BRK electronic Smoke Alarm Mx 1000 User Manual

Mx-1000 Series

Installation and Commissioning Manual

for

Mx-1002, Mx-1004, Mx-1008, Mx-1016 & Mx-1032

Conventional Fire Alarm Control Panels

and Mx-1108, Mx-1116 & Mx-1132 Repeater Panels

Document Number: 680-071

Revision: 02

E L E C T R O N I C S L I M I T E D

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Optional Clock Module – Configuration and Settin g ........................................................................3 3

16.1 Standard Module Engineer Mode:.................................................................................................3 3

16.1.1 To Zero the Alarm Counter: ..................................................................................................3 3

16.1.2 To Access the Engineers Clock Module Edit Functions: ......................................................3 3

16.2 Configuring the Clock Module......................................................................................................3 6

16.3 C1651 Clock Module PCB Features..............................................................................................3 7

16.4 Clock Module Error Messages ......................................................................................................3 7

16.4.1 WP DIL Switch Error Message :............................................................................................3 7

16.4.2 EEPROM Error Message:......................................................................................................3 7

16.4.3 ROM Checksum Error message: ...........................................................................................3 8

Mechanical, Electrical & Environmental Specification.....................................................................3 9

2 List Of Figures

Figure 1 – Mx-1002 / Mx-1004 Internal Vie w ................................................................................................5

Figure 2 – Mx-1008 / Mx-1016 Internal Vie w ................................................................................................5

Figure 3 – Mx-1032 Internal View..................................................................................................................6

Figure 4 - 2/4 Zone Panel – General Assembly [with optional clock/time module] .......................................6

Figure 5 – 8/16 Zone Panel – General Assembly [with optional clock/time module].....................................7

Figure 6 - 32 Zone Panel – General Assembly [with optional clock/time module].........................................7

Figure 7 – Typical Wiring Diagram ................................................................................................................8

Figure 8 - C1627 Field Termination................................................................................................................9

Figure 9 - C1632 16-Zone Expansion Board Field Terminatio n .....................................................................9

Figure 10 – C1627 Motherboard Layou t .......................................................................................................1 0

Figure 11 – C1632 16-Zone Expansion Boar d ..............................................................................................1 1

Figure 12 – 32-Zone Power Supply Layout ..................................................................................................1 2

Figure 13– Repeater Connection Diagram ....................................................................................................1 8

Figure 14 – C1651 Clock Module PCB.........................................................................................................3 7

3 List of Tables

Table 1 - Delay Switch Settings ....................................................................................................................3 1

Table 2 - C1631 setting for quantity of repeater s ..........................................................................................3 2

Table 3 - C1631 setting for repeater addresses..............................................................................................3 2

Table 4 – C1651 Clock Module DIL switch 1 and Link 1 Settings...............................................................3 6

Page 3 of 40

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4 Introduction

Thank you for purchasing the Mx-1000 conventional control panel. The Mx-1000 range of panels

have been designed, manufactured and tested to meet the requirements of BSEN 54 Parts 2 & 4

and will provide the user with many years of reliable service.

This document contains all the information necessary for the installation, commissioning and

maintenance of the Mx-1000 range of panels and repeaters.

NOTE: It is important to read this manual fully before commencing installation.

The following supporting documentation is also available:

•

Mx-1000 Sales Literature

Mx-1000 Panel Application Guide (Doc. No. 680-077)

Mx-1000 User Manual (Doc. No. 680-072)

Wiring Recommendations

5 Overview of Installation and Commissioning

This section lists the steps that are taken in designing, installing and commissioning a Mx-1000 system.

1. Install all field wiring and equipment

●

Refer to the Installation Guidelines in section 12.2 below.

Refer to the field device installation manuals

2. Install the panel

●

Refer to the installation instructions in section 12.2 below.

Do not connect the field equipment at this stage.

3. Connect any repeaters (if applicable)

Refer to the installation instructions in section 12.2 below.

●

4. Commission the panel

Refer to Commissioning in section 13 below.

●

Page 4 of 40

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6 Internal Panel Views

Figure 1 – Mx-1002 / Mx-1004 Internal View

3 x Enclosure

fixing holes

Cable clip for

incoming

Secondary earth bar

for cable screens

mains cable

Mains

warning/

primary

earth label

Removable chassis

Motherboard

Mains terminal

block and primary

earth connection

AUX

D.C.

24V 0V

INPUTS

OUTPUTS

REPEATER

ZONE CIRCUITS

ALARM CIRCUITS

ZONE OUTPUTS

TB1

TB2

TB12

TB14

TB15

TB16

TB17

TB3

TB4

TB5

TB6

TB18

TB19

TB20

TB21

O/+

C/-

FIR

O/-

C/+

FIR

O/-

N/C

LT ROUTING

OUTING

PROTECTION

RESET

C1631 repeater

interface

[optional]

Mains transformer

Removable chassis

Mains transformer

Motherboard

INHIBIT F/P

NLZ

SILENCE BEFORE RESET

DELA

ALARM

RES

DELAY

INU

CONFIG

CONFIG NON-LATCH ZONES

CONFIG I/S ZONE

NABLE

CONFIG

/S ZONES

ZON

ULSE NON-ALA

ILE ZONE

UZZE DISABLE

HE FAULT

RMS

J18A

ZONE

ZONES

TAGE DELAY

RIGN1

ONLY

FID2

FUS

HERM

Batteries

Figure 2 – Mx-1008 / Mx-1016 Internal View

3 x Enclosure

fixing holes

Secondary earth bar

for cable screens

Mains

warning/

primary

Cable clip for

incoming

mains cable

earth label

Mains terminal

block and primary

earth connection

Removable chassis

C1631 repeater

interface

[optional]

ZONE CIRCUITS

ALARM CIRCUITS

AUX

.C.

24V 0V

INPUTS

OUTPUTS

REPEATER

ZONE OUTPUTS

B16

B18

B21

O/+

FAULT

FIR

O/-

ION

Motherboard

PROTEC

RESET

ZONE CIRCUITS

J17

Removable chassis

ESET

ILEN

LAY

LAY ON

ONFIG

ONFIG I/S ZO

LAR

SIL

DELAY/

IN U T E

-LA

ZONES

Mains transformer

ONFIG M/S ZONES

ZONA

LARMS

ONFIG

ELA

ULS

NON-ALARM ZONE

Motherboard

O/P

ILEN

18B

AGE DELA

UZZE

DIS

BLE

ONLY

ED FAULT

FUS

Batteries

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Figure 3 – Mx-1032 Internal View

3 x Enclosure

fixing holes

Mains

warning/

primary

Secondary earth bar

for cable screens

Cable clip for

incoming

Mains transformer

earth label

Mains terminal

block and primary

earth connection

Removable chassis

mains cable

C1631 repeater

interface

ZONE CIRCUIT

AUX

D.C.

24V 0V

INPUT

OUTPUTS

REPEATER

FID1

[optional]

ZONE CIRCUITS

ALARM CIRCUITS

Z ONE OUTPUTS

TB1

TB2

TB3

TB4

TB5

TB6

TB7

TB8

TB1

TB2

TB12

TB14

TB15

TB1

TB17

TB3

TB4

TB5

TB6

TB7

TB8

TB9

TB10

TB18

TB19

TB20

TB21

O/+

FAUL

C/+

O/-

C/+

ROUTING

ROU

PROTECTION

RESET

ZONE CIRCUITS

Motherboard

Removable chassis

17 -32 zone

expansion

board

INHIBIT F/P ON NL

DELAY ALARM SIL

DELAY ON TO

TCH ZONES

I/S ZON

M/S ON

ELA ONES

ELA O/P

SILE

BEFOR

SET

ESET

DELAY/

MINUTE

CONFI

J18B

ZONAL ALARMS

PUL NON-A

SILE ON

BUZZE DISABLE

LATCHED FA LTS

ONES

TEST

TAGE

TB11

TB1

ORIGN

VAC ONLY

FS1

BATTE

FUS

BAT

Mains transformer

Batteries

1-16 zone

Motherboard

Batteries

Figure 4 - 2/4 Zone Panel – General Assembly [with optional clock/time module]

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Figure 5 – 8/16 Zone Panel – General Assembly [with optional clock/time module]

Figure 6 - 32 Zone Panel – General Assembly [with optional clock/time module]

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7 Mx-1016 16 -Zone – Typical Wiring Schematic

Figure 7 – Typical Wiring Diagram

Typical Input Circuit Wiring

for Remote Silence, Evac, Reset &

Class Change,

Typical Zone Wiring

22uF capacitor end-of-line device

Typical Alarm Circuit Wiring

-observe polarity

-ve

3K9 resistor

end-of-line device

[Normally open switch contacts]

1A 2A

Manual call point

with 680R resistor

Typical remote

output wiring

2k2 0.5W

resistor

Typical zonal

output wiring

Terminal identification

notes:

Cl/C = Class Change.

B Act = Buzzer Active

RST = Reset

Connect

to Aux DC

24 V

24 V DC

relay

Repeater Wiring - see

Figure 9 - Repeater

connection diagram

Detector base with

Schottky Diode

1 + 1 -

2 + 2 - 3 + 3 - 4 + 4 - 5 + 5 - 6 + 6 - 7 + 7 - 8 + 8 - 1 + 1 - 2 + 2 - 3 + 3 - 4 + 4 - 24V

Sil Evac RST Cl/C Dis Evac BAct

Inputs Outputs

Scn

N/C

RST

Lower terminal tier

Upper terminal tier

Lower terminal tier

Upper terminal tier

Zone O/Ps

Alarm Circuits

Aux DC

Repeater

Zone Circuits

Aux DC Fault Routing Fire Routing Fire Protection RST

24V C/+ O/- C/+ O/- N/O

9 + 9 - 10 + 10 - 11 + 11 - 12 + 12 - 13 + 13 - 14 + 14 - 15 + 15 - 16 + 16 -

0V O/+

C/-

Fire Routing, Fault Routing & Fire Protection O/P configuration - Output specification:

Fire and Fault Routing

output wiring shown for

the monitored/powered

configuration

When configured as monitored/powered outputs:

When configured as volt-free changeover relays :

For Fire Routing and Fire Protection O/Ps:

Volt free relay contacts shown in quiescent [de-energised]

condition.

For Fire Routing and Fire Protection O/Ps:

Quiescent: 5 V DC

Active [fire]: 24 V nom]

Relay local to fault

routing equipment

equipment

Relay local to fire

routing equipment

equipment

For Fault O/P:

Volt free relay contacts shown in healthy [energised]

condition.

For Fault Routing O/P:

Quiescent: 24 V DC [nom]

Active [fault]: 5 V

Field relay spec:

Coil resistance - 2.6 to 4.5 k Ohms

Voltage 24 V DC Nom

[min 18 V, max 30 V]

Fitted with suppression diode as shown.

Connections:

Observe correct polarity.

[+ = Positive, - = Negative]

Connect to normally open or normally closed contact as

required.[P= Pole, C= Closed, O = Open]

Applied voltage must not exceed 30 V DC.

Page 8 of 40

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8 Circuit Connection Details

8.1

2-16 Zone Motherboard Termination Details

Figure 8 - C1627 Field Termination

Inputs:

Outputs:

SIL = Silence alarms

EVAC = Evacuate

RST = Reset

DIS = Disablement active

EVAC = Evacuation active

BUZ Active = Buzzer active

Grey fill indicates I/O available on selected panel

16/32

Outputs Repeater

Inputs

Aux

Zone Circuits

Alarm Circuits

Zone O/Ps

Lower terminal tier

Upper terminal tier

Lower terminal tier

Upper terminal tier

Reset

Zone Circuits

Aux

Fault

Fire

DC Routing Routing Protection

16/32

O/- = Normally Open or -ve

O/+ = Normally Open or +ve

P = Pole

C/+ = Normally Closed or +ve

C/- = Normally Closed or -ve

Grey fill indicates I/O available on selected panel

8.2

16 Zone Expansion Board Termination Details

Figure 9 - C1632 16-Zone Expansion Board Field Termination

Zone Circuits

Lower terminal tier

Upper terminal tier

Zone Circuits

Page 9 of 40

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9 Mx-1000 Series C1627 Motherboard Features

Figure 10 illustrates the motherboard features referred to elsewhere in the documentation.

Figure 10 – C1627 Motherboard Layout

Remote Inputs:

Silence Alarms

Evacuate

Aux Outputs:

DISablement active

EVACuate Active

BUZzer ACTIVE

Fire

Routing

Output

Reset

Aux DC

Supply

Fault

Routing

Output

24V & 0V

Fire

Zone Outputs

1-4

Alarm

Protection

Output

Repeater

Terminals:

A,B, GND

Circuits

[Marked with Active

Polarity]

Zone

Detection

Inputs

Reset

Relay

Output

Connector

for C1632,

Zone

Expansion

Board

C1631

Repeater

Interface

Display

Connector

Secondary

AC from

transformer

Configuration

mode enabled

LED indicator

FS1

Battery

Fuse

J18

Power Supply LED

indicators:

OUTPUT OK

Battery/Charger

Fault

Earth Fault

Monitoring

Link

Battery

Terminals

Configuration

switches

SW1/1 to

SW1/10

Configuration

switches

SW2/1 to

SW2/10

Battery

Thermistor

Terminals

Charger Fault

Mains Fault

Page 10 of 40

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10 Mx-1000 Series C1632 16-Zone Expansion Board

Features

Detection zone

terminals for

zones 17 – 32

Connector for

motherboard

ribbon

Figure 11 – C1632 16-Zone Expansion Board

11 Power Supplies

The Mx-1002,Mx-1004, Mx-1008 and Mx-1016 panels produce d.c. power regulation directly on

the C1627 motherboard. The Mx-1032 zone panel has an off-board power supply via a dedicated

PCB (C1652) contained within the enclosure of the fire alarm panel.

For all panels, the output voltage is adjustable from 25V to 28.2V via a small trimmer

potentiometer on the PCB. As the output voltage is factory set however, this should not be

necessary.

11.1

Visual indications

The following visual indications are provided:

1) A green ‘Output – OK’ LED. This simply denotes that power is being supplied to the

panel

2) A yellow ‘Batt/Charge Fault’ LED denoting any one of the following conditions:

a) Battery disconnected

b) Battery fuse blown

c) Low Battery voltage

3) A yellow ‘Charger Fault’ LED. This denotes that the switching regulator has stopped

working and could be due to the following reasons:

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a) Switching regulator is malfunctioning

b) The power supply output voltage has been incorrectly set to a value less than the terminal

voltage of the batteries

4) A yellow ‘Mains Fault’ LED. This denotes that the mains voltage has failed or is less than

the required minimum for correct operation of the power supply.

Note: Fault indications do not become active for a minimum of 10 seconds after the fault has

occurred.

11.2

Battery Disconnect

The supply provides a battery disconnect facility which disconnects the batteries when the battery

terminal voltage falls below 19.5V.

11.3

32-Zone Power Supply Features And Connections

Figure 12 shows the layout of the 32 zone panel power supply.

Secondary AC

Supply from

transformer

28V, 0V DC

Power output

Mains

Fault

Output

Common

Fault

Output

4-way header for

connector to 32 zone

motherboard for DC

power, common fault

and mains fault

DC supply

output voltage

adjustment

Battery

connections

potentiometer

[factory set].

LED indicators for:

Mains fault, Internal Fault,

Battery/Charge Fault, Output O.K.

Battery

Thermistor

connections

FS1 Battery

fuse [6.3 A]

Figure 12 – 32-Zone Power Supply Layout

Page 12 of 40

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12 Installation

The control panel must be installed by suitably qualified engineers familiar with the installation of

fire detection systems. In addition, it is recommended to refer to the following information:

•

Current edition of the IEE wiring regulations.

Current edition of BS5839-1 or the installation standards for the relevant country.

Any specific site requirements.

•

Any field device installation instructions.

Any data sheet provided for the installation of Intrinsically Safe devices.

Notes:

The rating plate, containing essential electrical information is located inside the panel

on the inside face of the door.

The mains supply cable should be a minimum of 1mm²copper protected by a 5A fuse.

An appropriate lockable double pole disconnect device shall be provided as part of the

building installation. This device must have a minimum contact gap of 3mm.

12.1

Electrical Safety

WARNING: Read this section completely before commencing installation.

Prior to commencing installation of the control panel, ensure that adequate

precautions are taken to prevent damage to the sensitive electronic components on

the display board and the control board due to electrostatic discharge. You should

discharge any static electricity you may have accumulated by touching a

convenient earthed object such as an unpainted copper radiator pipe. You should

repeat the process at regular intervals during the installation process, especially if

you are required to walk over carpets.

The panel must be located in a clean, dry position, which is not subject to shock or

vibration and at least 2 metres away from pager systems or any other radio transmitting

equipment. The operating temperature range is 0ºC to 40ºC; maximum humidity is

95%.

12.1.1

IMPORTANT NOTES ON BATTERIES:

DANGER:

Batteries are electrically live at all times, take great care never to short circuit

the battery terminals.

WARNING: Batteries are often heavy; take great care when lifting and transporting

batteries. For weights above 24 kilos, lifting aids should be used.

DANGER:

Do NOT attempt to remove the battery lid or tamper with the internal

workings of the battery. Electrolyte is a highly corrosive substance, and

presents significant danger to yourself and to anything else it touches. In

case of accidental skin or eye contact, flush the affected area with plenty of

clean, fresh water and seek immediate medical attention.

Valve Regulated Lead Acid (VRLA) batteries are “low maintenance”, requiring no

electrolyte top-up or measurement of specific gravity.

WARNING: Only clean the battery case with a cloth that has been soaked or dampened

with distilled water. Do not use organic solvents (such as petrol, paint thinner,

benzene or mineral spirits) or other materials that can substantially weaken

the case. Do not use a dry cloth as this will generate static electricity, which

in turn may lead to an explosion.

WARNING:

Avoid operating temperatures outside the range of -15°C/5°F to +50°C/122°F

for float/standby applications.

The recommended normal operating temperature is 20°C.

HIGH TEMPERATURE will reduce battery service life. In extreme cases this

Page 13 of 40

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can cause Thermal Runaway, resulting in high oxygen/hydrogen gas

production and battery swelling. Batteries are irrecoverable from this

condition and should be replaced.

LOW TEMPERATURE will prolong battery life but reduce output capacity.

DANGER:

Do not incinerate batteries. If placed in a fire, the batteries may rupture, with

the potential to release hazardous gases and electrolyte. VRLA batteries

contain substances harmful to the environment.

Exhausted batteries must be recycled. Return them to the battery

manufacturer or take them to your Council waste disposal site for appropriate

disposal.

12.1.2

ELECTRICAL SAFETY:

The volt-free relay contacts provided within the panel must not be used to directly switch any

voltage that exceeds 50VAC or 75VDC. (Please also refer to relay rating data).

This equipment requires a 230V AC supply. All installation work should be carried out

in accordance with the recommendations of BS5839 Part 1 and the current edition of

the IEE regulations by suitably qualified and trained personnel.

THIS PANEL MUST BE EARTHED

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12.2

Installation Instructions

1. Carefully remove the control panel from the packing and lie the panel on a flat surface.

2. Open the door of the panel.

3. Locate the spares bag and check that the following items are present:

Quantity Description

Type

Mx-1002 / 04

T1AH250V 20mm

F2AL250V 20mm

Mx-1008 /16 / 32

T3.15AH250V 20mm

F5AL250V 20mm [8/16]

F6.3AL250V 20mm [32]

22 µF, 35 V axial.

*[8/16/32 off]

Mains Fuse

Battery Fuse

End-Of-Line capacitors for

normal zone monitoring

22 µF, 35 V axial.

*[2/4 off]

End-Of-Line resistors for

alarm circuits and zones

configured as Intrinsically

Safe.

3k9 0.25W

*[4/8 off]

3k9 0.25W

*[12/20/36 off]

Engineer’s door keys

Key Ref.:

801 [Flat key type]

Key Ref.:

801 [Flat key type]

Key Ref.:

Access Control keys

801 [Tubular key type] 801 [Tubular key type]

Positive battery lead

Negative battery lead

Battery coupling lead

Red

Black

Blue

N/A

Red

Black

Blue

Battery terminal insulation

boot

Mx-1032 only

[32 zone panel only]

12.2.1

Mx-1000 Series Panel Installation Instructions

1. Disconnect the display ribbon cable from the motherboard header.

2. Disconnect the earth strap connecting the door and back-box via the spade terminal on

the door.

3. Unscrew the hinge pin at the bottom of the door whilst supporting the door. Swing the

bottom of the door clear of the back-box and pull the door away from the top hinge pin.

4. Place the door carefully to one side and replace the bottom hinge pin in the back-box.

5. Unscrew and remove the two lower chassis screws and only slacken the top two

mounting screws.

6. Carefully lift the chassis upward to align the screw heads with the large holes in the

chassis keyholes. Lift the chassis clear of the upper screws and rest the chassis in the

bottom of the enclosure. Take care not to strain the wires that remain connected to the

back-box.

7. Disconnect the earth strap connecting the backbox and chassis at the earth bar.

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8. Disconnect the flying leads from the transformer to the mains terminal block and earth

bar.

9. Remove the chassis from the enclosure and place carefully to one side.

NOTE: The door and chassis both contain PCBs with sensitive and fragile electronic

components on them. You must place these items in a location where they will

not be damaged. Choose an area that is clean, dry and dust-free. You can place

the items inside the original packing carton but you must ensure that sufficient

soft packing is used to keep the door and chassis separated.

10. Identify the three indented holes in the backbox that are used to mount the enclosure.

11. Place the enclosure in the desired location and mark the position of the top indented hole.

Remove the enclosure and fit a suitable fixing to the wall. Hang the enclosure from the

top fixing point and ensure that it is level. Mark the locations of the other two mounting

holes.

12. Remove the enclosure from the wall and fit suitable fixings to the two remaining mounting

points. Fix the enclosure to the wall using all three mounting points.

13. Carefully remove the required knock-outs in the panel enclosure and gland all field wiring

in place ensuring that the cable conductors are of sufficient length inside the enclosure.

Ensure that all conductors are clearly labelled. DO NOT remove knock-outs from any

unused cable entries. Any unused cable entries which are open must be sealed

with a suitable plug (available separately).

14. Connect the earth drain wires of the field cabling to the brass earth bar positioned at the

top of the backbox. Up to two drain wires may be connected to each terminal.

15. Ensure that continuity of any cable shield is maintained through to the last device on the

circuit. The shield must only be connected to enclosure earth in the panel by using the

earth bars provided. [Different requirements apply for the screen of data cable used for

connecting repeaters – see 12.2.2 below].

16. Connect the incoming protective earth conductor to the Earth terminal in the mains

terminal block. This is the primary earth point and is labelled

Internal Panel Views

[also labelled E]. See

17. Clear any dust and debris from inside the enclosure.

18. Connect the mains-in LIVE cable to the mains terminal block [L terminal] as indicated in

Internal Panel Views.

20. Connect the mains-in Neutral cable to the mains terminal block [N terminal] as indicated

in Internal Panel Views.

21. Secure the mains-in cable to the cable clamp adjacent the mains terminal using the cable

tie supplied. NOTE: The clamp should be over the outer cable insulation.

22. Reinstallation of the chassis is the reverse of removal. Reconnect all wires and ensure

none are trapped between the chassis and back-box. Do not connect the field wiring at

this stage.

23. Refit the door. The refitting procedure is the reverse of removal. Ensure that the earth

strap and ribbon cable are reconnected correctly.

24. Place the left-hand battery into the bottom of the enclosure. The terminals should be

positioned towards the centre of the enclosure and the battery should be adjacent to the

left side of the back-box, fixed by the raised indents in the back-box, one above the

battery and one to the right.

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25. Place the right-hand battery into the bottom of the panel. The terminals should be

positioned towards the centre of the enclosure and the battery should be adjacent to the

right side of the backbox located by the raised indents in the back box above the battery

and to the left.

26. Connect the black battery lead to the power supply “Batt -” [battery negative] terminal and

connect the red battery lead to the power supply “Batt +” [battery positive] positive

terminal [situated on the motherboard for the Mx-1002, Mx-1004, Mx-1008 and Mx-1016

panels and repeater panel or on the separate power supply board in the Mx-1032 panel].

The location of the motherboard battery terminals are shown in Figure 10 – C1627

Motherboard Layout and Fi gure 12 – 32-Zone Power Supply Layout. Fit the connector on

the end of the black lead onto the negative (black) terminal of the left-hand battery. Fit the

connector on the end of the red lead onto the positive (red) terminal of the right-hand

battery.

28. Connect the blue battery lead between the positive (red) terminal of the left-hand battery

and the negative (black) terminal of the right-hand battery. Note that the batteries will not

power the panel until the mains supply is energised.

12.2.2

Installation And Connection Of The C1631 Repeater Interface

Warning: Observe anti-static precautions

1. Ensure that the panel and repeaters are powered down and the main and standby

supplies are disconnected.

2. On the fire alarm panel and each repeater, remove the jumper link at J22 (adjacent to J9)

and fit a C1631 repeater interface to connectors J13 and J9 located immediately to the

left of the Zone Expansion ribbon connector on the right-hand side of the C1627

motherboard. The board should be held in place by the 12mm high plastic spacer

provided. See Figure 10 – C1627 Motherboard Layout.

3. Connect the RS485 data cable as shown in Figure 13– Repeater Connection Diagram.

If the repeater is powered from the panel then connect the Aux 24V d.c. supply from the

panel to the repeater.

Notes:

1. Use only RS485 screened data cable.

2. Connect the cable screen to earth only at the fire alarm panel.

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Figure 13– Repeater Connection Diagram

EARTH BAR

Through connector

insulated from

panel earth

Screen

To other

repeater

panels

Repeater

TB21

TB20

[Top right hand corner of motherboard]

Mx-1000 Series repeater panel [max 5

off]

Mx-1000 Series fire detection/alarm panel

Power Supply connections not shown.

Connect the repeater mains power supply (if required) to the L, N and E terminals as described

above for the panel.

Page 18 of 40

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13 Commissioning

13.1

Introduction

The following equipment should be available where possible to minimise commissioning time:

i) VHF/UHF Portable Radio (for two engineers)

ii) Multi-meter or equivalent

13.2

Commissioning Checklist

1. Before commissioning, the engineer should check the following:

i) All field wiring has been inspected and tested in accordance with CEL wiring

recommendations, current issues of BS5839:1 and BS7671 IEE wiring regulations.

ii) All field cables are glanded into the control panel cabinet.

iii) Detector bases are terminated but detector heads are not fitted. Any devices with

electronic components are not fitted. Terminations to devices with electronic

components should be linked through to maintain cable continuity.

iv) Manual Call Points are not connected but cable is linked through to maintain continuity.

v) No end-of-line devices (e.g. alarm circuit EOL resistor) are fitted in the field.

2. The following information should be available to the commissioning team:

i) Detection layout drawings.

ii) Wiring schematic diagram.

v) Control Panel installation manuals.

vi) Installation manuals for all equipment connected to the system.

vii) Site specific configuration details.

Experience has shown that tracing wiring faults on long circuits that are routed through risers etc.

can be difficult without knowledge of the wiring route.

It is recommended that the electrical installer be made available until basic wiring continuity is

proven. A minimum of two persons (e.g. engineer and mate) is recommended for efficient

commissioning.

13.3

An Overview Of The Commissioning Procedure

Commissioning is broken in to 3 sections:

i) Pre-commissioning wiring check.

ii) Powering the panel up with no field wiring connected, configuring the panel in

accordance with the site-specific requirements and carrying out a functional check.

iii) Functional testing of all circuits and field devices to check each circuit and function in

turn to ensure correct operation of the entire system.

In this way any faults may be located quickly and accurately. The general procedures are as

follows:

○

Alarm circuits should be checked first. The correct operation of each sounder should be

checked for correct audibility as specified in BS5839:1, using the Evacuate function.

○

Detection zones should be commissioned next. The purpose is to establish the correct

functioning of each device and checking for correct indication at the control panel. The

panel responses as configured should be checked at this time.

○

All ancillary inputs and outputs should be commissioned and the functionality

confirmed.

Fire protection signals should be tested.

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○

Fire and fault routing signalling should be tested.

WARNING: Before testing, the engineer must be aware both of the operation of all

devices fitted to the auxiliary circuits and of the consequences of their operation.

13.4

Pre-Commissioning Wiring Check

NOTE: This pre-commissioning wiring check procedure should be followed to test all

wiring prior to specific commissioning of any detection, alarm and auxiliary circuits.

1. Ensure that no devices are connected to the detection zones and alarm circuits, but that

the cables are linked through at the device locations to achieve a continuous circuit.

2. Ensure that the resistance of all cables to earth and between cores is at least 2MΩ.

Check the following:

i) Positive to earth resistance is 2MΩ or greater.

ii) Negative to earth resistance is 2MΩ or greater.

iii)Positive to negative resistance is 2MΩ or greater.

3. Connect a wire link as the end-of-line device on each of the zones and alarm circuits. At

the panel end, measure the resistance across the positive & negative ends of the cables

for each of the circuits; ensuring the value does not exceed 20Ω. Remember to remove

the wire links after the tests.

Correct polarity throughout all circuits must be maintained. Rectify any faults.

All bells, detector heads and call points should now be connected and the correct end-of-line

devices fitted. Use the spare end-of-line devices supplied and leave the EOL devices in the panel

terminals at this stage. Remember to remove any links fitted to detector bases. Be very careful to

maintain correct polarity at each device.

Warning: Intrinsically safe zone arrangement.

○

End-of-line capacitors cannot be connected to zones monitoring Intrinsically Safe

detection devices in hazardous areas. To do so will risk causing an explosion in the

hazardous area. End-of-line resistors with a value of 3K9Ω must be used, which

comply with the requirements laid down in the installation data sheets provided with the

I.S. barrier and the I.S. fire detection devices.

○

In order for detector head removal monitoring to function correctly when resistors are

used as the end-of-line devices, any diodes in the detector bases that are in circuit

when the detector head is removed must be disconnected.

○

The panel must be configured to monitor Intrinsically Safe zones.

The first device on an Intrinsically Safe zone must be an I.S. Zener Barrier or Galvanic

Isolator. Detectors and Manual Call Points on the Safe side of the barrier are not

permitted.

○

To comply with the requirements of BS5839, all manual call points should be located in

the zone cabling between the I.S. Barrier/Isolator and the first detector. Any manual call

point or detector located on the “end-of–line” side of a detector will be rendered

inoperative if the detector head is removed.

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13.5

Powering up

1. Prior to powering up, the panel will have been installed in accordance with the installation

instructions, all cabling will have been fully installed and tested, glanded into the panel

enclosure but not connected to the panel terminals. The mains supply should be isolated

externally to the panel.

2. Check the battery connections are correct.

3. Remove the mains supply fuse from the panel mains terminal block. Once the permit to

energise the mains supply is in place, energise the mains and check the voltage and

polarity are correct before replacing the panel fuse.

4. The panel will power up and if all the end of line devices are correctly terminated in the

panel and the battery is OK, the panel should be silent, displaying only the Power Supply

On indication.

5. Turn the Access keyswitch to “1” and press the Test Display button. The panel should

respond by lighting all indications and sounding the buzzer. This will continue for a few

seconds after the button is released.

13.6

13.6.1

Configuration.

Basic Default Configuration

When first powered up, the Mx-1000 Series Fire Alarm Panel can be operated in the standard

default mode without any additional configuration.

The basic default mode is:

○

All zones latching fire, non-delay, standard [non-intrinsically safe]

Fire Routing, Fire Protection and Sounder outputs not delayed.

13.6.2

Site-Specific Configuration.

It is possible to tailor the functionality of the Mx-1000 Sereies Fire Alarm Panel in line with site-

specific requirements. Details of the site configurable options and the configuration process are

provided in sections 13.6 and 15.1 respectively. Charts are provided in the System Log Book for

planning/recording the actual configuration. This configuration is not lost when the panel is

powered down.

13.7

Commissioning Procedure

After completion of the pre-commissioning wiring check, power-up and configuration, commission

the circuits in line with the following guide.

13.7.1

Alarm Circuits

1. Remove the resistor from the first alarm circuit terminal and connect the first alarm circuit

wiring to the terminals, observing correct polarity. Check that any alarm fault indications

clear after a few seconds.

2. Use the Alarm Test facility [see Mx-1000 Series User Manual] or press Evacuate to

operate the sounders. Check that all sounders connected to the alarm circuit operate.

3. Deselect the Alarms Test condition or if “Evacuate” was used, press silence alarms to

stop the sounders operating.

4. Repeat steps 1 to 3 for the second and any subsequent alarm circuits.

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13.7.2

Commissioning zones

1. Work logically and systematically through each zone.

2. Zone fault conditions:

○

Remove the end-of-line device from the zone 1 terminals and connect the cables of the

zone 1 circuit to the panel terminals, observing the correct polarity. Check that any

zone 1 fault indications clear after a few seconds.

Check the fault monitoring of the cable is correct by applying an open circuit then a

short circuit at the end-of-line device (in the field). Check that the fault condition is

indicated on zone 1 on the fire panel.

Remove the circuit faults, restoring the circuit to the healthy condition and confirm that

the fault indication clears.

3. Zone fire conditions

○

Starting with the device nearest the panel, operate each manual call point and

detection device on the zone in turn.

○

After operation of each device confirm:

•

The fire indication is provided on the panel on the correct zone.

The fire alarm devices operate correctly in line with the panel configuration.

The Fire Routing and Fire protection outputs operate correctly in line with the

panel configuration.

○

Press the Silence Alarms and the Reset buttons after each device test and check the

alarm clears (Manual Call Points must be manually reset before restting the panel).

4. Detector removal operation.

○

Remove the 1st detector along the zone cable [counting from the panel] on zone 1 and

observe the following:

•

The appropriate amber zone fault LED illuminates

The internal buzzer sounds

The fault relay operates

○

For non I.S. zone applications:

•

Operate a manual call point between the detector that has been removed and the

EOL capacitor. Check that the panel reacts as described above for a fire

condition.

Refit the detector, reset the manual call point, press the “Silence Alarms” button

and then the “System Reset” button on the panel’s display board and check that

the control panel returns to its normal state.

Repeat for all detectors on the zone.

○

For I.S. zone applications:

•

Remove the 1st detector in the zone cable [counting from the panel] and operate

a manual call point ensuring that the correct fire alarm condition is raised on the

panel (assuming the installation complies with BS5839).

•

Continue to check the operation of all other manual call points on the zone,

resetting the manual call point and silencing/resetting the panel at each stage.

Refit the detector and check that the control panel returns to its normal state.

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•

Continue to test each of the other detectors in turn, checking on each removal

that:

ꢀ

The appropriate amber zone fault LED illuminates

The internal buzzer sounds.

The fault relay operates.

5. Repeat steps 1 to 4, one zone at a time, until all the zones are commissioned.

6. Any faults that are found must be traced and rectified before proceeding.

13.7.3

Commissioning the Class Change Input

1. Connect the Class Change switch to the class change input on the motherboard.

2. Operate the class change switch and observe:

The alarms sound for 5 seconds then stop.

ii)

iii)

The internal buzzer on the panel does not operate.

The internal buzzer on repeaters does not operate.

3. De-activate the class change switch

13.7.4

Commissioning the Fire and Fault Routing Outputs

1. Remove the resistor from the Fire Routing output circuit terminals and connect the field

wiring to the terminals, observing correct polarity. Check that any fault indications clear

after a few seconds.

2. To operate the output, initiate a fire condition on a zone. Check that the fire signal is

received at the receiving station. Silence and reset the fire alarm panel to clear the output.

3. Remove the resistor from the Fault Routing output circuit terminals and connect the field

wiring to the terminals, observing correct polarity. Check that any fault indications clear

after a few seconds.

4. Initiate a fault condition on the fire alarm panel to signal a fault to the remote receiving

station.

5. Confirm the receipt of the fault warning at the receiving station.

6. Open-circuit the output wiring of each circuit in turn, confirm the fire alarm panel indicates

Fire Routing and Fault Routing faults appropriately.

7. Reconnect the cabling and confirm the faults clear.

13.7.5

Commissioning the Fire Protection control signal

1. Ensure any fire protection equipment to be controlled via the Fire Protection output is

locked off/safe before attempting any connection, testing or commissioning.

2. Remove the resistor from the Fire Protection output circuit terminal and connect the field

wiring to the terminals, observing correct polarity. Check that any fault indications clear

after a few seconds.

3. Initiate a fire condition on a zone to operate the output. Check that the fire signal operates

the interface relay adjacent the fire protection equipment.

4. Open-circuit the field wiring and confirm that the fire alarm panel indicates Fire Protection

output fault.

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5. Reconnect the cabling and confirm the faults clear.

6. Final testing and commissioning of the loop through to the fire protection equipment,

including test [simulated] activation of the equipment, should be carried out at the

appropriate time in conjunction with the engineer responsible for the fire protection

system.

13.7.6

Commissioning ancillary inputs

Remote Silence Alarms, Reset and Evacuate inputs should each be tested by the activation of the

remote equipment. The response should be verified for each signal.

13.7.7

Commissioning ancillary outputs

The correct operation of equipment connected to the Zone Outputs, Disablement Active,

Evacuate Active and Buzzer Active outputs should be verified in turn by initiating a fire condition

on each of the appropriate zones; disabling/enabling a zone; operating the Evacuate button on

the panel’s display.

13.7.8

Commissioning repeaters

1. Power-up the Panel and then the Repeaters. Only the “Power Supply On” LEDs should

be illuminated on the Panel and Repeaters.

2. At Repeater 1, turn the Access control switch to “1”, and press the “Evacuate” button.

Check that the alarms operate and the internal buzzer operates on all repeaters.

3. Press the “Silence” button on the fire alarm panel. Check that the alarm circuits silence

and the internal buzzer silences on all repeaters.

4. Repeat steps 2 and 3 for each repeater.

5. Operate a Manual Call Point on zone 1 and check for correct fire indication at each

repeater.

6. Press the “Silence Alarms” button on a repeater and check that the alarms are silenced

and the Zone 1 fire LED is constantly illuminated on all repeater panels.

7. Press the “Reset” button on a repeater and check that the panel and repeaters return to

the quiescent state.

8. Repeat steps 5 to 7 for each zone and ensure “Silence Alarms” and “Reset” operate

correctly from each repeater.

9. Set the DIL switches on the C1631 Repeater Interface card in the fire alarm panel OFF

(No Repeaters). Check that all repeaters indicate a “Comms. Fault”.

10. Set the C1631 Repeater Interface card DIL switches in the fire alarm panel back to their

previous settings and check that the repeaters return to normal.

11. Set the first repeater address to 0. Check that the panel indicates a “Repeater fault” and

any additional repeaters display a steady “Comms fault” LED.

12. Set the first repeater address back to normal and check that the panel and repeaters

return to normal.

13. Repeat steps 11 and 12 for any other connected repeaters.

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14 User Controls and Indications

14.1

User Indications [showing optional clock module]

General Indicator Section

Indicator Description

Power Supply On

Fire

Colour

Operating Condition

Green

Red

Steady indication for Mains or Standby power On.

Flashes on any new fire alarm condition, changing to a steady

indication on operation of Silence Alarms.

Fire Routing Active

General Fault

Red

Steady indication when the Fire Routing Output is active.

Flashes for any fault condition.

Yellow

Power Supply Fault

System Fault

Flashes for mains or standby power supply/charge fault

Steady indication to indicate Microcontroller or Memory Failure.

Flashes to indicate Engineer’s Configuration Mode active.

Flashes for any positive or negative power supply earth fault.

Flashes for any auxiliary supply fuse failure

Earth Fault

Yellow

Fuse Fault

Repeater Fault

Flashes for any Repeater fault or repeater communication fault,

Flashes for any sounder fault. Steady for sounders disabled.

Steady indication while sounder walk test is active.

Sounder Fault/Disabled

Sounder Test

Fire Protection Fault/Disabled

Flashes for a fault on the Fire Protection Output. Steady when Fire

Protection Output is disabled.

Fire Routing Fault/Disabled

Fault Routing Fault/Disabled

Yellow

Flashes for a fault on the Fire Routing Output. Steady when Fire

Routing Output is disabled.

Flashes for a fault on the Fault Routing Output. Steady when Fault

Routing Output is disabled.

POWER SUPPLY ON

FIRE

ZONE LOCATION

EVACUATE

TEST DISPLAY

FIRE ROUTING ACTIVE

GENERAL FAULT

SILENCE/

RESOUND

ALARMS

ENABLE

DISABLE

POWER SUPPLY FAULT

SYSTEM FAULT

RESET

EARTH FAULT

FUSE FAULT

SILENCE

BUZZER

TEST

REPEATER FAULT

SOUNDER FAULT/DISABLED

SOUNDER TEST

DELAY

ON/OFF/

OVERRIDE

SELECT

FIRE PROTECTION FAULT/DISABLED

FIRE ROUTING FAULT/DISABLED

FAULT ROUTING FAULT/DISABLED

SELECT

ON/OFF

21 : 18 : 05

D / N OFF

User Instructions

Clock Module [Optional]:

Showing time and

Day/Night off

Access Controls Keyswitch:

0 – Controls Locked

1 – Controls Unlocked

Back light flashes for

Clock Module fault.

Zone Location Indications

Indicator Description

Colour

Operating Condition

User Generated Zone Location Text

Red

Flashes when zone is in a fire condition, turning to steady on

operation of Silence Alarms.

User Generated Zone Location Text

Yellow

Flashes when zone is in a fault condition. Illuminates steady

when zone is disabled or in test.

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14.2

User Controls [showing optional clock module]

POWER SUPPLY ON

ZONE LOCATION

EVACUATE

TEST DISPLAY

FIRE

FIRE ROUTING ACTIVE

GENERAL FAULT

SILENCE/

RESOUND

ALARMS

ENABLE

DISABLE

POWER SUPPLY FAULT

SYSTEM FAULT

RESET

EARTH FAULT

FUSE FAULT

SILENCE

BUZZER

TEST

REPEATER FAULT

SOUNDER FAULT/DISABLED

SOUNDER TEST

DELAY

ON/OFF/

OVERRIDE

SELECT

FIRE PROTECTION FAULT/DISABLED

FIRE ROUTING FAULT/DISABLED

FAULT ROUTING FAULT/DISABLED

SELECT

ON/OFF

21 : 18 : 05

D / N OFF

Access Controls Keyswitch:

0 – Controls Locked

1 – Controls Unlocked

Switch

Functionality

Button Availability

Description

Evacuate

Operates all sounders continuously and lights the Evacuated LED

adjacent the button until the silence button is operated.

When controls are unlocked

Silence/Resound

Alarms

Following a fire alarm condition, 1st operation stops sounders. The

General Fire LED and the Zonal fire LED will change from flashing to

steady. 2nd operation restarts the previously silenced sounders.

Reset

Clears the panel display, resets the zones, outputs and operates the

reset relay.

When controls are unlocked and [if

silence before reset is configured]

alarms silence switch has been

operated.

Silence Buzzer

1] Press to stop the buzzer sounding in fire or fault conditions.

When controls are locked or

unlocked

2] In 2 Stage Delay Mode, with stage 1 delay running, press to start

stage 2 delay otherwise all delayed outputs operate when Stage 1 timer

times out.

When the panel is in the fire

condition and the delay is running.

Controls are locked or unlocked

Delay

On/Off/Override

1] Press once to Enable the delay mode, lighting the adjacent delay on

LED. Press again to disable the delay mode and turn off the LED

1] When controls are unlocked and

delay period is set to a value > 0.

2] Overrides the delay when delay is running, turning the delay mode

and the LED off. All delayed outputs will operate immediately.

2] When the panel is in the fire

condition and the delay is running.

Select On/Off

Test Display

Enable

Enables the User select feature [Select ↑ Select ↓] for selection of zones

or outputs via for disablement/re-enablement and also Day/Night On/Off

selection and setting current time on clock module (when fitted).

When controls are unlocked

Press to illuminates all LEDs on the display and operate the buzzer. All

indications remain active for approx 5 seconds after button release. Also

displays alarm counter on clock module (when fitted).

When controls are locked or

unlocked

Press to clear the disablement or test condition on a zone or output

selected via the User Select feature.

When controls are unlocked, the

Select switch has been operated

and a zone or output has been

selected.

Disable

Test

Press to disable a zone or output selected via the User Select feature.

As above.

Press to initiate the One Man Test on sounders or zones as selected via

the User Select feature.

Select ↑ Select ↓

Used to scroll the cursor indication through the zone and output fault

LEDs on the display to select a zone or output for disablement, or test.

[LED illuminated when Select Mode is active]. Also scrolls through clock

module menu (when fitted).

When controls are unlocked and

the Select switch has been

operated.

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15 Operating the Engineer’s functions

15.1 Engineer’s Zone/Output Configuration Process:

●

Various programmable configuration options associated with the zonal inputs and outputs

can be enabled/disabled by operating the appropriate DIL switch located within the panel

enclosure. These are:

○

Configure zones as delayed zones.

Configure zones for use with I.S. barriers/isolators.

Configure zones as latching/non-latching fire indication.

Configure zones to short circuit fire mode.

Configure outputs to be delayed.

Note: Configure Machinery Space Zones feature is not used on the standard Mx-1000 Series

panels.

15.2 Zone or Output Configuration

●

1. Select a programmable configuration mode:

○

Enable the controls on the display, by turning the Access key-switch on the panel

display to the “1” position.

○

If the panel is in the fire alarm condition, silence the alarms and reset.

Open the panel door and locate the appropriate DIL switch on the motherboard [Config

Non-latch Zones; Config I.S. Zones; Config Delay Zones; Config Delay O/Ps] and

move the switch actuator to the ON position.

ꢀ

The CONFIG ENABLED LED on the motherboard will illuminate.

The Panel’s System Fault LED will flash and the buzzer will operate.

The Select LED on the front of the display will pulse.

Any standing fire or fault alarm indications and associated outputs will be inhibited.

If active, the indications for evacuation, silence buzzer, delay on or disablement

indications will clear.

ꢀ

The panel will indicate the current status of the selected programmable

configuration mode on the yellow fault/disabled LEDs on the Zones, Sounders, Fire

Routing and Fire Protection outputs.

A steady indication denotes that the zone/output is already configured to the selected

mode.

No indication denotes that the zone/output has not been configured to the selected

mode.

○

Close the panel door to allow access to the buttons on the display.

●

2. Select a zone or output to be configured:

On the panel display, press the Select On/Off switch to enable the Select Mode.

ꢀ

The Select LED will become steady and the panel buzzer will silence.

A pulsing indication [cursor] will appear either on the Zone 1 Fault/Disabled LED or

the Sounder Fault/Disabled LED/Test depending upon which configuration DIL

switch is selected.

○

Use the Select ↑ and Select↓ buttons to scroll the cursor indication through the

selectable options:

ꢀ

For zonal configuration, through all zones sequentially in forward [Select↓] or

reverse [Select ↑] sequence starting at zone 1.

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ꢀ

For Output Delay configuration, through Sounders, Fire Protection and Fire Routing

outputs in forward [Select↓] or reverse [Select ↑] sequence starting at Sounders.

●

3. To change the configuration of a selected zone or output:

With the cursor flashing on the selected zone or output:

○

ꢀ

Operation of the ENABLE button will apply the configuration functionality to the

selected zone/output causing the associated fault/disabled LED to provide a

continuous indication.

ꢀ

Operation of the DISABLE button will clear the configuration from the selection and

restore normal operation. The fault/disabled LED will clear.

By repeating steps 2 and 3, any number of zones [or outputs] can be configured.

●

4. To quit the programmable configuration mode:

○

To return the panel to normal operating mode applying the updated configuration:

ꢀ

Open the panel door and return the selected Config DIL switch on the motherboard

to the OFF position.

ꢀ

The CONFIG ENABLED LED on the motherboard will clear, the panel buzzer will

silence and the flashing System Fault indication and zone/output configuration

status indications on the display will clear as will the cursor and the Select

indications. Any current alarms, disablements, will be re-indicated along with any

active status indications [Delay on etc.].

○

Close and lock the panel door.

Return the ACCESS keyswitch to the “0” position to disable the controls on the display.

IMPORTANT NOTE: WHILE THE PANEL IS IN THE ENGINEER’S

ZONAL/OUTPUT CONFIGURATION MODE, ALL ZONAL INPUTS ARE IN

PERMANENT RESET AND OUTPUTS ARE INHIBITED – THE PANEL WILL

NOT RESPOND TO ANY FIRE ALARM.

15.3 To Restore the Factory Default Configuration for Zones &

Outputs:

●

Open the panel door and locate the DIL switches SW1-4 to SW1-8 on the motherboard

[Config Non-latch Zones; Config I.S. Zones; Config M/S Zones; Config Delay Zones;

Config Delay O/Ps] and move the switch actuator on each switch to the On position.

○

The Config Enabled LED on the motherboard will flash.

The Panel’s System Fault LED will flash and the buzzer will operate.

Any standing fault or disablement indications will clear.

It will not be possible to enter the Select Mode.

●

Press the Disable button on the panel’s display.

Return DIL switches 1-4 to 1-8 to the OFF position.

○

The Config Enabled LED on the motherboard will clear.

The Panel’s System Fault LED will flash and the buzzer will clear.

The factory default configuration [all zones as latching fire, non-delay, standard [non-

intrinsically safe] will be restored and the Fire Routing, Fire Protection and Sounder

outputs will no longer be delayed

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15.4

Engineer’s Zone/Output Configuration Time-out Warning:

This feature is provided to prevent the panel being left in the Zone/Output Configuration condition.

●

1 minute after the last button press:

The panel buzzer will restart.

○

The Select LED will flash.

The System Fault LED will continue flashing.

●

Press the Select On/Off button to continue with the configuration process otherwise quit

the configuration process as described in 15.2.4 above

15.5 Invalid Configuration conditions:

●

Invalid condition: If 2 or more configuration switches on the motherboard are in the ON

position at the same time:

○

The Config LED on the motherboard will flash.

The System Fault and Select LEDs on the display will flash.

The fault relay will operate.

The panel buzzer will sound.

The Cursor indication will clear.

Configuration will be inhibited.

●

To clear the invalid condition check the zone and output config switches [1/4, 1/5, 1/6,

1/7, 1/8] on the motherboard and ensure that only one is selected to ON.

Invalid condition: Selecting any config mode switch [1/4, 1/5, 1/6, 1/7, 1/8] to the ON

position whilst the panel is in the fire condition.

○

The Config LED on the motherboard will flash.

The System Fault and Select LEDs on the display will flash.

The panel buzzer will sound.

The Cursor indication will clear.

Configuration will be inhibited.

●

To clear the invalid condition, select the config switch to OFF. Reset the fire alarm

condition before attempting the configuration process again.

15.6 List of configuration DIL switches and their functions

●

SW 1/1 - Inhibit F/P on NLZ:

Selects Fire Protection relay to operate or not to operate for a fire condition on any zone

configured to non-latched mode.

○

OFF Fire Protection relay operates for a fire condition on any zone configured to non-

latched mode.

ON: Fire Protection relay does not operate for a fire condition on any zone configured

to non-latched mode.

[Not EN54 compliant function].

●

S/W 1/2 - Delay Alarm Sil & Rst:

○

OFF: Silence and reset available as normal.

ON: Prevents alarms being silenced or reset for a period of 3 minutes after a fire alarm

condition occurs.

○

[Not EN54 compliant function].

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●

SW 1/3 – Delay On Auto:

○

OFF: Automatically turn off the delay mode once a day at the set time [the delay mode

first being turned on manually].

ON: Automatically turn the delay mode on once a day and off once a day at the set

times.

Requires optional clock module.

●SW 1/4 - Config Non-Latch Zones:

○

OFF: Configuration mode disabled.

ON: Enables selected zones to be configured to non-latching fire mode via the

Engineer’s Select feature.

○

[Not EN54 compliant function].

●SW 1/5 - Config I/S Zones:

○

OFF: Configuration mode disabled.

ON: Enables selected zones to be configured to Intrinsically Safe alarm thresholds and

passive end of line fault monitoring via the Engineer’s Select feature. [For use with

appropriate I.S. barriers/Isolators, typically 330 Ohm zener barriers or galvanic

isolators].

○

[Not EN54 compliant function. Provided to meet existing customer requirements.]

●

SW 1/6 - Config M/S Zones:

○

OFF: Configuration mode disabled.

ON: Enables selected zones to be configured to short circuit fire mode via the

Engineer’s Select feature.

SW 1/7 - Config Delay Zones:

○

OFF: Configuration mode disabled.

ON: Enables selected zones to be configured to Delay Mode via the Engineer’s Select

feature.

SW 1/8 - Configure Delay O/Ps:

○

OFF: Configuration mode disabled.

ON: Enables the selection of outputs, via the Engineer’s Select feature, to which the

panel delay will apply.

●

SW 1/9 - 2 Stage Delay:

○

OFF: Single Stage Delay Mode.

ON: Two Stage Delay Mode.

SW 1/10 - Alarms on Evac Only:

○

OFF: Sounders operate on any fire condition including evacuate.

ON: Selects sounders to operate only when the panel is in the evacuate condition

[Not EN54 complaint function. Provided to meet existing customer requirements.]

●

SW 2/1 - Silence Before Reset:

Select type of reset mode. [Not EN54 compliant function. Provided to meet existing customer

requirements]:

○

OFF: Reset available when panel is in the [un-silenced] fire or fault condition.

ON: Fire Condition Reset available only when panel is in Alarm Silenced condition.

Fault reset available when panel is in the fault condition.

●

SW 2/2 to 2/5 - Delay/Minutes:

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Sets the duration of the variable time delay element [i.e. the single stage delay and stage 2 of the

two stage delay] in steps of 1 minute within the range 0-9 minutes. See Table 1 - Delay Switch

Settings

Table 1 - Delay Switch Settings

Delay

S/W 2/2

S/W 2/3

S/W 2/4

S/W 2/5

Duration

Delay

Off

disabled

1 min

2 min

3 min

4 min

5 min

6 min

7 min

8 min

9 min

10 min

Off

●

SW 2/6 - Enable Zonal Alarms:

Select the type of sounder alarm response to a fire condition in conjunction with the Pulse

Non Alarm Zones switch described below. [Not EN54 compliant function. Provided to

meet existing customer requirements] :

○

OFF: General Alarm Mode – all sounders operate continuously until silenced.

ON: Zonal Sounder Mode - Sounder groups for zones not in the alarm condition may

be selected, via the Pulse Non Alarm Zones switch [SW 2/7], to pulse or not to operate.

Note: Zonal alarms on the 2/4 zone panel affects the standard sounder circuits on the

motherboard. On the 8, 16 and 32 zone panels, it affects only the [future] expansion

module sounder circuits.

●

SW 2/7- Pulse Non Alarm Zones:

Select the type of zonal sounder alarm response to a fire condition in conjunction with the

Zone Alarms switch [SW 2/6] described above. [Not EN54 compliant function. Provided to

meet existing customer requirements]:

With the Zone Alarms switch [SW 2/6] in the On position [Zonal Sounder Mode]:

○

SW2/7 OFF: Zonal sounders for zone in the fire condition operate continuously until

silenced. All others are silent.

SW2/7 ON: Zonal sounders operate continuously - all other sounders operate in pulsed

mode until silenced.

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●

SW 2/8 - Silent Zone Test:

Select sounder response in One Man [Detector] Test Mode:

○

OFF: Sounders operate once on each test.

ON: Sounders do not respond to a zone test.

●

SW 2/9 - Buzzer Disable:

Enable/disable panel fire/fault buzzer.

○

OFF: Buzzer is enabled.

ON: Buzzer is disabled. General Disablement LED illuminated.

[Not EN54 compliant function. Provided for commissioning purposes.]

●

SW 2/10 - Latched Faults:

When enabled, all fault conditions latch until the Reset switch is operated.

○

OFF: Non-latched faults.

ON: Latched faults.

15.7

Configurable Options via DIL switch selection on Repeater Interface

Board:

DIL switch SW1 on the C1631 Repeater Interface PCB is used to set the quantity of repeaters

and the repeater addresses as follows:

○

To set the repeater quantity, set SW1 on the C1631 fitted to the fire alarm panel in line

with Table 2 - C1631 setting for quantity of repeaters.

Table 2 - C1631 setting for quantity of repeaters

SW 1

Repeater Quantity

1-1

1-2

1-3

Off

○

To set the addresses of the individual repeater panels, set SW1 on the C1631 fitted to

each repeater panel in line with Table 3 - C1631 setting for repeater addresses. Note that

each repeater must have a different address.

Table 3 - C1631 setting for repeater addresses

SW 1

Repeater Address

0 *

Off

1-1

1-2

1-3

Off

* Note: Address 0 = repeater disabled.

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15.8

Configuring the Fire Routing, Fire Protection and Fault routing O/Ps

To configure the Fire Routing Output to volt-free relay contacts, remove links J10, J11 and J12.

[These links are combined in a single block].

To configure the Fire Protection Output to volt-free relay contacts, remove links J14, J15 and J16.

[These links are combined in a single block].

To configure the Fault Routing Output to volt-free relay contacts, remove links J6, J7 and J8.

[These links are combined in a single block].

These links are located below the associated output in the top right hand section of the C1627

motherboard. See Figure 10 – C1627 Motherboard Layout

15.9

Enable/disable earth fault monitoring.

To disable the earth fault monitoring, remove the link J18 located towards the bottom right hand

corner of the C1627 motherboard. See Figure 10 – C1627 Motherboard Layout.

16 Optional Clock Module – Configuration and Setting

16.1

Standard Module Engineer Mode:

16.1.1

To Zero the Alarm Counter:

Open panel door and move the DIL switch 1, pole 2 on the clock module PCB to the ON position.

Return the DIL switch to the OFF position.

16.1.2

To Access the Engineers Clock Module Edit Functions:

Select the Access Control key switch to position “1”.

Press SELECT ON/OFF button.

Use the ↑↓ buttons to scroll the cursor LED indication through the selectable options on the panel

display LED indications until the LCD backlight illuminates. The normal time display is:

HH:MM:SS

D/N ON

HH:MM:SS

D/N OFF

•

To select Day/Night Mode On/Off:

Press the SELECT ON/OFF button to enter Day/night mode On/Off Set Display:

D/N ON

Change?

D/N OFF

Change?

On the rear of the Clock Module PCB, move the DIL switch 1, pole 1 to the ON

position. Pressing ENABLE (+) or DISABLE (-) toggles the setting between D/N

ON and D/N OFF.

•

To set the current time:

Press SELECT ↓ to enter the current Time Set Display:

HH:MM:SS

Time Set

flashing

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Press ENABLE (+) or DISABLE (-) to adjust the hours (HH) to the desired value

(0-23).

Press SELECT ↓ to select the minutes:

HH:MM:SS

Time Set

flashing

Press ENABLE (+) or DISABLE (-) to adjust the minutes (MM) to the desired

value (0-59).

Press SELECT ↓ to select the seconds:

HH:MM:SS

Time Set

flashing

Press ENABLE (+) or DISABLE (-) to adjust the seconds (SS) to zero.

•

To set Day/Night Mode On Time

Press SELECT ↓ to access the Day/Night Mode On Time Set Display:

HH:MM:SS

ON Time

flashing

Press ENABLE (+) or DISABLE (-) to adjust the hours (HH) to the desired value

(0-23).

Press SELECT ↓ to access select the minutes:

HH:MM:SS

ON Time

flashing

Press ENABLE (+) or DISABLE (-) to adjust the minutes (MM) to the desired

value (0-59).

Press SELECT ↓ to access select the seconds:

HH:MM:SS

ON Time

flashing

Press ENABLE (+) or DISABLE (-) to adjust the seconds (SS) to the desired

value (0-59).

•

To set Day/Night Mode Off Time

Press SELECT ↓ to access the Day/Night Mode On Time Set Display:

HH:MM:SS

OFF Time

flashing

Press ENABLE (+) or DISABLE (-) to adjust the hours (HH) to the desired value

(0-23).

Press SELECT ↓ to access select the minutes:

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HH:MM:SS

OFF Time

flashing

Press ENABLE (+) or DISABLE (-) to adjust the minutes (MM) to the desired

value (0-59).

Press SELECT ↓ to access select the seconds:

HH:MM:SS

OFF Time

flashing

Press ENABLE (+) or DISABLE (-) to adjust the seconds (SS) to the desired

value (0-59).

Press SELECT ↓ to exit to the Delay On/Off Set Display:

D/N ON

Change?

D/N OFF

Change?

Pressing SELECT ↓ repeates the cursor/display changes as above.

Pressing SELECT ↑ repeates the cursor/display changes as above in reverse.

•

To exit Clock Module Menu:

Return the WP DIL switch on the Clock Module to OFF position.

Press SELECT ON/OFF: Module switches off the LCD backlight and exits

configuration mode. The normal time display is:

HH:MM:SS

D/N ON

HH:MM:SS

D/N OFF

On completion of editing, return the Access Control key switch to position “0”.

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16.2

Configuring the Clock Module

The Clock Module is configured by setting Link 1 and DIL switch 1. These are both located on the

rear of the C1651 Clock Module PCB [accessed by opening the panel door].

Link 1

Position Selected

Fitted

Function

1^stFire Alarm Time Mode selected

Removed

Day/Night Mode selected

Link 1

DIL Switch 1

Pole

Position Selected

Function

Removed

Fitted

Left [Off]

Right [On]

Left [Off]

Right [On]

Left [Off]

Clock Module Menu configuration disabled

Clock Module Menu configuration enabled

No effect

Removed

Day/Night mode and Fire Event Counter mode

enabled.

Right [On]

Day/Night mode and Fire Event Counter mode

disabled.

[To zero the Fire Event Counter, select “On”

momentarily then return to “Off”].

Fitted

Left [Off]

1^stAlarm Fire Time and Fire Event Counter

Mode enabled

1^stAlarm Fire Time and Fire Event Counter

Mode disabled.

Right [On]

[To zero the Fire Event Counter, select “On”

momentarily then return to “Off”].

Table 4 – C1651 Clock Module DIL switch 1 and Link 1 Settings

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16.3

C1651 Clock Module PCB Features

Figure 14 llustrates the PCB features referred to elsewhere in the documentation

LK1 – Select

operating

DIL switch S1 -

Select config mode,

reset/disable counter

Figure 14 – C1651 Clock Module PCB

16.4

Clock Module Error Messages

16.4.1

WP DIL Switch Error Message:

WP DIL Switch is operated when the timer is not in Timer Set Mode, the normal display flashes

with WP DIL switch message:

HH:MM:SS

D/N ON

HH:MM:SS

D/N OFF

Changes to (pulses every second):

WP DILSW

IS ON

The backlight remains OFF. The panel indicates a general fault and prevents the clock module

from being accessed by the user/engineer.

16.4.2

EEPROM Error Message:

Data inconsistency has been detected in EEPROM0 or EEPROM1:

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EEPROM 0

ERROR

EEPROM 1

ERROR

Note: Both EEPROM devices can be erased by the following procedure:

1. Power down the panel.

2. Place the WP DIL switch in th ON position.

3. Powe the panel back up.

4. Return the WP DIL switch to the OFF position when the display is as

described in 16.4.1 above.

16.4.3

ROM Checksum Error message:

Internal ROM checksum failed:

ROM FAIL

ERROR

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17 Mechanical, Electrical & Environmental Specification

Mechanical

Mx-1000 Series Panel

Repeater

Specification

2/4

8 zone

16 zone 32 zone 2-8

zone

Size [mm]

Height:

Width:

Depth:

340

370

441

340

441

325

400

325

400

126

131

Weight excluding

batteries:

5.65Kg

7.05Kg

9.35Kg

5.65Kg

7.6Kg

Mains Input

Mx-1000 Series Panel

Repeater

Specification

2/4

zone

8 zone

16 zone 32 zone 2-8

zone

Maximum Input Power:

Protection:

85W

165W

240W

85W

T1A

T3.15A

H250V

[3.15A

T3.15A

H250V

[3.15A

T3.15A

H250V

[3.15A

T1A

[Warning: Replace only

with identical type & rating

of BEAB or VDE approved

fuse]

H250V

[1A anti-

surge]

[1A anti-

surge]

[1A anti-

surge]

anti-surge] anti-surge] anti-surge] surge]

Voltage:

230V AC +10%/-15%

Cable requirements:

Minimum of 1mm²copper protected by a 5A fuse.

Power Supply

Output

Specification

Mx-1000 Series Panel

Repeater

2/4

8 zone

16 zone 32 zone 2-8

zone

Maximum Current Output,

Mains On

1.5A

Voltage Output, Mains On

26.5 - 28.6V

1.5A

Maximum Current Output,

Mains Failed

Voltage Output, Mains

Failed

19.2 - 27V

Output protection:

Electronic current limiting

Common fault output:

Mains failed fault output:

N/A

50mA

N/A

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Battery

Mx-1000 Series Panel

Repeater

Specification

2/4 zone

8 zone

16 zone

32 zone

2-8

16 zone 32 zone

zone

Battery charger output: 1.5A

1.5 A

[Temperature

compensated float

charger

28.6V ±0.1V@-5°C

26.5 V±0.1V@ +40 °C.

Battery type:

2 off

POWERSONIC

PS1230

[12V 3Ah]

PS1270

[12V 7Ah]

PS12120

[12V 12Ah]

PS12180

[12V 18Ah]

PS1230

[12V 3Ah]

PS1230

[12V 3Ah]

PS1230

[12V 3Ah]

[Warning: Replace

only with identical

battery]

Battery size:

134mm x

67mm x

60mm

151mm x

65mm x

94mm

151mm x

98mm x

94mm

180mm x

76 mm x

134mm x

67mm x

60mm

134mm x

67mm x

60mm

134mm x

67mm x

60mm

[For one 12 V pack]

167mm

Battery circuit

protection:

F2AL250V

F5AL250V

F6.15AL250V

F2AL250V F2AL250V F2AL250V

20mm fast

blow glass

fuse

20mm fast

blow glass

fuse

20mm fast

blow glass

fuse

20mm fast

blow glass

fuse

20mm fast

blow glass

fuse

20mm fast

blow glass

fuse

20mm fast

blow glass

fuse

[Warning: Replace

only with identical

type & rating of fuse]

Mains failed fault

battery current:

45mA

80mA

45mA

80mA

45mA

80mA

55mA

90mA

40mA

75mA

40mA

75mA

40mA

75mA

Mains failed alarm

battery current:

Environmental

Specification

All Panels

Operating

temperature:

-5ºC to 40ºC

5% to 95%

Operating humidity:

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