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All other product and brand names are the service marks, trademarks, registered trademarks, or registered service marks of their respective owners. Printed in the United States of America. Honeywell Integrated Security reserves the right to change any information in this document at any time without prior notice.
The PW6K1R1E requires power from PoE or local 12VDC. The reader power should be based on peak reader power consumption. The PW6K1R1E may be mounted in a 3-gang switch box; a mounting plate is supplied with the unit. The PW6K1R1E may be mounted in an enclosure; the supplied mounting plate has mounting holes that match the MR50 mounting footprint.
Introduction Card Readers 1.3 Card Readers The Pro-Watch PW6K1ICE controller and PW6K1R1E input/output board have been tested for use with the following Listed (ALVY) card readers: Manufacturer Model Part Number ProxPro HU/5355AGN00 ProxPro II HU/5455BGN00 ProxPro K HU/5355AGK00 MiniProx HU/5365EGP00...
Introduction Warranty 1.4 Warranty Honeywell Security Access 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. Honeywell Security Access assumes no responsibility for products damaged by improper handling or installation.
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In this chapter... PW6K1R1E Hardware Terminal Connections Jumper Configuration DIP Switch Configuration Input Power Communication Wiring Reader Wiring Input Circuit Wiring Relay Circuit Wiring 2.10 Status LEDs 2.11 Specifications 2.12 Additional Mounting Information PW6K1R1E Configuration and Installation Guide, Document 800-07986V1, Revision A...
OFF position. 2.5 Input Power The PW6K1R1E is powered by one of the following two ways (jumper selected): 1. The Ethernet connection using PoE, fully compliant to IEEE 802.3af. 2. Local 12VDC power supply, TB5-3 (VIN), TB5-4 (GND).
Communication Wiring 2.6 Communication Wiring The PW6K1ICE communicates with PW6K1R1E through the Ethernet. In the event of communication loss, all readers connected to the PW6K1R1E must be programmed to the “locked” option in the Offline mode menu. 2.7 Reader Wiring The first reader port supports Wiegand, magnetic stripe, or 2-wire RS-485 electrical interfaces.
PW6K1R1E Wiring and Setup Input Circuit Wiring 2.8 Input Circuit Wiring Typically, these inputs are used to monitor door position, request to exit, or alarm contact. Input circuits can be configured as unsupervised or supervised. When unsupervised, reporting consists of only the open or closed states.
Note: 2.10 Status LEDs At power-up, LEDs 2 through 6 are turned ON then OFF in sequence. After the above sequence has completed successfully, the PW6K1R1E goes to the “waiting for IP address” mode. DESCRIPTION Off-line: Off-line = 0.2 second ON, 0.8 second OFF Waiting for IP address: 0.5 second ON, 0.5 second OFF...
Input IN2 Status: OFF = Inactive, ON = Active, Flashing = Trouble Input IN3 Status: OFF = Inactive, ON = Active, Flashing = Trouble After the PW6K1R1E has received its IP address, the following table describes the LEDs in the normal running mode. If the communication is lost, the PW6K1R1E reverts back to the “waiting for IP address”...
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• 4,000ft (1,219 m) maximum • Twisted pair(s) with an overall shield Alarm Input • 1 twisted pair per input • 30-ohm maximum loop resistance Reader data (TTL) • 18AWG • 6 conductors • 500-foot (150 m) maximum PW6K1R1E Configuration and Installation Guide, Document...
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PW6K1R1E Wiring and Setup Specifications Reader data (RS- • 24AWG 485) • 120-ohm impedance • Twisted pair with shield • 4000-foot (1,219 m) maximum Environmental Temperature • -55°C to +85°C, storage • -40°C to +75°C, operating Humidity • 10 to 95% RHNC...