Cooper 9930, 9940, Menvier 9651 User Manual

9651 Hardwired Control Unit Ins tallation Guide

This document applies to control panels using soft war e versi on 4.x.

© Cooper Security Ltd. 2005

Every effort has been made to ensure that the content s of this book are correct. However, neither the author s nor Coo per Securi ty

Limited accept any liability for loss or damage caused or alleged to be caus ed dire ct ly or indir ectl y by this book. The cont ents of this book

are subject to change without notice.

Printed and published in the UK.

497283 Issue 1 Page i

Contents

1. INTRODUCTION..........................................................................................1

About this Manual ................... .... ................................... .................................... .......................................... 1

Features of the Control Unit........ ................................... .................................... .......................................... 2

Elements of the IAS ........................ .... ....... .... .... .... .... ........ .... .... .... .... .... ........ .... .... .... .... .... ................ ..........3

9930 and 9940 Keypads .............................. .................................... .................................... ......................4

ScanProx Proximity Tag Reader...................................... .... .................................... ..................................4

User Control ................................. ................................... .................................... ......................................5

2. TECHNICAL DESCRIPTION.......................................................................7

Control Unit Specification....................................... .... .... .... .... ........ .... .... .... .... .... .... .... ........ ........ ..................7

General............. ................................... .... .................................... ................................................ ..............7

Power Supply ................................... .... ................................... .................................... ..............................7

Outputs ......................... ....................................... .................................... ............................................... ...8

Inputs.................... ................................... ........................................ ............................................... ...........8

Fuses................ ....................................... .................................... ................................................ ..............8

Compatible Equipment............................................... .................................... ............................................ ..9

Control Unit PCB Layout......... ................................... .................................... ............................................ 10

3. INSTALLATION......................................................................................... 11

Overview..................... ................................... .................................... ................................................ ........11

Cabling for Keypads........................................................... .... ........ .... .... .... .... .... ........ .... .... ............ ............12

Fitting the System ....... .................................... ................................... ................................................ ........13

Fitting the Control Unit Case................ .................................... .................................... ............................13

Fitting a 9940 Keypad........... ....................................... .................................... ........................................ 13

Fitting a 9930 Keypad........... ....................................... .................................... ........................................ 14

Fitting the ScanProx 934 Module................. .................................... .................................... ....................15

Wiring the Control Unit............ ................................... .... .................................... ........................................ 16

Cable Entries ........ .................................... ... .................................... ................................................ ........16

Mains Connection ......................... ................................... .... .................................... ................................16

Keypads........................................ .... ................................... .................................... ................................17

Connecting Sounders .............................. .................................... .................................... .... ....................18

Connecting Detector Circuits to the Main PCB ................ .... .................................... ................................20

Programming Outputs.......................................... .... .... .... .... ........ .... .... .... .... ........ .... .... .... .... ................ ....22

Wiring Keyswitches.......................................... .... .................................... ................................................ 23

Communicator .... .................................... ....................................... ................................................ ............25

Fitting a Battery................................... ................................... .................................... ................................27

Initial Start Up . .................................... ....................................... ............................................ .... ................28

4. PROGRAMMING ....................................................................................... 29

Introduction ............................. ....................................... .................................... ........................................ 29

Operating Modes ...... ....................................... .................................... ................................................ ....29

Entering Installer Mode..... ................................... .................................... ............................................ ....30

Using Programming and Testing Commands .......... .................................... .... ................................... .....30

Leaving Installer Mode................................. ........................................ ............................................ ........30

Restoring Default Access Codes (first stage reset)...................................... .................................... ........31

Performing an Engineer Reset..................... .... .... .... ........ .... .... .... .... .... ........ .... .... .... .... .... ........ ............ ....31

Restoring Default Command Settings...................... .................................... ........................................ .... 32

Adding and Deleting Tags............................................................ ........................................ ....................32

Programming Commands ...................... ........................................ .................................... ........................34

Testing Commands......................... ................................... .... .................................... ................................ 72

90: Reading the Event Log ....... ................................... ........................................ .................................... 72

91 to 96: Testing Outputs......................................................... .... .................................... ........................75

97: Engineer Walk Test ........ ................................... ........................................ ........................................ 75

199: Display Zone Circuit Resistance ... ............................... .... .................................... ............................76

System Configurations (Dd243 Kit Only)................................ .................................... ................................77

DD243: 2004 Compliance........................ .................................... .................................... ........................77

PD 6662 / prEN 50131-1: 2004 Compliance .................... .................................... .... ................................ 78

Programming Commands Quick Reference..............................................80

Index.............................................................................................................. 87

Contents 9651

Page ii 497283 Issue 1

List of Figures

Figure 1. Elements of an Intruder Alarm System........................................... .................................... ...........3

Figure 2. 9930 and 9940 Keypads . .... ................................... .................................... .... ...............................4

Figure 3. Control Unit PCB Layout................ .................................... .................................... .....................10

Figure 4. Backplate of the 9940 Keypad .... ................................... .................................... .........................13

Figure 5. Backplate of the 9930 EUR Keypad............................... .................................... .........................14

Figure 6. Fitting a 934 Module (over the keypad)...... .................................... ................................... ..........15

Figure 7. Fitting a 934 Module (in position) ...... .................................... .................................... .................15

Figure 8. Securing lug on 934 module ...................................... .... .................................... .........................15

Figure 9. Mains Connection .............. .................................... .................................... .................................16

Figure 10. Keypad Connections.................... ........................................ .................................... .................17

Figure 11. 9940 Panic Attack Connections ........................... ........................................ .............................17

Figure 12. Keypad Addressing.................. .................................... ........................................ .....................18

Figure 13. Sounder Connections ....... ....................................... .................................... .............................18

Figure 14. CCL Connections (common tamper)............ .................................... .................................... ..... 20

Figure 15. FSL Connections .......... ....................................... .................................... .................................21

Figure 16. Colour Code for FSL Resistors .... .................................... .................................... .....................21

Figure 17. Wiring Examples for Open Collector Outputs................... .................................... .....................22

Figure 18. Connecting a Keyswitch....................................... .................................... .................................23

Figure 19. Connecting a 9928 Keyswitch Interface ........... .... .................................... .................................23

Figure 20. Plug-By Communicator Wiring ............. .................................... .................................... .............25

Figure 21. Fitting a Plug-by Communicator....... .................................... ........................................ .............26

Figure 22. Fitting Control Unit PCB ............................... .................................... ......................................... 26

Figure 23. Fitting a Battery........................ .................................... .................................... .........................27

Figure 24. Sensitive Area on 9930 Keypad for Tag....................................... .................................... .........32

497283 Issue 1 Page 1

1. INTRODUCTION

About this Manual

This manual is divided into four chapters:

1. Introduction: this describes the parts of an Intruder Alarm System (IAS)

based on the 9651 control unit.

2. Technical description: this defines the operating parameters of the different

parts of the system.

3. Installation: this explains the tasks involved in installing an IAS using the

9651 control unit.

4. Programming: this explains how to enter and exit programming, and lists

the commands available to the installer.

The control unit is designed to be fully programmable to suit individual user

and site requirements. Installers can program units from the keypad, entering

instructions using the three-digit commands described in Programming.

Not all commands listed in the Programming section are available with the

basic 9651EN-xx. Commands showing the words “(DD243 kit only)” are

available on the DD243 upgrade chip - see the next page.

1. Introduction 9651

Page 2 497283 Issue 1

Features of the Control Unit

The control unit provides:

° On-board connections for 8 Fully Supervised Loop (FSL) zones or 8

Closed Circuit Loop (CCL) zones with a common tamper.

° Connections for 3 fully programmable panel outputs.

° A 4-wire bus for keypads.

° Internal sounder loudspeaker output with Chime, Alarm, Fire and Entry/Exit

tones (the volume of the Entry/Exit and Chime tones can be adjusted).

° 8 programmable plug-by outputs (for connecting a standalone

communication device).

° Alarm Abort and Alarm Confirmation outputs (to reduce the likelihood of

false alarms).

° Fully programmable operation for zones and levels.

° Installer-programmable Engineer Code.

° Support for up to 50 separate users.

User facilities include:

° 4 different security levels, which can be programmed by the Installer as a

full set and 3 part sets.

° Proximity tag reader for setting and unsetting the system.

° Dual key alarms from the keypads (Panic Alarm, Medical and Fire).

° Remote Panic Alarm input to 9940 keypad.

° User-programmable Duress Code.

Test facilities include:

° 700-entry event log.

° Output test commands.

° Engineer walk test command.

Cooper Security Ltd supplies two variants of the software:

° Standard software, supplied with 9651xx-xx control unit. This software

provides EN51031 compliance.

° DD243 upgrade kit. This kit provides enhanced software on a replaceable

chip that enables the Installer to program the 9651 to be compliant with

DD243.

9651 1. Introduction

497283 Issue 1 Page 3

Elements of the IAS

An IAS comprises a control unit in a shielded case, with 1 to 4 separate

keypads and various detectors or other devices, for example keyswitches,

connected to programmable zones.

The control unit has eight zone connectors on its printed circuit board (PCB).

Figure 1 shows how these elements are connected. In this example, the

control unit (1) is directly connected to 6 detectors (3) and 2 door contacts (4).

There are 4 keypads (2) on the bus.

1 - Control unit 4 - Door contacts

2 - Keypads 5 - fused mains spur

3 - PIRs

Figure 1. Elements of an Intruder Alarm System

1. Introduction 9651

Page 4 497283 Issue 1

9930 and 9940 Keypads

AB CD

123

456

7890

Figure 2. 9930 and 9940 Keypads

The control unit supports the connection of 9930 and 9940 keypads. The

9940 is the later replacement for the 9930, and offers smaller size, a built-in

wide-area proximity reader and connections for an external panic alarm

switch. Both have a two-line 16-character Liquid Crystal Display (LCD) that

can display alarm information, programming settings and other information.

There are three LEDs that have the following functions.

Note: Depending on how the system is set up, the LEDs may not operate until

a user code is presented.

Alert lamp – Flashes to highlight unacknowledged alert, glows for

acknowledged conditions, and goes out when all conditions have

been rectified.

s Service lamp – Glows if the system needs an installer reset.
a

Mains lamp – Glows when using mains power. Flashes when using

the stand-by battery.

ScanProx Proximity Tag Reader

The ScanProx 934EUR-50 proximity reader module enables you to convert

9930 keypads into proximity tag readers. The module fits onto connector pins

on the keypad PCB, near the display module (Figure 6).

Once the ScanProx module is fitted, users can operate the alarm system by

presenting a tag to the front of the keypad instead of keying in an access

code.

9930 Keypad

9940 Keypad

9651 1. Introduction

497283 Issue 1 Page 5

User Control

The control unit provides 50 independent User access codes and a separate

Duress Code. Users can change these codes at any time but cannot use

them to program the system. During installation, the Installer can select

whether access codes use four or six digits.

Users can set only one level at a time. Level A sets the whole system. Levels

B, C and D set parts of the system. The Installer allocates zones to levels, but

all keypads operate the entire system. There is only one sounder output for

the whole system, and you can use a loud-speaker for setting tones and local

alarms. All users belong to the whole system.

1. Introduction 9651

Page 6 497283 Issue 1

(This page is intentionally blank.)

497283 Issue 1 Page 7

2. TECHNICAL DESCRIPTION

Control Unit Specification

General

Environmental Class 2

Security EN50131-1 or PD6662 Grade 2

Operating temperature -10° to +55°C

Humidity 96% RH

Dimensions 235mm W, 245mm H, 90mm D

Weight 3.3 kg

Internal Clock ±10 minutes over one year (depending on the

accuracy of the mains supply frequency).

Suitable for use in a system that is designed to comply with EN50131-1,

ACPO-IAS Pol icy, NSI NAC P14.

Power Supply

All currents accurate to ±5%.

Mains power supply 230VAC +10%/-15%, 200mA max, 50Hz ±5%

System power supply 13.8VDC, 1.0A

Battery charge current limit 250mA

To comply with the requirements of EN50131, the total current taken from the

power supply, not including the battery recharge current, but including

auxiliary outputs and other devices, must not exceed 750mA.

Nominal power requirements (DC):

9651 130mA quiescent, 220mA active

9930 20mA quiescent, 35mA backlight on

9940 30mA quiescent, 70mA backlight on

934 15mA typical, 20mA maximum

Standby battery (not supplied) 12V rechargeable lead-acid, gel-type battery.

Low battery voltage cutoff = 10V.

Recommended manufacturers: Yuassa, Yucel

or Fiamm.

Note: Grade 1 and 2 compliance requires the panel to continue for a minimum

period of 12 hours on a standby battery. To calculate the minimum

capacity battery to achieve this requirement, determine the total current

taken by external devices and the panel and multiply by 12.

Note that a 17Ah battery cannot fit inside the case.

9651 2. Technical Description

497283 Issue 1 Page 9

Compatible Equipment

934EUR-50 ScanProx Proximity Module (with two tags)

Proxtagpk5 Pack of five proximity tags

9928EUR-00 Keyswitch Interface (the keyswitch interface is no longer

available for purchase, but is supported in existing

installations)

9930EUR-50 9930 LCD Keypad (ScanProx-compatible)

9940EUR-50 9940 LCD Keypad

2. Technical Description 9651

Page 10 497283 Issue 1

Control Unit PCB Layout

Figure 3 shows the layout of the PCB used in the control unit.

1. Outputs (3 open collector outputs) 6. NVM Reset pins

2. AUX power 7. Plug-by (standalone) communicator connector

3. Lid tamper switch 8. Battery connector

4. Zone connectors 9. Kick Start pins

5. Keypad and expander bus (bus 2 not fitted) 10. 21VAC from transformer

Figure 3. Control Unit PCB Layout

497283 Issue 1 Page 11

3. INSTALLATION

Caution: Always remove mains power before opening the case lid. Do

not work inside the control unit with mains power present.

Overview

A typical installation comprises the following main steps:

1. Survey the site and decide on positions for wired detectors, control unit,

keypads, external and internal sounders. As part of the survey ask the

users what facilities they need.

2. Ensure that there is a suitable mains supply present at the site of the

control unit.

3. If you are going to use a communicator, arrange for a PTT (Public

Telephone and Telegraph) connection point near to the control unit.

4. Install the wired detectors and run cables to the site of the control unit.

Connect each detector to its cable.

5. Run cables from the sites of the keypads, external and internal sounders

to the site of the control unit.

6. Install keypads and connect them to their cabling. Ensure that each one

has the correct address setting. If necessary, install 934 ScanProx

modules on the keypads.

7. Install internal and external sounders and connect them to their cabling.

8. Install the control unit and connect it to the mains supply cabling. Do not

apply power at this point.

9. At the control unit, complete all connections to detectors, keypads and

sounders.

10. Apply power and program the control unit.

11. Test that the intruder alarm system operates as required.

12. If required, install a communicator, connect it to the PTT network and

check that it operates correctly.

13. Hand the system over to the users and instruct them in its use.

3. Installation 9651

Page 12 497283 Issue 1

Cabling for Keypads

Cooper Security recommends that you use 8-core 7/0.2 or 16/0.2 alarm cable

for wiring keypads. You can connect the keypads in either a star or bus

configuration. If you intend to use long cable runs, Cooper Security

recommends that you use star wiring with no more than 200m of cable per

branch.

The maximum length of any one run from the control unit to the most remote

keypad depends on the number of items connected to the cable. You can

double the maximum length for 7/0.2 cable by using two cores each for the 0V

and 12V terminals or by using 16/0.2 cable. The table below shows the

maximum recommended cable lengths in metres for 7/0.2 cable, assuming

that you connect all keypads at the end of a single cable run. You may be

able to improve on these figures by spreading keypads along the cable length.

8-core 7/0.2 cable
Number of kpds 1 core 2 cores on 0V and 12V

One 200 –

Two 100 200

Three 65 130

Four 50 100

It is possible to extend the keypad cable run by using additional power

supplies, but only up to the recommended maximum of 200m.

When carrying out the cabling, there are two important points to remember:

1. Do not connect anything other than keypads to the bus. The keypad bus

power supply is limited to a maximum of 400mA.

2. Check between 0V and 12V on the keypad bus at the point furthest from

the control unit: the voltage must be at least 12.0VDC when all the keypad

backlights are on.

Note: The following instructions assume that you have already run all the

necessary cabling.

9651 3. Installation

497283 Issue 1 Page 13

Fitting the System

Fitting the Control Unit Case

1. Remove the control unit case from its packaging.

2. Remove the front screws and slide off the case lid.

3. The upper part of the case back has a central keyway. Mark and drill a

hole for the keyway. Temporarily fix the case back to the wall. Mark the

position of two more fixing holes, remove the case back and drill the

holes.

4. Refit the case back to the wall using screws no less than 30mm x No 8,

with dome or pan heads.

Fitting a 9940 Keypad

Figure 4 shows the backplate and the position of mounting holes.

3

4

Figure 4. Backplate of the 9940 Keypad

1. Cable entry. 3. Back tamper aperture.

2. Fixing holes. 4. Sounder aperture.

Use No 8 or 6 screws (M4/M3.5) to mount the keypad.

When mounting the front of the keypad (containing the keypad pcb) onto the

backplate make sure that the tamper switch operates.

3. Installation 9651

Page 14 497283 Issue 1

Fitting a 9930 Keypad

The backplate of the 9930 keypad (see Figure 5) contains an adjustable cam

that you can use to make sure the tamper switch will operate correctly when

the keypad is mounted on an uneven surface.

Cooper Security recommends that you mount the keypad using No 8 or 6

screws (M4/M3.5) as follows:

1. Remove the front cover by first releasing the screw located on the

bottom edge of the keypad.

2. Select which cable entry you are going to use and break out the

appropriate plastic sections.

3. Hold the backplate in place against the wall and mark the position of the

centre hole in the adjustable cam (item 2 in Figure 5).

4. Drill and plug the hole, and screw the backplate to the wall through the

adjustable cam. Do not tighten the screw completely home.

5. Make sure the backplate is level. Mark, drill and plug at least two more

fixing holes (item 1 in Figure 5). Screw the backplate to the wall through

the holes.

6. Cut the plastic webs connecting the cam to the backplate.

Note: If you do not cut the webs, the tamper switch will not operate in the

event of the complete keypad being forced off the wall.

7. Attach the front cover of the keypad (containing the keypad PCB) onto

the backplate and make sure that the tamper switch operates.

8. If the tamper switch does

not

operate, rotate the cam until the switch

operates correctly with the front of the keypad mounted on the backplate.

1

1

1

2

1

1. Fixing hole 2. Adjustable cam

Figure 5. Backplate of the 9930 EUR Keypad

9651 3. Installation

497283 Issue 1 Page 15

Fitting the ScanProx 934 Module

Note: If fitting a 934 module to an existing installation, put the alarm system

into programming mode and then remove all power, both mains and

battery. If you do not remove all power, the system will not recognise the

934 module.

1. Remove the front cover from the keypad(s) to which you intend to fit the

module. Remove the cable clips (item 4 in Figure 5).

2. Fit the 934 module to the connector pins, as shown in Figures 6 and 7.

Figure 6. Fitting a 934 Module (over the keypad)

Figure 7. Fitting a 934 Module (in position)

3. Secure the module in position with a screw through the lug in the top-

right corner (Figure 8).

Figure 8. Securing lug on 934 module

4. Re-fit the front cover of the keypad.

3. Installation 9651

Page 16 497283 Issue 1

Wiring the Control Unit

Cable Entries

The control unit case back provides several cable entries. It is designed to

stand away from the wall to leave space for the cables.

Mains Connection

Connect the control unit to a suitable supply using a double pole disconnect

device in accordance with EN60950-1:2001 Clause 3.4.3. Connect the supply

to the control unit using the 3-way terminal block located on the case back.

Secure the cable to the case anchor point using the cable tie provided.

Notes:

1. The control unit has a T-250mA internal mains fuse.

2. All electrical connections should be carried out by a qualified

electrician.

To Control Panel

Transformer

L

N

T 250mA 250V

230V ~50Hz 200mA

Figure 9. Mains Connection

Connect the 21VAC lead from the mains transformer to the main PCB. See

Figure 3 for the location of the 21VAC connector.

Caution: Do not apply mains power at this point. Do not work inside the

control unit case when mains power is present.

9651 3. Installation

497283 Issue 1 Page 17

Keypads

Connecting Keypads

Figure 10 shows the connections for keypads. Use the "ET" connector

terminals on the keypad PCB to connect an exit terminate button or lock

switch. If you are using a lock switch, do not connect any other devices to

these terminals.

4-core

9930 Keypad

0V12V CLK DATA ET

Lock Switch
Or
Exit terminate button
(NO, push to make)

To other
keypads

CLK DATA0V12V

Control Unit

Figure 10. Keypad Connections

The 9940 keypad can be connected to an external panic attack button, as

shown in Figure 11. If the panic attack does not contain a tamper switch, link

the pair of "EXT TAMPER" terminals. Separately link both pairs of terminals if

no panic button is used.

PAN IC I/ P EX T TA MP E R

External Panic
Attack Button

Figure 11. 9940 Panic Attack Connections

3. Installation 9651

Page 18 497283 Issue 1

Keypad Addressing

The control unit is supplied with one keypad. If you have fitted more keypads,

each one must be given a separate "address". Links LK2 to LK4 set the

keypad address, as shown in Figure 12.

2

3

4

ON

BACKLIGHT

2

3

4

2

3

4

2

3

4

2

3

4

ON

BACKLIGHT

ON

BACKLIGHT

Keypad 1

Address

Backlight ON Backlight OFF

Keypad 2

Keypad 3 Keypad 4

Figure 12. Keypad Addressing

Backlight

When supplied from the factory, the control unit is configured with the

backlight On. To turn the backlight Off, remove the jumper from the "ON

BACKLIGHT" link, shown in Figure 12.

Connecting Sounders

Figure 13 and the following tables show the wiring required to connect the

external sounder (bell box) and optional internal sounders.

Note: If a 2k2 resistor is fitted at the tamper return (TR) terminal at the bell

box, use Command 59 to select this EOL mode of termination.

To Bell Box

16 Ohm Loudspeaker

(2 Max. in parallel)

Internal Sounder

6-core

OP1

OP2

12V AUX

0V

TR

LS

+

Figure 13. Sounder Connections

9651 3. Installation

497283 Issue 1 Page 19

Lyntech Ltd - 120 LED/120 lexon

Control Panel

Terminals

OP1 OP2 TR 12V AUX 0V

Bell-Box

Terminals

TRG STRB HOLD +

Elmdene Rapier 300, 4000, 5000, 6000; Prima 100-600; Starlight 020

Control Panel

Terminals

OP1 OP2 TR 12V AUX 0V

Bell-Box

Terminals

-R -ST RTN +H -H

CQR Security - Sigma, Cequera, Plus and Ultima

Control Panel

Terminals

OP1 OP2 TR 12V AUX 0V

Bell-Box

Terminals

SIREN

TRIG

STROBE

TRG

A/T RET

SIG

HOLD OFF

+VE

HOLD

OFF -VE

Ventcroft Security - Vision, Classic and Spirit

Control Panel

Terminals

OP1 OP2 TR 12V AUX 0V

Bell-Box

Terminals

TRIG - STB - RTN HOLD OFF

+VE, STB

+VE

HOLD

OFF -VE

Flashguard - Xtra

Control Panel

Terminals

OP1 OP2 TR 12V AUX 0V

Bell-Box

Terminals

TRIGGER STROB- SUPPLY - SUPPLY +

STROBE +

TAMP

OUT

Intellisense - AG3

Control Panel

Terminals

OP1 OP2 TR 12V AUX 0V

Bell-Box

Terminals

S- ST- TR V+ V-

3. Installation 9651

Page 20 497283 Issue 1

Connecting Detector Circuits to the Main PCB

The connectors for the detector circuits, or zones, are on the left-hand edge of

the main PCB in the control unit. The table below summarises the number

and type of zones that can connect to the main PCB of the control unit. Use

Command 21 to specify which of these wiring types you are using. You

cannot specify different wiring types for different zones.

Control Unit Wiring Type
Zones

8 four-wire CCL with common tamper

8 two-wire FSL

CCL Connections

Figure 14 shows how to connect four-wire CCL zones. Note that there is a

single Global tamper loop that serves all zones.

1
2

Zone 1
Zone 2

Global Anti-tamper

Zone 3
Zone 4

Zone 5
Zone 6

Zone 7
Zone 8

Tamper loop

Zone 1

Zone 2

Alarm contacts

Alarm contacts

Figure 14. CCL Connections (common tamper)

FSL Connections

Each FSL zone is a "Fully Supervised Loop" using a two-wire closed loop. As

shown in Figure 15, the loop uses resistors of different values to differentiate

between "Circuit" and "Tamper" signals: a 2K2 resistor fitted in series at the

end of the wired loop (EOL) and a 4K7 resistor fitted across the alarm contact.

With the loop in a normal state and the alarm contacts closed (shorting out the

4K7 resistor), the total resistance of the loop is 2K2. When the alarm contacts

open (removing the short from the 4K7 resistor), the resistance of the loop

increases to 6K9 and so the control unit detects an alarm condition. If a

tamper device opens, the loop resistance becomes infinite (open circuit) and

so the control unit detects a tamper signal.

To connect a detector to an FSL loop, you must wire suitable high-tolerance

resistors to the detector. Always check resistor colour coding and tolerance

before wiring resistors into circuit (see Figure 16).

9651 3. Installation

497283 Issue 1 Page 21

The wiring resistance of the cable to the detector (including joints) should not

exceed 100 ohms. The recommended maximum cable length within a zone is

200–300m.

Zone 1

Zone 2

1
2

2K2 EOL

4K7

Alarm contacts
Tamper contacts

2K2 EOL

4K7

Alarm contacts
Tamper contacts

Figure 15. FSL Connections

Yellow
Violet

Red

Gold

4k7

Red
Red

Red

Gold

2k2

Figure 16. Colour Code for FSL Resistors

3. Installation 9651

Page 22 497283 Issue 1

Programming Outputs

Control unit panel outputs can be programmed using the commands shown in

the table below. Open collector outputs are of a "pull down" type that provides

negative-applied control signals; the system adjusts the output polarity when

you select the output type.

Output Type Command

OP1 open collector 81

OP2 open collector 82

OP3 open collector 83

Figure 17 shows some examples of applications for open collector outputs

(OP3 is used in these examples).

OP3

+ve 12V Aux

Shock Sensor Reset

Use Command 83 4

VIPER

+ve

0V

OP3

+ve 12V Aux

Bell Follow Buzzer/Relay

Use Command 83 0
Relay energises/buzzer sounds
when bell activates.

BUZZER/RELAY

OP3

PIR Set Latch/Walk Test

For:
Set Latch use Command 83 3
Walk Test use Command 83 5

PIR

Figure 17. Wiring Examples for Open Collector Outputs

9651 3. Installation

497283 Issue 1 Page 23

Wiring Keyswitches

To allow a user to set and unset the system using a keyswitch, connect a

fixed position or spring loaded (momentary) key switch to a zone input. Note

that a key switch cannot reset the system. When programming the control unit

select zone type (KM) for momentary or (KF) for fixed position keyswitches.

Figure 18 shows the connections for a keyswitch.

Fixed Keyswitch (KF)

Keyswitch CC FSL System

OFF Closed 2k2 Unset

ON Open 6k9 Set

Momentary Keyswitch (KM)

Keyswitch CC FSL System

Operate Close-Open-

Close

2k2-6k9-2k2 Unset

Operate Close-Open-

Close

2k2-6k9-2k2 Set

Figure 18.18. Connecting a Keyswitch

Note:

If you connect a keyswitch as a zone, without an interface, it can be used

to set and unset the level to which the zone is assigned.

Wiring a 9928 Keyswitch Interface

The 9928 keyswitch interface is no longer available for purchase, but is

supported in existing installations. Figure 19 shows the connections. You can

fit only one 9928 in a system.

M/C

M/C

M/C

0V

12V

CLK

D

ATA

ET

PA

SET

RDY

9928

COM

KS2

KS1

Full

Off

Part

Full

Part

T

AMP

Momentary

Continuous

T

okeypadbus

on control unit.

Latched

Momentary

Figure 19. Connecting a 9928 Keyswitch Interface

4k7

2k2

CC Wiring CCT(n)

CCT(n)

FSL Wiring

3. Installation 9651

Page 24 497283 Issue 1

The 9928 can be connected to either a momentary or a latched keyswitch

(see Figure 19). When using a momentary keyswitch, remove the jumper from

link M/C. When using a latched keyswitch, fit a jumper to link M/C.

Note:

If you connect a keyswitch through a keyswitch interface, it can be used

to set and unset the whole system or Level B only.

9651 3. Installation

497283 Issue 1 Page 25

Communicator

The 9651 can be fitted with a communicator or speech dialler, for example the

Scantronic 660, 8400, and 8440 digital communicators or the SD1 or SD2

Speech diallers. To connect an SD1 or SD2 follow the instructions provided

with those products. Figure 20 shows the connections for the communications

wiring harness.

Comms O/P1 (Brown) -ve applied (+ve removed) in alarm

Comms O/P2 (Orange) -ve applied (+ve removed) in alarm

Comms O/P3 (Yellow) -ve applied (+ve removed) in alarm

Comms O/P4 (Green) -ve applied (+ve removed) in alarm

Comms O/P5 (Blue) -ve applied (+ve removed) in alarm

Comms O/P6 (Purple) -ve applied (+ve removed) in alarm

Comms O/P7 (White) -ve applied (+ve removed) in alarm

Comms O/P8 (Grey) -ve applied (+ve removed) in alarm

Line Fail input (White/Brown) +12V applied to indicate telephone line fail

Tell Back input (White/Orange) +12V applied to change from engineer to customer reset

0V (Black)

12V (Red)

Com Connector Cable, Part No. 485210

Figure 20. Plug-By Communicator Wiring

Note: Comms O/P4 will be active when the system is unset. This is normal, as

a system being unset is equivalent to an alarm signal.

To fit a communicator, follow the instructions below.

Caution: Follow the instructions in the order shown, or you may damage

the control unit and/or communicator.

1. Disconnect mains and battery power from the control unit and remove

the case lid, if the system has already been installed.

2. Detach the main PCB from the support pillars in the control unit case,

and lift the PCB carefully to the left. Fit the communicator between the

PCB support pillars, making sure that the main PCB can fit back into

position (see Figure 21).