Touchpoint 9454 alarm control panel, 9425 remote keypad, 8440 digital communicator, SAB, SCB external sounder, door contact, PIR detector, 9040 extension speaker Instruction manual
Below you will find brief information for alarm control panel 9454, remote keypad 9425, digital communicator 8440, external sounder SAB, external sounder SCB, door contact, PIR detector, extension speaker 9040. The 9454 Alarm Control Panel is a fully programmable 5 zone control panel designed to meet the requirement of both domestic and small commercial installations. The control panel also incorporates separate circuit connections for the Exit/Entry, Panic Alarm and individual zone Anti-tamper circuits. The system may be set with the detection fitted to zone 1, 2, 3, 4 & 5 either On or Off., these circuits can be 'Omitted'. The user and engineer can perform system programming and operation from strategic locations within the premises. The keypads can be located at any convenient position for the user, providing they are within the protected area.
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C
ONTENTS
8
9
10
11
12
13
14
15
16
17
18
4
5
6
7
Section
1
2
3
Title Page
GLOSSARY OF TERMS............................................... 2
INTRODUCTION.......................................................... 4
OPERATOR CONTROLS
AND DISPLAYS.......................................................... 4
SYSTEM PLANNING....................................................5
CONTROL PANEL....................................................... 10
WIRING THE CONTROL PANEL...................................11
DIGITAL COMMUNICATOR......................................... 13
WIRING REMOTE KEYPADS....................................... 14
WIRING EXTERNAL SOUNDER ...................................15
FITTING DOOR CONTACTS.........................................16
FITTING PIR DETECTORS........................................... 18
INITIAL START UP...................................................... 20
PROGRAMMING THE SYSTEM.................................... 20
ENGINEER COMMANDS.............................................. 28
REFRESHING THE NVM ............................................. 30
FACTORY DEFAULT CODES...................................... 30
REMOTE RESET........................................................ 31
FAULT FINDING GUIDE.............................................. 32
1
1 G
LOSSARY
O
F
T
ERMS
Loud Speaker (LS) -
(Internal Sounder)
Auxiliary Power
Outputs (AUX)
Programmable
Output (O/P)
(a) PIR Set Latch
(O/P)
(b) Shock Sensor
(O/P)
Zone
Anti-Tamper (A/T)
Personal Attack
(P/A)
Entry/Exit Zone
(E/E)
Final Door
Exit Terminate
(E/T)
Zones
Zone Types
(a) Not Used
(b) Normal alarm
2
-
-
-
-
-
-
-
-
-
-
-
-
-
A speaker fitted within the main control panel, which is used as an internal sounder for Entry/Exit and Alarm tones. A remote boxed speaker/sounder can also be fitted to the speaker terminals.
A 12 volt positive and negative output used for powering detectors, etc. The maximum current to be drawn from these terminals is 350mA.
This is a transistorised (open collector) output, which can be programmed for one of two options as follows:
Where more than 1 detector (i.e., PIR or Break Glass) is fitted to a zone and an alarm has occurred, it is not possible to identify the exact unit to have caused the alarm. The 'Set Latch' facility enables the installer to connect the units in such a way that when an alarm occurs, the unit can be identified. This output will be active when the exit time expires, thereby resetting all detectors. When an alarm occurs the output will de-activate, latch the indicator of the unit triggered and inhibit all other units.
The output will also de-activate when the system returns to the
'Day' mode.
Where stand-alone shock sensors are used, the units normally latch when an alarm is detected. To reset the detectors automatically, connect the positive supply from the detectors to the output terminal. When the exit time is initiated, the output will de-activate for six seconds and will clear the latched devices.
The system has an anti-tamper facility for all wiring and sensors etc. This gives all wiring 24 hour protection from damage or unauthorised interference of equipment. Activation of the tamper circuit will provide audible warning from the internal sounder along with a tamper and zone LED in the 'Day' mode, or a full alarm in the 'Set' mode.
Closed circuit device used to initiate a full alarm condition in the event of threat to the user. Initiates alarm irrespective of panel setting.
Terminals marked E/E for connection to Final door contact or
Entry/Exit detectors. Connection to this zone will be determined by the Exit route chosen and associated timers.
The last door to be closed on exit will 'Set' the system. Opening the final door will start the entry timer.
Terminals marked E/T and 0V for connection to a normally open push-button. This is used to finally 'Set' the system after the user code is entered and the exit procedure is started (used only when remote signalling is fitted).
Closed circuit loops for connection to alarm detectors. If no device is connected to a zone, the zone should be programmed as 'Not Used'.
Zones may be programmed as one of the following four types:
Circuit connections inactive
Activation of a zone programmed as 'Normal Alarm' will cause an instant alarm condition when the panel is 'Set'.
G
LOSSARY
O
F
T
ERMS (Cont.)
1
(c) 24 Hour Zone
(d) Entry Route
Zone Attributes
(a) Double Knock
(b) Chime
(c) Part Set
(d) Omit Allowed
Mains Connection
External Sounder
Internal Sounders
& Strobe
Part Set
Full Set
Customer Code
Engineer Code
-
-
-
-
-
-
-
-
-
-
-
-
-
-
Opening a zone programmed as 24 Hours when the panel is in the 'Day' mode, will cause an internal alarm. All 24 hour zones become normal alarm zones when the panel is 'Set'.
Selected for intermediate doors or detectors between the control panel/keypad and final door. Activation of this zone type is inhibited during the entry time.
Specific zone types may have the following attributes.
If a zone programmed as 'Double Knock' is activated when the system is 'Set', the event will be logged and a five minute time window will be started. If a second activation occurs within the time window, an alarm will be initiated. Alternatively, if the zone remains open after an activation for more than 10 seconds, an alarm will be initiated. This attribute can be selected for Normal
Night and Entry Route zones.
Opening a zone programmed as 'Chime', will cause the internal sounder to emit a warning tone (operates in the 'Day' mode only). The user must select 'Chime' to enable this function. This attribute can be selected for Normal Alarm zones, Final Door and Entry Route zones.
Zones programmed as 'Part Set', will be active when the user selects Part Set. Zones not programmed as Part Set, will remain inactive. This attribute may be selected for Normal Alarm zones, Final Door and Entry Route zones.
When a zone is programmed as 'Omit Allowed', the system will allow a zone to be omitted by the user if required. This attribute may be programmed for Normal Night, 24 Hour zones and Entry
Route zones.
The mains connection is via a 3 way terminal block located adjacent to the mains transformer in the back box. The supply should come from an unswitched spur outlet fitted with a 3 Amp fuse.
External bell or siren fitted in a tamper proof housing with a strobe warning light also fitted to the casing. Two types of external sounders are available, SAB or SCB. These require a module to be fitted within the casing, which provides the facility for the on-board rechargeable battery to ring the bell/siren if the wiring is cut or casing is tampered with. Opening the bell tamper switch or damaging the wiring in the 'Day' mode will cause a
Local Alarm to occur.
The control panel can support up to two internal loudspeaker/ sounders. These are connected to the terminals marked LS, one loudspeaker is supplied with the control panel and the other may be fitted within the premises. Type 9040 16 ohm.
All alarm warning and entry/exit tones are generated by these sounders.
Setting only part of the system.
Setting the system with all the zones on.
4 digit code number entered at the keypad to 'Set' and 'Unset' the alarm system.
4 digit code number used by the installer to programme the system.
3
4
2
I
NTRODUCTION
The 9454 Alarm Control Panel is a fully programmable 5 zone control panel designed to meet the requirement of both domestic and small commercial installations.
A basic system comprises a Main Control unit complete with built-in Keypad.
The main control unit houses the system electronics, power supply, battery and remote signalling device (if fitted). A numeric keypad and row of indicators
(LEDs) are provided on the unit, from which the user and installer perform the system operation.
Remote Keypads provide the user with the facility to set and unset the system from strategic locations within the premises and allow the installer to programme the system. Up to TWO remote keypads may be connected to one system. A numeric keypad and row of indicators (LEDs) are also provided on the keypads to perform the system operation. The keypads also have an optional key press PA facility, if required.
Before installing the alarm system, the installer should be fully familiar with the functions of the 9454 Control Panel and the various system plans and detectors which are described in this manual.
Examples of the 9454 used in both domestic and small commercial installations, are shown on pages 6-9. It is recommended that the installer studies these plans before attempting to install and programme the control panel.
3
O
PERATOR
C
ONTROLS
A
ND
D
ISPLAYS
WRITE ON LABEL FOR
ZONE DESCRIPTIONS
ZONE LEDs
GREEN POWER LED
SYSTEM STATUS
AND FAULT LEDs
ENTRY
E X I T
1
2
3
4
5
9
4 5 4
PANIC
TAMP
POWER
DAY
FULL
Full
1
<<
Prog
4
PART
Chime
7
LF.
SERVICE
FAULT
ENTER
*
Part
2
PA
3
>>
Log
5 6
Bell-test-Walk
8 9
0
OMIT
#
ILLUMINATED
KEYPAD
Fig. 1. 9454 Front Panel Layout
S
YSTEM
P
LANNING
4
INSTALLATION PRECAUTIONS
Before installing a security system, ensure that all windows and doors are secure and are not in need of repair. False alarms can occur if doors and windows are insecure. Make sure there will be no pets or movement which will directly affect the performance of movement detectors, if fitted.
Where possible it would be an advantage to have the ground and upper floor windows fitted with locks. This in effect, will force an intruder to spend more time gaining entry than he would like to, therefore reducing his time available for entering the premises. As a result of this, your alarm system can be simpler and more effective and will be less likely to false alarm than a complex system covering all rooms and windows.
Locating The Control Panel
The control panel should be installed in a safe and unobtrusive position.
Stair cupboards are suitable where the mains supply in most houses will be close at hand for the control panel. The unit should be positioned in such a way that the user can turn the system On and Off without great difficulty and with adequate vision. In addition, consideration should be given to the users ability to reach the final door and hear the exit sounder at the required distance (an extension speaker/sounder may be fitted).
Locating Remote Keypads
Remote keypads (9425) allow the user and engineer to perform system programming and operation from strategic locations within the premises. Up to two keypads may be connected to one system. The keypads may be located at any convenient position for the user, providing they are within the protected area.
Note: The Exit/Entry tones are not available from the keypads, therefore, it is recommended that an extension speaker is fitted to the system near the exit route. Keypads only provide key-depression tones.
Locating The External Bell
The external bell with strobe flashing light should be fitted as high as possible, thereby reducing the possibility of interference by an intruder. The position of the bell may also depend on a number of factors, which may directly affect the ability of the bell to be seen and heard. Locate the bell in a position where it may easily be seen. Do not locate the bell facing heavy traffic or a railway as this can and will affect the ability of the bell to be heard at a relatively short distance. The wiring to the bell should enter the bell directly through the wall.
Never run surface wiring to an external bell unless mechanically protected, e.g., conduit.
Locating The Deterrent Bell (Dummy)
For additional protection, 'Dummy' bell housings may be fitted to the other sides of the building. The 'Dummy' bells are identical in appearance to the real unit but do not contain any equipment. These act as good deterrents from any elevation to show the house is protected.
5
4 S
YSTEM
P
LANNING (Cont.)
Alarm Detectors
There are several types of detection devices available which are suitable for a simple domestic installation as follows:
PIR A movement detector which detects movement of an intruder by infra red body heat compared to the normal room level.
DOOR CONTACT -
VIBRATION -
A magnetic reed switch used to detect the opening of windows or doors.
A detector designed to detect a shock attack on a window, wall or door frame.
PANIC BUTTON A device used to operate the alarm sounders in the event of threat to the user and will operate irrespective of the panel setting
INSTALLATION EXAMPLE 1
The examples on page 7 shows a security system fitted to a typical house with up and down stairs.
Ground Floor
(a) Due to over two thirds of burglaries being committed by entry gained from the front and back doors, Fig. 2. shows a magnetic contact fitted to the front and back doors. In addition to detecting when the doors have been forced, the 9454 will not set if a magnetic contact is open, thereby prompting the user to check and close doors or windows prior to setting. (front door E/E, back door E/E).
(b) The valuables in the lounge are protected by a Passive infra red (PIR) movement sensor. The unit is designed to detect small changes in infra red heat levels caused when an intruder enters the room. Additional PIR detectors can also be fitted in other rooms or the hallway if required. (Zone 1, 2 & 3).
First Floor
(a) The first floor layout in Fig.3. shows a simple method of fitting magnetic contacts to the doors onto the landing. This ensures that anyone entering a room through a window is restricted to that room. Entering the hall would cause the alarm to operate when the door is opened (Zone 5). Alternatively, a PIR detector could be fitted on the landing giving the same protection.
(b) The external bell and strobe is fitted high at the front of the house and a 'Dummy' bell is located to the rear of the house.
Note 1 The system may be set with the detection fitted to zone 1, 2, 3, 4 & 5 either On or Off., these circuits can be 'Omitted'.
Note 2 Any entry route zone can be programmed to automatically trigger the entry timer when the system is 'Part Set'. This may be considered if a child or guest inadvertently strays downstairs when the system is set.
6
S
YSTEM
P
LANNING
(
Cont.
)
TYPICAL HOUSE FLOOR PLANS
DOOR CONTACT
(E/E)
PASSIVE INFRA
RED (ZONE 3)
C
KITCHEN
D/ROOM
4
PIR DETECTOR ON
ZONE 2
CONTROL PANEL
OR RKP
LOUNGE HALL
C
PA BUTTON
PASSIVE INFRA
RED (ZONE 4)
Fig. 2 Ground Floor Plan
DUMMY BELL
FITTED AS HIGH AS
POSSIBLE
PIR DETECTOR ON
ZONE 1
DOOR CONTACT
(ENTRY/EXIT)
BEDROOM 2
C
BATHROOM
C
9425 RKP
OPTION
BEDROOM 1
C
LANDING
C
BEDROOM 3
PA BUTTON
EXTERNAL BELL
FITTED AS HIGH AS
POSSIBLE
Fig. 3. First Floor Plan
PIR ALTERNATIVE
DETECTOR ON
ZONE 5
DOOR CONTACTS
ZONE 5
7
4
S
YSTEM
P
LANNING
(
Cont.
)
INSTALLATION EXAMPLE 2
The examples shown on page 9 show a security system installed in a typical small shop.
The installation example shown on page 9, shows a shop with a flat above for living accommodation. Both the flat and the shop are to be protected using one system.
Shop Area (Fig. 4)
(a) The main shop front door is protected in two ways. First by a magnetic contact on the door and secondly by foil on the door glass. The front door is connected to the Entry/Exit zone and the foil is connected to zone 1. The front shop window is also protected with foil, then wired in series with the door foil. When foil is fitted to glass, the zone must be programmed as 24 hrs. This will permanently monitor the circuit and give 24 hour protection to the shop front.
(b) The main shop area is protected by a Passive Infra Red detector
( PIR ). The detector is connected to zone 2 on the control panel and programmed as Entry Route.
(c) A second Passive Infra Red detector ( PIR ) is located in the shop stockroom and connected to zone 3 on the control panel.
(d) An additional door contact is fitted to the stock room door (zone 4).
Flat Area (Fig. 5)
(a) The flat doors from the landing area, are all fitted with magnetic door contacts and wired in series then connected to zone 5 on the control panel.
Alternatively, a PIR detector may be located on the landing.
(b) Two panic buttons are installed, one in the flat main bedroom and one in the shop under the counter.
(c) The control panel ( 9454 ) is located behind the counter of the shop and a remote keypad ( 9425 ) is located in the flat main bedroom.
The shop zones EE, Z2, Z3 and Z4 are programmed to be part set. This allows the shop to be protected, but access upstairs (zone 5) when the system is 'Part Set' from the remote keypad in the bedroom.
When the premises are empty (flat and shop), the system should be switched on using the main control panel. All the system will be ON and the user must use the main shop front door for Entry/Exit (designated Entry
Route).
8
S
YSTEM
P
LANNING
(
Cont.
)
TYPICAL SMALL SHOP PLANS
F
DOOR CONTACT
EXIT/ENTRY
C
WINDOW/DOOR
FOIL (ZONE 1)
24HRS
F
PANIC BUTTON
(PA ZONE)
SHOP AREA
COUNTER
PA
9454
PASSIVE INFRA
RED (ZONE 2)
PASSIVE INFRA
RED (ZONE 3)
DOOR CONTACT
(ZONE 4)
C
STOCK ROOM
V
TO FLAT
Fig. 4 Shop Plan
4
PA PANIC BUTTON
(PA ZONE)
FLAT
C
C
C
DOOR CONTACTS
(ZONE 5)
C
V
TO SHOP
9425 RKP
PIR ALTERNATIVE
DETECTOR ON
ZONE 5
Fig. 5 Flat Plan
9
5 C
ONTROL
P
ANEL
Description
The 9454 has been designed as a 'True 5 zone ' control panel for domestic and small commercial installations. The control panel also incorporates separate circuit connections for the Exit/Entry, Panic Alarm and individual zone Antitamper circuits.
The control panel comprises a single printed circuit board, with SMT (Surface
Mount Technology) electronics mounted within a polycarbonate casing with a removable lid.
The mains transformer and internal speaker are located in the back section of the casing, which also has sufficient space for housing a suitable rechargeable battery ( recommended type 12 volt 6.5 AH).
The 9454 has the capability of having up to two Remote Keypads connected to the system. The keypads are provided with an illuminated keypad and LED indicators for the system status. The remote keypads or the main control unit, may be used to programme the system.
Installing The Control Panel
(a) Remove the control panel from the packing.
(b) Choose a location where the end user can easily operate the system.
(c) Remove the front screws and remove the lid.
(d) Remove the pcb mounting screw located to the bottom left of the pcb.
(e) Remove the pcb and keypad assembly.
(f) Mark and drill the centre hole and temporarily fix the panel to the wall.
Now mark the remaining holes, remove the panel and drill the other two holes.
(g) Re-fit the panel to the wall using not less than 30mm x No 10 Dome or
Pan-head screws.
Note: Do not drill the holes with the panel in position as this may result in damage to the electronics.
CENTRE
KEYSLOT
LOUDSPEAKER
UNDER MAIN PCB
8440 'MINICOM'
MOUNTED
UNDER MAIN
BOARD
MAIN PCB
KEYBOARD
SUB PCB
10
SPARE FUSE
MAINS TRANSFORMER
AND FUSED TERMINAL
BLOCK
VOLUME CONTROL
SCREWDRIVER
MOUNTING HOLES
Fig. 6. 9454 Internal Layout
SLOT FOR BATTERY
RETAINING CLIP
W
IRING
T
HE
C
ONTROL
P
ANEL 6
(a) Mains Connection
The mains supply is connected to the control panel via a 3-way terminal block located in the panel back (Eurotype 20mm Fuse).
(b) Battery Connection
A 6.5Ah maximum rechargeable battery must be fitted to the 9454 control panel.
(c) Detector Circuit Connections
Connections for the five zones, Exit/Entry zone and the Personal Attack buttons, are located to the bottom of the main pcb. Each zone (circuit) should have an anti-tamper circuit associated with it.
(See Sections 10 &11)
(d) Cable Entries
Two 16mm round cable entries are provided in the rear enclosure, together with a 30mm entry and two trunking knock-outs at the top and bottom of the casing.
(e) Internal Sounder Connections
Connections for the internal sounder(s) and the control panel 32 ohm speaker are marked LS. One 16 ohm extension speaker (Part No. 9040) can be connected to the system (See Fig. 12, Sect. 9).
Note: If the internal panel speaker is removed, two 9040 extension speakers may be fitted.
(f) External Sounder And Strobe
Connections for the external sounder and strobe are shown in Fig.12,
Section 9.
Max. current available for sounder = 500mA
Max. current available for strobe = 500mA
(g) Programmable Output Connection
The 9454 is supplied with one programmable transistorised output.
The output can be programmed from a choice of two different types,
PIR Set Latch or Detector Reset. Output connections are provided at the control panel terminal strip (O/P). See Fig. 18, Section 11.
(h)
Auxiliary Power
The power to the detectors, etc., is available from the two terminals on the pcb marked 0V and 12V AUX (max current 400mA).
(i) Remote Keypad Connections
See Fig. 11, Section 8.
11
6
W
IRING
T
HE
C
ONTROL
P
ANEL (Cont.)
NVM
RESET
PINS
ENTRY/EXIT VOL.
COMMS O/P
BATT
21VAC
POSITION OF KEYBOARD SUB-BOARD OVER MAIN PCB
PCB FIXING SCREW
CONTROL PANEL COVER
FIXING SCREW
Z1 A/T 1
A/T 2
Z2 Z3 A/T 3
A/T 4
Z4 Z5 A/T 5 EE EE A/T
PA A/T
PA
ET 0V
SIG
12V
S
T
R
B
E
L
12V 0V TR LS O/P 12V 0V
CCT 1
A/T 1 A/T 2
CCT 2 ET 0V SIG 12V
As CCT 1
N.C. Alarm
Contacts
N.O. Alarm
Contacts
N.C. Tamper
Contacts
N.O. Exit
Terminate
Push to Make
Button
Connect to RKP
(9425) Terminals
Fig. 7. 9454 PCB Layout
3
2
1
6
5
4
0V
12V
Pins 1, 3 and 4 are outputs to the
Communicator. All trigger outputs are positive removal in alarm condition.
OPEN/CLOSE O/P
BURG. (INTRUDER) O/P
Pin 2 is a positive input from the communicator line monitor output terminal.
LINE FAULT
MONITOR INPUT
Important Note: If a communicator is not fitted, the comms wiring harness must be removed from the main pcb.
PA O/P
Fig. 8. Communicator Output Pins
12
D
IGITAL
C
OMMUNICATOR
7
If the installation requires to have remote signalling fitted, provision is made in the rear enclosure for the installation of an 8440 'Minicom' four channel digital communicator.
The 8440 can be installed during the initial installation before the B.T.
telephone socket is provided, as connection to the 'Minicom' is via a plug-on pre-wired harness supplied with the control panel.
Fitting The 'Minicom'
(a) With the main control pcb removed, clip the 'Minicom' into the four clips provided to the top left hand side of the enclosure. Make sure that the enclosed part of the 'Minicom' is to the right and the terminal blocks are to the bottom.
(b) Wire the communicator harness to the 12V, 0V and the line fault terminals of the 'Minicom'.
(c) The remaining 3 wires are connected to the following channels: 2 = PA,
3 = Intruder and 4 = Open/Close.
(d) If the B.T. line is available, remove the 'Minicom' line connection cover and connect a cable from the terminals provided to the B.T. socket (see seperate 8440 inst. instructions for correct connections). Reassemble the 'Minicom', refit the control panel pcb, then plug on the harness to the
COMMS pins on the pcb.
Note: The plug-on harness must not be connected to the control 'COMMS' pins if there is NO programmed NVM fitted to the communicator, or if the phone line connection is not available at the time of installation.
Communications Harness Colour Codes
PIN
Pin 1
Pin 2
Pin 3
Pin 4
Pin 5
Pin 6
FUNCTION
PA
Line Monitor Input
Intruder
Open/Close
+12V
0V
COLOUR
Red
Blue
Yellow
Black
Brown
Orange
8440 'MINICOM'
IN CORRECT
LOCATION
MAINS
TRANSFORMER
PANEL
SPEAKER
FUSED MAINS
BLOCK
Fig. 9 Location of 'Mincom' in 9454 Control Panel
CONTROL
PANEL
ENCLOSURE
13
8
R
EMOTE
K
EYPADS
(9425)
Description
The Remote Keypads allow the operator and engineer to perform system operation and programming from strategic locations within the premises. The keypads are provided with a back-lit keypad and LED indicators. Up to TWO keypads may be connected to the 9454. The keypads may be connected to the control panel via a three wire link, either wired in a star formation or daisy chain.
Note: Do not wire the extension speaker or circuit wiring within the same cable as the remote keypad.
Max. Cable Distances
GREEN POWER LED
Daisychain = 300 Metres
Star = 100 Metres (Per Leg)
SYSTEM STATUS
AND FAULT LEDs
ENTRY
E X I T
1
2
3
4
5
PANIC
TAMP
ZONE LEDs
POWER
DAY
FULL
PART
LF.
SERVICE
FAULT
Full
1
<<
Prog
4
Chime
7
Part
2
PA
3
>>
Log
5 6
Bell-test-Walk
8 9
ENTER OMIT
9
* 0 #
9
4 2 5
ILLUMINATED
KEYPAD
Fig. 10 9425 Remote Keypad Layout
Installation
(a)
(b)
(c)
Lift the top and bottom flap on the keypad front.
Remove the four PK screws and separate the front from the back box.
Position the back box on a smooth surface at a convenient operation
(d)
(e)
(f) height, e.g., the height of a light switch.
Fix the back box to the wall using suitable fixings.
Connect the wiring to the terminals provided on the keypad front pcb.
If two keypads are fitted, cut the link on one of the keypad pcbs to change the keypad address.
Note: If an Exit Terminate Button is to be installed as part of the system, connect a Normally Open button to the terminals marked OV and IP on the keypad, or 0V and ET on the control panel.
(g) When the wiring is complete, re-assemble the keypad ensuring that the tamper switch is closed.
9425
FROM
CONTROL
PANEL
TO NEXT
KEYPAD IF
USING DAISY
CHAIN WIRING
IP
SIG OV +V
VOL.
+
-
TAMPER
SWITCH
IP SIG OV +V
PHILIPS
DRIVER
14
CUT LINK FOR
REMOTE KEYPAD
NO. 2
WIRE END
EXIT TERMINATE
PUSH BUTTON
Fig. 11 Remote Keypad and
Exit Terminator Connections
E
XTERNAL
S
OUNDER
9
There are two types of outside bell available: SAB and SCB.
SAB
The SAB type has an SAB module fixed inside the bell housing which basically consists of a few components and an onboard rechargeable battery, which is permanently charged from the control panel. In the event of the tamper switch or the bell casing being opened, wiring to the bell being damaged, or a total loss of power from the control panel, the internal battery will continue to operate the sounder. The trigger required to an SAB is a negative applied in alarm condition.
This type of modules is used to power a sounder or bell which will typically draw no more than 350mA.
SCB
The SCB module is used to operate sounders which draw a greater current than that available from the control panel. When the module is triggered the sounder will use the battery for the supply, thereby allowing high current sounders to be used. The trigger to an SCB is negative removed in alarm condition.
Fitting The External Sounder
(a) Choose a suitable position for the external bell where it will be possible to run the 6 core bell cable directly through the wall into the back of the bell casing.
Run the 6 core cable to the agreed position of the bell. Do not run surface wiring to the bell as this will compromise the security of the system.
(b) Separate the back plate from the cover. Mount the required module and the bell to the back plate. Fix the strobe to the cover using suitable fixings. Fix back plate to the wall using not less than 40mm x 8 screws. If available fix using 10mm
Rawl Bolts.
(c) Make connections to the control panel and SAB module as follows:
Strb - Negative trigger in alarm for strobe light
Bell - Negative bell trigger (Programmable applied or removed)
12V - Positive bell module hold off voltage (Supply)
0V - Negative bell module hold off (Supply)
TR - Negative tamper return from bell module to control panel
Note 1 SAB shown for negative applied.
Note 2 Link tamper return to 0V if no external tamper is required
Note 3 Connect all bell wiring to the control panel with exception of the trigger to the siren or bell. The bell/siren will continue to ring from the on-board battery until the final connections are made after initial power-up.
See Section 12 for final connections.
9040 16 Ohm
Speaker 2 Max., if the internal speaker is disconnected.
9454 Control Panel
LS
TR
0V
12V
BELL
STR
-ve
Bell or siren (350mA)
Typical Bell Module
BELL
+Hold Off
-Hold Off
-VE Ring
Tamper Return
Fig.12 External/Internal
Sounder Connections
+ve
Strobe
Important Note: The connections shown in the above SAB diagram are only an example of a typical SAB module. See manufacturers instructions supplied with individual units for further information on wiring diagrams.
15
10
F
ITTING
D
OOR
C
ONTACTS
A door contact consists of a magnetic reed switch housed in a plastic casing. The contact consists of two parts. The reed switch and the magnet. Two types of switches are suitable for a domestic installation: Surface and Flush.
The 'Surface' contact is fitted on the facing of the door frame with the magnet fitted in-line on the door. The 'Flush' contact is fitted to the frame by means of inserting into a pre-drilled hole. The magnet is flush and aligned with the reed switch. Fit the contacts as shown in Fig. 13.
Top Fitting
SURFACE
CONTACT
CONTACT BLOCK
(Bore hole O 3/4" x
5/8". Flange to be flush).
SURFACE
MOUNTED
CONTACT
SURFACE
CONTACT
>
9"
<
MAGNET
BLOCK (Bore hole O 3/4" x
5/8". Flange to be flush).
> <
9"
FLUSH
MOUNTED
CONTACT v
^
Bottom Fitting
v
5/8"
^
>
3/4"
< v
^
SURFACE
CONTACT
SURFACE
MAGNET
FLUSH
MAGNET
FEED CONNECTING WIRES
THROUGH ARCHITRAVE
Fig. 13. Fitting Flush and Surface Contacts
FLUSH
CONTACT
16
F
ITTING
D
OOR
C
ONTACTS (Cont.)
Door Contact Wiring Diagram
SURFACE
CONTACTS
Connect yellow to yellow, black to black, using spare terminals in contact
Red
Blue
Blue
Red
Red
Blue
Blue
Red
FLUSH
CONTACTS
Connect yellow to yellow, black to black, using spare terminals in contact
10
4 CORE
CABLE
4
CORE
4
CORE
Red
Blue
Yellow
Black
Note: If only one contact is fitted, wire as last contact.
Red
Blue
Yellow
Black
Note: The reed switch is internally connected across the plated screws as shown.
Fig. 14. Contact Wiring Diagram
Z2
A/T 2
A/T 1
Z1
If other units are fitted, connect the Blue and
Yellow tamper wiring in series.
Red and Black cables connected into the appropriate zone or in series with other devices.
Fig. 15. Connections to Control Panel
17
11 F
ITTING
PIR D
ETECTORS
When fitting typical passive infra-red detectors, consult installation instructions and technical data supplied with the unit.
If only one detector per zone has been fitted, the wiring can be straight forward.
Use 6 core for the power, tamper and circuit connections (shown in Fig. 16).
If more than one detector is fitted to a zone, the latch facility should be used. This allows the user to identify a unit which has triggered by means of the indicator lamp on the detector latching 'On'. If the latch facility is required, 8 core alarm cable must be used. (Fig. 17)
NC C A/T + -
Black
Red
Green
White
Blue
Yellow
Fig. 16. Connecting One Detector using
6 Core Cable.
6
C
O
R
E
NC C A/T
18
+ -
Blue
Green
Red
Black
Orange
NC C A/T + -
White
Yellow
Fig. 17. Connecting Two Detectors in Series using 8 core Cable and Latch Facility
Orange
Black
Red
Green
Blue
White
Yellow
F
ITTING
PIR D
ETECTORS (Cont.)
11
0V
AUX
12V
O/P
Note: 1 Output must be programmed as PIR Set
Latch .
Note 2: This output to be used if more than one PIR or Breakglass is fitted to a zone.
Z4
Z4 A/T
Z3 A/T
Z3
Green
White
Blue
Yellow
Black
Red
Orange
All power connections to detectors are wired in parallel.
If other units are fitted, connect tamper wiring in series.
Yellow and Blue cables connected into the appropriate zone or in series with other devices.
TO DETECTOR
Fig. 18. Connections to Control Panel From PIR(s)
CORRECT
NOTE: Do not fit below 6'6" from ground level. Ideal height between 8-9ft.
X
WRONG
X
WRONG
X
WRONG
Vent
Radiator
Fig. 19. Siting a Passive Infra Red Detector
(See manufacturers instructions for more details)
19
12
I
NITIAL
S
TART
U
P
Before applying power to the control panel, ensure that all used circuits are connected. The control panel lid switch should be defeated or closed and NO power connections to detectors, sounders or battery should be made at this stage.
Note: If connections to the bell and AUX power are made when the system is powered up, damage to the control panel may occur.
(a) Apply mains to the control panel. The green 'Power' and 'Day' LED will illuminate and the internal sounder will sound.
(b) Key-in the factory default customer code '1234'. The internal sounder will stop and the 'Tamper', 'Service' and 'Fault' LEDs will be flashing.
(c) Key-in the factory default engineer code, '0' followed by 'ENTER' then
'7890'. The 'Fault' and' Service' LEDs will flash and the internal sounder will be bleeping.
(d) Open the control panel lid. The internal sounder stops bleeping and the
'Service' LED will be steady. Make connections to AUX power, stand-by battery and connections to SAB. Proceed to programme the system parameters in section 13.
Note: If an SAB module is fitted within the bell, it will continue to ring until the panel supply is connected and until the bell cover lid tamper switch is closed.
13
P
ROGRAMMING
T
HE
S
YSTEM
Note: When programming system parameters, the control panel will bleep twice when a command has successfully been completed. When programming a zone function, the related zone light will be 'ON'. If an incorrect command is entered or an option does not apply, a single error bleep will be emitted.
Zone Programming
Each of the five zones can be programmed as one of four types and have a number of attributes related to them.
To select a Zone, Key-in 01 to 05
To select Type 0 = Not Used (Both CC loop and A/T loop inactive)
1 = Normal Alarm (Instant Operation)
2 = 24 Hour Zone
3 = Entry Route (Inhibited during entry time)
To Select Attribute 4 = Double Knock
5 = Chime Zone
6 = Part Set Zone (active in Part Set)
OMIT = Omit Allowed
Note: See 'Glossary of Terms' for explanation of zone types and attributes.
When completed, press ENTER and repeat for other zones, if required.
20
P
ROGRAMMING
T
HE
S
YSTEM (Cont.)
13
To programme attributes for the Entry Exit zone, select zone number 07.
To Select Attribute 5 = Chime
6 = Part Set
0 = Reset Entry Exit attributes to none
When complete, press the ENTER key
Programmable Output (O/P)
To select the function of the programmable output
Key-in 11
Then select 18 = PIR Set Latch
29 = Shock Sensor Reset
When completed, press the ENTER key
Operation of Output Types
PIR Set Latch
Shock Sensor
Reset
The output will be active at the end of the exit time, deactive if the system is in an alarm condition and will remain de-active until the system is disarmed. The output will become active for 2 seconds when the system is reset.
The output will be de-activated for 6 seconds after the entry of a valid access code and at the start of the exit time.
Engineer Access Code
To change the factory default engineer code
Key-in 20 Followed by the new FOUR digit engineer code
Bell Output Type
To select the bell type, SAB or SCB
Key-in 21
Then select 0 = SAB (Negative applied in alarm)
1 = SCB (Negative removed in alarm)
When completed, press the ENTER key.
Internal Sounder Operation
Selects the function of the internal sounder (loudspeakers) in alarm.
Key-in 22
Then select 1 = Follows strobe (continuous)
0 = Follows bell output (follows bell timers)
When completed, press the ENTER key.
21
13 P
ROGRAMMING
T
HE
S
YSTEM (Cont.)
PA (Panic) Alarm
Selects the response of the PA zone when operated.
Key-in 30
Then select 0 = Audible (PA zone activated both internal and external sounders will be activate along with the digital communicator, if fitted)
1 = Silent (PA zone activated remote signalling PA
Comms trigger active)
When completed, press the ENTER key.
System Reset
To select the reset type for the system
Key-in 31
Then select 0 = Customer Reset
1 = Engineer Reset (For use when communicator is fitted)
When completed, press the ENTER key.
Abort Facility
The Abort Facility is used to delay an alarm signal being transmitted to the alarm company central station in the event of a user inadvertently straying from the entry route after initiating the entry procedure via the final exit door.
If the abort is enabled and the user strays from the entry route into a protected area, the internal sounder will emit a high level warning tone for 90 seconds. The user must enter a valid access code to disarm the system within the 90 seconds, otherwise, a full alarm will occur.
To select the Abort option
Key-in 32
Then select 0 = Abort disabled (Normal two-ply entry)
1 = Abort enabled (If remote signalling fitted)
When completed, press the ENTER key
Keypad PA operation
The installer can give the user(s) the option of a TWO button press PA
(Panic) feature, on both the control panel and remote keypads, if required.
When the feature is enabled, press keys 1 and 3 simultaneously to operate the PA facility.
The response of the PA feature, will depend on the option selected from command 30 PA Type.
To select the keypad PA feature
Key-in 33
Then select 0 = Disabled
1 = Enabled
When completed, press the ENTER key.
22
P
ROGRAMMING
T
HE
S
YSTEM (Cont.)
13
System Status
The system status of the LEDs shown in Full and Part Set, can be operated in one of two ways depending on which country regulations apply. If the system status is selected as enabled, the 'Full' or 'Part Set' LEDs will remain 'ON' when the system is armed. If the option is disabled, the LEDs will extinguish when the system is armed and illuminate on entry.
To select the system status
Key-in 34
Then select 0 = Set status LEDs enabled
1 = Set status LEDs disabled (Normal UK. Default)
When completed, press the ENTER key.
Exit Mode
To select the exit mode type
Key-in 35
Then select 0 = Timed and/or terminated
1 = Final door set
When completed press the ENTER key.
Auto-Re-arm
The Auto Re-arm feature if enabled, will re-arm the system after any programmed bell duration. Any circuits that are still in violation, will be isolated until they have cleared. If remote signalling is fitted and the system is
'Engineer Reset', the trigger pins will ONLY be active on the first alarm event, thereafter, the system will be bells ONLY.
To select if and how many times the system will auto re-arm
Key-in 40
Then select 0 = Never
1 = Once (Two alarms)
2 = Twice (Three alarms)
3 = Three times (Four alarms)
4 = Always Re-arm (Infinite alarms)
When completed, press the ENTER key.
23
13 P
ROGRAMMING
T
HE
S
YSTEM (Cont.)
Bell Delay
To select the time delay for the external bell trigger
Key-in 41
Then select 0 = Zero
1 = 1.5 Minutes
2 = 3 Minutes
3 = 5 Minutes
4 = 10 Minutes
5 = 15 Minutes
6 = 20 Minutes
When completed, press the ENTER key.
Bell Duration
To select the duration of the external bell following any programmed bell delay
Key-in 42
Then select 0 = Zero
1 = 1.5 Minutes
2 = 3 Minutes (Default)
3 = 5 Minutes
4 = 10 MInutes
5 = 15 Minutes
6 = 20 Minutes (U.K. Standard)
7 = NIL
When complete, press the ENTER key.
Entry/Exit Times
To select the Entry or Exit time
Key-in 43 for Entry time or 44 for Exit time
Then select Entry Time
1 = 10 Seconds
2 = 20 Seconds
3 = 30 Seconds
4 = 60 Seconds
5 = 90 Seconds
6 = 120 Seconds
Exit Time
0 = Continuous (Used with E/T)
1 = 10 Seconds
2 = 20 Seconds
3 = 30 Seconds
4 = 60 Seconds
5 = 90 Seconds
6 = 120 Seconds
When complete, press the ENTER key.
Note: The 9454 incorporates a special two stage entry timer called 'Two Ply' and operates as follows: If the programmed entry time is exceeded, the internal sounder will emit an internal alarm tone for a further 30 seconds. On expiry of the additional time, the system will initiate a full alarm condition.
24
P
ROGRAMMING
T
HE
S
YSTEM (Cont.)
13
Remote Reset
Refer to Section 17, Page 31 for description and operation of 'Remote Reset'.
Part Set Programming Options
When zones are selected to be active during Part Set, the following options may be programmed.
Final Exit (EE Zone)
When Part Setting the system, the EE zone may be programmed to respond to one of the following options when it is opened. The zone can be programmed to respond as a Final Exit, or a Normal alarm zone.
To select either option
Key-in 60
Then select 0 = Final exit active (normal)
1 = Final exit as a normal alarm zone
When completed, press the ENTER key.
Part Set Entry Route Response
When a zone has been programmed as Entry Route, it may be selected to respond in Part Set as either Entry Route (normal), or to respond as a Final
Exit, which will start the entry timer if it is violated.
To select the Entry Route response in Part Set
Key-in 61
Then select 0 = Normal Entry Route
1 = Active as a final exit zone
When completed, press the ENTER key.
Part Set Exit Mode
In addition to the exit modes described in command 35, three other options are available in Part Set.
To select the exit mode in Part Set
Key-in 62
Then select 0 = The system will 'Set' after the same exit time, as
programmed for 'Full' setting.
1 = The system will 'Set' after 10 seconds.
2 = The system will 'Set' instantly and silently.
When completed, press the ENTER KEY.
25
13 P
ROGRAMMING
T
HE
S
YSTEM (Cont.)
Part Set Alarm Response
When the system is Part Set and subsequently an alarm has occurred, the response may be programmed as one of the following options:
Full Alarm = Internal/External sounders and signalling ,if fitted.
Local Alarm = Internal/External sounders, NO signalling.
To set alarm response
Key-in 63
Then select 0 = Local alarm
1 = Full Alarm
When completed, press the ENTER key.
Installer (Engineer) Tests
The 9454 is provided with the following test functions which can be carried out by the engineer.
View Event Log
The 9454 will store up to 15 events, including circuit, tamper alarms and line faults.
To view event log
Key-in 90
The latest system event will be displayed.
To move back in time, press the 1 key.
To move forward in time, press the 3 key.
To cease the event log, press the ENTER key.
Test Bell Output (External sounder)
Key-in 91
The bell output will be active
To cease the test, press any key.
Test STR Output (Strobe)
Key-in 92
The Strobe output will be active
To cease the test, press any key.
Test Internal Sounders
Key-in 93
The LS output will be active
To cease the test, press any key.
26
P
ROGRAMMING
T
HE
S
YSTEM (Cont.)
13
Test RKP
To test the keypad LEDs
Key-in 94
All keypad LEDs will flash
To cease the test, press any key.
Test Programmable Output
Key-in 95
The output O/P will be active
To cease the test, press any key.
System Walk Test
To allow the installer to fully test the operation of ALL the connected circuits, a full walk test facility is available.
Key-in 97
If the system is clear (no violations), NO indication will be given. Open each circuit (including tamper circuits, lid tamper and PA zone). The appropriate zone LED will illuminate and the loudspeaker will emit a two tone bleep. When all the circuits have been tested, the display will be scrolling through the circuits which are still open . If all circuits are closed, the display will only show the 'Power' and 'Service' LEDs.
To cease the test, press the ENTER key.
Load Factory Defaults
If all the access codes are lost, or the engineer requires to revert to the factory default programme, the defaults may be loaded as shown in Section
14, page 29.
If the system is in engineers mode, defaults can be loaded as follows:
Key-in 98
Note: Loading the default programme will lose all previously programmed information.
Return to Day Mode
Returns system to user mode when programming is complete.
Ensure that all TAMPER circuits are closed and the stand-by battery is connected..
Close control panel lid and any keypads
Key-in 99
System returns to 'Day' mode.
Note: If the system does not return to the 'Day' mode, the fault will be displayed. Clear the fault, then press the 'Enter' key, then key-in 99.
If the battery is not connected, the panel will display a 'Tamper Fault'.
27
13
P
ROGRAMMING
T
HE
S
YSTEM
(Cont.)
Engineer Reset
When an engineer requires to reset the system, the control panel lid does not require to be opened. Enter the engineer code to reset the system, followed by 99.
14
E
NGINEER
C
OMMANDS
28
20
21
22
30
34
35
31
32
33
40
COMMAND
ZONE No.
07
ZONE No.
01 to 05
11
41
42
FUNCTION
Entry/Exit Options
Programme zones 1 to 5
Programmable Output
Engineer Code
Bell Output Type
Internal Sounder
PA Type
System Reset
Abort Facility
Keypad PA
System Status
Exit Mode
Rearm Options
Bell Delay
Bell Duration
ACTION
Attributes 0 = Reset to None
5 = Chime
6 = Part Set Zone
Types 0 = Not Used
1 = Normal Alarm
2 = 24 Hour
3 = Entry Route
Attributes 4 = Double Knock
5 = Chime
6 = Part Set Zone
OMIT = Omit Allowed
Types 1 = PIR Set Latch
2 = Shock Sensor Reset
Function 8 = Normally Inactive
9 = Normally Active
Enter any FOUR digit code
0 =SAB
1 = SCB
1 = Follows Strobe
0 = Follows Bell
0 = Audible
1 = Silent
0 = Customer
1 = Engineer
0 = Disabled
1 = Enabled
0 = Disabled
1 = Enabled
0 = LEDs ON
1 = LEDs OFF
0 = Timed and/or Terminated
1 = Final Door Set
0 = Never
1 = Once
2 = Twice
3 = Three Times
4 = Always
0 = ZERO
1 = 1.5 Mins
2 = 3 Mins
3 = 5 Mins
4 = 10 Mins
5 = 15 Mins
6 = 20 Mins
7 = NIL
Table 1. Engineer Command Codes
E
NGINEER
C
OMMANDS
14
COMMAND
43
44
50
Part Set Options
60
61
62
63
Engineer Tests
90
91
92
93
94
95
97
98
99
FUNCTION
Entry Time
Exit Time
ACTION
0 = Continuous
1 = 10 Secs
2 = 20 Secs
3 = 30 Secs
4 = 60 Secs
5 = 90 Secs
6 = 120 Secs
Central Station Identification
Code
Final Exit
Entry Response
Exit Mode
0 = As Final Exit
1 = As Normal Alarm
0 = As Entry Route
1 = As Final Exit
0 = As Full Set
1 = 10 Sec. Set
2 = Instant Set
Alarm Response
0 = Local Alarm
1 = Full Alarm
To cease tests, press any key.
To cease the log, press ENTER.
Event Log
Test Bells
Test Strobe
Test Internal Sounder
Use Key 1 = Back in time
3 = Forward in time
Bell Output Active
Strobe Output Active
LS Output Active
Test Keypad LEDs
Test Programmable Output
LEDs Flash
O/P Active
Eng. Walk Test
Walk Test
Load Factory Defaults Reset Panel To Factory Defaults
Cease Engineering Return System to 'DAY' Mode
Table 1. Engineer Command Codes (Cont.)
29
15 R
EFRESHING
T
HE
NVM
Refresh NVM (System Memory Chip)
The 9454 control panel has a Non Volatile Memory chip which retains all programmed information and access codes. If the system suffers a total power failure, the NVM will retain all information and the panel will only require powering up and resetting. However, if the end user forgets the user access code or the installer wants to return the panel to the factory programmed settings, continue as follows:
(a) Power down the control panel, mains and battery.
(b) Located to the middle of the control pcb, are a pair of small pins marked
'RST'. '
(c) Place a small screwdriver blade to short between the 'RST' pins. With the blade still across the pins, power up the control panel 'Battery' only.
(d) When the power is applied, all the LEDs will flash.
(e) Remove the screwdriver blade. The control panel will now return to the factory default codes, (see table 2).
(f) Re-connect the mains supply and re-programme the system as described in Section 13.
16
RST
VOL
COMMS
PINS
Fig. 20. Location Of NVM Reset Pins
S
TANDARD
F
ACTORY
D
EFAULT
C
ODES
30
Zone 1
Zone 2
Zone 3
Zone 4
Zone 5
Zone 7 (E/E)
Programmable Output
Engineer Code
User Code
Bell Type
Internal Sounder
PA Type
System Reset
Abort Facility
Keypad PA
Status LEDs
Exit Mode
Rearm
Bell Delay
Bell Duration
Entry Time
Exit Time
Part Set Final Exit
Part Set Entry Route
Part Set Exit Mode
Part Set Response
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
Entry Route, Part Set Zone
Normal Alarm, Part Set Zone, Omit Allowed
Normal Alarm, Part Set Zone, Omit Allowed
Normal Alarm, Omit Allowed
Normal Alarm
Part Set
PIR Set Latch, Normally Active
7890
1234
SAB
Follows Bell
Audible
Customer
Disabled
Disabled
Disabled During Set
Timed or Terminate
Never
Zero
3 Minutes
20 Seconds
10 Seconds
As Final Exit
As Final Exit
Quick Set
Local Alarm
Table 2. Factory Settings
R
EMOTE
R
ESET
17
The main concern with local police authorities, is the escalating number of false alarms which are transmitted to a central station, either through procedural error by the user or other reasons. If a communicator is fitted, all systems must be programmed by the installer to be 'Engineer Reset'. Once the alarm is activated and silenced by the user, the user must call the alarm company to attend a reset or facilitate repairs.
The 'Remote Reset' facility (if enabled), safe guards against a user resetting the alarm after an activation, unless contact with the alarm company central station has been made to confirm a procedural error or otherwise.
If an alarm has occurred, the user will be able to silence the alarm, but will be unable to reset the system.
The remote reset function operates by the control panel LEDs simulating a four digit code number, which is generated by the user following a special key sequence after an alarm activation. The number generated by the panel or remote keypad LEDs is passed verbally to the alarm company central station. In return, following a security verification procedure (normally a code number or name), enter the number in to a special programmer which generates a 'Reset Code'. The user is then given the 'Reset Code' to reset the system. (Also see User Guide for user operation of 'Remote Reset').
Remote Reset Programming
For the 'Remote Reset' function to operate, the control panel must be programmed for
'Engineer Reset'.
With the system in the engineers mode:
Key-in 31
Then select 1 = Engineer Reset
When complete, press the ENTER key.
Central Station Identification Code
The control panel must be programmed with a central station identification code (CSID) which is exclusive between the alarm central station and the control panels. The code will be available from the designated central station.
When the system is programmed for 'Engineer Reset':
Key-in 50
Then enter the 4 digit (CSID).
The control panel will bleep twice to acknowledge the code.
31
18
F
AULT
F
INDING
G
UIDE
Under normal conditions, the 'Fault', 'Service' and 'Alarm' LEDs will not be illuminated. Only the 'Mains', 'Day' 'Full' and 'Part Set' LEDs should be illuminated during normal use of the system. Any other LEDs which are illuminated or flashing, signify a fault or alarm condition.
Note: The 'Mains' LED will be illuminated permanently.
Any condition indicated by a combination of the 'Fault', 'Service' or 'Alarm'
LEDs are to be considered an abnormal condition follows:
ENTRY / EXIT
Zone 1
Zone 2
Zone 3
Zone 4
Zone 5
PANIC
TAMPER power
D A Y
FU L L
PART
LF
SERVICE
FAULT
Telephone line fault
ENTRY / EXIT
Zone 1
Zone 2
Zone 3
Zone 4
Zone 5
PANIC
TAMPER power
D A Y
FU L L
PART
LF
SERVICE
FAULT
Alarm activated on Zone 1.
System requires 'Engineer
Reset'.
ENTRY / EXIT
Zone 1
Zone 2
Zone 3
Zone 4
Zone 5
PANIC
TAMPER power
D A Y
FU L L
PART
LF
SERVICE
FAULT
'Tamper' fault. Battery missing, remote keypad missing, back tamper, normal circuit tamper or bell tamper faults.
ENTRY / EXIT
Zone 1
Zone 2
Zone 3
Zone 4
Zone 5
PANIC
TAMPER power
D A Y
FU L L
PART
LF
SERVICE
FAULT
'Tamper' fault has occurred. Enter user code twice to clear.
32
F
AULT
F
INDING
G
UIDE (Cont.)
ENTRY / EXIT
Zone 1
Zone 2
Zone 3
Zone 4
Zone 5
PANIC
TAMPER power
D A Y
FU L L
PART
LF
SERVICE
FAULT
Panic alarm has occurred.
Reset the panic button.
Check the fault LED is extinguished, then enter the user code twice to clear the system.
18
ENTRY / EXIT
Zone 1
Zone 2
Zone 3
Zone 4
Zone 5
PANIC
TAMPER power
D A Y
FU L L
PART
LF
SERVICE
FAULT
Mains failure.
ENTRY / EXIT
Zone 1
Zone 2
Zone 3
Zone 4
Zone 5
PANIC
TAMPER power
D A Y
FU L L
PART
LF
SERVICE
FAULT
Zone 1 programmed as 24 hours has activated. Enter the user code to stop the sounder(s). Close the 24 hour door or circuit. Check the fault light has extinguished, then enter the user code to clear the system.
ENTRY / EXIT
Zone 1
Zone 2
Zone 3
Zone 4
Zone 5
PANIC
TAMPER power
D A Y
FU L L
PART
LF
SERVICE
FAULT
Either an exit fault or alarm activation has occurred on zone 1. Enter the user code twice to clear the system.
33
Advertisement
Key features
- Fully programmable 5 zone control panel
- Separate circuit connections for Exit/Entry, Panic Alarm
- Individual zone Anti-tamper circuits
- Remote Keypads for system operation and programming
- Supports up to two Remote Keypads
- Auto-re-arm feature
- Abort facility
- Keypad PA operation