ULTIMATE Installation Manual 33-10035-001 REV: G
PCSC 3541 Challenger Street Torrance, CA 90503 Phone: (310) 638-0400 FAX: (310) 638-6204 www.1pcsc.com
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First Edition - Revision A: June 1998 Revision B: October 1998 Revision C: May 2000 Revision D: January 2001 Revision E: March 2001 Revision F:June 2001 Revision G February 2002
No part of this document may be reproduced, or transmitted, in any form or by any means, electronic or mechanical, including photocopying, recording, or information storage and retrieval systems, for any purpose other than specified in the agreement, without the express written permission of PCSC.
Windows™ is a registered trademark of the Microsoft Corporation.
© 2002 PCSC. All Rights Reserved.
Printed in the United States of America.
Published by PCSC 3541 Challenger Street Torrance, CA 90503 Phone: (310) 638-0400 Publication No. 33-10035-001-G
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The ULTIMATE
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The ULTIMATE with CPU Board
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4-Door Expansion Board
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NOTE In a 12 door cluster (4-Door Expansion Board with a 8-DoorExpansion Board) the relays of the 4-Door Expansion Board are: Relay 1 will be for the 9th door on the panel in an ULT12 Relay 2 will be for the 10th door on the panel in an ULT 12 Relay 3 will be for the 11th door on the panel in an ULT 12 Relay 4 will be for the 12th door on the panel in an ULT 12
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8-Door Expansion Board
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Release Notes
Pg. 64 – DIPswitch Graphic corrected
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Table of Contents
Step 1-Unpacking the ULTIMATE ...... 2 Unpacking the ULTIMATE ...... 3 Tool Requirements ...... 3 Visual Inspection ...... 3 Step 2-Installing Power ...... 8 Installing Power ...... 9 Installing Power- 6 Amp ...... 9 Installing Power- 6 Amp w/ PD8* ...... 9 Resetting the ULTIMATE to Factory Default ...... 10 Step 3-Wiring Your Readers ...... 11 Properly Routing Your Cables ...... 12 Grounding the Power and Data Lines ...... 13 Diagram of ULTIMATE to Door Sense and Egress/PIR ...... 14 Grounding the Pin Pad or Reader ...... 15 Grounding the Reader Mullion Mount ...... 16 Reader Connections ...... 17 Reader Connections: BR-350/450 Readers: 4-Reader Expansion Board ...... 18 Reader Connections: BR350/450 Readers: 8-Reader Expansion Board ...... 19 Reader Connections: BR-370/470 Readers: 4-Reader Expansion Board ...... 21 Reader Connections: BR-370/470 Readers: 8-Reader Expansion Board ...... 22 Reader Connections: PR-233 Mini-Prox: 4-Reader Expansion Board ...... 23 Reader Connection: PR233 MiniProx: 8-Reader Expansion Board ...... 24 Reader Connections: PR-234 ProxPro: 4-Reader Expansion Board ...... 25 Reader Connections: PR-234 ProxPro: 8-Reader Expansion Board ...... 26 Reader Connections: PR-235 MaxiProx: 4-Reader Expansion Board ...... 27 Reader Connections: PR-235 MaxiProx: 8-Reader Expansion Board ...... 27 Reader Connections: Sensor Wiegand: 4-Reader Expansion Board ...... 29 Reader Connections: Sensor Wiegand: 8-Reader Expansion Board ...... 30 Reader Connections: Vehicle Readers: 4-Reader Expansion Board ...... 31 Reader Connections: Vehicle Readers: 8-Reader Expansion Board ...... 32 Step 4-Wiring the Door(s) ...... 33 Wiring the Door(s) ...... 34 Panel in a Fail-Safe Environment ...... 36 Panel in a Fail-Secure Environment ...... 38 4-Reader Expansion Module Door Lock/Strike ...... 39 8-Reader Expansion Module Door Lock/Strike ...... 41 Open Collector Output for the 4- and 8-Reader Expansion Module ...... 42 4-Reader Expansion Module Open Collector ...... 43 8-Reader Expansion Module Open Collector ...... 45 Egress Sense for the 4- and 8-Reader Expansion Module ...... 46 Door Sense for the ULTIMATE and 4- and 8-Reader Expansion Module ...... 46 Using the 7-Segment LED Array ...... 48 Supervised Sense Inputs for P6 and P7 ...... 48 4-Reader Expansion Module Supervised Door Senses and Unsupervised Request-to-Exit Sense Inputs ...... 49 8-Reader Expansion Module Supervised Door Senses and Unsupervised Request-to-Exit Sense Inputs ...... 52 4-Reader Expansion Module Supervised Door Sense Locations ...... 53 8-Reader Expansion Module Supervised Door Sense Locations ...... 54
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Installing Noise Suppression Devices ...... 55 Step 5-Communicating with the ULTIMATE Micro ...... 56 Communicating with the ULTIMATE Micro ...... 57 Supervised Inputs – Calibration Procedures ...... 57 Addressing Individual ULTIMATEs through the Dipswitch ...... 58 Dipswitching the ULTIMATE LiNC-NET Panel Address (1-111) ...... 60 Configuring the IP Address of the Ultimate ...... 61 The WATTCP.CFG ...... 61 CONFIG.TEL ...... 62 Configure the IP Address Using the Serial Link ...... 68 Communicating with Multiple ULTIMATEs via LAN ...... 76 How to Build Your Own Serial Cable for RS-232 Connection ...... 79 Step 6 - Status Lights and Dealing with Communication Errors ...... 83 Status Lights ...... 84 Communication Errors ...... 85 Error Codes ...... 86 Sense Input Numbers on the Supervised Alarm Module (SAM 1) ...... 85 Proper Setting of SAM 1 and SAM 2 ...... 90 ULTIMATE Point Definitions - Sense Inputs – Ultimate Boards ...... 94 Appendix-ULTIMATE Specifications ...... 96 ULTIMATE FEATURES ...... 97 Cable Requirements and Maximum Lengths ...... 98 Communication- ...... 98 4-Reader Expansion Board- Active LEDs ...... 100 4-Reader Expansion Board- Jumper Selections ...... 101 8-Reader Expansion Board- Active LEDs ...... 102 8-Reader Expansion Board - Jumper Selections ...... 103 End of Manual ...... 104 February 2002 ...... 104
Page x of 90 ULTIMATE Installation Manual 33-10035-001-G Introduction
Welcome to the ULTIMATE, the newest generation of intelligent access control system from PCSC. Setting up the ULTIMATE is easy. This manual explains ULTIMATE installation and connection to a personal computer (PC). We’ve designed this manual to make it easy for you to read and understand. The ULTIMATE Manual is now divided up into six steps:
Step 1 - Unpacking the ULTIMATE Step 2- Installing Power Step 3 - Wiring Your Readers Step 4 - Wiring Your Door(s) Step 5 - Communicating with the ULTIMATE Step 6 - Status Lights and Dealing with Communication Errors
Before turning on the ULTIMATE, or the PC, take a moment to read through this manual. It has been designed to allow you to move through the installation process quickly and with minimal frustration. Specifics of the ULTIMATE and its component systems can be found in:
Appendix: ULTIMATE Specifications
NOTE The ULTIMATE system addressing is set up at the factory. Do NOT re- initialize the system unless other modules have been added.
The ULTIMATE communicates through an ethernet on a local LAN or wide area network via TCP/ IP protocol. For the LiNC-NET software to communicate with each controller, each ULTIMATE must have a unique IP (Internet Protocol) address (1-200).
Installation must meet all local, state, and federal regulations and codes for electrical installation. If these codes conflict with the installation methods described in this manual, please call your service representative.
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Page 2 of 90 ULTIMATE Installation Manual 33-10035-001-G Unpacking the ULTIMATE
As you unpack the ULTIMATE, inspect it for missing items, or damage. Contact the dealer for any irregularities. Keep ALL packing material for protection in return shipping.
Tool Requirements
Cable Connection Tool To insert the cable to the AMP connectors from the PCSC readers, you need either an AMP Insertion Handle (P/N 88-08003) with an AMP Head (P/N 88-08005), or an AMP hand tool (P/N 88-08006) for MTA connectors. Using a different tool may cause an improper connection, or damage, to the system.
Standard Screwdriver A standard screwdriver is required for securing cabling connections on the ULTIMATE (P/N: 03-10099-XXX), 4/8 Reader Cluster (P/N: 03-10102-XXX), and Output (P/N: 03-10032-101) PCB.
Reader Locking Tool As a security measure, some readers are equipped with a security bolt. This bolt requires a special driver (P/N 88-08002) to secure each reader and pin pad.
Crimp Type MTA Connection The crimp type MTA connection is currently used on the card readers/pin pads, old 4 reader cluster (P/N: 03-10020-XXX), old output (P/N 03-10032-00X), and SAM PCBs.
Power Supply 6 amps 12 VDC (MAX)
Visual Inspection
1. Is the integrated circuit chip U31 seated in its socket? Socket IC U31 is located at the upper left side of the board in close vicinity to the header connectors P3 and P4, and just above the door relay K2 respectively. 2. Is the lithium battery seated in its socket? The lithium battery is located in socket BT1, located at the lower right side of the board next to Tamper Connector P7. 3. Are all of the plugs on the connectors affixed to their male header connectors? Plugs on connectors are located along the left-hand edge of the board at Plug P1-P2-P3-P4-P5-P6-P7. Plugs on connectors are located along the bottom portion of the board at plug P12-P13-P14- P15-P16. 4. Is the fuse in place at socket F1 located in the upper left corner of the board? A 4 Amp fast blow (3AG) fuse is required.
Page 3 of 90 ULTIMATE Installation Manual 33-10035-001-G 5. Are the jumpers in place at W1, W2, W3, W4, W5, W6, and W7? • Jumper W1 is located on the RIGHT side of the board, between the PC/104 Bus Connector and the 12-volt regulators. It identifies the address at which the ULTIMATE PCB resides to the CPU PCB. W1 has jumpers across pins S1 and S2. • Jumper W2 is located on the LOWER RIGHT side of the board, adjacent to the W1 Tamper. It identifies the IRQ (Interrupt Request) used by the PCSC Peripheral Expansion Bus. W2 does NOT contain any jumpers. • Jumper W3 is located at the CENTER RIGHT of the board, just to the left of the PC/104 Connector. It identifies the address range used by the ULTIMATE’s resources: Switch Pack SW1, LED Array D6, seven segment LEDs D7 and D8, expansion memory/registers, and the A/D converter. W3 has a jumper across pins #7 and #8. • Jumper W4 is located at the BOTTOM LEFT side of the board next to the 3 Volt Lithium Battery. It identifies the type of A/D(Analog to Digital) converter chip is employed by the ULTIMATE PCB at location U32. For MAX 158, the jumper is installed across pins #1 and #2. For AD7828, the jumper is installed across pins #2 and #3. • Jumper W5 is located at the UPPER RIGHT side of the board, next to Plugs P2 and P3. This is the Primary RS485 Channel (Plugs P2 and P3) End of Line
Page 4 of 90 ULTIMATE Installation Manual 33-10035-001-G Termination Resistor. If the jumper is across pins #1 and #2, then no termination is selected. If the jumper is across pins #2 and #3, then the 120-ohm termination is selected. • Jumper W6 is located at the CENTER TOP side of the board to the right of Plug P5. This is the Secondary RS485 Channel (Plugs P4 and P5) End of Line Termination Resistor. If the jumper is across pins #1 and #2, then no termination is selected. If the jumper is across pins #2 and #3, then the 120-ohm termination is selected. • Jumper W7 is located at the UPPER RIGHT side of the board, next to jumper W8, or COM3. It identifies the IRQ (Interrupt Request) assigned to the secondary RS485 channel (Plugs P2 and P3). The jumper is set across pins #1 and #2, stipulating IRQs.
NOTE As of firmware version UM7.9.16j, the primary RS485 channel is NOT supported. However, to prevent IRQ conflicts, the jumper MUST be set for IRQ 5 assignment.
• Jumper W8 is located at the RIGHT side of the board, between jumpers W7 and W1. It identifies the IRQ (Interrupt Request) assigned to the Primary RS485 Channel (Plugs P4 and P5). The jumper is across pins #3 and #4, stipulating IRQ II.
Page 5 of 90 ULTIMATE Installation Manual 33-10035-001-G 6. Is the 50 pin Expansion Bus Ribbon Cable connected to ULTIMATE at Plug J1? Note that the RED stripe on the edge of the ribbon cable should be connected to pin #1 of Plug P1. 7. Is the opposite end of the 50 pin Expansion Bus Ribbon Cable connected to a Peripheral Expansion Board at its Plug P1? The possible expansion boards are the new 4-door expansion PCB, 8-door PCB, OUT PCB, ALM PCB, SAM PCBs, and the old cluster PCB.
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The ULTIMATE may be powered either by a 12vdc +/- 10% at 6.0 amps, or by a 24-volt model at 2.0 amps.
Installing Power- 6 Amp* (Example shows Altronix SMP7 power supply)
Installing Power- 6 Amp w/ PD8* (Example shows Altronix SMP7 power supply with PD-8 option)
* State-optional 24VDC power option available. Contact a PCSC sales representative.
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Resetting the ULTIMATE to Factory Default
If a new configuration is needed, and you wish to clear the ULTIMATE panel back to factory default – clearing all card and history records, and any LiNC-NET configurations set previously—, follow these instructions:
A. Power OFF the ULTIMATE. B. Set the dipswitches to 0.
WARNING ALL INFORMATION STORED IN MEMORY WILL BE ERASED.
C. Power ON the ULTIMATE. D. Set the dipswitches back to the desired panel address (1-111) or initiate Software Addressing for panels (112 – 200).
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Step 3-Wiring Your Readers
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Grounding Your Readers
PCSC has designed its products to withstand most inductive voltage spikes without effect on performance. However, some noise found in power supplies and door strikes, in addition to static discharge, may cause the control unit to momentarily shut down, lockup, or in extreme cases, become damaged. Unexplained lockups and intermittent system behavior are common symptoms of static, or noise, problems. If cycling power will remedy your problem, carefully follow these instructions:
1. Install MOVs (Metal Oxide Varistors, Siemens S10K30, or the equivalent), or reversed biased diodes (1N4004 - 1N4007), at each door strike. When installed, they will suppress most problem door strikes.
2. Readers should be properly earth grounded for uninterrupted reads. Please be aware that operation is affected by the amount of static present during certain times of the year.
3. Properly grounding all readers and hardware, in addition to suppressing noise in the peripheral equipment, should allow for many problem free years of use with PCSC products.
4. In addition, PCSC recommends using a separate filtered, electronically regulated output, switchable power supply for door strikes.
5. Before installing the reader, please read the following instructions. Damage may occur if this is disregarded.
6. Installation must meet all local, state, and federal regulations and codes for electrical installation. If these codes conflict with the installation methods described in this manual, please call your service representative.
Properly Routing Your Cables
Do not route data and power cables in the same conduit. Cross talk and transmission of electrical noise may result. The ULTIMATE printed circuit boards will become damaged if the power cable grounds to the data cable.
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Grounding the Power and Data Lines
Each cable has a series of drain lines that can be attached on the host, or controller, end of the cable to any screws mounted in the optional enclosures. If other non-metallic enclosures are used for controller housing, ensure that an alternative source for earth grounding is available.
Procedure 1. At the reader site, it is important to be aware of both the static generated from the user end as well as electrical grounding generated from the data and power cabling. If at all possible, the reader mounting plate should be attached to a grounded junction box, or to another source, if the junction box is non-metallic. This alleviates the possible damage caused by static electricity.
NOTE Leave the Drain Line floating at the reader card. The shield connects to the Ultimate on the backing plate. See graphic on page 14.
2. If grounding locally is not possible, connect drain wires to provided ESD (Electro Static Discharge) hardware at the controller site (enclosure), or to earth grounded conduit. As each reader port is progressively farther away from the ESD hardware location (left rear side of the cabinet for ULTIMATEs), allow for enough drain line to reach the ESD. CHECK hardware on the controller end of the cable. Allow enough strain relief to avoid touching other circuitry, or creating excessive tension.
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Diagram of ULTIMATE to Door Sense and Egress/PIR (Grounding the Cables)
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Grounding the Pin Pad or Reader
The card reader is comprised of a housing and a mounting plate. The mounting plate is typically attached to a single-gang, 2 x 4 inch earth-grounded junction box (preferably metal-type). The reader may be installed either vertically, or horizontally, depending on the installation requirements.
Procedure
1. Orient the mounting plate so that the protruding ears on top are facing the back of the reader, or PIN Pad. Attach the mounting plate to the junction box using 2 #6-32 x 3/8” flat head screws. The mounting plate should be earth-ground either to a ground junction box, or directly to an earth ground source, especially if the junction box is not metal.
2. Connect the cable to the rear of the reader at J1. Secure the shield drain lines to one of the grounding screws in the ULTIMATE enclosure.
3. Place mounting holes on the back of the reader, over the latches on the mounting plate, and position the unit so that the cover is flush with the mounting plate.
4. Secure the unit to the mounting plate by inserting the special security fastener through the hole in the bottom of the reader. Tighten it using the security driver.
Connecting the Reader to J-box Earth Ground.
Tie back the drain line and insulate it with electrical tape at the Reader end of the cable.
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Grounding the Reader Mullion Mount
The reader may be attached either vertically or horizontally to a glass or door mullion separator, using the mullion bracket adapter kits (04-10171-001 for vertical mounting or 04-10170-001 for horizontal mounting,).
Procedure
1. At the ULTIMATE end, secure the drain lines to one of the ESD grounding screws in the ULTIMATE box. At the reader end, leave the drain line floating. It is recommended that the mullion adapter be affixed to an earth-grounded, or to the incoming, conduit.
2. Mount the reader to the J-box, or mullion bracket.
Reader Mullion Mount Installation and Grounding
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Reader Connections
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Reader Connections: BR-350/450 Readers: 4-Reader Expansion Board
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Reader Connections: BR350/450 Readers: 8-Reader Expansion Board
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Reader Connections: BR-370/470 Readers: 4-Reader Expansion Board
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Reader Connections: BR-370/470 Readers: 8-Reader Expansion Board
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Reader Connections: PR-233 Mini-Prox: 4-Reader Expansion Board
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Reader Connection: PR233 MiniProx: 8-Reader Expansion Board
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Reader Connections: PR-234 ProxPro: 4-Reader Expansion Board
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Reader Connections: PR-234 ProxPro: 8-Reader Expansion Board
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Reader Connections: PR-235 MaxiProx: 4-Reader Expansion Board
Reader Connections: PR-235 MaxiProx: 8-Reader Expansion Board
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Reader Connections: Sensor Wiegand: 4-Reader Expansion Board
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Reader Connections: Sensor Wiegand: 8-Reader Expansion Board
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Reader Connections: Vehicle Readers: 4-Reader Expansion Board
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Reader Connections: Vehicle Readers: 8-Reader Expansion Board
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Step 4-Wiring the Door(s)
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Wiring the Door(s)
Step 1 It is important to realize that when power is interrupted from the ULTIMATE that the door relay de-energizes and continuity (conduction path) exists between the Common (Com.) and Normally Closed (N.C.) relay contacts. Should this loss-of- power situation arise, it must be determined whether the door(s) controlled by the ULTIMATE will become unlocked (a Fail Safe environment), or locked (a Fail Secure environment).
Step 2 Refer to the two types of door hardware below and the circuit conditions that coincide with the state of the locks.
Case A Door Strike hardware requires continuity to unlock (For strikes that require power to lock, follow the outline given for maglocks.). This is provided by a closed circuit condition (Normally Closed [N.C.]). Case B Door Strike hardware does NOT require continuity to lock (For strikes that require power to lock, follow the outline given for maglocks.). This is provided by an open circuit condition (Normally Open [N.O.]) Case C Magnetic lock hardware requires continuity to lock. This is provided by a closed circuit condition (Normally Closed [N.C.]). Case D Magnetic lock hardware does NOT require continuity to unlock. This is provided by an open circuit condition (Normally Open [N.O.])
Step 3 For Fail-Safe operation, wire the appropriate door lock hardware to accommodate an unlocked condition upon interruption of ULTIMATE power. This is implemented by:
• For door strikes, wire between the Common and Normally Closed Door Relay contacts. • For magnetic locks, wire between the Common and Normally Open Door Relay contacts.
For Fail-Secure operation, wire the appropriate door lock hardware to accommodate a locked condition upon interruption of ULTIMATE power. This is implemented by: • For door strikes, wire between the Common and Normally Open Door Relay contacts. • For magnetic locks, wire between the Common and Normally Closed Door Relay contacts.
NOTE For both conditions (Fail Safe and Fail Secure), it is presumed that Lock Power is battery backed.
Step 4 Program the quiescent (INACTIVE) state of the door output relay to provide a locked door state. For Fail-Safe environments, the quiescent state of the door output relay should be ENERGIZED. For Fail-Secure environments, it should be DE-ENERGIZED.
Consult the LiNC-NET Administrator Manual (P/N: 38-10049-001) Door Overview/Hardware section for programming information.
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Open Collector Output: Open collector outputs are designed to drive an external relay. This technique can be used to control devices which exceed the relay capacity of those on board the ULTIMATE. The open collector outputs are capable of 100-mA current @ 12 VDC.
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Panel in a Fail-Safe Environment
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Panel in a Fail-Secure Environment
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4-Reader Expansion Module Door Lock/Strike
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8-Reader Expansion Module Door Lock/Strike
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Open Collector Output for the 4- and 8-Reader Expansion Module
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4-Reader Expansion Module Open Collector
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8-Reader Expansion Module Open Collector
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Egress Sense for the 4- and 8-Reader Expansion Module
Door Sense for the ULTIMATE and 4- and 8-Reader Expansion Module
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Using the 7-Segment LED Array
LEDs, located in the ten-segment array D6, indicate the status of the supervised alarm input circuits. The supervised tamper is annunciated in the LED array as listed below.
LED Status Chart For All ULTIMATE Sense Inputs OFF Circuit is normal/secure ON Circuit is in an alarm condition 1/2 second blink Fault condition. Open circuit Once a second blink Fault condition. Short circuit. Four times a second blink Circuit is NOT calibrated and NOT functional.
Supervised Sense Inputs for P6 and P7
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4-Reader Expansion Module Supervised Door Senses and Unsupervised Request-to-Exit Sense Inputs
8-Reader Expansion Module Supervised Door Senses and Unsupervised Request-to-Exit Sense Inputs
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4-Reader Expansion Module Supervised Door Sense Locations
Install End-of-Line resistors at door switch/egress device (not at the ULTIMATE panel end of the cable).
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When door is closed, continuity exists across the common (COM) and normally closed (N.C.) door switch contacts.
8-Reader Expansion Module Supervised Door Sense Locations
Install End-of-Line resistors at door switch/egress device, (not at the ULTIMATE panel end of the cable).
When door is closed, continuity exists across the common (COM) and normally closed (N.C.) door switch contacts.
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Installing Noise Suppression Devices
Install an MOV, a diode, or both to suppress noise and avoid problems related to spikes. Follow the instructions below and refer to the diagrams on the following pages.
Procedure The most effective location for a suppression device is at the source—in this case, at the door strike.
1. Remove the strike-locking device and find the wire connector that attaches the lock wires to the lock.
2. Install an MOV (Siemens S10K30 or Equivalent) in parallel with the load. The MOV is a non-polarized device and will work with both AC and DC locks. For further protection on DC units, a reverse biased diode may be installed (we suggest types 1N4004 to 1N4007 be used) also in parallel with the load.
NOTE Use an additional MOV if you experience further noise at the strike.
3. Note the wiring set-up of your particular system. Connections can be made either to the “normally open” (fail-secure) contact or to the “normally closed” (fail-safe) configuration whereby an isolation relay is used and a diode (or MOV) is added for noise suppression.
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Step 5-Communicating with the ULTIMATE Micro
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Communicating with the ULTIMATE Micro
The ULTIMATE can communicate over an Ethernet LAN connection.
NOTE The serial RS232/RS485 and auto dial-up features are NOT supported.
1. Set the ULTIMATE’s LiNC-NET Panel Address using the dipswitches at SW1. See the “Dipswitching the ULTIMATE” section in the following pages. After setting the dipswitches accordingly, power the ULTIMATE OFF/ON. Addressing the panel does NOT affect the data stored in its memory nor does it affect the calibration of the sense inputs.
2. Establish communication for LiNC-NET (for 98/NT/2000).
3. Once all parameters and configurations are defined in LiNC-NET, download all files to the ULTIMATE, and logoff LiNC-NET. This will cause a system Restart to occur on the ULTIMATE. The seven segment LEDs will show an 86, indicating the Restart taking place.
4. The ULTIMATE is ready for operation.
5. The LiNC-NET panel address on the ULTIMATE should always remain set. In case of a power loss, the unit will read the switch for the ID. Should the panel’s ID number need to be changed the switches of SW1 should be set to reflect the new number and then power the ULTIMATE OFF/ON. This process will NOT erase any data from the ULTIMATE nor will it affect the calibration of the sense inputs.
Supervised Inputs – Calibration Procedures
1. You may elect to install the supervisory resistors at this time, or optionally wait until after on- line communications has been established to the LiNC-NET Host PC. Set dipswitches 1-7 (located at SW1) to OFF position as it is etched on the ULTIMATE PCB. Power the ULTIMATE off and on. This will calibrate all four of the supervised inputs on the ULTIMATE PCB and the supervised Door Senses on the 4/8-Door Cluster PCBs. SAM sense inputs are calibrated only by toggling switch #3 of SW-1 on each SAM PCB.
NOTE You must have ALL supervised switches in place for calibration. The supervised lines must be calibrated in order for the supervised inputs to work. If not, the sense inputs will be in a constant fault when the calibration is performed.
2. (Optional Step) To manually calibrate all supervised sense inputs on the ULTIMATE series panel(s), place switches 1 through 7 to the ON position (as it is etched on the ULTIMATE PCB) and switch 8 OFF. Then power the ULTIMATE OFF/ON. Calibration of the sense inputs does not affect the data stored in memory nor does it affect the panels addressing.
NOTE Manual calibration of all sense inputs on the ULTIMATE PCB and the 4/8 Door Cluster PCB is accomplished by this step. However, the sense inputs on the SAM PCB’s must be calibrated by toggling switch #3 of SW-1 “off” & “On” for each SAM board.
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Addressing Individual ULTIMATEs through the Dipswitch
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The dipswitch is located at SW1, to the bottom left center of the board. There are eight (8) switches. For the binary number of 1, flip the switch to the left. For zero (0), flip the switch to the right.
The ULTIMATE can be addressed to 111 using the panel dipswitches. The ULTIMATE can be addressed 112 to 200 using LiNC-NET software.
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Dipswitching the ULTIMATE LiNC-NET Panel Address (1-111)
The dipswitch is located at SW1, to the bottom left center of the board. There are eight (8) switches. For the binary number of one (1), flip the switch to the left. For zero (0), flip the switch to the right.
The Ultimate can be addressed to 111 using the panel dipswitches. The Ultimate can be addressed 112 to 200 using the LiNC-NET software (ConFigUL).
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Configuring the IP Address of the Ultimate
Ultimate Panels are shipped from the factory containing a default IP Address of 197.168.5.41. In order to communicate to the ULTIMATE, you must configure the IP address of each ULTIMATE. The IP address for the ULTIMATE may be configured in three ways:
I. Using FTPpro for Windows This is the user-friendliest method. However, if you do not have FTPpro available through Windows, go to method II. The static IP address must be known. (PCSC Factory Default IP 197.168.5.41)
II. Using FTPpro through DOS To follow this method, the static IP address must be known and the DOS system must be available to you.
III. Using the Serial Link This method is used only when FTPpro is not accessible through Windows, or through DOS, and the static IP address is unknown.
The WATTCP.CFG
The WATTCP.CFG file contains the static IP address that allows the ULTIMATE MicroLPM to connect to the host PC. The WATTCP.CFG file is read in the run mode (panel address, 1-200), when connecting online with LiNC-NET. The following values are needed to configure the TCP/IP application used by the Ultimate: my_ip=197.168.5.41 gateway= 197.168.5.109 netmask=255.255.254.0 *primary_timeout=60 *secondary_timeout=60 *primary_port=3001 *secondary_port=3002 *card_erase_time=24 *max_download_bytes=5000000
NOTE These values are set to the factory default and SHOULD NOT BE CHANGED. The only exception is the IP address (my-ip) will change to match system network.
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WATTCP.CFG Definitions
IP Address This address allows the ULTIMATE Micro-LPM to connect to the Host PC. Gateway The gateway is used to forward information to other networks or subnets. Netmask A number that works with the IP address to identify which network your computer is on. Primary Timeout If there is no message from the Host PC within 60 seconds, the port will close. The Primary Timeout works with the Primary Port. Secondary Timeout If there is no message from the Host PC within 60 seconds, the port will close. The Secondary Timeout works with the Secondary Port. Primary Port A communicator port between LincNet and the Ultimate. The appropriate “primary port” for the WATTCP.CFG is 3001. Secondary Port Allows for the bulk download of information. The appropriate “secondary port” for the WATTCP.CFG is 3002. Card Erase Time The Ultimate waits 24 seconds before processing information from RAM to SRAM. Max Download The Ultimate can download information for 50,000 cards.
NOTES Both the ULTIMATE and host PC, or hub must be powered on before connecting the cable; otherwise, ultimate Ethernet drivers won’t load properly and the connection will not be successful. Some laptops may not be set up for peer to peer relationships at which a hub or other device will be needed.
CONFIG.TEL
The CONFIG.TEL file contains the static IP address that allows you to perform an FTP (File Transfer Protocol) session, and thereby to modify the static IP Address and the WATTCP.CFG file. The CONFIG.TEL file is read in the diagnostic FF mode, binary 11111111, during the FTP/ telnet session with the ULTIMATE. The CONFIG.TEL is set to the factory default of 197.168.5.41 and should always match “My_IP” in Wattcp.cfg.
Item Definititions myip=197.168.5.41 (Required) It is this machine's IP number for performing FTP. netmask=255.255.255.0 subnetting mask hardware=packet network adapter board (packet driver interface) ioaddr=60 software interrupt vector driver is using ftp=yes do you want ftp enabled? name=default (Required) Session name, "default" is a reserved name mtu=1024 maximum transmit unit in bytes. The outgoing packet size maximum is 1024. The default is 512. CAUTION Knowing that the purpose of the WATTCP.CFG file is to communicate to the software and that the purpose of the CONFIG.TEL file is to establish an FTP session, we recommend that
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you use the same IP Address for both the WATTCP.CFG and CONFIG.TEL files. Configure the IP Address Using Ftp_Pro for Windows
To configure the IP address using Windows, you must have the Ftp_pro Program available through Windows and know the static IP address of the CONFIG.TEL.
Procedure
1. To connect to the ULTIMATE panel you MUST first set the dipswitches of SW1 to FF mode, binary 11111111. All switches must be in the ON position of ULTIMATE panel. When the switches are properly set, power down and power up.
2. Launch the program FTPpro.exe.
3. Enter a unique Profile Name. “Ultimate1” is used in the sample screen, but set the name to your preference.
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4. For the Host Name, enter the default IP address: 197.168.5.41. 5. Select the check box, Anonymous Login. This will automatically enter the information, User ID = Anonymous, and Password = guest@unknown. 6. Click on the Save button. 7. When the above steps are completed, select the Profile Name menu to connect to the ULTIMATE panel that is to have IP Address configured.
8. Select the OK button to connect to your remote ULTIMATE panel. All of the resources of the ULTIMATE drive are now accessible, as is seen in the “Remote System” screen to the right.
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9. In the “Remote System” screen, view the IP address of the WATTCP.CFG file. If the file does not contain the desired IP address, highlight the file, and double click on the left arrow. The file will be copied to your “Local System,” as seen to the left.
NOTE By default, the radial button, Binary should already be selected. If it is not, select the binary button in order to transfer files to and from your computer to the ULTIMATE panel.
10. View the WATTCP.CFG file in the “Local System” and make any desired changes to the IP address. Click the right arrow to transfer the file with the desired IP address back to the ULTIMATE “Remote System.”
11. A “Transfer Status” box will briefly appear giving information on the percentage transferred.
12. Once the transfer is completed, click on the Close button. You are now finished configuring the IP with the FTP_pro Program.
Repeat steps 1-12 for each ULTIMATE Panel.
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II. Configure the IP Address Using FTP through DOS
A laptop, or other portable PC, an Ethernet adapter card and “crossover” Ethernet cable, along with the known static IP addresses of both the CONFIG.TEL and WATTCP.CFG files are needed to complete this procedure. The crossover Ethernet cable to the laptop must replace the cable that links the ULTIMATE panel to LiNC-NET.
NOTE Instructions on how to build your own crossover Ethernet cable are in the appendix.
The same set of instructions is repeated twice in the following procedure. The only difference between the two sets of instructions is that one contains the command “Mget” and the other contains the command “Mput.” “Mget” transfers the WATTCP.CFG file to your local system and allows you to edit the file. The command “Mput” allows the ULTIMATE to receive the modified data.
Procedure
Transfer the WATTCP.CFG File to your Local System and Edit
1. At the ULTIMATE site, set the dipswitches to hex FF, binary 11111111.
This should invoke the TELNET server, if the ULTIMATE firmware is running. If it is not running, power the ULTIMATE panel off, set the dipswitches to hex FF, and power back on the ULTIMATE panel.
2. On the laptop, or PC, go to the MS-DOS window and create a directory for the ULTIMATE by typing MD “Name of Directory”. For example, “MD ULTIMATE1.” Then retrieve the directory by typing CD “Name of Directory”. For example, “CD ULTIMATE1.” 3. At this point, type ftp after the c:\ultimate> prompt. You should see the prompt, “ftp>.”
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NOTE In the following steps, the prompts from the FTP that appear on the PC screen are italicized, and the expected response is boldfaced. The IP address of the target ULTIMATE in its CONFIG.TEL file is indicated by: “xxx.xxx.xxx.xxx.”
4. Open an FTP session as follows: ftp>open xxx.xxx.xxx.xxx
5. Change the mode so that it is not interactive and that multiple files may be transferred without operator intervention: ftp> prompt
NOTE The “prompt” is a toggle that can be used to turn the interactive mode off and on.
6. Set the transfer mode to “binary”: ftp> binary
7. Copy the WATTCP.CFG file to your directory: ftp> mget wattcp.cfg 200 Type set to I, binary transfer mode 200 This space intentionally left blank<> 150 opening BINARY mode connection for file wattcp.cfg 226 transfer complete 224 bytes received in 0.14 seconds<1.60 Kbytes/sec>
8. End the FTP session: ftp> bye 221 Goodbye
9. In order to edit the WATTCP.CFG file to the desired IP address of the ULTIMATE panel, type in edit name of file after the c:\directory. For example, “c:\ultimate>edit wattcp.cfg.”
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The following screen will appear. Make any changes to the address at this point.
Exit the edit mode.
Send the Modified Data Back to the Ultimate
10. Type ftp after the c:\ultimate> prompt. You should again see the prompt, “ftp>.”
11. Repeat Steps 4, 5, and 6.
12. Copy the WATTCP.CFG file to the installation directory: ftp> mput wattcp.cfg The PC screen will then display the file transfer progress.
13. End the FTP session: ftp> bye 221 Goodbye
14. At the ULTIMATE site, set the dipswitches to the desired panel number, and recycle power on the ULTIMATE.
NOTE While in FTP, ftp> ?
Configure the IP Address Using the Serial Link
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This procedure is used when the static IP address is NOT known.
The following procedure assumes that the ULTIMATE panel to be upgraded is currently operating. It also assumes that the field personnel performing the upgrade have a laptop, or other portable PC, and the serial port ribbon cable.
NOTE See page 70 for instructions on how to build your own serial port ribbon cable and for a detailed view of COM1.
The WATTCP.CFG file must be edited on the local PC when using this method. You must bring the file to the local PC and edit the IP Address, then transfer it back to the ULTIMATE.
Procedure
1. Connect the special ribbon cable from the COM1 serial port of the PC104 to the serial port of the laptop, or PC.
2. In Windows NT/95/98 Workstation, invoke Hypertrm.exe through Programs\ Accessories \Hyperterminal\Hyper Terminal. a. In the “New Connection” window, “Name” field, enter Ultimate.
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b. In the “Connect To” window, “Connect Using” field, select COM 1.
SW1
c. In the “COM1 Properties/Port Settings” window: 1a. Select 38400 in the “Bits per second” field. 2b. Select 8 in the “Data bits” field. 3c. Select None in the “Parity” field. 4d. Select 1 in the “Stop bits” field. 5e. Select None in the “Flow control” field.
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4. Assuming that the ULTIMATE firmware is running, you should see something like the following on the PC screen:
5. Set the dipswitches to the console mode, hex FC, binary 11111100. Power down and up to invoke the c:\> prompt.
6. Select Transfer\Receive File from the top row of headings.
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7. Select the local directory to which you wish the WATTCP.CFG file to be delivered.
9. After the c:\> prompt, type put wattcp.cfg (one space after “put”). This step will deliver the file from the ULTIMATE to the pre-defined folder of Step 7.
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10. Locate the WATTCP.CFG file in the directory and edit it to the desired IP Address, using Notepad.exe.
11. Once the changes are saved in the WATTCP.CFG file, return to the Hyper Term session.
12. After the c:/> prompt, type, get. Press the Return key.
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This will invoke the RSZ modem.
13. At the top of the screen, select Transfer\Send File from the top row of headings.
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14. a. Click on the Browse button to locate the WATTCP.CFG file. b. Open the file. c. Click on Send to transfer the modified file back to the ULTIMATE. d. Hyper Terminal will display a window showing the progress of the transfer.
15. When this is completed, a c:\> prompt will appear. To verify that the changes to the WATTCP.CFG file have occurred, type type wattcp.cfg. This will display the current IP address.
16. Set the dipswitches back to the desired panel address, and type coldboot. For example, C:\> “coldboot.” Return. The ULTIMATE will perform a warm boot and will return to its panel address.
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Direct Connecting with One ULTIMATE
The PC Host is connected to the ULTIMATE by means of a cable designed for LAN only.
Communicating with Multiple ULTIMATEs via LAN
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How to Build Your Own Serial Cable for RS-232 Connection
COM1 and COM2 are made of ten pins each. The top pins are the odd numbers of 1,3,5,7,and 9, read from right to left. The bottom pins are the even numbers 2,4,6,8, and 10, again read from right to left. The red stripe of the ribbon cable must always match up with the white mark, located under pin 1.
If you must configure the IP address of your ULTIMATE Micro using the third method, and you do not have the required ribbon cable and do not wish to purchase one, the following option is available to you: BUILD YOUR OWN.
The needed cable has only three wires, and is a “data only null modem” cable. Assuming that your host machine’s serial port is a 9 pin male (AT pinout) type, and that the 4C27 has its own serial adapter cable, the cable will have 10 pin female connectors at both ends and the following connections:
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How to Create a Crossover Ethernet Cable
The hardware requirements for networking LiNC-NET NT consist of the following:
1. 3Com 3C00 TPO Network Interface Card 2. Category 5 twisted-pair 10 base T Network cable, 4 pairs (Plenum or PVC) 3. 3Com Office Hub (For more than 2 LiNC-NET NT Stations)
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Step 6 - Status Lights and Dealing with Communication Errors
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Status Lights
The ULTIMATE circuit board has 15 LEDs. The status of the LED defines a certain activity or phase of ULTIMATE functions. Card processing and door sense status is indicated by the LEDs.
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Communication Errors
Message at the PC W h a t t o Do ULTIMATE is not responsive Verify the following: 1. The red DC Power Indicator LED (D2 and D3) is ON. 2. Verify that the ID number corresponds to the ULTIMATE at the PC. (Check settings of switches at SW1). 3. Check cabling of TCP/IP.
LED Fatal Error Display Codes (Please CALL your PCSC representative) E1 ROM error detected- Probable PCB failure. E2 RAM error detected- Probable PCB failure. E4 Packet addressing error- ULTIMATE failure E5 Packet queuing error- ULTIMATE failure. E7 Terminal number configuration error- Readdress the ULTIMATE ED Database invalid- RESET and configure the ULTIMATE address EE Stray jump- Probable ULTIMATE PCB failure. EF Execution of int vector- Probable ULTIMATE PCB failure.
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Error Codes
The seven-segment LEDs, D7 and D8, will indicate certain errors that can occur when processing cards. They also can communicate “fatal” errors that could occur. The following chart describes different error codes that are displayed by the seven-segment LEDs:
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LED Warning Error Display Codes Possible Problem What to Do C0 Card Error: Parity check fail Bad Card or dirty reader head Clean reader head & re-try C1 Card Error: LRC check failed Bad Card or dirty reader head Clean reader head & re-try C5 Card Error: data length mismatch Check for correct format type Verify that the correct reader technology is specified CC Card Error: data conversion Check for correct format type Verify that the correct reader technology is specified CE Card Error: end-code not found Bad card or dirty reader head Clean reader head & re-try CF Card Error: facility code The site code is invalid for thisLoad correct facility code or site check cards EC Hardware Configuration error The ULTIMATE is not In LiNC-NET for Windows, configured correctly select the MicroLPM Setup icon and the Hardware file-tab to verify that the extension adapters are selected for this ULTIMATE. Example #1: Error Code “CF”
Example #2: Error Code “C5”
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Door Inputs Ultimate 4 S16 P11 – 3,4 Control Counters and Sense Input Numbers for Output S17 P11 – 1,2 Control PCB S18 P12 – 3,4 S19 P17 – 1,2 Reader Detect S20 P13 – 3,4 S21 P13 – 1,2 S22 P15 – 3,4 S23 P15 – 1,2
Ultimate 8 S16 P3 – 3,4 S17 P3 – 1,2 S18 P9 – 3,4 S19 P9 – 1,2 S20 P5 – 3,4 S21 P5 – 1,2 S22 P7 – 3,4 S23 P7 – 1,2 S24 P11 – 3,4 S25 P11 – 1,2 S26 P17 – 3,4 S27 P17 – 1,2 S28 P13 – 3,4 S29 P13 – 1,2 S30 P15 – 3,4 S31 P15 – 1,2
Ultimate 12 S16 P3 – 3,4 S17 P3 – 1,2 S18 P9 – 3,4 S19 P9 – 1,2 S20 P5 – 3,4 S21 P5 – 1,2 S22 P7 – 3,4 S23 P7 – 1,2 S24 P11 – 3,4 S25 P11 – 1,2 S26 P17 – 3,4 S27 P17 – 1,2 S28 P13 – 3,4 S29 P13 – 1,2 S30 P15 – 3,4 S31 P15 – 1,2 S32 P11 – 3,4 Page 88 of 90 ULTIMATE Installation Manual 33-10035-001-GS33 P11 – 1,2 S34 P17 – 3,4 S35 P17 – 1,2 S36 P13 – 3,4 S37 P13 – 1,2 S38 P15 – 3,4 S39 P15 – 1,2
Sense Input Numbers on the Supervised Alarm Module (SAM 1)
8 Door P16P8 S2 Reader B 8 Door PP4 12 S3 Reader C 8 Door PP6 14 SS4 4 Reader D 8 Door P10 S5 Reader E 8 Door P 16 S 6 Reader F 8 Door P12 S 7 Reader G 8 Door P14 S8 Reader H 4 Door P10 S9 Reader I 4 Door P16 S10 Reader J 4 Door P12 S11 Reader K 4 Door P14 S12 Reader L
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Proper Setting of SAM 1 and SAM 2
Micro SAM / 1st SAM Board In a system 1st SAM PCB is used in: S40 P2, pin 1,2 pin 1,3 = Gnd. that Micro SAM - 4 S41 P2, pin 3,4 u s e s Micro SAM – 8 SAM 1 Micro SAM – 12 S42 P3, pin 1,2 as a Micro SAM – 4 S43 P3, pin 3,4 SAM 2 – 4 SAM 2 - 12 S44 P4, pin 1,2 S45 P4, pin 3,4 S46 P5, pin 1,2 S47 P5, pin 3,4 Micro SAM/ 2nd SAM Board ( P/N 03-10056-003) 2nd SAM PCB is used in: S48 P2, pin 1,2 pin 1,3 = Gnd. Micro SAM2 S49 P2 pin 3,4 Micro SAM2-8 S50 P3, pin 1,2 S51 P3, pin 3,4 S52 P4, pin 1,2 S53 P4, pin 3,4 S54 `P5, pin 1,2 S55 P5, pin 3,4 Ultimate ALM / OUT Sense inputs 56 through 71 are S56 P1, pin 7,8 pin 2,4,6,8= Grd. located on the ALM PCB (P/N S57 P1, pin 5,6 03-10032-101) in a Micro ALM and Micro ALM8. These same S58 P1, pin 3,4 inputs are also used in the S59 P1, pin 1,2 OUTPUT PCB (P/N 03-10032-004) in a MicroOUT, S60 P2, pin 5,6 MicroELV, MicroELV2, S61 P2, pin 5,6 MicroELV3 and MicroELV4. S62 P2, pin 3,4 S63 P2, pin1,2 S64 P3, pin 7,8 S65 P3, pin 5,6 S66 P3, pin 3,4 S67 P3,pin 1,2 S68 P4 pin 7,8 S69 P4, pin 5,6 S70 P4, pin 3,4 S71 P4, pin 1,2 Ultimate Point Definitions – Sense Inputs – Ultimate Board Ultimate/Designation Location Si3 Tamper P7, pin 1,2 S72 P6, pin 5,6 (Reserved) S73 P6, pin 3,4 (Reserved) Page 90S74 of 90 ULTIMATE InstallationP6, Manual pin 1,2 (Reserved) 33-10035-001-G
standalone, the W1 jumper must be set to LOW ( pins 2-3).
In a system that uses both SAM 1 and SAM 2 together, SAM 1 needs to be set to HIGH ( pins 1-2) and SAM 2 needs to be set to LOW ( pins 2-3).
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*Form C Dry Contact- Relay comprised of normally open (N.O.), normally closed (N.C.) and Common (Com) contacts which are available for connection. Contacts are rated at 2 Amps, 12/24 VDC continuous power.
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Point Definitions – Ultimate PCB
Ultimate 4 P10 S1 Reader A
Ultimate 8 P2 S1 Reader A
Ultimate 12 P2 S1 Reader A
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ULTIMATE Point Definitions - Sense Inputs – Ultimate Boards
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Appendix-ULTIMATE Specifications
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ULTIMATE FEATURES
One Tamper Sense Input (S13)-- Non Supervised Only Three User Defined Sense Inputs (S 72, 73, 74) Battery Backed Clock Calendar Battery Backed RAM (1 to 3 MB) LEDs for:Power, alarm, on-line diagnostics, error code, tamper detect (S13)
System Capacities Cardholder Capacity: Time Periods: 32 Holiday Time Periods: 32 Holiday LIst: 365 Days History Transactions: 4,000 regardless of memory size
Spare Parts-ULTIMATE PCB Part Number Description Designation 81-09005 3V Lithium Battery (no pins) BT1 78-01001 4A 250V ¼ X ¼, 3AG Fuse F1 83-02083 2-pin Plug Connector P7 83-02084 4-pin Plug Connector P2, P3, P4, P5 83-02085 3-pin Plug Connector P1 83-02007 Jump Connector For W1-W8
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Cable Requirements and Maximum Lengths
Communication- Type of Models Type of 22awg MaximumDistance Technology Stranded Wire
ULTIMATE All models 10 BaseT 328 ft. (100 meters) CAT5UTP w/o repeaters @ 10 MBPS
4-Wire Wiegand- Type of Models Type of 22awg Maximum Distance Max.Distance w/PIN Technology Pad ProTech BR-350 2-pair, twisted, w/ 2000 ft. 2000 ft. overall shield (192 m) (192 m) Magnetic Stripe BR-450 2-pair, twisted, w 2000 ft. 2000 ft. overall shield (192 m) (192 m)
5-Wire Wiegand- Type of Models Type of 22awg Maximum Distance Max Distance w/PIN Technology Stranded Wire Pad Bp-270
ProTech BR-370 3-pair, twisted, w/ 500 ft. 500 ft. overall (192 m) (192 m) shield Magnetic Stripe BR-470 3-pair, twisted, w/ 500 ft 500 ft overall shield (192 m) (192 m) Proximity All models 3-pair, twisted, w 500 ft. 500 ft. overall shield (192 m) (192 m) Biometric All models 3-pair, twisted, w/ 500 ft. 500 ft. overall shield (192 m) (192 m)
Bar Code All models 3-pair, twisted, w/ 500 ft. 500 ft. overall shield (192 m) (192 m) Vehicle ID VR-670 3-pair, twisted, w/ 500 ft. 500 ft. overall shield (192 m) (192 m)
2-pair twisted and shielded cable recommended brands are: Belden 8728 Olympic 3030 Alpha 2404 or 2212
3-pair twisted and shielded cable recommended brands are: Belden 8777 Alpha 6010C WPW D431
NOTE All data communications cables must reside in a separate electrical conduit. Absolutely NO high voltage or AC power cables allowed within data conduits.
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Controller Specifications
Microprocessor Industry standard 32 bit processor
LEDs and Dipswitches Ten discrete LEDs are provided which the microprocessor software can individually control. Eight general-purpose switches are provided for use by the microprocessor software, and are utilized for mode control, configuration setting, ID selection, etc. In addition, a Power ON LED and two “Reader Active” LEDs are provided.
Two Seven-Segment LED Display Error codes are displayed in Hexadecimal format. Refer to the error code section for listing of codes and their meanings.
Calendar/ Clock Battery protected.
Battery Back-up Requirements A 12 AH battery is recommended as a back-up to the power supply, because it is the largest battery that will fit in the enclosure. The battery should be connected to the power supply charger in accordance with the manufacturer’s instructions.
Factory Settings At the factory, the ULTIMATE is set at 197.168.5.41, Subnet Mask 255.255.255.0, 10 Meg/Sec TCP/IP protocol.
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4-Reader Expansion Board- Active LEDs
Four LEDs located at D61, D62, D67, D68 indicate the status of the Reader circuits. When the LED blinks momentarily after a card swipe, the system is processing the card data. The LED is normally off.
Reader LED Status:
• Reader C LED is D61 • Reader D LED is D62 • Reader E LED is D67 • Reader F LED is D68
Jumpers
Reader type is selected by the use of jumpers located in between the reader ports at W5 and W11-W14. Refer to each diagram of reader-types in Step 3 for the proper setting of these jumpers. Four other jumpers, located at W1, W2, W3, and W6, designate chip selection, and are set at the factory. They should not be changed unless directed by technical support.
The setting of the four jumpers at W5 (4W or 5W) determines how the jumpers next to each reader port is set. Also, when using a 5-wire, 12VDC reader, you can control the voltage at PIN 1, by moving the leftmost jumpers at W5 in conjunction with the reader port jumper setting
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4-Reader Expansion Board- Jumper Selections
There are five jumper units located on the 4-Reader expansion PCB circuit board. The settings are shown below.
• W1 at Pins 1 and 2 = PCB addressed to 30h • W1 at Pins 3 and 4 = PCB addressed to 50h • W2 and W3 at pins 1 and 2 = A/D is max 158 type • W2 and W3 at pins 2 and 3 = A/D is max 7828 type • W4 NOT USED ON 4-READER EXPANSION PCB
• W5 (for Readers c-f) -At pins 1 and 2, 4 and 5, 7 and 8, 10 and 11= Wiegand 5-Wire 5 volt card readers -At pins 2 and 3, 4 and 5, 7 and 8, 10 and 11= Wiegand 5-Wire 12 volt card readers -At pins 2 and 3, 5 and 6, 8 and 9, 11 and 12= PCSC 4-Wire 12 volt card readers • W6 – Reader T/O -At pins 1 and 2 = 32 ms (PCSC Factory Set. Do not modify) -At pins 2 and 3 = 64 ms • W11-W14 Reader Data Forma -At pins 1 and 2 = Wiegand 5-wire (Data 1s and Data 0’s) format -At pins 2 and 3= PCSC 4-wire (proprietary) format • SW1 Switch Settings (to configure PCB for doors 3-6) -Switch 2 = OFF -Switches 1,3,4,5,6,7,8 = ON = 4 Reader PCB
Page 101 of 90 ULTIMATE Installation Manual 33-10035-001-G
8-Reader Expansion Board- Active LEDs
Eight LEDs located at D49, D50, D55, D56, D61, D62, D67, D68 indicate the status of the Reader circuits. When the LED blinks momentarily after a card swipe, the system is processing the card data. The LED is normally off.
Reader LED Status:
• Reader C LED is D49 • Reader D LED is D50 • Reader E LED is D55 • Reader F LED is D56 • Reader G LED is D61 • Reader H LED is D62 • Reader I LED is D67 • Reader J LED is D68
Jumpers
Reader type is selected by the use of jumpers located in between the reader ports at W4-W5 and W7-W14. Refer to each diagram of reader-types in Step 3 for the proper setting of these jumpers. Four other jumpers, located at W1, W2, W3, and W6, designate chip selection, and are set at the factory. They should not be changed unless directed by technical support.
The setting of the jumpers at W4 and W5 (4W or 5W) determines how the jumpers next to each reader port is set. Also, when using a 5-wire, 12VDC reader, you can control the voltage at PIN 1, by moving the #3 jumpers at W4 and W5 in conjunction with the reader port jumper setting.
Page 102 of 90 ULTIMATE Installation Manual 33-10035-001-G
8-Reader Expansion Board - Jumper Selections
There are five jumper units located on the 8-Reader expansion PCB circuit board. The settings are shown below.
• W1 at Pins 1 and 2 = PCB addressed to 30h • W1 at Pins 3 and 4 = PCB addressed to 50h • W2 and W3 at pins 1 and 2 = A/D is max 158 type • W2 and W3 at pins 2 and 3 = A/D is max 7828 type
• W4 (for Readers c-f) -At pins 1 and 2, 4 and 5, 7 and 8, 10 and 11= Wiegand 5-Wire 5 volt card readers -At pins 2 and 3, 4 and 5, 7 and 8, 10 and 11= Wiegand 5-Wire 12 volt card readers -At pins 2 and 3, 5 and 6, 8 and 9, 11 and 12= PCSC 4-Wire 12 volt card readers • W5 (for Readers g-j) -At pins 1 and 2, 4 and 5, 7 and 8, 10 and 11= Wiegand 5-Wire 5 volt card readers -At pins 2 and 3, 4 and 5, 7 and 8, 11 and 12= Wiegand 5-Wire 12 volt card readers -At pins 2 and 3, 5 and 6, 8 and 9, 11 and 12= PCSC 4-Wire 12 volt card readers • W6 – Reader T/O -At pins 1 and 2 = 32 ms (PCSC Factory Set. Do not modify) -At pins 2 and 3 = 64 ms • W11-W14 Reader Data Format -At pins 1 and 2 = Wiegand 5-wire (Data 1’s and Data 0’s) format -At pins 2 and 3= PCSC 4-wire (proprietary) format • SW1 Switch Settings (to configure PCB for doors 3-6) -Switch 1 = OFF -Switches 2,3,4,5,6,7,8 = ON = 8 Reader PCB
Page 103 of 90 ULTIMATE Installation Manual 33-10035-001-G
End of Manual February 2002
Page 104 of 90 ULTIMATE Installation Manual 33-10035-001-G