Rbh sound Unc100 User manual

UNC100 Integra Manual

New Generation

Building Security

July 30, 2014 –V1.2

UNC100 Axiom Hardware Manual V1.2 RBH Access Technologies Inc.

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agreement containing restrictions on its use. No part of this book may be copied or distributed,

transmitted, stored in a retrieval system, or translated into any human or computer language, in any

form or by any means, electronic, mechanical, magnetic, manual, or otherwise, or disclosed to third

parties without the express written consent of RBH Access Technologies Inc., Mississauga, Ontario,

Canada.

Trademark

Integra™is the trademark of RBH Access Technologies Inc. Windows is a trademark of Microsoft

Corporation. All other product names mentioned herein are the property of their respective owners.

Use of a term in this book should not be regarded as affecting the validity of any trademark or service

mark.

Disclaimer

This book is provided as is, without warranty of any kind, either express or implied, including but not

limited to performance, merchantability, or fitness for any particular purpose. Neither RBH Access

Technologies Inc. nor its dealers or distributors shall be liable to any person or entity with respect to any

liability, loss, or damage, caused, or alleged to have been caused directly or indirectly by this

information. Further RBH Access Technologies Inc. reserves the right to revise this publication, and to

make changes to the content hereof from time to time, without the obligation of RBH Access

Technologies Inc. to notify any person or organization of such revision or changes.

RBH ACCESS TECHNOLOGIES INC.

2 Automatic Road, Suite 108

Brampton, Ontario

CANADA

L6S 6K8

UNC100 Integra Hardware Manual V1.2 RBH Access Technologies Inc.

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Revision History

Editor

Revision

Comment

Date mm/dd/yy

1.0

First Release

08/13/13

1.1

Removed reference to fire input

Removed partial firmware upgrade (formats)

Added dip-switch 5

Added Revision History

Updated copyright

Eliminated reference to rack mount type

Clarified the use of the Power Input/ Output

Moved all cable specs to one location.

Moved all input specs to one location.

Moved all output specs to one location.

Reduced the number of pages.

03/19/14

1.1

Minor editing of text.

03/24/14

1.2

Changing output voltage from

12V to 12v –14v

Changing battery charger spec

07/21/14

1.2

Editing of text:

-Changed graphic

-Removed relevant information

-Confirmed correct specifications

07/30/14

1.2

Added ULC text.

Reconfigured order of pages.

08/06/14

UNC100 Axiom Hardware Manual V1.2 RBH Access Technologies Inc.

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New Generation............................................................................................................................................. 1

Building Security ............................................................................................................................................ 1

Copyright Notice ............................................................................................................................................ 2

Trademark...................................................................................................................................................... 2

Disclaimer....................................................................................................................................................... 2

Revision History ............................................................................................................................................. 3

Panel Graphics ............................................................................................................................................... 6

Introduction ................................................................................................................................................... 7

ULC-S319-05 III.............................................................................................................................................. 7

Battery Charger.............................................................................................................................................. 7

Reverse Battery Protection............................................................................................................................ 7

Battery Test.................................................................................................................................................... 7

Fuse Monitoring............................................................................................................................................. 7

Diagnostic LED’s ............................................................................................................................................. 7

Tamper Detection .......................................................................................................................................... 7

Power Input / Output..................................................................................................................................... 8

Communication.............................................................................................................................................. 8

Networks........................................................................................................................................................ 8

RS485 Applications......................................................................................................................................... 8

DIP Switch Settings ........................................................................................................................................ 8

Controller Addressing .................................................................................................................................... 9

RS485 (HOST) Port Baud Rate Selection ...................................................................................................... 10

Host Connection........................................................................................................................................... 11

PC to UNC100 Connection –RS485 Wiring.................................................................................................. 11

UNC100 TCP/IP Connection ......................................................................................................................... 12

Reader Interface .......................................................................................................................................... 14

Reader Connection ...................................................................................................................................... 14

Outputs ........................................................................................................................................................ 15

Switching Inductive Devices (Locks, Bells) ............................................................................................... 15

Output Operation .................................................................................................................................... 16

General Purpose Output ...................................................................................................................... 16

Lock Output.......................................................................................................................................... 16

Handicap Output.................................................................................................................................. 16

Forced / Tamper................................................................................................................................... 16

Modem Power Output......................................................................................................................... 16

Supervised Inputs......................................................................................................................................... 17

UNC100 Integra Hardware Manual V1.2 RBH Access Technologies Inc.

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Input Circuit Types ....................................................................................................................................... 17

Input Applications ........................................................................................................................................ 18

Request to Exit (RTE)................................................................................................................................ 19

Door Contact (DC) .................................................................................................................................... 19

General Purpose ...................................................................................................................................... 19

Access Point Operating Modes .................................................................................................................... 19

High Security ........................................................................................................................................ 19

Unlocked .............................................................................................................................................. 19

Tamper................................................................................................................................................. 19

Lockout Alarm ...................................................................................................................................... 19

Door Held Open Warning..................................................................................................................... 19

Door Held Open Alarm......................................................................................................................... 19

Keypad / Reader Combination............................................................................................................. 19

Access Granted .................................................................................................................................... 19

Access Denied ...................................................................................................................................... 19

UNC100 Specification................................................................................................................................... 20

Cable Specification....................................................................................................................................... 20

UNC100 Axiom Hardware Manual V1.2 RBH Access Technologies Inc.

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Panel Graphics

UNC100 Integra Hardware Manual V1.2 RBH Access Technologies Inc.

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Introduction

The UNC100 has been designed as a two door access control panel with a built in local area network

interface, that can also provide a single door in/out access point.

The network interface also utilizes a POE (power over Ethernet) converter.

ULC-S319-05 III

For ULC-S319-05 III compliance, all wiring into the panel’s cabinet must enter through metal conduit.

Also be sure to mount the panel in a protected area.

Battery Charger

The battery charger routes input power from the 13.8v input source or POE module and constantly

monitors the battery voltage.

Reverse Battery Protection

A combination of a three ampere diode and a 1.6 amp thermal fuse protects against accidental

connection of a battery in the reverse direction.

Battery Test

A battery test cycle is operator initiated or scheduled. When initiated the charger is turned off and a

24Ω resistor provides a load to the battery for about ten seconds. If during this period the voltage drops

below 10 volts a battery alarm message is sent to the host, otherwise a battery normal message is sent.

Fuse Monitoring

Besides monitoring the battery voltage the UNC100 also monitors the input voltage (DC), auxiliary

voltage (aux) and the reader voltage (reader) and reports to the host whenever the state changes.

Diagnostic LED’s

The RS485 circuit has a red and green LED to indicate when a signal is received or transmitted.

Host Comms LED is a bicolour LED that turns red when receiving data from the host, and turns green

when transmitting of data.

The Run LED will flash slowly when connected to the host and quickly when not connected.

The Trouble LED will flash when there is a power problem such as a low battery or low auxiliary power is

detected.

Tamper Detection

A tamper wire may be connected to JP1 located close to the center of the board. A short to this input is

normal and an open is alarm.

UNC100 Axiom Hardware Manual V1.2 RBH Access Technologies Inc.

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Power Input / Output

Located on the top right corner of the board is a jumper that selects if the power terminals are to be

used to supply power or provide power. Select “OUT” when using a POE supply and require 13.8V @

500ma for other equipment.

When not using POE, the jumper should be set to “IN”.

The UNC100 controller requires 13.8VDC to be supplied from an external source. (Note: Although the

unit can run on 12VDC, you will need 13.8VDC to be able to charge backup batteries.

Communication

The UNC100 has one RS485 port and an Ethernet 10/100 interface. Communications from the host

computer running Integra™software can be achieved in the following ways; either via the Ethernet

interface or via RS485 through a direct connection to a designated channel. The UNC100’s RS485

channel may be programmed as either NONE or INTEGRA. Use the DIP switch to select baud rate for

Host communications as 9600, 38400, 57600, or 115200.

Networks

There are two networks supported by the UNC100 these are:

1) Host Communications through the Ethernet or direct connection.

2) Integra Communications for devices such as additional IRC-2000s or URC-2000s starting at address

2, and PC100s.

RS485 Applications

Application name

Description

None

No connection to other devices.

Integra

The Integra selection connects the UNC100 controller to

other Integra units (e.g. IRC-2000s and URC-2000s) on a high-

speed RS485 network.

DIP Switch Settings

The UNC100 DIP switch controls the device’s address and serial port baud rate.

Note: To Clear Panel memory –All DIP switches must be off and the unit powered off and

on.

DIP Switch

Function

1 - 4

Controller Address

Ethernet Secure Mode1

6,7

Controller Baud Rate

Not used

1DIP switch 5 up will enables Ethernet Secure Mode. This will prevent access to the panel’s programming through

the Ethernet.

UNC100 Integra Hardware Manual V1.2 RBH Access Technologies Inc.

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Controller Addressing

Use DIP switches 1, 2, 3, and 4 to select the controller address. The address is binary coded and the

switch settings for all fifteen possible addresses are given below.

Controller Addressing

Switch 1

Switch 2

Switch 3

Switch 4

Address

Off

Clear Memory

Off

UNC100 Axiom Hardware Manual V1.1 RBH Access Technologies Inc.

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RS485 (HOST) Port Baud Rate Selection

The controller's serial port baud rate is set with controller DIP switches 6 and 7. This setting determines

the speed used to communicate with the PC; the controller baud rate must be the same as the baud rate

set for the port within the Integra™ software. The default baud rate is 9600.

Controller Baud Rate Selection

DIP Switch 6

DIP Switch 7

Baud Rate

OFF

9600

OFF

38400

OFF

57600

115200

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