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System 2 Installation / Programming Manual

PREFACE

This document is a complete reference manual for the Corby System 2 Access Control unit, expansion modules,

hardware, and software which are manufactured, designed, or distributed by Corby Industries, Inc., USA. It is

assumed that the user of this manual is expert in the installation of high security devices and has

professional knowledge in electronics and security related installations.

Corby Industries, Inc. USA reserves the right to make changes without notice in the products described in this

manual in order to improve design or performance. Corby assumes no responsibility for stenographic and/or clerical

errors or the suitability or unsuitability of Corby products used in combination with any electrical, electronic, or

mechanical system or subsystem.

CORBY INDUSTRIES, INC.

Corby has been supplying security professionals with quality security products since 1972 when we first introduced

the concept of a digital key to the security industry. Up to that time, everyone used a round metal key which is now

almost extinct thanks to the hundreds of thousands of "Corby Keys" installed everywhere around the world.

For over 25 years we have been a major supplier to alarm dealers and locksmiths around the world. Users of

Corby products include the FBI, Secret Service, and Department of Defense. Corby has hundreds of authorized

distributor locations in the USA and 17 foreign countries.

At Corby, our customer is the most important person in our business. We constantly strive to serve our customers

with quality and service which is second to none. At Corby, we always try to be the best!

PROPRIETARY NOTICE

The hardware and software described in this manual are proprietary products developed, owned, and distributed by

Corby Industries, Inc., Allentown, Pennsylvania, USA. The software is furnished to the user only under a license

for use on a single Computer System and may not be copied or reproduced in accordance with the terms of the

license and copyright laws.

form or by any electronic, mechanical, or other means, now known or hereafter invented, including xerography,

photocopying, and recording, and in any information storage and retrieval system is forbidden without the written

permission of the publisher.

This equipment has been tested and found to comply with the limits for a Class A digital device, pursuant to part 15

of the FCC Rules. These limits are designed to provide reasonable protection against harmful interference when

the equipment is operated in a commercial environment. This equipment generates, uses, and can radiate radio

frequency energy and, if not installed and used in accordance with the instruction manual, may cause harmful

interference to radio communications. Operation of this equipment in a residential area is likely to cause harmful

interference in which case the user will be required to correct the interference at his/her own expense.

Windows

is a registered trademark of Microsoft

Citizen

is a registered trademark of Citizen.

USRobotics

is a registered trademark of USRobotics

Version 5.1V REV F-H Printed: July, 1998

Part number: 2353 Printed in USA

Summary of content (336 pages)

PAGE 1
PREFACE This document is a complete reference manual for the Corby System 2 Access Control unit, expansion modules, hardware, and software which are manufactured, designed, or distributed by Corby Industries, Inc., USA. It is assumed that the user of this manual is expert in the installation of high security devices and has professional knowledge in electronics and security related installations. Corby Industries, Inc.
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NOTICE The following features were not investigated by UL: - Keypads - Networking - Computer Interface - Data Chip Readers - Line Extender Module - Programming Wand - Bar Code Readers - Serial Printer - Modems System 2 Installation / Programming Manual
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TABLE OF CONTENTS SECTION PAGE CHAPTER 1 SYSTEM OVERVIEW . . . . . . . . . . . Introduction . . . . . . . . . . . . . . . . . . . . . . . . . 48 Character Liquid Crystal Display . . . . . . . . . Programming Keypad . . . . . . . . . . . . . . . . . . RS232 Communications . . . . . . . . . . . . . . . . . Main Relays . . . . . . . . . . . . . . . . . . . . . . . . . Auxiliary Relays . . . . . . . . . . . . . . . . . . . . . . Voltage Outputs . . . . . . . . . . . . . . . . . . . . . .
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TABLE OF CONTENTS SECTION PAGE Door Locks . . . . . . . . . . . . . . . . . . . . . . . . . . . Door Ajar / Forced Entry / Time Cancel . . . . . . . Zone Inputs . . . . . . . . . . . . . . . . . . . . . . . . . . . Request-To-Exit Button (RTE) / Passive Infrared . Printer . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Video Display Terminal (VDT) . . . . . . . . . . . . . . Modems . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Personal Computer (PC) . . . . . . . . . . . . . . .
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TABLE OF CONTENTS SECTION PAGE Batch Enroll Users (Option #9) . . . . . . . . . . . . . . . . . . . . . . . . . Batch Enrolling Keypad Codes . . . . . . . . . . . . . . . . . . . . . . . . . . Batch Enrolling Wiegand, Proximity, Bar Code or Mag-Stripe Cards Batch Enrolling Data Chips . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Delete Users (Option #10) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Reports (Option #11) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
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TABLE OF CONTENTS SECTION PAGE APPENDIX A AVAILABLE USERS CHART . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . A-273 APPENDIX B LCD MESSAGES . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . B-275 APPENDIX C TERMINAL DESCRIPTIONS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . C-277 APPENDIX D GLOSSARY . . . . . . . . . . . . . . . . . . . . . . . . . .
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SYSTEM OVERVIEW CHAPTER 1 SYSTEM OVERVIEW Introduction System 2 is a complete two-door Access Control System which can be expanded into a 16 door System. User codes can be expanded to thousands of users for each System 2. We understand that not everyone needs thousands of users or 16 doors. That's why we make these upgrade features optional. We believe that you should only purchase exactly what you need... when you need it.
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SYSTEM OVERVIEW Outputs / Inputs A two-door System is equipped with two of the following outputs/inputs: Main Relays, Auxiliary Relays, Voltage Outputs, Door Ajar / Forced Entry Inputs, Request-To-Exit Inputs, Zone Inputs and one Emergency Drop Input. If you are installing a one door version, the outputs/inputs are reduced to one for each. System Monitoring The System 2 can be monitored, programmed and reports can be printed from an off-site location using dial-up phone modems.
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SYSTEM OVERVIEW Main Relays Each System 2 has two independently controlled SPDT "C" form heavy duty relays with contacts rated five amps at 30 volts DC. They are fully programmable and may be activated by Keypads, Cards, Request-To-Exit switches, time schedules, and/or using the "Override Outputs Option" from any programming location including off-site remote locations using modems. These relays can be programmed for a momentary time of 1 - 255 seconds or latching (on/off).
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SYSTEM OVERVIEW Zone Inputs The System 2 can monitor a “normally closed” or “closed circuit” switch or alarm contact mounted on a door to report a Zone Condition. Each System 2 has one input for each of the two doors. When the door is opened or closed, an event is generated, which can be used to activate any of the System’s Auxiliary outputs. Emergency Drop Input This input can be used to open the normally closed contacts on both main relays.
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SYSTEM OVERVIEW Electronic Serial Number Chip Each System has a unique Electronic Serial Number (ESN) contained in a chip that cannot be altered. The Unit ID Number and manufacture date are programmed into a one-time programmable memory device which cannot be changed. This information may be displayed in Option #11 or #13 and is used for warranty service.
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SYSTEM OVERVIEW (Page intentionally left blank) 1-6 System 2 Installation / Programming Manual
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QUICKSTART CHAPTER 2 QUICKSTART Bench Test U Power up. Connect supplied transformer to Terminals #2 and #3. Then connect supplied battery to H1, see Figure 8. The AC LED should be on solid and the ACTIVITY LED should be flashing. The +5V, +6V, +12V, and CTS LEDs should be on solid. See Figure 5 for LED locations. The LCD should be prompting you to clear memory now. U Enter default initialization setup: Clear memory - Press ## on the programing keypad. The Required Events prompt will display on the LCD.
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QUICKSTART Activate Premium Options U If premium options have been purchased, each option must be activated before they can be tested. Each premium option has its own unique Upgrade Key. Locate instruction sheet with a list of the premium options purchased. If any options were purchased after the unit shipped from the factory, you must call Corby for the Upgrade Keys to unlock any or all features. U Activating a premium option: Enter program mode - Press x12345# on the program keypad.
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QUICKSTART Keypad Test U Connect the keypad using a short cable. Connect up both ports for a two door System 2. Figure 14 shows the connections for a keypad. U The door lock could also be connected at this point. Figures 25-26 show the connections for door locks. If System 2 is a two door unit two door locks can be installed. U Enter a test code: Enter program mode by entering x12345# on the program keypad. The main menu should come up. Enter Option #8 Add or Change User. Press 8#.
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QUICKSTART Card Reader Test U Connect the reader using a short cable. Connect up both ports for a two door System 2. Figures 15- 24 show the connections for the readers. U The door lock could also be connected at this point. Figures 25-26 show the connections for door locks. If System 2 is a two door unit two door locks can be installed. U Enter a test Card: Enter program mode by entering x12345# on the program keypad. The main menu should come up. Enter Option #4 select card type - Press 4#.
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QUICKSTART Printer/VDT Test U If a printer, VDT, or PC available you can test them. U Printer test. Connect a serial printer as shown in Figure 9. The CTS LED should go out. Enter program mode - Press x12345# on the programing keypad. The main menu should print. Go back on line - Press #. The On line events should print. Printer test finished. NOTE - Everything displayed on LCD should be printed and the TXD should flash when the data is sent to the printer. U VDT Test.
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QUICKSTART If There is a Problem If there is a problem with the board powering up, take the voltage measurements found in Figure 5. If there is a problem with the programing read Chapter 8 or Chapter 9 “Programing” and try again. If Everything tests OK If the System 2 is OK then you need to decide when and where you are going to program the System 2. If possible, programing it on the bench is easier. The System 2 has a Lithium battery for backing up user memory.
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QUICKSTART Quick Installation U Remove all power from the unit. AC and standby battery. U Run the wire. You'll need cables for the Reader or Keypad and Door Ajar switch, and a separate two conductor for the door lock. Don't forget a pair for the AC power transformer, one for the door lock power supply, and a wire going to a cold water pipe or electrical box for grounding. U Mount the Keypad, Card Reader or Data Chip Reader. Keypads should be mounted at eye level.
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QUICKSTART (Page intentionally left blank) 2-14 System 2 Installation / Programming Manual
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VERSIONS & UPGRADES CHAPTER 3 VERSIONS & UPGRADES Versions System 2 is available in two different versions. These versions may vary in the amount of doors supported, users supported and installed options. All of these features can be added later if you wish to upgrade your System. Below are the versions and available upgrades from Corby.
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VERSIONS & UPGRADES (Page intentionally left blank) 3-16 System 2 Installation / Programming Manual
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OPTIONAL EQUIPMENT CHAPTER 4 OPTIONAL EQUIPMENT Programming Wand To assist you while entering Data Chips we highly recommend you purchase a programming wand (p/n 2018). This wand plugs into Socket 6 (SCKT6) in the upper right hand side of the circuit board. If you do not wish to purchase this wand you can program Data Chips using the touch point (TP1) located to the right of SCKT6.
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OPTIONAL EQUIPMENT Modems Modems can be used with a Video Display Terminal (VDT) or PC to call a System 2 at a remote location. Two modems are required, one at the System 2 site and one at the VDT or PC site. You can dial a remote System 2 and make programming changes, monitor the System, or preform a back-up/restore function. Note: In order to perform a backup/restore function you need a PC.
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OPTIONAL EQUIPMENT Video Display Terminal / Personal Computer System 2 has a built in, 9600 baud serial port that may be used for an optional ANSI Video Display Terminal (VDT) or Personal Computer (PC). If connected, a printer can provide a hard copy of events. The VDT or PC can be used for local or remote programming. The serial port will handle only one RS232 device at a time, either a PC/VDT or a printer, not both at the same time.
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OPTIONAL EQUIPMENT (Page intentionally left blank) 4-20 System 2 Installation / Programming Manual
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INSTALLATION CHAPTER 5 INSTALLATION PLAN THE JOB UNDERSTAND THE EQUIPMENT READ THE MANUAL This short section is included in this manual to aid you in analyzing the job requirements to ensure that the System will perform to specifications and that the job will be completed successfully. Mounting the System 2 Control Cabinet The cabinet must be mounted in a dry secure area. It contains all the electronic circuits which control the Keypad, Card Reader, Data Chip and locking mechanism. It is not waterproof.
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INSTALLATION Earth Ground This is very important because the System 2 must be protected from voltage transients, static, and lightning discharges for proper operation and long life. The ground connection should be made to a proper ground as defined by the National Electrical Code. Refer to the Shield and Grounding Layout. (Figure 6). CAUTION: The section of shield which is exposed, after stripping the cable, must be insulated to protect it from shorting out any components of the circuit board.
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INSTALLATION Transformer and Battery Transformer The main power source for System 2 is a UL listed transformer. Primary 120V, 60hz, .48A / Secondary 16.5VAC, 40 VA. If the 16.5VAC output terminals are shorted, the internal fuse will open and the transformer will be useless. It should be noted that the fuse is impossible to repair. Attempting to repair it is dangerous and also voids the UL Listing! The transformer measures 2.75" x 2.625" x 3.875" (69.8 mm x 66.6 mm x 98.4 mm).
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INSTALLATION External Back-up Power If you are using an external 12 volt back-up power supply that has its own back-up battery and charging circuit, and do not wish to use the supplied 4 amp hr. back-up battery, follow the instructions below. This modification will disconnect the charging circuit of the System 2.
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INSTALLATION Wiring Surge Protection The wire between the transformer and the System 2 should be two conductor, stranded or solid, low voltage wire of at least 18 AWG. Using a one nanosecond surge protection device installed at the 120VAC outlet, the wire between the 16.5VAC transformer and the System must be at least ten feet long. The reason is: high voltage transients travel about one foot per nanosecond.
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INSTALLATION Keypads Overview Keypads are designed to be flush or surface mounted on a wall about 60 inches above the floor level. They have factory installed LEDS to provide the end user with visual feedback of the door/relay status. If the Keypad is an outdoor version and will be mounted in a humid location, protect the wire terminals from corrosion by applying a light coat of silicone grease or other protective caulk to the terminals.
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INSTALLATION Keypad Styles Choose one of seven Corby Keypads. Indoor Keypads: 4020 - flush mount, with one green and one red LED. 4014 - surface mount hidden view, with one green and one red LED. Outdoor Keypads: 4012 - flush mount, aluminum housing, green and red LED and a night light. 4064 - surface mount, heavy duty, mounted in a lock box, green and red LED. 4066 - flush mount, heavy duty for high usage, green and red LED. Keypad Wire Runs Keypads may be 1000 feet from the System 2.
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INSTALLATION Keypad Connections Connections from the wiring harness to the System 2 terminal strip: Yellow to #18 Green to #19 White to #20 Your Color: Blue to #21 Black to #22 Terminal #: #18 #19 #20 #21 #22 #1 LED Connections: Green LED Red LED 5-28 Red to #29 Red to #29 Yellow to #30. Yellow to #31.
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INSTALLATION Readers Overview Readers are designed to be flush mounted or surface mounted on a wall depending on the type used. They have factory installed LEDS to provide the end user with visual feedback of the door/relay status. Mount the Reader in a vertical or horizontal position. If the Reader is an outdoor version and will be mounted in a humid location, protect the wire terminals from corrosion by applying a light coat of silicone grease or other protective caulk to the terminals.
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INSTALLATION Grounding Readers The foil shield of the cable running to all Readers should only be connected to Terminal #1 of the System, which must be an earth ground. Bar Code Readers have an earth ground wire on the supplied cable. Attach this to the foil shield drain wire of the multiconductor cable. (Refer to Figure 15). Data Chip Readers mounted on a metal plate (4302-4305), Magnetic Stripe and Wiegand Readers do not need to be grounded at the reader.
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INSTALLATION Bar Code Readers Overview Corby Bar Code Readers will only work with Bar Code Cards that use CODE 39 symbology. The reader will process the first ten digits as the user code. The first five digits must be 00000. The second set of digits (five) is the user code which can be 00000 to 99999. Corby cards 4151 are programmed with the above specifications. This is an infrared reader. It is possible to read Cards that have an opaque polyester film covering the Bar Code.
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INSTALLATION Bar Code Reader & LED Connections All wire connections are made from the wiring harness to the System 2 terminal strip.
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INSTALLATION Data Chip Readers Overview Data Chips contain an internal electronic memory chip which is bonded inside a stainless canister. When both the top and side of the chip canister make contact with the reader, the Data Chip is powered and a communication path is established. The chip's information is then read and transmitted to the Access Control System. The shape of the Data Chip and reader allows the chip to be read at virtually any alignment.
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INSTALLATION Data Chip Reader Wire Runs These Readers require five wires with shield. Data Chip Readers are limited to 250 feet from the System 2. It must be multiconductor (not twisted pairs) 22 gauge and MUST be shielded. If you are using eight conductor cable, Corby LEDS and RTE switches may use the extra wires. If you wish to exceed the 250 feet distance, a separate two-conductor twisted-pair wire must be used for the Data (grey) and the Ground (black) wires on the Data Chip Reader.
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INSTALLATION Magnetic Stripe Card Readers Overview Corby Mag-Stripe Readers are available in indoor and outdoor versions. The reader is equipped with a wire harness for all connections. Magnetic Stripe readers read data on ABA track II. Magnetic Stripe Reader Styles The Magnetic Stripe reader measures 1.95” wide by 5.5” in length. They are surface mountable and protrude 1.30” from the mounting surface. The Magnetic Stripe Reader is available in two versions.
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INSTALLATION Magnetic Stripe Reader & LED Connections Indoor Magnetic Stripe Reader & LED Connections from the wiring harness: Brown to #22 Green to #23 Yellow to #24 Red to #28 LED Connections: Green of LED to #28 Yellow of LED to #30 Outdoor Magnetic Stripe Reader & LED Connections from the wiring harness: Blk to #22 Grn to #23 White to #24 Red to #28 Orng & Brwn to #30 The Orange Wire is for the optional buzzer. It does not need to be connected.
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INSTALLATION Proximity Readers Overview Corby Proximity Cards are read when they are brought within reading distance of a Card Reader, typically 3”36” depending upon the style of the reader. It is not necessary for the Card to have physical contact with the Card Reader for a read to occur. Corby Proximity Readers are available in a variety of indoor and outdoor versions.
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INSTALLATION Motorola/Indala Proximity Card Readers: 4177 - Indoor/Outdoor Wiegand Style, black up to 4" read range 4178 - Indoor/Outdoor door frame mullion size, black, 3-4" read range 4179 - Indoor switchplate size, beige, 4-5" read range HID Proximity Readers 4173 - Indoor/Outdoor, Extended range, 10" - 27" read range 4174 - Indoor/Outdoor, 5" X 5", 1" - 9" read range 4175 - Indoor/Outdoor, Thinline 5" X 5", 2" - 4" read range 4176 - Mini Prox, mullion, 2" - 5" read range Proximity Cards Corby Access
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INSTALLATION So you can keep track of your color codes used in this installation, write in the color match below Motorola/Indala Harness Color: Your Color: Terminal #: Black #22 Green #23 White #24 Red #29 Brown #30 Blue #30 HID MiniProx Harness Color: Your Color: HID Proximity Harness Color: Terminal # Your Color: Term # Black #22 Black #22 Green #23 Green #23 White #24 White #24 Red #28 Red #29 Orange #30 Orange #30 Yellow HID MaxiProx Harness Color: #30 Your Col
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INSTALLATION Wiegand Readers Overview All wire connections are made using the screw terminal located on the back of the reader. Readers can be installed up to 500 feet from the Access System. Wiegand Readers normally supplied for the System are swipe-style, and are designed to be surface mounted. A swipe style reader has an open slot in the unit where the Card is passed through sideways from right to left in a rapid fashion. Mount the Reader in a vertical or horizontal position.
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INSTALLATION Wiegand Reader & LED Connections from the Reader to the System 2: ( Figure 24).
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INSTALLATION Door Locks Direct Current (DC) door strikes or DC magnetic door holding devices (mag locks) require a diode be installed across the door lock coil. A 1N4001 diode or equivalent is wired at the door lock, parallel to the coil with the striped end (cathode) to the positive side of the coil. Door Strike Overview The Corby 12VDC Door Strike (p/n 4253) is made for commercial or residential retrofit, and can be used with wood or steel frame doors.
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INSTALLATION Door Ajar / Forced Entry / Time Cancel Door Ajar & Forced Entry Door Ajar & Forced Entry require a switch that is a "closed circuit" when the door is closed. When the door opens, the switch contacts open. Shielded two conductor cable is required. This connection can be made utilizing the same cable as the Card Reader or Keypad provided that the eight conductor shielded cable is used. Refer to Figures 14 - 24.
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INSTALLATION Request-To-Exit Button (RTE) / Passive Infrared With the addition of a Normally Open “button” or Passive Infrared device, the door relays can be activated to release the door locks. The RTE must have a set of normally open contacts that close a circuit when activated. It is also recommended to break power to the electromagnetic door lock (Mag-Lock) with a separate set of contacts in the RTE switch.
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INSTALLATION Heavy-Duty RTE Button (p/n 4035) Use the following wire connections. Normal Operation: Green Set of Contacts (3 & 4) to #22 & #27 Lamp to #22 & #29 Green LED to #28 & 30 Fail Safe: Red Set of Contacts (1 & 2) to #34 and Positive side of Magnetic Lock coil Lamp to #22 & #29 Green LED to #28 & 30 Light-Duty RTE Button (p/n 4135) Use the following wire connections.
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INSTALLATION Printer Corby’s optional security printer (p/n 4007) is UL listed, requires 110/120VAC, 60hz at 0.7A, and requires a three prong grounded outlet. Cord length is five feet. Serial data to the printer is via RS232 data link. When combined with a Video Display Terminal or PC, install the printer next to the VDT terminal with the supplied data cable. The printer is factory set at 9600 baud. You may use another make or model printer provided it conforms to the following specifications: 1. 2. 3. 4.
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INSTALLATION Printer Baud Rate and Dip Switch Settings The System 2 outputs serial data at 9600 Baud with 8 data bits, 1 stop bit, and no parity. To set the switches for the printer turn OFF the AC power to the printer and remove the switch cover located above the serial connector. Only position 4 should be in the ON position. All other positions must be in the OFF position for proper operation. Refer to the Citizen user's manual for additional information.
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INSTALLATION Video Display Terminal (VDT) (p/n #4100) Unpack and inspect the terminal shipping box. Included are a terminal, a keyboard with coiled cable, a power cord, and a VDT Users Guide. The VDT is UL listed, requires 120VAC, 50/60 hz at 0.7A and requires a three prong grounding outlet. It is supplied with a five foot power cord. Serial data is sent to and received from the terminal via a RS232 data link which requires a five conductor shielded cable. It may be located up to 100 ft. from the System 2.
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INSTALLATION Modems Phone Modems Dial-up telephone modems can be used for remote programming. One modem is needed at the System 2 location and one at the VDT location. You will need to use a dedicated telephone line with dial tone for access to the System. For proper wiring of modems refer to Figure 11 and Figure 12. To setup your modem refer to Chapter 10. Short-Haul Modems Short-Haul Modems may be used to extend the distance from the System 2 to a VDT. If the VDT is located more than 100 ft.
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INSTALLATION Personal Computer (PC) Serial data is sent to and received from a PC via a RS232 data link which requires a five conductor shielded cable. It may be located up to 100 ft. from the System 2 . Connection to the System 2 are made using the onboard 9-pin male connector (P1). The baud rate is factory set at 9600 and it may be changed. The number of data bits is 8, there is one stop bit and no parity. The PC must emulate a VT-100 (ANSI) terminal.
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SYSTEM OPERATION CHAPTER 6 SYSTEM OPERATION Programming Functions Programming is done through the Keypad and LCD, Video Display Terminal (Corby Part #4100), or Personal Computer, and menus. Each component is discussed in detail in Chapter 5. User Functions Users can gain access through a Keypad, Bar Code, Data Chip, Magnetic Stripe, Proximity or Wiegand Card Reader. Five possible results can occur when a user enters a code or card.
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SYSTEM OPERATION Door Functions Time Cancel When the door is closed before the allotted time, any remaining programmed door release time will be canceled. This prevents unauthorized "follow throughs". Door Ajar After a valid entry or exit, if the door is held open five seconds beyond the programmed door release time, an event is generated and a “Door Ajar” message will appear on the LCD: Door Ajar 1 hh:mm mm/dd. (This example shows the Door Ajar on port one).
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SYSTEM OPERATION User Numbers System 2 uses of two sets of numbers to organize its data. One is the user number, the other is the code number. When programming users, the System first requests a user number of four digits, it will later request the code or Card Number. When a code is deleted from the System its user number becomes available to be used again. User numbers, not the card or keypad number, are displayed when a valid code is used at the Keypad or Reader.
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SYSTEM OPERATION User Time Schedule Example A time schedule granting access from 08:30 AM to 5:30 PM Monday through Friday is shown below: (use military time). Remember two time cells are necessary (a START time cell and an END time cell). SCHEDULE #1 CELL 1 DAYS OF WEEK M T W T F S S CELL 2 08:30 DAYS OF WEEK M T W T F S S 17:30 In addition to their “normal workday” hours. You may wish to restrict access of these individuals on certain holidays.
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SYSTEM OPERATION Relays & Time Schedules Auto relay activation is a very powerful security management tool that can lock/unlock a door or gate, arm/disarm an alarm system, or control energy management systems without any user involvement. The System 2 can automatically activate the Door Relay(s). The start time for a schedule refers to the time of day when the Relay automatically activates. End time for a schedule refers to the time of day when the Relay automatically deactivates.
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SYSTEM OPERATION Schedules that Cross Midnight If a time schedule is required to cross the midnight hour, the schedule will appear slightly different than a normal one. A good example is the 11:00 PM to 7:00 AM shift. This time schedule could apply to a group of users, the relays or any of the available outputs.
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SYSTEM OPERATION User LED Operation Reader and Keypad LED outputs provide the user with feedback of System functions at the door location. These LEDs are linked to the Main door relays only. The Green LED will go on solid for the programmed relay time whenever a valid user presents a card. It will flash four times for an invalid card and two times for an error in reading a card. A card error could be caused by incorrect wiring or an incorrect swipe.
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SYSTEM OPERATION (Page intentionally left blank) 6-58 System 2 Installation / Programming Manual
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NETWORKING CHAPTER 7 NETWORKING Introduction Networking allows multiple System 2's to be linked together into one System. This option permits eight System 2 units, at two doors each, to be linked into a sixteen door System. Any System 2 in the network can be designated as the “Master” with the remaining seven units designated as “Slaves”. Once each unit is set up as a master or slave, all programming is done at the master and the programmed information is then transferred to each slave.
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NETWORKING RS485 Wiring Attach the two wires from the RS485 line to Terminals #14 & #15. Be sure the polarity is observed from the Master board to any Slaves (additional System 2's ) attached to the network. For example, most twisted pair cables have a copper conductor and a tin plated conductor. Attach the tin conductor to Teminal #14 and the copper conductor to Terminal #15.
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NETWORKING Buffer Size The master and slave have adjustable event buffers to store system events. Examples of system events are: Valid users, Invalid users, RTEs, Door Ajars, System resets, etc. Processing valid users takes the most time and this is what determines the following specifications. As events occur, they are sorted by time and date and placed in the event buffer. When the event buffer fills up, the oldest event is overwritten to make room for the new event.
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NETWORKING Network Speed and Processing Time The master polls a slave once a second so that it has time to process its own events. For this reason, a master should be assigned doors with the least amount of traffic. This will allow the master to keep up with its network duties and respond quickly to its own door events. When a master gets bogged down processing its own events, it reduces the number of polls it can do. Normally, in a no load condition, the master polls the network sixty times a minute.
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NETWORKING Trouble Shooting If you are experiencing problems with the RS485 buss, follow the sequence of testing procedures below to verify there is communications between all units on the System. RS485 Line Continuity and Impedance Test U Remove all the units from the RS485 communication line. U Attach an ohm meter between each wire of the RS485 communications line. U The reading should be approximately 60 ohms.
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NETWORKING Testing Additional Units Additional units can now be tested for transmission ability. Refer to RS485 Transmission Test. Once a unit passes the Transmission Test, it can be wired back into the RS485 buss. Now it must be checked using the Reception Test - see above. Continue to test and add additional units (one at a time) onto the RS485 buss.
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LCD PROGRAMMING INTRODUCTION CHAPTER 8 PROGRAMMING USING THE LCD Introduction The System 2 user interface hardware consists of a 24 character by two line LCD display and a 12 button Keypad. When in program mode, instructions and prompts are displayed on the LCD and user responses are entered on the Keypad. Some basic features of program mode are: Line 1 of the LCD scrolls instructions about the current option. Line 2 of the LCD prompts the user for input.
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LCD PROGRAMMING INTRODUCTION Accessing the System Most users will never program the System, but all users will use the System to enter the protected area. In general, the user will be identified by either a Reader a Keypad or both. In the case of a reader, the user simply presents the card by, depending on the type of reader, swiping, inserting, touching or simply holding it near the reader. In the case of a Keypad, the user enters a code followed the # key.
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LCD PROGRAMMING POWER-UP MESSAGES Power-up Messages WARNING ! ! ! Clear Now? [ 1 ] þþ Scrolling Options: Memory Corrupt! 1=Clear Now 2=Clear Later If this is the first time you are powering the unit press 1 to clear memory and initialize system settings to their default values. If the unit has been up and running, and the LCD says that memory is corrupt, you must clear memory - at least eventually. This situation may occur as a result of a large power surge or a poor ground.
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LCD PROGRAMMING POWER-UP MESSAGES Required Events We recommend a history Storage Buffer of at least 100 events - you may choose more or less. If you choose more, the amount cannot exceed 315 events, unless additional RAM has been installed and activated. The more events you choose, the fewer users your system can support. On average, for each additional 3 events (over and above the default 100), you will give up memory space for about 1 user. See Appendix A for complete details.
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LCD PROGRAMMING POWER-UP MESSAGES Networking Networking is the name given to the use of multiple System 2‘s linked together as one System. This version of System 2 will support up to eight System 2 units for a total of 16 doors. More users can be stored in memory if you do not use networking. This is because each unit must set aside more memory for network operations, thus reducing the memory available for users. Enter 1 (YES) at the prompt to allow a unit to be networkable (as either a master or slave).
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LCD PROGRAMMING POWER-UP MESSAGES Entering Program Mode To enter into all of the program options press x . While the System 2 is in run mode, the System’s LCD will display the most recent event. To begin programming at this point, enter the five digit Secret Number on the programming Keypad followed by pressing # (enter). The LCD will scroll the following: Electronic Serial # is þþ Enter Secret# - > [_ _ _ _ _] Scrolling Options: 09 cc 1d 00 00 00 00 be Manufacture Date is: 07/29/98 Version 5.
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LCD PROGRAMMING MAIN MENU Main Menu Enter the various programming menu options from the list below.
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LCD PROGRAMMING - TIME & DATE Time and Date (Option #1) This option has two parts. You will be prompted to set the time and date. Setting the Time The LCD will scroll the following instructions: Use Military hh:mm Enter Time [00:00] At the Enter Time [00:00] prompt enter the four-digit military time, then press # (enter). Don't worry about the colon characters, the cursor will “jump over” them.
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LCD PROGRAMMING - DAYLIGHT SAVINGS TIME Daylight Savings Time (Option #2) If the Daylight Savings Time feature is activated, the System clock automatically adjusts at the appropriate times. Use caution! When you use this function it "time stamps" itself for the year you use it. If you use it or test it in 1999, it will not work again in 1999 unless the "time stamp" is reset to a different year.
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LCD PROGRAMMING - TIME SCHEDULES Programming Time Schedules (Option #3) Before we talk about programming schedules, we need to understand just what schedules are and how they work. If a schedule is assigned to a user, the schedule dictates when that user can access a door. For example, you may want to limit the office staff to entering the front door from 8:00 AM through 5:00 PM.
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LCD PROGRAMMING - TIME SCHEDULES Time Schedule Example Suppose you want your clerical staff to have access to the front door Monday through Friday from 8:00 AM to 6:00 PM. What about holidays? Well, you want them to be locked out on Christmas Day and New Year's Day. Let's break this apart one step at a time: Time cell 1 will take care of when to grant access on the normal days. Time cell 2 will take care of when to restrict access on the normal days.
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LCD PROGRAMMING - TIME SCHEDULES Now for a final note. What would this have looked like if, instead of granting or denying access to users, we had instead wanted to unlock and lock a door? The beauty of this schedule system is that we would simply have assigned the same schedule to a door instead of a user. In this case, the door would have unlocked at 08:00 and locked at 18:00 Monday through Friday, and would have remained locked on Christmas and New Year's Day.
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LCD PROGRAMMING - TIME SCHEDULES Day-of-Week or Holiday Date Now that you've selected the time cell, its time to program the DAY / HOLIDAY DATE BOX. The LCD will scroll the following instructions: This Schedule = 01 Enter Days [ - - - - - - - - ] þþ Scrolling Options: This Cell = 01 1=Mon, 2=Tue, etc 8=Holiday At the Enter Days [- - - - - - - -] prompt, you can do one of two things. You can select a day or days of the week, or you can select a holiday date.
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LCD PROGRAMMING - TIME SCHEDULES Changing a Cell If you wish to change a “Holiday Cell” to a “Day of the Week Cell” you will see the following prompt: 1=Yes, 2=No Change to Days? [ 2 ] At the Change to Days? [ 2 ] prompt, choose 1 to re-assign this cell to any Day(s) of the Week. Trigger Time With the DAY / HOLIDAY DATE BOX programmed, the second part of specifying when you want something to happen is programming the TIME BOX.
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LCD PROGRAMMING - TIME SCHEDULES Trigger State We're almost there! By programming the DAY / HOLIDAY DATE BOX and the TIME BOX, you've specified when something should happen. Now, its time to specify what should happen. The LCD will scroll the instructions: This Schedule = 01 Trigger State [ 2 ] þþ Scrolling Options: This Cell = 01 1=On, 2=Off At the Trigger State [ 2 ] prompt, pick one.
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LCD PROGRAMMING - SELECT CARD TYPE Select Card Type (Option #4) System 2 can accept five different reader technologies: Data Chip, Mag-Stripe, Bar Code, Wiegand or Proximity. This is where you specify which input device you are using. Note, that if you choose Option #5 (16 Digit Mag, Bar Code) your standard reader will accept 16 digit cards. In the case of a magnetic stripe reader, it will accept any standard bank card or credit card. You do not need to enter this option if you are only using Keypads.
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LCD PROGRAMMING - PORT CONFIGURATION Port Configuration (Option #5) The System 2 has two Ports. Each Port consists of the following: “C Form” relay for door control Keypad input Reader input (Data Chip, Mag-Stripe, Wiegand, Proximity, or Bar Code) Request-To-Exit (RTE) input Door Ajar / Forced Entry input Zone Input In this option you can program how long the door relay will activate in response to a valid code entry, and which schedule, if any, will automatically activate the door relay.
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LCD PROGRAMMING - PORT CONFIGURATION Selecting the Port to Program The LCD will scroll the following instructions: Use 01 thru 16 Enter Port # [ 0 ] þþ Scrolling Options: 0=Quit At the Enter Port # [ 0 ] prompt, enter the Port you want to work on and # (enter). Note: If you have set-up the System for Networking, the number of ports available is 16.
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LCD PROGRAMMING - PORT CONFIGURATION There are a couple different scenarios you may want to consider: - If you are going to use a Keypad exclusively at this door, select 1. - If you are going to use a Card Reader exclusively at this door, select 2. - If you are going to use a Keypad and Card Reader at this location, select 3. - If you are going to use either a Keypad or Card Reader at this location, select 4.
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LCD PROGRAMMING - PORT CONFIGURATION Automatic Port Operation Assigning a schedule to a Port means that the Port's door relay will be automatically activated at the times specified by that schedule. At this point, the LCD will scroll the instructions: Use 0 thru 8 Port Schedule [ _ 0 ] þþ Scrolling Options: 0=No Schedule Note: If you have a two-door System 2 (2016) , the amount of schedules available is 16. At the Port Schedule [_0] prompt, enter your selection followed by # (enter).
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LCD PROGRAMMING - PORT CONFIGURATION Selecting Any Card/Chip Mode In this mode, any Corby Cards or Data Chips will activate any of the doors, regardless if the card or chip is programmed into the unit. All someone needs is a Corby card or data chip and the door can be accessed. This should only be used in minimal security applications where security is not strictly enforced. In other words, this can be classified as an unlimited users mode.
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LCD PROGRAMMING - AUXILIARY OUTPUTS Program Aux Outputs (Option #6) A two-door System 2 provides four general-purpose auxiliary outputs. Two of these outputs are C Form Auxiliary Relays, and two are voltage outputs. The Voltage Outputs are open-collector transistors. This means that, when activated, the transistors create a “short” between their terminal connection and System negative. The maximum current that can pass through the Voltage Output’s transistors is 50mA.
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LCD PROGRAMMING - AUXILIARY OUTPUTS Momentary Time If you chose momentary, the LCD will scroll the instructions: Enter 1 thru 255 Seconds Momentary Time [ _ _ 2] At the Momentary Time [ _ _ 2] prompt, enter your selection followed by # (enter). You do not need to enter three digits here. A two is all that is needed to program this Port / Door for two seconds. Trigger Event As we mentioned above, an output can be triggered by a System event.
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LCD PROGRAMMING - AUXILIARY OUTPUTS As discussed above, various system events can be assigned to operate auxiliary outputs. Some events will trigger outputs only locally on the unit on which they occur, while other events will trigger outputs both on the unit they occur and on the master as well. Bear in mind, however, that the unit on which an event occurs and the master may be one in the same unit (i.e., it happened on the master and not on a slave).
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LCD PROGRAMMING - AUXILIARY OUTPUTS Automatic Output Operation This is the point at which you may assign a schedule to the output... provided you have installed a two-door System 2 (2016). The LCD will scroll the instructions: Use 0 thru 8 Port Schedule [ _ 0 ] þþ Scrolling Options: 0=No Schedule Note: If you have a two-door System 2 (2016) , the amount of schedules available is 16. At the Port Schedule [ _ 0 ] prompt, enter your selection followed by # (enter).
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LCD PROGRAMMING - ANTI-PASSBACK Anti-Passback (Option #7) You must have the Second Door option activated to activate this feature. If the LCD scrolls: Option Not Active! Install in Option 13 Press Any Key, go to Option 13 and follow the instructions to activate the Second Door. Before we look at how to program Anti-Passback, we'll discuss what it is. Anti-Passback requires that a user must enter via Port 1 and exit through Port 2.
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LCD PROGRAMMING - ADD/CHANGE KEYPAD CODES Add or Change User (Option #8) You must first Select Card Type (Option #4) - if using cards, and Port Configuration (Option #5) before adding or changing any users. Why? Well the System default is for a Keypad Only, a momentary time of five seconds, and no time schedule. If you are using Readers, the System will not request your Card Number. Instead it will request your code number.
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LCD PROGRAMMING - ADD/CHANGE KEYPAD CODES User Numbers The first thing to do is enter a u s e r number, not the code number. The user number uniquely identifies a user and can be thought of as an employee number. In fact, many installers use a company’s existing employee numbers as user numbers. When the user enters a code, and this event is printed or displayed on the LCD, it is not the code number that is displayed to identify the user but the user number.
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LCD PROGRAMMING - ADD/CHANGE KEYPAD CODES The LCD will scroll the instructions: 01 03 þþ Enter Door (0=Done) [ _ _ ] Scrolling Options: Enter Door # To Grant Access Reenter Door # To Deny Access The first line of the LCD will display the door(s) this user is allowed to access. At the Enter Door (0=Done) [ _ _ ] prompt, enter the next door this user is allowed to access. When you are finished press 0 and # (enter).
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LCD PROGRAMMING - ADD/CHANGE KEYPAD CODES User Codes If, and only if, you have selected keypads as your input device (back in options 4 and 5), you will be prompted to enter a Keypad code of nine digits or less. User can have varying code lengths. One user can have a five digit code, another a six digit code, and yet another a three digit code. The System ignores any leading zeros. In other words, you cannot program a code of 02306.
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LCD PROGRAMMING - ADD/CHANGE KEYPAD CODES Additional Outputs When a valid code is entered, the door relay for that Port will, by default, be activated. In addition to this activation of the door relay, you might want other outputs to be activated as well to, for example, sound an alarm, trip a dialer, or send some other signal. There are four such outputs from which to choose. The Program Aux Outputs section of this manual details the physical properties of the outputs.
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LCD PROGRAMMING - ADD/CHANGE KEYPAD CODES Door Schedules As we discussed in the schedule section of this manual, schedules can be used to restrict the access of users. You may, for example, want a user to be able to access the front door from 08:00 to 18:00, and access the back door from 17:00 to 23:00. On the other hand, you might want a user to have 24-hour access to both doors. This is where you specify what you want.
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LCD PROGRAMMING - ADD/CHANGE KEYPAD CODES Anti-Passback (You may not be permitted to program Anti-Passback). This is a Premium Option. To activate Anti-Passback, Door 2 must be installed. Refer to Option #13. Anti-Passback is a powerful, but perhaps a little confusing, security tool. Before you program a user for Anti-Passback, refer to Option #7, where this is discussed in detail.
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LCD PROGRAMMING - ADD/CHANGE CARDS Enrolling Cards In this option, you'll specify a user’s card, the door(s) the user may access, when the user may access these doors, which outputs will be activated, whether the user is subject to AntiPassback, and if the user is Permanent or Temporary.
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LCD PROGRAMMING - ADD/CHANGE CARDS Door Number This part may seem a bit confusing, so be sure to read this section entirely. Here you are instructed to enter the door(s) this person will be allowed to access. The LCD will scroll the instructions: Enter Door # Press Any Key þþ Scrolling Options: To Grant Access Reenter Door # To Deny Access Simply Press Any Key.
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LCD PROGRAMMING - ADD/CHANGE CARDS If you select Port #3 and you do not have this System set-up for networking, the LCD will scroll: Error!! Press Any Key þþ Scrolling Options: Entry Out of Range! To enable more than two doors, the Networking Option needs to be installed. Proceed to Option #13 for installation instructions. When you are finished entering door numbers press 0. User Cards If either Port is programmed for use with a reader, you will be prompted to enter a Card Number.
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LCD PROGRAMMING - ADD/CHANGE CARDS Additional Outputs When a valid card is entered, the door relay for that Port may be activated. In addition to this activation, you might want other outputs to be activated to sound an alarm, trip a dialer, or send some other signal. There are four such outputs from which to choose. The Program Aux Outputs section of this manual details the physical properties of the outputs. Any, all, or none of these outputs may be triggered by a user, if the Second Door is activated.
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LCD PROGRAMMING - ADD/CHANGE CARDS Door Schedules As we discussed in the schedule section of this manual, schedules can be used to restrict the access of users. You may, for example, want a user to be able to access the front door from 08:00 to 18:00, and access the back door from 17:00 to 23:00. On the other hand, you might want a user to have 24-hour access to both doors. This is where you specify what you want.
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LCD PROGRAMMING - ADD/CHANGE CARDS Anti-Passback (You may not be permitted to program Anti-Passback). To activate Anti-Passback, Door 2 must be installed. Refer to Option #13. Anti-Passback is a powerful, but perhaps a little confusing, security tool. Before you program a user for Anti-Passback, refer to Option #7, where this is discussed in detail. The LCD will scroll: 1=Yes, 2=No Enter Anti-Passback [ 2 ] At the Enter Anti-Passback [ 2 ] prompt, pick the desired type then press # (enter).
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LCD PROGRAMMING - ADD/CHANGE CARDS After you have successfully entered a user, the current System status will be displayed. Users Enrolled 0001 Want to Continue? [ 1 ] þþ Scrolling Options: Users Remaining 0412 1=Yes, 2=No If you wish to program another user press 1. If you are finished programming users, press 2.
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LCD PROGRAMMING - ADD/CHANGE DATA CHIPS Enrolling Data Chips In this option, you'll specify a user’s chip, the door(s) the user may access, when the user may access these doors, which outputs will be activated, whether the user is subject to AntiPassback, and if the user is Permanent or Temporary.
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LCD PROGRAMMING - ADD/CHANGE DATA CHIPS Door Number This part may seem a bit confusing, so be sure to read this section entirely. Here you are instructed to enter the door(s) this person will be allowed to access. The LCD will scroll the instructions: Enter Door # Press Any Key þþ Scrolling Options: To Grant Access Reenter Door # To Deny Access Simply Press Any Key.
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LCD PROGRAMMING - ADD/CHANGE DATA CHIPS The LCD will scroll the instructions: 01 03 þþ Enter Door (0=Done) [ _ _ ] Scrolling Options: Enter Door # To Grant Access Reenter Door # To Deny Access The first line of the LCD will display the door(s) this user is allowed to access. At the Enter Door (0=Done) [ _ _ ] prompt, enter the next door this user is allowed to access. When you are finished press 0 and # (enter).
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LCD PROGRAMMING - ADD/CHANGE DATA CHIPS User Chips If either Port is programmed for Data Chip, you will be prompted to enter a Data Chip Number. If using Data Chips, you can either touch the Data Chip to the test point at the upper right hand corner on the System 2 circuit board or use the optional Data Chip programming wand.
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LCD PROGRAMMING - ADD/CHANGE DATA CHIPS Additional Outputs When a valid Data Chip is entered, the door relay for that Port may be activated. In addition to this activation, you might want other outputs to be activated to sound an alarm, trip a dialer, or send some other signal. There are four such outputs from which to choose. The Program Aux Outputs section of this manual details the physical properties of the outputs.
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LCD PROGRAMMING - ADD/CHANGE DATA CHIPS Door Schedules As we discussed in the schedule section of this manual, schedules can be used to restrict the access of users. You may, for example, want a user to be able to access the front door from 08:00 to 18:00, and access the back door from 17:00 to 23:00. On the other hand, you might want a user to have 24-hour access to both doors. This is where you specify what you want.
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LCD PROGRAMMING - ADD/CHANGE DATA CHIPS Anti-Passback (You may not be permitted to program Anti-Passback). This is a Premium Option. To activate Anti-Passback, Door 2 must be installed. Refer to Option #13. Anti-Passback is a powerful, but perhaps a little confusing, security tool. Before you program a user for Anti-Passback, refer to Option #7, where this is discussed in detail.
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LCD PROGRAMMING - ADD/CHANGE DATA CHIPS Bad Code! If you enter a duplicate Data Chip code or do not enter a Data Chip number at all, you will see this prompt: Press Any Key Bad Code! The Data Chip should be re-entered. Go back to the beginning of this option and re-enter the chip. After you have successfully entered a user, the current System status will be displayed.
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LCD PROGRAMMING - BATCH ENROLLING USERS Batch Enroll Users (Option #9) Batch enrollment allows you to enter large groups of similar users without entering specific information for each and every user. In this option, you'll specify which doors a group of users can access, when these users can access the doors, which outputs will be activated, and whether these users are subject to Anti-Passback. It is recommended that users be broken into groups having identical security levels.
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LCD PROGRAMMING - BATCH ENROLL KEYPAD CODES Batch Enrolling Keypad Codes System Status When this Option is entered, you will be told how many user slots are enrolled and how many users are available for programming: Users Enrolled 0000 Want to Continue? [ 1 ] þþ Scrolling Options: Users Remaining 0413 1=Yes, 2=No User Number The first thing to do is enter a user number. This number uniquely identifies a user and can be thought of as an employee number.
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LCD PROGRAMMING - BATCH ENROLL KEYPAD CODES Door Number This part may seem a bit confusing, so be sure to read this section entirely. Here you are instructed to enter the door(s) these users will be allowed to access. The LCD will scroll the instructions: Enter Door # Press Any Key þþ Scrolling Options: To Grant Access Reenter Door # To Deny Access This display is for instructional purposes only. To continue, simply Press Any Key.
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LCD PROGRAMMING - BATCH ENROLL KEYPAD CODES The LCD will scroll the instructions: 01 03 Enter Door (0=Done) [ _ _ ] The first line of the LCD will display the door(s) this group is allowed to access. At the Enter Door (0=Done) [ _ _ ] prompt, enter the next door this group is allowed to access. When you are finished press 0 and # (enter). If you wish to change the door permission at any time, reenter the number to deny access to a specified door.
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LCD PROGRAMMING - BATCH ENROLL KEYPAD CODES Seed Number What is a Seed Number? Here’s an example: You select a seed number of 1000, Batch Enroll 200 users, and use the System for months or years. One day, someone accidentally erases memory. Now everyone’s codes are erased.
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LCD PROGRAMMING - BATCH ENROLL KEYPAD CODES If you select any of these Outputs and you have not activated the Second Door the LCD will scroll: Option Not Active! Press Any Key þþ Scrolling Options: Install in Option 13 Note: Although the display states the Option is Not Active, the output(s) have been assigned to the selected schedule. However, it will not activate until the Second Door has been turned ON. Proceed to Option #13 to turn this Option ON.
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LCD PROGRAMMING - BATCH ENROLL KEYPAD CODES Door Schedules As we discussed in the schedule section of this manual, schedules can be used to restrict the access of users. You may, for example, want a group of users to be able to access the front door from 08:00 to 18:00, and access the back door from 17:00 to 23:00. On the other hand, you might want a group of users to have 24-hour access to both doors. This is where you specify what you want.
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LCD PROGRAMMING - BATCH ENROLL KEYPAD CODES Anti-Passback (You will not be permitted to program Anti-Passback). This is a Premium Option. To activate Anti-Passback, door 2 must be installed. Refer to Option #13. Anti-Passback is a powerful security tool. Before you program a group of users for AntiPassback, refer to Option #7, where this is discussed in detail.
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LCD PROGRAMMING - BATCH ENROLL KEYPAD CODES System Function While Batch Loading IMPORTANT NOTE: The system will not process door inputs while batch loading is in operation. This means that users entering their codes at a door will not be granted access while the system is batch loading. For this reason it is important that batch loading be performed at non-peak times so as to minimize user inconvenience. While batch loading is in progress, the LCD will display: Please Stand By . . .
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LCD PROGRAMMING - BATCH ENROLL CARDS Batch Enrolling Wiegand, Proximity, Bar Code or Mag-Stripe Cards System Status When this Option is entered, you will be told how many user slots are enrolled and how many users are available for programming: Users Enrolled 0000 Want to Continue? [ 1 ] þþ Scrolling Options: Users Remaining 0413 1=Yes, 2=No User Number The first thing to do is enter a user number. This number uniquely identifies a user and can be thought of as an employee number.
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LCD PROGRAMMING - BATCH ENROLL CARDS Number of Users Here you will specify the number of users you want to automatically Batch Load. The LCD will scroll the instructions: Use Up to 4 Digits þþ Number of Users [ _ _ _ _ ] Scrolling Options: 0=Quit At the Number of Users [ _ _ _ _ ] prompt, enter the desired number followed by a # (enter). Door Number This part may seem a bit confusing, so be sure to read this section entirely.
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LCD PROGRAMMING - BATCH ENROLL CARDS The LCD will scroll the instructions: 01 03 Enter Door (0=Done) [ _ _ ] The first line of the LCD will display the door(s) this group is allowed to access. At the Enter Door (0=Done) [ _ _ ] prompt, enter the next door this group is allowed to access. When you are finished press 0 and # (enter). If you wish to change the door permission at any time, reenter the number to deny access to a specified door.
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LCD PROGRAMMING - BATCH ENROLL CARDS Seed Number If you do not intend to use Keypads on your system, exit this option and return to Option #5 Port Configuration and set all your ports to Card Only. What is a Seed Number? Here’s an example: You select a seed number of 1000, Batch Enroll 200 users, and use the System for months or years. One day, someone accidentally erases memory. Now everyone’s codes are erased.
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LCD PROGRAMMING - BATCH ENROLL CARDS If you select any of these Outputs and you have not activated the Second Door the LCD will scroll: Option Not Active! Press Any Key þþ Scrolling Options: Install in Option 13 Note: Although the display states the Option is Not Active, the output(s) have been assigned to the selected schedule. However, it will not activate until the Second Door has been turned ON. Proceed to Option #13 to turn this Option ON.
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LCD PROGRAMMING - BATCH ENROLL CARDS Door Schedules As we discussed in the schedule section of this manual, schedules can be used to restrict the access of users. You may, for example, want a group of users to be able to access the front door from 08:00 to 18:00, and access the back door from 17:00 to 23:00. On the other hand, you might want a group of users to have 24-hour access to both doors. This is where you specify what you want.
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LCD PROGRAMMING - BATCH ENROLL CARDS Anti-Passback (You may not be permitted to program Anti-Passback). This is a Premium Option. To activate Anti-Passback, door 2 must be installed. Refer to Option #13. Anti-Passback is a powerful security tool. Before you program a group of users for AntiPassback, refer to Option #7, where this is discussed in detail.
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LCD PROGRAMMING - BATCH ENROLL CARDS System Function While Batch Loading IMPORTANT NOTE: The system will not process door inputs while batch loading is in operation. This means that users entering their codes at a door will not be granted access while the system is batch loading. For this reason it is important that batch loading be performed at non-peak times so as to minimize user inconvenience. While the system is batch loading, the LCD will scroll: Please Stand By . . .
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LCD PROGRAMMING - BATCH ENROLL DATA CHIPS Batch Enrolling Data Chips System Status When this Option is entered, you will be told how many user slots are enrolled and how many users are available for programming: Users Enrolled 0000 Want to Continue? [ 1 ] þþ Scrolling Options: Users Remaining 0413 1=Yes, 2=No User Number The first thing to do is enter a user number. This number uniquely identifies a user and can be thought of as an employee number.
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LCD PROGRAMMING - BATCH ENROLL DATA CHIPS Door Number This part may seem a bit confusing, so be sure to read this section entirely. Here you are instructed to enter the door(s) these users will be allowed to access. The LCD will scroll the instructions: Enter Door # Press Any Key þþ Scrolling Options: To Grant Access Reenter Door # To Deny Access Simply Press Any Key.
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LCD PROGRAMMING - BATCH ENROLL DATA CHIPS The LCD will scroll the instructions: 01 03 Enter Door (0=Done) [ _ _ ] The first line of the LCD will display the door(s) this group is allowed to access. At the Enter Door (0=Done) [ _ _ ] prompt, enter the next door this group is allowed to access. When you are finished press 0 and # (enter). If you wish to change the door permission at any time, reenter the number to deny access to a specified door.
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LCD PROGRAMMING - BATCH ENROLL DATA CHIPS Seed Number If you do not intend to use Keypads on your system, exit this option and return to Option #5 Port Configuration and set all your ports to Card Only. What is a Seed Number? Here’s an example: You select a seed number of 1000, Batch Enroll 200 users, and use the System for months or years. One day, someone accidentally erases memory. Now everyone’s codes are erased.
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LCD PROGRAMMING - BATCH ENROLL DATA CHIPS Additional Outputs When a valid Data Chip is entered, the door relay for that Port may be activated. In addition to this activation, you might want other outputs to be activated to sound an alarm, trip a dialer, or send some other signal. There are four such outputs from which to choose. The Program Aux Outputs section of this manual details the physical properties of the outputs.
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LCD PROGRAMMING - BATCH ENROLL DATA CHIPS Door Schedules As we discussed in the schedule section of this manual, schedules can be used to restrict the access of users. You may, for example, want a group of users to be able to access the front door from 08:00 to 18:00, and access the back door from 17:00 to 23:00. On the other hand, you might want a group of users to have 24-hour access to both doors. This is where you specify what you want.
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LCD PROGRAMMING - BATCH ENROLL DATA CHIPS Anti-Passback (You may not be permitted to program Anti-Passback). This is a Premium Option. To activate Anti-Passback, door 2 must be installed. Refer to Option #13. Anti-Passback is a powerful security tool. Before you program a group of users for AntiPassback, refer to Option #7, where this is discussed in detail.
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LCD PROGRAMMING - BATCH ENROLL DATA CHIPS System Function While Batch Loading IMPORTANT NOTE: The system will not process door inputs while batch loading is in operation. This means that users entering their code at a door will not be granted access while the system is batch loading. For this reason, it is important that batch loading be performed at non-peak times so as to minimize user inconvenience.
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LCD PROGRAMMING - DELETE USERS Delete Users (Option #10) This option removes a single user or a group of users. If you wish to erase all users, skip to Option #16. First User If there are users programmed into the unit, the LCD will scroll the instructions: Use 4 Digits 1st User [ _ _ _ _ ] þþ Scrolling Options: 0=Quit At the 1st User [ _ _ _ _ ] prompt, enter the number of the doomed user followed by # (enter). If you entered this somewhat lethal option without meaning to, press 0 then # (enter).
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LCD PROGRAMMING - DELETE USERS The LCD will count users it is deleting from the System. The LCD will scroll the instructions: 1=Yes, 2=No User # 20 þþ Scrolling Options: Please Stand by Deleting User #20 The above example shows user #20 being deleted. If you are deleting users #20 - #50, these numbers will appear on the LCD as they are being erased from memory. The LCD will scroll the instructions: Press Any Key Code Deleted Delete More? The unit will return to the original prompt.
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LCD PROGRAMMING - REPORTS Reports (Option #11) In this option, you can list Users, Events, Port Configurations and Time Schedules. If your system is set up for networking (three or more doors) you will need a printer, Video Display Terminal or PC to list any reports. If you attempt to list reports on the LCD and your system is set-up for networking, you will return to the main menu. The prompts for the first report “Users” vary depending if your system is configured as networking or stand-alone.
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LCD PROGRAMMING - REPORTS Choosing the Output Device The next choice you have is to view the users on the LCD or to print them. The LCD will scroll the instructions: 1=Printer/VDT, 2=LCD Printer/VDT or LCD [ 2 ] þþ Scrolling Options: 0=Quit At the Printer/VDT or LCD [ 2 ] prompt, enter your choice then press # (enter). To advance to the next event, press any key. To quit, press 0 and # (enter). If the Printer/VDT is selected all events will print on the printer.
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LCD PROGRAMMING - REPORTS PRINTER/VDT If using a Printer or VDT to list all the users the unit will print: To Start / Stop Print . . . Waiting . . . þþ Scrolling Options: Press Any Key You may press any key to start the print process. This pause is here to give you an opportunity to activate your printer (by turning it on or hitting the “online” button) before starting printing. Below is a sample print-out for five users: 5 users enrolled out of a possible 442.
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LCD PROGRAMMING - REPORTS User Report in Network Mode Due to the amount of information printed, an LCD cannot be used to list any User Reports if you are using the Network feature. You will need to add a printer, VDT or PC to list these reports. Be sure to “List Users” using a printer after you have all your codes / cards into the System. This will give you a “hard-copy” of all user codes.
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LCD PROGRAMMING - REPORTS User Schedules This report shows, on a door-by-door basis, the schedule, if any, which restricts each user. Press Any Key to Start the print process. To Start/Stop Print . . . Waiting . . . þþ Scrolling Options: Press Any Key You may press any key to stop the print process.
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LCD PROGRAMMING - REPORTS User Codes This report is a multi-purpose report. It shows, for each user, the user’s keypad number (if applicable, otherwise it will display as N/A), card number (if applicable, otherwise N/A), the auxiliary outputs which will be activated by the user (if any), and the user’s anti-passback status. Press Any Key to Start the print process. To Start/Stop Print . . . Waiting . . . þþ Scrolling Options: Press Any Key You may press any key to stop the print process.
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LCD PROGRAMMING - REPORTS Temporary Users This report lists the temporary users, their status (by date or by count), and the lifetime remaining for those users. Press Any Key to Start the print process. To Start/Stop Print . . . Waiting . . . þþ Scrolling Options: Press Any Key You may press any key to stop the print process.
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LCD PROGRAMMING - REPORTS Delete the Events? Sometimes you may want to look at the events and keep them for future reference, and other times you may want to delete the events and start fresh after looking at them. The first thing this option does is let you choose. The LCD will scroll the instructions: 1=Yes, 2=No Delete After Show? [ 2 ] At the Delete After Show? [ 2 ] prompt, enter your selection followed by a # (enter).
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LCD PROGRAMMING - REPORTS PRINTER/VDT If using a Printer, VDT or PC to print / list users you may press any key to stop the print process. To Start / Stop Print . . . Waiting . . . þþ Scrolling Options: Press Any Key You may press any key to stop the print process. Below is a sample print-out: Program Mode Door Ajar Door Closed 07:04:32 04/05/97 07:06:01 04/05/97 07:22:40 04/05/97 Press Any Key Waiting . . .
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LCD PROGRAMMING - REPORTS Configuration This option is not available if you are using an LCD. You must have a printer or VDT to list the System configuration: PRINTER/VDT The LCD will scroll: Scrolling Options: Press Any Key þþ To Start / Stop Print . . . Waiting . . . You may press any key to stop the print process. Below is a sample print-out: © 1996 CII Ver 5.
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LCD PROGRAMMING - REPORTS After the System Configuration has printed, you can Press Any Key to return to the Main Menu. Press Any Key Waiting . . . Schedule This option allows you to display the schedules you programmed in Option #3. Choosing Your Output Device When you enter this option, the LCD will scroll the instructions: 1=Printer/VDT, 2=LCD Printer/VDT or LCD [ 2 ] þþ Scrolling Options: 0=Quit At the Printer/VDT or LCD [ 2 ] prompt, enter the desired device.
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LCD PROGRAMMING - REPORTS Selecting the Time Schedule to Show The LCD will scroll the instructions: Use 1 thru 8 Schedule to Show [ _ 0 ] þþ Scrolling Options: 0=Quit At the Schedule to Show [ _ 0 ] prompt, enter your selection. Note: If you have a two-door System 2 (2016) , the amount of schedules available is 16.
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LCD PROGRAMMING - REPORTS PRINTER/VDT If you selected 1=Printer/VDT as your output device the LCD will scroll: To Start/Stop Print . . . Waiting . . . þþ Scrolling Options: Press Any Key You may press any key to stop the print process. Below is a sample print-out: Schedule #01 Cell #01 : 12345-Cell #02 : 12345-Cell #03 : Inactive Cell #04 : Inactive 08:00 ON 17:00 OFF 9 Cell #32 : Inactive All 32 Cells were not listed. Your print-out will list all Time Cells (32 or 64). To Start/Stop Print . . .
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LCD PROGRAMMING - SECRET # PASSWORD Secret # Password (Option #12) This is the option to change the Secret Number used to access program mode. Current Secret # The LCD will scroll the instructions: Use 5 Digits þþ Current Secret # [ _ _ _ _ _ ] Scrolling Options: 0=Quit At the Current Secret # [ _ _ _ _ _ ] prompt, enter your Current Secret Number. If this is the first time you are accessing this option, the default Secret Number is 12345.
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LCD PROGRAMMING - INSTALL OPTIONS Install Options (Option #13) The System 2 has a number of “user installable” options. These options include: Single Door Pkg Two Door Pkg Upgd 2003 û 2016 RAM Expansion 2 nd Door w/ AP 26 Bit Wiegand Special Options Network Panels To order any of these options, simple call Corby or you local Security Distributor. You will need the Electronic Serial Number (ESN) before calling. At this time the user will be instructed to execute this option.
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LCD PROGRAMMING - INSTALL OPTIONS Enter the Upgrade Key Enter your personalized “Key” on the programming Keypad and press # (enter).
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LCD PROGRAMMING - OVERRIDE OUTPUTS Override Outputs (Option #14) This option allows the user to manually set the state of either the Ports (door relays) or any of the four auxiliary outputs. Ports The LCD will scroll the instructions: 1=Ports, 2=Outputs Type [ 1 ] þþ Scrolling Options: 0=Quit If you choose Ports, you can now choose which of the available Units ports you wish to activate.
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LCD PROGRAMMING - OVERRIDE OUTPUTS On / Off Next, you can either turn the Port Relay On or Off. The LCD will scroll the instructions: 1=On, 2=Off Enter State [ 1 ] þþ Scrolling Options: 0=Quit The LCD will take you back to the Ports/Outputs selection prompt. 1=Ports, 2=Outputs Type [ 1 ] þþ Scrolling Options: 0=Quit To Override Outputs press 2. To exit press 0. The unit will return On-Line.
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LCD PROGRAMMING - OVERRIDE OUTPUTS Override Outputs If you chose Outputs, you can now choose the output you wish to activate. Unit Number The LCD will scroll the instructions: 0=Master Enter Unit # [ 0 ] þþ Scrolling Options: 1=Slave #1 2=Slave #2, etc You can select from any of the available units you may have “networked” together on the System.
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LCD PROGRAMMING - BAUD RATES Baud Rates (Option #15) This option allows the user to change the Baud Rate. The baud rate is the speed at which the System 2 communicates with the optional Printer, Video Display Terminal or Personal Computer. System default is 9600 Baud, because most devices operate at this speed. DO NOT change the Baud Rate unless you have a very good reason to do so.
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LCD PROGRAMMING - CLEAR USERS / CLEAR MEMORY Clear Users (Option #16) This option allows you to clear all programmed users. The LCD will scroll the instructions: 1=Yes, 2=No Are You Sure? [ 2 ] After you make your selection, the System will erase all users and return to the Main Menu. Clear Memory (Option #17) This option allows you to Clear Memory. This is equivalent to a “cold” power up.
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LCD PROGRAMMING - NETWORK OPTIONS Network Options (Option #18) When you first powered up the unit, (back in the Initialization process) you made the decision to either “Allow Networking”” or not. If your System is a Stand-Alone unit (two doors) and you do not wish to program any of the Network Options, press 0 and # (enter) to exit this option. If your System is going to be used for networking multiple System 2's together, you can now choose to make this particular unit a “Master” or a “Slave”.
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LCD PROGRAMMING - NETWORK OPTIONS Slave Number If you choose to add a slave, the LCD will scroll: Enter 1 thru 7 Slave to Add [ 0 ] At the Slave to Add [ 0 ] prompt, make your selection. Reload Slave? Now you have a choice to make. If this is the initial power up of your entire system (no information has been programmed into the master) you do not need to reload the slave.
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LCD PROGRAMMING - NETWORK OPTIONS RS485 Test If you chose the RS485 Test, the LCD will remain the same for approximately ten seconds: Unit in Standalone Mode Enter Net Option [ 0 ] þþ Scrolling Options: 1=Convert to a Slave 2=Convert to a Master 3=Test RS485 0=Quit Look at the RS485 LEDs in the lower right hand corner of the circuit board. They should “turn on” for approximately ten seconds. Refer to the Networking Chapter - Trouble Shooting section to determine if the RS485 test passed or failed.
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LCD PROGRAMMING - BACKUP-RESTORE Backup-Restore (Option #19) This option lets you backup all data to a disk and then restore it, should the need arise (memory loss, circuit board replacement, etc.). Corby supports several Windows ® Terminal Emulation program. Refer to Chapter 10 to configure the terminal emulator. You must have a PC to use this feature.
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LCD PROGRAMMING - BACKUP-RESTORE Restore System 2 This lets you restore all programmed information from a floppy disk or your PC’s hard drive to the System 2. After you have selected 2-Restore to Sys 2 you will be prompted: Begin your "Send Binary File..." from the Transfer menu. U U U Select T ransfers from the pull-down menu at the top of the screen Select Send Binary F ile... Choose the drive where you wish to restore the information.
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LCD PROGRAMMING - BACKUP-RESTORE (Page intentionally left blank) 8-166 System 2 Installation / Programming Manual
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PC/VDT PROGRAMMING CHAPTER 9 PROGRAMMING USING A VDT/PC Introduction When in program mode, instructions and prompts are displayed on the VDT and user responses are entered on its Keyboard. Some basic features of program mode are: Instructions are displayed indented from the left margin. Prompts are displayed at the left margin. Entering a 1 serves as YES when a Yes-or-No question is asked. Entering a 2 serves as NO when a Yes-or-No question is asked. The x is the clear key.
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PC/VDT PROGRAMMING - ACCESSING THE SYSTEM Accessing the System Most users will never program the System, but all users will use the System to enter the protected area. In general, the user will be identified by either a Reader a Keypad or both. In the case of a reader, the user simply presents the card by, depending on the type of reader, swiping, inserting, touching or simply holding it near the reader. In the case of a Keypad, the user enters a code followed the # key.
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PC/VDT PROGRAMMING - POWER-UP MESSAGES Power-up Messages MEMORY ALLOCATION: You may choose any number to place in the [brackets] below but, your choices cannot allow the amount of users to diminish below 200. In other words the lower limit for users is 200. Your selected data is permanent. If you decide to change any of these selections later, you must Clear all Memory, lose all data, and start over. The system will power up with the following message.
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PC/VDT PROGRAMMING - POWER UP MESSAGES Required Events We recommend a history Storage Buffer of at least 100 events. You may choose more or less. If you choose more, the amount cannot exceed 250 events, unless additional RAM has been installed and activated. The more events you choose, however, the fewer users your system can support. On average, for each additional 3 events you choose (over and above the default 100), you will give up memory space for about 1 user. See Appendix A for complete details.
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PC/VDT PROGRAMMING - POWER-UP MESSAGES Networking Networking is the name given to the use of multiple System 2's linked together as one System. This version of System 2 will support up to eight System 2 units for a total of 16 doors. More users can be stored in memory if you do not use networking. This is because each unit must set aside more memory for network operations, thus reducing the memory available for users.
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PC/VDT PROGRAMMING - ENTERING PROGRAM MODE Entering Program Mode While the System 2 is in run mode, the System’s LCD will display the most recent event. To begin programming at this point, enter the five digit Secret Number on the programming Keypad followed by pressing ENTER. The VDT will display the following: Electronic Serial # is 09 cc 1d 00 00 00 00 be Manufacture Date is: 10/27/97 Version 5.
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PC/VDT PROGRAMMING - MAIN MENU Main Menu Enter the various programming menu options from the list below.
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PC/VDT PROGRAMMING - TIME AND DATE Time and Date (Option #1) This option has two parts. You will be prompted to set the time and date. Setting the Time The VDT will display the following instructions: Use Military hh:mm Enter Time [00:00] At the Enter Time [00:00] prompt enter the four-digit military time, then press ENTER. Don't worry about the colon characters, the cursor will “jump over” them.
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PC/VDT PROGRAMMING - DAYLIGHT SAVINGS TIME Daylight Savings Time (Option #2) If the Daylight Savings Time feature is activated, the System clock automatically adjusts at the appropriate times. Use caution! When you use this function it "time stamps" itself for the year you use it. If you use it or test it in 1999, it will not work again in 1999 unless the "time stamp" is reset to a different year.
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PC/VDT PROGRAMMING - TIME SCHEDULES Programming Time Schedules (Option #3) Before we talk about programming schedules, we need to understand just what schedules are and how they work. If a schedule is assigned to a user, the schedule dictates when that user can access a door. For example, you may want to limit the office staff to entering the front door from 8:00 AM through 5:00 PM.
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PC/VDT PROGRAMMING - TIME SCHEDULES Time Schedule Example Suppose you want your clerical staff to have access to the front door Monday through Friday from 8:00 AM to 6:00 PM. What about holidays? Well, you want them to be locked out on Christmas Day and New Year's Day. Let's break this apart one step at a time: Time cell 1 will take care of when to grant access on the normal days. Time cell 2 will take care of when to restrict access on the normal days.
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PC/VDT PROGRAMMING - TIME SCHEDULES Now for a final note. What would this have looked like if, instead of granting or denying access to users, we had instead wanted to unlock and lock a door? The beauty of this schedule system is that we would simply have assigned the same schedule to a door instead of a user. In this case, the door would have unlocked at 08:00 and locked at 18:00 Monday through Friday, and would have remained locked on Christmas and New Year's Day.
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PC/VDT PROGRAMMING - TIME SCHEDULES Day-of-Week or Holiday Date Now that you've selected the time cell, its time to program the DAY / HOLIDAY DATE BOX. The VDT will display the following instructions: This Schedule=01 This Cell=01 1=Mon,2=Tue,etc 8=Holiday Enter Days[-------] At the Enter Days [--------] prompt, you can do one of two things. You can select a day or days of the week, or you can select a holiday date. We'll discuss selecting days now, and holiday date a little later.
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PC/VDT PROGRAMMING - TIME SCHEDULES Changing a Cell If you wish to change a “Holiday Cell” to a “Day of the Week Cell” you will see the following prompt: 1=Yes,2=No Change to Days? [2] At the Change to Days? [ 2 ] prompt, choose 1 to re-assign this cell to any Day(s) of the Week. Trigger Time With the DAY / HOLIDAY DATE BOX programmed, the second part of specifying when you want something to happen is programming the TIME BOX.
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PC/VDT PROGRAMMING - TIME SCHEDULES Trigger State We're almost there! By programming the DAY / HOLIDAY DATE BOX and the TIME BOX, you've specified when something should happen. Now, its time to specify what should happen. The VDT will display the instructions: This Schedule=01 This Cell=01 1=On,2=Off Trigger State [2] At the Trigger State [2] prompt, pick one. If you select On, this will be the time the user can start to access a door or the time the door will automatically open.
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PC/VDT PROGRAMMING - SELECT CARD TYPE Select Card Type (Option #4) System 2 can accept five different reader technologies: Data Chip, Mag-Stripe, Bar Code, Wiegand or Proximity. This is where you specify which input device you are using. Note, that if you choose Option #5 (16 Digit Mag, Bar Code) your standard reader will accept 16 digit cards. In the case of a magnetic stripe reader, it will accept any standard bank card or credit card. You do not need to enter this option if you are only using Keypads.
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PC/VDT PROGRAMMING - PORT CONFIGURATION Port Configuration (Option #5) The System 2 has two Ports. Each Port consists of the following: “C Form” relay for door control Keypad input Reader input (Data Chip, Mag-Stripe, Wiegand, Proximity, or Bar Code) Request-To-Exit (RTE) input Door Ajar / Forced Entry input Zone Input In this option you can program how long the door relay will activate in response to a valid code entry, and which schedule, if any, will automatically activate the door relay.
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PC/VDT PROGRAMMING - PORT CONFIGURATION Selecting the Port to Program The VDT will display the following instructions: Use 01 thru 16 0=Quit Enter Port # [0] At the Enter Port # [0] prompt, enter the Port you want to work on and ENTER. Note: If you have set-up the System for Networking, the number of ports available is 16.
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PC/VDT PROGRAMMING - PORT CONFIGURATION Selecting the Input Device(s) Each System 2 Port can accept a Keypad Input, Card Input, Keypad AND Card Input or Keypad OR Card Input. In AND mode both a valid Keypad code and a valid Card must be entered. In OR mode either may be used for access. If you selected 0=No Cards in Option #4 you will not see this prompt. Skip to Selecting Relay Type.
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PC/VDT PROGRAMMING - PORT CONFIGURATION Relay Type When a valid code is entered, the Port’s door relay may be activated. How it will be activated is what we are interested in here. There are two modes of relay activation: Momentary and Latching. In Momentary mode, the relay closes for a programmed time period ranging from 1 to 255 seconds. In Latching mode, the relay toggles its state. In other words, if the relay was on, it turns off... if the relay was off, it turns on.
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PC/VDT PROGRAMMING - PORT CONFIGURATION Selecting Any Card/Chip Mode In this mode, any Corby Cards or Data Chips will activate any of the doors, regardless if the card or chip is programmed into the unit. All someone needs is a Corby card or data chip and the door can be accessed. This should only be used in minimal security applications where security is not strictly enforced. In other words, this can be classified as an unlimited users mode. This should only be programmed if you desire the above outcome.
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PC/VDT PROGRAMMING - AUXILIARY OUTPUTS Program Aux Outputs (Option #6) A two-door System 2 provides four general-purpose auxiliary outputs. Two of these outputs are C Form Auxiliary Relays, and two are voltage outputs. The Voltage Outputs are open-collector transistors. This means that, when activated, the transistors create a “short” between their terminal connection and System negative. The maximum current that can pass through the Voltage Output’s transistors is 50mA.
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PC/VDT PROGRAMMING - AUXILIARY OUTPUTS Trigger Event As we mentioned above, an output can be triggered by a System event. Example: If you are programming Auxiliary Relay #1, and want it to activate when an invalid code is used at one of the readers, select 11 - Inv Code. You can now wire this Relay to a light, bell, whistle, etc. and each time there is an invalid code Auxiliary Relay #1 will activate. If you do not wish these outputs to activate from any System event, press 0.
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PC/VDT PROGRAMMING - AUXILIARY OUTPUTS As discussed above, various system events can be assigned to operate auxiliary outputs. Some events will trigger outputs only locally on the unit on which they occur, while other events will trigger outputs both on the unit they occur and on the master as well. Bear in mind, however, that the unit on which an event occurs and the master may be one in the same unit (i.e., it happened on the master and not on a slave).
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PC/VDT PROGRAMMING - AUXILIARY OUTPUTS Automatic Output Operation This is the point at which you may assign a schedule to the output... provided you have installed a two-door System 2 (2016). The VDT will display the instructions: Use 0 thru 6 0=No Schedule Port Schedule [_0] Note: If you have a two-door Syst em 2 (2016), the amount schedules available is 16. At the Port Schedule [ _ 0 ] prompt, enter your selection followed by ENTER.
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PC/VDT PROGRAMMING - ANTI-PASSBACK Anti-Passback (Option #7) You must have the Second Door option activated to activate this feature. If the VDT displays: Option Not Active! Install in Option 13 Press Any Key, go to Option 13 and follow the instructions to activate the Second Door. Anti-Passback is a powerful security tool. Before we look at how to program AntiPassback, we'll discuss what it is. Anti-Passback requires that a user must enter via Port 1 and exit through Port 2.
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PC/VDT PROGRAMMING - ADD/CHANGE KEYPAD CODES Add or Change User (Option #8) You must first Select Card Type (Option #4) - if using cards, and Port Configuration (Option #5) before adding or changing any users. Why? Well the System default is for a Keypad Only, a momentary time of five seconds, and no time schedule. If you are using Readers, the System will not request your Card Number. Instead it will request your code number.
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PC/VDT PROGRAMMING - ADD/CHANGE KEYPAD CODES Door Number This part may seem a bit confusing, so be sure to read this section entirely. Here you are instructed to enter the door(s) this person will be allowed to access. The VDT will display the instructions: Enter Door # To Grant Access Reenter Door # To Deny Access Press Any Key Simply Press Any Key.
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PC/VDT PROGRAMMING - ADD/CHANGE KEYPAD CODES The VDT will display the instructions: 01 03 Enter Door (0=Done) [__] The first line of the VDT will display the door(s) this user is allowed to access. At the Enter Door (0=Done) [ _ _ ] prompt, enter the next door this user is allowed to access. When you are finished press 0 and ENTER. If you wish to change the door permission at any time, reenter the number to deny access to a specified door.
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PC/VDT PROGRAMMING - ADD/CHANGE KEYPAD CODES If you attempt to enter a code which is already used, you will see the following prompt: Press Any Key Duplicate Code! Additional Outputs When a valid code is entered, the door relay for that Port will, by default, be activated. In addition to this activation of the door relay, you might want other outputs to be activated as well to, for example, sound an alarm, trip a dialer, or send some other signal. There are four such outputs from which to choose.
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PC/VDT PROGRAMMING - ADD/CHANGE KEYPAD CODES Door Schedules As we discussed in the schedule section of this manual, schedules can be used to restrict the access of users. You may, for example, want a user to be able to access the front door from 08:00 to 18:00, and access the back door from 17:00 to 23:00. On the other hand, you might want a user to have 24-hour access to both doors. This is where you specify what you want.
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PC/VDT PROGRAMMING - ADD/CHANGE KEYPAD CODES Anti-Passback (You may not be permitted to program Anti-Passback). To activate Anti-Passback, Door 2 must be activated. Refer to Option #13. Anti-Passback is a powerful, but perhaps a little confusing, security tool. Before you program a user for Anti-Passback, refer to Option #7, where this is discussed in detail. The VDT will display: 1=Yes,2=No Enter Anti-Passback At the Enter Anti-Passback [2] prompt, pick the desired type then press ENTER.
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PC/VDT PROGRAMMING - ADD/CHANGE CARDS Enrolling Cards In this option, you'll specify a user’s card, the door(s) the user may access, when the user may access these doors, which outputs will be activated, whether the user is subject to AntiPassback, and if the user is Permanent or Temporary.
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PC/VDT PROGRAMMING - ADD/CHANGE CARDS Door Number This part may seem a bit confusing, so be sure to read this section entirely. Here you are instructed to enter the door(s) this person will be allowed to access. The VDT will display the instructions: Enter Door # To Grant Access Reenter Door # To Deny Access Press Any Key Simply Press Any Key . The VDT will display the instructions: 00 Enter Door (0=Done) [__] At the Enter Door (0=Done) [ _ _ ] prompt, enter the first door this user is allowed to access.
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PC/VDT PROGRAMMING - ADD/CHANGE CARDS If you select Port #3 and you do not have this System set-up for networking, the VDT will display: Error! Entry Out of Range! Press Any Key To enable more than two doors, the Networking Option needs to be installed. Proceed to Option #13 for installation instructions. When you are finished entering door numbers press 0. User Cards If either Port is programmed for use with a reader, you will be prompted to enter a Card Number.
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PC/VDT PROGRAMMING - ADD/CHANGE CARDS Additional Outputs When a valid card is entered, the door relay for that Port may be activated. In addition to this activation, you might want other outputs to be activated to sound an alarm, trip a dialer, or send some other signal. There are four such outputs from which to choose. The Program Aux Outputs section of this manual details the physical properties of the outputs.
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PC/VDT PROGRAMMING - ADD/CHANGE CARDS Door Schedules As we discussed in the schedule section of this manual, schedules can be used to restrict the access of users. You may, for example, want a user to be able to access the front door from 08:00 to 18:00, and access the back door from 17:00 to 23:00. On the other hand, you might want a user to have 24-hour access to both doors. This is where you specify what you want.
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PC/VDT PROGRAMMING - ADD/CHANGE CARDS Anti-Passback (You may not be permitted to program Anti-Passback). To activate Anti-Passback, Door 2 must be installed. Refer to Option #13. Anti-Passback is a powerful, but perhaps a little confusing, security tool. Before you program a user for Anti-Passback, refer to Option #7, where this is discussed in detail. The VDT will display: 1=Yes,2=No Enter Anti-Passback At the Enter Anti-Passback [2] prompt, pick the desired type then press ENTER.
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PC/VDT PROGRAMMING - ADD/CHANGE DATA CHIPS Enrolling Data Chips In this option, you'll specify a user’s chip, the door(s) the user may access, when the user may access these doors, which outputs will be activated, whether the user is subject to AntiPassback, and if the user is Permanent or Temporary.
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PC/VDT PROGRAMMING - ADD/CHANGE DATA CHIPS Door Number This part may seem a bit confusing, so be sure to read this section entirely. Here you are instructed to enter the door(s) this person will be allowed to access. The VDT will display the instructions: Enter Door # To Grant Access Reenter Door # To Deny Access Press Any Key Simply Press Any Key .
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PC/VDT PROGRAMMING - ADD/CHANGE DATA CHIPS If you select Port #3 and you do not have this System set-up for networking, the VDT will display: Error! Entry Out of Range! Press Any Key To enable more than two doors, the Networking Option needs to be installed. Proceed to Option #13 for installation instructions. When you are finished entering door numbers press 0. User Chips If either Port is programmed for Data Chip, you will be prompted to enter a Data Chip Number.
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PC/VDT PROGRAMMING - ADD/CHANGE DATA CHIPS Additional Outputs When a valid Data Chip is entered, the door relay for that Port may be activated. In addition to this activation, you might want other outputs to be activated to sound an alarm, trip a dialer, or send some other signal. There are four such outputs from which to choose. The Program Aux Outputs section of this manual details the physical properties of the outputs.
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PC/VDT PROGRAMMING - ADD/CHANGE DATA CHIPS Door Schedules As we discussed in the schedule section of this manual, schedules can be used to restrict the access of users. You may, for example, want a user to be able to access the front door from 08:00 to 18:00, and access the back door from 17:00 to 23:00. On the other hand, you might want a user to have 24-hour access to both doors. This is where you specify what you want.
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PC/VDT PROGRAMMING - ADD/CHANGE DATA CHIPS User Type (You may not be permitted to program User Type). This is a Premium Option which is packaged with the second door. To purchase Door 2, refer to Option #13. A user can be programmed as permanent, to expire after a programmed date, or to expire after a programmed number of uses - provided you have purchased the second door option from Corby.
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PC/VDT PROGRAMMING - BATCH ENROLL USERS Batch Enroll Users (Option #9) Batch enrollment allows you to enter large groups of similar users without entering specific information for each and every user. In this option, you'll specify which doors a group of users can access, when these users can access the doors, which outputs will be activated, and whether these users are subject to Anti-Passback. It is recommended that users be broken into groups having identical security levels.
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PC/VDT PROGRAMMING - BATCH ENROLL KEYPAD CODES Batch Enrolling Keypad Codes System Status When this Option is entered, you will be told how many user slots are enrolled and how many users are available for programming: Users Enrolled 0000 Users Remaining 0413 1=Yes,2=No Want to Continue? [1] User Number The first thing to do is enter a user number. This number uniquely identifies a user and can be thought of as an employee number.
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PC/VDT PROGRAMMING - BATCH ENROLL KEYPAD CODES Number of Users Here you will specify the number of users you want to automatically Batch Load. The VDT will display the instructions: Use Up to 4 Digits 0=Quit Number of Users [____] At the Number of Users [_ _ _ _] prompt, enter the desired number and ENTER. Door Number This part may seem a bit confusing, so be sure to read this section entirely. Here you are instructed to enter the door(s) these users will be allowed to access.
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PC/VDT PROGRAMMING - BATCH ENROLL KEYPAD CODES The VDT will display the instructions: 01 03 Enter Door (0=Done) The first line of the VDT will display the door(s) this group is allowed to access. At the Enter Door (0=Done) [_ _] prompt, enter the next door this group is allowed to access. When you are finished press 0 and ENTER. If you wish to change the door permission at any time, reenter the number to deny access to a specified door.
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PC/VDT PROGRAMMING - BATCH ENROLL KEYPAD CODES Additional Outputs When a valid code is entered, the door relay for that Port will be activated. In addition to this activation, you might want other outputs to be activated to sound an alarm, trip a dialer, or send some other signal. There are four such outputs from which to choose. The Port programming section of this manual details the physical properties of the outputs.
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PC/VDT PROGRAMMING - BATCH ENROLL KEYPAD CODES Door Schedules As we discussed in the schedule section of this manual, schedules can be used to restrict the access of users. You may, for example, want a group of users to be able to access the front door from 08:00 to 18:00, and access the back door from 17:00 to 23:00. On the other hand, you might want a group of users to have 24-hour access to both doors. This is where you specify what you want.
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PC/VDT PROGRAMMING - BATCH ENROLL KEYPAD CODES Anti-Passback (You may not be permitted to program Anti-Passback). This is a Premium Option. To activate Anti-Passback, door 2 must be installed. Refer to Option #13. Anti-Passback is a powerful security tool. Before you program a group of users for AntiPassback, refer to Option #7, where this is discussed in detail.
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PC/VDT PROGRAMMING - BATCH ENROLL KEYPAD CODES System Function While Batch Loading IMPORTANT NOTE: The system will not process door inputs while batch loading is in operation. This means that users entering their codes at a door will not be granted access while the system is batch loading. For this reason it is important that batch loading be performed at non-peak times so as to minimize user inconvenience. While batch loading is in progress, the VDT will display: Please Stand By...
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PC/VDT PROGRAMMING - BATCH ENROLL CARDS Batch Enrolling Wiegand, Proximity, Bar Code or Mag-Stripe Cards System Status When this Option is entered, you will be told how many user slots are enrolled and how many users are available for programming: Users Enrolled 0000 Users Remaining 0413 1=Yes,2=No Want to Continue? [1] User Number The first thing to do is enter a user number. This number uniquely identifies a user and can be thought of as an employee number.
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PC/VDT PROGRAMMING - BATCH ENROLL CARDS Number of Users Here you will specify the number of users you want to automatically Batch Load. The VDT will display the instructions: Use Up to 4 Digits 0=Quit Number of Users [____] At the Number of Users [_ _ _ _] prompt, enter the desired number and ENTER. Door Number This part may seem a bit confusing, so be sure to read this section entirely. Here you are instructed to enter the door(s) these users will be allowed to access.
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PC/VDT PROGRAMMING - BATCH ENROLL CARDS The VDT will display the instructions: 01 03 Enter Door (0=Done) [__] The first line of the VDT will display the door(s) this group is allowed to access. At the Enter Door (0=Done) [ _ _ ] prompt, enter the next door this group is allowed to access. When you are finished press 0 and ENTER. If you wish to change the door permission at any time, reenter the number to deny access to a specified door.
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PC/VDT PROGRAMMING - BATCH ENROLL CARDS Seed Number Note: This prompt will only appear if any of your ports are selected as Card or Keypad or Card and Keypad. What is a Seed Number? Here’s an example: You select a seed number of 1000, Batch Enroll 200 users, and use the System for months or years. One day, someone accidentally erases memory. Now everyone’s codes are erased.
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PC/VDT PROGRAMMING - BATCH ENROLL CARDS If you select any of these Outputs and you have not activated the Second Door the VDT will display: Option Not Active Install in Option 13 Press Any Key Note: Although the display states the Option is Not Active, the output(s) have been assigned to the selected schedule. However, it will not activate until the Second Door has been turned ON. Proceed to Option #13 to turn this Option ON.
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PC/VDT PROGRAMMING - BATCH ENROLL CARDS Door Schedules As we discussed in the schedule section of this manual, schedules can be used to restrict the access of users. You may, for example, want a group of users to be able to access the front door from 08:00 to 18:00, and access the back door from 17:00 to 23:00. On the other hand, you might want a group of users to have 24-hour access to both doors. This is where you specify what you want.
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PC/VDT PROGRAMMING - BATCH ENROLL CARDS Anti-Passback (You may not be permitted to program Anti-Passback). This is a Premium Option. To activate Anti-Passback, door 2 must be installed. Refer to Option #13. Anti-Passback is a powerful security tool. Before you program a group of users for AntiPassback, refer to Option #7, where this is discussed in detail.
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PC/VDT PROGRAMMING - BATCH ENROLL CARDS System Function While Batch Loading IMPORTANT NOTE: The system will not process door inputs while batch loading is in operation. This means that users entering their codes at a door will not be granted access while the system is batch loading. For this reason it is important that batch loading be performed at non-peak times so as to minimize user inconvenience. While the system is batch loading, the VDT will display: Please Stand By...
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PC/VDT PROGRAMMING - BATCH ENROLL DATA CHIPS Batch Enrolling Data Chips System Status When this Option is entered, you will be told how many user slots are enrolled and how many users are available for programming: Users Enrolled 0000 Users Remaining 0413 1=Yes,2=No Want to Continue? [1] User Number The first thing to do is enter a user number. This number uniquely identifies a user and can be thought of as an employee number.
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PC/VDT PROGRAMMING - BATCH ENROLL DATA CHIPS Door Number This part may seem a bit confusing, so be sure to read this section entirely. Here you are instructed to enter the door(s) these users will be allowed to access. The VDT will display the instructions: Enter Door # To Grant Access Reenter Door # To Deny Access Press Any Key Simply Press Any Key .
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PC/VDT PROGRAMMING - BATCH ENROLL DATA CHIPS The VDT will display the instructions: 01 03 Enter Door # To Grant Access Reenter Door # To Deny Access Enter Door (0=Done) [__] The first line of the VDT will display the door(s) this group is allowed to access. At the Enter Door (0=Done) [_ _] prompt, enter the next door this group is allowed to access. When you are finished press 0 and ENTER. If you wish to change the door permission at any time, reenter the number to deny access to a specified door.
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PC/VDT PROGRAMMING - BATCH ENROLL DATA CHIPS Additional Outputs When a valid Data Chip is entered, the door relay for that Port may be activated. In addition to this activation, you might want other outputs to be activated to sound an alarm, trip a dialer, or send some other signal. There are four such outputs from which to choose. The Program Aux Outputs section of this manual details the physical properties of the outputs.
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PC/VDT PROGRAMMING - BATCH ENROLL DATA CHIPS Door Schedules As we discussed in the schedule section of this manual, schedules can be used to restrict the access of users. You may, for example, want a group of users to be able to access the front door from 08:00 to 18:00, and access the back door from 17:00 to 23:00. On the other hand, you might want a group of users to have 24-hour access to both doors. This is where you specify what you want.
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PC/VDT PROGRAMMING - BATCH ENROLL DATA CHIPS Anti-Passback (You may not be permitted to program Anti-Passback). To activate Anti-Passback, door 2 must be installed. Refer to Option #13. Anti-Passback is a powerful security tool. Before you program a group of users for AntiPassback, refer to Option #7, where this is discussed in detail. The VDT will display the instructions: 1=Yes,2=No Enter Anti-Passback [2] At the Enter Anti-Passback [2] prompt, pick the desired type then press ENTER.
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PC/VDT PROGRAMMING - BATCH ENROLL DATA CHIPS System Function While Batch Loading IMPORTANT NOTE: The system will not process door inputs while batch loading is in operation. This means that users entering their code at a door will not be granted access while the system is batch loading. For this reason, it is important that batch loading be performed at non-peak times so as to minimize user inconvenience.
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PC/VDT PROGRAMMING - DELETE USERS Delete Users (Option #10) This option removes a single user or a group of users. If you wish to erase all users, skip to Option #16. First User If there are users programmed into the unit, the VDT will display the instructions: Use 4 Digits 0=Quit 1st User [____] At the 1st User [ _ _ _ _ ] prompt, enter the number of the doomed user followed by ENTER. If you entered this somewhat lethal option without meaning to, press 0 then ENTER.
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PC/VDT PROGRAMMING - DELETE USERS The VDT will count users it is deleting from the System. The VDT will display the instructions: Please stand by Deleting User #0020 The above example shows user #20 being deleted. If you are deleting users #20 - #50, these numbers will appear on the VDT as they are being erased from memory. The VDT will display the instructions: Done Press Any Key Code Deleted Delete More? The unit will return to the original prompt.
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PC/VDT PROGRAMMING - REPORTS Reports (Option #11) In this option, you can list Users, Events, Port Configurations and Time Schedules. If your system is set up for networking (three or more doors) you will need a printer, Video Display Terminal or PC to list any reports. If you attempt to list reports on the LCD and your system is set-up for networking, you will return to the main menu. The prompts for the first report “Users” vary depending if your system is configured as networking or stand-alone.
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PC/VDT PROGRAMMING - REPORTS Choosing the Output Device The next choice you have is to view the users on the printer. The VDT will display the instructions: 1=Printer/VDT,2=LCD 0=Quit Printer/VDT or LCD [2] PRINTER/VDT Using a Printer or VDT to list all the users the unit will print: To Start/Stop Print Press Any Key Waiting... You may press any key to stop the print process. Below is a sample print-out for five users: 5 users enrolled out of a possible 442.
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PC/VDT PROGRAMMING - REPORTS Network Mode Users Be sure to “List Users” using a printer after you have all your codes / cards into the System. This will give you a “hard-copy” of all user codes. If you are using Data Chips, and you ever have to re-enter the Data Chip code, and you do not have them “in-hand”, you must have the full 16-digit code. This code will print when you List Users. Since the code has alphanumeric characters a PC or VDT is also needed to re-enter Data Chips.
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PC/VDT PROGRAMMING - REPORTS User Schedules Press Any Key to Start the print process. To Start/Stop Print ... Press Any Key Waiting You may press any key to stop the print process.
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PC/VDT PROGRAMMING - REPORTS User Codes Press Any Key to Start the print process. To Start/Stop Print ... Press Any Key Waiting... You may press any key to stop the print process. Below is a sample print-out for five users: User # 0001 0002 0003 0004 0005 User Name Bill Smith Carl Benner Sue Parr Larry Peters Lisa Stevens Keypad # 000581292 000380587 000816728 000281079 000760948 Card# N/A N/A N/A N/A N/A Outputs 1-31-31-31-31-3- AP N N N N N Press Any Key Waiting...
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PC/VDT PROGRAMMING - REPORTS Events So far, we've talked about the System 2 taking a user code and granting (or not granting) access. When this happens, the System tells you by posting a message to the LCD and, if a printer is connected, listing it on the printer. This message tells you what happened ( the entry of a valid or invalid code), who did it (the user number), where it happened (which door), and when it happened (the time and date).
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PC/VDT PROGRAMMING - REPORTS PRINTER/VDT If using a Printer, VDT or PC to print / list users you may press any key to stop the print process. To Start/Stop Print... Press Any Key Waiting... You may press any key to stop the print process. Below is a sample print-out: Program Mode Door Ajar Door Closed 07:04:32 07:06:01 07:22:40 04/05/97 04/05/97 04/05/97 Press Any Key Waiting... If using a VDT or printer, this same prompt will appear after all the events have been printed or listed.
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PC/VDT PROGRAMMING - REPORTS Configuration This option is not available if you are using an LCD. You must have a printer or VDT to list the System configuration: PRINTER/VDT The VDT will display: To Start/Stop Print... Press Any Key Waiting... You may press any key to stop the print process. Below is a sample print-out: © 1996 CII Ver 5.
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PC/VDT PROGRAMMING - REPORTS Card Type = None Port Port Port Port 01: 02: 03: 04: Keypad Keypad Keypad Keypad Relay Relay Relay Relay Time Time Time Time = = = = 005 003 007 002 Schedule Schedule Schedule Schedule = = = = 01 00 08 12 After the System Configuration has printed, you can Press Any Key to return to the Main Menu. Press Any Key Waiting... Schedule This option allows you to display the schedules you programmed in Option #3.
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PC/VDT PROGRAMMING - REPORTS PRINTER/VDT If you selected 1=Printer/VDT as your output device the VDT will display: To Start/Stop Print ... Press Any Key Waiting... You may press any key to stop the print process. Below is a sample print-out: Schedule Cell #01 Cell #02 Cell #03 Cell #04 9 #01 : 12345-: 12345-: Inactive : Inactive 08:00 ON 17:00 OFF Cell #32 : Inactive All 32 Cells were not listed. Your print-out will list all Time Cells (32 or 64). To Start/Stop Print... Press Any Key Waiting...
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PC/VDT PROGRAMMING - SECRET # PASSWORD Secret # Password (Option #12) This is the options to change the Secret Number used to access program mode. Current Secret # The VDT will display the instructions: Use 5 Digits 0=Quit Current Secret # [_____] At the Current Secret # [ _ _ _ _ _ ] prompt, enter your Current Secret Number. If this is the first time you are accessing this option, the default Secret Number is 12345.
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PC/VDT PROGRAMMING - INSTALL OPTIONS Install Options (Option #13) The System 2 has a number of “user installable” options. These options include: Single Door Pkg Two Door Pkg Upgd 2003 û 2016 RAM Expansion 2 nd Door w/ AP 26 Bit Wiegand Special Options Network Panels To order any of these options, simple call Corby. At this time the user will be instructed to execute this option.
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PC/VDT PROGRAMMING - INSTALL OPTIONS Enter the Upgrade Key After contacting Corby, give us your Electronic Serial #. We will give you a “Key” (nine digit number) to un-lock the desired option. Enter your personalized “Key” on the programming Keypad and press ENTER.
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PC/VDT PROGRAMMING - OVERRIDE OUTPUTS Override Outputs (Option #14) This option allows the user to manually set the state of either the Ports (door relays) or any of the four general purpose outputs. Ports The VDT will display the instructions: 1=Ports,2=Outputs 0=Quit Type[1] If you choose Ports, you can now choose which of the available Units ports you wish to activate.
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PC/VDT PROGRAMMING - OVERRIDE OUTPUTS Override Outputs If you chose to Override Outputs, you can now choose the output you wish to activate. Unit Number The VDT will display the instructions: 0=Master 1=Slave #1 2=Slave #2, etc Enter Unit # [0] You can select from any of the available units you may have “networked” together on the System.
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PC/VDT PROGRAMMING - BAUD RATES Baud Rates (Option #15) This option allows the user to change the Baud Rate. The baud rate is the speed at which the System 2 communicates with the optional Printer, Video Display Terminal or Personal Computer. System default is 9600 Baud, because most devices operate at this speed. DO NOT change the Baud Rate unless you have a very good reason to do so.
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PC/VDT PROGRAMMING CLEAR USERS/MEMORY Clear Users (Option #16) This option allows you to clear any programmed users. The VDT will display the instructions: 1=Yes,2=No Are You Sure? [2] After you make your selection, the System will erase all users and return to the Main Menu. Clear Memory (Option #17) This option allows you to Clear Memory.
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PC/VDT PROGRAMMING - NETWORK OPTIONS Network Options (Option #18) When you first powered up the unit, (back in the Initialization process) you made the decision to either “Allow Networking”” or not. If your System is a Stand-Alone unit (two doors) and you do not wish to program any of the Network Options, press 0 and ENTER to exit this option. If your System is going to be used for networking multiple System 2's together, you can now choose to make this particular unit a “Master” or a “Slave”.
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PC/VDT PROGRAMMING - NETWORK OPTIONS Configure Network If you choose to configure the network, the VDT will display: Master Slave 1 Slave 2 Slave 3 Slave 4 Slave 5 Slave 6 Slave 7 Active OFF OFF OFF OFF OFF OFF OFF R = Reload Slave TAB = Next field SPACE = Toggle current field ENTER = Done This screen allows you to control the network by adding, deleting and reprogramming slaves. Use the TAB key to position the cursor at the slave you want to control.
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PC/VDT PROGRAMMING - NETWORK OPTIONS RS485 Test If you chose the RS485 Test, the output will last for approximately 10 seconds . Unit in Standalone Mode 1=Convert to a Slave 2=Convert to a Master 3=Test RS485 0=Quit Enter Net Option [0] Look at the RS485 LEDs in the lower right hand corner of the circuit board. They should “turn on” for approximately ten seconds. Refer to the Networking Chapter - Trouble Shooting section to determine if the RS485 test passed or failed.
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PC/VDT PROGRAMMING - BACKUP-RESTORE Backup-Restore (Option #19) This option lets you backup all data to a disk and then restore it, should the need arise (memory loss, circuit board replacement, etc.). Corby supports the Windows ® Terminal Emulation program. Refer to Chapter 9 to configure the terminal emulator. You must have a PC to use this feature.
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PC/VDT PROGRAMMING - BACKUP-RESTORE Restore System 2 This lets you restore all programmed information from a floppy disk or your PC’s hard drive to the System 2. After you have selected 2-Restore to Sys 2 you will be prompted: Begin your "Send Binary File..." from the Transfer menu. U U U Select Transfers from the pull-down menu at the top of the screen Select Send Binary File... Choose the drive where you wish to restore the information.
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WINDOWS PROGRAMMING & MODEM SETUP CHAPTER 10 WINDOWS PROGRAMMING & MODEM SETUP Introduction Getting Started Determine which COM port you will be using for your connection to System 2. If you are unsure, use Microsoft's Utility program MSD to assist you in determining which ports are available. Making the Connection All COM ports on PCS are either 9 pin or 25 pin male connectors. To make the connection from the System 2 to the PC, you will need a 5 conductor 22 gauge cable with an overall shield.
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WINDOWS PROGRAMMING & MODEM SETUP Windows 3.1 Starting Windows from a DOS prompt U Type C:\WINDOWS U Type WIN U Double click on the ACCESSORIES icon. U Double click on the TERMINAL icon. U Single click on the up triangle in the upper right corner to maximize the screen. Setting up the Terminal Emulator Each step below requires a single click on the left mouse button, unless otherwise noted.
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WINDOWS PROGRAMMING & MODEM SETUP Windows 95 (HyperTerminal Private Edition 3.0) Starting Windows from a DOS prompt U Type C:\WINDOWS U Type WIN U Single click on the START icon (lower left hand corner of screen). U Single click on the PROGRAMS folder. U Single click on the HYPERTERMINAL folder. U Double click on HYPERTM.EXE. Connection Description Enter a name and choose an icon for the connection. Example: System2 (select an icon of your choice).
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WINDOWS PROGRAMMING & MODEM SETUP Set-up & Installation for the 4126 USRobotics Modem Software Settings Corby will only support the Windows ® Terminal Emulation program. Set the Terminal Emulation at DEC VT-100 (ANSI). The example below shows COM2 as the connection device. This will vary depending on your configuration. Cable You will need a Male DB25 connector and no more than 100 feet of five conductor, shielded, nontwist, 22 gauge wire.
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EPROM & RAM CHIPS CHAPTER 11 INSTALLING AN EPROM OR RAM 1. Remove the external battery. (Unplug the battery harness - H1) 2. Unplug or disconnect the internal battery (H4). 3. Unplug or disconnect the 16.5VAC transformer. 4. Wait 120 seconds for all power supply capacitors to discharge. 5. Locate the EPROM or RAM chips. They are located to the left and directly under the programming keypad. The EPROM is identified as U4. Expansion RAM1 is identified as U5. Expansion RAM2 is identified as U6.
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TROUBLESHOOTING CHAPTER 12 TROUBLESHOOTING Nothing on LCD/ no LEDs on Possible Cause: U Electrical Outlet - Check for 120 VAC. U Is the transformer plugged in? U Check for 16.5-19 VAC on Terminals #2 and #3. If plugged into 120vac, but no 16.5vac on panel, power wires may be broken or transformer fuse blown. Power on board but no LCD display Possible Cause: U Make sure LCD display is plugged firmly into socket (under Left-hand side of display). U Look for any chips that appear loose or crooked.
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TROUBLESHOOTING Door Ajar & Forced Entry messages appear without being wired Possible Cause: U When the system is first initialized, and whenever you press the reset button or let the system time out of programming by itself, you will see those messages, along with other messages, appear on the LCD. U Possible noise problem due to the wire runs. Make sure the card reader or keypad wire runs are at least one foot away from AC lines, phone lines and flourescent lighting.
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TROUBLESHOOTING My proximity reader works, but doesn’t have the advertised readrange Possible Cause: U Installing the read head in the vicinity of metal will reduce the read-range slightly. U Do not install the read-head near a Video Display Terminal or computer screen. U Verify that the voltage out at the read-head is 10.5 - 14 VDC. I get a “Duped Slave” message on the master System 2 in my network Possible Cause: U Two “slave” System 2 boards have been programmed with the same slave number.
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TROUBLESHOOTING “Memory Corrupt” and “Reset” messages while programming the unit Possible Cause: U The system is probably getting a great deal of electrical noise. U Make sure Terminal #1 is connected to a good earth ground. Generally a cold water pipe that goes to ground is best. U Remove the reader/keypad wiring and attempt to program after pressing the “Reset” button.
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FAQ’S CHAPTER 13 FREQUENTLY ASKED QUESTIONS Q. A. Must I have an earth ground for the System 2? Yes. A good earth ground is essential for proper operation because it provides a path around the System 2 for unwanted electrical noise and spikes from electrical storms. The ground must adhere to National Electrical Code guidelines. Q.
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FAQ’S Q. A. Can I connect an on-site terminal and modem to the System 2 at the same time? No. There is one RS-232 port available that can drive only one device at a time. You can, however, use a manual A-B switch to choose between one of the two devices. Q. A. Can I delete a group of users instead of all of them or one at a time? Yes. Option 10 enables you to delete a specific group of users. Q. A. Can I program the System 2 on my test bench and then install it? Yes.
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FAQ’S Q. A. Can the System 2 use other manufacture’s Wiegand cards? We use customized 30-bit Wiegand cards, but a 26-bit option can be purchased that will allow the use of Standard 26-bit Wiegand cards. Q. A. Can I make a backup copy of my System 2's memory after I finish programming? Yes. Corby System 2 supports the XMODEM protocol. This can be accomplished with a PC using the Windows Terminal Emulator. The System 2 memory can be backed-up to disk and restored at a later date.
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AVAILABLE USERS CHART APPENDIX A AVAILABLE USERS CHART STEP 1. Select the appropriate base number of users from the table below. ( Example: select 2699 for a system using Names, Network and Expanded RAM options.) Base Number of Users No Names No Network No Names Network Names No Network Names Network Standard RAM 527 345 293 226 Expanded RAM 6226 4089 3490 2699 STEP 2. Select the percentages representing the event and temporary user ratios.
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LCD MESSAGES APPENDIX B LCD MESSAGES AC Off = AC power loss. AC On = AC power restored. AP Error = Anti-Passback Error. Someone attempted to go in a door using their code / Card before using it at an exit door. Auto Aux On = An auxiliary relay was automatically triggered On from a Time Schedule. Auto Aux Off = An auxiliary relay was automatically triggered Off from a Time Schedule. Auto Output = On, An output was automatically triggered On from a Time Schedule.
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LCD MESSAGES Mem Clear = All memory was cleared. Module Reset = One of the small processors have reset. Net Noise = Electrical noise has been detected somewhere on the network. On Line = Program mode was exited. PIN Error = After a valid card was used, the code which followed (Card & Keypad) was incorrect. Program Mode = Someone entered program mode. Relay Override = The relay was manually switched. Request-To-Exit = The RTE button or Passive Infrared was used to exit a door.
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TERMINAL DESCRIPTIONS APPENDIX C TERMINAL DESCRIPTIONS Terminal #1 - Earth Ground This terminal must be connected to a suitable and approved ground as defined by the National Electrical Code. Use a 12 gauge or larger solid copper wire. All shields from Keypads or Card Readers must also connect to Terminal #1. Terminals #2 and #3 - AC Power A 16.5 volt 40VA transformer is recommended. Terminal #4 - Drop Input (+) This input can be used to open the normally closed contacts on both main relays.
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TERMINAL DESCRIPTIONS Terminal #22 - (-) Common negative This is the System 2's common negative for Readers, Keypads, RTE buttons, Magnetic Contacts and LEDS. Terminal #23 - DATA 0 and Magnetic Stripe Data This terminal serves as the data 0 connection for Wiegand and Proximity readers and as the data input for Magnetic Stripe and Bar Code readers.
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TERMINAL DESCRIPTIONS Terminals #35 through #36 - Shunt Contacts These contacts are rated at 5 AMPS 30 volts DC. They can be used to shunt a door contact. This set of contacts follows the main relay because they activate at the same time the main relay activates. Terminal #35 is Normally Open, and #36 is Normally Open. Terminal #37 - Zone Input The System 2 can monitor a normally closed contact wired between this terminal and Terminal #22. When the switch opens, a Zone On event is generated.
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GLOSSARY APPENDIX D GLOSSARY ABA American Bankers Association. This association set a standard used in Magnetic Stripe credit cards. The standard format uses specific start and stop characters and typically uses track two of a four-track card. Example: ABA Track two format AC Alternating Current, used as a primary power source for the access system. AMP A measure of current for AC and DC voltages. A milliamp (mA) = 1/1000 of an Amp.
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GLOSSARY CPU Central Processing Unit. Usually the main microprocessor in the system. CTS Clear to Send. An RS-232 input on the system that tells a transmitting device attached to it that its OK to transmit its data. Data Chip A stainless steel canister, the size of two stacked dimes, containing an integrated circuit that sends a 64 bit number when touched to a reader designed for the purpose. DC Direct Current. A type of voltage usually specified as having a positive and negative source.
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GLOSSARY Forced Entry A condition that exists when a door is forced open prior to a valid user entering the door. Form A Relay A type of relay that has a single pole, single throw, normally open contact. Form C Relay A type of relay which has contacts including a common, a normally open (NO) leg and a normally closed (NC) leg. Initializing The automatic process of configuring the system at power-up. Default values are set and memory is tested. LED Light Emitting Diode.
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GLOSSARY Proximity A type of card technology that sends wireless digital data from a card to a reader through means of an electrostatic coupling. RAM Random Access Memory. Semiconductor memory that can be both written to and read from. Specified by size (128K x 8). RS-232 Data transmission standard using +/- 12 volt transitions to transmit digital data.
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GLOSSARY UL Underwriters Laboratories. An organization that certifies the safety and functionality of electrical devices. VDT Video Display Terminal. Also known as a CRT ( Cathode Ray Tube) usually includes a keyboard assembly. Used to send and receive data to and from a computer device. Not a PC, although a PC can emulate a VDT with the proper software. Watchdog A circuit in the System that prevents microprocessor latch up.
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GLOSSARY (Page intentionally left blank) D-286 System 2 Installation / Programming Manual
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WIRING DIAGRAMS APPENDIX E WIRING DIAGRAMS Figure 1 Figure 2 Figure 3 Figure 4 Figure 5 Figure 6 Figure 7 Figure 8 Figure 9 Figure 10 Figure 11 Figure 12 Figure 13 Figure 14 Figure 15 Figure 16 Figure 17 Figure 18 Figure 19 Figure 20 Figure 21 Figure 22 Figure 23 Figure 24 Figure 25 Figure 26 Figure 27 Figure 28 Figure 29 Figure 30 Figure 31 Figure 32 Figure 33 Figure 34 Block Diagram . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Networking Block Diagram . . . . . . . . . . . . . . . . . .
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WIRING DIAGRAMS CAUTION!!! If you use this System to operate a DC door strike, magnetic lock, relay, or any device that has a coil (inductive load) that is powered from a DC source, you MUST install a diode, in parallel, across the coil terminals. Use a 1N4001, 1N4002 or equivalent diode. Connect the stripe side of the diode to the coil terminal that becomes positive (+). Connect the other side of the diode to the other end of the coil.
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Figure 3 - PCB Descriptions andLayout H3 48 CHARACTER LIQUID CRYSTAL DISPLAY OPTIONAL EQUIPMENT PLUG-INS RESET 3 H4 2 1 ACTIVITY ACPOWER A B 18 WAND JACK TP1 18 19 KEYPAD 19 KEYPAD 20 20 21 21 22 COMMONNEGATIVE(-) 23 WIEGANDOR MAG-STRIPE READER 24 DATACHIP 26 DOORAJAR/FORCEDENTRY 27 REQUEST-TO-EXIT PROGRAMMING KEYPAD (+)5VDC 1 2 5 m a M A X READER/KEYPAD (+)12VDC250maMAX 29 30 24 DATACHIP 25 DOORAJAR/FORCEDENTRY 26 REQUEST-TO-EXIT 27 28 (+)5VDC125maMAX READER/KEYPAD (+)
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Figure 4 - Terminal Descriptions DOOR 1 DOOR 2 A B 18 KEYPAD-DATA1 KEYPAD-DATA1 18 19 KEYPAD-DATA2 KEYPAD-DATA2 19 20 KEYPAD-DATA4 KEYPAD-DATA4 20 21 KEYPAD-DATA8 KEYPAD-DATA8 21 22 COMMONNEGATIVE(-) COMMONNEGATIVE(-) 22 23 WIEGAND-DATA0 MAG-STRIPE-DATA WIEGAND-DATA0 MAG-STRIPE-DATA 23 24 WIEGAND-DATA1 MAG-STRIPE-CLOCK WIEGAND-DATA1 MAG-STRIPE-CLOCK 24 25 DATACHIP-DATA DATACHIP-DATA 25 26 DOORAJAR FORCEDENTRY(-) DOORAJAR FORCEDENTRY(-) 26 27 REQUEST-TO-EXIT(-) REQU
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Figure 5 - Test Points H3 OPTIONAL EQUIPMENT PLUG-INS ACTIVITY ACPOWER (+)5VDC 1 18 18 19 19 20 20 21 21 22 22 23 23 24 24 25 25 26 26 27 27 28 (+)5VDC (+)5VDC 28 29 (+)12VDC (+)12VDC 29 30 30 31 31 32 32 33 33 34 34 35 35 36 36 37 37 RELAY1 (+)5VDC RXD RELAY2 AUX1 (+)6VDC TXD AUX2 OUTPUT1 (+)12VDC CTS OUTPUT2 EMR DROP RELAY BATTERY RELAY DCD RS485 1 H1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 BATTERY CONNECTION THESELEDsSHOULDBEON: (+)5V
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Figure 6 - Shield and GroundingLayout System 2 Cabinet System 2 Cabinet 8CONDUCTOR22AWG SHIELDEDCABLE 8CONDUCTOR22AWG SHIELDEDCABLE SHIELD SHIELD 14GAUGE MINIMUM GROUNDINGLUG.THISISAUNIFIEDGROUNDPOINTFORTHEACCESS EQUIPMENT. DONOTOPERATETHISSYSTEMWITHOUTAGOODEARTHGROUND. USEAGROUNDINGLUGTOESTABLISHAUNIFIEDGROUNDPOINTFOR EACHGROUPOFSYSTEM2CABINETS. DONOTDAISYCHAINTHEGROUNDWIRESFROMONESYSTEM2TOTHE NEXT. UNITSLOCATEDONDIFFERENTFLOORSORATDIFFERENTLOCATIONS NEEDAUNIFIEDGROUNDPOINTATEACHLOCATION.
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Figure 7 - Wiring the Shield to Earth Ground DOOR1 DOOR2 A B 18 18 19 19 20 20 21 21 22 22 23 23 24 24 25 25 26 26 27 27 28 28 29 29 30 30 31 31 32 32 33 33 34 34 35 35 36 36 37 37 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 SHIELD SHIELD TAPEOR HEATSHRINK CONDUIT TAPEOR HEATSHRINK TAPEOR HEATSHRINK NOTE: THESHIELDMUSTBEINSULATEDTOPROTECTITFROMSHORTINGOUTANYCOMPONENTSOFTHECIRCUIT BOARD. USEAPIECEOFHEATSHRINKTUBING,APIECEOFTHECABLEJACKETORELECTRICALTAPE.
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Figure 8 - Battery a n d Transformer 16.5VAC 40VA H1 1 BATTERY CONNECTION 2 3 4 5 6 7 8 OPTIONALAC SURGE PROTECTOR RECHARGEABLE STANDBYBATTERY 3YEAR MAXIMUMLIFE CONNECTTHEBATTERYBY USINGTHESUPPLIEDHARNESS PLUGTHISTRANSFORMER INTO A 120VOLT OUTLET. IFUSINGASURGEPROTECTOR, PLUGINTOSOCKETONTHE SURGEPROTECTOR 16.
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Figure 9 - PrinterConnection RS-232 9PINMALE CONNECTOR (P1) USEFOR ATERMINAL, PCORMODEM 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 9PINFEMALE CONNECTOR SOLDERSHIELDOF CABLETO9PIN CONNECTORCASE DONOTCONNECTTHEPRINTERTOA RECEPTACLECONTROLLEDBYASWITCH MALEDB25PIN CONNECTOR 20 GREEN 7 BLACK ON 3 WHITE OFF CORBYSERIALPRINTER SHIELD DONOTCONNECT AT THISEND
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Figure 10 - Terminal & Printer Connections RS-232 9PINMALE CONNECTOR (P1) USEFOR ATERMINAL, PCORMODEM 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 9PINFEMALE CONNECTOR SOLDERSHIELDOF CABLETO9PIN CONNECTORCASE NOTES: THERS232OPTIONMUSTBEACTIVATEDTOPROGRAMWITHAVDTORPC RS232COMMUNICATIONSETTINGSDEFAULT:9600BAUD,8DATABITS,1STOPBIT,NOPARITY DONOTCONNECTTHEPRINTERORVDTTOARECEPTACLECONTROLLEDBYASWITCH YOUMUSTENTERSET-UPONTHEVDT-PRESS,THENPRESSANDCHANGETHEVDT PERSONALITYTOVT100.
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Figure 11 - Terminal Using Phone Modems RS-232 9PINMALE CONNECTOR (P1) USEFOR ATERMINAL, PCORMODEM 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 ASTANDARDMODEMCABLEISALLTHATISREQUIRED FORCONNECTIONFROMTHESYSTEM2TOAMODEM. (9PINFEMALETO25PINMALE).
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Figure 12 - Terminal Using Short-Haul Modems RS-232 9PINMALE CONNECTOR (P1) USEFOR ATERMINAL, PCORMODEM 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 9PINFEMALE CONNECTOR SOLDERSHIELDOF CABLETO9PIN CONNECTORCASE NOTES: THERS232OPTIONMUSTBEACTIVATEDTOPROGRAMWITHAVDTORPC RS232DEFAULT SETTINGS:9600BAUD,8DATABITS,1STOPBIT,NOPARITY DONOTCONNECTTHEPRINTERORVDTTOARECEPTACLECONTROLLEDBYASWITCH YOUMUSTENTERSET-UPONTHEVDTPRESS,THENPRESSANDCHANGETHEVDTPERSONALITYTOVT100.
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Figure 13 - PC & Printer Connections RS-232 9PINMALE CONNECTOR (P1) USEFOR ATERMINAL, PCORMODEM 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 9PINFEMALE CONNECTOR SOLDERSHIELDOF CABLETO9PIN CONNECTORCASE NOTES: THERS232OPTIONMUSTBEACTIVATEDTOPROGRAMWITHAVDTORPC. RS232COMMUNICTIONSETTINGSDEFAULT:9600BAUD,8DATABITS,1STOPBIT,NOPARITY. DONOTCONNECTTHEPRINTERORPCTOARECEPTACLECONTROLLEDBYASWITCH.
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Figure 14 - Keypad w/ Door Ajar & RTE CORBYKEYPADS 4010,4014,4063 4012,4062,4064,4066 YELLOWWIREOFGREENLED REDWIREOFGREENLED REDOF REDLED YELLOW OFRED LED WIRENUT CONNECTIONS YELLOW 18 KEYPAD-DATA1 GREEN 19 KEYPAD-DATA2 WHITE 20 KEYPAD-DATA4 BLUE 21 KEYPAD-DATA8 22 COMMONNEGATIVE(-) BLACK BLACK RED ORANGE BLUE BLK BLUE WHT WHITE WHITE GRN GREEN GREEN YEL YELLOW YELLOW RED BLACK BLACK SHIELD SHIELDCONNECTSTOTHE GROUNDSCREWONTHE KEYPADCIRCUITBOARD 23 8CONDUCTOR 22AWG SHIELD
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Figure 15 - BarCode Reader w/ DoorAjar & RTE CONNECTBLACKWIRES WITHAWIRENUT YELLOW BROWN RED RED BLACK CLOSED CIRCUIT MAGCONTACT FOR DOOR AJAR, FORCED ENTRY, A N D TIME CANCEL YELLOW "A" GREEN N.C. } FAILSAFECONTACTS SEEFAILSAFEDIAGRAM 18 X2 (-)BLACK 19 OBSERVE LEDLAMP POLARITY N.O.
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Figure 16 - Data Chip Reader w/ Door Ajar & RTE CONNECTBLACKWIRES WITHAWIRENUT YELLOW BROWN RED RED BLACK CLOSED CIRCUIT MAGCONTACT FOR DOOR AJAR, FORCED ENTRY, A N D TIME CANCEL YELLOW "A" GREEN N.C. } FAILSAFECONTACTS SEEFAILSAFEDIAGRAM 18 X2 (-)BLACK 19 OBSERVE LEDLAMP POLARITY N.O.
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Figure 17 - Data Chip Reader w/Door Ajar & RTE CONNECTBLACKWIRES WITHAWIRENUT YELLOW BROWN RED RED BLACK CLOSED CIRCUIT MAGCONTACT FOR DOOR AJAR, FORCED ENTRY, A N D TIME CANCEL YELLOW "A" GREEN N.C. } FAILSAFECONTACTS SEEFAILSAFEDIAGRAM 18 X2 (-)BLACK 19 OBSERVE LEDLAMP POLARITY N.O.
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Figure 18 - Keri Proximity Reader w/ Door Ajar & RTE CONNECTBLACKWIRES WITHAWIRENUT YELLOW BROWN RED RED BLACK CLOSED CIRCUIT MAGCONTACT FOR DOOR AJAR, FORCED ENTRY, A N D TIME CANCEL YELLOW "A" GREEN N.C. } FAILSAFECONTACTS SEEFAILSAFEDIAGRAM 18 X2 (-)BLACK 19 OBSERVE LEDLAMP POLARITY N.O.
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Figure 19 - Outdoor Mag-Stripe Reader w/Door Ajar & RTE CONNECTBLACKWIRES WITHAWIRENUT YELLOW BROWN RED RED BLACK CLOSED CIRCUIT MAGCONTACT FOR DOOR AJAR, FORCED ENTRY, A N D TIME CANCEL YELLOW "A" GREEN N.C. } FAILSAFECONTACTS SEEFAILSAFEDIAGRAM 18 X2 (-)BLACK 19 OBSERVE LEDLAMP POLARITY N.O.
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Figure 20 - Proximity Card Reader w/ DoorAjar&RTE CONNECTBLACKWIRES WITHAWIRENUT YELLOW BROWN RED RED BLACK CLOSED CIRCUIT MAGCONTACT FOR DOOR AJAR, FORCED ENTRY, A N D TIME CANCEL YELLOW "A" GREEN N.C. } FAILSAFECONTACTS SEEFAILSAFEDIAGRAM 18 X2 (-)BLACK 19 OBSERVE LEDLAMP POLARITY N.O.
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Figure 21 - HID MiniProx Reader w/ Door Ajar & RTE CONNECTBLACKWIRES WITHAWIRENUT YELLOW BROWN RED RED BLACK CLOSED CIRCUIT MAGCONTACT FOR DOOR AJAR, FORCED ENTRY, A N D TIME CANCEL YELLOW "A" GREEN N.C. } FAILSAFECONTACTS SEEFAILSAFEDIAGRAM 18 X2 (-)BLACK 19 OBSERVE LEDLAMP POLARITY N.O.
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Figure 22 - HID Proximity Reader w/ DoorAjar & RTE CONNECTBLACKWIRES WITHAWIRENUT YELLOW BROWN RED RED BLACK CLOSED CIRCUIT MAGCONTACT FOR DOOR AJAR, FORCED ENTRY, A N D TIME CANCEL YELLOW "A" GREEN N.C. } FAILSAFECONTACTS SEEFAILSAFEDIAGRAM 18 X2 (-)BLACK 19 OBSERVE LEDLAMP POLARITY N.O.
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Figure 23 - HID MaxiProx Reader w/ DoorAjar & RTE CONNECTBLACKWIRES WITHAWIRENUT YELLOW BROWN RED RED BLACK CLOSED CIRCUIT MAGCONTACT FOR DOOR AJAR, FORCED ENTRY, A N D TIME CANCEL YELLOW "A" GREEN N.C. } FAILSAFECONTACTS SEEFAILSAFEDIAGRAM 18 X2 (-)BLACK 19 OBSERVE LEDLAMP POLARITY N.O.
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Figure 24 - Wiegand Card Reader w/ Door Ajar & RTE CONNECTBLACKWIRES WITHAWIRENUT YELLOW BROWN RED RED BLACK CLOSED CIRCUIT MAGCONTACT FOR DOOR AJAR, FORCED ENTRY, A N D TIME CANCEL YELLOW "A" GREEN N.C. } FAILSAFECONTACTS SEEFAILSAFEDIAGRAM 18 X2 (-)BLACK 19 OBSERVE LEDLAMP POLARITY N.O.
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Figure 25 - Door Strike and DC Power Supply AC TRANSFORMER YOUROPTIONAL BATTERY DONOTCONNECT TOASWITCH CONTROLLED RECEPTACLE 3YEAR MAXIMUMLIFE 18 19 INPUT 12VDC POWER SUPPLY INPUT (-) NEGATIVE (+) 1 2 V D C @ 1 A M P M A X 20 21 22 23 24 25 26 27 DONOTUSETERMINALS#28OR#29 TOSUPPLYPOWERTOTHEDOORLOCK 12VDC DOOR STRIKE 28 29 30 31 32 (-) (+) THESTRIPE GOESTO POSITIVE A1N4001DIODEMUSTBEUSEDOR THE SYSTEM 2 BOARD WILL BE DAMAGEDFROMA KICK-BACKSPIKE 33 34 35 36 37 DOOR RELAY 5AMP 30VDC
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Figure 26 - Magnetic LockandDCPowerSupply AC TRANSFORMER YOUROPTIONAL BATTERY DONOTCONNECT TOASWITCH CONTROLLED RECEPTACLE 3YEAR MAXIMUMLIFE 18 19 INPUT 12VDC POWER SUPPLY INPUT (-) NEGATIVE (+) 1 2 V D C @ 1 A M P M A X 20 21 22 23 24 25 26 27 12 VDCMAGNETIC DOOR HOLDER DONOTUSETERMINALS#28OR#29 TOSUPPLYPOWERTOTHEDOORLOCK 28 29 30 31 (-) THESTRIPE GOESTO POSITIVE (+) 32 33 34 A1N4001DIODEMUSTBEUSEDOR THE SYSTEM 2 BOARD WILL BE DAMAGEDFROMA KICK-BACKSPIKE 35 36 37 WHENUSINGMAGNETICDOORLOCK
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Figure 27 - Door Ajar & Request-To-Exit CONNECTBLACKWIRES WITHAWIRENUT YELLOW BROWN GREEN RED BLACK CLOSED CIRCUIT MAGCONTACT FOR DOOR AJAR, FORCED ENTRY, O R TIME CANCEL YELLOW "A" GREEN N.C. } FAILSAFECONTACTS SEEFAILSAFEDIAGRAM 18 X2 (-)BLACK 19 OBSERVE LEDLAMP POLARITY N.O.
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Figure 28 - Fail Safe Operation for Request-To-Exit YOUROPTIONAL BATTERY DONOTCONNECT TOASWITCH CONTROLLED RECEPTACLE AC TRANSFORMER 3YEAR MAXIMUMLIFE 18 19 INPUT 12VDC POWER SUPPLY 20 21 INPUT 22 (-) NEGATIVE 23 (+) 1 2 V D C @ 1 A M P M A X 24 25 26 27 12 VDCMAGNETIC DOOR HOLDER WHENUSINGMAGNETICDOORLOCKS,YOUMUST HAVEAFAILSAFEMEANSTOALLOWAUSERTOEXIT.
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Figure 29 - Zone Input using a MagneticContact 18 19 20 21 22 COMMONNEGATIVE(-) 23 24 25 26 27 500FTMAXIMUMDISTANCEFROM SYSTEM2TODOORCONTACT 28 29 2CONDUCTOR22AWG SHIELDEDCABLE 30 31 32 33 34 35 CLOSED CIRCUITMAGCONTACT TOREPORTAZONEVIOLATION 36 37 ZONEINPUT 1 SHIELD 2 3 4 5
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Figure 30 - Line Extender Module andWiegandCard Reader 500FTMAXIMUMDISTANCE FROMTHESYSTEM2TO THELINEEXTENDER 8CONDUCTOR22AWG SHIELDEDCABLE SHIELD ORANGE BLUE YELLOW 18 NOT USED 19 NOT USED 20 ORANGE BLUE YELLOW BLACK 21 22 COMMONNEGATIVE(-) GREEN 23 WIEGAND-DATA0 MAG-STRIPE-DATA WHITE 24 WIEGAND-DATA1 MAG-STRIPE-CLOCK 0 25 26 27 RED 28 READER/KEYPAD (+)5VDC125maMAX 29 BROWN + 1 0 30 GREENLED(-) 50maMAX 31 LED 32 33 34 SHIELD ORANGE BLUE YELLOW 35 } NOT USED 36 37 500FTMAXI
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Figure 31 - Shunt a Closed Circuit Alarm Contact 18 19 20 21 22 23 CLOSED CIRCUITALARM CONTACTISSHUNTED WHEN T H E D O O R I S OPENED BY A V A L I D C O D E 24 25 26 27 28 29 30 31 32 500FTMAXIMUM DISTANCEFROM SYSTEM2TO DOORCONTACT 8CONDUCTOR 22AWGCABLE 33 34 35 36 37 TOALARMPANEL CLOSED CIRCUITLOOP SHUNT RELAY 5AMP 30VDC
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Figure 32 - Emergency Drop Input 1 2 3 4 5 6 7 8 22GAUGE 500FTMAXIMUM 12VDCOUTPUT FROMTHE CONTROLPANEL 9 10 11 12 13 14 15
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Figure 33 - EPROM and RAM Chip Upgrades 6 DOOR 1 DOOR 2 A B THEKEYPADMUSTBEREMOVEDTOACCESSTHECHIPS 18 19 U4 U5 18 19 U6 20 20 21 21 22 22 23 23 24 3 25 4 26 27 24 5 LARGERCHIPS USETHESEPINS 25 26 LARGERCHIPS USETHESEPINS 27 THISDIAGRAMSHOWSTHESMALLER(PHYSICALSIZE)RAMCHIPSBEINGUSED. ALARGER(WIDER)RAMCHIPCANALSOBEINSERTEDINTHEU5ORU6SOCKETS.
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Figure 34 - Networking Multiple Systems Together SLAVE#1 14 15 MASTER SLAVE#2 14 15 14 15 120OHM RESISTOR 120OHM RESISTOR SHIELD SHIELD SHIELD NOTCONNECTED SHIELD NOTCONNECTED 22GAUGE SHIELDED TWISTEDPAIR 22GAUGE SHIELDED TWISTEDPAIR 1) ThediagramaboveillustratestheMasterinthemiddleoftheRS485buss. It isnotnecessarytoplacetheMasterinthemiddle,itcanbeplacedanywhereontheline. 2) Besureoneendoftheshieldfromthetwistedpairwireisscrewedtothemountingstudinthelower righthandcornerofthecircuitboard.
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INDEX INDEX AC Power Status . . . . . . . . . . . . . . . . . . Anti-Passback . . . . . . . . . . . . . . . Forgive Time . . . . . . . . . . . . Hard or Soft . . . . . . . . . . . . . Aux Outputs . . . . . . . . . . . . . . . . Automatic Output Operation Output Mode . . . . . . . . . . . . Trigger Event . . . . . . . . . . . . Auxiliary Outputs . . . . . . . . . . . . Auxiliary Relays . . . . . . . . . . . . . Backup-Restore . . . . . . . . . . . . . . Backup System 2 . . . . . . . . . Restore System 2 .
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INDEX Batch Enrolling Keypad Codes Additional Outputs . . . . . Anti-Passback . . . . . . . . . Code Type . . . . . . . . . . . . Door Schedules . . . . . . . . Memory Full . . . . . . . . . . Seed Number . . . . . . . . . . User Number . . . . . . . . . . Battery . . . . . . . . . . . . . . . . . . External Lithium Battery External Standby Battery Internal Lithium Battery . Replacement . . . . . . . . . . Testing . . . . . . . . . . . . . . Baud Rates . . . . . . . . . . . . . . . . . . . . . . . . . . .
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INDEX Enrolling DataChips . . . Additional Outputs . Anti-Passback . . . . Bad Code! . . . . . . . . Door Number . . . . . Door Schedules . . . Duplicate Code! . . . Memory Full . . . . . . User Chips . . . . . . . User Names . . . . . . User Numbers . . . . User Type . . . . . . . . EPROM Installation . . . . . . . ESN Chip . . . . . . . . . . . . External Back-up Power . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
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INDEX Magnetic Stripe Card Readers Overview . . . . . . . . . . . . . . Reader & LED Connections Styles . . . . . . . . . . . . . . . . . Wire Runs . . . . . . . . . . . . . . Main Relays . . . . . . . . . . . . . . . . Memory Expansion . . . . . . . . . . . Modem Setup . . . . . . . . . . . . . . . Cable . . . . . . . . . . . . . . . . . . Dip Switch Settings . . . . . . Software Settings . . . . . . . . Modems . . . . . . . . . . . . . . . . . . . Phone Modems . . . . . . . . . . Short-Haul Modems . . .
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INDEX Printer . . . . . . . . . . . . . . . . . . . Baud Rate . . . . . . . . . . . . . Connecting To a VDT . . . Connections . . . . . . . . . . . Dip Switch Settings . . . . . Ground . . . . . . . . . . . . . . . Wiring . . . . . . . . . . . . . . . Programming . . . . . . . . . . . . . . Accessing the System . . . Add or Change User . . . . . Anti-Passback . . . . . . . . . Backup-Restore . . . . . . . . Baud Rates . . . . . . . . . . . . Card Type . . . . . . . . . . . . Clear Memory . . . . . . . . .
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INDEX Reports . . . . . . . . . . . . . . . . . . . Configuration . . . . . . . . . . Events . . . . . . . . . . . . . . . . Schedule . . . . . . . . . . . . . . Users . . . . . . . . . . . . . . . . . Request-To-Exit . . . . . . . . . . . . Lamp & LED Connections Fail Safe Operation . . . . . . Ground . . . . . . . . . . . . . . . Heavy-Duty RTE Button . . Light-Duty RTE Button . . . Wiring . . . . . . . . . . . . . . . . Reset . . . . . . . . . . . . . . . . . . . . . RS232 Communications . . . . . .
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INDEX Wiegand Readers Cards . . . . . . . . . . . . . . . . . Overview . . . . . . . . . . . . . . Reader & LED Connections Styles . . . . . . . . . . . . . . . . . Wire Runs . . . . . . . . . . . . . Windows 3.1 . . . . . . . . . . . . . . . Baud Rates . . . . . . . . . . . . . Connections . . . . . . . . . . . . Starting Windows . . . . . . . Terminal Emulator . . . . . . . Windows Programming . . . . . . . Baud Rate . . . . . . . . . . . . . . Making the Connection . . . Terminal Emulator . . . . . . .
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