Keyscan CA250B, CA4500B, CA8500B, EC1500B, EC2500B Technical Instructions

Copyright © 2001 - 2015 Keyscan Inc. All rights reserved.

Information and specifications in this document are subject to change without notice.

Except for the benefit of installation and operation of the Keyscan access control system, no part of this

documentation may be reproduced or transmitted in any form or by any means without the expressed written

permission of Keyscan Inc.

Keyscan Inc.
901 Burns Street East
Whitby, Ontario
Canada
L1N 0E6
Phone: 1-888-539-7226 (Toll Free Canada/USA)
Phone: 905-430-7226
Fax: 905-430-7275

Web Site: www.keyscan.ca

Keyscan technical support is available to dealers and installers Monday to Friday 9:00 A.M. to 6:30 P.M.

Eastern Time at the above listed telephone numbers or web address.

4

Table of Contents

List of Figures ................................................................................................................................... 7

List of Tables................................................................................................................................... 10

Foreword ........................................................................................................................................ 11

Approved Standards ..................................................................................................................... 11

Product Listings ........................................................................................................................... 11

About This Guide ......................................................................................................................... 11

Installation Requirements .............................................................................................................. 12

Power ......................................................................................................................................... 12

Electrical Precautions ................................................................................................................... 12

Tools .......................................................................................................................................... 12

Cables ........................................................................................................................................ 13

Grounding .................................................................................................................................. 13

Mount the Enclosure & Components ................................................................................................ 15

UL STD 294, CSA STD C22.2 (No. 205), CE, FCC 15 Subpart B .......................................................... 15

Mounting the Metal Enclosure ........................................................................................................ 16

Mounting the PC109x Control Board to Metal Standoffs .................................................................... 18

Mounting Power Supplies .............................................................................................................. 20

Grounding Communication Cable Shield.......................................................................................... 22

Control Board – Mounting Locations ............................................................................................... 22

Connect Enclosure Tamper Switch to TB3 ....................................................................................... 25

Connect Enclosure Ground Strap ................................................................................................... 26

Typical Door Layout and Hardware ................................................................................................. 27

Door Lock Hardware ..................................................................................................................... 28

Door Contacts, Exit Buttons, Auxiliary Inputs .................................................................................. 29

Readers ...................................................................................................................................... 30

Terminate Wiring at the ACU ........................................................................................................... 31

OCB-8 Relay Board ...................................................................................................................... 31

Terminate Lock Wiring .................................................................................................................. 31

Terminate Input Wiring ................................................................................................................ 37

Terminate Elevator Floor Wiring ..................................................................................................... 43

Terminate Reader Wiring at ACU.................................................................................................... 47

Terminate Auxiliary Outputs with Hardware/Alarms.......................................................................... 49

Keyscan Inc. – Technical Guide (PC109x - 04.15)

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S2 DIP Switches .............................................................................................................................. 52

S2 DIP Switch Functions ............................................................................................................... 52

S2 Dip Switch Settings ................................................................................................................. 54

Important - Circuit Board Function Revisions ................................................................................... 56

S1 - System Reset / S3 - Restore Factory Defaults ......................................................................... 57

S1 – System Reset ...................................................................................................................... 57

S3 – Restore Factory Defaults (Clear Memory) ................................................................................ 57

Single ACU Communication ............................................................................................................. 59

Multiple Building Communication on a WAN ..................................................................................... 59

Keyscan RS-232 Data Cable .......................................................................................................... 59

CIM Communication ........................................................................................................................ 65

CIM Conventions ......................................................................................................................... 65

CIM Module Requirements ............................................................................................................ 66

CIM Specifications ....................................................................................................................... 66

BPS/CAN Bus Distance Chart ......................................................................................................... 67

CIM Jumper Settings .................................................................................................................... 68

CIM Installation Guidelines............................................................................................................ 70

CIM Connection Diagrams ............................................................................................................. 70

Serial Communication .................................................................................................................. 73

Network Communication via Optional NETCOM2P or NETCOM6P (Encrypted) ....................................... 74

Network Communication via Optional NETCOM2 or NETCOM6 (Encrypted) .......................................... 76

CIM Diagnostic LEDs B3 – B0 ........................................................................................................ 78

Power-up & Test Voltages ............................................................................................................... 80

Power Supply Specifications .......................................................................................................... 80

DPS-15 Dual Power Supply – Current Calculation ............................................................................. 80

System Power-up ........................................................................................................................ 82

Control Board Voltage Test Points .................................................................................................. 84

Test Points – Communication Terminals .......................................................................................... 86

Communication Diagnostics ............................................................................................................ 87

Communication Status LEDs ......................................................................................................... 87

System Status LED ...................................................................................................................... 89

Card Diagnostics - LED Wiegand Bit Counters .................................................................................. 90

Appendix A – Keyscan & HID Readers ............................................................................................. 91

Power Specifications .................................................................................................................... 91

Appendix B – Indala Readers ........................................................................................................ 112

Power Specifications ................................................................................................................... 112

Appendix C – WSSKP-1 Keypad ..................................................................................................... 117

Keyscan Inc. – Technical Guide (PC109x - 04.15)

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Appendix D – WIEEX2 ................................................................................................................... 120

Appendix E – Accessibility HC Relay .............................................................................................. 125

Accessibility HC Output Relays ..................................................................................................... 125

Appendix F – Pre-alert Relay ......................................................................................................... 129

Pre-alert .................................................................................................................................... 129

Appendix G – Global Output Relay ................................................................................................ 133

OCB-8/Global IO Assignments ...................................................................................................... 133

Current Ratings ............................................................................................................................. 135

Relay States .................................................................................................................................. 136

Warranty ....................................................................................................................................... 138

Index ............................................................................................................................................ 139

Keyscan Inc. – Technical Guide (PC109x - 04.15)

7

List of Figures

Figure 1 - Grounding Access Control Units and Cables with CIMs .............................................................. 14

Figure 2 – Mounting the Metal Enclosure ............................................................................................... 16

Figure 3 – Enclosure Knockout & Mounting Hole Locations/Dimensions ..................................................... 17

Figure 4 – Mount and Fasten PC109x Control Board to 3/8" Male/Female Standoffs .................................... 19

Figure 5 – Plastic Stand Off ................................................................................................................. 21

Figure 6 – Mounting Power Supplies ..................................................................................................... 21

Figure 7 – CA250 with Board Mounting Positions .................................................................................... 23

Figure 8 – CA4500 with Board Mounting Positions .................................................................................. 23

Figure 9 – CA8500 with Board Mounting Positions .................................................................................. 24

Figure 10 – EC1500 with Board Mounting Positions ................................................................................ 24

Figure 11 – EC2500 with Board Mounting Positions ................................................................................ 25

Figure 12 – Enclosure Tamper Switch Connected to TB3 Terminal ............................................................ 25

Figure 13 – Enclosure Ground Strap Connection ..................................................................................... 26

Figure 14 – Securing the Enclosure Cover ............................................................................................. 26

Figure 15 – Typical Door Layout ........................................................................................................... 27

Figure 16 – Typical Door Strike Connection ........................................................................................... 28

Figure 17 – Typical Magnetic Lock Connection ....................................................................................... 28

Figure 18 – Door Contacts, Exit Buttons, PIRs, & Auxiliary Inputs ............................................................ 29

Figure 19 – Typical Door Reader Connection .......................................................................................... 30

Figure 20 – Lock State - Fail Safe Device .............................................................................................. 33

Figure 21 – Lock State - Fail Secure Device ........................................................................................... 33

Figure 22 – Terminate Lock Wiring CA250B ........................................................................................... 34

Figure 23 – Terminate Lock Wiring CA4500B ......................................................................................... 35

Figure 24 – Terminate Lock Wiring CA8500B ......................................................................................... 36

Figure 25 – Terminate Input Wiring – Door Inputs (Contacts) .................................................................. 38

Figure 26 – Terminate Input Wiring – RTE Push Button ........................................................................... 39

Figure 27 – Terminate Input Wiring – RTE PIR Motion Sensor .................................................................. 40

Figure 28 – Terminate Input Wiring RTE - PIR & Push Button .................................................................. 41

Figure 29 – Terminate Input Wiring – AI/SI Inputs ................................................................................. 42

Figure 30 – Terminate Floor Wiring EC1500B ......................................................................................... 44

Figure 31 – Terminate Floor Wiring EC2500B ......................................................................................... 45

Keyscan Inc. – Technical Guide (PC109x - 04.15)

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Figure 32 – Terminate Floor Input Wiring EC1500B ................................................................................ 46

Figure 33 – Terminate Floor Input Wiring EC2500B ................................................................................ 47

Figure 34 – Terminate Reader Wiring ................................................................................................... 48

Figure 35 – Terminate Auxiliary Outputs CA250B ................................................................................... 49

Figure 36 – Terminate Auxiliary Outputs CA4500B ................................................................................. 50

Figure 37 – Terminate Auxiliary Output CA8500B ................................................................................... 51

Figure 38 – S2 DIP Switch Legend ....................................................................................................... 52

Figure 39 – Location of S2 DIP Switches ............................................................................................... 55

Figure 40 – S3 Restore Default Settings (Clear Memory) & S1 System Reset Locations ............................... 58

Figure 41 – RS-232 Data Cable Connections .......................................................................................... 60

Figure 42 – Communication - Direct Serial ............................................................................................ 61

Figure 43 – Single ACU Communication - USB Adaptor ........................................................................... 62

Figure 44 - Communication - NETCOM2P or NETCOM6P/ACU ................................................................... 63

Figure 45 – Communication - NETCOM2 or NETCOM6 ............................................................................. 64

Figure 46 – CIM Overview ................................................................................................................... 65

Figure 47 – CIM Jumper Locations ........................................................................................................ 68

Figure 48 – CIM to ACU Connections .................................................................................................... 71

Figure 49 – CIM to CIM CANBUS Connections ........................................................................................ 72

Figure 50 – PC Serial Connection with multiple CIMs/ACUs ...................................................................... 73

Figure 51 – Network Connection with Multiple CIMs/ACU ........................................................................ 75

Figure 52 – Network Connection with NETCOM2 or NETCOM6 with Multiple CIMs/ACUs ............................... 77

Figure 53 - CIM Diagnostic LEDs - B3 - B0 ............................................................................................ 79

Figure 54 – Power Supply Wiring ......................................................................................................... 83

Figure 55 – Control Board Test Points – Voltages ................................................................................... 85

Figure 56 – Control Board Communication Test Points ............................................................................ 86

Figure 57 - Communication LEDs - CA & EC Control Boards ..................................................................... 89

Figure 58 - Location of System Status LED ............................................................................................ 90

Figure 59 – Location of Wiegand Bit Counter LEDs ................................................................................. 90

Figure 60 – Keyscan K-PROX2 (125 kHz) .............................................................................................. 94

Figure 61 – Keyscan K-VAN Proximity Reader (125 kHz) ......................................................................... 95

Figure 62 – Keyscan K-KPR Keypad / Proximity Reader (125 KHz) ........................................................... 96

Figure 63 – Keyscan K-SMART Reader .................................................................................................. 97

Figure 64 – HID-5395 Wiring ............................................................................................................... 98

Figure 65 – HID 5365 / 6005 Wiring ..................................................................................................... 99

Figure 66 – HID 5355 Wiring .............................................................................................................. 100

Keyscan Inc. – Technical Guide (PC109x - 04.15)

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Figure 67 – HID 5375 Wiring .............................................................................................................. 101

Figure 68 – HID 5355KP Wiring .......................................................................................................... 102

Figure 69 – HID iClass KEYR10 ........................................................................................................... 103

Figure 70 – HID iClass KEYR40 ........................................................................................................... 104

Figure 71 – HID iClass KEYRW400 ....................................................................................................... 105

Figure 72 – HID iClass KEYRK40 ......................................................................................................... 106

Figure 73 – HID iClass R90 Long Range Reader .................................................................................... 107

Figure 74 – HID iClass R10 Series ....................................................................................................... 108

Figure 75 – HID iClass R15 Series ....................................................................................................... 109

Figure 76 – HID iClass R40 Series ....................................................................................................... 110

Figure 77 – HID iClass RK40 Series ..................................................................................................... 111

Figure 78 – Indala PX 603 and PX 605 Wiring ....................................................................................... 113

Figure 79 – Indala PX610 Wiring ......................................................................................................... 114

Figure 80 – Indala PX 620 Wiring ........................................................................................................ 115

Figure 81 – Indala PXK 501 Wiring ...................................................................................................... 116

Figure 82 – WSSKP-1 Keypad Connection ............................................................................................ 118

Figure 83 – WSSKP-1 Keypad/Reader Combination Connections ............................................................. 119

Figure 84 – Wiegand Extender Overview .............................................................................................. 122

Figure 85 – WIEEX2 RS485 Connections – (Firmware 6.00 or Higher) ...................................................... 123

Figure 86 – WIEEX2 to OCB-8 Cable Connection ................................................................................... 124

Figure 87 – Accessibility HC Output Relay CA250B/OCB-8 Connections .................................................... 126

Figure 88 – Accessibility HC Output Relay CA4500B/OCB-8 Connections .................................................. 127

Figure 89 – Accessibility HC Output Relay CA8500B/OCB-8 Connections .................................................. 128

Figure 90 – Pre-alert Relay CA250B/OCB-8 Connections ........................................................................ 130

Figure 91 – Pre-alert Relay CA4500B/OCB-8 Connections....................................................................... 131

Figure 92 – Pre-alert Relay CA8500B/OCB-8 Connections....................................................................... 132

Figure 93 – Global OCB-8 Ribbon Cable Connection with CA4500 & CA8500 ............................................. 134

Keyscan Inc. – Technical Guide (PC109x - 04.15)

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List of Tables

Table 1 – Cable Requirements ............................................................................................................. 13

Table 2 – Battery Duration Times ......................................................................................................... 20

Table 3 – OCB-8 Specifications ............................................................................................................ 31

Table 4 – OCB-8 to EC1500B Ribbon Cable Connections .......................................................................... 43

Table 5 – OCB-8 to EC2500B Ribbon Cable Connections .......................................................................... 43

Table 6 – S2 DIP Switch Settings ......................................................................................................... 54

Table 7 – CIM Specifications ................................................................................................................ 67

Table 8 – BPS/CANBUS Distance Chart ................................................................................................. 67

Table 9 – CIM Global Master Jumper J3 ................................................................................................ 68

Table 10 – CIM 0 – Jumper J4 ............................................................................................................. 68

Table 11 – CIM CAN Bus Termination Jumpers J5 – J8 ............................................................................ 69

Table 12 – CIM Serial Bit Rate Jumpers J9 – J11 .................................................................................... 69

Table 13 – CIM Diagnostic LED Codes ................................................................................................... 78

Table 14 - ACU Supply - Current Calculation Table ................................................................................. 81

Table 15 - AUX RDR Supply - Current Calculation Table .......................................................................... 81

Table 16 – Control Board Test Points - Voltages ..................................................................................... 84

Table 17 – Communication Voltage Test Points ...................................................................................... 86

Table 18 – Communication Status LEDs ................................................................................................ 87

Table 19 - System Status LED ............................................................................................................. 89

Table 20 – Keyscan & HID Reader Power Specifications .......................................................................... 91

Table 21 – Indala Reader Power Specifications ..................................................................................... 112

Table 22 – Keypad Power Specifications ............................................................................................... 117

Table 23 – WIEEX2 ........................................................................................................................... 120

Table 24 – WIEEX2 Power Requirements .............................................................................................. 120

Table 25 – WIEEX2 Cables and Distances ............................................................................................. 120

Table 26 – Accessibility HC Relay/ Door Assignment .............................................................................. 125

Table 27 – Pre-alert Relay to Door Assignments .................................................................................... 129

Table 28 - OCB-8 Global Output Relay #/ Client Relay Assignments ........................................................ 133

Table 29 – Circuit Board Current Ratings.............................................................................................. 135

Table 30 – List of Relay States............................................................................................................ 136

Keyscan Inc. – Technical Guide (PC109x - 04.15)

11

Foreword

Keyscan systems are designed for use in various environments and applications. As such, ensure correct cable,

power, ground, and environment specifications are followed for reliable and safe operation of the equipment.

Approved Standards

Keyscan CA250, CA4500, CA8500, EC1500 and EC2500 series control units conform to the following approved

standards:

 UL STD 294 – Access Control Systems Units
 CSA STD C22.2 No. 205-M1983 – Signal Equipment
 CE Standards

 EN 55022 RF Emissions
 EN 55024 RF Immunity

 EN 60950-1 Equipment Safety
 FCC Subpart B RF Emissions
 Industry Canada ICES 003 Emissions

Product Listings

The CSA/UL certification record can be viewed at http://directories.csa-international.org.

Enter 110441_0_000 in the File Number box.

About This Guide

This technical guide outlines general information for installing Keyscan access control systems. The guide

assumes the installer has knowledge of electrical, electronic, mechanical, and computer concepts, as well as

having familiarity with access control systems and associated components.

Keyscan Inc. – Technical Guide (PC109x - 04.15)

12

Installation Requirements

The following reviews power, tools, cables, and ground requirements for the access control system.

Power

Each access control unit requires two dedicated Class 2 transformers. The following transformers are

acceptable:

 16V 40VA transformer
 16.5V 37VA transformer

Do not mount the transformers inside the ACU metal enclosure.

Any deviation from a specified transformer or the use of a single transformer to power multiple access control

units will cause faulty system operation. All warranties voided if non-compliant transformers or incorrect

voltages are used.

Standby batteries with their duration times for access control and reader power are listed on page 20.

Important

The power supply included is for the exclusive use of the access control unit and the readers. Do not use it

to power external devices such as door strikes or magnetic locks.

Electrical Precautions

Be sure that all circuit breakers powering the system are switched off before commencing installation or

modifying wiring connections. Do not apply power before the installation is completed otherwise the equipment

may be damaged. Ensure all enclosures are connected to earth grounds for proper and safe system operation.

Tools

We recommend having the following tools on hand to install the access control system:

 Digital voltmeter
 Wire cutters & needle nose pliers
 Soldering iron & tape
 Set of screwdrivers
 Drill & drill bits
 Laptop computer (optional)

Keyscan Inc. – Technical Guide (PC109x - 04.15)

13

Cables

Device / Circuit
Board

Signal
Protocol

Maximum Distance

Cable Type

Notes

Readers to ACU

(includes HID iClass
– Rev B & Rev C)

Wiegand

500 ft / 152.4 m

6 conductors
shielded 22 AWG

Overall shielded cable
accepted. CAT5 cable not
acceptable with Wiegand
signal protocol.

Exception Readers to
ACU – PX-620, HID­5375, MR-10, MR­20, HID-iClass (Rev
A), iClass KEYRK40
and elevator readers

Wiegand

500 ft / 152.4 m

6 conductors
shielded 18 AWG

Overall shielded cable
accepted. CAT5 cable not
acceptable with Wiegand
signal protocol.

Door strikes &
electro magnets to
ACU

n/a

500 ft / 152.4 m

1 pair 18 AWG

Shielded wire not required.
Contacts & exit
devices

n/a

500 ft / 152.4 m

1 pair 22 AWG

Shielded wire not required.
Motion sensors (PIR)

n/a

500 ft / 152.4 m

2 pairs 22 AWG

Shielded wire not required

CIM

CAN Bus 1

3280 ft / 1000 m @ 9600 BPS

3280 ft / 1000 m @ 19,200 BPS

984 ft / 300 m @ 57,600 BPS

262 ft / 80 m @ 115,200 BPS

CAT 5 – 2
twisted pairs

Maximum overall distance
between first and last CIM
units

PC to ACU or
NETCOM (direct
serial)

RS-232

100 ft / 30 m @ 9600 BPS

49 ft / 14.9 m @ 19,200 BPS

26 ft / 8 m @ 57,600 BPS

9.8 ft / 3 m @ 115,200 BPS

5 conductors 22
AWG shielded

Overall shielded cable
accepted. CAT 5 cable not
acceptable with RS-232
signal protocol.

WIEEX2 (Wiegand
protocol extender)

n/a

4000 ft / 1219.2 m

CAT 5 – 1
twisted pair
communication.
1 pair 18 AWG
power to TX.

If powering transmitter
locally, 18 AWG power
wiring is not required. Kit
includes 1 transmitter & 1
receiver.

The following table outlines system cable requirements. Please be sure to review grounding guidelines for safe

system operation. Avoid running access control cables parallel with AC wires or across fluorescent light

fixtures. This can cause AC induction or transmission interference.

Table 1 – Cable Requirements

Grounding

Ground all access control units and shielded cables to a cold water pipe. For multiple access control units, all

shields should be connected to a single point earth ground.

It is important to ground the shields of the readers and communication cables to a single point cold water pipe

at the access control unit. Failing to ground the shields or using incorrect cables may cause noise or

interference and result in improper card reads.

Important

Ensure the chassis ground (GND) on the DPS-15 is connected to the metal enclosure ground lug.

Keyscan Inc. – Technical Guide (PC109x - 04.15)

14

Figure 1 - Grounding Access Control Units and Cables with CIMs

40-2322

Data Cable

Note

Connect ground lug
to single cold water
pipe ground point

Tape

back

shield

Reader

Wiegand

Reader

Signal

ACU 1

RS232

Control Board

Control Board

ACU 2

Shield Shield

Green
Black
Red

ACU 3

Control Board

Shield

CIM 0

EGND EGND

CIM

CIM

EGND

Tape

back

shields

CAT 5

Ground

Lug

RS-232**

Common Ground Wire

CAT 5

Common Ground

Wire

Tape

back

shield

KEYSCAN

KEYSCAN

KEYSCAN

Earth GND

on DPS15

Earth

GND

on

DPS15

Earth

GND

on

DPS15

KI-00470E-07-12

Shield*

* Insulate shield with
PVC tubing such as
Alpha (p/n PVC10516
16 AWG) or
comparable insulator.

** RS-232 connections at
CIM 0 do not apply when

using a NETCOM2P/6P.

Keyscan Inc. – Technical Guide (PC109x - 04.15)

15

Mount the Enclosure &
Components

The following sub-sections review mounting metal enclosures, control boards, communication boards, output

control boards and power supplies.

UL STD 294, CSA STD C22.2 (No. 205), CE, FCC 15
Subpart B

To be compliant with UL STD 294, CSA STD C22.2, CE, or FCC 15 Subpart B standards, please adhere to the

following practices:

 use the Keyscan metal enclosure with the CSA, CE, FCC label on the inside of the panel cover
 mount control boards with the standoffs supplied as instructed
 secure the enclosure cover with the 4 screws supplied
 connect the tamper switch to the TB3 terminal block on the control board
 use the Keyscan DPS-15 to power the control board and readers
 ensure 2 x 16V 40VA transformers or 2 x 16.5V 37VA transformers are connected to the Keyscan DPS-15

power supply
 locate the transformers within 30 feet (9.144 m) of the Keyscan DPS-15 power supply - do not mount the

transformers inside the ACU metal enclosure

 do not use the Keyscan DPS-15 power supply to power door strikes or auxiliary equipment
 use a standby battery with sufficient amp hours (minimum is 12V 7.0 Ah) connected to the Keyscan DPS-

15 power supply
 connect a proper ground wire from the ground lug inside the metal enclosure to a cold water pipe ground

(earth ground)
 connect the enclosure ground strap to the designated studs on the metal enclosure and the enclosure

cover

Any deviations or alterations will result in non-compliance of these standards.

Keyscan Inc. – Technical Guide (PC109x - 04.15)

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Mounting the Metal Enclosure

Ground

Lug

Side ViewFront View – Cover removed (diagram not to scale)

Enclosure

Single locking CEMA/NEMA Type 1 box
Height - 20" (50.8 cm)
Width - 16" (40.64 cm)
Depth - 5 1/2" (13.97 cm)

Wall

Knockouts

Large - 1 3/4" (4.5 cm)
Small - 7/8" (2.0 cm)

Alternate

ground

lug

mounts

Alternate

ground

lug mount

Do not mount enclosure near
high-voltage equipment.

KI-00104E-07-11

The metal enclosure has four (4) pre-drilled holes for mounting to the wall. Connect the ground lug to a true

earth ground. When locating mounting areas, ensure the metal enclosure is not close to high voltage

equipment and the cable lengths are within their maximum allowable distances.

For knockout and mounting hole locations/dimensions, see the diagram on the next page.

Figure 2 – Mounting the Metal Enclosure

Keyscan Inc. – Technical Guide (PC109x - 04.15)

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Figure 3 – Enclosure Knockout & Mounting Hole Locations/Dimensions

1.45"
(3.683 cm)

1.45" (3.683 cm)

1.50"
(3.81 cm)

5.475"

(13.91cm)

2.50"
(6.35 cm)

1.50" (3.81 cm)

16.00" (40.64 cm)

1.45"

(3.683 cm)

1.50"

(3.81 cm)

14.55" (36.957 cm)

1.45"

(3.683 cm)

1.50"

(3.81 cm)

20.00" (50.80 cm)

0.188 " Dia.

0.750" Dia. Extrusion

0.218" Depth
4 Places

1.375"/1.750" Dia.
Knockout
7 Places

5.50" (13.97 cm)

1.50"
(3.81 cm)

3.75" (9.525 cm)

Front

1.50" (3.81 cm)

1.50"
(3.81 cm)

3.75" (9.525 cm)

1.50" (3.81 cm)

5.50" (13.97 cm)

1.50" (3.81 cm)

1.50"

(3.81 cm)

3.75" (9.525 cm)

Front

1.50"

(3.81 cm)

3.75" (9.525 cm)

1.50" (3.81 cm)

Front

Front

10.25" (26.035 cm)

11.75" (29.845 cm)

5.50" (13.97 cm)

13.75" (34.925 cm)

1.00" (2.54 cm)

1.50"

(3.81 cm)

10.25" (26.035 cm)

11.75" (29.845 cm)

13.75" (34.925 cm)

1.00" (2.54 cm)

5.50" (13.97 cm)

1.50"

(3.81 cm)

Front View Right Side ViewLeft Side View

Top View

Bottom View

0.875" Dia.
Knockout
8 Places

KI-00462E-06-12

Keyscan Inc. – Technical Guide (PC109x - 04.15)

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Mounting the PC109x Control Board to Metal Standoffs

Use the eight (8) enclosed ¼” screws to secure the PC109x control board to the 3/8” metal standoffs mounted

inside the metal enclosure. Be sure the internal tooth star washers are placed between the control board and

the screw as shown in Figure 4 – Mount and Fasten PC109x Control Board to 3/8" Male/Female Standoffs.

Important

Finger-tighten the ¼” screws with a screwdriver. Do not use a power screwdriver or apply excessive force

tightening screws into the metal standoffs when mounting control boards. Ensure the control board is

disconnected from the power when mounting; otherwise, the control board may be damaged from a

potential short-circuit.

Rev 11, Rev 10 & Rev 9 Control Boards

If installing a Rev.11, Rev.10, or Rev. 9 control board in a metal enclosure with the pre-mounted metal

standoffs, you require an adaptor kit - P/N – AK2005.

Keyscan Inc. – Technical Guide (PC109x - 04.15)

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Figure 4 – Mount and Fasten PC109x Control Board to 3/8" Male/Female Standoffs

Ground Lug

Side View

Self-clinching

nut on back of

enclosure.

Split Ring

Lock-

washer

3/8" Male/

Female

Hex

Standoff

Internal

Tooth

Star

Washer

¼” Long Screw

Control Board

Stand-off

locations on

PC109x control

board

Ground Lug

Front View –

Cover removed
(diagram not to scale)

Alternate

Ground

Lug

Mounts

3/8" male/female hex
standoff locations for
mounting PC109x
control board.

Front View –

Cover removed
(diagram not to scale)

Alternate

Ground Lug

Mount

Alternate

Ground

Lug

Mounts

Alternate

Ground Lug

Mount

PC109x

Spacer

PC109x

KI-00105E-04-13

Keyscan Inc. – Technical Guide (PC109x - 04.15)

20

Mounting the DPS-15 Power Supply

Amp-hour Battery

Amps

Power Duration

8.0

1.4

5.71 hours

7.5 *

1.4

5.36 hours

7.0 *

1.4

5.00 hours

The Keyscan DPS-15 is a 13.5 VDC dual linear regulated power supply for powering the ACU circuit boards and

the readers with the following outputs:

 ACU output 12 VDC @ 1.2 Amperes
 AUX/RDR output 12 VDC @ 1.2 Amperes

Maximum Current Draw

The total current draw on each output should not exceed 1 Amp with 200mA in reserve for accommodating

peak current operating demands. Refer to DPS-15 Dual Power Supply – Current Calculation on page 80 and

use the calculation tables to determine the total current demand of the all the devices connected to the DPS-

15.

CSA/UL Approved Transformers

The DPS-15 power supply requires either of the following class 2 CSA/UL approved transformers and a standby

battery with sufficient amp hours.

 2 x 16 V 40 VA
 2 x 16.5 V 37 VA

The purpose of two transformers is to comply with UL STD 294, CSA STD C22.2, and charge the battery

circuit. The transformers must be located within 30 feet of the Keyscan power supply. Do not mount the

transformers inside the ACU metal enclosure. All warranties are voided if non-compliant transformers or

incorrect voltages are used. The system may operate erratically if the voltage is lower than 12 VDC.

Power supplies are mounted as shown on page 21. For power supply connections refer to Figure 54 on page

83.

Important

Do not use the DPS-15 to power door strikes or auxiliary equipment.

Backup Batteries

Select a battery with enough amp hours to operate the system for the total hours specified. The following table

lists power duration times:

Table 2 – Battery Duration Times

* Indicates the two most commonly used backup batteries.

Plastic Stand Offs

Plastic stand offs are pre-mounted on most power supplies, relay and communication boards. In cases where

stand offs are not pre-mounted, insert the double pronged end of the stand off in the metal enclosure hole

first. Then mount the circuit board to the stand offs.

Keyscan Inc. – Technical Guide (PC109x - 04.15)

21

Figure 5 – Plastic Stand Off

STAND OFF

into enclosure hole

into circuit board

KI-00106E-07-11

Hex Nuts x 2

Bolts x 2

Top of ACU

Enclosure

x 2

Control

Board

Top mount location for

DPS-15 power supply
with CAS6105 plug-in

cable to PSC1 terminal.

KI-00107E-06-12

Figure 6 – Mounting Power Supplies

Keyscan Inc. – Technical Guide (PC109x - 04.15)

22

Grounding Communication Cable Shield

When terminating the communication cable in the metal enclosure, ensure that the shield is insulated and

connected to the ground lug. Keyscan suggests Alpha PVC 10516 – 16 AWG clear tubing or a comparable

tubing to insulate the shield. Do not connect the shield to GND on a communication terminal block.

Ground Lugs

The metal enclosure includes one ground lug pre-mounted near the top and one spare ground lug, which can

be mounted to one of the available ground lug studs. You can re-locate the ground lug inside the metal

enclosure to minimize the length of shield used.

Note

Keep all shield wires and cables away from the control board.

Control Board – Mounting Locations

The following diagrams illustrate the mounting positions for control board series CA250, CA4500, CA8500,

EC1500 and EC2500 units. Illustrations also show mounting positions for communication boards and output

control boards (OCB-8). Different door control board series – CA250, CA4500, and CA8500 – can be used

within the same communication loop.

CA & EC Control Board Dimensions

 Width 20.35 cm (8.01 inches)
 Height 28.9 cm (11.38 inches)

Operating Environment – ACUs & ECUs

 Temperatures: 41°F to 120°F (5°C to 49°C)
 Humidity: 0% to 90% R.H., non-condensing

Important

Do not mount close to high voltage equipment.

Keyscan Inc. – Technical Guide (PC109x - 04.15)

23

Figure 7 – CA250 with Board Mounting Positions

Front View

Cover not shown

Tamper

Switch

CIM

or

NETCOM

1 x CA250B control board
1 x OCB-8
1 x DPS-15 power supply
1 x metal enclosure

CA250B

Control

Board

OCB-8

Optional

OCB-8

Locations

Optional

OCB-8

Locations

Ground Lug

NETCOM

* NETCOM - use terminal block
connections only, not 9-pin male
connector. (NETCOM refers to
NETCOM2 & NETCOM6)

PC109x

Parts

DPS-15

power supply

KI-00111E-09-12

Optional

NETCOM*

Locations

Front View

Cover not shown

Tamper

Switch

1 x CA4500B control board
1 x OCB-8
1 x DPS-15 power supply
1 x metal enclosure

CA4500B

Control

Board

OCB-8

Optional

OCB-8

Locations

Optional

OCB-8

Locations

Ground Lug

NETCOM

CIM

or

NETCOM

PC109x

Parts

DPS-15

power supply

KI-00112E-09-12

Optional

NETCOM*

Locations

* NETCOM - use terminal block
connections only, not 9-pin male
connector. (NETCOM refers to
NETCOM2 & NETCOM6)

Keyscan Inc. – Technical Guide (PC109x - 04.15)

Figure 8 – CA4500 with Board Mounting Positions

24

Figure 9 – CA8500 with Board Mounting Positions

Front View

Cover not shown

Tamper

Switch

1 x CA8500B control board
2 x OCB-8
1 x DPS-15 power supply
1 x metal enclosure

CA8500B

Control

Board

OCB-8

Optional

OCB-8

Locations

Ground Lug

OCB-8

NETCOM

PC109x

Parts

DPS-15

power supply

KI-00113E-09-12

Optional

NETCOM*

Locations

* NETCOM - use terminal block
connections only, not 9-pin male
connector. (NETCOM refers to
NETCOM2 & NETCOM6)

CIM

or

NETCOM

Front View

Cover not shown

Tamper

Switch

1 x EC1500B control board
1 x OCB-8
1 x DPS-15 power supply
1 x metal enclosure

EC1500B

Control

Board

OCB-8

Optional

OCB-8

Locations

Ground Lug

Optional

OCB-8

Locations

NETCOM

Optional

NETCOM*

Locations

PC109x

Parts

DPS-15

power supply

KI-00114E-09-12

* NETCOM - use terminal block
connections only, not 9-pin male
connector. (NETCOM refers to
NETCOM2 & NETCOM6)

CIM

or

NETCOM

Keyscan Inc. – Technical Guide (PC109x - 04.15)

Figure 10 – EC1500 with Board Mounting Positions

25

Figure 11 – EC2500 with Board Mounting Positions

Front View

Cover not shown

Tamper

Switch

1 x EC2500B control board
2 x OCB-8
1 x DPS-15 power supply
1 x metal enclosure

EC2500B

Control

Board

OCB-8

Optional

OCB-8

Locations

Ground Lug

OCB-8

NETCOM

PC109x

Parts

DPS-15

power supply

KI-00115E-09-12

Optional

NETCOM*

Locations

* NETCOM - use terminal block
connections only, not 9-pin male
connector. (NETCOM refers to
NETCOM2 & NETCOM6)

CIM

or

NETCOM

CONTROL 1

CTS
DTR
DCD
RD
TD
GND

RS-232 (COM4)

TAMPER TB3
SWITCH

+

-

Connect the yellow wires on the tamper

switch to TB3 terminal on the control board.

Protective

Cover

Metal

Enclosure

Tamper Switch

PC109x

Control Board

Cut View

KI-00116E-04-13

CONTROL 4

Connect Enclosure Tamper Switch to TB3

Connect the yellow wires from the tamper switch to the control board’s TB3 terminal block as illustrated in the

diagram below. Please remember that this is a requirement for compliance with the following standards: UL

STD 294, CSA STD C22.2, CE, or FCC 15 Subpart B.

Keyscan Inc. – Technical Guide (PC109x - 04.15)

Figure 12 – Enclosure Tamper Switch Connected to TB3 Terminal

26

Connect Enclosure Ground Strap

Enclosure Ground Strap

Enclosure Cover

Metal Enclosure

Use the enclosed star

washers and nuts to

secure both ends of the

cable to the studs as

shown on the right.

Stud

Stud

Star

Washers

Nut

Cable

Lug

Stud

Side View of Stud with Cable Lug Connection

KI-00117E-07-11

Front View
of Enclosure
with Cover

3/8“ x 4

Cover
Locking
Screw

Cover
Locking
Screw

Cover
Locking
Screw

Cover
Locking
Screw

Optional locations for

cover locking screws

Optional locations for

cover locking screws

KI-00118E-07-11

Ensure that the enclosure ground strap is connected to the designated studs on both the metal enclosure and

the enclosure cover. Be sure the cable lug is positioned between two star washers and securely tightened with

a nut as illustrated in the diagram below.

Figure 13 – Enclosure Ground Strap Connection

Figure 14 – Securing the Enclosure Cover

Keyscan Inc. – Technical Guide (PC109x - 04.15)

27

Typical Door Layout and

3/4" conduit

to ACU

Junction

box

Reader

Request

to exit

PIR

36" to 48"

(91.4 to 121.9 cm)

Door contact

6 conductors shielded

22 or 18 AWG

2 pairs

22 AWG

1 pair 18 AWG

Mag Lock

Door

Strike

1 pair

22 AWG

PIR requires 3 pairs if
connecting to external
sound alert device.

KEYSCAN

KI-00119E-07-11

Hardware

The following sub-sections review door components with related diagrams. Refer to the lock manufacturer's

documentation for more detailed information on mounting door hardware. Some jurisdictions require a

qualified locksmith for installation of lock hardware. Consult with local authorities.

The following diagram shows a single conduit to the access control unit. For high-voltage readers greater than

150 mA, avoid running the communication cables in the same conduit with the door lock cables.

Figure 15 – Typical Door Layout

Keyscan Inc. – Technical Guide (PC109x - 04.15)

28

Door Lock Hardware

+

KI-00120E-07-11

KI-00121E-07-11

Consult with the manufacturer's documentation for mounting door lock hardware.

The lock must be appropriate for the barrier and meet all applicable building codes and fire regulations. If

necessary, consult with local officials such as the fire department to ensure the installation conforms to

municipal, state, or provincial safety regulations. Permits may be required before installing magnetic locks.

Use a battery for temporary power to ensure the door operates properly – alignment, holding, activation, de-

activation – before connecting to the Keyscan access control unit.

Figure 16 – Typical Door Strike Connection

Figure 17 – Typical Magnetic Lock Connection

Keyscan Inc. – Technical Guide (PC109x - 04.15)

29

Door Contacts, Exit Buttons, Auxiliary Inputs

Exit Push Button

1

1

Door Contact

NC COM

Door Sensor

Door
Sensor

Auxiliary
Input

Lens

NO COM

COM

NO

PIR

RTE – ½ second pulse
Determines the amount of
time the output relays will
energize when motion is
detected.
(RTE - Request To Exit)

1

1

Aux Input

COMNC

NO = Normally Open
NC = Normally Closed

KI-00122E-07-11

The following diagram illustrates the door contacts, exit buttons, PIRs, and auxiliary inputs. See the

manufacturer's documentation for mounting instructions. Avoid running cables parallel with AC wiring or across

fluorescent light fixtures; this causes AC induction and transmission interference.

Figure 18 – Door Contacts, Exit Buttons, PIRs, & Auxiliary Inputs

Keyscan Inc. – Technical Guide (PC109x - 04.15)

30

Readers

Proximity Reader
(Refer to specific

Keyscan, HID & Indala

readers for wiring

connections.)

To reader terminal on

ACU

LED (Brown)

D1 (White)

D0 (Green)

PWR (Red)

GND (Black)

Shield not connected.

Isolate with electrical tape.

6 conductors shielded 18 or 22 AWG
Maximum 500 ft (152.4 m)

Blue used for pre­alert otherwise
isolate and tape
back.

Orange not
used. Isolate
and tape back.

KEYSCAN

Pre-alert (Blue)

Shield not connected.

Isolate with electrical tape.

KI-00123E-07-11

Never mount readers close to high-voltage equipment. For convenient entry, readers should be mounted on

the latch side of doors. When mounting proximity readers for monitoring in and out activity at the same door,

space the readers at a distance greater than the combined radio signal read ranges.

As an example, if the read range is 4 inches, mount the two readers at a distance greater than 8 inches from

each other. For mounting readers to a metal surface, consult with the manufacturer's documentation.

If a door/reader is located beyond the maximum cable length to the ACU, use a Keyscan WIEEX2 extender kit

to a maximum distance of 4000 feet (1219.2 m).

Figure 19 – Typical Door Reader Connection

Keyscan Inc. – Technical Guide (PC109x - 04.15)

31

Terminate Wiring at the

OCB-8 Specifications

OCB-8 power requirements

12 VDC – 230 mA

Relay outputs

Form C contacts, 30 VDC 5 Amps, 24 VAC 10 Amps

# of outputs

8

Dimensions

8.6 cm x 12.5 cm (3 3/8” x 4 7/8”)

Operating environment

Temperature: 5° C to 49° C (41° F to 120° F)

Humidity: 0% to 90% R.H., non-condensing

ACU

The following sub-sections review terminating lock, input, elevator, reader, and auxiliary output wiring at the

access control units.

OCB-8 Relay Board

Keyscan’s OCB-8 relay board is used for terminating door locks, magnetic locks, elevator relays, and

alarm/auxiliary outputs at the access control unit.

Table 3 – OCB-8 Specifications

Terminate Lock Wiring

Use a separate power supply for door strikes and other 12 VDC equipment. The power supply should have

battery backup for continued operation during a power failure. When adding equipment to an existing system,

be sure the power supply can withstand the increased current consumption.

To calculate total current requirements for power supplies, use the following formula that includes a 30%

tolerance factor:
 Total Current = (Device A amps + Device B amps + Device C amps, etc.) x 1.30

Example

An installation calls for one magnetic lock and three door strikes requiring 12 VDC:
 Mag Lock – 100 mA + Door Strike A – 200 mA + Door Strike B – 200 mA + Door Strike C – 200 mA x

1.30 = 910 mA

In this example, a separate 1-amp power supply is sufficient.

Important

The total combined current of the devices must not be greater than the current rating of the power

supply.

Keyscan Inc. – Technical Guide (PC109x - 04.15)

32

Relay DIP Switches

Relay boards have DIP switches that may be set to “normal” or “reversed”. Each relay has an LED that

indicates the relay status:

 Normal – LED on the circuit board is not illuminated when door is locked
 Reversed – LED on the circuit board is illuminated when door is locked

Relay output and DIP switch assignments are noted on the OCB-8 diagrams on the succeeding pages.

Keyscan access control units include diodes, Install diodes across all DC door strikes as shown in Figure 23 on

page 35. The cathode of the diode connects to the positive side of the strike at the door. The anode of the

diode connects to the common return wire.

Diodes must be installed for proper operation.

Fail Safe/Fail Secure Lock Devices

The power supply's positive output connects to the common door relay outputs, which are labeled on the relay

board.

For ‘fail-safe’ and ‘fail-secure’ door strikes, observe the following relay connections:
 ‘Fail-safe’ – connect the positive terminal on the door strike to the 'normally closed' position on the relay

board. Connect the return wire to the common on the DC power supply via the metal enclosure’s ground

lug
 ‘Fail-secure’ – connect the positive terminal on the door strike to the 'normally open' position on the relay

board. Connect the return wire to the common on the DC power supply via the metal enclosure’s ground

lug

Warning

Before securing any exit, please ensure all wiring to electrical door hardware conforms to federal, state,

provincial, or municipal fire regulations and building codes.

Keyscan Inc. – Technical Guide (PC109x - 04.15)

33

Figure 20 – Lock State - Fail Safe Device

Maglock

+

-

to 'Normally Closed'

positon on relay

to common

on DC power supply

Relay board

Relay board

+

-

Door

Strike

Lock State

of

Fail Safe Device

DC

Supply

+

-

Lock

to 'Normally Closed'

positon on relay

to

+

supply

to common

on DC power supply

to

+

supply

KI-00124E-07-11

to
'Normally Open'
positon on relay

+

-

Door

Strike

to common

on DC

power supply

Lock State

of

Fail Secure Device

Lock

DC

Supply

+

-

to

+

supply

Relay board

KI-00125E-07-11

Figure 21 – Lock State - Fail Secure Device

Keyscan Inc. – Technical Guide (PC109x - 04.15)

34

12 VDC+

Com

CA250B

Control

Board

Cut View

+

-

DC

Supply

OCB-8 ribbon cable

connects to CONTROL 1

terminal.

CONTROL

2

RS-232 (COM4)

CTS

Door # 1

Mag Lock

- Fail Safe ­to N.C.

Ensure all lock

hardware complies
with federal, state/

provincial, and

municipal fire codes.

red

stripe

OCB-8

Fire Contact

N.C.

breaks on alarm

When OCB-8 connected to CA250B

Relay 5 = Aux Output 3 or HC Output 1

Relay 6 = Aux Output 4 or HC Output 2

Do not use relays for both functions.

Ground

Lug

CONTROL

5

OCB-8 powered

through ribbon cable

with J1 Relay Power

set on ACU.

DTR
DCD
RD

TD
GND

TAMPER TB3

SWITCH

+

-

KI-00126E-10-14

CONTROL

4

S1

TB1

J1

OUTPUT

CONTROL

BOARD

K1

K2

K3 K4

K5K6K7K8

LED ON =
RELA Y

ENER GIZED

O

N

1 2 3 4 5 6 7 8

ACU

EXT

12V

GND

H1

TB2

TB3

TB4

OCB8

PC1102

RELAY

REV.

NORMAL

KEYSCAN

INC.

Door

Output

1

(DIP

Switch 1)

Door

Output

2

(DIP

Switch 2)

Aux

Output

1

(DIP

Switch 3)

Aux

Output

2

(DIP

Switch 4)

HC

Output

1

(DIP

Switch 5)

HC

Output

2

(DIP

Switch 6)

Pre-

Alert

1

(DIP

Switch 7)

Pre-

Alert

2

(DIP

Switch 8)

Relay

Power

Note

DIP switches set

relays for normal or
reverse, as

indicated by the

arrows.

Figure 22 – Terminate Lock Wiring CA250B

Keyscan Inc. – Technical Guide (PC109x - 04.15)

35

Figure 23 – Terminate Lock Wiring CA4500B

+

-

CONTROL

2

+

-

Diode

1N4004

OCB-8

RS-232 (COM4)

CTS

DTR

DCD

RD
TD
GND

TAMPER TB3

SWITCH

+

-

CONTROL

5

CONTROL

4

S1

TB1

J1

OUTPUT

CONTROL

BOARD

K1

K2

K3 K4

K5K6K7K8

LED ON =
RELAY
ENER GIZED

O

N

1 2 3 4 5 6 7 8

ACU

EXT

12V

GND

H1

TB2

TB3

TB4

OCB8

PC1102

RELAY

REV.

NORMAL

KEYSCAN

INC.

Door

Output

1

(DIP

Switch 1)

Door

Output

2

(DIP

Switch 2)

Door

Output

3

(DIP

Switch 3)

Door

Output

4

(DIP

Switch 4)

Aux

Output

1

(DIP

Switch 5)

Aux

Output

2

(DIP

Switch 6)

Aux

Output

3

(DIP

Switch 7)

Aux

Output

4

(DIP

Switch 8)

Relay

Power

Fire Contact

Door #1

Door Strike

- Fail Safe –
to N.C.

DC Supply

OCB-8 ribbon cable

connects to CONTROL1

terminal.

red stripe

CA4500B

Control Board

Cut View

N.C.

Ensure all lock hardware

complies with federal,

state/provincial, and
municipal fire codes.

OCB-8 powered

through ribbon cable

with J1 Relay Power

set on ACU.

KI-00127E-10-14

Note

DIP switches set

relays for normal or

reverse, as

indicated by the
arrows.

Ground Lug

breaks on alarm

Keyscan Inc. – Technical Guide (PC109x - 04.15)

36

Figure 24 – Terminate Lock Wiring CA8500B

12 VDC+

Com

CA8500B

Control Board

Cut View

+

-

DC

Supply

OCB-8 ribbon cable

connects to CONTROL 1

terminal.

CONTROL

2

+

-

Diode

1N4004

Door # 1

Door Strike

- Fail Secure -

to N.O.

Ensure all lock

hardware complies

with federal, state/
provincial, and

municipal fire codes.

red stripe

OCB-8

Ground

Lug

OCB-8 powered

through ribbon

cable with J1

Relay Power set
on ACU.

RS-232 (COM4)

CTS

DTR

DCD
RD
TD
GND

TAMPER TB3

SWITCH

+

-

KI-00128E-10-14

CONTROL

5

CONTROL

4

S1

TB1

J1

OUTPUT

CONTROL

BOARD

K1

K2

K3 K4

K5K6K7K8

LED ON =
RELAY
ENER GIZED

O

N

1 2 3 4 5 6 7 8

ACU

EXT

12V

GND

H1

TB2

TB3

TB4

OCB8

PC1102

RELAY

REV.

NORMAL

KEYSCAN

INC.

Door

Output

1

(DIP

Switch 1)

Door

Output

2

(DIP

Switch 2)

Door

Output

3

(DIP

Switch 3)

Door

Output

4

(DIP

Switch 4)

Door

Output

5

(DIP

Switch 5)

Door

Output

6

(DIP

Switch 6)

Door

Output

7

(DIP

Switch 7)

Door

Output

8

(DIP

Switch 8)

Relay

Power

Note

DIP switches set
relays for normal or

reverse, as

indicated by the

arrows.

Keyscan Inc. – Technical Guide (PC109x - 04.15)

37

Terminate Input Wiring

The following sub-headings review termination of door, exit, and auxiliary alarm input wiring.

Door Monitoring Connections

A normally-closed door contact is for monitoring door security. Door inputs are shunted during the door relay

unlock time.

Exit Device Connections

A normally-open exit device contact unlocks its assigned door for its defined door relay unlock time and

overrides the alarm input during its defined door held open time. Examples of exit devices are exit push

buttons or motion sensors (PIR) etc.

Keyscan recommends a PIR with a pulse output of 1/2 second and suitable for its environment.

Security Monitoring Connections

A normally-closed device may be connected to an auxiliary alarm input for monitoring stairwell or interior

doors, or windows. The auxiliary alarm inputs may be connected to infrared sensors or to an existing alarm

system with a normally-closed auxiliary output relay contact.

Keyscan Inc. – Technical Guide (PC109x - 04.15)

38

Figure 25 – Terminate Input Wiring – Door Inputs (Contacts)

Cut View of CA8500B

Door Inputs - A RTE Inputs - B

Door 1

8

to
Door
Input

1

Door Contact

to

Common

1K

Single end of line

supervision

to Door Input

1

Door Contact

to Common

1K

Double end of line

supervision

3K

Non-supervised

Notes

Diagram illustrates CA8500B. Connections
also apply to CA250B & CA4500B.

- CA250B – up to 2 door inputs

- CA4500B – up to 4 door inputs

- CA8500B – up to 8 door inputs

Supervision level set in Client software:
System VII & Vantage – Site Unit Setup
Aurora – Hardware Setup
Supervision level applied to all door inputs, RTE inputs, and auxiliary inputs.

NC

COM

NC

COM

NC

COM

76

54321

Common

8

76

54321

AUX Inputs - C

8

76

54321

Common

Common AUX Inputs - D

16

1514

131211109

Common AUX Inputs - E

24

2322

2120191817

KI-00129E-10-13

Keyscan Inc. – Technical Guide (PC109x - 04.15)

39

Figure 26 – Terminate Input Wiring – RTE Push Button

Single end of line

supervision

to Request

to Exit

to Common Return

Double end of line

supervision

Non-supervised

Notes

Diagram illustrates CA8500B. Connections also apply to
CA250B & CA4500B.

- CA250B – up to 2 Request To Exits

- CA4500B – up to 4 Request To Exits

- CA8500B – up to 8 Request To Exits

RTE

Push Button

COM

NO

NO = Normally Open

1K

3K

COM

NO

to Request

to Exit

to Common Return

1K

COM

NO

Cut View of CA8500B

Door Inputs - A RTE Inputs - B

8

76

54321

Common

8

76

54321

AUX Inputs - C

8

76

54321

Common Common AUX Inputs - D

16

1514

131211109

Common AUX Inputs - E

24

2322

2120191817

KI-00130E-10-13

Supervision level set in Client software:
System VII & Vantage – Site Unit Setup
Aurora – Hardware Setup
Supervision level applied to all door inputs, RTE inputs, and auxiliary inputs.

Keyscan Inc. – Technical Guide (PC109x - 04.15)

40

Figure 27 – Terminate Input Wiring – RTE PIR Motion Sensor

to

Request

to Exit

to Common Return

1K

Single end of line

supervision

to Common Return

1K

Double end of line

supervision

3K

Non-supervised

Notes

Diagram illustrates CA8500B. Connections also apply to
CA250B & CA4500B.

- CA250B – up to 2 Request to Exits

- CA4500B – up to 4 Request to Exits

- CA8500B – up to 8 Request to Exits

Lens

NO

COM

PIR (Request To Exit)

Lens

NO

COM

Lens

NO

COM

to

Request

to Exit

NO = Normally Open

PIR

RTE (Request to Exit) – ½ second pulse
Determines the amount of time the output relays will energize when motion is detected.

Cut View of CA8500B

Door Inputs - A RTE Inputs - B

8

76

54321

Common

8

76

54321

AUX Inputs - C

8

76

54321

Common Common AUX Inputs - D

16

1514

131211109

Common AUX Inputs - E

24

2322

2120191817

KI-00131E-10-13

Supervision level set in Client software:
System VII & Vantage – Site Unit Setup
Aurora – Hardware Setup
Supervision level applied to all door inputs, RTE inputs, and auxiliary inputs.

Keyscan Inc. – Technical Guide (PC109x - 04.15)

41

Figure 28 – Terminate Input Wiring RTE - PIR & Push Button

Notes

Diagram illustrates CA8500B. Connections
also apply to CA250B & CA4500B.

- CA250B – up to 2 Request to Exits

- CA450B – up to 4 Request to Exits

- CA8500B – up to 8 Request to Exits

Lens

NO

COM

PIR (Request To Exit)
NO = Normally Open

PIR

Motion Sensor RTE (Request to Exit) – ½ second
pulse
Determines the amount of time the output relays
will energize when motion is detected.

RTE

Push Button

COM

NO

NO = Normally Open

“Two devices wired in
parallel to each other”

Single end of line supervision

to Request

to Exit

to Common Return

Double end of line supervision

1K

3K

COM

NO

to Request

to Exit

to Common Return

1K

COM

NO

Note

If using supervision, it is only required on the device farthest from the ACU
terminal. Example shows supervision on RTE Push Button.

No supervision

Cut View of CA8500B

Door Inputs - A

RTE Inputs - B

8

76

54321

Common

8

76

54321

AUX Inputs - C

8

76

54321

Common

Common AUX Inputs - D

16

1514

131211109

Common

AUX Inputs - E

24

2322

2120191817

KI-00132E-10-13

Supervision level set in Client software:
System VII & Vantage – Site Unit Setup
Aurora – Hardware Setup
Supervision level applied to all door inputs, RTE
inputs, and auxiliary inputs.

Keyscan Inc. – Technical Guide (PC109x - 04.15)

42

Figure 29 – Terminate Input Wiring – AI/SI Inputs

to Supervised

Auxiliary Alarm Input

1

to Common Return

1K

Single end of line

supervision

1

to Common Return

1K

Double end of line

supervision

3K

Non-supervised

Notes

Diagram illustrates CA8500B.
Connections also apply to CA250B & CA4500B.

- CA250B – up to 8 Supervised Auxiliary Alarm Inputs

- CA4500B – up to 16 Supervised Auxiliary Alarm Inputs

- CA8500B – up to 16 Supervised Auxiliary Inputs

NC

COM

NC

COM

NC

COM

NC = Normally Closed

to Supervised

Auxiliary Alarm Input

Cut View of CA8500B

Door Inputs - A RTE Inputs - B

8

76

54321

Common

8

76

54321

AUX Inputs - C

8

76

54321

Common Common AUX Inputs - D

16

1514

131211109

Common AUX Inputs - E

24

2322

2120191817

KI-00133E-10-13

Supervision level set in Client software:
System VII & Vantage – Site Unit Setup
Aurora – Hardware Setup
Supervision level applied to all door inputs, RTE inputs, and auxiliary inputs.

Keyscan Inc. – Technical Guide (PC109x - 04.15)

43

Terminate Elevator Floor Wiring

OCB Terminal

Elevator Control Board
Terminal

Elevator

Floors

1st OCB-8 – H1

Control 1

1

1 – 8

*2nd OCB-8 – H1

Control 2

1

9 – 16

*3rd OCB-8 – H1

Control 3

1

17 – 24

*4th OCB-8 – H1

Control 4

1

25 – 32

*5th OCB-8 – H1

Control 5

1

33 – 40

OCB Terminal

Elevator Control Board Terminal

Elevator

Reader

Floors

1st OCB-8 – H1

Control 1

1 1 1 – 8

*2nd OCB-8 – H1

Control 2

1 1 9 – 16

3rd OCB-8 – H1

Control 3

2 2 1 – 8

*4th OCB-8 – H1

Control 4

2 2 9 – 16

If the elevator control board regulates more than eight (8) floors, multiple output control boards (OCB-8) are

required. See the following table for ribbon cable elevator/floor assignments from the OCB-8 terminal to the

elevator control board terminal.

OCB-8 DIP Switch Settings

 DIP Switches 1 to 8 set to Reversed position
 J1 Relay Power set on EXT

Note

Verify all floor hardware conforms to federal, state, provincial or municipal building codes and fire

regulations.

Table 4 – OCB-8 to EC1500B Ribbon Cable Connections

Table 5 – OCB-8 to EC2500B Ribbon Cable Connections

* Optional OCB-8's must be purchased separately.

Keyscan Inc. – Technical Guide (PC109x - 04.15)

44

OCB-8

Current – 230 mA

Relays – Form C contacts

– 5 A / 30 VDC

– 10 A / 24 VAC

KI-00134E-10-14

+

-

OCB-8 ribbon cable

connects to CONTROL 1

(Floors 1 to 8)

connects to

floor call

button

connects to

common on

elevator

control

circuit

elevator

button

EC 1000 Control 1 – OCB-8 Floor Outputs 1 – 8

EC 1000 Control 2 – OCB-8 Floor Outputs 9 – 16* (optional)

EC 1000 Control 3 – OCB-8 Floor outputs 17 – 24* (optional)

EC 1000 Control 4 – OCB-8 Floor Outputs 25 – 32* (optional)

EC 1000 Control 5 – OCB-8 Floor Outputs 33 – 40* (optional)
* OCB-8s must be purchased separately.

Ensure all elevator hardware complies with all fire code
regulations.

AUX 12 V or

ACU 12 V

on DPS-15

Elevator Board

Cut View

CONTROL

2

CONTROL

5

RS-232 (COM4)

CTS

DTR

DCD
RD
TD
GND

TAMPER (TB3)

SWITCH

+

-

CONTROL

4

S1

TB1

J1

OUTPUT

CONTROL

BOARD

K1

K2

K3 K4

K5K6K7K8

LED ON =
RELA Y
ENER GIZED

O

N

1 2 3 4 5 6 7 8

ACU

EXT

12V

GND

H1

TB2

TB3

TB4

OCB8

PC1102

RELAY

REV.

NORMAL

KEYSCAN

INC.

Floor

Output

1

(DIP

Switch 1)

Floor

Output

2

(DIP

Switch 2)

Floor

Output

3

(DIP

Switch 3)

Floor

Output

4

(DIP

Switch 4)

Floor

Output

5

(DIP

Switch 5)

Floor

Output

6

(DIP

Switch 6)

Floor

Output

7

(DIP

Switch 7)

Floor

Output

8

(DIP

Switch 8)

Relay

Power

Fire Panel

trips on alarm

N.C.

Relay Rev/Normal

DIP Switch 1 – Floor Output 1

DIP Switch 2 – Floor Output 2

DIP Switch 3 – Floor Output 3

DIP Switch 4 – Floor Output 4

DIP Switch 5 – Floor Output 5
DIP Switch 6 – Floor Output 6
DIP Switch 7 – Floor Output 7
DIP Switch 8 – Floor Output 8

Set DIP switches on Reverse

red stripe

Set jumper on J1 for EXT

Figure 30 – Terminate Floor Wiring EC1500B

Keyscan Inc. – Technical Guide (PC109x - 04.15)

45

OCB-8

Current – 230 mA

Relays – Form C contacts

– 5 A / 30 VDC

– 10 A / 24 VAC

KI-00135E-10-14

EC 2000 Control 1 – OCB-8: Cab A - Floor Outputs 1 – 8

EC 2000 Control 2 – OCB-8: Cab A - Floor Outputs 9 – 16 * (optional)

EC 2000 Control 3 – OCB-8: Cab B - Floor Outputs 1 – 8 (optional)

EC 2000 Control 4 – OCB-8: Cab B - Floor Outputs 9 – 16 * (optional)
* OCB-8s must be purchased separately.

Ensure all elevator hardware complies with all fire code regulations.

-

OCB-8 ribbon cable

connects to CONTROL 1

(Floors 1 to 8)

connects to

floor call

button

connects

to

common

on

elevator

control

circuit

elevator

button

AUX 12 V or

ACU 12 V

on DPS-15

Elevator Board

Cut View

CONTROL

2

CONTROL

5

RS-232 (COM4)

CTS

DTR

DCD

RD
TD
GND

TAMPER (TB3)
SWITCH

+

-

CONTROL

4

S1

TB1

J1

OUTPUT

CONTROL

BOARD

K1

K2

K3 K4

K5K6K7K8

LED ON =

RELAY

ENER GIZED

O

N

1 2 3 4 5 6 7 8

ACU

EXT

12V

GND

H1

TB2

TB3

TB4

OCB8

PC1102

RELAY

REV.

NORMAL

KEYSCAN

INC.

Floor

Output

1

(DIP

Switch 1)

Floor

Output

2

(DIP

Switch 2)

Floor

Output

3

(DIP

Switch 3)

Floor

Output

4

(DIP

Switch 4)

Floor

Output

5

(DIP

Switch 5)

Floor

Output

6

(DIP

Switch 6)

Floor

Output

7

(DIP

Switch 7)

Floor

Output

8

(DIP

Switch 8)

Relay
Power

Fire Panel

trips on alar m

N.C.

Relay Rev/Normal

DIP Switch 1 – Floor Output 1

DIP Switch 2 – Floor Output 2

DIP Switch 3 – Floor Output 3

DIP Switch 4 – Floor Output 4
DIP Switch 5 – Floor Output 5

DIP Switch 6 – Floor Output 6

DIP Switch 7 – Floor Output 7

DIP Switch 8 – Floor Output 8

Set DIP switches on Reverse

red stripe

Set jumper on J1 for EXT

+

-

Figure 31 – Terminate Floor Wiring EC2500B

Keyscan Inc. – Technical Guide (PC109x - 04.15)

46

Terminate Floor Input Wiring

Floors 1 - 8

Floors 9 - 16

Floors 17 - 24 Floors 25 - 32

40 Floor Status Inputs

Dry Contact

Relay

N.O.

Call Button Status

24 of 40

Normally Open

Dry Contact

Relay

N.O.

Call Button Status

2 of 40

Normally Open

Dry Contact

Relay

N.O.

Call Button Status

13 of 40

Normally Open

Cut View of EC1500B

Floor monitoring inputs (separate dry contacts) provided by 3rd party elevator company.

Door Inputs - A RTE Inputs - B

8

76

54321

Common

8

76

54321

AUX Inputs - C

8

76

54321

Common

Common AUX Inputs - D

16

1514

131211109

Common AUX Inputs - E

24

2322

2120191817

Floors 33 - 40

KI-00136E-07-11

The EC1500 with five (5) output control boards can regulate up to 40 floors. The EC1500 and EC2500 do not

have floor status with supervision.

Figure 32 – Terminate Floor Input Wiring EC1500B

Keyscan Inc. – Technical Guide (PC109x - 04.15)

47

Figure 33 – Terminate Floor Input Wiring EC2500B

Floors 1 - 8

Floors 9 - 16

Floors 1 - 8

Floors 9 - 16

Dry Contact

Relay

N.O.

Elevator B

Call Button Status

7 of 16

Normally Open

Dry Contact

Relay

N.O.

Elevator A

Call Button Status

1 of 16

Normally Open

Dry Contact

Relay

N.O.

Elevator A

Call Button Status

12 of 16

Normally Open

Cut View of EC2500B

Elevator A - 16 Floor Status Inputs

Elevator B - 16 Floor Status Inputs

Floor monitoring inputs (separate dry contacts) provided by 3rd party elevator company.

Door Inputs - A RTE Inputs - B

8

76

54321

Common

8

76

54321

AUX Inputs - C

8

76

54321

Common

Common AUX Inputs - D

16

1514

131211109

Common

KI-00137E-07-11

Terminate Reader Wiring at ACU

For readers, use six (6) conductors 22 AWG shielded cable or a cable with overall shielding.

For elevator readers or current demanding readers, such as the Indala PX620 or the HID5375, use six (6)

conductors 18 AWG shielded cable.

The shielding wire must be connected to the earth ground lug at the ACU, isolated and taped at the reader.

The maximum reader distance is 500 feet (152.4 m) from the ACU when transmitting a Wiegand signal. If the

distance is greater than 500 feet (152.4 m), install one WIEEX2 per reader, which extends the distance to

4000 feet (1219.2 m). See Appendix D – WIEEX2.

Reader Wiring

 Red – Positive DC power. For readers that draw more current, connect the red wire directly to the power

supply.

 Black – Ground (GND)
 Brown – Light emitting diode (LED) on reader
 Green – Data output bit 0
 White – Data output bit 1
 Blue – Optional pre-alert (reader beeper)

For specific reader wiring review the appendices listed in the Table of Contents.

Keyscan Inc. – Technical Guide (PC109x - 04.15)

48

Shield not
connected.
Isolate with

electrical tape.

3 pairs shielded

22 AWG or 18 AWG

500 ft (152.4 m) maximum

Reader terminal on control board

External DC

Supply

Red (+ VDC)

Black (-)

Proximity

Reader

Shield

Ground

Lug

LED

D1 (White)

D0 (Green)

PWR (Red)

GND (Black)

Enclosure

KEYSCAN

Cable in through knockout.

READER PWR

ACU PWR

+

Power terminal on control board

Blue used for pre-alert
otherwise isolate and tape
back.

Orange not
used. Isolate
and tape back.

Shield not

connected.

Isolate with

electrical tape.

LED (Brown)

D1 (White)

D0 (Green)

PWR (Red)

GND (Black)

Pre-alert (Blue)

Orange

FAIL

+

FAIL

EGND

AC Fail

Pre-alert (Blue)

DC Output 12V

-

+

N.C.

N.O.

Energized when AC

present.

LED D1

WHTD0GRN

PWR
RED

GND

BLK

C1

(BEEP)

KI-00138E-07-11

Figure 34 – Terminate Reader Wiring

Keyscan Inc. – Technical Guide (PC109x - 04.15)

49

Terminate Auxiliary Outputs with Hardware/Alarms

Normally

Closed

N.C.

Normally

Open

N.O.

alarm panel input

or

CCTV input

time zone

lock/unlock

CA250B

Control

Board

Cut View

OCB-8 ribbon cable

connects to CONTROL 1.

red stripe

OCB-8

When OCB-8 connected to CA250B

Relay 5 = Aux Output 3 or HC Output 1
Relay 6 = Aux Output 4 or HC Output 2

Do not use relays for both functions.

OCB-8
Relays

CONTROL

2

RS-232 (COM4)

CTS

CONTROL

5

DTR
DCD

RD
TD
GND

OCB-8 powered
through ribbon

cable with J1

Relay Power set
on ACU.

TAMPER TB3
SWITCH

+

-

KI-00139E-10-14

CONTROL

4

S1

TB1

J1

OUTPUT

CONTROL

BOARD

K1

K2

K3 K4

K5K6K7K8

LED ON =
RELAY
ENER GIZED

O

N

1 2 3 4 5 6 7 8

ACU

EXT

12V

GND

H1

TB2

TB3

TB4

OCB8

PC1102

RELAY

REV.

NORMAL

KEYSCAN

INC.

Door

Output

1

(DIP

Switch 1)

Door

Output

2

(DIP

Switch 2)

Aux

Output

1

(DIP

Switch 3)

Aux

Output

2

(DIP

Switch 4)

HC

Output

1

(DIP

Switch 5)

HC

Output

2

(DIP

Switch 6)

Pre-

Alert

1

(DIP

Switch 7)

Pre-

Alert

2

(DIP

Switch 8)

Relay

Power

Note

DIP switches set

relays for normal or
reverse, as

indicated by the

arrows.

Door and auxiliary inputs can be programmed to trip auxiliary output relays on an alarm event. This excludes

pre-alert relays. Auxiliary output relays can be connected to alarm panels, CCTV systems etc.

As an example, a forced entry detected by a door input could be programmed to trip an auxiliary output that

initiates a CCTV system to record the intrusion at the door.

Auxiliary output relays may also be used to control hardware with an associated time zone, such as scheduling

the locking/unlocking of a door, which does not have a reader, to a defined time zone.

Important

Do not assign a time zone to an auxiliary output if the output has previously been assigned to an alarm

event. The alarm has priority over the time zone.

Figure 35 – Terminate Auxiliary Outputs CA250B

Keyscan Inc. – Technical Guide (PC109x - 04.15)

50

Figure 36 – Terminate Auxiliary Outputs CA4500B

CA4500B

Control

Board

Cut View

OCB-8 ribbon cable

connects to CONTROL 1.

red stripe

OCB-8

alarm panel input

or

CCTV input

time zone

lock/unlock

CONTROL

2

RS-232 (COM4)

CTS

CONTROL

5

DTR
DCD

RD

TD

GND

OCB-8 powered

through ribbon

cable with J1

Relay Power set

on ACU.

TAMPER TB3

SWITCH

+

-

KI-00140E-10-14

CONTROL

4

S1

TB1

J1

OUTPUT

CONTROL

BOARD

K1

K2

K3 K4

K5K6K7K8

LED ON =
RELA Y
ENER GIZED

O

N

1 2 3 4 5 6 7 8

ACU

EXT

12V

GND

H1

TB2

TB3

TB4

OCB8

PC1102

RELAY

REV.

NORMAL

KEYSCAN

INC.

Door

Output

1

(DIP

Switch 1)

Door

Output

2

(DIP

Switch 2)

Door

Output

3

(DIP

Switch 3)

Door

Output

4

(DIP

Switch 4)

Aux

Output

1

(DIP

Switch 5)

Aux

Output

2

(DIP

Switch 6)

Aux

Output

3

(DIP

Switch 7)

Aux

Output

4

(DIP

Switch 8)

Relay

Power

Normally

Closed

N.C.

Normally

Open

N.O.

OCB-8
Relays

Note

DIP switches set

relays for normal or

reverse, as

indicated by the
arrows.

Keyscan Inc. – Technical Guide (PC109x - 04.15)

51

Figure 37 – Terminate Auxiliary Output CA8500B

Normally

Closed

N.C.

Normally

Open

N.O.

CA8500B

Control Board

Cut View

OCB-8 ribbon cable

connects to

CONTROL 2.

red stripe

OCB-8

OCB-8

Relays

alarm panel input

or

CCTV input

time zone

lock/unlock

CONTROL

1

RS-232 (COM4)

CTS

CONTROL

5

DTR

DCD

RD
TD
GND

OCB-8 powered

through ribbon cable

with J1 Relay Power

set on ACU.

TAMPER TB3

SWITCH

+

-

KI-00141E-10-14

CONTROL

4

S1

TB1

J1

OUTPUT

CONTROL

BOARD

K1

K2

K3 K4

K5K6K7K8

LED ON =

RELAY

ENER GIZED

O

N

1 2 3 4 5 6 7 8

ACU

EXT

12V

GND

H1

TB2

TB3

TB4

OCB8

PC1102

RELAY

REV.

NORMAL

KEYSCAN

INC.

Aux

Output

1

(DIP

Switch 1)

Aux

Output

2

(DIP

Switch 2)

Aux

Output

3

(DIP

Switch 3)

Aux

Output

4

(DIP

Switch 4)

Aux

Output

5

(DIP

Switch 5)

Aux

Output

6

(DIP

Switch 6)

Aux

Output

7

(DIP

Switch 7)

Aux

Output

8

(DIP

Switch 8)

Relay

Power

Note

DIP switches set

relays for normal or

reverse, as

indicated by the
arrows.

Keyscan Inc. – Technical Guide (PC109x - 04.15)

52

S2 DIP Switches

Switch Off
Off = 0

Switch On
On = 1

Switch Settings

S2 – DIP Switches

KI-00142E-04-13

1

ON

2 3 4 5 6 7 8 9 10 11 12

S2 – 11 & 12

- Software selection: Aurora/System VII/ Vantage

S2 – 9 & 10

- KHS IP address selection (reserved)

S2 – 7 & 8

- Communication terminal block activation

S2 – 6

- Global lockdown enable/disable

S2 – 4 & 5

- Alternate panel serial # selection

S2 – 2 & 3

- Communication bit rate selection

S2 – 1

- Communication mode – serial, network or
reverse network selection

The following sub-sections outline S2 DIP switch functions and settings on door (CA) and elevator (EC) control

boards. Keyscan factory defaults all control board settings prior to shipment. Depending on the installation

however, you may have to reset various switches and reconfigure the control board for specific operating

requirements.

Important

Whenever altering S2 DIP switches, refer to S1 - System Reset / S3 - Restore Factory Defaults on page 57

for determining when you must perform a system reset or restore factory defaults. This ensures the

control board initializes the changes.

Figure 38 – S2 DIP Switch Legend

S2 DIP Switch Functions

The following sub-headings outline the specific S2 switches and their respective functions.

S2.1 - Communication Mode

Keyscan control boards support serial, network and reverse network communication modes. Reverse network

is a Keyscan proprietary application and requires the purchase of a license.

S2.2 & S2.3 - Communication Bit Rate Selection

The number of bits the control board processes per second. For a communication bus with multiple control

boards, all control boards must be set on the same bit rate. Ensure the control board is set on the desired and

correct rate. Also, ensure that all Keyscan software settings match the control board’s bit rate.

Keyscan Inc. – Technical Guide (PC109x - 04.15)

53

S2.4 & S2.5 - Alternate Panel Serial Number

Keyscan programs each control board with a factory-assigned serial number for identification and

communication with the Keyscan software.

Always use the factory-assigned serial number as a setting in the Client software. In the event a duplicate

serial number is detected during ACU setup in the software, you will be prompted in the Client application to

reconfigure the control board for an alternate serial number by an increment of 10, 100 or 1000. Set the S2

DIP switches accordingly as outlined in the table.

S2.6 - Lockdown

This function enables a control unit to lockdown all connected doors or floors via the Client software or a

lockdown input. Refer to Lockdown – Door / Floors document on Keyscan Product Documentation Library CD

for more information.

S2.7 & S2.8 - Communication Terminal Block Activation

The following communication terminal blocks on the control board must be activated for communication: TB4

(RS-232 serial), the H1 header (CB-485 or CPB-10-2) or the M1 terminal (NETCOMP).

The H2 header for CIM connections is an open header and is not regulated by S2.

S2.9 & S2.10 - IP Address

These settings are reserved for Keyscan hosted services.

S2.11 & S2.12 – Software Selection

The control board must be set on the corresponding Keyscan software platform – System VII, Vantage or

Aurora.

Keyscan Inc. – Technical Guide (PC109x - 04.15)

54

S2 Dip Switch Settings

S2 Switch #

Setting

Function

Notes

S2.1

0 = Off

1 = On

Communication Mode

0

Serial Communication

Also see S2.7 & S2.8 in the table.

0

Network Communication

As above.

1

Reverse Network Communication

Applies only to the reverse network
designated control board with the
programmed IP of the host
location. All other boards on
communication bus S2.1 = 0. Also
see S2.7 & S2.8 in the table.

S2.2 & S2.3

Communication Bit Rate

0 0

9600 bit/s

1 0

19,200 bit/s

(not applicable for reverse network)

0 1

57,600 bit/s (CPB-10-2 not supported)

Recommended setting

1 1

115,200 bit/s (CPB-10-2 or CB-485 not
supported)

(not applicable for reverse network)

S2.4 & S2.5

Alternate Panel Serial # Selection

0 0

Factory-assigned serial # *

* Leave on factory assigned setting
unless prompted in the Client
software when inputting panel data.

0 1

Alternate serial #1 – adds 1000 to factory­assigned serial #

(not supported on Aurora)

1 0

Alternate serial # 2 – adds 100 to factory­assigned serial #

(not supported on Aurora)

1 1

Alternate serial # 3 – adds 10 to factory-assigned
serial #

(not supported on Aurora)

S2.6 Lockdown

0

Disabled

1

Enabled

CA250 – AI #8 / CA4500 & CA8500
– AI #16 are dedicated lockdown
aux inputs when the control board
is lockdown enabled.

S2.7 & S2.8

Communication Terminal Block Activation

0 0

For direct serial communication connect to RS­232 (COM4) - TB4 terminal block

0 1

CB-485 and CPB-10-2 communication via CPB/CB
MODULE (COM4) - H1 header

1 0

NETCOMP communication plugged directly into M1
on control board (COM4)

Review Table 6 for determining S2 DIP switch settings.

Table 6 – S2 DIP Switch Settings

Keyscan Inc. – Technical Guide (PC109x - 04.15)

55

S2 Switch #

Setting

Function

Notes

1 1

Program mode for NETCOMP plugged into M1
(COM4) on the control board

The H2 header for CIM connections is an open header and is not regulated by S2.

S2.9 & S2.10

KHS - IP Address

n/a

Reserved for Keyscan Hosted Services

S2.11 & S2.12

Software Selection

1 1

Aurora

0 0

System VII

1 0

Vantage

0 1

Future use

0 = Off

1 = On

Notes on Communication Settings

The 9600 bit/s communication setting is recommended for the CPB-10-2 only. Aurora does not support

this communication setting.

The 19,200 bit/s communication setting is only recommended for CPB-10-2 connections, which do not

exceed 200 ft/61 m between units and overall distance.

Aurora and all current hardware products do not support modem communication.

Ensure you are running the most current software version with this control board. For the latest software

updates, visit www.keyscan.ca.

Keyscan Inc. – Technical Guide (PC109x - 04.15)

56

Figure 39 – Location of S2 DIP Switches

COMMUNICATION STATUS

TD1 RD1 TD2 RD2 TD3 RD3 TD4 RD4

READER 1READER 2READER 3READER 4READER 5

CONTROL 2

CONTROL 5

CONTROL 3

Protective ACU Cover

Cut View of CA8500B

Location of S2 is the

same on all CA & EC

control boards.

KI-00143E-04-13

S1

S2

S3

O

N

1 2 3 4 5 6 7 8 9 10 11 12

Important - Circuit Board Function Revisions

The following functions on PC1097 version and higher circuit boards are now configured via the Client

software:

 Reader configuration (formerly jumper J3)
 Reader LED lock state (formerly J16)
 Temporary card countdown (formerly J16)
 Accessibility HC relay all cards enabled (formerly J16)
 End-of-line supervision mode (formerly J18)
 Reader lockdown LED mode (formerly J18)

All of the previously listed functions can be selected or enabled when adding a panel in the Client software.

You require the following Keyscan software versions:

 Aurora – version 1.0.1.0
 System VII – version 7.0.19 or higher
 Vantage – version 8.1.18 or higher

Circuit Board Card Capacity

PC1097 and higher circuit boards are defaulted for 45,000 – Aurora - and 32,000 – System VII and Vantage -

card-storage capacity – names not stored in ACU. Keyscan strongly advocates that either the dealer/installer

or the end-user schedule automatic database backups at regular intervals to safeguard all site and cardholder

data. The database backup and scheduling functions are located in the Client software. In the event that the

database is not backed up, the Disaster Recovery utility is unable to retrieve names from the access control

board.

Keyscan Inc. – Technical Guide (PC109x - 04.15)

57

S1 - System Reset / S3 ­Restore Factory Defaults

S1 – System Reset

The System Reset S1 is a push button that re-boots the control board to initialize any previous changes made

to the S2 DIP switches. If the control board is powered while any of the following S2 DIP switch functions were

altered, momentarily press the S1 System Reset push button:

 S2.1 - Communication Mode
 S2.2 & S2.3 - Communication Bit Rate Selection
 S2.4 & S2.5 - Alternate Panel Serial Number
 S2.6 – Lockdown
 S2.7 & S2.8 - Communication Terminal Block Activation
 S2.11 & S2.12 – Software Selection – refer to S3 Restore Factory Defaults

If the control board was not powered while the S2 DIP switches were changed, with the exception of S2.11 &

S2.12 – Software Selection, you do not have to perform a system reset. The changes will be initialized when

power is applied to the control board.

S3 – Restore Factory Defaults (Clear Memory)

S3 restores the control board’s factory default settings. You must restore the factory default settings whenever

you have performed one or more of the following procedures to a control board:

 when a control board has been newly installed
 when an EPROM or reader PROM has been changed
 when the software selection DIP switches have changed
 when the ACU protective cover has been removed to mount a NETCOMP on the Ethernet M1 socket

Procedure

To restore the factory default settings, ensure the control board has power, press S1, wait 5 seconds.

Press S3 within 10 seconds.

After performing the above clear memory procedure, the system status LED begins flashing RED and the

control board’s piezo emits a cycle of two (2) short beeps followed by a pause. This occurs for

approximately 120 – 150 seconds while the factory default settings are loaded and the database

information is erased from the on-board memory. Do not make any changes to the control board, such as

altering DIP switches or powering down the board, while the factory defaults are being restored or you will

have to repeat the procedure. After the System Status LED has stopped flashing, the factory default

settings have been restored and the Keyscan database has been cleared from the on-board memory. After

Keyscan Inc. – Technical Guide (PC109x - 04.15)

58

you have restored the factory defaults, perform an upload from a PC with a Keyscan Client software

COMMUNICATION STATUS

TD1 RD1 TD2 RD2 TD3 RD3 TD4 RD4

READER 1READER 2READER 3READER 4READER 5

CONTROL 2

CONTROL 5

CONTROL 3

Protective ACU Cover

Cut View of CA8500B

Location of S2 and S3

are the same on all CA

& EC control boards.

KI-00150E-07-13

S1

S2

S3

O

N

1 2 3 4 5 6 7 8 9 10 11 12

S3 – Clear Memory
(Restore Factory Defaults)

S1 –System Reset

module so the Keyscan database is transferred to the control board’s on-board memory.

If this is a new installation, enter the site information in the Keyscan Client software and then upload the

Keyscan database information to the control board(s). Until you perform an upload from a Keyscan Client, the

access control unit(s) will not function. Also, see Power Up and Test Voltages for a new installation.

Clear Memory without Full Memory Test

Ensure the control board has power, press S1, wait 5 seconds. Hold down the tamper switch, and then

momentarily press S3 within 10 seconds. Then release the tamper switch.

This clear memory procedure is shorter in duration for restoring the factory defaults – approximately 15 to

20 seconds – but bypasses performing a full memory test on the control board. This method to clear

memory should not be used on a newly installed control board.

Figure 40 – S3 Restore Default Settings (Clear Memory) & S1 System Reset Locations

Keyscan Inc. – Technical Guide (PC109x - 04.15)

59

Single ACU Communication

This section outlines ACU to PC communication where only a single control board is on the communication

loop. Keyscan supports the following connectivity modes:

 Serial (direct RS-232)
 USB (USB 1.1 & USB 2.0 supported)
 Network (TCP/IP)

For connecting multiple control boards on a communication loop, refer to the CIM Communication section.

If you are connecting a Keyscan legacy communication board – CPB-10-2, CB-485, CB-485M, or MC9600

modem – refer to the technical guide in the legacy folder on the Keyscan document CD or refer to the product

installation document that was included with the product.

Important

Do not mix CIM, CPB-10-2 or CB-485 boards on the same communication loop.

NETCOMs

The technical guide includes only operational connections for NETCOM devices. For programming instructions

and temporary serial programming connections, refer to the specific installation guide that was included with

the NETCOM device.

Multiple Building Communication on a WAN

A point-to-point private network is required where NETCOMs are used on a LAN/WAN (TCP/IP) that integrates

building-to-building communication.

For reverse network communication applications, a public or private network is required with a path and

connectivity between the host location and the remote location. Reverse network communication requires a

license from Keyscan.

Keyscan RS-232 Data Cable

Keyscan’s RS-232 data cable has multiple applications for various Keyscan products and as such has a generic

configuration for the loose wires. When it is used in applications where the shield must be connected to the

metal enclosure ground lug, Keyscan suggests one of following wiring options:
 Option A – trim back the shield wire to approximately 0.5” (1.5 cm) then solder an appropriate length of

green # 20 AWG wire to the shield and terminate the shield at the ground lug

 Option B – remove sufficient cable jacketing allowing the shield wire to return to the ground lug from the

communication connector. Trim the 5 communication wires to a length of 2.5” (6.5 cm) and strip the ends

Insulate the shield wire with a length of tubing to prevent it from shorting. Terminate the shield.

Keyscan Inc. – Technical Guide (PC109x - 04.15)

60

Configure a 9-pin RS-232 Data Cable

- Shield
1 - White
2 - Black
3 - Red
4 - Brown
5 - Green
6 - shorted to pin 7
7 - shorted to pin 6
8 - not connected
9 - not connected

DB9 Connector

(Front View)

1
2
3
4
5

6
7
8
9

KI-00152E-07-11

In the event that you are establishing a serial connection from the PC either to the control board or a

communication board and you have to make a 9 pin, RS-232, data cable, ensure that you follow the pin to

wire colour assignments on the following diagram. When possible, use a Keyscan 9 pin, RS-232 data cable

(Keyscan part # 40-2322) which is manufactured specifically for Keyscan serial data connectivity.

Figure 41 – RS-232 Data Cable Connections

Installation Notes

Typically, the black wire of the RS-232 cable from the PC, which is the receive data input of the PC, is

connected to the serial port TD pin of most Keyscan products.

Typically, the red wire of the RS-232 cable, which is the transmit data output of the PC, is connected to

the RD pin of most Keyscan products.

Exceptions - NETCOMs

When connecting the following NETCOM devices – NETCOM2 or NETCOM6 – reverse the black and red

wires as shown on the NETCOM wiring diagrams. Please observe the following connections:

The black wire of the RS-232 cable connects to the RD terminal.

The red wire of the RS-232 cable connects to the TD terminal.

If during communication troubleshooting you remove the terminal block if it is wired for a NETCOM, as

listed above, and attach it to the communication port of the control board, or vise versa, system

communication will fail.

Keyscan Inc. – Technical Guide (PC109x - 04.15)

61

Figure 42 – Communication - Direct Serial

to Com Port on

PC with

Communication

Manager

GND

RS-232 (COM4)

Control Board

(PC 109x)

Green

Black

Brown & White not used.
Tape back separately.

Brown

Shield

Green

Black

Red

White

RS-232 5 conductor
22 AWG shielded cable
Maximum - 100 Ft (30 M)

TD

RD

DCD

DTR

CTS

Red

`

to ground lug

Shield*

Parts List

- RS-232 Data Cable

- Control Board

- PC (requires serial port)

IOCB (COM1)

RX

TX

Ensure S2

DIP switches 7 & 8

are OFF

KI-00153E-04-13

* Insulate shield with PVC tubing such as Alpha
(p/n PVC10516 16 AWG) or comparable
insulator.

Keyscan Inc. – Technical Guide (PC109x - 04.15)

62

Figure 43 – Single ACU Communication - USB Adaptor

PC with

Communication

Manager

- USB Adaptor (USB-SER)

- RS-232 Data Cable

- Control Board

- PC (requires USB port)

- USB extension cable optional

BRNWHTGRN WHT

+ TX - + RX -

485 OUT 485 IN

To USB port on PC

(may require USB

extender cable)

485 terminal
block not used

use 3 loose
RS-232 wires

tape

back

shield

Note
USB communication is slower
than direct serial or NETCOM
communication.
Do not connect USB adaptor to
modem.

RS-232
22 AWG shielded cable
Maximum - 100 ft (30 M)

Green

Black

Red

Unused conductors are

taped back separately.

Unused conductors are

taped back separately.

GND

RS-232 (COM4)

Control Board

(PC 109x)

Green

Black

TD

RD

DCD

DTR

CTS

Red

To ground lug

Shield*

IOCB (COM1)

RX
TX

Parts List

KI-00156E-04-13

* Insulate shield with PVC tubing such as
Alpha (p/n PVC10516 16 AWG) or
comparable insulator.

Ensure S2

DIP switches 7 & 8

are OFF

Keyscan Inc. – Technical Guide (PC109x - 04.15)

63

- PC

- 10/100 Base-T Cable

- Control Board

- NETCOM2P or NETCOM6P
to network

Host PC with

Communication Manager

Parts List

to network

10 or 100

Base-T

Current Draw

ACU + NETCOMP = 270 mA

RJ45

Terminal

Jack

NETCOMP

RESET

Control Board

(PC 109x)

Cut view with

ACU protective

cover removed.

Common AUX Inputs - E

CPB/CB MODULE

(COM4)

AUX Inputs - D

Common

IOCB (COM1)

NETCOMP plugs into M1 on

control board.

RX
TX

KI-00161E-04-13

Ensure S2
DIP switch 7 = ON
DIP switch 8 = OFF

Figure 44 - Communication - NETCOM2P or NETCOM6P/ACU

Important

NETCOM2P or NETCOM6P plugged directly into the control board only supports a single panel

communication loop.

After installing and connecting the NETCOMP, ensure that the control board protective cover is re-affixed

before applying power.

Keyscan Inc. – Technical Guide (PC109x - 04.15)

64

Server with Keyscan

Communication

Application/Service

- RS-232 Data Cable

- Control Board

- Server/PC

- NETCOM2B

- 10/100 Base-T Cable

10/100 Base-T

to

network

12 VDC to DPS15

to

network

RS-232

22 AWG shielded cable

Maximum - 100 ft (30 m)

GND

RS-232 (COM4)

Control Board

(PC 109 x)

Green

Black

Connect shield to

enclosure ground lug at

one end of cable. Cut

shield off at other end and

ensure it is isolated.

TD

RD

DCD

DTR

CTS

Red

IOCB (COM1)

RX
TX

Parts List

KI-00163E-10-14

Control Board

S2 - DIP switches 7 & 8 = OFF (PC 1097 or later)

or

J16 – pins F & G = OFF (PC 1094 & PC 1095)

12VD C

+

-

RESET

GND

TD RD DTRDCD

I/O

EGND

RS-232TD RD POWER

LEDsLEDs

PRO GRAM

PRO GRAM

S1

S3

O
N

12345

6

Shield*

Brown & white not used. Tape
back separately.

to

ground lug

Green

Red

Black

LED Legend

- RS-232 indicates serial connection

- TD indicates PC polling ACU/ECU

- RD indicates ACU/ECU replying to
PC

- POWER indicates unit receiving

power

- PROGRAM indicates unit is
programming selected IP & bit rate

S1, S2, S3 Switches

- S1 – Reset

- S2.1 – Run/Program Mode*

- S2.2/3 – bits/second selection

- S2.4/5 – IP address selection

- S2.6 – Unassigned

- S3 – Starts program sequence

* for on-board programming firmware

If using shielded Ethernet cable, connect

EGND terminal on NETCOM2B to

enclosure ground lug.

NETCOM2B

*Insulate shield with PVC tubing such as

Alpha (p/n PVC10516 16 AWG) or

comparable insulator.

Red (+)

Black (-)

S2

Figure 45 – Communication - NETCOM2B

Note

If the NETCOM2 is mounted in the metal enclosure, the shield of the serial cable may be connected to

GND as shown. If the NETCOM2 is mounted outside the metal enclosure, the shield must be insulated and

connected directly to the metal enclosure ground lug. See Grounding Communication Cable Shield.

Keyscan Inc. – Technical Guide (PC109x - 04.15)

65

CIM Communication

CIM 1

CIM n

ACU 1

* serial

or

network

connection

CAN Bus 1

ACU 2 ACU n

CIM 0

Refer to BPS/CAN Bus
Distance chart for
maximum bus distances.

CAN Bus 2

CAT5 - 2 twisted pairs

1 CIM as Global

Master

(least busy ACU)

optional

CIM link

to network

* CIM 0 is the unit with the
serial or network connection
which can be anywhere on
the CAN Bus. Only one CIM
can be designated as CIM 0.

Control

Board

Control

Board

Control

Board

PC109x

PC109x

PC109x

KI-00261E-07-12

The Communication Interlink Module (CIM) is used to establish PC to ACU and ACU to ACU communication

when multiple access control units are installed on a communication bus. The CIM uses highly reliable CAN Bus

architecture on CAT 5 cable with two (2) twisted pairs. The CIM modes of communication are as follows on the

CAN Bus:

 CAN Bus 1 (required) - PC to ACU main communication
 CAN Bus 2 (optional) - ACU to ACU communication for global functions (i.e. global anti-pass back, global

time zones, and global I/Os)

 CAN Bus 2 - CIM to CIM communication for CIM hardware control and monitoring and Keyscan’s reverse

network communication

Keyscan recommends CAN Bus 1 and CAN Bus 2 are connected on all CIM units.

Figure 46 – CIM Overview

CIM Conventions

Before connecting, please be aware of the following CIM conventions.

 One CIM must be connected to each ACU on the communication bus
 The CIM modules inter-connect two or more ACUs; CIM modules are not required for a single ACU

communication bus

Keyscan Inc. – Technical Guide (PC109x - 04.15)

66

 One CIM must be jumpered as a global master when using ACU to ACU communication for global anti-pass

back on CAN Bus 2 (global anti-pass back does not apply to elevator control units)

 The CIM unit with the serial or network connection must be jumpered as CIM 0
 Any CIM module on the communication bus can be configured as the global master as well as CIM 0 – but

only one global master and one CIM 0 per communication bus

 First and last modules must be jumpered to terminate CAN Bus 1 and CAN Bus 2
 Reverse network communication requires CAN Bus 1 and CAN Bus 2
 For reverse network communication CIM 0 requires a NETCOM6P – do not connect CIM 0 with a NETCOM6

CIM Module Requirements

The CIM module requires the following control board firmware versions:

Hardware

Please note the CIM is compatible with the following control board firmware:

 EPROM version 7.40/8.20 or higher – door control units
 EPROM version 7.97/8.77 or higher – elevator control units (supports global time zones only)

If using a NETCOM2P or NETCOM6P, ensure the NETCOMP version is a PC1051 or later (blue) printed circuit

board.

Software

 Aurora – version 1.0.1.0 or higher for global inputs/outputs
 System VII – version 7.0.6 or higher for global inputs/outputs
 Vantage – version 8.1.5 or higher for global inputs/outputs

Note

For global outputs, Keyscan recommends using the global OCB-8 option. This requires the purchase of an

optional OCB-8, which connects to the control board’s Control 5 header. Global outputs are not supported

on CA200 or CA250 door control units and EC1000, EC2000, EC1500, or EC2500 elevator control units.

CIM Specifications

The following table outlines CIM specifications. The CIM and NETCOMP receive power from the control board’s

H2 terminal via the ribbon cable.

Note

The control board’s H2 terminal is an open terminal block and does not require setting S2 – switches 7 & 8

for activation.

Keyscan Inc. – Technical Guide (PC109x - 04.15)

67

Table 7 – CIM Specifications

Operating Voltage

12 VDC

Current Draw

CIM only – 150 mA; CIM and NETCOM2P/6P – 290 mA

Dimensions

4 5/8 " x 3.0 " (11.7 cm x 7.6 cm)

Operating Environment

32° F – 140° F (0° C - 60° C)

Cables

CIM to CIM – CAT 5, 2 twisted pairs - maximum cable distance first CIM to last CIM - 3280
ft (1000 m) @ 9600 bps

CIM to ACU - ribbon cable to communication header H2

CIM 0 to PC direct serial – 5 conductor shielded 22 AWG – maximum 49.2 ft (15 m) @
9600 bps

CIM 0 to NETCOM2P/6P* – plugs directly into CIM, no cable required

* If configuring CIM 0 with a NETCOM2P or NETCOM6P, ensure the NETCOMP version is a
PC1051 or later printed circuit board.

CAN Bus

CAN Bus 1 – PC to ACU communication

CAN Bus 2 – ACU to ACU communication for global functions and CIM to CIM

Topology

Linear (does not support star or ring topologies)

Inter-building Connectivity

Yes

Firmware

Requires control board with EPROM versions 7.40/8.20 or higher

PC/ACU Bit Rate

CAN Bus 1 / CAT 5 Distance

RS-232 Serial Distance

9600

3280 ft (1000 m)

100 ft (30 m)

19,200

3280 ft (1000 m)

49.2 ft (15 m)

57,600

984.25 ft (300 m)

26.2 ft (8 m)

115,200

262.46 ft (80 m)

9.84 ft (3 m)

BPS/CAN Bus Distance Chart

Select bit rates based on the cable distance of CAN Bus 1. The PC and ACU bit rates must be the same.

Determine CAN Bus 1 distances before setting baud rate jumpers as outlined under Serial Bit Rate Jumpers J9

– J11.

Table 8 – BPS/CANBUS Distance Chart

Keyscan Inc. – Technical Guide (PC109x - 04.15)

68

CIM Jumper Settings

Module

Jumper #

Jumper Setting

Notes

CIM - Global Master

J3 1 Set global master CIM at least busiest ACU. Set global
master CIM connected to door control unit only when using
ACU to ACU communication on CAN Bus 2.

Do not set a CIM as global master that is connected to an
elevator control unit. See note below.

CIM - Slave

J3 0

Module

Jumper #

Jumper Setting

Notes

CIM 0

J4 1

Jumper Off

Off = 0

Jumper On

On = 1

Jumper Legend

J1 – Reset
J2 – Diagnostic mode selection
J3 – Global master/slave selection
J4 – CIM 0 selection (module with network
or serial connection)
J5 & J6 – CAN Bus 1 termination selection
J7 & J8 – CAN Bus 2 termination selection
J9 – J11 – Serial bit rate selection
J12 – Program mode with mounted
NETCOMP

CIM Jumper Locations

KI-00262E-07-13

TD1
RD1

TD2
RD2

GND

RTS
CTS

GND

RTS
CTS

B3 B2 B1 B0

Diag

J2

RESET

-

CAN2

+

EGND

-

CAN1

+

GND

V +

(+12V)

SCKT1

PC106x

J1

J7
J8

J6

J5

CAN2

CAN1

1 2 1 2 1 2 1 2

Rx - COM COM

CAN

CAN - Tx

J3

J4

J9

J12

Power
Good

COM1

COM2

HDR1

J10

J11

Fault
(Flashing)

The CIM has jumpers that determine the board's attributes. Ensure the necessary jumpers are set depending

on the position and function the board is serving. Jumper settings are reviewed in the following tables. Please

note the jumper locations in the diagram below.

Figure 47 – CIM Jumper Locations

CIM Global Master Jumper – J3 (Master/Slave ACUs)

Jumper J3 sets the CIM as global master. Only one (1) CIM can be designated as a global master. All other

CIMs are designated as slaves.

Note

On a communication bus with elevator control units only, a global master CIM is not applicable. Do not

place a jumper on J3.

CIM 0 Jumper – J4

Jumper J4 must be set on the module that is designated as CIM 0. This is the module with either the direct

serial connection to a PC or a network connection via a NETCOMP to the system communication software.

Keyscan Inc. – Technical Guide (PC109x - 04.15)

Table 9 – CIM Global Master Jumper J3

Table 10 – CIM 0 – Jumper J4

69

CIM 1 to CIM n

J4 0

CAN Bus Termination Jumpers - J5 to J8

CAN Bus 1

Module

Jumper #

Jumper Setting

Off = 0 / On = 1

Notes

First & last module (CIM or CIM 0)

J5 & J6

1 1

Termination ON

All other modules

J5 & J6

0 0

Termination OFF

CAN Bus 2

Module

Jumper #

Jumper Setting

Off = 0 / On = 1

Notes

First & last module (CIM or CIM 0 or
CIM-Link)

J7 & J8

1 1

Termination ON
All other modules

J7 & J8

0 0

Termination OFF

Bit Rate/Second

Jumper #

Jumper Settings

Off = 0 / On = 1

Auto match ACU

J9 & J10 & J11

0 0 0

9600

J9 & J10 & J11

0 0 1

19,200

J9 & J10 & J11

0 1 0

57,600

J9 & J10 & J11

1 0 0

115,200

J9 & J10 & J11

1 0 1

230,400

N/A

For future use – not supported on PC109x

The first and last modules on CAN Bus 1 and CAN Bus 2 must have the appropriate jumpers set to terminate

the bus. Terminating modules can be a CIM, CIM 0 or, if applicable, a CIM-Link.

Later, if additional CIMs are placed at either end of CAN Bus 1 or CAN Bus 2, be sure to reset the termination

jumpers accordingly.

Table 11 – CIM CAN Bus Termination Jumpers J5 – J8

Serial Bit Rate Jumpers J9 – J11

The CIM has selectable serial bit rates. The jumper settings are outlined in the following table. Bit rates are

governed by CAN Bus 1 distances and RS-232 distances. Refer to the BPS Distance Chart. Set CIM jumpers to

match the ACU baud rate.

The Auto-match bit rate functions in the same manner irrespective of which ACU panel it is connected to or if it

is configured as CIM 0 or CIM (n). The CIM will detect and match the RS-232 bit rate with the ACU panel.

As an example, if configuring a system with five panels, set communication bit rates the same on all ACU

control boards, and then allow the CIM unit to auto-match the ACU bit rate. The CIM unit automatically sets

the CAN Bus bit rate to match. Keyscan recommends using the auto-match jumper setting.

Table 12 – CIM Serial Bit Rate Jumpers J9 – J11

Keyscan Inc. – Technical Guide (PC109x - 04.15)

70

Bit Rate/Second

Jumper #

Jumper Settings

460,800

N/A

For future use – not supported on PC109x

Reset Jumper J1

The CIM has a reset jumper J1. If the board has been re-configured while powered, momentarily short J1 on

the CIM board to institute the changes.

Momentarily shorting the System Reset J6 jumper on the control board also effects changes to the CIM board

while powered.

CIM Installation Guidelines

The following guidelines offer a general outline for configuring and connecting the CIM units. You may have to

refer to other Keyscan documentation that was included with other components such as a NETCOM2P or

NETCOM6P – Reverse Network to complete the installation depending on how you are configuring the CIM

units.

If using a network connection, ensure that you program the NETCOM device as outlined in the documentation

included with your particular NETCOM unit.

Connect the CIM circuit board according to the communication and power diagrams.

Ensure that the EGND terminal on TB1 of each CIM is connected to an earth ground to protect the circuit board

and the system from high-voltage transients.

Set the jumpers accordingly on the CIM depending on whether it is a global master or slave, it is a terminating

CIM on the CANBUS, or it is CIM 0. Also, ensure the correct communication serial bit rates are correct. Refer to

the CIM Jumper Settings table.

Repeat connections and jumper settings for each control board and CIM.

Apply power to all CIM and ACU circuit boards.

Do one of the following procedures at the control board:

 If this is an existing system, press reset S1 on the control board for board initialization.
 If this is a new installation, press S1, wait 5 seconds, and then press S3 within ten seconds. Allow two

minutes for board initialization after clearing memory.

Return to a PC with the Client module, log on to the appropriate site, and perform a full upload.

CIM Connection Diagrams

Observe the diagrams on the following pages for connecting the CIM units to the access control boards and

connecting the CIMs with CAN Bus 1 and CAN Bus 2.

The CIM designated as CIM 0 supports serial or network (TCP/IP) to CANBUS 1 communication. The CIM unit

does not support modem communication.

Keyscan Inc. – Technical Guide (PC109x - 04.15)

71

Note

Control Board

(PC 109x)

Common AUX Inputs - E

24

2322

2120191817

H1

Connect the ribbon cable
from HDR1 on the CIM to the
H2 terminal on control board.

CIM powered from control

board via H2 terminal.

KI-00264E-07-12

TD1
RD1

TD2
RD2

GND

RTS
CTS

GND

RTS
CTS

B3 B2 B1 B0

Diag

J2

RESET

-

CAN2

+

EGND

-

CAN1

+

GND

V +

(+12V)

SCKT1

PC106x

J1

J7
J8

J6

J5

CAN2

CAN1

1 2 1 2 1 2 1 2

Rx - COM COM

CAN

CAN - Tx

J3

J4

J9

J12

Power
Good

COM1

COM2

HDR1

J10

J11

Fault
(Flashing)

H2

150 mA

The control board’s H2 terminal is an open terminal block and does not require setting S2 – switches 7 & 8 for

activation.

Figure 48 – CIM to ACU Connections

Keyscan Inc. – Technical Guide (PC109x - 04.15)

72

Figure 49 – CIM to CIM CANBUS Connections

White Blue

Blue

White Orange

Orange

White Blue

Blue

White Orange

Orange

White Blue

Blue

White Orange

Orange

To earth

ground via

ground lug in

ACU

enclosure

To earth

ground

To earth

ground

CAT 5 - 2 twisted pairs

CAT 5 - 2 twisted pairs

Refer to the CIM jumper tables for applicable settings.

For J5 to J8, mount jumpers horizontally.

For J5 to J8, mount jumpers horizontally.

KI-00265E-07-12

TD1
RD1

TD2
RD2

GND

RTS
CTS

GND

RTS
CTS

B3 B2 B1 B0

Diag

J2

RESET

-

CAN2

+

EGND

-

CAN1

+

GND

V +

(+12V)

SCKT1

PC106x

J1

J7
J8

J6

J5

CAN2

CAN1

1 2 1 2 1 2 1 2

Rx - COM COM

CAN

CAN - Tx

J3

J4

J9

J12

Power
Good

COM1

COM2

HDR1

J10

J11

Fault
(Flashing)

TD1
RD1

TD2
RD2

GND

RTS
CTS

GND

RTS
CTS

B3 B2 B1 B0

Diag

J2

RESET

-

CAN2

+

EGND

-

CAN1

+

GND

V +

(+12V)

SCKT1

PC106x

J1

J7
J8

J6

J5

CAN2

CAN1

1 2 1 2 1 2 1 2

Rx - COM COM

CAN

CAN - Tx

J3

J4

J9

J12

Power
Good

COM1

COM2

HDR1

J10

J11

Fault
(Flashing)

TD1
RD1

TD2
RD2

GND

RTS
CTS

GND

RTS
CTS

B3 B2 B1 B0

Diag

J2

RESET

-

CAN2

+

EGND

-

CAN1

+

GND

V +

(+12V)

SCKT1

PC106x

J1

J7
J8

J6

J5

CAN2

CAN1

1 2 1 2 1 2 1 2

Rx - COM COM

CAN

CAN - Tx

J3

J4

J9

J12

Power
Good

COM1

COM2

HDR1

J10

J11

Fault
(Flashing)

Keyscan Inc. – Technical Guide (PC109x - 04.15)

73

Serial Communication

CIM 0

Jumper ON J4

COMMON AUX INPUTS - E

17 18 19 20 21 22 23 24

IOCB (COM1)

RX
TX

CPB/CB COMMS

(COM4)

H2

COMMON AUX INPUTS - E

17 18 19 20 21 22 23 24

IOCB (COM1)

RX
TX

CPB/CB COMMS

(COM4)

TD1
RD1

TD2
RD2

GND

RTS
CTS

GND

RTS
CTS

B3 B2 B1 B0

Diag

J2

RESET

-

CAN2

+

EGND

-

CAN1

+

GND

V +
(+12V)

SCKT1

PC106x

J1

J7
J8

J6

J5

CAN2

CAN1

1 2 1 2 1 2 1 2

Rx-COM

COM

CAN CAN-Tx

J3

J4

J9

J12

Power

Good

Fault

HDR1

J10

J11

COMMON AUX INPUTS - E

17 18 19 20 21 22 23 24

IOCB (COM1)

RX
TX

CPB/CB COMMS

(COM4)

TD1
RD1

TD2

RD2

GND

RTS
CTS

GND

RTS

CTS

B3 B2 B1 B0

Diag

J2

RESET

-

CAN2

+

EGND

-

CAN1

+

GND

V +
(+12V)

SCKT1

PC106x

J1

J7
J8

J6

J5

CAN2

CAN1

1 2 1 2 1 2 1 2

Rx-COM

COM

CAN CAN-Tx

J3

J4

J9

J12

Power

Good
Fault

HDR1

J10

J11

TD1
RD1

TD2
RD2

GND

RTS
CTS

GND

RTS
CTS

B3 B2 B1 B0

Diag

J2

RESET

-

CAN2

+

EGND

-

CAN1

+

GND

V +
(+12V)

SCKT1

PC106x

J1

J7
J8

J6

J5

CAN2

CAN1

1 2 1 2 1 2 1 2

Rx-COM

COM

CAN CAN-Tx

J3

J4

J9

J12
Power
Good

Fault

HDR1

J10

J11

Black

Green

Red

to COM port

CIM 0

CIM 1

CIM n

White Orange

Orange

Blue
White Blue

White Orange

Orange

Blue
White Blue

Ground

White Orange

Orange

Blue
White Blue

Ground

Match baud rate on control board J16 to baud
rate on CIM J9 – J12

Slave

Global
Master

Ground

Termination Jumpers ON

J5 & J6 / J7 & J8

first & last CIM

Connect EGND terminal on all CIMs to
ground lugs in ACU metal enclosures.

Global Master

Jumper ON - J3

CAT 5

CAN Bus

Slave - Jumper OFF - J3

Bit Rate / Distance
Bit CAN Bus RS-232
9600 3280' (999.7 m) 49.2' (14.9 m)
19200 3280' (999.7 m) 49.2' (14.9 m)
57600 984' (299.9 m) 26.2' (7.9 m)
115200 262' (80 m) 9.84' (3 m)

Bit Rate / Jumper Settings (0 = OFF / 1 = ON)
Bit CIM Control Board

J9 J10 J11 J16 – 1 2 6
9600 0 0 1 0 0 0
19200 0 1 0 0 1 0
57600 1 0 0 0 0 1
115200 1 0 1 0 1 1

H2

H2

KI-00269E-07-12

Shield*

to ACU
ground

lug

*Insulate shield with PVC tubing such as
Alpha (p/n PVC10516 16AWG) or
comparable insulator.

RS-232 - 5 conductor
shielded 22 AWG cable

CAT 5

CAN Bus

Termination Jumpers ON

J5 & J6 / J7 & J8

first & last CIM

Slave

H1

Slave - Jumper OFF - J3

H1

H1

- RS-232 Data Cable

- Control Board

- PC

- CIM

- CAT 5 Cable – 2 twisted pairs

Parts List

PC with

Communication

Manager

Serial communication is a direct serial connection from the PC to the CIM unit using a 9-pin RS-232 data cable

with five (5) conductors - Keyscan part # 40-2322. A Communication Manager must be installed on the PC

that has the direct serial connection to CIM 0.

Figure 50 – PC Serial Connection with multiple CIMs/ACUs

Keyscan Inc. – Technical Guide (PC109x - 04.15)

74

Network Communication via Optional NETCOM2P or
NETCOM6P (Encrypted)

The NETCOM2P and NETCOM6P (encrypted) are modular serial to TCP/IP converters that plug directly into the

CIM board for network communication. The CIM circuit board with the network connection is referred to as CIM

0. This CIM unit must have a jumper on J4.

Important

The NETCOM2P and the NETCOM6P must be programmed with the Keyscan NETCOM Program Tool utility

in order to function. Refer to the NETCOM2P/CIM or NETCOM6P/CIM Programming Guides for

programming instructions.

When configuring CIM 0 with a NETCOM2P or NETCOM6P ensure the NETCOMP version is a PC1051 or

later printed circuit board. The CIM is not compatible with older NETCOM2P/6P versions.

Multiple Building Communication on a WAN

Keyscan requires a point-to-point private network where NETCOMs are used on a LAN/WAN (TCP/IP) that

integrates building to building communication for a non-reverse network application.

For a reverse network application, review the NETCOM6P (Encrypted) Installation Guide for more information

regarding network communication and configuration.

Keyscan Inc. – Technical Guide (PC109x - 04.15)

75

Figure 51 – Network Connection with Multiple CIMs/ACU

CIM 0

Jumper ON J4

COMMON AUX INPUTS - E

17 18 19 20 21 22 23 24

IOCB (COM1)

RX
TX

CPB/CB COMMS

(COM4)

H2

COMMON AUX INPUTS - E

17 18 19 20 21 22 23 24

IOCB (COM1)

RX
TX

CPB/CB COMMS

(COM4)

TD1
RD1

TD2
RD2

GND

RTS
CTS

GND

RTS
CTS

B3 B2 B1 B0

Diag

J2

RESET

-

CAN2

+

EGND

-

CAN1

+

GND

V +
(+12V)

SCKT1

PC106x

J1

J7
J8

J6

J5

CAN2

CAN1

1 2 1 2 1 2 1 2

Rx-COM

COM

CAN CAN-Tx

J3

J4

J9

J12

Power

Good

Fault

HDR1

J10

J11

COMMON AUX INPUTS - E

17 18 19 20 21 22 23 24

IOCB (COM1)

RX
TX

CPB/CB COMMS

(COM4)

TD1
RD1

TD2

RD2

GND

RTS
CTS

GND

RTS
CTS

B3 B2 B1 B0

Diag

J2

RESET

-

CAN2

+

EGND

-

CAN1

+

GND

V +
(+12V)

SCKT1

PC106x

J1

J7
J8

J6

J5

CAN2

CAN1

1 2 1 2 1 2 1 2

Rx-COM

COM

CAN CAN-Tx

J3

J4

J9

J12

Power

Good

Fault

HDR1

J10

J11

TD1
RD1

TD2
RD2

GND

RTS
CTS

GND

RTS
CTS

B3 B2 B1 B0

Diag

J2

RESET

-

CAN2

+

EGND

-

CAN1

+

GND

V +
(+12V)

SCKT1

PC106x

J1

J7
J8

J6

J5

CAN2

CAN1

1 2 1 2 1 2 1 2

Rx-COM

COM

CAN CAN-Tx

J3

J4

J9

J12

Power

Good

Fault

HDR1

J10

J11

CIM 0

CIM 1

CIM n

Slave

Global

Master

Termination Jumpers ON

J5 & J6 / J7 & J8

first & last CIM

Connect EGND
terminal on all CIMs
to ground lugs in
ACU metal
enclosures.

Global Master

Jumper ON - J3

CAT 5

CAN Bus

Slave - Jumper OFF - J3

H2

H2

KI-00461E-07-12

CAT 5

CAN Bus

Termination Jumpers ON

J5 & J6 / J7 & J8

first & last CIM

Slave

H1

Slave - Jumper OFF - J3

H1

H1

NETCOMP

RJ45

Terminal

Jack

to network with path/

connectivity to PC/

server with

Communication

Manager

Reverse network communication
requires CANBUS 1 and CANBUS 2.

Bit Rate / Distance
Bit CAN Bus
9600 3280' (999.7 m)
19200* 3280' (999.7 m)
57600 984' (299.9 m)
115200* 262' (80 m)
* not applicable for reverse network communication

Bit Rate / Jumper Settings (0 = OFF / 1 = ON)
Bit CIM Control Board

J9 J10 J11 J16 – 1 2 6
9600 0 0 1 0 0 0
19200 0 1 0 0 1 0
57600 1 0 0 0 0 1
115200 1 0 1 0 1 1

White Orange

Orange

Blue
White Blue

Ground

White Orange

Orange

Blue
White Blue

Ground

White Orange

Orange

Blue
White Blue

Ground

to network

Host PC with

Communication

Manager

- Control Board

- PC with network connection

- CIM

- NETCOM2P or NETCOM6P

- 10/100 Base-T Cable

- CAT 5 Cable – 2 twisted pairs

Parts List

Note - ensure the NETCOMP

version is a PC1051 or later
printed circuit board. The CIM is
not compatible with older
NETCOMP versions.

Keyscan Inc. – Technical Guide (PC109x - 04.15)

76

Network Communication via Optional NETCOM2

The NETCOM2 is a modular serial to TCP/IP converter that can be connected via a RS-232 data cable to the

CIM board for network communication. The CIM circuit board with the network connection is referred to as CIM

0. This CIM unit must have a jumper on J4.

Important

The NETCOM2 must be programmed with the Keyscan NETCOM Program Tool utility in order to function.

Refer to the NETCOM2 Programming Guide for programming instructions.

Multiple Building Communication on a WAN

Keyscan requires a point-to-point private network where NETCOMs are used on a LAN/WAN (TCP/IP) that

integrates building-to-building communication for a non-reverse network application.

Keyscan Inc. – Technical Guide (PC109x - 04.15)

77

Figure 52 – Network Connection with NETCOM2 Rev. B with Multiple CIMs/ACUs

CIM 0

Jumper ON J4

COMMON AUX INPUTS - E

17 18 19 20 21 22 23 24

IOCB (COM1)

RX
TX

CPB/CB COMMS

(COM4)

H2

COMMON AUX INPUTS - E

17 18 19 20 21 22 23 24

IOCB (COM1)

RX
TX

CPB/CB COMMS

(COM4)

TD1
RD1

TD2

RD2

GND

RTS
CTS

GND

RTS
CTS

B3 B2 B1 B0

Diag

J2

RESET

-

CAN2

+

EGND

-

CAN1

+

GND

V +
(+12V)

SCKT1

PC106x

J1

J7

J8

J6

J5

CAN2

CAN1

1 2 1 2 1 2 1 2

Rx-COM

COM

CAN CAN-Tx

J3

J4

J9

J12

Power

Good

Fault

HDR1

J10

J11

COMMON AUX INPUTS - E

17 18 19 20 21 22 23 24

IOCB (COM1)

RX
TX

CPB/CB COMMS

(COM4)

TD1
RD1

TD2

RD2

GND

RTS

CTS

GND

RTS

CTS

B3 B2 B1 B0

Diag

J2

RESET

-

CAN2

+

EGND

-

CAN1

+

GND

V +
(+12V)

SCKT1

PC106x

J1

J7

J8

J6

J5

CAN2

CAN1

1 2 1 2 1 2 1 2

Rx-COM

COM

CAN CAN-Tx

J3

J4

J9

J12

Power

Good
Fault

HDR1

J10

J11

TD1
RD1

TD2
RD2

GND

RTS
CTS

GND

RTS
CTS

B3 B2 B1 B0

Diag

J2

RESET

-

CAN2

+

EGND

-

CAN1

+

GND

V +

(+12V)

SCKT1

PC106x

J1

J7
J8

J6

J5

CAN2

CAN1

1 2 1 2 1 2 1 2

Rx-COM

COM

CAN CAN -Tx

J3

J4

J9

J12

Power

Good

Fault

HDR1

J10

J11

Black

Green

Red

CIM 0

CIM 1

CIM n

Slave

Global

Master

Termination Jumpers ON

J5 & J6 / J7 & J8

first & last CIM

Connect EGND
terminal on all

CIMs to ground

lugs in ACU
metal

enclosures.

Global Master

Jumper ON - J3

CAT 5

CAN Bus

Slave - Jumper OFF - J3

H2

H2

Shield*

to ACU

ground

lug

*Insulate shield with PVC tubing such as
Alpha (p/n PVC10516 16 AWG) or
comparable insulator.

RS-232 - 5 conductor
shielded 22 AWG cable

CAT 5

CAN Bus

Termination Jumpers ON

J5 & J6 / J7 & J8

first & last CIM

Slave

H1

Slave - Jumper OFF - J3

H1

H1

White Orange

Orange

Blue
White Blue

Ground

White Orange

Orange

Blue

White Blue

Ground

White Orange

Orange

Blue
White Blue

Ground

KI-00469E-10-14

12 VDC to DPS15

- RS-232 Data Cable

- Control Board

- PC with network connection

- CIM

- NETCOM2B

- 10/100 Base-T Cable

- CAT 5 Cable – 2 twisted pairs

Parts List

to network

10/100 Base-T cable

to network

Bit Rate / Jumper Settings (0 = OFF / 1 = ON)

Bit CIM Control Board

J9 J10 J11 J16 – 1 2 6 S2 – 2 3

9600 0 0 1 0 0 0 0 0

19200 0 1 0 0 1 0 1 0

57600 1 0 0 0 0 1 0 1
115200 1 0 1 0 1 1 1 1

Bit Rate / Distance
Bit CAN Bus RS-232

9600 3280' (999.7 m) 49.2' (14.9 m)

19200 3280' (999.7 m) 49.2' (14.9 m)
57600 984' (299.9 m) 26.2' (7.9 m)

115200 262' (80 m) 9.84' (3 m)

Note

CIM 0 / NETCOM6B does not support a
reverse network connection. CIM 0 requires
a NETCOM6P for reverse network.

Server with Keyscan

Communication Application/

Service

12VDC

+

-

RESET

GND

TD RD DTRDCD I/O

EGND

RS-232TD RD POWER

LEDsLEDs

PRO GRAM

PRO GRAM

S1

S2

O
N

12345

6

Black

Green

Red

Red (+)

Black (-)

Connect shield to enclosure

ground lug at one end of RS-232

cable. Cut shield off at other end
and ensure it is islolated.

If using shielded Ethernet

cable, connect EGND
terminal on NETCOM2B/6B

to enclosure ground lug.

S3

NETCOM2

Rev. B

Keyscan Inc. – Technical Guide (PC109x - 04.15)

78

CIM Diagnostic LEDs B3 – B0

LED

Trouble
Indication
Code

Fault

B3

B2

B1

B0

0 0 0 0 0

None

0 0 0 1 1

+ 5V logic voltage low

0 0 1 0 2

+ 12V input voltage low

0 0 1 1 3

+ 5V isolated logic supply low

0 1 0 0 4

CAN Bus 1 fault

0 1 0 1 5

Global broadcast fail

0 1 1 0 6

ACU panel initialize fail

0 1 1 1 7

CAN Bus 2 fault

1 0 0 0 8

CIM to ACU auto-match bit rate fail or incomplete

1 0 0 1 9

Data carrier detect (DCD) connection lost. Applies to reverse
network communication mode only.

The CIM unit has on-board diagnostic LEDS - B3 to B0 - designed to assist in troubleshooting communication

difficulties.

 diagnostic LEDs during boot-up - initial power or Reset J1
 data LEDs during operation are TX – transmit

Diagnostic Guidelines

LEDs B3 – B0 indicate TX data transmission states. Diagnostic Jumper J2 - sets the CIM board to run in

diagnostic mode.

CIM Diagnostics – LED Codes

The following table lists diagnostic LED codes on the CIM. LED indicators are as follows:

 0 = OFF
 1 = ON

Place a jumper on J2 to run the CIM in diagnostic mode.

Table 13 – CIM Diagnostic LED Codes

Note

Diagnostic mode indicated by all four (4) LEDs flashing three (3) times. Diagnostic codes are displayed

every 20 seconds. Multiple codes are displayed lowest to highest.

End of diagnostics routine is indicated when all four (4) LEDs flash three (3) times.

Unless Power Good/Fault LED is flashing, the unit will not enter unit diagnostics mode even if a jumper is

on J2.

Keyscan Inc. – Technical Guide (PC109x - 04.15)

79

Figure 53 - CIM Diagnostic LEDs - B3 - B0

Cut View

Diagnostic LEDs

& Diagnostic Jumper J2

KI-00268E-07-12

B3 B2 B1 B0

Diag

J2

1 2 1 2 1 2 1 2

Rx - COM COM

CAN

CAN - Tx

J3

J4

J9

J12

Power
Good

J10

J11

Fault
(Flashing)

CIM Boot-up

When power is applied to the CIM or the reset jumper J1 is momentarily shorted, the CIM module will

begin its boot-up sequence. The module uses the four (4) diagnostic LEDs to indicate where it is in the

boot-up sequence.

B3 – B0 Code

 1 to 4 – basic initialization notices
 5 (0101) – the CIM has entered NETCOMP program mode (LEDs will extinguish after approximately 1

second.)

 6 (0110) – the CIM has entered ACU connection mode (The LEDs may extinguish after 1 second if the CIM

can establish communication with the ACU quickly. The CIM may stay in this mode longer if it is auto­matching the bit rate of the ACU or is unable to communicate to the ACU via the global communication
port.)

 7 (0111) – the CIM has entered CIM 0 mode (It has been set to provide PC to CANBUS communication. (If

the bit rate has been set via jumpers J9 – J11, the CIM will extinguish the LEDs after approximately 1
second. If the CIM has been set for auto-match bit rate, the LEDs may extinguish after 1 second if the CIM
can establish communication with the ACU quickly. The CIM may stay in this mode longer if it is auto­matching the bit rate of the ACU or is unable to communicate to the ACU via the global communication
port.)

Keyscan Inc. – Technical Guide (PC109x - 04.15)

80

Power-up & Test Voltages

Power Supply Specifications

The DPS-15 power supply for CA & EC control boards is a dual power supply with two (2) linear DC outputs.

Each output is rated at 12 VDC – 1.2 Amperes.

Before making any power connections at the ACU, Keyscan recommends that you use the following two tables

and calculate the sum of the current demand for the devices drawing power from the ACU supply side and the

RDR AUX supply side ensuring that you do not exceed the DPS-15’s current capacity.

On CA8500B control boards, readers with higher current specifications may collectively exceed the capacity of

the DPS-15 RDR AUX supply. If this occurs, you require an additional power supply.

Do not connect the reader power wire (red) to the ACU supply side of the DPS-15.

Wiring Connections

Before connecting power at the ACU, be sure to observe the following points:

 verify the devices do not exceed the power supply ratings
 check the cable and wire connections
 ensure no short circuits exist when measuring voltages
 verify the DC polarity is correct for all equipment
 ensure backup battery is fully charged

Following the above guidelines ensures each device will function properly and not be damaged.

DPS-15 Dual Power Supply – Current Calculation

The DPS-15 power supply has two independent linear 1.2 Amp DC outputs – the ACU supply and the AUX RDR

supply. Use the following two tables for calculating the total current required from the ACU supply and the AUX

RDR supply. Please note the ACU supply and the AUX RDR supply each have an operational limit of 1000 mA.

ACU Supply – 1.2 A

Opposite Add-on Board #, enter the name of the module in the Product Description column and the board’s

current requirement in the Current Rating column. All Keyscan circuit board current ratings are listed near the

back of the technical guide on page 135. Current ratings are also labeled on the circuit boards. Add all the

current ratings including the control board to determine the total current. Keyscan recommends a 200 mA

reserve operating margin. The total current from the ACU supply, including the control board, should not

exceed 1000 mA.

Keyscan Inc. – Technical Guide (PC109x - 04.15)

81

Table 14 - ACU Supply - Current Calculation Table

ACU Supply

Product Description

Current Rating

Control Board (CA250B, CA4500B, CA8500B, EC1500B,
EC2500B)

130

mA

Add-on board #1

mA

Add-on board #2

mA

Add-on board #3

mA

Add-on board #4

mA

Add-on board #5

mA

Add-on board #6

mA

Add-on board #7

mA

Total current draw

mA

Maximum current draw

1000

mA

Model

mA

Quantity

Current Rating

Readers – type 1

x

=

mA

Readers – type 2

x

=

mA

Product Description

mA
Add-on board #1

mA

Add-on board #2

mA

Add-on board #3

mA

Add-on board #4

mA

Total current draw

mA

Maximum current draw

1000

mA

AUX RDR Supply – 1.2 A

Opposite readers, enter the model, the current rating multiplied by the number of readers and the total

current. Refer to the reader tables in the appendices for current ratings.

Opposite Add-on Board #, enter the name of the module in the Product Description column and the board’s

current requirement in the Current Rating column that are to be powered from the AUX RDR supply on the

DPS-15. Keyscan recommends a 200 mA reserve operating margin. The total current required from the AUX

RDR supply should not exceed 1000 mA.

Table 15 - AUX RDR Supply - Current Calculation Table

Keyscan Inc. – Technical Guide (PC109x - 04.15)

82

System Power-up

The following is a guideline to follow on initially powering up the control board.

 connect 12 VDC power to the control board as shown in Figure 54 – Power Supply Wiring
 connect fully-charged backup battery
 connect 2 x 16V 40VA or 16.5V 37VA class 2 transformers - ensure that both CSA/UL approved

transformers and fully-charged backup battery are connected for proper system operation - do not mount
the transformers or bring 120/240 VAC inside the ACU metal enclosure

 repeat battery and transformer connections for additional power supplies
 check ACU voltage test points after power is applied to the ACU - refer to Table 16 and Table 17.
 if software selection S2 switches 9 and 10 were altered, load factory default settings by pressing S1, wait

5 seconds, and then press S3 within 10 seconds.

 upload the database to the ACUs after all correct voltage and current measurements are verified - refer to

the Client on-line help

Notes

For battery circuit and auxiliary power output to function, two (2) transformers must be connected.

Keyscan Inc. – Technical Guide (PC109x - 04.15)

83

Figure 54 – Power Supply Wiring

Primary

110 VAC

ACU 16V 40VA

or

ACU 16.5V 37VA

Transformer

Primary

110 VAC

ACU 16V 40VA

or

ACU 16.5V 37VA

Transformer

12V

Battery

(fully-charged)

+

-

Black

Red

ACU Ground

Lug

DPS-15

Dual Power Supply

Secondary

AC

AUX/RDR

PSC1

AUX/RDR

AC

AC

ACU

AC

BATT

AUX/RDR + 12V

- +

PSC1

ACU

AC AC

AUX/RDR

FAIL - +

EGND

ACU

FAIL- +

ACU + 12V

Secondary

Connect to PSC1

on control board.

Connect to PSC1 on

DPS15.

READER PWR

FAIL

-

+

ACU PWR

FAIL

­+

READER 8

PC109x

Control Board

Keyscan p/n

- CAS6105

CAS6105 Cable

Use Keyscan p/n CAS6105 plug-in cable included with
DPS15 to connect control board with power supply.
Diagram shows cut view of CA 8000 control board. The
PSC1 terminal is in the same location on all CA & EC
control boards.

Note

The CAS6105 cable can only be plugged into the PSC1
terminal when aligned in the correct orientation.

Keyscan p/n

- CAS6101 &

- CAS6102

KI-00192E-01-12

Important

The PC109x control board emits an intermittent beep if:
A) a back-up battery is not connected
B) two (2) transformers are not connected

Do not

mount the

transformers

inside the

ACU metal

enclosure.

Keyscan Inc. – Technical Guide (PC109x - 04.15)

84

Control Board Voltage Test Points

Board Test Point

Voltage

Instructions/Notes

Reader Terminal

D1 WHT

(+) 5 VDC

White data 1 – if reader connected

D0 GRN

(+) 5 VDC

Green data 0 – if reader connected

PWR RED

(+) 12VDC

Red DC out

TP1

(+) 13.5 VDC

Reader power

TP2

(+) 13.5 VDC

ACU power

TP3

(+) 13.5 VDC

ACU power after circuit protector

TP4

(+) 5 VDC

TP5

(+) 3.3 VDC

Input Points

Input points with open circuit

(+) 5 VDC

Input points shorted to common
return

0 VDC

The following table lists correct voltages for the control board’s test points. Be sure to review the notes

opposite the appropriate voltage test points to comply with proper measuring techniques.

Voltmeter Connections

 Voltmeter set to VDC
 V-Ω (ohms) to test points
 Com to ground lug in metal enclosure

Table 16 – Control Board Test Points - Voltages

Keyscan Inc. – Technical Guide (PC109x - 04.15)

85

Figure 55 – Control Board Test Points – Voltages

READER PWR

ACU PWR

+

FAIL

+

FAIL

TP1

TP2

TP3

TP4

TP5

Cut View

PC109x

Control Board

ACU
Protective
Cover

Test Point Voltages

TP1: +12V Reader
TP2: +12V ACU
TP3: +12V ACU Fused
TP4: +5V
TP5: +3.3V

KI-00193E-04-13

GND

S4

1 2

O

N

Keyscan Inc. – Technical Guide (PC109x - 04.15)

86

Test Points – Communication Terminals

Communication Test Point

Voltage

Instructions/Notes

CA / EC Communication Terminal

RS-232 connected to ACU

Connect voltmeter COM to GND on ACU communication
terminal block or green on data cable.
GND

TD

(-) 9 VDC

TD is an ACU generated voltage

RD

(-) 10 VDC

RD is a PC generated voltage

DCD

DTR

n/a

CTS

n/a

GND

RS-232 (COM4)

Control Board

(PC 109x)

TD

RD

DCD

DTR

CTS

IOCB (COM1)

RX
TX

KI-00194E-07-11

The following table outlines the correct voltages for the test points on the communication terminal on the CA

or EC control board.

Table 17 – Communication Voltage Test Points

Figure 56 – Control Board Communication Test Points

Keyscan Inc. – Technical Guide (PC109x - 04.15)

87

Communication Diagnostics

All CA & EC Control Boards

LED

State of LED

Notes

TD 1 - Green

Flashing – normal

If IOCB function disabled in Client software, main processor sending data
to on-board supervised inputs processor only

If IOCB function enabled in Client software, main processor sending data
to on-board supervised inputs processor and IOCB modules connected to
TB2

Not Illuminated – abnormal
condition

Follow restore factory defaults S3 procedure in attempt to resolve.

Illuminated – abnormal
condition

Follow restore factory defaults S3 procedure in attempt to resolve.

RD 1 - Red

Flashing – normal

If IOCB function disabled in Client software, main processor receiving
data from on-board supervised inputs processor only

If IOCB function enabled in Client software, main processor receiving
data from on-board supervised inputs processor and IOCB modules
connected to TB2

Not Illuminated – abnormal
condition

Follow restore factory defaults S3 procedure in attempt to resolve

Illuminated – abnormal
condition

Follow restore factory defaults S3 procedure in attempt to resolve

TD 2 – Green

Flashing – normal

Control board sending global, inter-panel communication data to CIM
module connected to H2 header

Not Illuminated

If CIM module not connected to H2 header

If CIM module not communicating

Illuminated – abnormal
condition

Follow restore factory defaults S3 procedure in attempt to resolve

RD 2 – Red

Flashing – normal

Control board receiving data from CIM module connected to H2 header
for global, inter-panel communication

Not Illuminated -

If CIM module not connected to H2 header

If CIM module not communicating

Illuminated - abnormal
condition

Possible fault on CIM module

Possible wiring fault

The PC109x control boards have communication status LEDs and a system status LED, which indicate the

current communication status.

For CIM diagnostic LEDs, refer to page 78.

Communication Status LEDs

The CA250B, CA4500B, CA8500B, EC1500B, EC2500B, CB-485, and CPB-10-2 have communication LEDs for

diagnostics and troubleshooting. The table below outlines the LED and its diagnostic function. When calling

Keyscan technical support, indicating the LEDs state assists our technicians in isolating potential difficulties.

Table 18 – Communication Status LEDs

Keyscan Inc. – Technical Guide (PC109x - 04.15)

88

TD 3 – Green

Flashing - normal

Control board sending Client/Communication Mgr. communication data to
CIM module connected to H2 header

Not Illuminated

If CIM module not connected to H2 header

If the control board is not communicating with the Client/Communication
Mgr.

If the Client/Communication Mgr. is communicating with the control
board using COM4

Illuminated - abnormal
condition

Follow restore factory defaults S3 procedure in attempt to resolve

TD 3 – Red

Flashing - normal

Control board receiving Client/Communication Mgr. communication data
from CIM module connected to H2 header

Not Illuminated

If CIM module not connected to H2 header

If the control board is not communicating with the Client/Communication
Mgr.

If the Client/Communication Mgr. is communicating with the control
board using COM4

Illuminated - abnormal
condition

Possible fault on CIM

Possible wiring fault

TD 4 – Green

Flashing – normal

Control board sending data via communication path determined by S2 –
switches 7 & 8 to Client/Communication Mgr.

Not Illuminated

If CIM module connected to H2 header for communication with the
Client/Communication Mgr. software

If Client/Communication Mgr. not polling the control board

If S2 – switches 7 & 8 are configured for on-board NETCOMP
programming

Illuminated – abnormal
condition

Follow restore factory defaults S3 procedure in attempt to resolve

RD 4 – Red

Flashing – normal

Control board receiving data via communication path determined by S2 –
switches 7 & 8 from Client/Communication Mgr.

Not Illuminated

If CIM module connected to H2 header for communication with the
Client/Communication Mgr. software

If Client/Communication Mgr. not polling the control board

If S2 – switches 7 & 8 are configured for on-board NETCOMP
programming

Illuminated – abnormal
condition

Possible fault on module connected to H1 header

Possible wiring fault

LED states listed above are during normal CA or EC control board operation and do apply in other modes such clearing
memory. COM4 LEDs functions are dependent on the configuration of S2 – switches 7 & 8.

Keyscan Inc. – Technical Guide (PC109x - 04.15)

89

Figure 57 - Communication LEDs - CA & EC Control Boards

LED
Color/State

System Status

Red – solid

The main processor is held in reset and not operating. This can be caused when S1 is depressed or the
main processor supervisory circuit’s critical PCB voltages are not within normal operating parameters. The
on-board piezo emits a steady tone while in this mode.

Red – flashing

The CA or EC control board is in clear memory mode. The on-board piezo emits a cycle of 2 short beeps
and then a pause while the control board is in this mode.

Amber – solid

The CA or EC control board has not communicated to the Client software since its last system reset or
clear memory.

Amber - flashing

The CA or EC control board’s last communication with the Client software was 3 minutes or greater.

Green – solid

The CA or EC control board has communicated to the Client software since its last system reset or clear
memory.

COMMUNICATION STATUS

TD1 RD1 TD2 RD2 TD3 RD3 TD4 RD4

READER 1READER 2READER 3READER 4READER 5

CONTROL 2

CONTROL 5

CONTROL 3

ACU Protective

Cover

Cut View of

CA8500B

COM LEDs are in the same

location on all CA & EC

control boards.

Location of COM LEDs

KI-00188E-04-13

S1

S2

S3

O

N

1 2 3 4 5 6 7 8 9 10 11 12

System Status LED

The system status LED is multi-color – red, amber and green – indicating the current system status as

outlined. The control board also has a piezo that beeps under certain LED states.

Table 19 - System Status LED

Keyscan Inc. – Technical Guide (PC109x - 04.15)

90

Figure 58 - Location of System Status LED

PSC1

READER PWR

SYSTEM STATUS

ACU Protective Cover

System Status LED

KI-00191E-04-13

ACU PWR

+

FAIL

+

FAIL

Cut View

PC109x Control Board

S4

1 2

O

N

COMMUNICATION STATUS

TD1 RD1 TD2 RD2 TD3 RD3 TD4 RD4

READER 1READER 2READER 3READER 4READER 5

CONTROL 2

CONTROL 5

CONTROL 3

Protective ACU Cover

Cut View of

CA8500B

KI-00147E-04-13

READER 6

CARD

BITS

10s 1s

Wiegand
Bit Counter
LEDs

S1

S2

S3

O

N

1 2 3 4 5 6 7 8 9 10 11 12

Card Diagnostics - LED Wiegand Bit Counters

CA & EC control boards have LED Wiegand bit counters – 10s and 1s – to determine card binary bits. You must

be able to observe the control board to do this procedure. To verify the binary bits, present the card or tag at

the reader and count the number of times each LED blinks.

 10s count the 1
 1s count the 2

st

binary digit

nd

binary digit

Example

If the 10s LED blinks 3 times and the 1s LED blinks 6 times, the card has 36 binary bits (36-bit Wiegand

card).

Keyscan Inc. – Technical Guide (PC109x - 04.15)

Figure 59 – Location of Wiegand Bit Counter LEDs

91

Appendix A – Keyscan &

Reader

Power

Notes

K-PROX2 & K-PROX SG(125 KHz
compatible)

12 VDC, 80 mA
K-VAN

12 VDC, 90 mA

K-KPR

12 VDC, 115 mA

K-SMART (13.56 MHz)

12 VDC, 210 mA

K-SMART GOV

12 VDC, 210 mA

HID-5365

12 VDC, 110 mA

HID-5395

12 VDC, 115 mA

HID-6005

12 VDC, 75 mA

HID-5455

12 VDC, 125 mA

HID-5355KP

12 VDC, 120 mA

HID 5375

24 VDC, 1.5 A

Requires 18 AWG cable. Connect to separate 24 VDC 2
Amp linear power supply. (Not supplied with ACU)

HID iClass R90 – Long Range Reader

12 VDC, 1300 mA
24 VDC, 700 mA

HID iClass Legacy

HID Base Part #

KR10L

12 VDC, 60 mA

900N

KR40L

12 VDC, 65 mA

920N

KRK40L

12 VDC, 85 mA

921N

HID Readers

Appendix A reviews typical connections for Keyscan and HID readers. Wiring diagrams are on the following

pages. Refer to the appropriate diagram for specific reader connections. Be sure to use a cable that complies

with the reader’s wiring specifications.

Ensure that the total current draw of all readers connected to the control board’s reader terminals is within the

limit of the DPS-15 power supply; otherwise, you will require a separate power supply. Refer to the section -

DPS-15 Dual Power Supply – Current Calculation on page 80. Some readers require an independent power

supply as noted in the table.

Power Specifications

The following table outlines reader power specifications:

Table 20 – Keyscan & HID Reader Power Specifications

Keyscan Inc. – Technical Guide (PC109x - 04.15)

92

Reader

Power

Notes

HID multiClass Legacy

KRP10L

12 VDC, 75 mA

900P

KRP15L

12 VDC, 75 mA

910P

KRP40L

12 VDC, 85 mA

920P

KRPK40L

12 VDC, 95 mA

921P

HID pivClass Legacy

R10HGOV

12 VDC, 60 mA

900NHR

RP10HGOV

12 VDC, 75 mA

900PHR

R15HGOV

12 VDC, 60 mA

910NHR

RP15HGOV

12 VDC, 75 mA

910PHR

R40HGOV

12 VDC, 65 mA

920NHR

RP40HGOV

12 VDC, 85 mA

920PHR

RK40HGOV

12 VDC, 85 mA

921NHR

RPK40HGOV

12 VDC, 95 mA

921PHR

HID iClass SE

KR10SE

12 VDC, 60 mA

900N

KR40SE

12 VDC, 65 mA

920N

KRK40SE

12 VDC, 85 mA

921N

HID multiClass

KRP10SE

12 VDC, 75 mA

900P

KRP15SE

12 VDC, 75 mA

910P

KRP40SE

12 VDC, 85 mA

920P

KRPK40SE

12 VDC, 95 mA

921P

Installation Notes on Proximity Readers

Do not run reader cables in same conduit with AC power or signal cables. Keep reader cables at least 12 inches

or 30 centimetres from AC, computer data, telephone data, or electric lock device cables. Do not install

readers within 3.5 feet or 1.1 metres of computer CRTs. Do not install readers where broad spectrum EMI

noise may be present. Motors, pumps, generators, and AC switching relays can create EMI noise. Readers

mounted on a metal surface can have reduced read ranges. See HID manual for operational details and

recommendations. The following diagrams illustrate HID readers with dual LEDs. On models 5365, 5395, and

Keyscan Inc. – Technical Guide (PC109x - 04.15)

93

6005 do not use the brown wire with "00" LED. If readers are single LED type "06", substitute the brown wire

in place of the orange wire.

 S16 – 5 ON dual LED = 00
 S16 – 5 OFF single LED = 06

C1 Beep

When the pre-alert wire is connected to C1 (Beep) on the reader terminal, the reader will also sound on

an “alarm tripped”.

Keyscan Inc. – Technical Guide (PC109x - 04.15)

94

LED (Brown)

D1 (White)

D0 (Green)

PWR (Red)

GND (Black)

Shield not connected.

Isolate with electrical tape.

6 conductors - shielded 22 AWG
Maximum 500 ft (152.4 m)

Shield

ACU
Ground
Lug

D1 (White)

D0 (Green)

PWR (Red)

GND (Black)

LED (Brown)

Reader terminal on control board

Blue used for pre-alert otherwise isolate and tape back.
If connecting external sound device, see Pre-Alert
Relay Option in Technical Guide.

Orange not used. Isolate and tape back.

KEYSCAN

Pre-alert (Blue)

Shield not connected.

Isolate with electrical tape.

Pre-alert (Blue)

K-PROX2 shown with ABS wall switch plate.

LED D1

WHTD0GRN

PWR

RED

GND

BLK

C1

(BEEP)

KI-00197E-08-12

Figure 60 – Keyscan K-PROX2 (125 kHz)

Keyscan Inc. – Technical Guide (PC109x - 04.15)

95

LED (Brown)

D1 (White)

D0 (Green)

PWR (Red)

GND (Black)

Shield not

connected at

reader.

Isolate with

electrical tape.

Shield

ACU

Ground

Lug

D1 (White)

GND (Black)

LED (Brown)

PWR (Red)

D0 (Green)

Pre-alert (Blue)

Pre-alert (Blue)

6 conductors - shielded 22 AWG
Maximum - 500 feet (152.4 m)

Orange wire
not used.
Isolate & tape
back.

Orange

Reader terminal on control board

LED D1

WHTD0GRN

PWR

RED

GND

BLK

C1

(BEEP)

Blue used for pre-alert otherwise
isolate and tape back.
If connecting external sound device,
see Pre-Alert Relay Option or refer to
ACU cut sheet enclosed with panel
for ACU/OCB8 relay assignments.

KI-00198E-07-13

Figure 61 – Keyscan K-VAN Proximity Reader (125 kHz)

Keyscan Inc. – Technical Guide (PC109x - 04.15)

96

LED (Brown)

D1 (White)

D0 (Green)

PWR (Red)

GND (Black)

Shield not

connected at

reader.

Isolate with

electrical tape.

Shield

ACU

Ground

Lug

D1 (White)

GND (Black)

LED (Brown)

PWR (Red)

D0 (Green)

Keypad – 8 Bit Burst Format

1 2 3
4 5 6

7 8 9

0*#

Pre-alert (Blue)

Pre-alert (Blue)

6 conductors - shielded 22 AWG

Maximum - 500 feet (152.4 m)

Orange wire not used.
Isolate & tape back.

Orange

Diagram applies to
PC109x or newer
control board.
For Rev 10 or older
control boards, an
optional KKI-KPR
interface card is
required.

Reader terminal on control board

LED D1

WHTD0GRN

PWR

RED

GND

BLK

C1

(BEEP)

Blue used for pre-alert otherwise
isolate and tape back.
If connecting external sound device,
see Pre-Alert Relay Option or refer to
ACU cut sheet enclosed with panel
for ACU/OCB8 relay assignments.

KI-00199E-07-13

Figure 62 – Keyscan K-KPR Keypad / Proximity Reader (125 KHz)

Keyscan Inc. – Technical Guide (PC109x - 04.15)

97

Figure 63 – Keyscan K-SMART Reader

LED (Brown)

D1 (White)

D0 (Green)

PWR (Red)

GND (Black)

Shield not connected.

Isolate with electrical tape.

Shield

ACU

Ground

Lug

D1 (White)

D0 (Green)

PWR (Red)

GND (Black)

LED (Brown)

Orange (Tamper)

- when using an optional Tamper Switch (Normally
Closed) locally at reader, connect to GND Black
wire.

- when not using Tamper Switch, connect to GND
black wire at reader.

Yellow not used.
Isolate and tape back.

KEYSCAN

Purple (Read Mode)

- when not connected, read mode set for secure
sector read only. Isolate and tape back. (This is
the recommended mode which offers higher
security.)
– when connected, read mode set for secure
sector or CSN. If secure sector unrecognized,
subsequently reads the CSN sector of card.
Connect to GND Black wire at reader.

Purple

Pre-alert (Blue)

Orange

Shield not connected.

Isolate with electrical tape.

Pre-alert (Blue)

Optional Wiring

K-SMART Versions

- K-SMART

- K-SMART GOV

6 conductors – shielded 22 AWG
Maximum 500 ft (152.4 m)
May require 2 additional conductors
if using external pre-alert device.

Blue used for pre-alert
otherwise isolate and tape
back.
If connecting external
sound device, see Pre-Alert
Relay Option or refer to
ACU cut sheet enclosed
with panel for ACU/OCB8
relay assignments.

Yellow

Reader terminal on control board

LED D1

WHTD0GRN

PWR

RED

GND

BLK

C1

(BEEP)

KI-00200E-06-12

Keyscan Inc. – Technical Guide (PC109x - 04.15)

98

LED (Orange)

D1 (White)

D0 (Green)

PWR (Red)

GND (Black)

Shield not
connected.
Isolate with electrical
tape.

6 conductors - shielded 22 AWG

Maximum - 500 ft (152.4 m)

HID-5395

with

00 LED

Example 5395CG100

Shield

ACU

Ground

Lug

D1 (White)

D0 (Green)

PWR (Red)

GND (Black)

LED (Orange)

Reader terminal on control board

LED D1

WHTD0GRN

PWR

RED

GND

BLK

C1

(BEEP)

Pre-alert

(Yellow)

Pre-alert

(Yellow)

Yellow (Beeper) used for pre-alert
otherwise isolate and tape back.
If connecting external sound device,
see Pre-Alert Relay Option or refer to
ACU cut sheet enclosed with panel
for ACU/OCB8 relay assignments.

Note - If Pre-alert is connected,
the reader cannot read any
HID 125 kHz-compatible card
during the pre-alert beep.

KI-00201E-07-11

Figure 64 – HID-5395 Wiring

Keyscan Inc. – Technical Guide (PC109x - 04.15)

99

LED (Orange)

D1 (White)

D0 (Green)

PWR (Red)

GND (Black)

Shield not

connected.

Isolate with electrical

tape.

6 conductors shielded 22 AWG

Maximum - 500 ft (152.4 m)

HID-5365
HID-6005

with 00 LED

Examples

5365EGP00

or

6005BGB00

Shield

ACU

Ground

Lug

D1 (White)

D0 (Green)

PWR (Red)

GND (Black)

LED (Orange)

Reader terminal on control board

LED D1

WHTD0GRN

PWR

RED

GND

BLK

C1

(BEEP)

Pre-alert

(Yellow)

Pre-alert (Yellow)

Yellow (Beeper) used for pre-alert
otherwise isolate and tape back.
If connecting external sound device,
see Pre-Alert Relay Option or refer to
ACU cut sheet enclosed with panel
for ACU/OCB8 relay assignments.

Note - If Pre-alert is connected,
the reader cannot read any
HID 125 kHz-compatible card
during the pre-alert beep.

KI-00202E-07-11

Figure 65 – HID 5365 / 6005 Wiring

Keyscan Inc. – Technical Guide (PC109x - 04.15)

100

Figure 66 – HID 5355 Wiring

Shield not connected.
Isolate with electrical tape.

Shield

ACU Ground

Lug

Red

+

VDC

Black

to separate DC

power

supply

6 conductors shielded 22 AWG

500 ft (152.4 m) maximum

Reader terminal on control board

LED D1

WHTD0GRN

PWR

RED

GND

BLK

C1

(BEEP)

LED

D1 (White)

D0 (Green)

PWR (Red)

GND (Black)

Pre-alert (Yellow)

D1 (White)

D0 (Green)

PWR (Red)

GND (Black)

LED

Pre-alert

(Yellow)

Yellow (Beeper) used for pre-alert
otherwise isolate and tape back.
If connecting external sound device,
see Pre-Alert Relay Option or refer to
ACU cut sheet enclosed with panel
for ACU/OCB8 relay assignments.

Note - If Pre-alert is connected,
the reader cannot read any
HID 125 kHz-compatible card
during the pre-alert beep.

KI-00203E-07-11

Notes on HID 5355

The HID 5355 is suitable for indoor and outdoor use. Maximum read range at 12VDC – ProxCard II card is

9" (22 cm) – ISO ProxII card is 8" (20 cm).

Keyscan Inc. – Technical Guide (PC109x - 04.15)