Integra 32 System Design Guide

System Design Guide June 2016 2

The Integra 32 platform is designed for access control applications of up to 128 doors : the basic
platform employs a simple architecture based on two-door controller boards and free system man-
agement software that supports up to 64 doors.
System expansion to the supported maximum of 128 doors can be added at any time via software
licensing : additional licenses are available for photo-badging, biometrics and CCTV integration,
Web client support, visitor management and card import.
This guide discusses the considerations in designing an Integra 32 access control system.
Integra 32 Controllers.................................................................................................... 4
Designing an Integra 32 System ................................................................................... 6
Adding Elevator Control................................................................................................. 8
Integra 32 System Topologies....................................................................................... 9
Controllers, Kits and Accessories................................................................................ 11
Integra 32 Security Management Software ................................................................. 15
Proximity Readers ....................................................................................................... 17
RBH Proximity Credentials.......................................................................................... 19
Wireless Receivers...................................................................................................... 20
Wireless Transmitters.................................................................................................. 21
Fingerprint Readers..................................................................................................... 22
Scramble Pad High Security Keypad .......................................................................... 23
Vandal Resistant Readers........................................................................................... 23
Integra 32 System Features ........................................................................................ 24
Controller Specifications.............................................................................................. 44

UNC-100 Universal Network Controller
IRC-2000 Two-Door Controller
Dimensions:
 Metal shell : 19.7 cm x 14 cm x 8 cm/
7.75” x 5.5” x 3.8”
 In enclosure : 31 cm x 36 cm x 8 cm/
12” x 14” x 3.25”
Power Requirement (Non-POE+ version) :
 1.5 A @ 13VDC
Inputs : Four plus cabinet tamper
Outputs : 2 Form C Relay and 2 Voltage
Temperature Range: 32° F - 158° F / 0° C - 70° C
 Two-door access controller
 RS485 connection to PC
 TCP/IP Connection to PC via LIF-200 module
 5000 cards
 3000 event history buffer
Dimensions: 31 cm x 36 cm x 8 cm/
12” x 14” x 3.25”
Power Requirement:
16.5 VAC, 40 VA transformer (minimum)
16.5 VAC 75 VA (if lock power required)
Inputs : Eight
For complete controller specifications and cable requirements see page 44.
Controllers
 Two-door access controller
 TCP/IP or RS485 connection to PC
 POE+ and non POE versions
 8000 cards

URC-2004 Four-Door Controller
URC-2008 Elevator Controller
 Four-door access controller
 3000 cards
 Eight-floor elevator controller
 Expandable to 32 floors
 3000 cards
12” x 14” x 3.25”
Power Requirement:
16.5 VAC, 40 VA transformer (minimum)
16.5 VAC 75 VA (if lock power required)
12” x 14” x 3.25”
Power Requirement:
16.5 VAC, 40 VA transformer
Inputs : Eight
Inputs : Four
Elevator Control Outputs : 8 Form C Relay
For complete controller specifications and cable requirements see page 44.
Controllers

A single Integra system can support as many as 128 doors : Integra controllers are available in dif-
ferent configurations to provide a flexible, cost-effective access control solution.
The key factors in determining which combination of controllers will best suit an application are:
Ethernet or Power over Ethernet + : In most access control applica-
tions, a standard Ethernet connection is used to connect the controller net-
work to the management PC and power for the controllers and associated
devices is supplied separately: with RBH POE+ controllers, up to 25.5
watts of power can be supplied at the controller through the Ethernet
connection. POE+ use is still limited in most premises and it is critical to
assess the required power for controllers, strikes and related devices to
ensure reliable operation. Fore more details, contact your local RBH repre-
sentative.
Distance of Readers from Controllers : Readers are installed near the door they
are controlling access to, so one of the earliest choices will be whether to use a cen-
tralized or distributed installation method. Most access control readers have a
maximum distance of 152 meters / 500 feet from the controller, so if there is an electri-
cal or utility room on the site that is within this maximum distance from all controlled
access points, the centralized method can be used. Larger premises may find it neces-
sary to incorporate a distributed design, in which individual controllers are installed
throughout the facility to stay within the distance limitation of the readers. Once the
type of installation is decided, the method of connecting the management PC to the
system and how expansion controllers will be supported can be considered.
Connection to the Management PC : If an Ethernet connection is availa-
ble within the maximum supported distance (100 meters / 328 feet) of an In-
tegra controller, the built-in RJ-45 connector on the UNC-100 makes it an
ideal choice for connection to the management PC. When an Ethernet con-
nection is not within range, the TCP/IP LAN Gateway (LIF-200) can be used
to convert the TCP/IP connection to the RS485 protocol, which supports a
maximum distance of 4000 feet. If the RS485 protocol is used, any model of
Integra controller can be connected directly to the management PC.
Designing An System
+

Which controller models to use : In addition to considering how the controllers will connect
to the management PC, the following factors should be considered:
 Maximum card support varies by controller model : the UNC-100 supports
up to 8000 cards, the IRC series supports up to 5,000 cards and the URC has
a maximum capacity of 3,000 cards.
 Number of controlled doors : the UNC-100 and IRC series are two-door
controller assemblies : the URC series is available in a four-door configuration
that reduces the overall footprint and installation time by incorporating 2 two-
door PCB’s in an enclosure the same size as the IRC two-door cabinet. All of
the controller models feature a 3000 event memory buffer.
Which readers to use : the type of reader technology, mounting and read
range required all play a part in choosing the appropriate readers. Depending on
the application, multiple reading technologies may be required...for example, a
site may require access control on both man doors and parking garage doors -
the parking garage doors will require a considerably longer read range so
different readers will be required on these particular access points.
Which credentials to use : in addition to selecting a range of credentials
that are technologically compatible with the readers, the physical type that will
best suit the site is an important consideration. Clamshell cards are economic,
sturdy and provide excellent read range, but cannot be printed to directly :
graphic quality PVC cards can be printed to directly but are thinner and easier
to damage. Fobs (keytags) attach easily to a keyring and are very durable but
their effective read range is less than either card technology. And if multiple
reader technologies are used (as in the parking garage example above) more
than one type of credential may be required : a wireless keyfob with an
embedded proximity chip is one approach in such situations.
Software : Integra security management software provides a comprehensive interface for
managing the system : additional software licenses can expand reader support from 64 to 128,
integrate CCTV, biometrics, visitor management, and web client support.
Designing An System continued

Does the site require elevator control? : When a floor button is pushed in an elevator cab, it
closes a contact inside the panel that signals the elevator machinery to move the cab to the selected
floor : to control access to particular floors a modified version of the Integra door controller is used.
Instead of a single output for a lock, the elevator controller outputs are Form C relays : these relays
will be connected to the elevator’s floor selection button circuitry. When an access card is presented
to the elevator cab reader, the access level associated with the card determines which floors that
cardholder has access to. Accordingly, the relays in the elevator controller will change state so that
only the floor button presses for accessible floors are transmitted to the elevator machinery : floor
button presses outside of the cardholder’s access level are not ’heard’ by the elevator machinery.
When designing an elevator access control application, the first consideration is the number of floors
that actually require this restriction : in the example above, the twenty story building is controlling ac-
cess only to its top four floors : if there were two cabs eight relays would be required (four for each
cab reader).
Like standard access points, elevator access is associated with Integra access levels and have the
same scheduling flexibility. Restricted access to floors can also be enabled according to schedule.
The Integra URC-2008 supports two elevator cab readers and includes an
ELEV-8 eight Form C relay output board : the enclosure has space for an ad-
ditional ELEV-8. Additional relay board enclosures can be added to increase
support for a URC-2008 controller to a maximum of thirty two floors for two
cabs. For specifications and product codes please refer to pages 5 & 12.
Elevator Control
URC-2008 Relay Outputs
Floor Selection 17 Input
Elevator Control Circuitry
Elevator Cab Reader
Access Credential Number

System Topologies
Management PC
UNC-100 UNC-100 UNC-100
In this example, all of the UNC-100 two-door controllers are connected to the management PC us-
ing the premises’ Ethernet network. The important considerations in using this configuration are:
 Ethernet connections support a maximum length of 100 meters (328 feet)
 Maximum cable length from a reader to a controller is typically 150 meters (500 feet)
 Each controller represents a network connection : standard Integra software supports up to 32
such connections and can be expanded to support up to 64 through software licensing.
This application uses a single network connection to the UNC-100 : system expansion is achieved
with the RS-485 terminal on the first controller. The maximum length of the RS-485 run between
controllers is 1200 meters (4000 feet). The same Ethernet and reader distance considerations as
Example 1 apply.
 The expansion controllers can be UNC, IRC or URC series controllers : each two-door PCB
counts toward the total door capacity supported by the system (64 standard, 128 via software
licensing. Up to 16 controller PCBs can be supported on a single network connection.
RS-485 RS-485
Management PC
Ethernet
Ethernet

Two network connections are being used on this particular site : the first supports a single UNC-100
two-door controller. The second connects another UNC-100 which in turn supports additional ex-
pansion via the RS-485 terminals. This hybrid connection method will be transparent to the man-
agement PC user. The same cable length and system capacity considerations as in the previous
examples apply (up to 16 PCBs per network connection).
System Topologies
RS-485
In some applications connection to an Ethernet network may not be possible or practical : in these
instances, the controllers will be connected to the management PC using the LIF-200 RS-485 to
TCP/IP converter module ( see page 13). Any Integra controller series (UNC, IRC or URC) can be
connected to the PC in this fashion : maximum length of the RS485 run is 1200 m (4000 feet).
This flexibility allows the choice of the most appropriate controller assembly for a specific location :
for example, the first connected controller may be restricting access to four doors so the URC-2004
would be the logical choice for this location. Subsequent controllers can be selected based on the
number of doors requiring access control, cardholder support required and the number of inputs /
outputs needed at each location.
RS-485
LIF-200
Management PC
Management PC
Ethernet

UNC-100 Two-Door Controller Kits
RBH-INT-UNC100-122S-360N……………………………………...…UNC-100 Kit with two FR360N Readers
RBH-INT-UNC100-132S-360N…………..………………….....UNC-100 POE+ Kit with two FR360N Readers
RBH-INT-UNC100-122S-2400………………………...……………….UNC-100 Kit with two SR2400 Readers
RBH-INT-UNC100-132S-2400………...…………………….…UNC-100 POE+ Kit with two SR2400 Readers
Each package includes a door controller and 2 amp power supply in a
metal enclosure, Integra 32 software and two proximity readers. Trans-
former and backup battery not included.
UNC-100 Door Controller
RBH-INT-UNC100-122M………………………………..……...................…UNC-100 Controller Module Only
RBH-INT-UNC100-132M……………………………………………....UNC-100 POE+ Controller Module Only
RBH-INT-UNC100-122S………………………….…...UNC-100 Controller in Enclosure with Power Supply
RBH-INT-UNC100-132S……………………....UNC-100 POE+ Controller in Enclosure with Power Supply
Kits include a UNC-100 network controller and 2 amp power supply in a
metal enclosure, Integra 32 software and two proximity readers. Transform-
er and backup battery not included.
IRC-2000 Two-Door Controller Kits
RBH-IRC-2000-B………………………………………………………………….IRC-2000 Controller Board only
RBH-IRC-2000………….……………..…IRC-2000 Controller with enclosure & 13.8VDC 2A power supply
RBH-IRC-2000-FR360N…………………….………...…………..…..…..IRC-2000 Kit with 2 FR360N Readers
RBH-IRC-2000-2400MP………………………………….......................IRC-2000 Kit with 2 SR-2400 Readers
Kits include a door controller and 2 amp power supply in a metal enclosure,
Integra 32 software and two proximity readers. Transformer and backup
battery not included.
Controller Kits

URC-2004 Four-Door Controller Kits
RBH-URC-2004………………………...…..…….Four Door Controller with enclosure & 2A power supply
RBH-URC-2004-FR360N………………………………….…………URC-2004 Kit with four FR360N Readers
RBH-URC-2004-2400MP……………………………………….……URC-2004 Kit with four SR2400 Readers
The URC-2004 kit includes a door controller and 2 amp power supply in
a metal enclosure, Integra 32 software and four proximity readers.
Transformer and backup battery not included.
URC-2005 Four Door Rack Mount Controller
RBH-URC-2005…………………………….………………….…19” Rack Mount Universal 4 Door Controller
The URC-2005 consists of two URC-2000 circuit boards mounted on a 19” rackmount plate
(2U footprint). Electronic specifications for this configuration are the same as for the URC-2004.
A 12 VDC 2 A power supply is required for the assembly.
URC-2008 Elevator Controller
RBH-URC-2008………………………………..……………….…………………..Eight floor Elevator Controller
RBH-URC-ELV8-B…………………………………………...…..…….Eight Floor Elevator Expansion Module
RBH-URC-ELV8-1………………………………. …8 Floor Elevator Expansion Module in Metal Enclosure
RBH-URC-ELV8-2………………………….………16 Floor Elevator Expansion Module in Metal Enclosure
The URC-2008 Elevator Controller provides access control for up to eight
floors on two elevator cabs, and supports expansion up to thirty-two
floors.
Controller Kits

The Exit reader module support the connection of two readers to an Integra
two-door controller with just a single cable run to the access controller : the
module is designed to fit conveniently inside a standard single gang electri-
cal box and features removable connectors for easy installation. Ideal for
adding cost-effective IN/OUT reading to new or existing applications.
 Dimensions: 5.1 cm x 4.6 cm x 2.0 cm / 2”” x 1.8” x 0.8”
 Current Consumption: 30 mA
RBH-EXITRDR………..……………..……………………Exit Reader Module
Exit Reader Module
LIF-200 TCP/IP LAN Gateway connects RBH Access Control panels to a
host PC via the Internet or a local/wide area network. Both RS-485 and RS-
232 are supported, selectable via hardware switch. Automatic discovery
software is included. Maximum RS485 cable length is 4000 feet (1200 m).
 Dimensions: 9.3 cm x 6.7 cm x 2.2 cm / 3.7”” x 2.6” x 0.9”
 Current Consumption: 230 mA @ 12 VDC
RBH-LIF-200…..…………………….……....…LIF-200 TCP/IP LAN Gateway
LIF-200 TCP/IP LAN Gateway
The alarm panel module is used to interface DSC alarm panels with the In-
tegra : it utilizes the DSC IT100 module to allow communications between
the Integra and DSC Power Series Burglar Alarm panels. The PC100 is
programmed through Integra Software and is designed to be “Stand
Alone” : while the host PC is offline the PC100 continues to monitor access
activity allowing interaction between the Access and Alarm Systems.
RBH-PC100-DSCIN………………...PC100 Alarm Panel Interface for DSC
PC100 Alarm Panel Interface for DSC
Accessories

The IOC8 controller is available in two different configurations : The IOC8-8
-2 features 8-fully supervised inputs and 2 electronic outputs. The IOC8-4-
4 supports 4 inputs, 2 Form C outputs and 2 electronic outputs. The small
form factor simplifies mounting, either in the Integra enclosure or separate-
ly. Maximum supported distance of the RS485 run is 4000 feet (1200 m)
from controller. Compatible with UNC-100 controllers.
 Dimensions: 6.7 cm x 7.6 cm x 1.6 cm / 2.625”” x 3.0” x .625”
 Current Consumption: 30 mA @ 12 VDC
 RS485 Communications cable : Shielded pair 22 AWG
 Power cable : 1 pair 22 AWG
 Outputs : 100 mA open collector (electronic) / 5 A @30VDC (relay)
RBH-IOC8-8-2…..……………………….………….…………8 input / 2 output IOC8
RBH-IOC8-4-4….………….4 input / 2 Form C output / 2 electronic output IOC8
IOC8 Input / Output Controller
Accessories
ENCL-1 enclosure with IOC8

Integra 32 software includes cardholder management, live event and alarm
displays with system component interaction, popup access point activity
and photo ID display, dynamic mapping and a comprehensive report gener-
ator. Features fully customizable interface per operator including up to fif-
teen languages. Included with every Integra 32 controller. The licenses be-
low and on page 16 can be added to the base package to integrate features
directly into the software interface.
 Up to 64 Doors
 Up to 99 system operators
RBH-INT32-SOFT……………….…....Integra 32 Security Management Software
Integra 32 Security Management Software
The Integra 32 Software Suite increases the number of supported doors to
128 and network support to 64 . The suite also adds photo-badging, card
import, visitor management and web client functionality to Integra 32 Secu-
rity Management software. Product # RBH-INT32-SOFT (see above) is re-
quired.
RBH-INT32-SUITE……………………………….…..…….Integra 32 Software Suite
Integra 32 Professional Software Suite
The app provides current door status , door lock/unlock, view of the past
two weeks of history for system doors, addition and modification of sched-
ules, addition and modifications of holidays, cardholder search by card
number, first name or last name, addition and modification of cardholders.
Operators log in using their standard Integra 32 password, which deter-
mines the parts of the system they can view and/or control. Product # RBH-
INT32-SOFT (see above) is required.
RBH-INT32-WEB-M…….……………………..……………..Integra 32 Android App
Integra 32 Android App
Software
 32 Schedules with 8 time zones
 Up to 32 networks
For Integra 32 PC requirements see page 29

The fingerprint integration module adds fingerprint enrollment and verifica-
tion to the Integra 32. It’s automatically included with our BFR-150 finger-
print reader (page 23). Contact RBH Sales for a list of already integrated
biometric platforms and the corresponding XXX product code. Product #
RBH-INT32-SOFT (lntegra 32 Security Management Software) is re-
quired.
RBH-INT32-BIO-XXX……....……………………Integra 32 Fingerprint Integration
Integra 32 Fingerprint Integration Module
Adds email support address for each Integra 32 software management user
(operator). System events and alarms can be configured to transmit to a
selected operator always or according to a specific schedule.
RBH-INT32-EMAIL……………………….…….Email License for Integra Software
Email License for Integra Software
RBH-INT32-RESET-PW………………...….Password Reset for Integra Software
RBH-INT32-SOFT-UPGD…………...…..Upgrade to the latest version of Integra
RBH-INT32-REPL-INT32………………….....….Re-issue CD for Integra Software
Miscellaneous Integra Software Products
Software
The CCTV integration module provides an Integra operator with direct sys-
tem-wide access to live video, event viewing, history event-based video
search and video export functionalities. Contact RBH Sales for a list of al-
ready integrated platforms and the corresponding XXX product code. Prod-
uct # RBH-INT32-SOFT (lntegra 32 Security Management Software) is
required.
RBH-INT32-CCTV-XXX………………………...………Integra 32 CCTV Integration
Integra 32 CCTV Integration Module
For Integra 32 PC requirements see page 29

Compatible with all standard access control systems. Direct on-metal
mounting, internal piezo sounder, independently controllable tri-color LED.
Electronics are fully sealed in tamper resistant epoxy potting.
 Dimensions: 11.4 x 4.7 x 2.0 cm / 4.5” x 1.85” x 0.8”
 Dimensions w/plate: 14.0 cm x 7.8 cm x 2.3 cm / 5.5” x 3.05” x 0.92”
 Current Consumption: 90 mA max
 Temperature Range: -40°C to 65°C / -40° F to 149° F
RBH-FR-360N……………………….….…….AWID + Keri (Weigand) Compatible
RBH-FR-360N-H……………………….……………...……AWID + HID Compatible*
RBH-FR-360N-MSN………………….……...…Multi-sector reader, Mifare, AWID
RBH-FR-360N-SWPL…………………..Wall mount plate adapter for all FR360N
*Contact RBH to determine if a specific HID format is supported.
FR-360N Series Mullion Mount Readers
Proximity Readers
For access points requiring Card + PIN operation : alternatively, the keypad
reader can be programmed to use either a card or a PIN number. Backlit
for easy visibility and featuring a tactile keypad and raised ’pip’ on the # 5
key to guide visually impaired users. Rated to IP67.
 Dimensions: 15.7 cm x 13.5 cm x 3.3 cm / 6.2” x 5.3” x 1.3”
 Temperature Range: 32° F to 120° F / 0° to 50° C
RBH-FK-640……………………….…………........Keypad Reader with AWID Prox
RBH-FK-640-H……………………….……...Keypad Reader with AWID, HID Prox
RBH-FK-640-MSN………………………....…...….Smartcard Reader with Keypad
FR-640 Prox/ Reader Keypad
Access Credentials for these readers appear on Page 21

Proximity Readers
The MM-6800 provides up to 8 inches of read range in a slim, compact en-
closure, and delivers excellent performance without compromising quality,
durability, attractive appearance, and ease of installation. Designed to fit
perfectly on the 1-3/4 inch standard metal door frame or window mullion.
AW-MM6800MP…….……..…….…….MM-6800 Mullion-Mount Proximity Reader
MM-6800 Mullion-Mount Proximity Reader
The SP-6820 is designed to mount directly on a single-gang box. The read-
er provides up to 8 inches of read range. For outdoor installations, the SP-
6820 should be housed in a suitable enclosure.
 Dimensions: 11.7 cm x 7.9 cm x 1.7 cm / 4.6” x 3.1” x .65”
AW-SP6820MP-GR…………...…….…….KP-6820 Switchplate Proximity Reader
KP-6820 Switchplate Proximity Reader
The SR-2400 is designed to fit on a 1-3/4 inch standard metal door frame
or window mullion. Metal compensation assures minimal loss of range
when mounted on a metal surface. May be installed outdoors.
AW-SR2400-MP………………..……….……..…………SR-2400 Proximity Reader
SR-2400-Multi Prox Proximity Reader

Switchplate-type multiprox reader combined with a 12-key numeric keypad,
in a unit that fits on a single-gang box. Read range with cards is up to 8
inches. The keypad may be used for PIN entry, programming a controller,
enrolling card codes, and general data entry.
AW-KP6840MP-GR……….………….….KP-6840 Proximity Reader with Keypad
KP-6840 Proximity Reader with Keypad
Proximity Readers

Proximity Readers
The MR-1824HiLo set is a pair of standard MR-1824 readers that are spe-
cially programmed as identical “HiLo” units : RF output of the units is coordi-
nated so that only one of the readers is active at any point in time. This al-
ternation occurs about 3 times per second, and avoids interference be-
tween readers in applications where the units must be mounted less than
12 feet from each other. The metal-compensated versions offer up to 16” of
read range when mounted on a metal surface at least as large as the read-
er. Each product number consists of two reader units.
 Current Consumption: 1 Amp
AW-MR1824-HiLoMP-GR……...….MR-1824 Hi-Lo Mid-Range Proximity Reader
AW-MR1824MC-HiLo-MP-GR.…….MR-1824 Hi-Lo Metal Compensated Reader
MR-1824 HiLo Duty Cycle Coordinated Readers
The MR-1824 is a high-power reader for mid-range proximity reading dis-
tance housed in a self-contained enclosure. Read range with cards is up to
24 inches. The MR-1824 is used frequently in parking facilities, for driver
identification, vehicle access or any other applications requiring higher read
ranges. The metal-compensated version offers up to 16” of read range
when mounted on a metal surface at least as large as the reader.
AW-MR1824MP-GR.…….…….....….…….MR-1824 Mid-Range Proximity Reader
AW-MR1824CMP-GR.…… ..….MR-1824 Metal Compensated Proximity Reader
MR-1824 Mid-Range Proximity Reader

RBH 50-bit proximity credentials for reader on pages 17 through 20. Typical
read ranges for mullion and wall mount proximity readers are shown (range
is greater for the mid-range readers shown on page 20). Ranges are stated
in a clean RF and electrical environment using the credential presented
parallel to reader surface with reader operating at 12 VDC. Read range
may be affected by local installation conditions. Range will be less when
mounted to metal.
AW-PROX-LINC-CS…….Clam Shell, Portrait Orientation pre-punched Cards
 Read Range: Up to 6” / 15.2 cm
AW-PROX-LINC-GR……...…Graphic Quality PVC Cards, both sides printable
AW-PROX-LINC-GRMAG….Graphic Quality 3 track High Co Mag Stripe Cards
AW-PROX-LINC-KT…………….…………...…………………..…Proximity key tag
AW-PROX-LINC-PW……Proximity Wafer, 1 Inch Diameter, adhesive backing
RBH 50-Bit Proximity Credentials
Proximity Credentials

Wireless Readers
Ideal for access control applications requiring remote activation, the FR-
4400 receiver offers up to 200 feet of read range, easily adjustable with the
unit’s built-in dial. Dual Weigand outputs allow the receiver to control ac-
cess to two adjacent doors or parking gates with the TR-2 two-button trans-
mitter. Up to four access points can be controlled by using the TR-4 four-
button transmitter with two FR-4400 receivers installed within the effective
range. Alternatively, the fobs can be used to provide IN / OUT access at
doors requiring exit identification.
 Dimensions: 160 cm x 86.3 cm x 58.4 cm / 6.3” x 3.4” x 2.3”
 Range : 30 meters / 100 feet fixed
 Current Consumption: 80 mA typical
RBH-FR-4400.………………..……....Long Range Adjustable Wireless Receiver
FR-4400 Adjustable Long Range Wireless Receiver
The FR-2200 fixed range receiver features two Weigand outputs that con-
nect to an access controller’s reader inputs : the two button fob can be
used to trigger each output separately, providing remote activation for two
side by side doors, or IN / OUT activation on a single door. The FR-2200 is
ideal for controlling access to overhead garage doors, parking gates or any
application where presentation of an access card to a reader is impractical
or inconvenient and is suitable for outdoor installation.
 Dimensions: 76.2 cm x 76.2 cm x 83.82 cm / 3” x 3” x 3.3”
 Range : 30 meters / 100 feet fixed
 Current Consumption: 80 mA typical
RBH-FR-2200.…………..………………………….Fixed Range Wireless Receiver
FR-2200 Fixed Range Wireless Receiver
Wireless Transmitters for these readers appear on the following page

Wireless Transmitters
Transmitters for the fixed and long-range wireless remote activation receiv-
ers on page 22 : each is also available in versions that integrate an AWID
or HID proximity chip, perfect for applications requiring remote activation
and man-door access from the same credential.
 Wireless Range: Dependent on receiver (see page 22)
 Presentation Range: Up to 5.1 cm / 2.0”
RBH-F-TR-2…………………………………………….….…..….2 button transmitter
RBH-F-TR-4…………………………………………….…...…….4 button transmitter
RBH-F-TR-2-A…………………..…..….2 button transmitter with AWID prox chip
RBH-F-TR-4-A…………………..….…..4 button transmitter with AWID prox chip
RBH-F-TR-2-H…………………..….….....2 button transmitter with HID prox chip
RBH-F-TR-4-H………………...…..…..….4 button transmitter with HID prox chip
Wireless Transmitters for FR Series Receivers

Fingerprint Readers
The BFR-150 reader can be used for fingerprint verification only or with a
Mifare (smart) card for Card + fingerprint verification (unit is Read-only).
Features a highly accurate optical sensor, three color LED for acceptance /
rejection differentiation and a tamper switch. The BFR-150 can be used for
direct enrollment of users : in applications where this process will be ongo-
ing, the optional enrollment reader RBH-BFR-USB can be used. The Inte-
gra software license for integrating the unit is included.
 Dimensions: 11.4 x 4.7 x 2.0 cm / 4.5” x 1.85” x 0.8”
 Dimensions with Plate: 14.0 cm x 7.8 cm x 2.3 cm / 5.5” x 3.05” x 0.92”
BFR-150……….………….………………..….......Mullion Style Fingerprint Reader
RBH-BFR-USB………..…..….BFR Series USB Fingerprint Enrollment Scanner
BFR-150 Fingerprint Reader
BFR series fingerprint reader with 125 KHz multi-prox and integrated key-
pad. Includes LCD display with 128 x 64 pixel resolution. Features automat-
ic finger detection. Support for up to 9500 templates. IP–65 rated housing.
Enrollment scanner RBH-BFR-USB can be used for ongoing addition of
cardholder fingerprints to the database. The Integra software license for in-
tegrating the unit is included.
RBH-BFR-350S……………….….….Fingerprint Reader with Integrated Keypad
RBH-BFR-USB……………….BFR Series USB Fingerprint Enrollment Scanner
BFR-350 Fingerprint Reader

UHF Long Range Readers
Ultra High Frequency (UHF) reader for applications such as gate or parking
garage access. In ruggedized housing suitable for outdoor applications.
Read range of 25 feet (7.6 m). Requires the AW-PS-123.3A power supply.
 Dimensions: 25 cm x 25 cm x 3.3 cm / 9.8” x 9.8” x 1.3””
AW-LR-3000-B-U.…….……....….………...….LR-3000 Extra Long Range Reader
LR-3000 Extra Long Range Reader - Outdoor
Like the LR-3000, the LR-2000 long range UHF reader provides a read
range of 25 feet (7.6 m) with AWID UHF tags. The device requires a hous-
ing with a minimum IP64 rating if the installation will be outdoors. Requires
the AW-PS-123.3A power supply.
 Dimensions: 20.3 cm x 20.3 cm x 2.86 cm / 8” x 8” x 1.125””
 Current Consumption: 1.5 Amp
AW-LR-2000-B-U.…….……….….………...….LR-2000 Extra Long Range Reader
LR-2000 Extra Long Range Reader - Indoor
The LR-2000 long range UHF reader set consists of two units programmed
so the RF fields transmitted by each unit alternate with a 50% duty cycle, so
they can be installed in close proximity with no interference. Ideal for appli-
cations involving vehicles of varying sizes or where mixed UHF tags and
cards are used. Use IP64 rated housings when the reader will be exposed
to the elements. Each reader requires the AW-PS-123.3A power supply.
 Dimensions per unit : 20.3 cm x 20.3 cm x 2.86 cm / 8” x 8” x 1.125””
 Current Consumption per unit : 1.5 Amp
AW-LR2000HiLo-MA-B-U .…….………..….Extra Long Range Reader Hi Lo Set
Extra Long Range Reader Hi Lo Set
Access Credentials for these readers appear on the following page

UHF Long Range Credentials
Credentials for the long-range UHF readers on page 25 : range varies as noted.
AW-CS-UHF-00……………………………………….………….UHF Clamshell Card
 Molded slot at end for strap, chain or small hook : range up to 20 feet (6.1. m)
AW-GR-UHF-0-0………………..……………………….UHF Graphics Quality Card
 High quality PVC card with matte finish : range up to 15 feet (4.6 m)
AW-VT-UHF-0-0……………………………….………………………...UHF Visor Tag
 Clips on either sun visor, facing reader : range up to 15 feet (4.6 m)
AW-WS-UHF-0-0…………………………………………..….….UHF Windshield Tag
 Adheres permanently inside windshield : range up to 25 feet (7.6 m)
AW-RV-UHF-0-0…………….…………………………....UHF Rear View Mirror Tag
 Adheres permanently on rear-view mirror shell: range up to 20 feet (6.1 m)
AW-MT-UHF-0-0………………...…..….………………...LR-2000 Metal Mount Tag
 Attaches to metal surface (or most materials) : range up to 15 feet (4.6 m)
AW-HT-UHF-0-0…………………………...…………………………....UHF Hang Tag
 Hangs from the post of a rear-view mirror : range up to 10 feet (3.0 m)
UHF Tags for Long Range Readers
Power supply for UHF long range readers on page 25.
 Dimensions: 4 1/4" x 2" x 1 1/4"
 Voltage / Current Output: 12 VDC / 3.3 Amps
PS-123.3A ………….…..….Power Supply for AWID Long Range UHF Readers
PS-123.3A Power Supply

Vandal Resistant Readers
Solid aluminum vandal resistant keypads are designed for tough environ-
ments and are completely sealed : they are IP68 rated. Mounting screws
are protected by the CLICK-N-LOCK system. Bright, independently con-
trolled LEDs and built in sounder provide informative feedback. Available in
3 x 4 key or 2 x 6 key configurations with either an 8-bit keyburst output or
a 26-bit Weigand output.
 3 x 4 Keypad Dimensions: 8.1 x 13 x 2.1 cm / 3.189” x 5.118” x .827”
 2 x 6 Keypad Dimensions: 4.45 x 18.1 x 2.1 cm / 1.752” x 7.126” x .827”
RBH-KP34-26………….................Vandal Resistant 3 x 4 keypad / 26-bit output
RBH-KP34-086………….................Vandal Resistant 3 x 4 keypad / 8-bit output
RBH-KP26-26……….....................Vandal Resistant 2 x 6 keypad / 26-bit output
RBH-KP26-08…………...................Vandal Resistant 2 x 6 keypad / 8-bit output
Vandal Resistant Keypads
Proximity reader constructed of stainless steel and Fiber- Tex® (UL752
listed for bulletproof integrity) provides the highest levels of vandal re-
sistance. The 400-VR-H features support for RBH and HID access creden-
tials. Delivers non-contact read ranges of up to 1 inch (25 mm). To allow
both indoor and outdoor operation the electronics are secured in tamper re-
sistant epoxy potting. Mounting provisions include two countersunk 0.25
inch thru-holes, as well as four ¼-20 tapped holes in the back, providing the
option of a tamper-proof blind mount.
RBH-FR-400VR-H …………….…………...….Vandal Resistant Proximity Reader
Vandal Resistant Proximity Reader

The RBH scramble keypad provides higher security because each time it’s
used, digits 0 through 9 are allocated at random to each of the 10 keys.
Casual observers will not be able to view the codes entered because only
the user standing directly in front of the device can see the numbers : in ap-
plications where certain codes are used frequently, the wear on the buttons
will be equal, making it impossible to determine the code from signs of re-
peated use on the same keys.
 Dimensions: 13.7 cm x 10.6 cm x 5.2 cm / 5.4 ” x 4.2 ” x ” 2.0
 Current Draw: 500 mA maximum
 Temperature Range: -15°C to 50°C / 5° F to 122 ° F
RBH-RK-3000-SMK-2…….…...…..Scramblepad keypad with Surface Mount kit
RBH-RK-3000-SPMK-2………...Scramblepad keypad with Recessed Mount kit
RBH-RK-3000-PMK-2……....…....Scramblepad keypad with Panel Mounting kit
RBH-RK-3000-SSMK-2……..Scramblepad keypad/ ADA Compliant Surface kit
Scramble Pad High Security Keypad
The MR10 reader offers a basic magnetic card stripe interface, accepting
low or high-coercivity magnetic stripe cards with standard track 2 encoding.
Enclosed in a die cast metal housing suitable for both indoor and outdoor
applications. The MR20 model offers the same functionality and also incor-
porates a 12-position membrane keypad. All signal lines are protected from
Electrostatic Discharge (ESD).
 Dimensions: 8.1 x 13 x 2.1 cm / 3.189” x 5.118” x .827”
MR10…………….…..............MR-10 Mag-Stripe Track 2, Outdoor Swipe Reader
MR20……...….MR-20 Mag-Stripe Track 2, Outdoor Swipe Reader with Keypad
MR Series Magnetic Stripe Readers
Specialty Readers

Features
Integra 32 security management software is a powerful Windows™ based user interface for
programming system hardware parameters, managing cardholders and viewing real-time
event information for the Integra Access Control system. Understanding the software’s fea-
tures can provide a significant advantage in a competitive sales situation : this section of the
Design Guide discusses the benefits Integra 32 system features can provide your prospects.
PC Requirements
Operating system : Windows 7, Windows 8 / 8.1, Windows 10, Windows Server 2008,
and/or Windows Server 2012
Microprocessor (CPU) : Pentium IV 1. 0GHz
Memory : 1 GB (minimum), 2 GB (recommended)
Hard disk space : 1Gb (Installation), 10Gb free space (to run)
 The user installing the Integra32™ system must have Administrator rights to the Operat-
ing System.
 System performance will be affected by the microprocessor speed. The minimum require-
ment is 1.0GHz, but higher speeds will enhance the performance of the system. Systems
that utilize functions such as global antipassback or global links, as well as systems that
use features with a lot of graphic content (such as displaying cardholder picture) should
have higher microprocessor speeds to insure that the system doesn’t bog down. When
more features are being used, the higher microprocessor speeds will benefit the system.

Features
Integra System Operators
Up to 99 operators can be assigned individually definable privileges to view and/or manage the
Integra 32 system, with support for 16 languages.
 Database Access : Each operator can be assigned Read /
Write, Read Only or No Access privileges to separate sections
of the Integra 32 database (i.e. schedules, access points,
cardholders). The user-friendly interface expedites the pro-
cess of adding or modifying existing data and each operator’s
profile can be programmed to display only the sections appro-
priate to their role, further simplifying training requirements
and user interaction.
 Monitoring: Controls the specific events an operator will
see on the real-time event screen : each operator profile can
be set up to display as little or as much real time event infor-
mation as the operator’s position requires. The profile also de-
termines the ability of the assigned operator to generate data-
base / history reports ( see page 34) or run a system backup.
 System Status and Control : Integra 32 software op-
erator profiles can be configured to view the status of
system devices and carry out commands such as grant-
ing access, locking/unlocking doors, resetting areas,
arming/ disarming input points and activating/
deactivating outputs. All status and control options are
individually programmable per device type. Refer to
page 33 for additional details.
Whatever an operator’s assigned level of privilege, the Integra 32 stores a complete audit trail of
their actions in the system database for review and printing through the Report Generator (pages
34 and 35).

Features
Cardholder Screen Features
The Integra cardholder screen provides an operator with a sim-
ple, user-friendly interface for adding and activating cardhold-
ers : individual tabs are provided for each of the following:
 Cardholder name, card number, access level, activation /
de-activation dates and special privilege options (such as
High Security and Lock/Unlock capability) are all located on
the first tab.
 Cardholder address and contact information. Including
email address and department.
 Photo and signature import via input device or selection
from file : cardholder photos can be displayed on the Ac-
cess Point Activity screen during access events for vis-
ual verification of identity.
 Notes regarding the individual cardholder.
 A screen of customizable ‘blank’ fields that may be
used for additional information (employee number,
parking spot, date hired, etc.) : these custom fields can
be included in the report generator and badge creation
sections of the software.
Finding an individual cardholder is quick and easy : simply
begin typing characters into one of the fields on the cardholder
screen and press the Enter key to filter the records according to the
text string entered.
The Search button on the cardholder screen can also be used to
quickly select any of the Cardholder fields and enter the desired
Search value. And any custom fields created in the Integra data-
base can be used as criteria for the Search - for example, if a car is
parked in an unassigned spot it’s a quick process to find out who
owns the vehicle by referencing the license plate number.

Features
Real Time Event Log / Alarm Screen
When Integra’s security management PC is connected to the system, the Event Log and Device
Status screens provide real time information about system events and components.
The Event Log is color-coded to immediately identify the basic type of event : green highlighted
messages represent access granted events, while the red highlighted ones indicate access denied
and system alarm events. Messages with a black background are system related (changes to pro-
gramming, download progress messages, etc.)
The Alarms screen is a separate section of the interface that
displays only alarm events, highlighted in red. Clicking on an
individual alarm event will display the Alarm Details window : in
addition to specifics about the event itself, this window can con-
tain an Instruction for the operator (these messages are pro-
grammed and associated with alarms during setup) The Action
field allows the operator to enter the actions they took after the
alarm. The choice can also be made to Acknowledge the alarm
(changing the highlight to green) or leaving it unacknowledged
(red highlight remains). A default alarm sound can also be ena-
bled on the PC under System Options.
Events displayed on the Event Log can be controlled through the
System Message settings, which determine if events will be
displayed on screen, sent to history, sent to a printer, and/or sent
in ASCII / XML to a connected DVR. This is especially useful for
applications where routine messages - for example, Access
Granted - do not need to be displayed on the operator screen :
as long as the History checkbox is enabled for the event, it will
still be archived in the system’s audit trail with time and date.

Features
Real Time Status Screen
Another real time display available when Integra software is connected to the system’s controllers
is the Status Screen : it provides a quick view of the current state of system devices, areas and
cardholders and allows an operator control of devices if their profile supports this.
In the screen capture above the Cardholders button has been selected with an option to show all
cardholders : accordingly, the display shows the last area each cardholder badged into.
The Areas status screen displays similar information but the selection is by area, so the list is sort-
ed alphabetically by system area : note that in either instance the list can be resorted using any of
the displayed columns by clicking on the column’s heading. Clicking on the same heading toggles
between showing the contents in ascending or descending order.
Selecting the Reader, Inputs, Outputs, Panels or Floors buttons displays the
status for these devices. If the logged-in operator has control capabilities in
their profile, they can access commands for the devices by right clicking on
each. Inputs may be armed or disarmed, outputs turned on or off. Access
granted, lock/unlock and mode changes can be carried out on readers.
There are three options for operator-issued commands : permanent com-
mands override any schedules applied, semi-permanent commands
change operation until the next scheduled change, and timed commands
change the mode of operation for a specified duration (up to 127 minutes).

Features
Report Generator
In addition to providing a more secure environment by controlling
access to areas of a building, the Integra system is a source of
important information about everyday activity in the premises.
The standard Integra security management software package
includes a comprehensive report generator with a preview button
that allows inspection of the report prior to export or printing :
export formats include Adobe pdf, .csv , XML and Crystal Re-
ports. Reports are available in two separate categories.
Database reports contain all system pro-
gramming in multiple different categories includ-
ing cardholders, access levels, scheduling and
system hardware. In addition to the prepro-
grammed options already represented in the re-
port list, most also provide sorting within the out-
put by up to five selectable fields.
History reports consist of time and date stamped
Integra system events. The Start and End date and
time ranges for the report are selectable : if the Daily
Report option is checked only events between the
Start and End times for each day in the date range
will be included. A key reason for maintaining con-
nectivity between the host PC and the Integra con-
trollers is continuity in the database event log, which
is the source of the history reports.
The buffer in Integra controllers stores events but eventually deletes them as newer ones occur,
so occasional connection between the software and hardware is recommended to ensure conti-
nuity in the audit trail.

Features
Time and Attendance Reports
Integra Time and Attendance reports are a part of the
History reports mentioned earlier, but they are among
the most useful and flexible of the reports included. They
provide cardholder access granted events for a specified
time/date range and automatically calculate totals : in
applications where readers are used to badge IN and OUT
of an area, the report will show the length of time a
cardholder was IN a given area for each day and also for
the duration of the period specified for the report : for example, if each cardholder is IN a given
area for 8 hours a day and the report is run with a specified period of five days, the default settings
will result in a report that shows each day’s hourly total (8 hours) and the sum for the period
specified (40 hours) for each individual cardholder.
Clicking the Preview button displays a preview of the selected report with the option to print or
export the report in a variety of formats (pdf, Csv, Crystal Reports, XML and more). The following
report options are available :
 Show Report by Card Name : each card associated with a cardholder record can be
given a name identifying its type (i.e. RBH Prox) : checking this box includes this name as the
primary sorting field.
 Show Summary Only : a summary of the total hours for the specified date range is
shown for each cardholder.
 Page per cardholder : prints separate page(s) for each cardholder’s total hours when
checked.
 Show Simple Report : enabling this checkbox auto-checks the Show Summary and First
Entry and Last Exit boxes to create a summary that shows only the first IN event and
last OUT event with no hourly totaling.
 First Entry and Last Exit boxes: displays the first IN and last OUT events for each day, also
sums the hours per day and the total for the specified report period.

Features
Multi Card Addition
Integra’s cardholder screen includes a multi-card option, which al-
lows the operator to add a consecutive range of cards to the system
simultaneously, complete with access level, activation and expiry
dates . The first and last card numbers are entered and Integra soft-
ware auto-generates the sequential card values between the two.
For each such entry, the First Name field value will be the card num-
ber and the Last Name field will be the word ’Card’.
AP Activity
The AP (Access Point) Activity screen is a real time display that can
be toggled on and off using the AP Activity radio button at the top of
the software interface : it is configured in each Access Point’s proper-
ties and can be configured to display Access Granted, Access Denied
and / or Access Requested events, all with the card number, time and
date, cardholder’s name and photo. Once enabled, the AP Activity
screen will automatically display the associated events even when the
Integra security management application is minimized. As with any
real time system event display, this feature requires that the software
is running and the PC is connected to Integra controllers.
Auto-Void User Option
The system can be programmed to automatically void any card that has
not been used for a specified number of days : individual cardholders
can be set up to ignore this automatic void process (especially useful
for personnel who may often be away for extended periods as a part of
their normal routine).

Features
High Security Mode
Each Integra 32 access point can be programmed to operate in this
mode, which grants access only to cardholders who have the High
Security option enabled in their profile. The access point can be set
up to operate in this mode permanently, operated according to a
system schedule, or enabled temporarily through the Links function
(page 39) . Cardholders whose profile includes the High Security
privilege can also toggle this mode on individual readers by present-
ing their access credential to the selected reader four-times (for
more information on multi-swipe activation see page 38).
Event Buffer
Integra controllers feature an onboard memory buffer that retains
the most recent 3000 system events in a time-and-date stamped
format : if the management PC is offline for a period of time, the
contents of this buffer will be copied to the software database im-
mediately upon reconnection, ensuring continuity in the site’s audit
trail. The buffer uses a First-In-First-Out method to refresh the
events on an ongoing basis, so the number of system events that
occur daily will determine the frequency with which the software
should be connected to guarantee this continuity.
Card Plus PIN Mode
Card Plus PIN mode requires both a valid access card and entry of the
user’s associated PIN for access to be granted. Each Integra access point
can be individually configured to require the PIN confirmation according to
a system schedule or at all times : on doors where this functionality is re-
quired, proximity readers that incorporate a numeric pinpad will be used.

Features
Multi-Swipe Commands
Cardholders can execute system commands by using their access token multiple times with an
access point reader. Each presentation of the credential (swipe) is audibly confirmed by the
reader.
Two Swipes : Unlock / Relock Access Point This command toggles locking
and unlocking of the reader’s associated access point : the cardholder must
have Unlock Privilege enabled in their profile and the access point and time of the
command must be included in their access level. This is ideal for applications
where an access point has a lock/unlock schedule associated with it but occa-
sions such as an early opening or closing require the mode be changed immedi-
ately.
Four Swipes : High Security Toggle An access point in High Securi-
ty mode grants access only to cardholders with the corresponding
feature enabled in their profile : these cardholders can also toggle High
Security for an access point on and off by swiping their access token four
consecutive times at the reader associated with the access point.
Three or Five Swipes : Link Execute Privilege
Integra links can be used to automate system mode
changes and/or the activation of outputs according to
schedule or for events on inputs and access points : the
privilege to execute specific links at readers can also be
enabled for individual cardholders . Link commands
include Output on/off, Input arm/disarm, Forced entry
enable/disable and Clear Area. Up to eight commands can be associated with a single link.
For additional details see Integra Links on page 39 and Global Links on page 40.

Features
Integra Links
Integra 32 Links provide programmed, logical connections between system events, access
point, inputs and outputs that execute commands automatically.
Example 1 : An Integra 32 site also has an intrusion system in-
stalled : whenever the intrusion system is armed, the readers controlling
access through the main doors should switch into High Security Mode
(page 37). By connecting a ‘System Armed’ output from the intrusion
system to an Integra 32 input, a link can be created to automatically
make this mode change : disarming the intrusion system returns the se-
lected doors to their normal state.
Example 2 : An access-controlled door on an Integra 32 system has a
weekday unlock schedule from 9 to 5 but occasionally the office closes
early and when this occurs the users wish to lock the door ahead of
schedule : for this situation, a ‘2-swipe’ link can be programmed (see
page 39) that will lock the door immediately until the next scheduled
change of mode. This option is enabled per cardholder, ensuring that
only the appropriate personnel can carry out the lock/unlock command.
Example 3 : In addition to cardholder and input initiated links, any
schedules that are set up in the Integra system can be used to ac-
tivate and de-activate system outputs. For example, an unlock schedule
for an area can additionally be associated with an output that will trigger
an input on a lighting system, so area lights will automatically illuminate
and extinguish along with the unlock schedule. Any electronic system
that accepts dry contact inputs as a trigger can be used with Integra
links. And Integra system operators can override any scheduled outputs
with either a permanent or semi-permanent command (see page 33)
so on occasions when the automation is not required it can be easily
shut off and reinstated when necessary.

Features
Global Links
Integra Global links operate in the same fashion as local links but they are designed for sites
where link functionality is required across multiple controller networks : in this type of application ,
the management PC relays the link command between the networks. The most important thing to
consider in the use of Global Links is that the Integra software must be running and connected to
system controllers for the link activation to work (although it is not necessary to have an operator
logged in to the software for the links to function).
Here’s an example : each building in the illustration below has an Integra system : they are all
connected to the management PC through Integra networks that spans all of the buildings. If any
of the access points are switched to High Security mode, the owners want all of the main entrance
points of the buildings to switch to this mode automatically.
The building’s security personnel may have the High Security multi-swipe command capability in
their profile to initiate the mode, or it may be triggered by Integra inputs : whichever the case, this
example of the Global Links feature ensures that the lockdown will be instantaneous across the
Integra networks when appropriate. Only cardholders with the High Security privilege will be able
to access these points, and only those with the multi-swipe command capability will be able to
toggle the mode back to normal (returning the access points to their normally scheduled
operational state). Restoral of the affected input(s) can also be used to return to normal operation.
Because the command must be carried out across Integra network connections, this automatic
activation must be programmed under the Global Links heading in Integra software : for links within
a single network of Integra panels, the software does not have to be running for the link to execute
(see previous page for more details).
Building 2 High Security mode initiated
Integra 32 Management PC sends High Security Command to remaining building networks

Features
Anti-Passback
Anti-passback prevents the abuse of user access tokens by requiring
that a user exits an area before that user is allowed to gain access to
the same or another area.
The Integra system provides reader-based or area-based anti-
passback.
 Reader-based operation designates the area an entry reader
controls access to : when a cardholder is granted access at such a
reader, they are considered to be in that area. Unless the same card-
holder subsequently badges into a different area, attempts by that
user to access the same area will be denied. Integra areas can be
programmed to clear (reset) areas at a designated time to re-allow
entry into the areas. A timer may also be associated with the anti-
passback process (see below for more details).
 Area-based anti-passback uses entry and exit readers
on each access point : cardholders must badge out of a
given area before they can badge into another without
generating an anti-passback violation. The area the user
is exiting must match the area they are currently ‘in’.
The Integra 32 can be programmed with hard anti-passback (which denies access if the card-
holder is in anti-passback violation) or soft anti-passback (which allows access but logs the
APB violation in the database). Timed anti-passback will deny access on APB violation for a
programmable period of time, after which the cardholder may re-enter the area : this is typically
used in paid parking garages, where only an IN reader is used (prevents a user from sharing their
paid parking privileges with others).
When anti-passback is required across Integra networks, Global Anti-Passback uses the sys-
tem’s management software to monitor cardholder IN/OUT activity across the controllers, so it
must be running and connected to all networks in order to ensure the appropriate anti-passback
decisions are made throughout (like the Global Links feature described on page 40).
IN
OUT
IN

Features
10 cards per cardholder
Each Integra cardholder can be as-
signed up to 10 uniquely configured
cards, with an identifier on the card-
holder’s record that displays the card
number and descriptor for every cre-
dential. Each of the 10 cards can
have the same or different access
levels associated with it.
Multiple Access Formats
Integra access controllers support up to five simultaneous access token for-
mats for each two - door controller. This is useful on sites where a variety of
credentials or technology types (i.e. proximity and wireless) are being used.
Integra controllers already include support for over 50 popular formats : in
conjunction with support for up to 10 unique credentials for any system us-
er, this provides flexibility and security for new sites mixing credential tech-
nologies and an easy migration path for sites where older access control
system must be replaced but the current access tokens are still usable.
Different access levels can be assigned for each unique credential
Interlock
Interlock is an option selectable on each access point on the
Integra : when enabled on more than one door, it inhibits access
granted functionality on any of the doors in the interlock relation-
ship if any one of them is open.
This is typically used in applications where access must be grant-
ed through a series of doors with the assurance that each ac-
cessed door will be re-closed and secured before the next one is
allowed to be released, regardless of the access privileges of the
cardholder. A popular term for this functionality is ’man-trap’.

Features
First Person Delay
Any Integra access point can be programmed to unlock at the begin-
ning of a selected system schedule and relock at the end : this is a
great convenience feature for doors that should be publicly accessi-
ble at a certain time each day…..but what if a snowstorm or traffic
emergency has delayed personnel who would normally be in the
premises when the scheduled unlocking occurs? The First Person
Delay option selectable for each access point ensures the scheduled
unlocking will occur only if a cardholder has been granted access to
that point prior to the beginning of the unlock time.

Controller Specifications
System Design Guide June 2016
ControllerUNC-100IRC-2000URC-2004
PowerRequirements12‐14VDC16.5VAC,40VA16.5VAC,40VA
CurrentConsumpon250mA‐‐
ControllersperNetwork16168*
Numberofinputs4(+cabinettamper)88*
Numberofoutputs
2SPDT5A@30VDC
2Electronic,12VDC.100mAmax
4SPDT5A@30VDC
4SPDT5A@30VDC
4Electronic,12VDC.100mAmax*
Numberofcardholders8,0005,0003000
AuxiliaryVoltageOutput12‐14VDC@500mAN/AN/A
Operangtemperature0to70C(35‐150F)0to70C(35‐150F)0to70C(35‐150F)
CommunicaonsBuilt‐inTCP/IP,RS485RS485RS485
PCBDimensionsMetalshell:7.75"x5.5"x1.5"3"x6.5"/7.62cmx16.5cm
EnclosureDimensions
12"x14"x3.25"/
30.5cmx35.6cmx8.3cm
12"x14"x3.25"/
30.5cmx35.6cmx8.3cm
12"x14"x3.25"/
30.5cmx35.6cmx8.3cm
CableRequirements
Communicaons
(Ethernet)
CAT5communicaonscable
Maximum323feet/100meters
N/AN/A
PCtoController(RS485)
Twistedpair,shielded,
stranded18to22AWG
Maximum2000‐4000feet/
600‐1200meters
stranded18to22AWG
600‐1200meters
stranded18to22AWG
600‐1200meters
Readers(AccessPoints)
20to22AWG,6or8‐conductor,
stranded,shielded(nottwisted)
Input/OutputPortLoop
2‐conductor,20to22AWG
44

Controller Specifications
ControllerURC-2005URC-2008
PowerRequirements12VDCLinear2A16.5VAC,40VA
CurrentConsumponN/AN/A
ControllersperNetwork8*16
Numberofinputs8*4
Numberofoutputs
4SPDT5A@30VDC
MainPCB:2SPDT2A@30VDC
ElevatorControlOutputs:
8SPDT2A@30VDC
Numberofcardholders30003000
AuxiliaryVoltageOutput‐‐
Operangtemperature0to70C(35‐150F)0to70C(35‐150F)
CommunicaonsRS485RS485
PCBDimensions19"x3.5"/48.3cmx8.9cmN/A
EnclosureDimensionsN/A
12"x14"x3.25"/
30.5cmx35.6cmx8.3cm
CableRequirements
PCtoController(Ethernet)N/AN/A
PCtoController(RS485)
stranded18to22AWG
600‐1200meters
stranded18to22AWG
600‐1200meters
Readers(AccessPoints)
Input/OutputPortLoop

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