vi
®
Installation Guide
CSI Readers
DISCRDR, IDISCRDRB, IDISCRDRMP, KEYRDR, CRDRDR, MAGSWIPEID, KEYPIN1,
KEYPIN2, CARDPIN1, CARDPIN2, Dorado 780, WK11, WC11, WS11, WS21, WT11,
PINPAD26, PR-103, PR-105, PR-110, PR-112, PR-120, PR-122, PR-503, PR-505
TCON112.—.06/00
We at Control Systems International (CSI) have tried to make the information contained in this manual as accurate and reliable
as possible. Nevertheless, CSI disclaims any warranty of any kind, whether express or implied, as to any matter whatsoever
relating to this manual, including without limitation the merchantability or fitness for any particular purpose.
CSI will, from time to time, revise the product(s) described in this manual and reserves the right to make such changes without
obligation to notify the purchaser. In no event shall CSI be liable for any indirect, special, incidental, or consequential damages
arising out of purchase or use of this manual or the information contained herein.
1992–1995, 1997, 2000 by Control Systems International. All rights reserved.
Printed in the United States of America.
Document Number: TCON112–06/00
I/NET, Control Systems International, and the Control Systems International logo are registered trademarks of Control Systems
International.
FrameMaker and Minion are trademarks of Adobe Systems Incorporated. Canvas is a trademark of Deneba Software. All other
trademarks mentioned belong to their respective owners.
About this manual:
This book was written and produced using FrameMaker workstation publishing software and the Minion font from Adobe.
Illustrations were created or modified using Deneba Canvas and Adobe Illustrator.
Installation Guide
Contents
FCC Warning ...........................................vi
Overview
Signal Breakouts .......................................... 1
Related Manuals .......................................... 3
CSI Key/Card Readers
Installation ............................................. 4
Required Tools
Installation Procedure for Single Key/Card Reader
Installation Procedure for Key/Card Reader with Pushbutton
Pedestal Installation
Electrical Installation
Key/Card Reader Grounding
Power/Data Line Connection
Low Temperature Package
Operation
Low Temperature Package Contents
Field Installation
KEYPIN and CARDPIN Field Output Installation ........................13
............................................ 1
.................................. 4
.......................................... 5
.......................... 5
..................... 8
........................................ 9
....................................... 9
.................................. 9
..................................10
.....................................11
..........................................11
...............................12
.......................................12
DPU-7910A Field Output Connection
DPU-7920 Field Output Connection
ABA Readers
ABA Data Format .........................................15
MAGSWIPEID Field Output Installation .............................16
.........................................15
Watermark Reader Support
Watermark Data Format .....................................18
Watermark Field Output Installation ...............................18
I/DISC Reader
Physical Installation ........................................20
CSI Readers iii
........................................20
...............................13
................................13
...............................18
Installation Guide
I/DISC Field Output Installation .................................21
Connecting the I/DISC Reader (Without PIN Pad Support)
Connecting the I/DISC Reader and the ESSEX PIN Pad
Wiegand Readers
......................................25
......................22
.......................23
Wiegand Data Format ......................................25
General Wiegand Reader Field Output Installation .......................26
Connecting the 26-/32-Bit Wiegand Reader
Connecting the 66-Bit Wiegand Reader (without PIN Pad Support)
Connecting the 66-Bit Wiegand Reader and the ESSEX PIN Pad
.............................26
..................27
....................28
PINPAD26 Field Output Installation ...............................30
ESSEX PIN Pad Support .....................................32
I/DISC with PIN Pad
66-bit Wiegand Reader with PIN Pad
ESSEX PIN Pad Operation
Silent Duress Annunciation
.......................................32
................................32
....................................32
....................................32
Dorado Systems Model 780 Swipe Reader with PIN Pad ....................33
Connecting the Dorado 780 Reader
Dorado 780 PIN Pad Operation
................................33
..................................35
Proximity Readers
.....................................36
PR-110 and PR-112 ........................................36
PR-503 and PR-505 ........................................36
PR-103 ..............................................37
PR-105 ..............................................38
PR-120 and PR-122 ........................................38
Proximity Reader Installation with the Indala ARE-142 .....................38
Connecting To the ARE-142
Connecting the ARE-142 Output Cables
....................................38
..............................38
PIN Pad Proximity Readers ....................................40
Connecting to the DPU-7910A and -7920 Series Controllers
Motorola/Indala ARK-501 Installation
Hughes ProxPro Installation
PIN Pad Operation for the Motorola/Indala and Hughes Readers
..................................42
.............................41
.....................40
...................43
iv CSI Readers
Installation Guide
Specifications
Index
...............................................49
.........................................45
CSI Readers v
Installation Guide
FCC Warning
The Federal Communications Commission (FCC) requirements prescribe certification of personal computers and any interconnected peripherals in the FCC rules and regulations.
This device complies with Part 15 of the FCC rules. Operation is subject to the following two conditions: this device may not
cause harmful interference, and this device must accept any interference received, including interference that may cause undesired operation.
This equipment generates and uses radio frequency (rf) energy for its operation and, if not installed and used in accordance with
the installation and operation manual, may cause interference to radio and television reception. It has been found to comply
with the limits for a Class A computing device pursuant to the aforementioned regulations. These are designed to provide
reasonable protection against such interference when operated in a residential area. Only peripherals (computer input/output
devices) certified to comply with the Class A limits may be connected to this device. Operation with noncertified computer
peripherals is likely to result in interference with radio and television reception. If this equipment does cause interference to
radio or television reception, the user is encouraged to correct the situation by one or more of the following measures.
✦ Relocate the receiver with respect to the computer.
✦ Move the computer away from the receiver.
✦ Plug the equipment into a different outlet, so that the computing device and receiver are on different branch circuits.
✦ Disconnect and remove any unused cables that may be acting as a transmission source.
✦ Make certain that the computing device is plugged into a grounded outlet receptacle.
If necessary, contact CSI for additional suggestions.
vi CSI Readers
48
Installation Guide Overview
Overview
I/NET uses several types of readers integrated into its system. Readers interface with
I/NET through connections to door processor units (DPUs). The reader type may be CSI
key/card, ABA, Watermark, Wiegand, Proximity, or I/DISC. These readers may attach to
a DPU-7910A series or DPU-7920 series controller. Most manufacturers’ readers may be
used with I/NET if they follow all protocol standards of one of the above mentioned
reader types.
Table 1 lists the I/NET DPUs and the readers compatible with each DPU.
Table 1. I/NET DPUs and Compatible Readers
Signal Breakouts
DPU Reader Type
CSI Key or Card
26-bit or 32-bit Wiegand
DPU-7910A
Series
Controllers
DPU-7920
Series
Controllers
66-bit Wiegand with or without ESSEX PIN Pad
(requires DPU firmware version 2.20 or later)
Proximity
ABA
Watermark
I/DISC
CSI Key or Card
26-bit or 32-bit Wiegand
66-bit Wiegand with or without ESSEX PIN Pad
(requires DPU firmware version 2.20 or later)
Proximity
ABA
Watermark
I/DISC
I/DISC with ESSEX PIN Pad (I/NET versions 4.3x and later)
For additional documentation concerning the use of these readers in the I/NET system,
refer to “Related Manuals” on page 3.
All readers connect to the DPU either directly through a terminal block, or through a
breakout box plugged into an RJ45 connector. CSI provides two breakout boxes
providing either one or two RJ45 connections (CSI BRKBOX1 and BRKBOX2). The
screw terminals are numbered one to eight on both types of breakout boxes. The signal
breakout is provided in Table 2.
CSI Readers 1
Overview Installation Guide
Note: When connecting a reader to a DPU-7920 series controller, a breakout box is only necessary
when the installation requires the use of an RJ45 connection. Otherwise, readers connect to
the DPU-7920 series controllers through two eight-position plug-on terminal blocks (TB3
and TB4). Refer to TCON117, Model 7920 Door Processing Unit Installation Guide, for
more information.
Table 2. Reader Signal Breakouts
Terminal
Number
1 +DC Power
(DPU-7910A)
2
(DPU-7920)
3
4 +DC Power
Signal Function
13 VDC power supplied to the reader from the DPU. Maximum current drain for each
reader should be 50 milliampere. This conductor typically powers CSI and ABA
Mag-Stripe readers.
Connect the shield from the reader cable here. If the ground is to originate from the DPU,
Chassis
AUX
DATA
DATA-1
the plug-on shunt/jumper labeled J12 should be placed across posts A and B. This jumper
is shipped from the factory plugged on to the B post only (i.e., no chassis ground
connection on terminal 2).
CAUTION! Ground reader cable shield at only one point.
When combining an I/DISC reader with an ESSEX PIN pad (supported in I/NET versions
4.3x and later), this conductor carries the DATA signal from the I/DISC reader. Otherwise,
this pin is not used.
CAUTION! Do not connect the Chassis GND signal from a key/card reader to this
terminal on the DPU-7920. Instead, connect the Chassis GND signal from the reader to
a good earth ground.
With Mag-Stripe and I/DISC readers this conductor carries the DATA signal from the
reader.
With Wiegand readers this conductor carries the DATA-1 signal from the reader. The
signal, which normally rests at 5 volts, will pulse to 0 volts (minimum 50 milliseconds pulse
duration) upon the detection of logic 1 bits in the Wiegand data sequence.
5 VDC power supplied to the reader from the DPU. Maximum current drain for each reader
should be 50 milliamperes. This conductor typically powers Wiegand readers.
With the Mag-Stripe readers this conductor carries the CLOCK signal from the reader.
CLOCK
5
DATA-0
6 Red LED
This signal will normally rest at 5 volts and pulse to 0 volts while the data on conductor
number 3 is valid. This signal is called STROBE by some ABA reader manufacturers and
CLOCK by others.
With Wiegand readers this conductor carries the DATA-0 signal from the reader. The
signal, which normally rests at 5 volts, will pulse to 0 volts (minimum 50 milliseconds pulse
duration) upon the detection of logic 0 bits in the Wiegand data sequence.
This signal drives a red LED located in the reader. The actual color of the LED to which it
connects is not critical except to note that future references to red LED function/operation
in this document refer to the LED connected to this conductor.
When a Wiegand reader type is selected, this signal will drive to 0 volts to turn the LED
ON.
When setting the reader type to CSI, ABA, Indala proximity, Watermark, or I/DISC, this
signal will drive to 5 volts to turn the LED ON.
The DPU momentarily illuminates the red LED to show when a key/card or touch tag was
successfully read but not authorized to release the door. The red LED will flash for a
couple of seconds when the DPU detects a key/card or touch tag entry, but does not
successfully read the data from the reader (i.e., a retry is necessary).
2 CSI Readers
✦
✦
Installation Guide Overview
Table 2. Reader Signal Breakouts (Continued)
Terminal
Number
7 Green LED
8 DC Ground This conductor connects the DC signal ground from the DPU to the reader.
Signal Function
This signal drives a green LED located in the reader. The actual color of the LED to which
it connects is not critical except to note that future references to green LED
function/operation in this document refer to the LED connected to this conductor.
When the Wiegand reader type is selected, this signal will drive to 0 volts to turn the LED
ON.
When setting the reader type to CSI or ABA, Indala proximity, Watermark, or I/DISC, this
signal will drive to 5 volts to turn the LED ON.
The DPU momentarily illuminates the green LED to show when a key/card or touch tag
was successfully read and accepted by the DPU and authorized to release the door. With
ABA and Wiegand selections, this green LED control signal also flashes for a couple
seconds when the DPU detects a key/card or I/DISC entry but does not successfully read
the data from the reader (i.e., a retry is necessary). The double flash function (red and
green LED) of the ABA and Wiegand readers showing a bad read condition occurs
because only one of the possible two LEDs (red or green) can be controlled by the DPU.
The installation examples provided within this document show the single breakout box
(BRKBOX1). The dual breakout box (BRKBOX2) is shown in Figure 1.
Red
5
Green
Green
Red
5
4
4
Related Manuals
White
6
7
8
Yellow
Orange
Brown
Blue
Black
Yellow
Brown
Black
White
Orange
Blue
3
6
2
7
1
8
3
2
1
RJ45
Figure 1. Dual Breakout Box
For additional information, refer to the following Installation Guides:
TCON116, Model 7910A Door Processing Unit Installation Guide
TCON117, Model 7920 Door Processing Unit Installation Guide
CSI Readers 3
CSI Key/Card Readers Installation Guide
CSI Key/Card Readers
The CSI key and card readers provide management and control of individual access to
restricted areas when used in conjunction with other components of the I/NET system.
The solid-state devices read magnetic data bits on the keys/cards and then transform the
magnetic information into electrical energy, transmitting the applicable data in a proprietary CSI format to processing and access point control devices through electronic
circuitry and interconnecting wiring.
To operate the reader, insert an authorized key/card into the slot on the front of the
reader, and then withdraw the card in one smooth, continuous motion. If the key/card
is valid and is inserted during an authorized period, the two-color LED on the front of
the reader shows green and remains lit as long as the door is unlocked. Any time the door
is unlocked, the LED shows green. Access is granted at these times.
Installation
If a key/card is inserted and properly read, but access is denied, the two color LED shows
solid red for two seconds. If a key/card is inserted and either left in or withdrawn too
slowly, if an invalid key/card is used, or if a valid key/card is used during an unauthorized
period, the two-color LED on the front of the key/card reader flashes red. Access is
denied under these circumstances.
Although identical in appearance, each of the CSI key/cards contains a unique, counterfeit resistant magnetic code in the magnetic surface on the key/card. The codes are
preprogrammed at the factory and cannot be altered. Each key/card contains a Facility
Code, User Number, and Issue Level. Each key/card will initiate an individually unique
response from the key/card reader and DPU in accordance with specific system
programming.
In addition to the user keys/cards, there is one key, User 0, provided with each system that
is designated as the system key. The system key is used to enable stand-alone controllers
to accept programming of the specific system requirements. This key/card also allows full
time access to any door as long as the Facility Code is correct.
The key reader and associated keys offer the user “key chain” convenience to controlled
areas. With the card reader, you may use the associated cards as both the medium to gain
access to controlled areas and as personnel identification cards.
For additional information, refer to the appropriate Installation Guide (refer to “Related
Manuals” on page 3).
The CSI key/card readers may be installed on inside or outside doors (see Figure 2). You
can also install a reader in a pedestal to operate vehicle traffic controlling devices.
Note: The pedestal installation is not a U.L. listed configuration.
All readers should be installed in a location convenient to the intended point of entry and
protected from the weather by a shield or hood when located outside. In many areas, you
4 CSI Readers
✦
✦
✦
✦
✦
✦
1.
2.
a.
Installation Guide CSI Key/Card Readers
Figure 2. Model CRDRDR Card Reader and Model KEYRDR Key Reader
will also need to install a key/card reader low temperature package for proper operation
below 30˚F (–1˚C).
Note: U.L. listed versions of key/card readers are provided with an enclosure and the low temper-
ature package.
In all applications, an average height for installing the key/card reader for ease of use is
approximately 48 inches (122 cm) from the floor or ground level as applicable.
Required Tools
Marking scribe or pencil
6" Ruler (15.24 cm)
1" (2.54 cm) Hole saw or 1" (2.54 cm) square knockout punch
Drill and
9
⁄
" (3.6 mm) drill bit,
64
No. 2 Phillips screwdriver
File
Installation Procedure for Single Key/Card Reader
Before installing the key/card reader as shown in the following procedure, insert the RJ45
reader cable plug into the jack provided on the reader.
Caution: Before making mounting holes, make sure that wall, door frame, or other applicable area is
clear of obstructions such as conduits, pipes, glass, wiring, etc. A minimum depth of 2
inches (6.35 cm) is required between surfaces for clearance of the key/card reader and
connector.
3
⁄
" (9.5 mm) if knockout punch is used
8
1
⁄
2
Locate and make a cutout for mounting the key/card reader as shown in Figure 3.
Secure the key/card reader in place by following the directions in A or B below.
Locate and drill a
9
⁄
" (3.6 mm) diameter hole in the door jamb or mullion
64
opposite the key/card reader mountiBng hole (single hole for key readers, two
holes for card readers. Make required electrical connections, then position
CSI Readers 5
CSI Key/Card Readers Installation Guide
b.
1.60"
(4.06 cm)
Door Jamb
or Mullion
1.30"
(3.30 cm)
Cut Out
Key Reader
Mounting
Hole
3.60"
(9.14 cm)
1.30"
(3.30 cm)
Figure 3. Key/Card Reader Mounting Hole
(with LED up) and secure key/card reader in mounting hole with
(4.8 mm) screw of appropriate length as shown in Figure 4.
Door Jamb or Mullion
Door Jamb
or Mullion
Cut Out
Key Reader
Mounting
Hole
6
⁄
"
32
6
/32" (4.8 mm)
Screw
9
/64" (3.6 mm)
Screw Hole
Key/Card
Reader
Figure 4. Installation Using Door Jamb or Mullion
Locate and make the cutout (large enough to allow access to the key/card
reader) in the jamb or mullion opposite the key/card reader mounting hole.
Make required electrical connections, then position (with LED up) and secure
key/card reader in mounting hole using U-bracket and
6
⁄
" (4.8 mm) screw of
32
6 CSI Readers
Key/Card
Reader
Door Jamb or Mullion
U-Bracket
6
/32" (4.8 mm)
Screw
Access
Cutout
Cover
Plate
Door Jamb or Mullion
U-Bracket
INSIDE
(Exit)
OUTSIDE
(Entry)
6
/32" (4.8 mm)
Screw
6
/32" (4.8 mm)
Screw
Key/Card
Reader
Card Reader
requires two
screws
Key/Card
Reader
Installation Guide CSI Key/Card Readers
appropriate length. Cover access hole with appropriate plate as shown in
Figure 5. An entry and exit configuration is shown in Figure 6.
Figure 5. Installation Using U-Bracket
Figure 6. Entry & Exit Reader Installation
CSI Readers 7
CSI Key/Card Readers Installation Guide
The key/card reader may also be flush-mounted in a protective enclosure or surfacemounted in a protective enclosure. The key reader can be flush-mounted in a standard
single gang switch enclosure. The card reader requires a larger flush mount box, which
is available from CSI. Contact CSI with specific questions regarding mounting methods.
Installation Procedure for Key/Card Reader with Pushbutton
If you want to install an entry reader and a pushbutton exit device (pushbutton supplied
by your dealer) at the same door, proceed as follows:
1.
2.
Caution: Before making mounting holes, make sure that wall, door frame, or other applicable area is
clear of obstructions such as conduits, pipes, glass, wiring, etc. A minimum depth of 2
1
⁄
"
2
(6.35 cm) is required between surfaces for clearance of the key/card reader and connector.
Install the key/card reader using a U-bracket. Refer to “Installation Procedure for
Single Key/Card Reader” on page 5 for instructions.
Install the pushbutton and cover plate as shown in Figure 7. Using 18 AWG
(0.897 mm
2
) twisted-pair, shielded cable, attach the pushbutton to the release
terminals, GND and D REL, on the CSI Door Processor Unit.
Door Jamb or Mullion
6
/32" (4.8 mm)
Screw
Card Reader
Key/Card
Reader
6
/32" (4.8 mm)
Screw
U-Bracket
requires two
screws
OUTSIDE
(Entry)
Cover
Plate
INSIDE
(Exit)
Pushbutton
Figure 7. Key/Card Reader/Pushbutton Installation
Note: For a U.L. configured system, the exit pushbutton must be a U.L. listed connector and
switch of compatible rating for the DPU’s release input. Refer to the appropriate DPU
Installation Guide for more information.
8 CSI Readers
Installation Guide CSI Key/Card Readers
5.00"
(12.70 cm)
3.95"
(10.00 cm)
Mounting Plate
Hole Pattern
* Conduit may be routed either way shown.
Key/card
Reader
(example
Pedestal Pole
Conduit
*
Mounting
Plate
Pedestal Installation
An optional key/card reader pedestal is available from CSI. The pedestal provides weatherproofing, easy access, and simplifies key/card reader installation.
Note: The pedestal installation is not a U.L. listed configuration.
At new concrete installations, or if a separate mounting surface is poured for the
pedestal, set four 1⁄4" (0.64 cm) bolts at pouring according to the dimensions shown in
Figure 8.
Electrical Installation
Key/Card Reader Grounding
Caution: Failure to properly ground the key/card reader could result in damage to the reader and/or
Figure 8. Key/Card Reader Pedestal
If installation is made on an existing concrete structure, use the mounting plate to locate
the holes, and then drill the four holes with a concrete bit. Secure the pedestal to the
surface with four concrete mounting bolts.
The following paragraphs provide instructions for the electrical installation of the
key/card reader.
To eliminate the harmful effects of static discharge when a user touches the key/card
reader, and to ensure uninterrupted operation, the key/card reader must be connected to
a good earth ground. If the key/card reader is installed on a metal surface (i.e., door
jamb), the surface may serve as a sufficient grounding medium. Make sure that the metal
surface itself is well grounded. If the key/card reader is not installed on a properly
grounded metal surface, provide a ground as follows.
other equipment connected to the reader.
To be most effective, the ground wire should be as short as possible (no more than 20 feet
long).
2
1. Connect a piece of 10 AWG (5.27 mm
) or larger solid wire between the key/card
reader grounding screw and the nearest metal object such as a cold water pipe,
metal frame, or grounded electrical outlet box as shown in Figure 9. Use a crimp-
CSI Readers 9
CSI Key/Card Readers Installation Guide
on lug on the wire end to be connected to the key/card reader grounding screw.
Connect the other end of the wire to the metal object by the method best suited to
ensure a solid ground connection.
2. If no suitable metal object is available for grounding, consult CSI for further
key/card reader grounding information.
10 AWG
(5.27 mm
(or larger)
2
) Wire
Cold Water
Pipe
OR
Grounded
Electrical Box
Key/Card
Reader
Grounding
Screw
Crimp-on
Spade Lug
To Key/Card
Reader
Grounding
Screw
Figure 9. Key/Card Reader Grounding
Note: If you are not able to ground the reader as shown in Figure 9, you can configure the DPU
(except for DPU-7920 series controllers) to provide the necessary ground by placing the
jumper labeled J12 across posts A and B. This places chassis ground at terminal 2 of the
RJ45 connection and at terminal 2 of an attached breakout box. You may then connect the
key/card reader ground to terminal 2.
The DPU-7920 series controllers cannot be configured to provide the chassis ground for the
key/card reader. These controllers use terminal 2 as an auxiliary input.
Power/Data Line Connection
Connect the key/card reader to the DPU or entry controller by connecting the RJ45 male
plug on one end of the cable to the RJ45 female connector at the rear of the key/card
reader. Then route the other end of the cable to the RJ45 female connector at the DPU
or entry controller (the DPU-7920 series controllers do not provide an RJ45 connection
10 CSI Readers
Installation Guide CSI Key/Card Readers
and will therefore require a breakout box). All operating power and data is routed
through this single cable. Signal pinouts for the CSI key/card readers are shown in
Table 3.
Caution: When connecting the key/card reader to a DPU-7920 series controller, do not connect the
Chassis GND signal on pin 2 of the reader to the DPU (the DPU uses terminal 2 on TB3
and TB4 as an Auxiliary input). Instead, connect the Chassis GND signal from the reader
to a good earth ground.
Table 3. CSI Key/Card Readers Signal Pinout
Pin 1 Pin 2 Pin 3 Pin 4 Pin 5 Pin 6 Pin 7 Pin 8
Signal +12 VDC
Low Temperature Package
Note: For U.L. listed key/card readers, the low temperature package is standard.
Operation
Chassis
GND
DATA NC CLOCK Red LED
Green
LED
Signal
GND
If the key/card reader will be exposed to temperatures below 30˚F (–1˚C) for an extended
period of time, the key/card reader low temperature package should be installed to
prevent frost from accumulating on the key/card slot. Either a Key Reader Low Temperature Package or a Card Reader Low Temperature Package can be ordered from CSI.
The following paragraphs provide installation instructions and a description of the low
temperature package.
The key/card reader low temperature package heating element is a self-regulating thermistor that activates to heat at low ambient temperatures and deactivates at normal or
high ambient temperatures. Nominal resistances of the heating element are 25 ohms at
–35˚F (–37°C) and 1500 ohms at 122˚F (50°C). Thus, the package may remain in operation year round. However, it is recommended that the power supply (customer
furnished) be turned off during the warm season to extend the life of the power supply.
The operating voltage required for the heating element is 5–20 VDC. The lower the
voltage, the less heat produced, and the higher the voltage, the more heat produced. A
12–18 VDC power supply (customer furnished) with 2.5 ampere minimum continuous
(surge capability in excess of 3 ampere) will provide the most efficient operation and
prolong the life of the heating element.
Caution: Never connect the heater kit to the +5 VDC or +12 VDC supply from the DPU.
Note: For U.L. listed applications, do not connect the heater elements to the external power supply
of the DPU. Additionally, the power supply for the heater elements must have a back-up
battery providing eight hours of operation for U.L. listed applications.
The heating element will activate at approximately 50˚F (10°C), and will produce
increasingly more heat as the ambient temperature drops to maintain the key/card
reader at a constant temperature of 45˚F to 50˚F (7°C to 10°C).
CSI Readers 11
CSI Key/Card Readers Installation Guide
Low Temperature Package Contents
The contents of the key/card reader low temperature packages are shown below.
Key Reader Low Temperature Package (KEYHEAT):
✦ Heater element with mounting bracket
✦ One panhead screw, #2-56 × 3⁄8"
✦ One panhead screw, #2-56 × 5⁄16"
✦ Two wire nuts (IDEAL 30-073)
✦ User-supplied 12–18 VDC power supply
Card Reader Low Temperature Package (CARDHEAT):
✦ Heater element with mounting bracket
✦ Two panhead screws, #2-56 × 1⁄2"
✦ Two wire nuts (IDEAL 30-073)
✦ User-supplied 12–18 VDC power supply
Field Installation
Install the key/card reader low temperature package using the following steps.
Warning: Remove all electrical power from interconnected equipment. Failure to do so while
performing electrical installation may result in electrical shock or burns, and may result in
damage to the attached equipment.
1. Use a length of 18 to 20 AWG (0.897 to 0.519 mm2) cable, or equivalent, (customer
furnished) that will reach from the reader to the location selected for the power
supply.
2. At the key/card reader end, strip back approximately 1⁄2" to 3⁄4" (1.3 cm to 1.9 cm)
of the insulation from the power cord. For best results, the wires should be tinned.
3. Remove the key/card reader and backshell. Remove the three screws from the top of
the key/card reader frame (opposite the circuit board).
4. Align the heater element to the screw holes, with the red and black wires to the rear
of the key/card reader.
5. Replace the front #2-56 screw with the applicable screw furnished, and the rear
screw with the applicable screw furnished. Leave the screws slightly loose and push
the heater element flush with edge of key/card reader chassis and secure.
6. Using the chassis ground, leave the center screw out until the entire assembly of the
heating element to the key/card reader has been completed.
7. Reassemble the backshell onto the key/card reader with the red and black wires
exiting through the square connector access hole of the backshell at the rear or
bottom of unit.
Note: If the key/card reader low temperature package kit was assembled at the factory, skip steps 8
through 11 and perform step 12 at this time. If not, proceed with step 8.
8. Using the two wire nuts provided, connect the wires (observing the polarity) from
the power supply to the red and black wires at the rear of the key/card reader.
12 CSI Readers
Installation Guide CSI Key/Card Readers
9. Replace the key/card reader, reassemble, and secure into the wall or other
mounting surface.
10. At the power supply, to ensure an effective connection to the terminals, strip a
sufficient amount of the insulation from each power wire.
Use a crimp-on connector lug (not furnished) for a better connection.
11. While observing polarity, connect wires to the power supply as described in the
owner’s manual of the applicable power supply.
12. Apply power to the power supply as instructed in the owner’s manual.
KEYPIN and CARDPIN Field Output Installation
The KEYPIN1, KEYPIN2, CARDPIN1, and CARDPIN2 are 12-position keypads for
indoor or outdoor use, using CSI proprietary format. The signal pinouts for these
keypads are shown in Table 4.
DPU-7910A Field Output Connection
Use the following steps for cable installation to a DPU-7910A.
1. Connect the RJ45 cable from the key/card reader to J2 of the KEYPIN or CARDPIN
assembly.
2. Connect the RJ45 cable from the DPU to J1 of the KEYPIN or CARDPIN assembly.
Table 4. J2 and J1 Signal Pinout
Pin 1 Pin 2 Pin 3 Pin 4 Pin 5 Pin 6 Pin 7 Pin 8
Signal +12 VDC
Chassis
GND
DPU-7920 Field Output Connection
Directly connect the wires to the DPU-7920 at the TB3 or TB4 terminals using the
following steps.
1. Connect an RJ45 cable from the key/card reader to J2 of the KEYPIN or CARDPIN
assembly.
2. Connect an RJ45 cable from J1 of the KEYPIN or CARDPIN assembly to a breakout box (see Figure 10).
3. Using Belden 9305, 8725, or equivalent cable, connect the terminals on the breakout box, 1, 3, and 5–8, to the corresponding terminals on TB3 or TB4 of the
DPU-7920 (see Figure 10).
DATA NC CLOCK Red LED
Green
LED
Signal
GND
CSI Readers 13
CSI Key/Card Readers Installation Guide
TB3
1
2
3
4
5
6
or
TB4
Data
Shield
+12
VDC
Clock
4
3
2
1
Red
LED
5
6
7
8
To J1 of KEYPIN or
CARDPIN
Figure 10. KEYPIN and CARDPIN Cable Connection
7
Green
LED
8
Ground
14 CSI Readers
Installation Guide ABA Readers
ABA Readers
The door processing units can receive standard TTL level Data and Strobe lines from an
ABA magnetic stripe reader. CSI’s DPUs use standardized data recovery and interpretation as defined on the ABA track (Track 2 - center track) of a magnetic stripe card. The
ANSI/ISO standard (ANSI x4.16-1983/ISO 3554) defines this format.
ABA Data Format
Compatibility with standard ABA encoded cards facilitates the use of many off-the-shelf,
low-cost, mag-stripe readers and cards. The data is encoded on the mag-stripe as a
sequence of 5-bit hexadecimal digits (4 bits plus odd parity on each digit). The ABA
format described in ANSI x4.16 is oriented as shown below.
BBBBP
0123
00000 Leading zeros
11010 Start sentinel
xxxxP Variable length data field (up to 37 digits)
"
"
xxxxP
11111 Stop sentinel
xxxxx
00000 Trailing zeros
The following is a sample Track 2 data string.
Leading zeros Start sentinel
000... 11010 10101 11001 00100 11100 11111 10000 000...
LRC character (longitudinal even parity on all bits from start
sentinel to LRC)
5
Data3Data4Data7Data
Stop sentinel LRC
Trailing
zeros
Data is transmitted with the least significant bit first within the ABA digit format, and
most significant digit first within the CSI field format. The ABA data format used with
the CSI DPUs is broken into five sequential digit fields, left to right on the encoder
display. Table 5 lists each digit field as it appears on the display.
CSI Readers 15
ABA Readers Installation Guide
Table 5. Digit Fields as Displayed
ABA-85 ABA-115
Field Valid Range Field Valid Range
1 Digit Card Type 1 1 Digit Card Type 0
5 Digit Site/Facility Value 0–99,999 8 Digit Site/Facility Value 0–1,048,575
1 Digit Issue Number 0–3 * 1 Digit Issue Number 0–3 *
5 Digit User Identification Number 0–24000 6 Digit User Identification Number 0–24000
21 User Defined User Defined
* This reflects issue 1 through 4 on the system.
Field separator characters are not used. Digit fields are a continuous 16-digit sequence.
This format uses a minimum of 19 of the total 40 characters available with the ABA standard. The Mag-Tek Model MT-55 (ENCDR1) is the suggested card encoder for generating ABA Mag-Stripe cards (Track 2, High Energy) for use with CSI DPUs.
CSI data can contain only the hexadecimal characters 0 through 9. User data may contain
any hexadecimal character except 0B and 0F. User data can vary in length from zero to
21 characters. The user data is used only for LRC calculation, and is not saved. Table 6
shows the common hexadecimal characters
Table 6. Hexadecimal Characters
Hexadecimal Character Description
0 – 9 Decimal Equivalent
A 10 (:) Account Separator
B 11 (:) Start Sentinel
C 12 (<<)
D 13 (+) Field Separator
E 14 (>>)
F 15 (:) Stop Sentinel
MAGSWIPEID Field Output Installation
The MAGSWIPEID (versions B and W) are indoor magnetic stripe, single track card
readers. The field signal outputs from the reader connect to 24 AWG (0.206 mm2)
shielded, twisted-pair cable.
The cable from the reader connects to the DPU in one of the following ways:
✦ When connecting the reader to a DPU-7910A, the cable from the reader connects
to a breakout box (CSI BRKBOX2). The breakout box then connects to the DPU
reader ports (1A, 2A, 1B, or 2B) using an RJ45 CSI modular reader cable (CBL063).
✦ When connecting the reader to a DPU-7920, the cable from the reader can be
connected directly to TB3 or TB4 on the DPU.
Use the following steps to connect an ABA Magnetic Stripe reader to a breakout box or
directly to the DPU-7920.
16 CSI Readers
Installation Guide ABA Readers
1. Connect the white wire (Data) from the reader to terminal 3 (see Figure 11).
2. Connect the red wire (+5 V) to terminal 4.
3. Connect the green wire (Strobe) to terminal 5.
4. Connect the brown wire (LED) to terminal 6 for Red LED operation, or terminal 7
for Green LED operation.
5. Connect the black wire (GND) to terminal 8.
6. Connect the cable shield to a good earth ground and to terminal 2 on the breakout
box.
Caution: When connecting the reader to a DPU-7920 series controller, do not connect the cable
shield to terminal 2 on the DPU (TB3 or TB4). These controllers use terminal 2 as an
auxiliary input.
From MAGSWIPEID
Reader
SHIELD
DPU-7920 Connections:
White (DATA)
Red (+12 VDC)
Green (STROKE)
Brown (RED LED)
Brown (GREEN LED)
Black (GROUND)
The cable shield must be connected to a good earth ground at one location only. When
using a DPU-7910A series controller, you can configure the DPU to provide the necessary ground by placing the jumper labeled J12 across posts A and B. This places chassis
ground at terminal 2 of the attached breakout box. You may then connect the cable shield
to terminal 2 of the breakout box.
Breakout Box Connections:
White (DATA)
TB3 or TB4
1
2
3
4
5
6
7
8
SHIELD
Red (+5V)
3
2
1
Green (STROBE)
45
Figure 11. ABA MAGSWIPEID Cable Connection
From MAGSWIPEID Reader
Brown
(RED LED)
6
7
8
Brown
(GREEN LED)
Black
(GROUND)
To DPU-7910A
Series Controller
Note: The DPU-7920 series controllers cannot be configured to provide the chassis ground for the
cable shield. These controllers use terminal 2 as an auxiliary input.
CSI Readers 17
Watermark Reader Support Installation Guide
Watermark Reader Support
The DPU-7910A and DPU-7920 series controllers support two Watermark Magnetics
card readers (model numbers 1305LO and 1306LO) made by Thorn Secure Science
International. Data from the reader is presented through a 4-wire interface using power,
ground, data, and clock.
Watermark Data Format
The Watermark data format for the reader is shown below:
✦ Padding zeroes
✦ Sync Bit
✦ Start Sentinel 00111 11101
✦ Ten Digits BCD encoded digits with odd parity
✦ EOM Bits
✦ Padding Zeroes
The following is a sample Watermark data string.
Padding zeros Sync Bit Start sentinel Ten Digits EOM Bits Padding zeros
000... 11010 00111 11101 11001 00100 000...
Watermark Field Output Installation
The cable from the reader connects to the DPU in one of the following ways:
✦ When connecting the reader to a DPU-7910A series controller, the cable from the
reader connects to a CSI breakout box. The breakout box then connects to the DPU
reader ports (1A, 2A, 1B, or 2B) using on RJ45 CSI modular reader cable
(CBL063).
✦ When connecting the reader to a DPU-7920 series controller, the cable from the
reader can be connected directly to TB3 or TB4 on the DPU.
Use the following steps to connect a Watermark reader to a breakout box or directly to
the DPU-7920 (see Figure 12).
1. Connect terminal 4 (DATA) of J2 to terminal 3.
2. Connect terminal 5 (Clock) of J2 to terminal 5.
3. Connect terminal 11 (+12 VDC) of J2 to terminal 1.
4. Connect Ground, terminal 12 of J2 to terminal 8.
5. Connect the cable shield to a good earth ground and to terminal 2 on the breakout
box.
18 CSI Readers
Installation Guide Watermark Reader Support
Caution: When connecting the reader to a DPU-7920 series controller, do not connect the cable
shield to terminal 2 on the DPU (TB3 or TB4). These controllers use terminal 2 as an
auxiliary input.
DPU-7920 Connections:
From Reader
SHIELD
Breakout Box Connections:
From Reader
+12 VDC
DATA
CLOCK
GROUND
TB3 or TB4
1
2
3
4
5
6
7
8
SHIELD
+12
VDC
DATA
45
3
2
1
CLOCK
6
7
GROUND
8
To DPU-7910A
Reader Port
Figure 12. Typical Watermark Reader Connection
The cable shield must be connected to a good earth ground at one location only. When
using a DPU-7910A series controller, you can configure the DPU to provide the necessary ground by placing the jumper labeled J12 across posts A and B. This places chassis
ground at terminal 2 of the attached breakout box. You may then connect the cable shield
to terminal 2 of the breakout box.
Note: The DPU-7920 series controllers cannot be configured to provide the chassis ground for the
cable shield. These controllers use terminal 2 as an auxiliary input.
CSI Readers 19
I/DISC Reader Installation Guide
I/DISC Reader
I/DISC is a read-only memory device that consists of a small, button-shaped stainless
steel casing containing a micro-electric circuit. CSI offers three models of I/DISC readers
as follows:
✦ Model IDISCRDR – I/DISC reader with separate LED.
✦ Model IDISCRDRB – I/DISC reader in a black plastic mount with LED.
✦ Model IDISCRDRMP – I/DISC reader with a mullion plate mount and LED.
You can connect up to four I/DISC readers to one DPU-7910A series controller. You may
connect up to two I/DISC readers to a DPU-7920. The I/DISC reader mounts in a wall
in the same amount of space used by a CSI key/card reader.
Physical Installation
1. Select a location on the wall or door mullion by the door you want to secure and
assemble the I/DISC reader as shown in Figure 13.
Note: All readers should be installed in a location convenient to the intended point of entry and
protected from the weather by a shield or hood when located outside.
Caution: When using the I/DISC reader outside, we recommend that you periodically (every month
or two) clean the reader/probe surface area with a metal cleaner/protectant to remove any
contaminants or moisture related corrosion. A cleaner/protectant such as WD-40 may be
used for this purpose.
Sensor
probe
Nylon
washer
LED
Rear locking clip
ring
Rear locking clip
ring
1.5"
(3.8 cm)
3.8"
(9.6 cm)
Figure 13. I/DISC Reader Assembly
2. Drill a 1" (2.54 cm) diameter hole in the wall or door mullion for the sensor and
LED.
20 CSI Readers
Installation Guide I/DISC Reader
LED
Probe
RED
GRN
BLK
BLK
GRY
A1
A2
B1
B2
Shielded,
200 Feet (60 m) maximum
Dual Twisted-pair Cable
24 AWG (0.206 mm2)
3. Drill two holes sized for #8 screws to mount the mullion plate.
4. Run the shielded, dual twisted-pair cable from the controlling DPU to the mullion
plate cutout. The cable may extend for up to 200 feet (60 m).
5. Connect the shielded, dual twisted-pair cable as shown in Figure 14.
Figure 14. I/DISC Cable Connection
6. Insert the mullion plate into the cutout and secure to the wall using security
mounting screws provided with the reader or with separately purchased #8 screws.
Note: If using the security screws to mount the mullion plate, you must purchase a separate tool
(CSI TRDRTOOL) to secure the screws. Otherwise, use any hardware to install the I/DISC
reader.
I/DISC Field Output Installation
The LED and sensor pigtails connect to a 24 AWG (0.206 mm2), shielded, dual twistedpair cable that goes to the DPU. The cable connects to the DPU in one of the following
ways:
✦ When connecting the I/DISC reader to a DPU-7910A series controller, the cable
from the reader connects to a CSI breakout box (BRKBOX2). The breakout box
then connects to the DPU reader ports (1A, 2A, 1B, or 2B) using an RJ45 CSI
modular reader cable (CBL063).
✦ When connecting the I/DISC reader to a DPU-7920 series controller, the cable
from the reader can be connected directly to TB3 or TB4 on the DPU.
With I/NET versions 4.3x and later, the DPU-7920 series controllers also support the
combination of an I/DISC reader along with an ESSEX PIN pad. Installation instructions
for this configuration are described following the basic I/DISC installation instructions.
CSI Readers 21
I/DISC Reader Installation Guide
Connecting the I/DISC Reader (Without PIN Pad Support)
Use the following steps to connect an I/DISC reader to a DPU-7910A or DPU-7920 series
controller.
Note: The wire colors specified in the following steps refer to the wires from the I/DISC reader and
LED. The actual wire colors at the DPU will depend on the 24 AWG, shielded, twisted-pair
cable being used to connect the I/DISC reader to the DPU.
1. If you are connecting a model IDISCRDRB reader, skip to the next step. Otherwise,
connect the black (COMMON) wire from the LED to the black (GROUND) wire
from the I/DISC reader (probe).
2. Connect the black (GROUND) wire from the I/DISC reader to terminal 8 on the
breakout box or DPU.
3. Connect the red (LED RED) wire from the LED to terminal 6 on the breakout box
or DPU.
4. Connect the green (LED GREEN) wire from the LED to terminal 7 on the breakout
box or DPU.
5. Connect the grey or white (DATA) wire from the I/DISC reader to terminal 3 on
the breakout box or DPU.
From Reader
SHIELD
6. Connect the shield from the 24 AWG (0.206 mm2) twisted-pair cable to a good
earth ground. If you are using a CSI breakout box, also connect the cable shield to
terminal 2 on the breakout box.
Caution: When connecting the I/DISC reader to a DPU-7920 series controller, do not connect the
cable shield to terminal 2 on the DPU (TB3 or TB4). These controllers use terminal 2 as an
auxiliary input.
7. For DPU-7910A series controllers, connect the RJ45 connector from the breakout
box to the appropriate DPU reader port (1A, 2A, 1B, or 2B).
DPU-7920 Connections:
TB3 or TB4
Grey or White (DATA)
Red (LED RED)
Green (LED GREEN)
Black (GROUND)
1
2
3
4
5
6
7
8
Breakout Box Connections:
From Reader
Grey or White (DATA)
45
3
2
1
Red (LED Red)
6
Green (LED GRN)
7
Black (GROUND)
8
SHIELD
To DPU-7910A
S
Figure 15. I/DISC Connection
22 CSI Readers
Installation Guide I/DISC Reader
Connecting the I/DISC Reader and the ESSEX PIN Pad
When using a DPU-7920 series controller, I/NET versions 4.3x and later allow you to
connect both an I/DISC reader and an ESSEX PIN pad to the DPU. In this case, the
I/DISC reader connects to the AUX input on the DPU and the PIN pad connects to the
DPU’s reader inputs. The ESSEX PIN pad provides a red LED and green LED; therefore,
the LED on the I/DISC reader is not used.
You have two wiring options for this configuration as follows:
✦ Use 24 AWG (0.206 mm2), shielded, twisted-pair cable (at least 8 conductors) to
connect the reader and PIN pad to TB3 or TB4 on the DPU.
✦ Use two CSI breakout boxes (one at the reader/PIN pad and one at the DPU) and
CSI modular reader cable (CBL063, CBL064, CBL065, or CBL066) connected to
each breakout box.
The pinout for the DPU (TB3 and TB4) and the CSI breakout boxes are the same. Therefore, the following installation instructions apply to either wiring option.
1. Connect the grey or white (DATA) wire from the I/DISC reader to terminal 2 on
the breakout box or DPU.
2. Connect the following wires to terminal 8 on the breakout box or DPU:
✧ Black (GROUND) wire from the I/DISC reader.
✧ Black (GROUND) wire from the PIN pad.
✧ Yellow (ADDRESS 1) wire from the PIN pad.
✧ Violet (ADDRESS 2) wire from the PIN pad.
✧ Orange (ADDRESS 4) wire from the PIN pad.
Red (+12 VDC)
From ESSEX
PIN Pad
From I/DISC
SHIELD
Ta n
(CASE GRND)
SHIELD
White (DATA 1)
Green (DATA 0)
Brown (LED GRN)
Black (GROUND)
Yellow (ADDRESS 1)
Violet (ADDRESS 2)
Orange (ADDRESS 4)
Black (GROUND)
Grey or White (DATA)
TB3 or TB4
1
2
3
4
5
6
7
8
Figure 16. I/DISC Reader with ESSEX PIN Pad Connections
3. Connect the red (+12 VDC) wire from the PIN pad to terminal 1 on the breakout
box or DPU.
CSI Readers 23
I/DISC Reader Installation Guide
4. Connect the white (DATA 1) wire from the PIN pad to terminal 3 on the breakout
box or DPU.
5. Connect the green (DATA 2) wire from the PIN pad to terminal 5 on the breakout
box or DPU.
6. Connect the brown (LED GREEN) wire from the PIN pad to terminal 7 on the
breakout box or DPU.
7. Connect the tan (CHASSIS GROUND) wire from the PIN pad to a good earth
ground.
8. From a host workstation, configure I/NET to use the ESSEX PIN pad. Common
settings are:
✧ Reader Type:
– I/DISC w/PIN (I/NET version 4.x and I/NET 2000 version 1.x)
– I/DISC (I/NET 2000 version 2.x and later)
✧ PIN Pad (I/NET 2000 version 2.x and later only): Activated
✧ LED Polarity: Anode
✧ Door Mode Schedule:
– “PIN Enable” to require both an I/DISC read and PIN entry
– “Secure” to require an I/DISC read only
✧ Key/Card Translation: Perform these translations as necessary using the I/NET
Key/Card Translations editor.
Refer to the I/NET 2000 System Operator Guide or Technical Reference Guide for more
information concerning I/NET 2000.
24 CSI Readers
Installation Guide Wiegand Readers
Wiegand Readers
The group of readers capable of producing Wiegand format output include most technologies of mag-stripe, proximity, biological, voice, etc., as well as the Wiegand technology reader from Sensor Engineering. Data from the Wiegand reader (or other device
producing Wiegand output) is presented through a two-wire interface plus a ground
reference. The two-signal conductors provide Data-0 and Data-1 lines that typically
provide a TTL-level active low pulse with some devices using an open collector output.
A pulse is generated on the respective line (logic-0 or logic-1) for each bit in the 26/32-/66-bit pattern. The pulses must be a minimum of 50 milliseconds long.
CSI provides several devices using Wiegand format. They include insertion type key
readers, insertion type card readers, swipe type card readers, and turnstile type card
readers. Though they are not readers, the Wiegand format KEYPADS are also documented in this section.
Wiegand Data Format
CSI-provided devices may use any of the following Wiegand data formats :
✦ 26-bit Wiegand
✦ 32-bit Wiegand
✦ 66-bit Wiegand (66-bit Wiegand support requires I/NET 2000 version 2.x or later,
and DPU firmware version 2.20 or later)
The 26-bit Wiegand format is a standard used by many reader/card manufacturers. This
bit pattern is called the 2601 format by Sensor Engineering and is available to the user
directly from Sensor Engineering.
Cards with the CSI 32-bit format are available only from CSI. The limited access to this
format, as well as the CSI-controlled site number encoding, provides an additional level
of security to the user. The 32 data bits are divided into three fields defined as a Sensor
Control Bits field of seven bits, Site (Facility) field of eight bits, and a User Number (PIN)
field of 15 bits.
The Sensor Control Bits field is factory set for CSI proprietary control of cards and keys
in CSI readers. Other 32-bit cards and keys cannot be used with CSI readers using 32-bit
Wiegand format, and CSI 32-bit format cards and keys cannot be used in other manufacturers’ readers.
The second eight bits (bits 9–16) are the Site (Facility) field. They define the card for a
specific site (facility). The most significant bit for this field is bit 9.
The next fifteen bits (bits 17–31) are the User Number field, allowing a number from 0
to 32,767. The most significant bit in this field is bit 17.
CSI Readers 25
Wiegand Readers Installation Guide
One of the interface difficulties associated with the use of the Wiegand cards revolves
around the differences in the card encoding styles A and A1 and the associated righthand and left-hand insertion readers. The standard A1 card used for swipe readers
reverses the bit pattern when used in an insertion reader (style A1). This causes the least
significant bit (LSB) to be read first instead of the most significant bit (MSB).
Only the MSB-first sequence is supported when using the 66-bit Wiegand data format.
When reading 26- or 32-bit Wiegand data format, CSI readers automatically detect the
data direction and adjust the decoding of the contents as required. This detection is
based on the examination of the Wiegand bit pattern and does not require any action on
your part.
General Wiegand Reader Field Output Installation
The wires from the reader connect to 24 AWG (0.206 mm2), shielded, twisted-pair cable
that goes to the DPU. This cable connects to the DPU in one of the following ways:
✦ When connecting the reader to a DPU-7920 series controller, the cable from the
reader can be connected directly to TB3 or TB4 on the DPU.
✦ When connecting the reader to any DPU other than the 7920-series controller, the
cable from the reader connects to a CSI breakout box (BRKBOX1 or BRKBOX2).
The breakout box then connects to the DPU reader ports (1A, 2A, 1B, or 2B) using
an RJ45 CSI modular reader cable (CBL063).
With I/NET 2000 versions 2.x and later, DPU-7910A and DPU-7920 series controllers
with firmware version 2.20 or later also support the use of the 66-bit Wiegand reader.
These controllers also support the combination of a 66-bit Wiegand reader along with
an ESSEX PIN pad. Installation instructions for this configuration are described
following the basic reader installation instructions.
Connecting the 26-/32-Bit Wiegand Reader
There are five different models of 26-/32-bit Wiegand readers provided by CSI. All use
the same field output installation steps. These readers are detailed in Table 7.
Table 7. Wiegand Reader Models
Model Number Type of Reader
WK11 Insertion Type Key Reader, Red LED
WC11 Insertion Type Card Reader, Red LED
WS11 Swipe Type Card Reader, Red LED, Indoor
WS21 Swipe Type Card Reader, Red LED, Outdoor
WT11 Turnstile Type Card Reader, Red LED
Use the following steps to connect the field output cables to the CSI breakout box, or
directly to the DPU-7920 at TB3 or TB4 (see Figure 17).
1. Connect the white wire (DATA 1) to terminal 3.
2. Connect the red wire (+5 V) to terminal 4.
3. Connect the green wire (DATA 0) to terminal 5.
26 CSI Readers
Installation Guide Wiegand Readers
From Reader
SHIELD
DPU-7920 Connections:
White (DATA 1)
Red (+5 VDC)
Green (DATA 0)
Brown (RED LED)
Black (GROUND)
TB3 or TB4
1
2
3
4
5
6
7
8
SHIELD
Breakout Box Connections:
From Reader
Red
(+5 VDC)
5
White
(DATA 1)
4
3
2
1
Green
(DATA 0)
6
7
8
Brown
(RED LED)
Black
(GROUND)
To DPU-7910A
Series Controller
Figure 17. 26-/32-bit Wiegand Reader Cable Connections
4. Connect the brown wire (LED) to terminal 7 for Red LED operation.
Note: Connecting to terminal 7 allows the LED to follow the state of the strike/shunt outputs from
the DPU (e.g., the secure/non-secure state of the door). This output is in the On state
(Wiegand Readers On= 0 VDC) continuously while the strike is de-energized (the door is
open).
5. Connect the black wire (GROUND) to terminal 8.
6. Connect the cable shield using one of the following methods:
✧ DPU-7920 connection – When connecting the reader to a DPU-7920, connect
the shield directly to a good earth ground.
✧ DPU-7910A connection through a breakout box – When connecting the
reader to a DPU-7910A through a breakout box, connect the shield and earth
ground to terminal 2.
Connecting the 66-Bit Wiegand Reader (without PIN Pad Support)
Use the following steps to connect a 66-bit Wiegand reader to a DPU-7920, or to a CSI
breakout box for use with a DPU-7910A (see Figure 18).
1. Connect the white/green wire (DATA 1) to terminal 3.
2. Connect the white/blue wire (DATA 0) to terminal 5.
3. Connect the white/brown wire (RED LED) to terminal 6.
4. Connect the brown/white wire (GREEN LED) to terminal 7.
5. Connect the following wires to terminal 8:
✧ Blue/white (DATA 0 COMMON) wire.
✧ Green/white (DATA 1 COMMON) wire.
CSI Readers 27
Wiegand Readers Installation Guide
Direct
Connections:
DPU-7920
TB3
1
or
2
TB4
3
4
5
6
7
8
–
12 VDC
Power Supply
(350 mA minimum)
+
From
Reader
SHIELD
(See
Note)
White/Green
White/Blue (DATA 0)
White/Brown (RED LED)
Brown/White (GREEN LED)
Green/White (D1 COMMON)
Blue/White (D0 COMMON)
Orange/White
Orange/White
White/Orange (+12 VDC)
(DATA 1)
(PWR COMMON)
(PWR COMMON)
Note: Connect shield to earth ground at DPU or breakout box location
only. Ensure shield does not electrically connect to the reader.
Figure 18. 66-bit Wiegand Reader Cable Connections
Breakout Box
Connections:
4
3
2
1
SHIELD
(See Note)
5
6
7
8
to DPU-7910A
White/Green
(DATA 1)
White/Blue
(DATA 0)
White/Brown
(RED LED)
Brown/White
(GREEN LED)
Blue/White
(D0 COMMON)
Green/White
(D1 COMMON)
Orange/White
(PWR COMMON)
From
Reader
White/Orange
(+12 VDC)
+
Power Supply
(350 mA minimum)
–
12 VDC
6. Connect the white/orange wire (+12 VDC) to an external 12 VDC power supply.
This power supply must provide at least 350 mA at 12 VDC.
7. Connect the orange/white wire (POWER COMMON) to the external power supply
and to terminal 8.
Caution: In the following step, ensure that the cable shield is not electrically connected to the reader.
8. Connect the cable shield using one of the following methods:
✧ DPU-7920 connection – When connecting the reader to a DPU-7920, connect
the shield directly to a good earth ground.
✧ DPU-7910A connection through a breakout box – When connecting the
reader to a DPU-7910A through a breakout box, connect the shield and earth
ground to terminal 2.
Connecting the 66-Bit Wiegand Reader and the ESSEX PIN Pad
Use the following steps to connect a 66-bit Wiegand reader and ESSEX PIN pad to a
DPU-7920, or to a CSI breakout box for use with a DPU-7910A (see Figure 19).
Reader Connections:
1. Connect the white/green wire (DATA 1) to terminal 3.
2. Connect the white/blue wire (DATA 0) to terminal 5.
3. Connect the white/brown wire (RED LED) to terminal 6.
4. Connect the brown/white wire (GREEN LED) to terminal 7.
28 CSI Readers
Installation Guide Wiegand Readers
Direct
Connections:
Red
(+12 VDC)
White
From
PIN Pad
From
Reader
SHIELD
SHIELD
(See
Note)
(DATA 1)
Green
(DATA 0)
Brown
(LED)
Black
(GROUND)
White/Green
White/Blue (DATA 0)
White/Brown (RED LED)
Brown/White (GREEN LED)
Green/White (D1 COMMON)
Orange/White
Orange/White
White/Orange (+12 VDC)
(DATA 1)
Blue/White (D0 COMMON)
(PWR COMMON)
(PWR COMMON)
DPU-7920
TB3
1
or
2
TB4
3
4
5
6
7
8
–
12 VDC
Power Supply
(350 mA minimum)
+
Note: Connect shield to earth ground at DPU or breakout box location
only. Ensure shield does not electrically connect to the reader.
Figure 19. 66-bit Wiegand Reader and ESSEX PIN Pad Cable Connections
Breakout Box
Connections:
SHIELD
3
2
1
4
hite
W
ed
R
From
PIN Pad
SHIELD
(See Note)
White/Green
Green
5
Brown
Black
6
(GREEN LED)
7
(D0 COMMON)
8
(D1 COMMON)
White/Brown
Brown/White
Green/White
to DPU-7910A
Reader
(DATA 1)
White/Blue
(DATA 0)
(RED LED)
Blue/White
Orange/White
(PWR COMMON)
From
White/Orange
(+12 VDC)
+
Power Supply
(350 mA minimum)
–
12 VDC
5. Connect the following reader wires to terminal 8:
✧ Blue/white (DATA 0 COMMON) wire.
✧ Green/white (DATA 1 COMMON) wire.
6. Connect the white/orange wire (+12 VDC) to an external 12 VDC power supply.
This power supply must provide at least 350 mA at 12 VDC.
7. Connect the orange/white wire (POWER COMMON) to the external power supply
and to terminal 8.
Caution: In the following step, ensure that the cable shield is not electrically connected to the reader.
8. Connect the cable shield using one of the following methods:
✧ DPU-7920 connection – When connecting the reader to a DPU-7920, connect
the shield directly to a good earth ground.
✧ DPU-7910A connection through a breakout box – When connecting the
reader to a DPU-7910A through a breakout box, connect the shield and earth
ground to terminal 2.
PIN Pad Connections:
1. Connect the red wire (+12 VDC) to terminal 1.
2. Connect the white wire (DATA 1) to terminal 3.
3. Connect the green wire (DATA 0) to terminal 5.
CSI Readers 29
Wiegand Readers Installation Guide
4. Connect the brown wire (GREEN LED) to terminal 7.
5. Connect the black wire (GROUND) to terminal 8.
6. Connect the tan (CHASSIS GROUND) wire from the PIN pad to a good earth
ground.
7. When using a breakout box, connect the shield to terminal 2.
Note: When connecting the PIN pad to a DPU-7920 series controller, do not connect the cable
shield to terminal 2 on the DPU (TB3 or TB4). The DPU-7920 uses terminal 2 as an auxiliary input.
Common I/NET 2000 Settings:
From a host workstation, configure I/NET 2000 to use the 66-bit Wiegand reader and
ESSEX PIN pad. Common settings are:
✦ Reader Type: I/DISC
✦ PIN Pad: Activated
✦ LED Polarity: Anode
✦ Door Mode Schedule:
✧ “PIN Enable” to require both a card read and PIN entry
✧ “Secure” to require a card read only
✦ Key/Card Translation: Perform these translations as necessary using the I/NET
2000 Key/Card Translations editor.
Refer to the I/NET 2000 System Operator Guide or Technical Reference Guide for more
information concerning I/NET 2000.
PINPAD26 Field Output Installation
CSI provides a 12-position keypad for indoor or outdoor use. The PINPAD26 uses a
Wiegand 26-bit format. The PINPAD26 is a keyless/cardless product that requires only
the entry of a 5-digit code. Data format is the same as shown in “Wiegand Data Format”
on page 25.
The PINPAD26 is ordered with either single or multiple facility codes pre-programmed
at the factory. The facility codes are programmed into the site code address of the
PINPAD26. Access to the site codes is accomplished by wiring the yellow, violet, and
orange wires to terminal 8 (Ground) of the terminal block or breakout box. If a single
facility code is specified then the site code address of 6 is used. Do not connect the violet
and orange wires. Ground the yellow wire to specify site code address 6. If you specify
multiple facility codes, refer to the factory documentation accompanying the PINPAD26
to complete wiring for the correct site code addressing. Table 8 lists the site codes and the
wiring necessary to select each code.
Table 8. Site Code Selection Wiring
Site Code Yellow Wire Violet Wire Orange Wire
0 Ground Ground Ground
1 Not Connected Ground Ground
30 CSI Readers
Installation Guide Wiegand Readers
Table 8. Site Code Selection Wiring (Continued)
Site Code Yellow Wire Violet Wire Orange Wire
2 Ground Not Connected Ground
3 Not Connected Not Connected Ground
4 Ground Ground Not Connected
5 Not Connected Ground Not Connected
6 Ground Not Connected Not Connected
7 (Default) Not Connected Not Connected Not Connected
Use the following steps to directly connect the field output cables to the DPU-7920 at the
TB3 or TB4 terminals using the following steps (Figure 20). Use the following steps to
connect the field output cables to the CSI breakout box (see Figure 20).
1. Connect the white wire (Data-1) to terminal 3.
2. Connect the red wire (+5 V) to terminal 4.
3. Connect the green wire (Data-0) to terminal 5.
4. Connect the brown wire (LED) to terminal 7 for Red LED operation.
5. Connect the black wire (Ground) to terminal 8.
From Reader
SHIELD
DPU-7920 Connections:
Ta n
(CHASSIS GRND)
6. Connect the yellow wire from the PINPAD26 to terminal 8 for a single facility, site
address code 6.
7. Connect the cable shield and tan wire (Case Ground) using one of the following
methods (see Figure 20):
✧ DPU-7920 connection – When connecting to a DPU-7920, connect the shield
and tan wire directly to a good earth ground.
✧ DPU-7910A connection through a breakout box – When connecting to a
breakout box, connect the shield, tan wire, and earth ground to terminal 2.
Breakout Box Connections:
From Reader
Tan (CHASSIS GROUND)
White (DATA 1)
Red (+5 VDC)
Green (DATA 0)
Brown (RED LED)
Black (GROUND)
Yellow (GROUND)
Site Code Address 6
TB3 or TB4
1
2
3
4
5
6
7
8
White
(DATA 1)
Red
(+5 VDC)
3
2
1
4
Green
(DATA 0)
5
7
6
(RED LED)
8
Yellow (GROUND)
Site Address Code 6
Brown
Black
(GROUND)
To DPU-7910A
SHIELD
Series Controller
Figure 20. PINPAD26 Connections
CSI Readers 31
Wiegand Readers Installation Guide
ESSEX PIN Pad Support
I/DISC with PIN Pad
With I/NET versions 4.3x and later, the DPU-7920 series controllers support the use of
an ESSEX PIN pad in combination with an I/DISC reader. In this configuration, the
I/DISC communicates through a single-wire bi-directional interface over the AUX input
of the DPU reader port. The ESSEX PIN pad emits a Wiegand-encoded 26-bit stream
and connects to the standard reader interface (TB3 or TB4) on the DPU.
Installation instructions for the ESSEX PIN pad are described in the I/DISC reader
section of this document. Refer to “Connecting the I/DISC Reader and the ESSEX PIN
Pad” on page 23.
66-bit Wiegand Reader with PIN Pad
With I/NET 2000 versions 2.x and later, DPU-7910A and DPU-7920 series controllers
with firmware version 2.20 or later support the use of an ESSEX PIN pad in combination
with a 66-bit Wiegand reader. In this configuration, both the reader and the PIN pad
connect in parallel to the DPU reader port or to a CSI breakout box.
Installation instructions for the ESSEX PIN pad are described earlier in the Wiegand
reader section of this document. Refer to “Connecting the 66-Bit Wiegand Reader and
the ESSEX PIN Pad” on page 28.
ESSEX PIN Pad Operation
The red LED on the ESSEX PIN pad will be on if the door is in SECURE or PIN mode.
During this time, an individual may use their I/DISC or 66-bit Wiegand card at the
reader. A bad I/DISC or card read is indicated when the red LED flashes on and off for
approximately 2 seconds. In this case, the indiviudal should once again use their I/DISC
or 66-bit Wiegand card at the reader. After a valid read, if the door is in PIN mode, the
LEDs on the ESSEX PIN pad will alternate between red and green for up to 15 seconds.
During this time, the user must enter a 5-digit personal identification number (PIN). As
each digit is entered, it is stored in the PIN pad memory. If an incorrect digit is pressed,
the user may press the asterisk (*) key to clear the memory and reenter the entire PIN.
The user must press the pound (#) key to send the PIN to the DPU. If the user does not
press the # key within 15 seconds of the I/DISC or card read, then the reader will timeout and the I/DISC or card will have to be read again to restart the sequence.
Silent Duress Annunciation
Both the DPU-7910A and DPU-7920 (combined with I/NET version 4.3x and later)
support a silent duress annunciation mechanism. If an individual is forced to operate the
PIN pad under duress, they may substitute a duress code for their normal PIN (contact
your I/NET system administrator for the exact duress code). This will trigger the silent
duress annunciation mechanism. Upon sensing the duress condition, the DPU firmware
will log a duress transaction with the proper tenant and the user’s key/card number.
Following the duress transaction, the normal reader transaction will be logged for the
user’s key/card number. Refer to the I/NET 2000 System Technical Reference Guide for a
list and description of possible transaction messages.
32 CSI Readers
Installation Guide Wiegand Readers
Dorado Systems Model 780 Swipe Reader with PIN Pad
With I/NET versions 4.3x and later, the DPU-7910A and -7920 series controllers support
the Dorado 780 reader. This swipe reader adds PIN capabilities to the I/NET system.
While in PIN mode, if a properly encoded card is read, the user must then enter a valid
5-digit PIN before gaining access into the controlled area.
When a card is read, the reader emits a 26-bit or 32-bit Wiegand-encoded stream (refer
to “Wiegand Data Format” on page 25 for more information). Pressing a keypad digit
causes the reader to emit an 8-bit stream. The first four bits represent the value of the
digit pressed. The second four bits represent the binary bitwise complement of the first
four bits. The DPU firmware will distinguish between the card read 26-/32-bit stream
and the 8-bit digit stream.
Connecting the Dorado 780 Reader
The wires from the reader connect to 24 AWG (0.206 mm2), shielded, twisted-pair cable
that goes to the DPU. This cable connects to the DPU in one of the following ways:
✦ When connecting the reader to a DPU-7910A series controller, the cable from the
reader connects to a CSI breakout box. The breakout box then connects to the DPU
reader ports (1A, 2A, 1B, or 2B) using an RJ45 CSI modular reader cable (CBL063).
✦ When connecting the reader to a DPU-7920 series controller, the cable from the
reader can be connected directly to the reader ports (TB3 and TB4) on the DPU.
The pinout for the DPU-7920 reader ports (TB3 and TB4) and the CSI breakout boxes
are the same. Therefore, the installation instructions for either type of connection are the
same.
Note: The wire colors specified in the following steps refer to the wires from the reader. The actual
wire colors at the DPU will depend on the cabling used for the installation.
1. On the Dorado 780, set the SW1 DIP switches as follows:
Switch Setting
AON
BON
C OFF
These settings configure the reader to output 26-bit Wiegand-encoded data.
2. Connect the white (DATA 1) wire from the reader to terminal 3.
3. Connect the green (DATA 0) wire from the reader to terminal 5.
4. Connect the brown (CONTROL A) wire from the reader to terminal 6.
5. Connect the yellow (CONTROL B) wire from the reader to terminal 7.
6. Connect the red (+12 VDC) wire from the reader to an external +12 VDC linear
power supply.
7. Splice the GROUND wire from the external power supply to the black (GROUND)
wire from the reader.
8. Connect the black (GROUND) wire from the reader to terminal 8.
CSI Readers 33
Wiegand Readers Installation Guide
9. Connect the cable shield using one of the following methods:
✧ DPU-7920 connection – When connecting the reader to a DPU-7920, connect
the shield directly to a good earth ground.
✧ DPU-7910A connection through a breakout box – When connecting the
reader to a DPU-7910A through a breakout box, connect the shield and earth
ground to terminal 2.
From Reader
SHIELD
DPU-7920 Connections:
White (DATA 1)
Green (DATA 0)
Brown (CONTROL A)
Yellow (CONTROL B)
Black (GROUND)
Red (+12 VDC)
+12 VDC Linear
Power Supply
+
–
10. From a host workstation, configure I/NET to use the Dorado 780 swipe reader.
Breakout Box Connections:
TB3 or TB4
1
2
3
4
5
6
7
8
SHIELD
White
(DATA 1)
45
3
2
1
Figure 21. Dorado Model 780 Reader Connections
Common settings are:
✧ Reader Type: Wiegand 26-bit
From Reader
Green (DATA 0)
6
7
8
To DPU-7910A
Series Controller
Red (+12 VDC)
Brown
(CONTROL A)
Yellow
(CONTROL B)
Black (GROUND)
– +
+12 VDC
Linear Power
Supply
Note: The LED Polarity settings described below apply to a DPU configured for three-color LED
control. Refer to TCON116 “DPU-7910A Installation Guide” or TCON117 “DPU-7920
Installation Guide” for three-color LED control information.
✧ LED Polarity (DPU configured for three-color LED operation):
– “Anode” for three-color LED control on the entry reader, two-color LED
control on the exit reader.
– “Cathode” for three-color LED control on both the entry and exit reader.
✧ Door Mode Schedule:
– “PIN Enable” to require both a card read and PIN entry
– “Secure” to require a card read only
✧ Key/Card Translation: If the DPU is configured to enable Wiegand 26-bit
key/card translations, perform these translations as necessary using the I/NET
Key/Card Translations editor. Refer to TCON116, DPU-7910A Installation
Guide, or TCON117, DPU-7920 Installation Guide, for the necessary DIP
switch setting to enable Wiegand 26-bit key/card translations.
34 CSI Readers
Installation Guide Wiegand Readers
Refer to the I/NET 2000 System Operator Guide or Technical Reference Guide for more
information concerning I/NET 2000.
Dorado 780 PIN Pad Operation
The Dorado 780 reader makes use of the following three LEDs:
✦ Red LED – Labeled “Swipe Card”
✦ Yellow LED – Labeled “Enter PIN”
✦ Green LED – Labeled “Open Door”
The control for the LEDs is provided through two lines labeled CONTROL A and
CONTROL B. Refer to the installation instructions above for the connection locations
of these lines. TCON116, DPU-7910A Installation Guide, and TCON117, DPU-7920
Installation Guide, describe how to configure the DPU to support three-color LED operation.
If the door is in SECURE or PIN mode, the red LED will be on. During this time, the user
may pass their card through the swipe card reader. A bad card read is indicated when the
red LED flashes on and off for approximately 2 seconds. In this case, the user should once
again pass their card through the swipe card reader. After a valid card read, if the door is
in PIN mode, the red LED will turn off and the yellow LED will turn on. During this
time, the user must enter a 5-digit personal identification number (PIN). As each digit
is entered, it is sent immediately to the DPU. If an incorrect digit is pressed, the user may
press the asterisk (*) key to clear the memory and reenter the entire PIN. The * key can
be used twice during the PIN entry sequence (pressing the * key a third time will terminate the entry sequence and require the user to start over with a valid card read). Pressing
the fifth digit or the pound (#) key ends the PIN entry sequence. If less than 5 digits have
been entered when the user presses the # key, then all digits that have not been entered
will be interpreted as zero(s). If the user does not press the fifth digit or the # key within
15 seconds of the card read, then the reader will time-out and the card will have to be
read again to restart the sequence.
The Dorado 780 reader also supports the silent duress annunciation feature of I/NET
version 4.3x and later. Refer to “Silent Duress Annunciation” on page 32 for more infor-
mation about this feature.
CSI Readers 35
Proximity Readers Installation Guide
Proximity Readers
CSI provides eight models of proximity readers for indoor or outdoor uses. The read
ranges vary by model from 0–4" to 0–15" (0–10 cm to 0–38 cm). The standard data
format for these readers is Wiegand. These readers provide an LED function, red for
access denied, and green for access granted.
PR-110 and PR-112
The PR-110 proximity reader is an indoor Standard Reader. You can mount it on any
surface, including metal, or concealed behind most non-metallic building materials. You
may also mount it against a metal door or window frame. The read range is 0–6" (0–15
cm) with the PC-121 Card. The PR-112 is the outdoor version of this reader. Use the
following steps to install the field output cables. Directly connect the wires to the DPU7920 at the TB3 or TB4 terminals using the following steps (see Figure 22).
Note: You should always locate the linear power supply as close to the reader as physically possibly
PR-503 and PR-505
1. Connect the white wire (Data-1) to terminal 3.
2. The blue wire (Beeper) is not connected.
3. Connect the green wire (Data-0) to terminal 5.
4. Connect the brown wire (LED) to terminal 6 for Red LED operation.
5. Connect the orange wire (LED) to terminal 7 for Green LED operation
6. Connect the black wire (Ground) to terminal 8.
7. Connect the shield and earth ground to terminal 2.
8. Connect the positive lead of the 12 VDC linear power supply to the red wire at the
PR-110 or PR-112.
9. Connect the negative lead of the 12 VDC linear power supply to terminal 8.
to ensure maximum read ranges and placement separation.
The PR-503 proximity reader is an indoor/outdoor mullion reader. You can mount it on
any surface, including metal, or concealed behind most non-metallic building materials.
You may also mount it against a metal door or window frame. The read range is 0–4"
(0–10 cm) with the PC-121 Card. The PR-505 is an indoor wall switch reader, and
mounts similarly to the PR-105. Use the following steps to install the field output cables
to a breakout box. Directly connect the wires to the DPU-7920 at the TB3 or TB4 terminals using the following steps.
1. Connect the white wire (Data-1) to terminal 3.
2. The blue wire (Beeper) is not connected.
36 CSI Readers
Installation Guide Proximity Readers
3. Connect the green wire (Data-0) to terminal 5.
4. Connect the brown wire (LED) to terminal 6 for Red LED operation.
5. Connect the orange wire (LED) to terminal 7 for Green LED operation
6. Connect the black wire (Ground) to terminal 8.
7. Connect the cable shield using one of the following methods:
✧ DPU-7920 connection – When connecting to a DPU-7920, connect the shield
directly to a good earth ground.
✧ DPU-7910A connection through a breakout box – When connecting to a
breakout box, connect the shield and earth ground to terminal 2.
8. Connect the positive lead of the 12 VDC linear power supply to the red wire at the
PR-503 or PR-505.
9. Connect the negative lead of the 12 VDC linear power supply to terminal 8 (see
Figure 22).
From Proximity Reader
Note: The blue wire (Beeper) from the reader does
PR-103
DPU-7920 Connections:
White (DATA 1)
Green (DATA 0)
Brown (Red LED)
Orange (Green LED)
SHIELD
Black (GROUND)
Red (+12 VDC)
+12 VDC Linear
Power Supply
+
–
not connect to the DPU or breakout box.
Note: You should always locate the linear power supply as close to the reader as physically possibly
to ensure maximum read ranges and placement separation.
Breakout Box Connections:
From Proximity Reader
TB3 or TB4
1
2
3
4
5
6
7
8
SHIELD
White
(DATA 1)
Green (DATA 0)
45
3
2
1
6
7
8
To DPU-7910A
Series Controller
Red (+12 VDC)
Brown
(Red LED)
Orange
(Green LED)
Black (GROUND)
– +
Linear Power
Figure 22. PR-110, PR-112, PR-503, and PR-505 Output Cable Connections
+12 VDC
Supply
This proximity reader is an indoor/outdoor Door Frame Reader, and mounts directly on
a standard 1.75" (4.5 cm) wide metal door/window frame (mullion). Read range is 0–4"
(0–10 cm) with the PC-121 Card. Use the steps in “Proximity Reader Installation with
the Indala ARE-142” on page 38.
CSI Readers 37
Proximity Readers Installation Guide
PR-105
This proximity reader is an indoor Wall Switch Reader that is architecturally designed to
blend into executive office decor. This reader mounts directly on any standard U.S.A.
metal or plastic single-gang electrical box, or on a flat wall. It may be mounted on a metal
surface with a slight loss of read range. Read range is 0–4" (0–10 cm) with the PC-121
Card. Use the steps in “Proximity Reader Installation with the Indala ARE-142,” below.
PR-120 and PR-122
The PR-120 proximity reader is an indoor Medium Range Reader. The PR-122 is an
outdoor Medium Range Reader. They are designed for longer read range and bi-directional reading. They may be concealed behind extra thick building materials or buried
in a wall. They will not operate on a solid metal surface. Read range is 0–15" (0–38 cm)
with the PC-121 Card. Use the steps in “Proximity Reader Installation with the Indala
ARE-142,” below.
Proximity Reader Installation with the Indala ARE-142
The PR-103, PR-105, PR-120 and PR-122 require the ARE-142 Remote Electronics
Module to connect their output cables to the DPUs. Use the following steps to connect
the output cables to the ARE-142 and to the DPU (see Figure 23).
Connecting To the ARE-142
Use the following steps to install the field output cables from a PR-103, PR-105, PR-120
or PR-122 to an ARE-142 (see Figure 23).
1. Connect the blue wire to TB1-A on the ARE-142.
2. Connect the green wire to TB1-B on the ARE-142.
3. Connect the brown wire to TB1-C on the ARE-142.
4. Connect the white wire to TB1-D on the ARE-142.
5. Connect the black wire to TB1-E on the ARE-142.
6. Connect the red wire to TB1-F on the ARE-142.
7. Connect the shield to TB1-E on the ARE-142.
Connecting the ARE-142 Output Cables
Use the following steps to install the field output cables from an ARE-142 to a breakout
box or directly to the DPU-7920 at the TB3 or TB4 (see Figure 23).
1. Connect the white wire (Data-1) from terminal 4, TB2 of the ARE-142 to terminal
3 on the breakout box or DPU-7920.
2. The blue wire (Beeper) from terminal 6, TB2 of the ARE-142 is not connected to
the breakout box or DPU-7920.
38 CSI Readers
Installation Guide Proximity Readers
12VDC Linear Power
+
–
1
2
3
4
5
6
7
8
Black
Green
Shield
To DPU-7910A
Series Controller
White
Brown
1 2 3 4 5 6 7 8 9 10
Data 1
Data 0
Beeper In
LED Green
LED Red
DC PWR In (-)
DC PWR In (+)
Brown
Black
White
Green
Blue *
Orange
Shield
TB2
INPUT/OUTPUT READER
A B C D E F
Antenna
Beeper Out
Red LED Out
Greed LED Out
Antenna PWR (-)
Antenna PWR (+)
Blue
Green
Brown
White
Black
Red
To Proximity
Reader Models
(PR-103, -105,
-120, -122)
Shield
TB1
Red
Indala ARE-142
Orange
* Blue wire not
connected to
Breakout box.
Figure 23. ARE-142 Cable Output Connections
3. Connect the green wire (Data-0) from terminal 5, TB2 of the ARE-142 to terminal
5 on the breakout box or DPU-7920.
4. Connect the orange wire (LED Green) from terminal 7, TB2 of the ARE-142 to
terminal 7 for Green LED operation.
5. Connect the brown wire (LED Red) from terminal 8, TB2 of the ARE-142 to
terminal 6 for Red LED operation.
6. Connect the black wire (Ground) from terminal 9, TB2 of the ARE-142 to terminal
8 of the breakout box or DPU-7920.
7. Connect the cable shield to terminal 9, TB2 of the ARE-142.
CSI Readers 39
Proximity Readers Installation Guide
8. Connect the cable shield using one of the following methods:
✧ DPU-7920 connection – When connecting to a DPU-7920, connect the shield
directly to a good earth ground.
✧ DPU-7910A connection through a breakout box – When connecting to a
breakout box, connect the shield and earth ground to terminal 2.
9. Connect the positive lead of the 12 VDC linear power supply to the red wire
terminal 10, TB2 of the ARE-142.
10. Connect the negative lead of the 12 VDC linear power supply to terminal 8 of the
breakout box or DPU-7920.
Note: Always locate the linear power supply as close to the reader as physically possibly to ensure
maximum read ranges and placement separation.
PIN Pad Proximity Readers
In addition to the CSI proximity readers, I/NET versions 4.3x and later also support the
use of the following third-party readers with the DPU-7910A and DPU-7920 series
controllers:
✦ Motorola/Indala ARK-501
✦ Hughes ProxPro™
These readers add PIN capabilities to the I/NET system. While in PIN mode, if a properly
encoded card is passed in proximity to the reader and is successfully read, the user must
then enter a valid 5-digit PIN.
When a card is read, the reader emits a 26-bit or 32-bit Wiegand-encoded stream (refer
to “Wiegand Data Format” on page 25 for more information). Pressing a keypad digit
causes the reader to emit an 8-bit stream. The first four bits represent the value of the
digit pressed. The second four bits represent the binary bitwise complement of the first
four bits. The DPU firmware will distinguish between the card read 26-/32-bit stream
and the 8-bit digit stream.
Follow the manufacturer’s instructions for physically installing these readers. Electrical
installation instructions for each reader are described below.
Connecting to the DPU-7910A and -7920 Series Controllers
The wires from the reader connect to 24 AWG (0.206 mm2), shielded, twisted-pair cable
that goes to the DPU. This cable connects to the DPU in one of the following ways:
✦ When connecting the reader to a DPU-7910A series controller, the cable from the
reader connects to a CSI breakout box. The breakout box then connects to the DPU
reader ports (1A, 2A, 1B, or 2B) using an RJ45 CSI modular reader cable (CBL063).
✦ When connecting the reader to a DPU-7920 series controller, the cable from the
reader can be connected directly to the reader ports (TB3 and TB4) on the DPU.
The pinout for the DPU-7920 reader ports (TB3 and TB4) and the CSI breakout boxes
are the same. Therefore, the installation instructions for either type of connection are the
same.
40 CSI Readers
Installation Guide Proximity Readers
Motorola/Indala ARK-501 Installation
Use the following steps to connect the Motorola/Indala ARK-501 reader to the DPU or
CSI breakout box.
Note: The wire colors specified in the following steps refer to the wires from the reader. The actual
wire colors at the DPU will depend on the cabling used for the installation.
1. Connect the white (DATA 1) wire from the reader to terminal 3 (see Figure 24).
2. Connect the green (DATA 0) wire from the reader to terminal 5.
3. Connect the brown (RED LED) wire from the reader to terminal 6.
4. Connect the orange (GREEN LED) wire from the reader to terminal 7.
5. Connect the red (+12 VDC) wire from the reader to an external +12 VDC linear
power supply.
6. Splice the GROUND wire from the external power supply to the black (GROUND)
wire from the reader.
7. Connect the black (GROUND) wire from the reader to terminal 8.
From Reader
SHIELD
8. Connect the cable shield using one of the following methods:
DPU-7920 Connections:
White (DATA 1)
Green (DATA 0)
Brown (RED LED)
Orange (GREEN LED)
Black (GROUND)
Red (+5–14 VDC)
+5–14 VDC
Linear Power
Supply
+
–
✧ DPU-7920 connection – When connecting to a DPU-7920, connect the shield
directly to a good earth ground.
✧ DPU-7910A connection through a breakout box – When connecting to a
breakout box, connect the shield and earth ground to terminal 2.
Breakout Box Connections:
From Reader
TB3 or TB4
1
2
3
4
5
6
7
8
SHIELD
White
(DATA 1)
Green (DATA 0)
45
3
2
1
6
7
8
To DPU-7910A
Series Controller
Red (+5–14 VDC)
Brown
(RED LED)
Orange
(GREEN LED)
Black (GROUND)
– +
+5–14 VDC
Linear Power
Supply
Figure 24. Motorola/Indala ARK-501 Connections
CSI Readers 41
Proximity Readers Installation Guide
9. From a host workstation, configure I/NET to use the ARK-501 proximity reader.
Common settings are:
✧ Reader Type: Wiegand 26-bit
✧ LED Polarity: Anode
✧ Door Mode Schedule:
– “PIN Enable” to require both a card read and PIN entry
– “Secure” to require a card read only
✧ Key/Card Translation: If the DPU is configured to enable Wiegand 26-bit
key/card translations, perform these translations as necessary using the I/NET
Key/Card Translations editor. Refer to TCON116, DPU-7910A Installation
Guide, or TCON117, DPU-7920 Installation Guide, for the necessary DIP
switch setting to enable Wiegand 26-bit key/card translations.
Refer to the I/NET 2000 System Operator Guide or Technical Reference Guide for more
information concerning I/NET 2000.
Hughes ProxPro Installation
Use the following steps to connect the Hughes ProxPro reader to the DPU or CSI
breakout box.
1. On the Hughes ProxPro, set the SW1 DIP switches as follows:
Switch Setting
1ON– Wiegand
2ON– Beeper enabled
3 OFF – Green LED enabled
4ON– Keyboard data sent on DATA lines
5ON– Dual LED control
6 OFF – DATA 1 not biased (open collector)
7 OFF – DATA 0 not biased (open collector)
8ON– Not used
2. Connect the DATA 1 wire from the reader to terminal 3.
3. Connect the DATA 0 wire from the reader to terminal 5.
4. Connect the RED LED wire from the reader to terminal 6.
5. Connect the GREEN LED wire from the reader to terminal 7.
6. Connect the +12 VDC wire from the reader to an external +12 VDC linear power
supply.
7. Splice the GROUND wire from the external power supply to the GROUND wire
from the reader.
8. Connect the GROUND wire from the reader to terminal 8.
9. Connect the cable shield using one of the following methods:
✧ DPU-7920 connection – When connecting to a DPU-7920, connect the shield
directly to a good earth ground.
✧ DPU-7910A connection through a breakout box – When connecting to a
breakout box, connect the shield and earth ground to terminal 2.
42 CSI Readers
Installation Guide Proximity Readers
From Reader
SHIELD
DPU-7920 Connections:
DATA 1
DATA 0
RED LED
GREEN LED
GROUND
+12 VDC
+12 VDC Linear
Power Supply
+
–
10. From a host workstation, configure I/NET to use the Hughes proximity reader.
Breakout Box Connections:
From Reader
TB3 or TB4
1
2
3
4
5
6
7
8
SHIELD
DATA 1
DATA 0
45
3
2
1
6
7
8
To DPU-7910A
Series Controller
+12 VDC
RED LED
GREEN LED
GROUND
– +
+12 VDC
Linear Power
Supply
Figure 25. Hughes ProxPro Connections
Common settings are:
✧ Reader Type: Wiegand 26-bit
✧ LED Polarity: Anode
✧ Door Mode Schedule:
– “PIN Enable” to require both a card read and PIN entry
– “Secure” to require a card read only
✧ Key/Card Translation: If the DPU is configured to enable Wiegand 26-bit
key/card translations, perform these translations as necessary using the I/NET
Key/Card Translations editor. Refer to TCON116, DPU-7910A Installation
Guide, or TCON117, DPU-7920 Installation Guide, for the necessary DIP
switch setting to enable Wiegand 26-bit key/card translations.
Refer to the I/NET 2000 System Operator Guide or Technical Reference Guide for more
information concerning I/NET 2000.
PIN Pad Operation for the Motorola/Indala and Hughes Readers
Prior to a card read, the LED on the PIN pad is off. After a valid card read, if the door is
in PIN mode, the LED on the PIN pad will alternate between red and green for up to 15
seconds. During this time, the user must enter a 5-digit personal identification number
(PIN). As each digit is entered, it is sent immediately to the DPU. If an incorrect digit is
pressed, the user may press the asterisk (*) key to clear the memory and reenter the entire
PIN. The * key can be used twice during the PIN entry sequence (pressing the * key a
third time will terminate the entry sequence and require the user to start over with a valid
card read). Pressing the fifth digit or the pound (#) key ends the PIN entry sequence. If
less than 5 digits have been entered when the user presses the # key, then all digits that
CSI Readers 43
Proximity Readers Installation Guide
have not been entered will be interpreted as zero(s). If the user does not press the fifth
digit or the # key within 15 seconds of the card read, then the reader will time-out and
the card will have to be read again to restart the sequence.
The Motorola/Indala ARK-501 and Hughes ProxPro readers also support the silent
duress annunciation feature of I/NET version 4.3x and later. Refer to “Silent Duress
Annunciation” on page 32 for more information about this feature.
44 CSI Readers
Installation Guide Specifications
Specifications
CRDRDR and KEYRDR
Power and Environment
Power: 11 to 15 VDC at 50 mA maximum. (For U.L. listed
applications, the readers must be powered from CSI Models
DPU-7910A or DPU-7920.)
Operating Temperature: 20˚ to 131˚F (–7˚ to 55°C)
Humidity: 5% to 95% noncondensing
Cable: 200 feet (60 m) 22 AWG (0.324 mm2) shielded, 8conductor solid (Belden 9305) or 20 AWG (0.519 mm2)
stranded (Belden 8725)
CRDRDR and KEYRDR Outputs:
CSI proprietary format. Clock and Data: Open collector with
a maximum of 30 VDC, and a maximum sink current of 18
mA.
Dimensions:
KEYRDR: 1.5" L x 1.47" W x 2.5" D
(3.81 × 3.73 × 6.35 cm)
CRDRDR: 3.8" L × 1.47" W × 2.5" D
(9.65 × 3.73 × 6.35 cm)
MAGSWIPEID
Power and Environment
Power: 5 VDC ±5% at 25 mA maximum.
Operating Temperature: –31˚ to 150˚ F (–35˚ to 66˚ C)
Humidity: 5% to 95% noncondensing
Cable: 200 feet (60 m) 22 AWG (0.324 mm2) shielded,
8-conductor solid (Belden 9305) or 20 AWG (0.519 mm2)
stranded (Belden 8725)
Output Signal: Serial Data with Strobe; Data is inverted
(5 V=0) with SW-A off.
Dimensions: 6.00" L × 1.75" W × 1.35" D
(15.2 × 4.4 × 3.4 cm)
KEYPIN1, KEYPIN2, CARDPIN1, CARDPIN2
Power and Environment
Power: 11 to 15 VDC at 50 mA maximum.
Operating Temperature: 20˚ to 131˚F (–7˚ to 55˚C)
Humidity: 5% to 95% noncondensing
I/DISC
IDISCRDR: I/DISC: 0.64" Dia. × 0.88" D
(1.63 × 2.24 cm)
LED: 0.33" Dia. × 0.65" D
(0.84 × 1.65 cm)
IDISCRDRB: 2.6" H × 1.5" W × 0.55" D
(6.6 × 3.8 × 1.4 cm)
IDISCRDRMP: 3.8" H × 1.5" W × 0.75" D
(9.65 × 3.8 × 1.9 cm)
Operating Temperature: –4° to 158°F (–20° to 70°C)
Cable: 200 feet (60 m) 22 AWG (0.324 mm2) shielded, 8conductor solid (Belden 9305) or 20 AWG (0.519 mm2)
stranded (Belden 8725)
Cable: 200 feet (60 m) 22 AWG (0.324 mm2) shielded,
8-conductor solid (Belden 9305) or 20 AWG (0.519 mm2)
stranded (Belden 8725)
Output Signal: CSI Proprietary format.
Dimensions:
KEYPIN1 and CARDPIN1: 7.01" L × 5.01" W × 3.75" D
(17.81 × 12.73 × 9.53 cm)
KEYPIN2 and CARDPIN2: 6.00" L × 6.00" W × 3.75" D
(15.24 × 15.24 × 9.53 cm)
CSI Readers 45
Specifications Installation Guide
WK11
Power and Environment
Power: 5 VDC ±5% at 25 mA
Operating Temperature: –40˚ to 130˚F (–40˚ to 54˚C)
Humidity: 5% to 95% noncondensing
Cable: 500 feet (150 m) 24 AWG (0.206 mm2) shielded,
6-conductor stranded (Belden 9536) or 7-conductor stranded
(Belden 9537)
Output Signal: 26/32-bit Wiegand data format.
Dimensions: 2" L × 1.57" W × 1.5" D
(5.00 × 3.98 × 3.80 cm)
WC11
Power and Environment
Power: 5 VDC ±5% at 25 mA
Operating Temperature: –40˚ to 130˚F (–40˚ to 54˚C)
Humidity: 5% to 95% noncondensing
Cable: 500 feet (150 m) 24 AWG (0.206 mm2) shielded,
6-conductor stranded (Belden 9536) or 7-conductor stranded
(Belden 9537)
Output Signal: 26/32-bit Wiegand data format.
Dimensions: 3.0" L × 2.0" W × 3.2" D
(7.62 × 8.13 × 5.00 cm)
WT11
Power and Environment
Power: 5 VDC ±5% at 25 mA
Operating Temperature: –40˚ to 130˚F (–40˚ to 54˚C)
Humidity: 5% to 95% noncondensing
Cable: 500 feet (150 m) 24 AWG (0.206 mm2) shielded, 6conductor stranded (Belden 9536) or 7-conductor stranded
(Belden 9537)
Output Signal: 26/32-bit Wiegand data format.
Dimensions: 1.75" L × 1.80" W × 7.00" D
(4.45 × 4.57 × 17.78 cm)
PINPAD26
Power and Environment
Power: 12 VDC ±5% at 80 mA
Operating Temperature: –104˚ to 158˚F (–40˚ to 70˚C)
Humidity: 5% to 95% noncondensing
Cable: 500 feet (150 m) 24 AWG (0.206 mm2) shielded,
6-conductor stranded (Belden 9536) or 7-conductor stranded
(Belden 9537)
Output Signal: 26-bit Wiegand data format.
Dimensions: 1.125" L × 1.375" W × 0.438" D
(2.86 × 3.50 × 1.11 cm)
WS11 and WS21
Power and Environment
Power: 5 VDC ±5% at 25 mA
Operating Temperature: –40˚ to 130˚F (–40˚ to 54˚C)
Humidity: 5% to 95% noncondensing
Cable: 500 feet (150 m) 24 AWG (0.206 mm2) shielded,
6-conductor stranded (Belden 9536) or 7-conductor stranded
(Belden 9537)
Output Signal: 26/32-bit Wiegand data format.
Dimensions: 2.3" L × 5.3" W × 1.7" D
(5.83 × 13.46 × 4.32 cm)
PR-103
Power and Environment
Power: 12 VDC ±15% at 0.9 A (linear power supply
required)
Operating Temperature: –22 to 149°F (–30° to +65°C)
Cable to ARE-142: 350 feet (100 m) 24 AWG (0.206 mm
shielded, 6-conductor stranded (Belden 9536) or
7-conductor stranded (Belden 9537)
Weight: 2.8 oz.(80 g)
Output Signal: 26/32-bit Wiegand data format.
Dimensions: 1.7" L × 4.6" W × 0.6" D
(4.32 × 11.68 × 1.52 cm)
2
)
46 CSI Readers
Installation Guide Specifications
PR-105
Power and Environment
Power: 12 VDC ±15% at 0.9 A (linear power supply
required)
Operating Temperature: 32° to 122°F (0° to 50°C)
Cable to ARE-142: 350 feet (100 m) 24 AWG (0.206 mm2)
shielded, 6-conductor stranded (Belden 9536) or
7-conductor stranded (Belden 9537)
Weight: 3.2 oz. (91 g)
Output Signal: 26/32-bit Wiegand data format.
Dimensions: 4.6" L × 2.9" W × 0.5" D
(11.68 × 7.37 × 1.3 cm)
PR-110
Power and Environment
Power: 12 VDC ±15% at 0.9 A (linear power supply
required)
Operating Temperature: –22° to 149°F (–30° to +65°C)
Cable: 350 feet (100 m) 24 AWG (0.206 mm2) shielded,
6-conductor stranded (Belden 9536) or 7-conductor stranded
(Belden 9537)
PR-120
Power and Environment
Power: 12 VDC ±15% at 0.9 A (linear power supply
required)
Operating Temperature: –22 to 149°F (–30° to +65°C)
Cable to ARE-142: 150 feet (45 m) 24 AWG (0.206 mm2)
shielded, 6-conductor stranded (Belden 9536) or
7-conductor stranded (Belden 9537)
Weight: 20 oz. (570 g)
Output Signal: 26/32-bit Wiegand data format.
Dimensions: 8.7" L × 8.7" W × 1.2" D
(22.10 × 22.10 × 3.05 cm)
PR-122
Power and Environment
Power: 12 VDC ±15% at 0.9 A (linear power supply
required)
Operating Temperature: –22° to 149°F (–30° to +65°C)
Cable to ARE-142: 150 feet (45 m) 24 AWG (0.206 mm2)
shielded, 6-conductor stranded (Belden 9536) or
7-conductor stranded (Belden 9537)
Weight: 11.2 oz. (320 g)
Output Signal: 26/32-bit Wiegand data format.
Dimensions: 4.6" L × 5.5" W × 1.4" D
(11.68 × 13.97 × 3.56 cm)
PR-112
Power and Environment
Power: 12 VDC ±15% at 0.9 A (linear power supply
required)
Operating Temperature: –22° to 149°F (–30° to +65°C)
2
Cable: 350 feet (100 m) 24 AWG (0.206 mm
6-conductor stranded (Belden 9536) or 7-conductor stranded
(Belden 9537)
Weight: 12.8 oz. (395 g)
Output Signal: 26/32-bit Wiegand data format.
Dimensions: 4.6" L × 5.5" W × 1.4" D
(11.68 × 13.97 × 3.56 cm)
) shielded,
Weight: 22 oz. (630 g)
Output Signal: 26/32-bit Wiegand data format.
Dimensions: 8.7" L × 8.7" W × 1.2" D
(22.10 × 22.10 × 3.05 cm)
PR-503
Power and Environment
Power: 5 to 12 VDC at 45 mA (linear power supply
required)
Operating Temperature: –22° to 149°F (–30° to +65°C)
2
Cable: 350 feet (100 m) 24 AWG (0.206 mm
6-conductor stranded (Belden 9536) or 7-conductor stranded
(Belden 9537)
Output Signal: 26/32-bit Wiegand data format.
Dimensions: 5.5" L × 1.6" W × 0.75" D
(14.0 × 4.1 × 1.0 cm)
) shielded,
CSI Readers 47
Specifications Installation Guide
Output Signal: 26/32-bit Wiegand data format.
PR-505
Power and Environment
Power: 5 to 12 VDC at 45 mA (linear power supply
required)
Operating Temperature: –22° to 149°F (–30° to +65°C)
Cable: 350 feet (100 m) 24 AWG (0.206 mm2) shielded,
6-conductor stranded (Belden 9536) or 7-conductor stranded
(Belden 9537)
Output Signal: 26/32-bit Wiegand data format.
Dimensions: 4.60" L × 3.90" W × 0.50" D
(11.7 × 7.4 × 1.3 cm)
Indala ARE-142
Power and Environment
Power: 12 VDC ±15% at 0.9 A (linear power supply
required)
Operating Temperature: 32° to 122°F (0° to 50°C)
Cable Length from ARE-142 to Host Controller:
With PR103 & -105: 500 feet (150 m) 24 AWG
(0.206 mm2) shielded, 6-conductor stranded (Belden
9536) or 7-conductor stranded (Belden 9537)
With PR-120 & -122: 350 feet(100 m) 24 AWG
(0.206 mm2) shielded, 6-conductor stranded (Belden
9536) or 7-conductor stranded (Belden 9537)
Weight: 9.9 oz. (280 g)
Output Signal: 26/32-bit Wiegand data format.
Dimensions: 4.6" L × 5.5" W × 3.5" D
(11.7 × 14.0 × 8.9 cm)
Hughes ProxPro
Power and Environment
Power: 10–28.5 VDC at 100 mA (160 mA peak)
(linear power supply required)
Dimensions: 5.0" L × 5.0" W × 1.0" D
(12.7 × 12.7 × 2.54 cm)
ESSEX PIN Pad
Power and Environment
Power: 12 VDC
Operating Temperature: –40° to 160°F (–40° to 71°C)
Output Signal: 26/32-bit Wiegand data format.
Motorola/Indala ARK-501
Power and Environment
Power: 5–14 VDC (linear power supply required)
Current: 50 mA at 14 VDC
Operating Temperature: –22° to 149°F (–30° to 65°C)
Cable: 500 feet (150 m) 24 AWG (0.206 mm2) shielded, 6-
or 7-conductor stranded.
Weight: 11.9 oz. (337 g)
Output Signal: 26-bit Wiegand data format.
Dimensions: 4.55" L × 3.00" W × 0.65" D
(11.56 × 7.60 × 1.65 cm)
Dorado 780
Power and Environment
Power: 8–12 VDC
Operating Temperature: –31° to 150°F (–35° to 66°C)
Cable: 500 feet (150 m) 22 AWG (0.324 mm
6-conductor stranded.
Output Signal: 26-bit Wiegand data format.
Dimensions: 6.75"L
× 5.25"W × 2.75"D
(17.15 × 13.34 × 6.99 cm)
2
) shielded,
Operating Temperature: –22° to 150°F (–30° to 65°C)
Cable: 500 feet (150 m) 22 AWG (0.324 mm2) shielded,
6-conductor stranded.
Weight: 12 oz. (336 g)
48 CSI Readers
54
Installation Guide Index
Index
Wiegand
26-Bit 25
A
ABA readers
See MAGSWIPEID
Annunciation, Silent Duress 32
ARK-501
description 40
installation 41
PIN Pad Operation 43
specifications 48
Dorado 780
DPUs
Duress, Silent Annuciation 32
32-Bit 25
66-Bit 25
connecting 33
description 33
PIN Pad Operation 35
specifications 48
related manuals 3
B
Breakout box
BRKBOX2 1
dual 1
signal assignments 1
terminal assignments 1
C
CARDPIN1
output cable installation
DPU-3100 13
DPU-7910A 13
DPU-7920 13
CARDPIN2
output cable installation
DPU-3100 13
DPU-7910A 13
DPU-7920 13
E
ESSEX PIN pad
connecting 23
Operation 32
specifications 48
support 32
H
Hughes ProxPro
description 40
installation 42
PIN Pad Operation 43
specifications 48
I
I/DISC
physical installation 20–21
D
Data format
ABA 15–16
Watermark 18
CSI Readers 49
Index Installation Guide
connection of proximity readers 38
output cable installation 38
K
Key/Card reader
installation 4–7, 9
low temperature package 11, 12
installation 12–13
operation 11
pedestal installation 9
pushbutton installation 8
KEYPIN1
output cable installation
DPU-3100 13
DPU-7910A 13
DPU-7920 13
KEYPIN2
output cable installation
DPU-3100 13
DPU-7910A 13
DPU-7920 13
M
MAGSWIPEID
data format 15–16
output cable installation 16
Motorola/Indala ARK-501
description 40
installation 41
specifications 48
P
PIN Pad Operation
Dorado 780 35
ESSEX 32
Hughes ProxPro 43
Motorola/Indala ARK-501 43
PINPAD26
data format 30
installation 31
Proximity Reader
ARE-142
Hughes ProxPro 40
Motorola/Indala ARK-501 40
PR-103
connection to ARE-142 38
description 37
PR-105
connection to ARE-142 38
description 38
PR-110
description 36
output cable installation 36
PR-112
description 36
output cable installation 36
PR-120
connection to ARE-142 38
description 38
PR-122
connection to ARE-142 38
description 38
PR-503
description 36
output cable installation 36
PR-505
description 36
output cable installation 36
R
Readers
ABA Mag-Stripe
Data format 15–16
compatibility 1
Dorado 780 33
Hughes ProxPro 40
Motorola/Indala ARK-501 40
signal breakout 2
Watermark
data format 18
Wiegand 25
26-Bit format 25
32-Bit format 25
66-Bit format 25
50 CSI Readers
Installation Guide Index
Related DPU manuals 3
S
Signal breakout 1
Silent Duress Annunciation 32
W
Watermark
data format 18
output cable installation 18
Wiegand
26-Bit format 25
32-Bit format 25
66-Bit format 25
Dorado 780 33
ESSEX PIN Pad 32
Hughes ProxPro 40
models 26
Motorola/Indala ARK-501 40
PINPAD26 31
readers output installation 26
WC11 26
WK11 26
WS11 26
WS21 26
WT11 26
CSI Readers 51
Warranty
Repair or Replacement
If this unit fails to operate because of a defect in materials or
workmanship within two (2) years of the date you purchased
it, it will either be repaired or replaced by Control Systems
International, Inc. (CSI) at no charge to you. Before
contacting CSI, it is recommended that you first contact the
dealer from whom you purchased this equipment to
determine whether they will have it repaired or replaced. If
the dealer will not, please contact CSI to arrange to have this
equipment repaired or replaced.
CSI EXPRESSLY RESERVES THE RIGHT TO REPAIR OR
REPLACE THIS EQUIPMENT WITH NEW OR
REFURBISHED PARTS OR EQUIPMENT.
Exclusions and Limitations
Your warranty does not cover:
• Damage by negligence, misuse, or accident
• Compatibility with the equipment of any other
manufacturer
• Modifications to the equipment to make it compatible
with the equipment of any other manufacturer
• Damage to the equipment resulting from improper
installation or operation.
Legal Rights and Limits
All applicable implied warranties, including the implied
warranty of merchantability and of fitness for a particular
purpose given to you by law are hereby limited in durability
to the duration of this warranty. Under no circumstances will
CSI be liable for any incidental or consequential damages.
Purchaser’s Responsibility
In order to obtain service under this warranty, you must
deliver the equipment to the place of purchase or to CSI and
provide proof of the original purchase date along with the
returned equipment. Failure to provide adequate proof of the
original purchase date could result in denial of warranty
service.
Out of Warranty Service
Direct requests for information on out-of-warranty service to
Product Service Manager at the address below.
P.O. Box 59469
Dallas, TX 75229 USA
Phone: +1 (972) 323-1111
Fax: +1 (972) 242-0026
CSI Europe
Solutions House
Whitwork Business Park
Coalville Leicestershire LE67 4JP United Kingdom
Phone: +44 (1530) 278000
Fax: +44 (1530) 0278001
CSI Pacific
36 Hasler Rd.
Osborne Park, W. A. 6017 Australia
Phone: +61 (89) 244 2799
Fax: +61 (89) 244 4335
You may obtain copies of this document by ordering
document number TCON112.
Some states in the U.S.A. do not allow limitations on how
long implied warranties last, or exclusions or limitations of
incidental or consequential damages, so exclusions or
limitations mentioned may not apply to you. This warranty
gives you specific legal rights, and you may also have other
rights which vary from state to state.
TCON112.–.06/00
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