit Output
• Reader Type = Wiegand/Prox
• LED Mode = 2-Wire LED Control
TB4
GND Black Ground
BZR Yellow Red LED
LED Brown Green LED
CLK D1 White Clock/D1
DAT D0 Green Data/D0
V0 Red Power (5-12 VDC)
From LNL-1320 To Baran Tec Reader Typical Software Settings
Reader 1 or Reader 2 Pin Wire Description • Keypad = 8-bit Output
• Reader Type = Wiegand/Prox
• LED Mode = 2-Wire LED Control
GND Black Ground
DAT D0 Green Clock/D0
CLK D1 White Data/D1
BZR Yellow Red LED
LED Brown Green LED
V0 Red Power (5-12 VDC)
32 — revision 7
Alternative Reader Wiring Guide
6.1.3 Wiring the LNL-1300-U
6.1.4 Wiring the LNL-1320-U
From LNL-1300-U To Baran Tec Reader Typical Software Settings
Reader Terminals
Pin Wire Description • Keypad = 8-bit Output
• Reader Type = Wiegand/Prox
• LED Mode = 2-Wire LED Control
J10
GND Black Ground
DAT D0 Green Data/D0
CLK D1 White Clock/D1
J13
LED1 Yellow Green LED
LED2 Brown Red LED
BZR Not connected Buzzer Input
V0 Red Power (5-12 VDC)
From LNL-1320-U To Baran Tec Reader Typical Software Settings
Reader Terminals
Pin Wire Description • Keypad = 8-bit Output
• Reader Type = Wiegand/Prox
• LED Mode = 2-Wire LED Control
J10
GND Black Ground
DAT D0 Green Data/D0
CLK D1 White Clock/D1
J13
LED1 Yellow Green LED
LED2 Brown Red LED
BZR Not connected Buzzer Input
V0 Red Power (5-12 VDC)
revision 7 — 33
Baran Tec Keypad Readers
6.2. Baran Tec Everswitch Proximity Reader Plus Keypad
The BaranTec Everswitch reader operates at 5-12 VDC. The maximum current draw is 150 mA.
6.2.1 Wiring the LNL-1300
34 — revision 7
Alternative Reader Wiring Guide
6.2.2 Wiring the LNL-1320
revision 7 — 35
Baran Tec Keypad Readers
36 — revision 7
Alternative Reader Wiring Guide
7. Bewator Readers
7.1. Remote Card Reader Model BC18
The reader does not require a separate power supply when being connected to the Dual Reader Interface Module. However, the reader will need an alternate 5 VDC power connection if it is connected to a Single Reader Interface Module. The recommended draw is 40 mA and the reader needs to be connected to 5 VDC. Also, be sure to set up Jumper J2 for REGULATED power mode. J4 should be configured for 5 VDC. Recommended operating temperature: -10° to 55° C.
7.1.1 Wiring the LNL-1300
revision 7 — 37
Bewator Readers
7.1.2 Wiring the LNL-1320
38 — revision 7
Alternative Reader Wiring Guide
8. Casi-Rusco Prox Readers
8.1. Casi-Rusco 94x, 97x Prox Readers
This reader operates at 12 VDC. The average current draw with Power Level set to Low (SW-2) is 75 mA. See manual for volt and current recommendations.
8.1.1 Wiring the LNL-1300
revision 7 — 39
Casi-Rusco Prox Readers
8.1.2 Wiring the LNL-1320
40 — revision 7
Alternative Reader Wiring Guide
8.1.3 Set the 94x/97x DIP Switches
Casi-Rusco 94x, 97x DIP switch settings
8.2. Reader (Wiegand) Operation
Three LED lights across the top of the Casi-Rusco prox readers signify the mode of operation.
Status Indicators
AUDIO RED LED YELLOW LED
GREEN LED
LED Operation:
Locked --- Solid light Dim light Dim light
Card Only --- Slow-blinking light Dim light Dim light
Card or PIN --- Slow-blinking light Dim light Slow-blinking light
Card and PIN --- Slow-blinking light Dim light Dim light
Unlocked --- Slow-blinking light Dim light No light
Facility Code Only --- Slow-blinking light Dim light Dim light
Beeper Operation:
revision 7 — 41
Casi-Rusco Prox Readers
8.3. Casi-Rusco 940-W Prox Lite (F/2F Mode)
The Dual Reader Interface Module can support Casi-Rusco readers in the F/2F mode of operation. This is only supported on Dual Reader Interface Modules with firmware 1.13 or higher. The 940-W Prox Lite is the 94x or 97x proximity reader in OnGuard, used in F/2F mode.
This reader operates at 12 VDC. The average current draw with Power Level set to Low (SW-2) is 75 mA. See manual for volt and current recommendations.
Access Granted Two beeps No light for 5 seconds
Blinks once Blinks 5 times
Access Denied Three beeps Stops blinking for 5 seconds
Blinks once Dim light
Invalid Badge Single beep Blinks 6 times --- ---
In a Card and PIN Configuration:
Access Granted (once a valid PIN is entered, the door opens)
Single beep --- Dim light Dim light
Access Denied Single beep If no PIN is entered, the red LED blinks 6 times.
Dim light Dim light
Status Indicators
AUDIO RED LED YELLOW LED
GREEN LED
42 — revision 7
Alternative Reader Wiring Guide
8.3.1 Wiring the LNL-1320
revision 7 — 43
Casi-Rusco Prox Readers
8.3.2 Set the 940w DIP Switches
Casi-Rusco 940w DIP switch settings
8.4. Configuration for Casi-Rusco Readers
The Casi-Rusco readers can be configured for Wiegand/Prox or F/2F format.
44 — revision 7
Alternative Reader Wiring Guide
8.4.1 Casi-Rusco Readers as a Wiegand/Prox Type
In order to configure the software correctly, refer to the following screenshot. This screen can be launched by selecting Card Formats from the Administration menu in either ID CredentialCenter or System Administration.
The configuration for the Casi-Rusco within the access control system is as follows:
• Reader Output – Wiegand/Prox format
• Keypad Type – 8 bit (if keypad is used)
• Reader Settings – 2-wire LED control
8.4.2 Casi-Rusco Readers as a Dual Reader Interface in F/2F Format
The configuration for this reader in F/2F mode is different. Refer to the following screenshot.
revision 7 — 45
Casi-Rusco Prox Readers
The default configuration for the Casi-Rusco within the access control system is as follows:
• Reader Type – Select LNL-1320 (Dual Interface)
• Reader Output – Select F/2F Format
• Reader Number – 1 or 2
• Keypad Type – The keypad type does not apply when using F/2F format
• Reader Settings – 2-wire LED control
8.5. Reader (F/2F Mode) Operation
Three LED lights across the top of the Casi-Rusco prox readers signify the mode of operation.
Status Indicators
AUDIO RED LED YELLOW LED
GREEN LED
LED Operation:
Locked --- Solid light Dim light Dim light
Card Only --- Slow-blinking light Dim light Dim light
Card or PIN --- --- Dim light Slow-blinking light
Card and PIN --- Slow-blinking light Dim light Dim light
Unlocked --- --- Dim light Slow-blinking light
Facility Code Only --- Slow-blinking light Dim light Dim light
Beeper Operation:
Access Granted Single beep --- --- ---
Access Denied Single beep Blinks 6 times --- ---
Invalid Badge Single beep Blinks 6 times --- ---
In a Card and PIN Configuration:
Access Granted (once a valid PIN is entered, the door opens)
Single beep --- Dim light Dim light
Access Denied Single beep If no PIN is entered, the red LED blinks 6 times.
Dim light Dim light
46 — revision 7
Alternative Reader Wiring Guide
9. CEIA Readers
9.1. CEIA Freedom Reader with Keypad (Prox)
The maximum power rating on the Freedom Reader is between 5-30 VDC. The normal current draw for the reader is 40 mA. The keypad on the reader operates using a 4-bit output. This is not the standard format. This is the only format that is tested and supported by Lenel. The LED functions using single wire LED control. Both the keypad and the LED meet all the requirements for functionality that Lenel requires. Follow the diagrams below to wire the reader properly.
9.1.1 Wiring the LNL-1300
revision 7 — 47
CEIA Readers
9.1.2 Wiring the LNL-1320
9.2. CEIA Freedom Reader (Output Protocol Clock/Data)
This reader operates typically on 25 mA, peak 50 mA at 5-30 VDC.
48 — revision 7
Alternative Reader Wiring Guide
9.2.1 Wiring the LNL-1300
revision 7 — 49
CEIA Readers
9.2.2 Wiring the LNL-1320
50 — revision 7
Alternative Reader Wiring Guide
10. Checkpoint Systems Readers
Use the following diagrams to wire (single wire LED control) Single/Dual Reader Interface Modules and Checkpoint Systems readers.
10.1. Mirage II Readers
10.1.1 Wiring the LNL-1300
revision 7 — 51
Checkpoint Systems Readers
10.1.2 Wiring the LNL-1320
52 — revision 7
Alternative Reader Wiring Guide
10.2. Checkpoint Reader Model SN-MSC 16147
This Checkpoint reader is operated at 12 VDC and has a current draw of 75 mA.
10.2.1 Wiring the LNL-1300
revision 7 — 53
Checkpoint Systems Readers
10.2.2 Wiring the LNL-1320
54 — revision 7
Alternative Reader Wiring Guide
10.3. Mirage Proximity Reader B
The Mirage Proximity Reader B is a 33-bit prox reader. It operates at 12 VDC ± 10%. The average current draw is 50 mA.
10.3.1 Wiring the LNL-1300
revision 7 — 55
Checkpoint Systems Readers
10.3.2 Wiring the LNL-1320
56 — revision 7
Alternative Reader Wiring Guide
11. Codeguard Series II/III
11.1. Secure Keypad Reader
The reader operates at +8 to +12 VDC unregulated. The average current draw is 100 mA (TYP) 180 mA (MAX) with display OFF and 280 mA (TYP) 350 mA (MAX) with display ON.
11.1.1 Set the Mode Dials
revision 7 — 57
Codeguard Series II/III
11.1.2 Card Formats
Code Lengths
• Mode 0 Supports 1 to 9 digits with a transmitted block length of 40 bits with even/odd parity.
• Mode 1 Supports 1 to 4 digits with a transmitted block length of 34 bits.
• Mode 2 Supports 1 to 4 digits with a transmitted block length of 26 bits.
• Mode 3 Supports 1 to 4 digits with a transmitted block length of 26 bits with even/odd parity.
• Mode 4 Supports 5 digits with a transmitted block length of 34 bits.
• Mode 5 Supports 5 digits with a transmitted block length of 26 bits.
• Mode 6 Supports 5 digits with a transmitted block length of 26 bits with even/odd parity.
Model series
Mode Total number of bits on card
Facility codeStarting bit/Number of bits
Card numberStarting bit/Number of bits
Issue codeStarting bit/Number of bits
Number of even parity bits
Number of odd parity bits
Special
II or III 0 40 1 / 8 9 / 30 0 / 0 20 20 None
II or III 1 34 1 / 8 17 / 16 0 / 0 0 0 None
II or III 2 26 1 / 8 9 / 16 0 / 0 0 0 None
II or III 3 26 1 / 8 9 / 16 0 / 0 13 13 None
II or III 4 34 1 / 8 17 / 16 0 / 0 0 0 None
II or III 5 26 1 / 8 9 / 16 0 / 0 0 0 None
II or III 6 26 1 / 8 9 / 16 0 / 0 13 13 None
III only 7 4-bit keypad emulation, 0-9 codes only
III only 8 8-bit keypad emulation, 0-9 codes only
III only 9 4-bit keypad emulation, 0-9 plus # and * codes transmitted
III only A 8-bit keypad emulation, 0-9 plus # and * codes transmitted
58 — revision 7
Alternative Reader Wiring Guide
11.1.3 Wiring the LNL-1300
revision 7 — 59
Codeguard Series II/III
11.1.4 Wiring the LNL-1320
60 — revision 7
Alternative Reader Wiring Guide
11.1.5 LED Operation
Mode Series II Secure Keypad Series III Secure Keypad
Card and PIN N/A Blinking red at bottom of keypad
Card only N/A Blinking red at bottom of keypad
Card or PIN Blinking red and [*] key on keypad solid
Blinking red at bottom of keypad
Cipher lock emulation Blinking red and [*] key on keypad solid
Blinking red at bottom of keypad
Facility code mode N/A
* This mode is unsupported. Any entry within the Code Length will let someone gain access because the facility code is set in the reader.
Blinking red at bottom of keypad
Locked Solid red at bottom of keypad Solid red at bottom of keypad
Unlocked Solid yellow at bottom of keypad Solid yellow at bottom of keypad
Power up condition Blinking red at bottom of keypad. Keypad will display firmware version and operating mode.
Keypad will display firmware version and operating mode
Access granted Blinking yellow at bottom of keypad Blinking yellow at bottom of keypad
Access denied Solid red at bottom of keypad Solid red
Waiting for PIN Blinking red and [*] key on keypad solid
Blinking red and yellow, * key on keypad solid
Waiting for second card Blinking yellow at bottom of keypad
* This mode is unsupported because there are times when a second entry creates an invalid card format.
Alternating red and yellow at bottom of keypad
Reader LED software setup
2-wire LED control 2-wire LED control
Reader type Wiegand/Prox Wiegand/Prox
Keypad 4-bit output keypad 8-bit output keypad
+ 12 V Pin 3 Pin 3
DAT 0 Pin 7 Pin 7
DAT 1 Pin 5 pin 5
LED Pin 4 Pin 4
BZR Pin 8 Pin 8
GND Pin 2 Pin 2
revision 7 — 61
Codeguard Series II/III
• The star [*] key must be pressed prior to PIN entry.
• The star [*] key always illuminated red.
• Upper left LED blinks with each key press.
• Pressing the [*] key will activate keypad, rescramble keys, and transmit the * key code to the OnGuard system.
• Keypad commands sometimes are not accepted, likely because of the multiple functions of the star [*] key. Pressing the star [*] key twice before commands may help.
Earth ground Case ground Not connected, or connect to Pin 2 (avoid ground loops)
Mode Series II Secure Keypad Series III Secure Keypad
62 — revision 7
Alternative Reader Wiring Guide
12. Cross Match Readers
12.1. Cross Match 900xxx TWIC Readers
Cross Match TWIC readers (models 90223, 900236, 900260) are supported. The average reader draw is 325mA @ 12 VDC. General power requirements: +9 to +18 VDC, 6W total.
12.1.1 Wiring the LNL-1300
revision 7 — 63
Cross Match Readers
12.1.2 Wiring the LNL-1320
12.1.3 Custom LED Configuration
There are two options for LED functionality. These are configured by a toggle in the device’s configuration web interface menu.
• Local LED Control – This option allows the reader’s internal logic to control all LED behavior.
• Let Wiegand Panel Drive Grant LEDs – This option lets the Lenel Hardware manage some LED behavior, such as indicating door unlocked.
64 — revision 7
Alternative Reader Wiring Guide
revision 7 — 65
Cross Match Readers
66 — revision 7
Alternative Reader Wiring Guide
13. Deister Electronics
13.1. Smart Card Reader Model PRM 5M, PRX 5 HSF
The smart card reader can operate between 8 and 30 VDC. In order for the reader LEDs to function properly, the reader will need to be set up for 2-wire control.
13.1.1 Wiring the LNL-1300
revision 7 — 67
Deister Electronics
13.1.2 Wiring the LNL-1320
13.2. Reader Model PRL5/2 KPL5/2
This reader can operate between 8 and 30 VDC.
68 — revision 7
Alternative Reader Wiring Guide
13.2.1 Wiring the LNL-1300
revision 7 — 69
Deister Electronics
13.2.2 Wiring the LNL-1320
70 — revision 7
Alternative Reader Wiring Guide
14. Dorado Readers
Use the following diagrams to wire Single/Dual Reader Interface Modules and Dorado readers.
14.1. Dorado Reader Model 644
For the Dorado Reader 644, a 16-position rotary switch (Trim POT) is now used for reader configuration. It is located inside the housing on the circuit board. The LED control is standard single wire. The reader should be configured to setting 8 (EMPI cards, 26-bit Wiegand).
14.1.1 Wiring the LNL-1300
revision 7 — 71
Dorado Readers
14.1.2 Wiring the LNL-1320
72 — revision 7
Alternative Reader Wiring Guide
14.2. Dorado Reader Model 780
14.2.1 Wiring the LNL-1300
revision 7 — 73
Dorado Readers
14.2.2 Wiring the LNL-1320
74 — revision 7
Alternative Reader Wiring Guide
14.3. Dorado Reader Model 611
14.4. Dorado Elevator Reader 570
This reader operates at 35 mA at +5.5 volts (regulated 4.75 to 5.75).
If you are going to power the reader from the LNL-1320, set jumper 4 to the ON position for 5 volts and jumper 2 for regulated mode.
A four-position DIP switch is located on the reader circuit board to control the reader options. The reader should be set to Mode 6. Note that the fourth switch is not used and should be set to the OFF position.
Mode A B C D Function
6 ON off ON off ABA card, all bits Wiegand
revision 7 — 75
Dorado Readers
14.4.1 Wiring the LNL-1300
The wires are connected as follows:
Reader wire color Association on LNL-1300
Yellow BZR
Brown LED
White CLK/D1
Green DATA/D0
76 — revision 7
Alternative Reader Wiring Guide
14.4.2 Wiring the LNL-1320
14.5. Dorado 230/240 Combination Readers
There are two types of these combination readers. Model 230 is a combination magnetic stripe and proximity reader. Model 240 is a combination magnetic strip and proximity reader with a keypad. These readers operate at 5-24 VDC. The typical current draw is 75 mA.
The 16 position rotary switch will control the formats of the reader and should be set to 0. Position 0 is ABA HID – all bits ABA, no leading or trailing zeros, Wiegand output. For HID prox, the number of output bits on the card are not defined by selector switch.
revision 7 — 77
Dorado Readers
14.5.1 Wiring the LNL-1300
14.5.2 Wiring the LNL-1320
78 — revision 7
Alternative Reader Wiring Guide
15. Essex Keypads
Use the following diagrams to wire Single/Dual Reader Interface Modules and Essex keypad readers.
15.1. Essex Keypad Reader #KTP-16212SLI
15.1.1 Wiring the LNL-1300 (Single Wire LED Control)
revision 7 — 79
Essex Keypads
15.1.2 Wiring the LNL-1320 (Single Wire LED Control)
80 — revision 7
Alternative Reader Wiring Guide
15.2. Essex Keypad Reader #KTP-163SN
15.2.1 Wiring the LNL-1300 (Single Wire LED Control)
revision 7 — 81
Essex Keypads
15.2.2 Wiring the LNL-1320 (Single Wire LED Control)
82 — revision 7
Alternative Reader Wiring Guide
16. HID Readers
Use the following diagrams to wire Single/Dual Reader Interface Modules and HID readers.
16.1 HID ProxPro
16.1.1 Wiring the LNL-1300
revision 7 — 83
HID Readers
16.1.2 Wiring the LNL-1320
84 — revision 7
Alternative Reader Wiring Guide
16.2 HID MaxiProx 5370 A-1
16.2.1 Wiring the LNL-1300
revision 7 — 85
HID Readers
16.3 HID MaxiProx 5370/5375AGN00
16.3.1 Wiring the LNL-1320
86 — revision 7
Alternative Reader Wiring Guide
16.4 Hughes MiniProx
16.4.1 Wiring the LNL-1300
revision 7 — 87
HID Readers
16.4.2 Wiring the LNL-1320
88 — revision 7
Alternative Reader Wiring Guide
16.5 Classic, EPIC Swipe and Pinpad Wiegand Readers
16.5.1 Wiring the LNL-1300
16.5.2 Wiring the LNL-1320
revision 7 — 89
HID Readers
16.6 ProxPoint Readers
16.6.1 Wiring the LNL-1300
16.6.2 Wiring the LNL-1320
90 — revision 7
Alternative Reader Wiring Guide
16.7 ProxPro II
The ProxPro II reader (model number 5455BBn00) operates at 5-16 VDC. The average current draw at 12 VDC is 30 mA. The LEDs and buzzer function in the same way as standard HID Wiegand/proximity readers.
16.7.1 Wiring the LNL-1300
revision 7 — 91
HID Readers
16.7.2 Wiring the LNL-1320
92 — revision 7
Alternative Reader Wiring Guide
16.8 iCLASS RW300, RW400 Readers/Encoders
The RW300/RW400 Readers/Encoders operate at 10-16 VDC. The average current draw is 80-260 mA. When communication to the reader is successful, the LED lights solid green.
Note: Due to timing issues with the encoder, this unit cannot be connected to a multiport serial adapter.The 6121BKT0000PRGL version of the RW400 can only be purchased directly from Lenel.
Wiring Function DB9 pin-out (female)
Yellow Speaker Not used
Blue Hold Not used
Violet Open collector Not used
White Data 1 Not used
Green Data 0 Not used
Orange Green LED Not used
Brown Red LED Not used
Red +DC (10-16 VDC) +DC (10-16 VDC)
Black Ground DC Ground
Gray RX (serial receive) Pin 3
Red/Green DSR Not used
Pink TX (serial transmit) Pin 2
Red/Yellow DTR Not used
Drain Shield ground Pin 5
revision 7 — 93
HID Readers
When configuring the access control software, this encoder will most likely be a standalone device connected to the workstation. Be sure to select a unique name for the encoder. Select HID iCLASS for the device type and iClass for the card technology.
Typical Communication Settings
• Comm. port: configurable
• Baud rate: 57600
• Data bits: 8 bit
• Parity: Even
• Stop bits: 2
94 — revision 7
Alternative Reader Wiring Guide
16.9 iCLASS and multiCLASS Legacy and SE Readers
iCLASS Wiegand Reader Power Specifications
HID LCD and bioCLASS models RWKL550 and RWKLB575 are supported as either Wiegand or OSDP readers.
Note: HID LCD and bioCLASS models RWKL550 and RWKLB575 are supported as either Wiegand or OSDP readers. These readers must be wired differently for OSDP support. For more information about OSDP configuration, refer to HID LCD and bioCLASS Readers (RWKL550/RWKLB575) Wired for OSDP Support on page 106.
Model Voltage Current
iCLASS R10 5 to 16 VDC 55 mA average, 116 mA peak
iCLASS R15 5 to 16 VDC 55 mA average, 112 mA peak
iCLASS R30 5 to 16 VDC 55 mA average, 121 mA peak
iCLASS R40 5 to 16 VDC 55 mA average, 121 mA peak
iCLASS RK40 5 to 16 VDC 85 mA average, 116 mA peak
iCLASS SE R10 5 to 16 VDC 55 mA average, 116 mA peak
iCLASS SE R15 5 to 16 VDC 45 mA average, 75 mA peak
iCLASS SE R30 5 to 16 VDC 65 mA average, 105 mA peak
iCLASS SE R40 5 to 16 VDC 65 mA average, 105 mA peak
iCLASS SE RK40 5 to 16 VDC 100 mA average, 130 mA peak
iCLASS RP40 5 to 16 VDC 55 mA average, 141 mA peak
iCLASS RPK40 5 to 16 VDC 85 mA average, 169 mA peak
iCLASS RS10 5 to 16 VDC 85 mA average, 116 mA peak
iCLASS RS40 5 to 16 VDC 55 mA average, 121 mA peak
iCLASS RSK40 5 to 16 VDC 85 mA average, 116 mA peak
iCLASS RWKL550 9 to 12 VDC 160 mA average, 250 mA peak
iCLASS RWKLB575 9 to 12 VDC 245 mA average, 299 mA peak
multiCLASS SE RP10 5 to 16 VDC 60 mA average, 100 mA peak
multiCLASS SE RP15 5 to 16 VDC 60 mA average, 100 mA peak
multiCLASS SE RP30 5 to 16 VDC 75 mA average, 110 mA peak
multiCLASS SE RP40 5 to 16 VDC 75 mA average, 110 mA peak
multiCLASS SE RPK40 5 to 16 VDC 110 mA average, 130 mA peak
revision 7 — 95
HID Readers
16.9.1 Wiring the LNL-1300
Note: Wire colors shown in the HID iCLASS Reader column only apply to readers with a pigtail cable. Connect reader’s cable drain shield (P1-5) to earth ground.
16.9.2 Wiring the LNL-1320
Note: Wire colors shown in the HID iCLASS Reader column only apply to readers with a pigtail cable. Connect reader’s cable drain shield (P1-5) to earth ground.
From LNL-1300 To HID iCLASS Reader Typical Software Settings
Reader Terminal
Pin Pin (wire color) Description • Reader Type = Wiegand/Prox
• Keypad = No Keypad
• LED Mode = 2-Wire LED Control
TB4
GND P1-3 (black) Ground (RTN)
BZR P1-6 (brown) Red LED
LED P1-2 (orange) Green LED
CLK D1 P2-4 (white) Wiegand Data 1 (clock)
DAT D0 P2-3 (green) Wiegand Data 0 (data)
V0 P1-4 (red) +VDC
From LNL-1320 To HID iCLASS Reader Typical Software Settings
Reader 1 or Reader 2 Pin Pin (wire color) Description • Reader Type = Wiegand/Prox
• Keypad = No Keypad
• LED Mode = 2-Wire LED Control
GND P1-3 (black) Ground (RTN)
DAT D0 P2-3 (green) Wiegand Data 0 (data)
CLK D1 P2-4 (white) Wiegand Data 1 (clock)
BZR P1-6 (brown) Red LED
LED P1-2 (orange) Green LED
V0 P1-4 (red) +VDC
96 — revision 7
Alternative Reader Wiring Guide
16.9.3 Wiring the LNL-1300-U
Note: Wire colors shown in the HID iCLASS Reader column only apply to readers with a pigtail cable. Connect reader’s cable drain shield (P1-5) to earth ground.
16.9.4 Wiring the LNL-1320-U
Notes: Do not connect the HID iCLASS Reader to the J15 and J18 terminals on the LNL-1320-U.
Wire colors shown in the HID iCLASS Reader column only apply to readers with a pigtail cable. Connect reader’s cable drain shield (P1-5) to earth ground.
From LNL-1300-U To HID iCLASS Reader Typical Software Settings
Reader Terminals
Pin Pin (wire color) Description • Reader Type = Wiegand/Prox
• Keypad = No Keypad
• LED Mode = 2-Wire LED Control
J10
GND P1-3 (black) Ground (RTN)
DAT D0 P2-3 (green) Wiegand Data 0 (data)
CLK D1 P2-4 (white) Wiegand Data 1 (clock)
J13
LED1 P1-2 (orange) Green LED
LED2 P1-6 (brown) Red LED
BZR P1-1 (yellow) Beeper
V0 P1-4 (red) +VDC
From LNL-1320-U To HID iCLASS Reader Typical Software Settings
Reader Terminals
Pin Pin (wire color) Description • Reader Type = Wiegand/Prox
• Keypad = No Keypad
• LED Mode = 2-Wire LED ControlJ10
GND P1-3 (black) Ground (RTN)
DAT D0 P2-3 (green) Wiegand Data 0 (data)
CLK D1 P2-4 (white) Wiegand Data 1 (clock)
J13
LED1 P1-2 (orange) Green LED
LED2 P1-6 (brown) Red LED
BZR P1-1 (yellow) Beeper
V0 P1-4 (red) +VDC
revision 7 — 97
HID Readers
16.10 multiCLASS RMP40 and RMPK40 Readers
multiCLASS Reader Power Specifications
16.10.1 Wiring the LNL-1300
Note: Wire colors shown in the HID multiCLASS Reader column only apply to readers with a pigtail cable. Connect reader’s cable drain shield (P1-5) to earth ground.
Model Voltage Current
multiCLASS RMP40 5 to 16 VDC 90 mA average, 166 mA peak
multiCLASS RMPK40 5 to 16 VDC 110 mA average, 169 mA peak
From LNL-1300 To HID multiCLASS Reader Typical Software Settings
Reader Terminal
Pin Pin (wire color) Description • Reader Type = Mag with Wiegand out
• Keypad = No Keypad (RMP40) or Keypad (RMPK40)
• LED Mode = 2-Wire LED ControlTB4
GND P1-3 (black) Ground (return)
BZR P1-6 (brown) Red LED
LED P1-2 (orange) Green LED
CLK D1 P2-4 (white) Wiegand Data 1 (clock)
DAT D0 P2-3 (green) Wiegand Data 0 (data)
V0 P1-4 (red) +VDC
98 — revision 7
Alternative Reader Wiring Guide
16.10.2 Wiring the LNL-1320
Note: Wire colors shown in the HID multiCLASS Reader column only apply to readers with a pigtail cable. Connect reader’s cable drain shield (P1-5) to earth ground.
16.10.3 Wiring the LNL-1300-U
Note: Wire colors shown in the HID multiCLASS Reader column only apply to readers with a pigtail cable. Connect reader’s cable drain shield (P1-5) to earth ground.
From LNL-1320 To HID multiCLASS Reader Typical Software Settings
Reader 1 or Reader 2 Pin
Pin (wire color) Description • Reader Type = Mag with Wiegand out
• Keypad = No Keypad (RMP40) or Keypad (RMPK40)
• LED Mode = 2-Wire LED Control
GND P1-3 (black) Ground (return)
DAT D0 P2-3 (green) Wiegand Data 0 (data)
CLK D1 P2-4 (white) Wiegand Data 1 (clock)
BZR P1-6 (brown) Red LED
LED P1-2 (orange) Green LED
V0 P1-4 (red) +VDC
From LNL-1300-U To HID multiCLASS Reader Typical Software Settings
Reader Terminals
Pin Pin (wire color) Description • Reader Type = Mag with Wiegand out
• Keypad = No Keypad (RMP40) or Keypad (RMPK40)
• LED Mode = 2-Wire LED Control
J10
GND P1-3 (black) Ground (return)
DAT D0 P2-3 (green) Wiegand Data 0 (data)
CLK D1 P2-4 (white) Wiegand Data 1 (clock)
J13
LED1 P1-2 (orange) Green LED
LED2 P1-6 (brown) Red LED
BZR P1-1 (yellow) Beeper
V0 P1-4 (red) +VDC
revision 7 — 99
HID Readers
16.10.4 Wiring the LNL-1320-U
Note: Do not connect the HID multiCLASS Reader to the J15 and J18 terminals on the LNL-1320-U. Wire colors shown in the HID multiCLASS Reader column only apply to readers with a pigtail cable. Connect reader’s cable drain shield (P1-5) to earth ground.
16.11 EntryProx 4045-905
The EntryProx is a standalone reader. It is ideal for providing single-door proximity access control.
In this configuration, the keypad does not send separate key data. When the keypad is used, it outputs the cardholder/badge ID number.
The system transmits keypad PINs while operating in Wiegand mode by processing any digit sequence terminated with the [*] key as 26-bit Wiegand data. The current facility code (set using Code 32 - 2) will be used. Entering any PIN over 65535 will cause an error condition and no data will be sent.
Because keypad data is sent in a card data format, it may not be possible to perform card and PIN operation. If 26-bit format as PIN data cannot be interpreted, be sure to enter it into the badge ID field, and not the keypad PIN number field.
From LNL-1320-U To HID multiCLASS Reader Typical Software Settings
Reader Terminals
Pin Pin (wire color) Description • Reader Type = Mag with Wiegand out
• Keypad = No Keypad (RMP40) or Keypad (RMPK40)
• LED Mode = 2-Wire LED Control
J10
GND P1-3 (black) Ground (return)
DAT D0 P2-3 (green) Wiegand Data 0 (data)
CLK D1 P2-4 (white) Wiegand Data 1 (clock)
J13
LED1 P1-2 (orange) Green LED
LED2 P1-6 (brown) Red LED
BZR P1-1 (yellow) Beeper
V0 P1-4 (red) +VDC
100 — revision 7
Alternative Reader Wiring Guide
16.11.1 Wiring the LNL-1300
revision 7 — 101
HID Readers
16.11.2 Wiring the LNL-1320
16.12 SensorKey Reader
This reader operates at 40 mA at 5-12 VDC.
102 — revision 7
Alternative Reader Wiring Guide
16.12.1 Wiring the LNL-1300
revision 7 — 103
HID Readers
16.12.2 Wiring the LNL-1320
16.13 HID MIFARE 6055
This reader operates at 9-14 VDC (16 VDC maximum). The average current draw is 100mA at 12 VDC. A linear power supply recommended.
104 — revision 7
Alternative Reader Wiring Guide
16.13.1 Wiring the LNL-1300
16.13.2 Wiring the LNL-1320
revision 7 — 105
HID Readers
16.14 HID LCD and bioCLASS Readers (RWKL550/RWKLB575) Wired for OSDP Support
HID LCD and bioCLASS models RWKL550 and RWKLB575 are supported as either Wiegand or OSDP readers.
Note: HID LCD and bioCLASS models RWKL550 and RWKLB575 must be wired differently for Wiegand support. For more information about Wiegand configuration, refer to iCLASS and multiCLASS Legacy and SE Readers on page 95.
16.14.1 Wiring the LNL-1300 (OSDP)
106 — revision 7
Alternative Reader Wiring Guide
16.14.2 Wiring the LNL-1320 (OSDP)
16.15 HID MIFARE Format Secure 6075 Reader
The reader operates at 9 -16 VDC. The average current draw is 15mA/75mA.
revision 7 — 107
HID Readers
16.15.1 Wiring the LNL-1300
108 — revision 7
Alternative Reader Wiring Guide
16.15.2 Wiring the LNL-1320
16.16 HID OSDP Readers
Models 6100BKP through 6181BKP are supported. To use OSDP readers with OnGuard, version 5.12.110 or higher is required. Only Series 2 reader ports offer OSDP support.
revision 7 — 109
HID Readers
16.16.1 Wiring the LNL-1300
110 — revision 7
Alternative Reader Wiring Guide
16.16.2 Wiring the LNL-1320
revision 7 — 111
HID Readers
16.17 SmartID/SmartTRANS Models S10, SK10, SP10, SPK10
SmartID/SmartTRANS Reader Power Specifications
16.17.1 Wiring the LNL-1300
Note: Connect reader’s cable drain shield to earth ground.
Model Voltage Current
SmartID S10 5 to 24 VDC 68 mA average,82 mA peak
SmartID SK10 4.5 to 16 VDC 1.5 W average,2.0 W peak
SmartTRANS SP10 5 to 24 VDC 79 mA average,96 mA peak
SmartTRANS SPK10 5 to 24 VDC 79 mA average,96 mA peak
From LNL-1300 To HID SmartID/SmartTRANS Reader Typical Software Settings
Reader Terminal
Pin Pin Description • Reader Type = Wiegand/Prox
• LED Mode = 2-Wire LED Control
TB4
GND 7 Ground
BZR 2 Red LED
LED 1 Green LED
CLK D1 3 Data/D1
DAT D0 4 Clock/D0
V0 8 Power (5-12 VDC)
112 — revision 7
Alternative Reader Wiring Guide
16.17.2 Wiring the LNL-1320
Note: Connect reader’s cable drain shield to earth ground.
16.17.3 Wiring the LNL-1300-U
Note: Connect reader’s cable drain shield to earth ground.
From LNL-1320 To HID SmartID/SmartTRANS Reader Typical Software Settings
Reader 1 or Reader 2 Pin Pin Description • Reader Type = Wiegand/Prox
• LED Mode = 2-Wire LED Control
GND 7 Ground
DAT D0 3 Data/D1
CLK D1 4 Clock/D0
BZR 2 Red LED
LED 1 Green LED
V0 8 Power (5-12 VDC)
From LNL-1300-U To HID SmartID/SmartTRANS Reader Typical Software Settings
Reader Terminals
Pin Pin Description • Reader Type = Wiegand/Prox
• LED Mode = 2-Wire LED Control
J10
GND 7 Ground
DAT D0 3 Data/D1
CLK D1 4 Clock/D0
J13
LED1 1 Green LED
LED2 4 Red LED
BZR 5 Buzzer Input
V0 8 Power (5-12 VDC)
revision 7 — 113
HID Readers
16.17.4 Wiring the LNL-1320-U
Notes: Do not connect the HID SmartID/SmartTrans Reader to the J15 and J18 terminals on the LNL-1320-U.
Connect reader’s cable drain shield to earth ground.
From LNL-1320-U To HID SmartID/SmartTRANS Reader Typical Software Settings
Reader Terminals
Pin Pin Description • Reader Type = Wiegand/Prox
• LED Mode = 2-Wire LED Control
J10
GND 7 Ground
DAT D0 3 Data/D1
CLK D1 4 Clock/D0
J13
LED1 1 Green LED
LED2 4 Red LED
BZR 5 Buzzer Input
V0 8 Power (5-12 VDC)
114 — revision 7
Alternative Reader Wiring Guide
16.18 ThinLine II Proximity Reader
ThinLine II Reader Power Specifications
16.18.1 Wiring the LNL-1300
Note: Connect reader’s cable drain shield to earth ground.
16.18.2 Wiring the LNL-1320
Note: Connect reader’s cable drain shield to earth ground.
Model Voltage Current
ThinLine II 5 to 16 VDC 20 mA average,115 mA peak
From LNL-1300 To HID ThinLine II Reader Typical Software Settings
Reader Terminal
Pin Wire Color Description • Reader Type = Wiegand/Prox
• LED Mode = 2-Wire LED Control
TB4
GND Black Ground
BZR Yellow Beeper
LED Orange Green LED
CLK D1 White Data 1 (Clock)
DAT D0 Green Data 0 (Data)
V0 Red +5 - 16 VDC
From LNL-1320 To HID ThinLine II Reader Typical Software Settings
Reader 1 or Reader 2 Pin Wire Color Description • Reader Type = Wiegand/Prox
• LED Mode = 2-Wire LED Control
GND Black Ground
DAT D0 Green Data 0 (Data)
CLK D1 White Data 1 (Clock)
BZR Yellow Red LED
LED Orange Green LED
V0 Red Power (5-12 VDC)
revision 7 — 115
HID Readers
16.18.3 Wiring the LNL-1300-U
Note: Connect reader’s cable drain shield to earth ground.
16.18.4 Wiring the LNL-1320-U
Notes: Do not connect the HID ThinLine II reader to the J15 and J18 terminals on the LNL-1320-U.
Connect reader’s cable drain shield (P1-5) to earth ground.
From LNL-1300-U To HID ThinLine II Reader Typical Software Settings
Reader Terminals
Pin Wire Color Description • Reader Type = Wiegand/Prox
• LED Mode = 2-Wire LED Control
J10
GND Black Ground
DAT D0 Green Data 0 (Data)
CLK D1 White Data 1 (Clock)
J13
LED1 Orange Green LED
LED2 Brown Red LED
BZR Yellow Buzzer Input
V0 Red Power (5-12 VDC)
From LNL-1320-U To HID ThinLine II Reader Typical Software Settings
Reader Terminals
Pin Wire Color Description • Reader Type = Wiegand/Prox
• LED Mode = 2-Wire LED Control
J10
GND Black Ground
DAT D0 Green Data 0 (Data)
CLK D1 White Data 1 (Clock)
J13
LED1 Orange Green LED
LED2 Brown Red LED
BZR Yellow Buzzer Input
V0 Red Power (5-12 VDC)
116 — revision 7
Alternative Reader Wiring Guide
16.19 ProxPro 5355 Proximity Reader
ProxPro 5355 Reader Power Specifications
16.19.1 Wiring the LNL-1300
Note: Connect reader’s cable drain shield to earth ground.
16.19.2 Wiring the LNL-1320
Note: Connect reader’s cable drain shield to earth ground.
Model Voltage Current
ProxPro 5355 10 to 28.5 VDC 100 mA average,120 mA peak
From LNL-1300 To HID ProxPro Reader Typical Software Settings
Reader Terminal
Pin Pin Description • Reader Type = Wiegand/Prox
• Keypad = No Keypad
• LED Mode = 2-Wire LED Control
TB4
GND 2 Ground (RTN)
BZR 8 Beeper
LED 6 Green LED
CLK D1 4 Wiegand Data 1 (clock)
DAT D0 3 Wiegand Data 0 (data)
V0 1 +VDC
From LNL-1320 To HID ProxPro Reader Typical Software Settings
Reader 1 or Reader 2 Pin Pin Description • Reader Type = Wiegand/Prox
• Keypad = No Keypad
• LED Mode = 2-Wire LED Control
GND 2 Ground (RTN)
DAT D0 3 Wiegand Data 0 (data)
CLK D1 4 Wiegand Data 1 (clock)
BZR 8 Red LED
LED 6 Green LED
V0 1 +VDC
revision 7 — 117
HID Readers
16.19.3 Wiring the LNL-1300-U
Note: Connect reader’s cable drain shield to earth ground.
16.19.4 Wiring the LNL-1320-U
Notes: Do not connect the HID ProxPro Reader to the J15 and J18 terminals on the LNL-1320-U.
Connect reader’s cable drain shield to earth ground.
From LNL-1300-U To HID ProxPro Reader Typical Software Settings
Reader Terminals
Pin Pin Description • Reader Type = Wiegand/Prox
• Keypad = No Keypad
• LED Mode = 2-Wire LED Control
J10
GND 2 Ground (RTN)
DAT D0 3 Wiegand Data 0 (data)
CLK D1 4 Wiegand Data 1 (clock)
J13
LED1 6 Green LED
LED2 7 Red LED
BZR 8 Beeper
V0 1 +VDC
From LNL-1320-U To HID ProxPro Reader Typical Software Settings
Reader Terminals
Pin Pin Description • Reader Type = Wiegand/Prox
• Keypad = No Keypad
• LED Mode = 2-Wire LED ControlJ10
GND 2 Ground (RTN)
DAT D0 3 Wiegand Data 0 (data)
CLK D1 4 Wiegand Data 1 (clock)
J13
LED1 6 Green LED
LED2 7 Red LED
BZR 8 Beeper
V0 1 +VDC
118 — revision 7
Alternative Reader Wiring Guide
17. IDH Max
IDH Max readers include all door components – a reader device, lock set, door contact, and request to exit sensors.
17.1. IDH Max Door Readers
Use the following diagrams to wire Single/Dual Reader Interface Modules and IDH Max readers.
revision 7 — 119
IDH Max
17.1.1 Wiring the LNL-1300
120 — revision 7
Alternative Reader Wiring Guide
17.1.2 Wiring the LNL-1320
revision 7 — 121
IDH Max
122 — revision 7
Alternative Reader Wiring Guide
18. ID Solutions Readers
Use the following diagrams to wire Single/Dual Reader Interface Modules and ID Solutions readers.
18.1. ID Solutions Model 8030/8035 Bar Code Reader
18.1.1 Wiring the LNL-1300
revision 7 — 123
ID Solutions Readers
18.1.2 Wiring the LNL-1320
124 — revision 7
Alternative Reader Wiring Guide
19. Infographics Readers
Use the following diagrams to wire Single/Dual Reader Interface Modules and Infographics readers.
19.1. Infographics Reader OTD-60
19.1.1 Wiring the LNL-1300
revision 7 — 125
Infographics Readers
19.1.2 Wiring the LNL-1320
126 — revision 7
Alternative Reader Wiring Guide
20. Integrated Engineering Readers
Use the following diagrams to wire Single/Dual Reader Interface Modules and Mifare readers.
20.1. Integrated Engineering PX007 Mifare Reader
The following information applies for these Integrated Engineering reader models: PX007Z/MFSNR, PX007MF/Read Only, and PX007MF/RS232(B).
The reader operates between 4.75 and 12.25 VDC and has an average draw of 50 mA. Therefore, the reader can be directly powered from the reader interface modules. The reader can output both standard Clock and Data or standard Wiegand data. To get proper LED functionality, the reader must be set up for 2-wire LED mode. Please follow the diagrams for proper wiring of the reader.
20.1.1 Wiring the LNL-1300
revision 7 — 127
Integrated Engineering Readers
20.1.2 Wiring the LNL-1320
128 — revision 7
Alternative Reader Wiring Guide
20.2. Desfire Reader
This reader operates at +4.75 to +12.25 VDC. The average current draw is 50 mA.
20.2.1 Wiring the LNL-1300
revision 7 — 129
Integrated Engineering Readers
20.2.2 Wiring the LNL-1320
130 — revision 7
Alternative Reader Wiring Guide
21. Keri Systems Readers
Use the following diagrams to wire (single wire LED control) Single/Dual Reader Interface Modules and Keri Systems readers.
21.1. Cascade and Sierra Readers (P-300, P-400, P-500, P-600 with Keypad, P-700)
The Keri Systems Readers operate at 12 VDC. All the reader models require an alternate 12 VDC power source when being connected to the Single Reader Interface. They cannot be powered from the reader interface module. The readers also feature Prox by HID Technology (optional) which allows them to be compatible with ProxCard II, ISO Prox II, ProxKey II in 26-bit and other customer HID card format.
Note: The keypad for the P-600 is 8-bit output.
21.1.1 Wiring the LNL-1300
revision 7 — 131
Keri Systems Readers
21.1.2 Wiring the LNL-1320
The P-400, P-600, and P-700 require a separate 12 VDC power source. They cannot be powered from the panel.
The current draws for each reader are as follows: P-300: 80mA
P-400: 90mA
P-500: 80mA
P-600: 100mA
P-700: 285mA
132 — revision 7
Alternative Reader Wiring Guide
22. Magtek Readers
Use the following diagrams to wire Single/Dual Reader Interface Modules and Magtek readers.
22.1. Magtek 101-Millimeter Swipe Reader (Model 2105002)
This reader operates at 2.4 to 5.5 VDC at 1 mA typical.
22.1.1 Wiring the LNL-1300
revision 7 — 133
Magtek Readers
22.1.2 Wiring the LNL-1320
134 — revision 7
Alternative Reader Wiring Guide
23. Mifare Readers
Use the following diagrams to wire Single/Dual Reader Interface Modules and Mifare readers.
23.1. Mifare Model LA-WIW-PROXKEY-M
23.1.1 Wiring the LNL-1300
revision 7 — 135
Mifare Readers
23.1.2 Wiring the LNL-1320
136 — revision 7
Alternative Reader Wiring Guide
23.2. Iolan Reader Model LA-XXW-PRXKY-MX 1050-4021-092
23.2.1 Wiring the LNL-1300
revision 7 — 137
Mifare Readers
23.2.2 Wiring the LNL-1320
138 — revision 7
Alternative Reader Wiring Guide
24. Motorola Indala Readers
Use the following diagrams to wire Single/Dual Reader Interface Modules and Indala readers.
24.1. Indala Readers ASR-120, ASR-122
24.1.1 Wiring the LNL-1300
revision 7 — 139
Motorola Indala Readers
24.1.2 Wiring the LNL-1320
140 — revision 7
Alternative Reader Wiring Guide
24.2. Indala Readers ASR-503, ASR-505, ASR-110, ASR-112
The ASR-503, ASR-505, and ASR-110, depending on the model, can support 1-wire LED control or 2-wire LED control. Model numbers ending with “22” are 1-wire LED control, and models ending with “00” are 2-wire LED control. The following diagrams use the orange wire, and are for 2-wire LED control.
24.2.1 Wiring the LNL-1300
revision 7 — 141
Motorola Indala Readers
24.2.2 Wiring the LNL-1320
142 — revision 7
Alternative Reader Wiring Guide
24.3. Indala Readers ASR-103, ASR-105, ASR-120, ASR-122, ASR-124, ASR-136
24.3.1 Wiring the LNL-1300 (Single LED Control Line Configuration)
revision 7 — 143
Motorola Indala Readers
24.3.2 Wiring the LNL-1320 (Single LED Control Line Configuration)
144 — revision 7
Alternative Reader Wiring Guide
24.3.3 Wiring the LNL-1300 (Dual LED Control Line Configuration)
revision 7 — 145
Motorola Indala Readers
24.3.4 Wiring the LNL-1320 (Dual LED Control Line Configuration)
146 — revision 7
Alternative Reader Wiring Guide
24.4. Indala Reader ARK-501
24.4.1 Wiring the LNL-1300
revision 7 — 147
Motorola Indala Readers
24.4.2 Wiring the LNL-1320
148 — revision 7
Alternative Reader Wiring Guide
24.5. Indala Readers ASR-500, ASR-501, ASR-503, ASR-505, ASR-110
The ASR-503, ASR-505, and ASR-110, depending on the model, can support 1-wire LED control or 2-wire LED control. Model numbers ending with “22” are 1-wire LED control, and models ending with “00” are 2-wire LED control. The following diagrams use the blue wire, and are for 1-wire LED control.
24.5.1 Wiring the LNL-1300
revision 7 — 149
Motorola Indala Readers
24.5.2 Wiring the LNL-1320
150 — revision 7
Alternative Reader Wiring Guide
24.6. Motorola BiStatix Prox Reader (BXR-610)
The recommended draw is 250 mA, with an input voltage of 12 VDC. The BiStatix reader has a read range of up to 5 inches and communicates with a Wiegand output format. The operating temperatures are from -31 to 149 Fahrenheit. The reader will support Motorola FlexPass ASP+ formats as well as Motorola 60-bit UID format.
24.6.1 Wiring the LNL-1300
24.6.2 Wiring the LNL-1320
revision 7 — 151
Motorola Indala Readers
24.7. Indala EM4525F Reader
This reader operates at 10 - 14 VDC. The average current draw is 75 mA.
24.7.1 Wiring the LNL-1300
24.7.2 Wiring the LNL-1320
152 — revision 7
Alternative Reader Wiring Guide
24.7.3 Reader Switch Settings
24.8. Motorola FlexPass Readers
This reader operates between 4 and 16 VDC. In order to get proper LED functionality, the reader needs to be wired as follows and set up using 2-wire LED control.
24.8.1 Wiring the LNL-1300
Reader configuration SW1 SW2 SW3 SW4
Wiegand 40 bit output off off off ON
revision 7 — 153
Motorola Indala Readers
24.8.2 Wiring the LNL-1320
154 — revision 7
Alternative Reader Wiring Guide
25. Nedap Readers
This particular reader is used namely for asset/cardholder tracking. It can track objects up to 38 feet from the receiver.
25.1. Nedap Transit Readers
The Nedap Transit reader operates at 24 VDC ± 10% 500 mA.
25.1.1 Wiring the LNL-1300
revision 7 — 155
Nedap Readers
25.1.2 Wiring the LNL-1320
156 — revision 7
Alternative Reader Wiring Guide
25.1.3 Reader DIP Switches
DIP switches are located behind the Comm Board. Set the switches as follows:
25.1.4 Reader Configuration
For this reader to work properly with OnGuard, the reader must programmed via the Comm Board using a terminal connection. A null modem cable is required to program the Nedap reader. The command, SC532, must be programmed into the firmware to set the inter-ID delay on the combi-booster to 0.5 seconds to distinguish between the two IDs.
Combi-boosters combine a vehicle ID with a driver ID. Both ID numbers may be sent in a separate event message to the host computer. The delay between the two messages can be set with this timer. The vehicle ID is always transmitted first. The second event message, which contains the driver ID, must be set to a 0.5 second delay to work with the software. Timer values are stored in EEPROM and are only lost when a “reset reader” command is performed.
Note: Reprogramming the reader is case-sensitive and must be done in CAPS.
1. Connect a null modem cable to the 25-pin female connector on the Comm Board inside the Nedap Reader, and connect the DB-9 end to an open communications port on a PC.
2. Using HyperTerminal, configure the following:
1 ON
2 off
3 ON
4 ON
5 ON
6 off
7 ON
8 ON
revision 7 — 157
Nedap Readers
a. for the ASCII Setup:
b. Set the communication properties:– BPS: 9600– Data bits: 7– Parity: Even– Stop bits: 1– Flow control: None
3. Check the current settings for the inter ID delay by typing in QC5 (must be in caps) followed by <Enter>.
4. Change the settings by typing SC532. Press <Enter>. The screen should return SC532.
5. Once again, you can check these settings by typing in QC5 followed by <Enter> to make sure the parameters were accepted.
Any error will return a question mark (?).
158 — revision 7
Alternative Reader Wiring Guide
26. Northern Readers
26.1. Northern BR-7 Barcode Reader
The reader operates at 5-12VDC. The average current draw at 50mA.
26.1.1 Wiring the LNL-1300
revision 7 — 159
Northern Readers
26.1.2 Wiring the LNL-1320
160 — revision 7
Alternative Reader Wiring Guide
27. Schlage Keypads
27.1. Schlage SERIII-W Scramble Keypad
The reader operates at +8 to +12 VDC unregulated. The average current draw is 100 mA (TYP) 180 mA (MAX) with display OFF and 280 mA (TYP) 350 mA (MAX) with display ON.
27.1.1 Set the Mode Dials
revision 7 — 161
Schlage Keypads
27.1.2 Card Formats
Code Lengths
• Mode 0 Supports 1 to 9 digits with a transmitted block length of 40 bits with even/odd parity.
• Mode 1 Supports 1 to 4 digits with a transmitted block length of 34 bits.
• Mode 2 Supports 1 to 4 digits with a transmitted block length of 26 bits.
• Mode 3 Supports 1 to 4 digits with a transmitted block length of 26 bits with even/odd parity.
• Mode 4 Supports 5 digits with a transmitted block length of 34 bits.
• Mode 5 Supports 5 digits with a transmitted block length of 26 bits.
• Mode 6 Supports 5 digits with a transmitted block length of 26 bits with even/odd parity.
Model series
Mode Total number of bits on card
Facility codeStarting bit/Number of bits
Card numberStarting bit/Number of bits
Issue codeStarting bit/Number of bits
Number of even parity bits
Number of odd parity bits
Special
II or III 0 40 1 / 8 9 / 30 0 / 0 20 20 None
II or III 1 34 1 / 8 17 / 16 0 / 0 0 0 None
II or III 2 26 1 / 8 9 / 16 0 / 0 0 0 None
II or III 3 26 1 / 8 9 / 16 0 / 0 13 13 None
II or III 4 34 1 / 8 17 / 16 0 / 0 0 0 None
II or III 5 26 1 / 8 9 / 16 0 / 0 0 0 None
II or III 6 26 1 / 8 9 / 16 0 / 0 13 13 None
III only 7 4-bit keypad emulation, 0-9 codes only
III only 8 8-bit keypad emulation, 0-9 codes only
III only 9 4-bit keypad emulation, 0-9 plus # and * codes transmitted
III only A 8-bit keypad emulation, 0-9 plus # and * codes transmitted
162 — revision 7
Alternative Reader Wiring Guide
27.1.3 Wiring the LNL-1300
revision 7 — 163
Schlage Keypads
27.1.4 Wiring the LNL-1320
164 — revision 7
Alternative Reader Wiring Guide
27.1.5 LED Operation
Mode Series II Secure Keypad Series III Secure Keypad
Card and PIN N/A Blinking red at bottom of keypad
Card only N/A Blinking red at bottom of keypad
Card or PIN Blinking red and [*] key on keypad solid
Blinking red at bottom of keypad
Cipher lock emulation Blinking red and [*] key on keypad solid
Blinking red at bottom of keypad
Facility code mode N/A
* This mode is unsupported. Any entry within the Code Length will let someone gain access because the facility code is set in the reader.
Blinking red at bottom of keypad
Locked Solid red at bottom of keypad Solid red at bottom of keypad
Unlocked Solid yellow at bottom of keypad Solid yellow at bottom of keypad
Power up condition Blinking red at bottom of keypad. Keypad will display firmware version and operating mode.
Keypad will display firmware version and operating mode
Access granted Blinking yellow at bottom of keypad Blinking yellow at bottom of keypad
Access denied Solid red at bottom of keypad Solid red
Waiting for PIN Blinking red and [*] key on keypad solid
Blinking red and yellow, * key on keypad solid
Waiting for second card Blinking yellow at bottom of keypad
* This mode is unsupported because there are times when a second entry creates an invalid card format.
Alternating red and yellow at bottom of keypad
Reader LED software setup
2-wire LED control 2-wire LED control
Reader type Wiegand/Prox Wiegand/Prox
Keypad 4-bit output keypad 8-bit output keypad
+ 12 V Pin 3 Pin 3
DAT 0 Pin 7 Pin 7
DAT 1 Pin 5 pin 5
LED Pin 4 Pin 4
BZR Pin 8 Pin 8
GND Pin 2 Pin 2
revision 7 — 165
Schlage Keypads
• The star [*] key must be pressed prior to PIN entry.
• The star [*] key always illuminated red.
• Upper left LED blinks with each key press.
• Pressing the [*] key will activate keypad, rescramble keys, and transmit the * key code to the OnGuard system.
• Keypad commands sometimes are not accepted, likely because of the multiple functions of the star [*] key. Pressing the star [*] key twice before commands may help.
27.1.6 Troubleshooting
When using the Schlage SERIII-W Scramble Keypad reader, you may experience any or all of the following issues:
• PIN codes do not work.
• Access granted events are not displayed in Alarm Monitoring.
• Access is denied even when a valid PIN was entered at the reader.
• PIN only request events may be displayed in Alarm Monitoring.
• Invalid card format events may be displayed in Alarm Monitoring.
• No events appear at all in Alarm Monitoring during keypad input.
To resolve these issues, verify the following settings:
1. On the reader, set both Facility Code mode dials to zero (0).
2. On the reader, set the Operating Mode dial to A.
3. In the Readers folder, select the entry for the Schlage SERIII-W Scramble Keypad from the listing window.
4. On the Reader tab, verify that the Type field is set to Wiegand/Prox.
5. Verify that the Keypad drop-down is set to Eight Bit Output Keypads.
6. On the Settings tab, verify that the LED Mode drop-down is set to 2-Wire LED Control.
7. Connect the reader's buzzer (BZR) wire into the voltage (VO) terminal of the reader port on the reader interface module.
Earth ground Case ground Not connected, or connect to Pin 2 (avoid ground loops)
Mode Series II Secure Keypad Series III Secure Keypad
166 — revision 7
Alternative Reader Wiring Guide
28. Secura Key Readers
28.1. e-Tag Prox Reader #ASSY 2014040
This demonstrates the default wiring configuration for the reader. However, there is no control for the LED's or the buzzer. There is no way to tell what state the reader is in from the door. The reader will only flash a green light and beep once when a card is read. There are no other indications of the readers state.
28.1.1 Wiring the LNL-1300
revision 7 — 167
Secura Key Readers
28.1.2 Wiring the LNL-1320
168 — revision 7
Alternative Reader Wiring Guide
28.2. Touch Card Reader (TC-100)
This reader operates between 9 and 24 VDC. The reader has a current draw of 125 mA to 135 mA, therefore it must be connected to an alternate power supply. The reader outputs a standard Wiegand format and uses the standard single wire LED control. Follow the diagram below for the correct wiring procedure.
28.2.1 Wiring the LNL-1300
revision 7 — 169
Secura Key Readers
28.2.2 Wiring the LNL-1320
170 — revision 7
Alternative Reader Wiring Guide
28.3. Touch Card SK-028W Barium Ferrite Reader
This reader operates at 6-24 VDC.
28.3.1 Wiring the LNL-1300
revision 7 — 171
Secura Key Readers
28.3.2 Wiring the LNL-1320
172 — revision 7
Alternative Reader Wiring Guide
29. Suprema Readers
29.1 BioEntry W OSDP Reader
The Suprema BioEntry W model is supported as an OSDP reader.
29.1.1 Wiring the BioEntry W for OSDP
Use the following diagram to wire a (LNL-4420/3300/2220/2210) controller and BioEntry W readers for OSDP.
In order to connect a BioEntry W device using OSDP, locate the three (3) wires shown here on the back of the device, and then connect to the controller:
1. Blue (with a white stripe) = TRX+ or DAT
2. Yellow (with a white stripe) = TRX- or CLK
3. Black (with a white stripe) = GND
revision 7 — 173
Suprema Readers
174 — revision 7
Alternative Reader Wiring Guide
30. Synergistics Readers
Use the following diagrams to wire Single/Dual Reader Interface Modules and Synergistics readers.
30.1. SR1054FL Swipe Card Reader
This reader operates at 30 mA at 5 VDC.
30.1.1 Wiring the LNL-1300
revision 7 — 175
Synergistics Readers
30.1.2 Wiring the LNL-1320
Note: For the SL1054FL reader to be powered from the dual reader interface module, J4 must be set to (IN) 5 V and J2 must be set to regulated.
176 — revision 7
Alternative Reader Wiring Guide
30.2. SR1058SLE Swipe Card Reader
This reader operates at 30 mA at 5 VDC.
30.2.1 Wiring the LNL-1300
revision 7 — 177
Synergistics Readers
30.2.2 Wiring the LNL-1320
178 — revision 7
Alternative Reader Wiring Guide
31. Texas Instruments Readers
Use the following diagrams to wire Single/Dual Reader Interface Modules and Texas Instruments readers.
31.1. TI S6410 Wall Plate/S6420 Mullion Reader
This reader operates at 9-12 VDC. The average current draw is 50 mA Typical (normal), 130 mA Typical (badge read).
31.1.1 Wiring the LNL-1300
revision 7 — 179
Texas Instruments Readers
31.1.2 Wiring the LNL-1320
180 — revision 7
Alternative Reader Wiring Guide
32. XceedID Readers
Use the following diagrams to wire (single wire LED control) Single/Dual Reader Interface Modules and XceedID readers.
Note: For OSDP Protocol support, refer to XceedID Reader Wiring to Support OSDP Protocol on page 192.
32.1. XceedID ISO-X Reader
The XceedID ISO-X reader model XF1100 operates at 6-16 VDC with an average current draw of 95mA. Model XF2100 operates at 8-16 VDC with an average current draw of 95mA. Model XF2110 operates at 8-16 VDC with an average current draw of 120 mA.
revision 7 — 181
XceedID Readers
182 — revision 7
Alternative Reader Wiring Guide
32.1.1 Wiring the LNL-1300
revision 7 — 183
XceedID Readers
32.1.2 Wiring the LNL-1320
184 — revision 7
Alternative Reader Wiring Guide
32.2 XceedID aptiQ PR10/SM10/MT11/MT15/MTK15
PR10/SM10/MT11/MT15/MTK15 Power Specifications
32.2.1 Wiring the LNL-1300
Note: Connect reader’s cable drain shield to earth ground.
Model Voltage Current
PR10 5 to 16 VDC 65 mA average,110 mA peak
SM10 5 to 16 VDC 95 mA average,195 mA peak
MT11 5 to 16 VDC 100 mA average,135 mA peak
MT15 5 to 16 VDC 120 mA average,200 mA peak
MTK15 5 to 16 VDC 120 mA average,230 mA peak
From LNL-1300 To XceedID aptiQ PR10/SM10/MT11/MT15/MTK15 Reader
Typical Software Settings
Reader Terminal
Pin Wire Description • Reader Type = Wiegand/Prox
• LED Mode = 2-Wire LED Control
TB4
GND Black Ground
BZR Brown Red LED
LED Orange Green LED
CLK D1 White Data/D1
DAT D0 Green Clock/D0
V0 Red Power (5-12 VDC)
revision 7 — 185
XceedID Readers
32.2.2 Wiring the LNL-1320
Note: Connect reader’s cable drain shield to earth ground.
32.2.3 Wiring the LNL-1300-U
Note: Connect reader’s cable drain shield to earth ground.
From LNL-1320 To XceedID aptiQ PR10/SM10/MT11/MT15/MTK15 Reader
Typical Software Settings
Reader 1 or Reader 2 Pin Wire Description • Reader Type = Wiegand/Prox
• LED Mode = 2-Wire LED Control
GND Black Ground
DAT D0 Green Clock/D0
CLK D1 White Data/D1
BZR Brown Red LED
LED Orange Green LED
V0 Red Power (5-12 VDC)
From LNL-1300-U To XceedID aptiQ PR10/SM10/MT11/MT15/MTK15 Reader
Typical Software Settings
Reader Terminals
Pin Wire Description • Reader Type = Wiegand/Prox
• LED Mode = 2-Wire LED Control
J10
GND Black Ground
DAT D0 Green Clock/D0
CLK D1 White Data/D1
J13
LED1 Orange Green LED
LED2 Brown Red LED
BZR Yellow Buzzer Input
V0 Red Power (5-12 VDC)
186 — revision 7
Alternative Reader Wiring Guide
32.2.4 Wiring the LNL-1320-U
Note: Connect reader’s cable drain shield to earth ground.
From LNL-1320-U To XceedID aptiQ PR10/SM10/MT11/MT15/MTK15 Reader
Typical Software Settings
Reader Terminals
Pin Wire Description • Reader Type = Wiegand/Prox
• LED Mode = 2-Wire LED Control
J10
GND Black Ground
DAT D0 Green Data/D0
CLK D1 White Clock/D1
J13
LED1 Orange Green LED
LED2 Brown Red LED
BZR Yellow Buzzer Input
V0 Red Power (5-12 VDC)
revision 7 — 187
XceedID Readers
32.3 XceedID XF1050-K
XF1050-K Reader Power Specifications
32.3.1 Wiring the LNL-1300
Note: Connect reader’s cable drain shield to earth ground.
32.3.2 Wiring the LNL-1320
Note: Connect reader’s cable drain shield to earth ground.
Model Voltage Current
XF1050-K 5 to 16 VDC 110 mA average,160 mA peak
From LNL-1300 To XceedID XF1050-K Reader Typical Software Settings
Reader Terminal
Pin Wire Description • Reader Type = Wiegand/Prox
• LED Mode = 2-Wire LED Control
TB4
GND Black Ground
BZR Brown Red LED
LED Orange Green LED
CLK D1 White Data/D1
DAT D0 Green Clock/D0
V0 Red Power (5-12 VDC)
From LNL-1320 To XceedID XF1050-K Reader Typical Software Settings
Reader 1 or Reader 2 Pin Wire Description • Reader Type = Wiegand/Prox
• LED Mode = 2-Wire LED Control
GND Black Ground
DAT D0 Green Clock/D0
CLK D1 White Data/D1
BZR Brown Red LED
LED Orange Green LED
V0 Red Power (5-12 VDC)
188 — revision 7
Alternative Reader Wiring Guide
32.3.3 Wiring the LNL-1300-U
Note: Connect reader’s cable drain shield to earth ground.
32.3.4 Wiring the LNL-1320-U
Note: Connect reader’s cable drain shield to earth ground.
From LNL-1300-U To XceedID XF1050-K Reader Typical Software Settings
Reader Terminals
Pin Wire Description • Reader Type = Wiegand/Prox
• LED Mode = 2-Wire LED Control
J10
GND Black Ground
DAT D0 Green Clock/D0
CLK D1 White Data/D1
J13
LED1 Orange Green LED
LED2 Brown Red LED
BZR Blue Buzzer Input
V0 Red Power (5-12 VDC)
From LNL-1320-U To XceedID XF1050-K Reader Typical Software Settings
Reader Terminals
Pin Wire Description • Reader Type = Wiegand/Prox
• LED Mode = 2-Wire LED Control
J10
GND Black Ground
DAT D0 Green Data/D0
CLK D1 White Clock/D1
J13
LED1 Orange Green LED
LED2 Brown Red LED
BZR Blue Buzzer Input
V0 Red Power (5-12 VDC)
revision 7 — 189
XceedID Readers
32.4 XceedID XF1500
XF1500 Reader Power Specifications
32.4.1 Wiring the LNL-1300
Note: Connect reader’s cable drain shield to earth ground.
32.4.2 Wiring the LNL-1320
Note: Connect reader’s cable drain shield to earth ground.
Model Voltage Current
XF1550 5 to 16 VDC 110 mA average,160 mA peak
From LNL-1300 To XceedID XF1500 Reader Typical Software Settings
Reader Terminal
Pin Wire Description • Reader Type = Wiegand/Prox
• LED Mode = 2-Wire LED Control
TB4
GND Black Ground
BZR Brown Red LED
LED Orange Green LED
CLK D1 White Data/D1
DAT D0 Green Clock/D0
V0 Red Power (5-12 VDC)
From LNL-1320 To XceedID XF1500 Reader Typical Software Settings
Reader 1 or Reader 2 Pin Wire Description • Reader Type = Wiegand/Prox
• LED Mode = 2-Wire LED Control
GND Black Ground
DAT D0 Green Clock/D0
CLK D1 White Data/D1
BZR Brown Red LED
LED Orange Green LED
V0 Red Power (5-12 VDC)
190 — revision 7
Alternative Reader Wiring Guide
32.4.3 Wiring the LNL-1300-U
Note: Connect reader’s cable drain shield to earth ground.
32.4.4 Wiring the LNL-1320-U
Note: Connect reader’s cable drain shield to earth ground.
From LNL-1300-U To XceedID XF1500 Reader Typical Software Settings
Reader Terminals
Pin Wire Description • Reader Type = Wiegand/Prox
• LED Mode = 2-Wire LED Control
J10
GND Black Ground
DAT D0 Green Clock/D0
CLK D1 White Data/D1
J13
LED1 Orange Green LED
LED2 Brown Red LED
BZR Blue Buzzer Input
V0 Red Power (5-12 VDC)
From LNL-1300-U To XceedID XF1500 Reader Typical Software Settings
Reader Terminals
Pin Wire Description • Reader Type = Wiegand/Prox
• LED Mode = 2-Wire LED Control
J10
GND Black Ground
DAT D0 Green Clock/D0
CLK D1 White Data/D1
J13
LED1 Orange Green LED
LED2 Brown Red LED
BZR Blue Buzzer Input
V0 Red Power (5-12 VDC)
revision 7 — 191
XceedID Readers
32.5. XceedID Reader Wiring to Support OSDP Protocol
The following table describes how to wire door interface modules to XceedID readers for OSDP protocol support.
Note: For OSDP protocol support, set DIP switch 3 on the reader to ON. All other DIP switch positions should be OFF.
From Interface Module To XceedID Reader Typical Software Settings
Pin Wire Description • Reader Type = Single/Dual Interface (OSDP Protocol)GND Black Signal Ground
DAT D0 Tan TR-
CLK D1 Pink TR+
BZR Not connected
LED Not connected
V0 Red Power
192 — revision 7
Alternative Reader Wiring Guide
Index
AAccess readers....................................................... 7AIT reader #L-TR200 ........................................... 9AWID
LR-2200....................................................... 24prox with keypad (kp-6840) ................. 18, 24readers.......................................................... 13sentinel prox mr-1824.................................. 13sentinel-prox (LR-911) ................................ 22sentinel-prox sp-6820, sr-2400, mm-6800... 15
BBAI barcode readers ........................................... 27Banque-tec smart card readers ............................ 29Baran tec
everswitch .................................................... 34keypads ........................................................ 31LNL826S121NN.......................................... 31
Barium ferrite reader......................................... 171Bewator readers .................................................. 37bioClASS readers.............................................. 106
CCascade readers................................................. 131Casi-rusco
94x, 97x ....................................................... 39configuration................................................ 44readers.......................................................... 39
CEIAfreedom reader with keypad (prox) ............. 47output protocol clock/data ........................... 48readers.......................................................... 47
Checkpoint systemsmirage ii ....................................................... 51mirage proximity reader b ........................... 55readers.......................................................... 51SN-MSC 16147 ........................................... 53
Cross match......................................................... 63
DDeister electronics smart card reader.................. 67Dorado
611 ............................................................... 75644 ............................................................... 71780 ............................................................... 73combination readers,230/240....................... 77elevator reader,570 ...................................... 75readers.......................................................... 71
EEPIC swipe readers ............................................. 89Essex
#KTP-16212SLI .......................................... 79#KTP-163SN ............................................... 81keypads ........................................................ 79
e-Tag ................................................................. 167Everswitch proximity reader plus keypad........... 34
HHID
bioclass ...................................................... 106classic readers .............................................. 89iclass reader ................................................. 95iclass reader/encoder.................................... 93lcd .............................................................. 106maxiprox 5370 A-1...................................... 85maxiprox 5370/5375AGN00 ....................... 86mifare 6055................................................ 104mifare 6075................................................ 107osdp............................................................ 109proxpoint...................................................... 90proxpro......................................................... 83proxpro ii ..................................................... 91readers.......................................................... 83sensorkey ................................................... 102
Hughes miniprox reader...................................... 87
IiClass
reader ........................................................... 95reader/encoder.............................................. 93
ID solutions8030/8035 bar code reader......................... 123readers........................................................ 123
IDH max readers ............................................... 119Indala
ARK-501.................................................... 147ASR-103,ASR-105,ASR-120,ASR-122,
ASR-124,ASR-136............................. 143ASR-120,ASR-122 .................................... 139ASR-500,ASR-501,ASR-503,ASR-505,
ASR-110 ............................................. 149ASR-503,ASR-505,ASR-110,ASR-112.... 141EM4525F ................................................... 152readers........................................................ 139
InfographicsOTD-60...................................................... 125readers........................................................ 125
revision 7 — 193
Index
Integrated engineeringdesfire ........................................................ 129PX007Z/MFSNR mifare reader................. 127readers........................................................ 127
Iolan reader LA-XXW-PRXKY-MX 1050-4021-092........................................... 137
KKeri systems
cascade,sierra ............................................. 131readers........................................................ 131
Keypads............................................................... 31
LLCD readers ...................................................... 106LNL826S121NN 8-bit output keypad reader ..... 31
MMaxiprox 5370 A-1............................................. 85Maxiprox 5370/5375AGN00.............................. 86Mifare
6055 ........................................................... 104iolan reader ................................................ 137LA-WIW-PROXKEY-M........................... 135readers........................................................ 135
Miragemirage ii ....................................................... 51proximity reader b........................................ 55
Motorolabistatix prox reader (BXR-610) ................. 151flexpass ...................................................... 153indala.......................................................... 139
ARK-501 ............................................ 147ASR-103,ASR-105,ASR-120,
ASR-122,ASR-124,ASR-136...... 143ASR-120,ASR-122............................. 139ASR-500,ASR-501,ASR-503,
ASR-505,ASR-110...................... 149ASR-503,ASR-505,ASR-110,
ASR-112...................................... 141EM4525F............................................ 152
NNedap
readers........................................................ 155transit reader .............................................. 155
NorthernBR-7........................................................... 159readers........................................................ 159
PPinpad wiegand readers ...................................... 89
Proxpoint reader.................................................. 90Proxpro................................................................ 83Proxpro ii ............................................................ 91
SSecura key
(e-tag) prox reader #ASSY 2014040 ......... 167readers........................................................ 167touch card reader (TC-100) ....................... 169touch card SK-028W barium ferrite reader 171
Sensorkey.......................................................... 102Sierra readers .................................................... 131Smart card reader
#PRM 5M,PRX 5 HSF ................................ 67model BT815 ............................................... 29model BT900/818 ........................................ 29
SupremaBioEntry model W..................................... 173osdp............................................................ 173
Synergisticsreaders........................................................ 175SR1054FL.................................................. 175SR1058SLE ............................................... 177
TTexas instruments
readers........................................................ 179S6410,S6420.............................................. 179
Toch card reader (TC-100) ............................... 169Touch card SK-028W ....................................... 171
UUL evaluated readers ............................................ 9
XXCeedID
readers........................................................ 181XceedID
iso-x reader xf1100,xf2100,xf2110 ........... 181
194 — revision 7
Alternative Reader Wiring Guide
revision 7 — 195
UTC Fire & Security Americas Corporation, Inc.1212 Pittsford-Victor RoadPittsford, New York 14534 USATel 866.788.5095 Fax [email protected]