RBH Access Technologies Integra 32 UNC100 User manual
UNC100 Integra/Axiom Light Hardware Manual V1.3 Page 2of 21 RBH Access Technologies Inc.
Copyright Notice
Copyright©1995-2019 by RBH Access Technologies Inc.
All rights reserved Worldwide. Printed in Canada. This publication has been provided pursuant to an
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., Brampton, 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/Axiom Light Hardware Manual V1.3 Page 3of 21 RBH Access Technologies Inc.
Revision History
Editor
Revision
Comment
Date mm/dd/yy
DM
1.0
First Release
08/13/13
RB
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
DM
1.1
Minor editing of text.
03/24/14
RB
1.2
Changing output voltage from
12V to 12v –14v
Changing battery charger spec
07/21/14
DM
1.2
Editing of text:
-Changed graphic
-Removed relevant information
-Confirmed correct specifications
07/30/14
DM
1.2
Added ULC text.
Reconfigured order of pages.
08/06/14
RM
1.3
Minor editing of text.
Replaced UNC-100 Reader connection
picture
11/17/16
UNC100 Integra/Axiom Light Hardware Manual V1.3 Page 4of 21 RBH Access Technologies Inc.
Copyright Notice ............................................................................................................................................ 2
Trademark...................................................................................................................................................... 2
Disclaimer.......................................................................................................................................................2
Revision History .............................................................................................................................................3
UNC-100 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 .......................................................................................................................................... 8
Power Input / Output..................................................................................................................................... 8
Communication.............................................................................................................................................. 8
Networks........................................................................................................................................................ 8
RS485 Applications......................................................................................................................................... 8
DIP Switch Settings ........................................................................................................................................ 9
Controller Addressing .................................................................................................................................... 9
RS485 Port Baud Rate Selection ..................................................................................................................10
Host Connection...........................................................................................................................................10
PC to UNC100 Connection ........................................................................................................................... 10
Integra™ Network ........................................................................................................................................11
UNC100 & IOC8 Connection ........................................................................................................................12
RS485 Configuration ....................................................................................................................................14
Reader Interface ..........................................................................................................................................15
Reader Connection ......................................................................................................................................15
Outputs ........................................................................................................................................................16
Switching Inductive Devices (Locks, Bells) ...............................................................................................16
Output Operation ....................................................................................................................................17
General Purpose Output......................................................................................................................17
Lock Output..........................................................................................................................................17
Handicap Output..................................................................................................................................17
Forced / Tamper...................................................................................................................................17
Modem Power Output.........................................................................................................................17
Supervised Inputs.........................................................................................................................................18
Input Circuit Types ....................................................................................................................................... 18
Input Applications........................................................................................................................................19
Request to Exit (RTE)................................................................................................................................ 19
Door Contact (DC).................................................................................................................................... 20
General Purpose ...................................................................................................................................... 20
Access Point Operating Modes ....................................................................................................................20
High Security ........................................................................................................................................20
Unlocked ..............................................................................................................................................20
Tamper.................................................................................................................................................20
Lockout Alarm ...................................................................................................................................... 20
UNC100 Integra/Axiom Light Hardware Manual V1.3 Page 5of 21 RBH Access Technologies Inc.
Door Held Open Warning.....................................................................................................................20
Door Held Open Alarm.........................................................................................................................20
Keypad / Reader Combination.............................................................................................................20
Access Granted ....................................................................................................................................20
Access Denied ......................................................................................................................................20
UNC100 Specification...................................................................................................................................21
Cable Specification.......................................................................................................................................21
UNC100 Integra/Axiom Light Hardware Manual V1.3 Page 6of 21 RBH Access Technologies Inc.
UNC-100 Graphics
UNC100 Integra/Axiom Light Hardware Manual V1.3 Page 7of 21 RBH Access Technologies Inc.
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
To protect the battery from being drained during shipping/storage of the UNC100, there is a small paper
between the battery and the panel. This must be removed before powering up the panel.
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.
UNC100 Integra/Axiom Light Hardware Manual V1.3 Page 8of 21 RBH Access Technologies Inc.
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.
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 is achieved via the Ethernet interface. The UNC100’s RS485 channel
may be programmed as either NONE, INTEGRA or IOC8. Use the DIP switches to select the baud rate for
the Integra™ network communications as 9600, 38400, 57600, or 115200.
Networks
There are two networks supported by the UNC100 these are:
1) Host Communications through the Ethernet.
2) RS485 Communications;
a) Integra Network for devices such as additional IRC-2000s or URC-2000s starting at address 2, and
PC100s.
b) IOC8 Network for IOC8 input/output expansion boards.
RS485 Applications
Application name
Description
None
No connection to other devices.
INTG
The Integra selection connects the UNC100 controller to
other Integra units (e.g. IRC-2000s and URC-2000s) on a high-
speed RS485 network.
IOC8
This selection is used to connect the UNC100 with up to four
IOC8 boards and can not be used for connection with other
Integra panels.
UNC100 Integra/Axiom Light Hardware Manual V1.3 Page 9of 21 RBH Access Technologies Inc.
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 re-powered.
DIP Switch
DIP Switch
Function
1 - 4
Controller Address
5
Ethernet Secure Mode1
6,7
Controller Baud Rate
8
Not used
Controller Addressing
Controller Addressing
Switch 1
Switch 2
Switch 3
Switch 4
Address
Off
Off
Off
Off
Clear Memory
On
Off
Off
Off
1
Off
On
Off
Off
2
On
On
Off
Off
3
Off
Off
On
Off
4
On
Off
On
Off
5
Off
On
On
Off
6
On
On
On
Off
7
Off
Off
Off
On
8
On
Off
Off
On
9
Off
On
Off
On
10
On
On
Off
On
11
Off
Off
On
On
12
On
Off
On
On
13
Off
On
On
On
14
On
On
On
On
15
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.
1
DIP switch 5 up will enables Ethernet Secure Mode. This will prevent access to the controller’s programming
through the Ethernet.
UNC100 Integra/Axiom Light Hardware Manual V1.3 Page 10 of 21 RBH Access Technologies Inc.
RS485 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 other controllers. The baud rate must be the same as the baud rate
set for all Integra™ units on the network. The default baud rate is 9600.
Controller Baud Rate Selection
DIP Switch 6
DIP Switch 7
Baud Rate
OFF
OFF
9600
OFF
ON
38400
Host Connection
The controller is connected to the local Ethernet via a static IP address only [default address is
192.168.168.125]. To change the IP address of the unit you can either use IP Locator [a utility program
provided by RBH] or Telnet. The communications configuration is set in the Integra™software under the
network’s properties under the Comms tab.
PC to UNC100 Connection
PC to UNC100 Connection
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.
Name
Defaults
Description and notes
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IP ADDRESS
192.168.168.125
Local Ethernet address.
SUBNET MASK
255.255.255.0
Local Ethernet mask.
IP GATEWAY
0.0.0.0
Local Ethernet Gateway (Router).
PORT NUMBER
3002
Primary port number.
ALT PORT NUMBER
3003
Alternate port number applies to “LAN” application.
RS485
INTEGRA
Set the RS485 to INTEGRA in order to connect via RS485 to the PC
and other Integra™ devices.
Telnet Password
password
This is a string of up to 10 characters that allows the user access to
this program.
Integra™ Network
URC2000 panels may also be used in place of IRC-2000 panels.
Note: When UNC100 panels are used in conjunction with IRC2000 and URC2000 panels the last
panel in the line must be terminated.
UNC100 Integra/Axiom Light Hardware Manual V1.3 Page 12 of 21 RBH Access Technologies Inc.
UNC100 & IOC8 Connection
Up to four IOC8 boards may be connected to a UNC100. The connection is made through the RS485 port
and will only connect IOC8s.
Note: Only UNC100s added as ‘UNC100 with IOC8’ will be configured to connect to IOC8s, and will only
connect to IOC8s and will not connect to other Integra boards. Other Integra boards still be added to
the system via a different network (i.e. a different IP address).
The IOC8 comes in two types. One version with eight programable inputs and two open collector outputs.
The other version with the four programable inputs and four outputs, two open collector and two form C
relays. Both can be wired to the UNC100 on the same RS485 port.
UNC100 Integra/Axiom Light Hardware Manual V1.3 Page 14 of 21 RBH Access Technologies Inc.
RS485 Configuration
The RS485 port has three possible selections; NONE, INTG, & IOC8. Select NONE if the port isn’t going to
be used. INTG is used for PC connection and connection to other Integra panels. IOC8 will connect only
to IOC8 boards and will not connect to any other Integra panels.
Note: The UNC100 will connect to either other Integra panels or to IOC8 boards, not both.
UNC100 Integra/Axiom Light Hardware Manual V1.3 Page 15 of 21 RBH Access Technologies Inc.
Reader Interface
Two standard Wiegand interfaces provide the following connections for typical proximity readers.
Thermal fuse protected power (500ma @13vdc).
Reader Tamper Input(s): Initially, if open it will be ignored, but once a short is connected it will report a
reader tamper alarm whenever the input is opened.
LED and beeper outputs are open collector current limited to 100ma.
Reader Connection
UNC-100 to 12-Volt Reader Connection Diagram
1
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.
1
Reader wire colours may vary for different reader manufactures. Please verify your wiring.
UNC100 Integra/Axiom Light Hardware Manual V1.3 Page 16 of 21 RBH Access Technologies Inc.
Outputs (O/P)
There are two form C relays and two open collector outputs that can be programmed as general purpose
or default applications. The contacts are rated for 2 amperes at 30vdc. The recommended use of the
relays is to provide isolated outputs for driving electric strikes or magnetic locks at a maximum voltage of
24v. The open collector outputs are current limited to 100 milli-amperes direct current only.
Number
Default Application
Type
1
Lock Reader 1
Relay form C
2
Forced Entry Alarm Reader 1
Open Collector (100ma)
3
Lock Reader 2
Relay form C
4
Forced Entry Alarm Reader 2
Open Collector (100ma)
Switching Inductive Devices (Locks, Bells)
Exercise caution when switching an inductive load. Inductive devices include external relay, solenoids,
bells, and door locks. All of these devices generate extremely high voltage spikes (several thousand volts)
when applied power is removed. Possible disruption of operation could occur if this interference gets on
to the electronic circuit board.
This interference can be suppressed by placing a diode (1N4001 or similar) across the lock or other
inductive device being switched. Connect the diode cathode (end with band) to the positive terminal and
the other end to the negative terminal. The diode must be placed at the device being switched and not at
the controller.
UNC100 Integra/Axiom Light Hardware Manual V1.3 Page 17 of 21 RBH Access Technologies Inc.
Output Operation
General Purpose Output
General Purpose Outputs are outputs that are user controlled. They are activated and de-activated by
user defined links and schedules.
Lock Output
For magnetic locks, the relay should be configured from the PC as On State de-energized for fail-safe
operation. If power fails (AC and battery) the power to the magnetic lock is removed and the door is
opened.
Handicap Output
This output is used to drive door operators. It turns on in less than one second after the Lock Output is
turned on, and stays on until the Lock Output is turned off. Only designated cardholders will activate this
output.
Forced / Tamper
The Forced/Tamper output turns on if the door is forced open or if a reader tamper is detected. This
output remains on for as long as the alarm condition exists.
Modem Power Output
The Modem Power Output is a normally activated output that is used to reset a modem by momentarily
removing the power from the modem.
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.
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Supervised Inputs
The UNC100 has 4 fully supervised inputs. Each input is individually programmable from the PC Each input
has four states: Restore, Alarm, Trouble, and Illegal. Trouble is reported if a short or break is detected on
a supervised circuit and illegal is reported if the measured loop resistance lies between valid states. For
example, if the circuit type is programmed as “2 resistors normally closed”, 1k represents a restored state
and 2k represents an alarm state. If the loop resistance changes by more than 15% but not enough to
enter the next state, an illegal state is reported.
Input (I/P) Circuit Types
The UNC-100 supports seven different input circuit types ranging from no resistor for low security
applications to two resistor normally closed circuits where the highest security is required.
This circuit provides a high degree of supervision and detects both short and open circuit fault conditions.
Use this circuit in high security applications.
Normally Closed, No Resistor
Loop Resistance
State
Short
Restore
Open Circuit
Alarm
Normally Open, No Resistor
Loop Resistance
State
Short
Alarm
Open Circuit
Restore
Normally Closed, One Resistor
Loop Resistance
State
Short
Trouble
1k
Restore
Open Circuit
Alarm
Normally Closed, Two Resistor
Loop Resistance
State
Short
Trouble
1k
Restore
2k
Alarm
Open Circuit
Trouble
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This circuit type is used where normally open and normally closed contacts are used in the same loop.
Input Applications
Number
Default Application
1
General Purpose
2
RTE (Request to Exit) Reader A
3
DC (Door Contact) Reader A
4
RTE (Request to Exit) Reader B
5
DC (Door Contact) Reader B
Request to Exit (RTE)
The Request to Exit [RTE] input is connected to a push button mounted on the door or to a motion detector
mounted near the door. A normally open or normally closed button can be used and the circuit type can
be programmed from the PC. Activating the RTE input will unlock the door. The RTE can be disabled by
time zone.
Normally Open, One Resistor
Loop Resistance
State
Short
Alarm
1k
Restore
Open Circuit
Trouble
Normally Open, Two Resistor
Loop Resistance
State
Short
Trouble
1k
Alarm
2k
Restore
Open Circuit
Trouble
Normally Open And Normally
Closed, One Resistor
Loop Resistance
State
Short
Alarm
1k
Restore
Open Circuit
Alarm
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Door Contact (DC)
The Door Contact [DC] input monitors the state of the door. Forced entry, door held open alarm, and door
held open warning require monitoring of the door state.
General Purpose
The General Purpose selection is used for inputs that are not directly associated with the access point.
Access Point Operating Modes
High Security
The Red LED flashes quickly.
In High Security Mode, only cardholders with High Security Privilege are allowed access.
Unlocked
The green LED turns on to indicate the door is unlocked.
Tamper
The Buzzer sounds continuously.
Lockout Alarm
The Buzzer beeps rapidly.
A lockout alarm occurs when a user-defined number of “Access Denied‟ messages occur.
These messages can include “Invalid Card Number‟, “No Access at this Time‟, “No Access at this Reader‟,
or “Invalid PIN Code‟.
Door Held Open Warning
The Buzzer beeps slowly.
Door Held Open Alarm
The Buzzer sounds continuously.
Keypad / Reader Combination
The Buzzer emits a short beep every second after a card is presented, until a PIN is entered.
Access Granted
The Buzzer emits one long beep and the green LED turns on for the duration of the unlock time.
Access Denied
The Buzzer emits two short beeps and the red LED flashes twice.
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.
Table of contents
Other RBH Access Technologies IP Access Controllers manuals
