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- NZ100 Series
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Ampac NZ100 Series Installation, Commissioning & Operation
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22 Pages
The Ampac NZ100 Series is a fire alarm control panel designed to provide early warning of fire and protect lives and property. It features one fire detection circuit compatible with smoke detectors, heat detectors, and manual call points. The monitored bell output alerts personnel in the event of a fire. Additional features include a walk test facility, buzzer mute, and brigade keyswitch. The NZ100 operates on a 230V AC power supply with a 12V 7AH battery backup.
advertisement
N Z 1 0 0 S e r r r i i i e s
INSTALLATION
COMMISSIONING
&
OPERATION
EVACUATION
SILENCE ALARMS
BIGADE USE ONLY
FIRE
DEFECT
NORMAL
NZ100
FIRE ALARM PANEL
AMPAC
F i i i r r r e A l l l a r r r m C o n t t t r r r o l l l P a n e l l l
N Z S 4 5 1 2 2 0 0 3
MAN2336
“Our aim is to provide ‘ Consistently Excellent Service ’ in the eyes of our customers ”
June 2006
NZ100 Installation Commissioning & Operation
Page 1
CONTENTS
NZ100 Installation Commissioning & Operation
PAGE NO.
1.
INTRODUCTION ................................................................................................................1
1.1
Unpacking and Inspection................................................................................................. 1
1.2
Anti Static Precautions .................................................................................................... 1
2.
SPECIFICATIONS .............................................................................................................1
2.1
Power Supply/Battery Charger .......................................................................................... 1
2.2
Outputs .......................................................................................................................... 1
2.3
Detector Circuit ............................................................................................................... 1
3.
SYSTEM DESCRIPTION..................................................................................................2
3.1
General Description ......................................................................................................... 2
3.2
Front Panel Layout .......................................................................................................... 2
3.3
Internal Layout................................................................................................................. 3
3.4
Detector Circuits.............................................................................................................. 3
3.5
Bell Circuits .................................................................................................................... 4
3.6
Auxiliary Output............................................................................................................... 4
3.7
Walk Test ....................................................................................................................... 4
3.8
Buzzer............................................................................................................................ 4
3.9
Buzzer Mute ................................................................................................................... 4
3.10
Defect Indicators.............................................................................................................. 4
3.11
Power Supply.................................................................................................................. 5
3.12
Mains On Indicator........................................................................................................... 5
3.13
Fusing ............................................................................................................................ 5
3.14
Batteries ......................................................................................................................... 5
4.
CONNECTING DEVICES.................................................................................................6
4.1
Detectors ........................................................................................................................ 6
4.2
Detector Limitations ......................................................................................................... 6
4.3
Manual Call Points........................................................................................................... 6
4.4
Bells and Sounders.......................................................................................................... 8
4.5
Auxiliary Relay ................................................................................................................ 8
5.
SETTINGS...........................................................................................................................9
5.1
Gating ............................................................................................................................ 9
5.2
No Brigade Board ............................................................................................................ 9
6.
INSTALLATION AND INITIAL OPERATION ..............................................................10
6.1
Installing the NZ100 ........................................................................................................10
6.2
Initial operation ...............................................................................................................10
7.
INSTALLING THE BRIGADE BOARD (SGD TYPE II ).............................................11
8.
ASPI RELAY BOARD .....................................................................................................13
9.
SYSTEM OPERATION....................................................................................................14
9.1
Resetting the system......................................................................................................14
9.2
Using the Walk Test facility. ............................................................................................14
9.3
Evacuation. ....................................................................................................................14
10.
TROUBLESHOOTING....................................................................................................15
11.
APPENDIX ........................................................................................................................16
1.
INTRODUCTION
NZ100 Installation Commissioning & Operation
1.1 Unpacking and Inspection
Carefully check packing before unpacking goods for any transit damage. Unpack the goods and check both externally and internally for any loose or damaged components that may affect the appearance, installation or operation of the goods.
1.2 Anti Static Precautions
To prevent damage to panel components please ensure before touching or handling any of the wiring or printed circuit boards within the panel that you are correctly earthed.
2.
SPECIFICATIONS
Size 220mmH x 290mmW x 80mmD
2.1 Power Supply/Battery Charger
Mains Supply
Charger
Output Voltage
Output Current
230V AC ± 10% @ 0.5A
13.5V DC
0.5A
Battery (one of only) 12V 7AH
System Quiescent Current
(After 10 minutes battery operation)
22mA
2.2 Outputs
Bell Circuits
Voltage
Maximum current
End of line resistor
Auxiliary output
Voltage
Current
(2 total)
12V DC
3A max for both circuits
10kOhm 1/4W 2%
12V
50mA max
2.3 Detector Circuit
Line voltage (open circuit)
Short circuit current
Maximum Cable Length Impedance
End of line resistor
Devices
Smoke detectors
Electronic heat detectors
Contact heat detectors
Manual call points
22V
22mA
100 ohm
6.8kohm 1/4W 2%
24V
24V
Page 1
3.
SYSTEM DESCRIPTION
3.1 General Description
NZ100 Installation Commissioning & Operation
The NZ100 is an automatic fire alarm system. The NZ100 has one fire detection circuit able to accommodate heat detectors, smoke detectors, manual call points or a combination of these devices.
The NZ100 has a monitored bell output to alert personnel in the event of a fire.
All circuitry except for the front panel LED’s is on a single printed circuit board.
3.2 Front Panel Layout
SILENCE ALARMS
BRIGADE USE ONLY
EVACUATION
FIRE
DEFECT
NORMAL
NZ100
Fire Alarm Panel
Figure 1: Front Panel Layout
M3 STUD
M3 NUT
PCB
M3 NUT
5 - 5.5mm
LED
API 595 MOUNTING
To Mains Earth
Front Door
Chassis
Earth
Terminal
8 Way Ribbon Cable
Cabled to CN2 of the
Main System Board
Green
LED3
R 3
D 3
D2
Yellow
LED2
R2 R1
Red
LED1
D1
TB1
3 2 1
Lamp Test
+ve
595A
Silence Alarms
Brigade Use
Only Keyswitch
Trial
Evacuation
Keyswitch
Door Hinge
MODEL :
S/No :
REG No :
TESTED BY :
DATE :
LINK SETTINGS
LINK
K1-1
SMOKE
ONLY
FITTED
SMOKE
DETECTORS
ONLY
NZ100
AC/102
NOT FITTED
MIXED ZONE
MANUAL CALL POINTS
HEAT DETECTORS
AND SMOKE DETECTORS
GATING OFF K1-2
GATING
GATING ON
FUSE RATINGS
FUSE
MAINS TERMINATON
BELL, F1
BATTERY, F2
SECONDARY AC, F3
RATING AND TYPE
0.5A M205
3A M205
0.8A M205
0.8A M205
Label
L003 CAMLOCK
Figure 2: Internal Front Panel Layout
Page 2
3.3 Internal Layout
NZ100 Installation Commissioning & Operation
Walk Test Switch
Buzzer Mute Switch
Reset Switch
Knockouts
Detectors
Bell
Bell
Black -
Red +
To Battery
Mains Termination
Mains Transformer
Fuse
TB2
+
D E T
-
+
BELL
-
+
BELL
-
C N 1
1
2
AUX
BELL
F 1 F2
3A 0.8A
BATT
RL1
WALK TEST BUZZER
MUTE
BZ1
U3
RESET
SW1
K1
SMOKE ONLY
GATING
3
U5
SW2 SW3
NORMAL
BELL
SYS.
Z O N E
BATT.
DEFECTS
ST6265
C N 2
Front Panel
TB1
BATTERY
U1
U 2
UA78S40P
0V
302 665B
TX
30V C.T
15V A.C.
L1
Brigade Board
( If Fitted )
K 3
U6
U4 C N 4
ASPI
DS1232
TB3
AC IN
TX CONNECTION
1
2
3
SECONDARY
FUSE
Relay Board
( If Fitted )
0.8A F 1
MAINS ON
CN3
BRIGADE
Link Pins 5,6 if
Board NOT Fitted
Battery
12 Volt
7 AH
Mains Earth to Front
Panel
Shows
Panel
Mounting
Keyholes
Figure 3: Internal Layout
3.4 Detector Circuits
The detector circuit accepts smoke detectors, heat detectors or manual call points that will cause the panel to go into alarm within one second. Detector types used are subject to the compatibility limitations as described in section 4.
Devices such as smoke detectors, which signal by increasing line current, can, when signalling, go through “gating” or Alarm Verification. As such, when a detector goes into alarm, it is reset and not monitored for two to three seconds, if an alarm is still present after this time, the system will then latch into alarm. This function may be de-selected if not required by removing link K1-2 (GATING). See section 5 for details.
Important:
Detector line voltage is 22V (open circuit). Current signalling detectors ( smoke or electronic heat ) must be rated for 24V operation.
Page 3
NZ100 Installation Commissioning & Operation
3.5 Bell Circuits
The NZ100 provides a monitored bell circuit split to drive up to three (3) Amps of alarm load. The circuit is split into two parallel lines, which must be less than three (3) Amps total. Each line requires a 10K
EOL resistor to give a system normal indication. If either output line is open or shorted, a defect signal is generated and the “BELLS” defect LED is illuminated.
See section 4 for connection details.
3.6 Auxiliary Output
The NZ100 system provides an auxiliary output, marked AUX (CN1) on the PCB, designed to drive a relay which can provide 12V ( nominal ) @ 50ma for the control of ancillary devices.
This output is;
â switched off during an alarm;
â normally powered, when a relay is connected which increases the quiescent system current and reduces the battery backup time.
3.7 Walk Test
This function is initiated by pressing the walk test button on the 302-665B. When pressed;
â a LED directly above the switch will indicate the test is active;
â the test will remain active for ten minutes ( automatically cancelling itself after this time);
â detectors can be operated in the field ( reset by the panel after four seconds ).
To restore the panel to normal operation, repress the switch and the walk test indicator will turn off.
3.8 Buzzer
The NZ100 has an internal buzzer that will sound;
â continuously should any defect occur; and
â in short bursts to confirm any key switch operation.
3.9 Buzzer Mute
Pressing this switch will cause the buzzer to stop sounding though should another defect occur after this time the buzzer will sound again.
3.10 Defect Indicators
Defect indicators are provided on the NZ100 for the following.
(a) Battery Fault.
This indicates one of the following:
â Battery voltage is below 12.2 Volts during discharge (mains failure).
â Battery voltage is below 12.6 Volts whilst charging.
â Battery voltage is above 14 Volts.
â Battery is not connected.
â Battery failed automatic test.
(b) Bell Fault.
This indicates an open or short circuit on bell line/s.
Page 4
NZ100 Installation Commissioning & Operation
(c) System Fault.
This indicates one of the following system faults
â Mains not present, indicates after ten minutes.
â Door closed with switches on brigade board not in normal position.
â Brigade board disconnected.
â Microprocessor fault.
(d) Zone fault.
This indicates a fault on the zone wiring. This can either be a short circuit or open circuit.
3.11 Power Supply
The 302-665B has an onboard power supply providing 13.5VDC at 0.5A for system power and charging the system batteries. The system incorporates a test function, controlled by the CPU, that decreases the power supply output voltage to approximately 10V for 1 hour each day to check the condition of the system battery. If the battery voltage falls below 12.2V during the test period a defect signal is generated and the battery fault LED is illuminated.
3.12 Mains On Indicator
This LED is illuminated when the mains supply is connected and operational.
3.13 Fusing
The NZ100 has four fuses:
Designator
F1
F2
F3
F4
Function
Bell circuit fuse
Battery circuit fuse
Power supply fuse
Mains fuse
Rating
3 Amp M205
0.8 Amp M205
0.8 Amp M205
0.5 Amp M205
3.14 Batteries
The NZ100 system is designed to accept one 12V, 7 AH sealed lead acid battery. This should provide more than 240 hours of backup capacity leaving sufficient capacity to drive the alarm load for the required 30 minutes.
Page 5
4.
CONNECTING DEVICES
4.1 Detectors
NZ100 Installation Commissioning & Operation
A sample of the detectors approved for use with the NZ100 are listed below. ( See Appendix )
Detector Type
Apollo Series 65 Ionisation Smoke Detector
Apollo Series 65 Photoelectric Smoke Detector
Iq
45
µ
A
45
µ
A
65
µ
A
Circuit Limit
Apollo Orbis Photoelectric Smoke Detector with
Flashing LED
Thermal Detector Blue Indicating
Thermal Detector Yellow Indicating
40
µ
A
40
µ
A
8mA Ampac Fireray Beam 2000
Ampac Fireray Beam 50R
Ampac Fireray Beam 100R
4
4
Note: Iq = Quiescent Current Draw
The maximum current on the Detector Circuit is 1.6mA, or 1600
µΑ
Rate of Rise Heat Detectors are also available.
35
35
24
40
40
N/A
N/A
N/A
Order Code
55000-217
55000-317
201-0501
4255-0300
4255-0400
220-0004
220-0005
220-0006
AMPAC
MANUAL CALL POINT
- R
L1 In -
T B 5
FACP
+
L1 Out
Earth
IN -
IN +
- OUT
+ OUT
SCREW
CAPS
MOUNTING
HOLES
2
6K8
EOL
SERIES
65 DETECTOR
L2
WIRE IN WIRE OUT
27.0
1
AMPAC HEAT
DETECTOR
AMPAC
NOTE:
UP TO 40 DETECTORS CAN BE
CONNECTED TO EACH CIRCUIT
LED
WIRE IN WIRE OUT
TERMINATING METHOD MEASURE LINE VOLTAGE
Figure 4: Example of Detector & MCP Wiring
The zone circuit must be terminated with an end of line resistor with a value of 6.8K (2% tolerance or better, power rating 1/4W)
4.2 Detector Limitations
1.
2.
Most detectors, with the exception of thermostatic heat detectors, draw a small monitoring current and this limits the number detectors that can be connected to a given zone circuit. The total quiescent current of all devices on a zone circuit must be less than 1.6mA @ 24V to ensure correct operation.
Detectors are not intended for use in areas subject to higher than normal corrosive environments or where hydrogen sulphide or other corrosive gasses may be present.
4.3 Manual Call Points
Type
Ampac Manual Call Point
Quiescent Current
40µA
Circuit Limit
40
Order Code
4255-0700
Page 6
Connect as shown above.
NZ100 Installation Commissioning & Operation
Page 7
NZ100 Installation Commissioning & Operation
4.4 Bells and Sounders
Two bell/sounder circuits are provided, capable of driving a combined load of three (3) Amps. These lines are monitored using a small current in reverse polarity to normal operation. For this reason it is necessary to observe bell/sounder polarity and connect bells via diodes, 1N4004 diodes are recommended, as shown below.
EOL
10K RESISTOR
1N4004
DIODES
BELLS
+
D E T
-
+
BELL
-
+
BELL
-
TB2
Figure 5: Bell/Sounder Connections
Compatible Devices
Order Code
206-0002 *
205-0006 *
205-0002 *
205-0001 *
205-0009
205-0011
205-0062
205-0063
205-0066
205-0067
Description
Bell 12VDC Red 150 mm.
Horn Siren 12VDC 200mA Red .
AS2W Flush sounder White 12/24V 15mA .
AS2R Flush sounder Red 12/24V 15mA.
Vara Sounder white AS2220 Evac Tones
Vector Sounder white AS2220 Evac Tones
Vantage Sounder AS2220 Evac Tones ( Red )
Vantage Sounder AS2220 Evac Tones ( White
Vantage Combi Sounder AS2220 Evac Tones ( Red )
Vantage Combi Sounder AS2220 Evac Tones ( White )
* Note: these devices do not comply with NZS4512 2003
4.5 Auxiliary Relay
An auxiliary relay can be fitted if required to signal ancillary devices. Connect the coil of the relay to the
AUX output connector as shown below and ensure a fly back diode is fitted across auxiliary relay.
+
302 3171
+
D E T
-
+
M1
BELL
-
+
BELL
-
M4
TB2
C5
C6
AUX
M3
C2
1
2
C N 1
The Output of CN1 is:
Pin1 = Coil Positive ( + )
Pin2 = Coil Negative ( - )
Figure 6: Auxiliary Wiring
Page 8
5.
SETTINGS
NZ100 Installation Commissioning & Operation
The NZ100 system has two (2) link options. K1/2 sets the “Gating” function, K1/1 and K1/3 are not used and a link fitted pins 5 and 6 of CN3 identifies the absence of a Brigade Board.
If removing a jumper link, it is a good idea to refit it to one of the header pins. This will avoid losing the jumper, which may be required at a later date.
Important: Link K3 is for use during factory testing only, this must not be fitted .
5.1 Gating
“GATING” is an automatic verification facility to reduce nuisance alarms caused by a transient condition.
When the “GATING” link (K1-2) has been fitted, the signal from smoke detectors and electronic heat detectors is verified before an alarm is recognised.
NOT USED
K1
GATING
1
2
3
BATT.
DEFECTS
LINK
Figure 7: K1 Linking Set to GATING and Link Storage to a Single Header Pin
5.2 No Brigade Board
If a brigade board is not fitted it is necessary to fit a jumper link from pin 5 to pin 6 of CN3 (BRIGADE).
This link is fitted at the factory to systems without the brigade board. Failing to have the link fitted will cause a system fault.
U3
ST6265
U4
C15
+
D16
C19
D18
U7
D21
C N 2
Cabling To
Front Panel
X1
C N 3
Pin 1
C20 +
Link Fitted to
Pins 5 & 6
C18 C22
K3
C N 4
RN4
U6
C25
C26
Figure 8: Link Location When a Brigade Board is NOT Fitted
Page 9
NZ100 Installation Commissioning & Operation
6.
INSTALLATION AND INITIAL OPERATION
6.1 Installing the NZ100
Do not apply power or connect batterie s during this procedure.
1. Unpack NZ100.
6.
5.
4.
5.
4.
3.
2.
3.
6.
7.
12.
Check for transit damage.
Drill all cable access and mounting holes.
Provide insulation grommet for mains entry hole
Mount the unit into position.
Feed cables into the unit.
Connect mains cabling to the mains terminal block.
Anchor incoming Mains cable with cable tie provided, through chassis holes provided.
Connect detector cabling.
Connect ancillary cabling.
Set links as required. See section 5.
Ensure all swarf is removed from panel before applying power.
6.2 Initial Operation
1.
2.
2.
4.
Switch on Mains power to the unit.
Battery defect LED should illuminate after 10 seconds.
Connect batteries. Press ‘RESET’, Battery defect LED should extinguish.
The unit is ready for operation.
Page 10
NZ100 Installation Commissioning & Operation
7.
INSTALLING THE BRIGADE BOARD (SGD type II )
6.
6.
4.
5.
2.
2.
The Brigade Board interfaces to a Line Transmitter to facilitate monitoring by a Fire Brigade or monitoring service. It can be supplied installed or in fast fit kit form which contains all the necessary parts for installation. Fitting the board is a simple procedure as detailed and illustrated below.
1. Turn off power and disconnect the battery.
Fit door switch bracket assembly to top right corner of cabinet with M3 screws supplied.
Fit four nylon standoffs onto 302 - 665B.
Remove the jumper link from CN3 and fit the six-way cable.
Remove the left bottom screw of 302 - 665B and install the earth cable as shown below.
Fit 302 - 678 onto nylon standoffs as shown below.
Connect the six-way cable to CN2 of 302 - 678 and the two-way cable to CN1.
8.
9.
10.
11.
Terminate Line Transmitter ( LTX ) cables to 302 - 678.
Set the K1 links to the assigned address.
Switch power on to NZ100 and connect battery.
Test the monitoring in accordance with the LTX SDG Input Interface Specifications.
Note: When the SGD is ordered with the panel, the SGD will be fitted and programmed prior to delivery.
Fit 25mm nylon standoffs into
302 665B board.
Then fit 302 678 board to standoffs.
Cable to LTX
Interface
& 12 volt
Supply
Fit earth wire from 302 678 to under screw of 302 665B.
+
D E T
-
+
BELL
-
+
BELL
-
TB2
BELL BATT
F 1 F 2
3A 0 . 8 A
BZ1
TB1
F 1
1
2
CN1
POLL
ISOLATE
DEFECT
F I R E
NORMAL
A
B
-
+
S D G
ADDRESS
All Links
Off = 16
U3
1
2
3
4
K1
WALK
T E S T
BUZZER
MUTE
RESET
SW1
302 678
SW2 SW3
NORMAL
BELL
SYS.
Z O N E
BATT.
BZ1
+
D O O R
SWITCH
U5
C N 1
U6
C N 2
R12
U7
F I R E
SYSTEM
NORMAL
NORMAL
250mA
U2
0V
302 665B
15V A.C.
C14
D6
MAINS ON
U4
K2
ISOLATE
AMPAC
SGD Type II
T E S T
F3
SECONDARY FUSE
Fit door switch bracket with M3 screws.
Fit 2 Way cable to door switch.
Fit 6 way cable from CN3 of the
302 - 665B to CN2 302 - 6780
Page 11
NZ100 Installation Commissioning & Operation
Figure 9: Brigade Board Installation
Page 12
NZ100 Installation Commissioning & Operation
8.
ASPI RELAY BOARD
The ASPI ( A MPAC S erial P eripheral I nterface) relay board will provide the NZ100 system with a 5-amp relay contact for use by ancillary devices.
The relay is normally de activated and can be selected to be activated by the fire zone ALARM,
DEFECT or a system NORMAL condition. The type of condition is set by the SELECT OUTPUT links
(LK3).
1 = ALARM
2 = DEFECT
3 = NORMAL
The ASPI board has to be addressed for correct operation in the NZ100 panel. This is set by the
ADDRESS links LK1 pin 3 as shown below.
To install the 302-5930:
1. Power system down.
2. Mount the board on standoffs and mount within the NZ100 cabinet, as the Serial Interface
Standard does not allow for long runs.
3. Use the 8 way Ribbon supplied to connect CN1 (302-5930) to CN4 (302-665B).
4. Connect the ancillary devices to TB1
The panel is now ready to power up and the relay checked for desired outputs.
5
6
7
8
3
4
1
2
K3
N/O
COM
N/C
N/O=NORMALLY OPEN
COM=COMMON
N/C=NORMALLY CLOSED
TB1
Example: Relay set to operate on Alarm
C5
TO CN4 OF THE MAIN SYSTEM BOARD 302 593
NOT USED
K 2
RTN
RL1
JS1-12V
N/O
COM
N/C
D4
D5
D6
D7
D8
D9
D10
D11
BD139
Q 1
K3
SELECT
1
2
3
4
5
6
7
8
D12
R6
U2
C3 RN1
302 5930
R7 R 5
U1
CN1 CN2
K1
ADDRESS
7
C 1
6
5
4
3
2
1
C2
+
C4
1
K 1
FIT ANY COMBINATION
OF SELECT JUMPERS 1 to 3
K1 FIT ONLY ONE
ADDRESS JUMPER 3
Figure 10: ASPI Relay Board Layout with “SELECT” Set to Activate on Alarm
+
Note: Should there be a need to extend a panels control functions this board can be supplied in kit form
( order Kit 155 – 0015 ).
Page 13
9.
SYSTEM OPERATION
9.1 Resetting the System
NZ100 Installation Commissioning & Operation
To reset the system after a fire, press the ‘RESET’ button on the 302-665B. This will return the system back to its normal state. The buzzer will sound for confirmation.
9.2 Using the Walk Test Facility.
To start the walk test facility, press the ‘Walk Test’ switch on the 302-665B. The buzzer will beep once and the LED above the switch will illuminate.
The detectors can now be tested. When a detector is set into alarm the system will operate as normal for approximately four seconds. After this time the detectors on the circuit in alarm will be reset. When testing is complete, press the ‘Walk Test’ switch to return to normal.
The walk test facility has an internal time out and will be de-selected automatically after ten (10) minutes of operation.
9.3 Evacuation.
On the door of the NZ100 a key switch is provided for Evacuation, operating this key switch will cause the system to operate the bells /sounders. This will override any other bell isolate or silence condition.
Page 14
10.
TROUBLESHOOTING
Problem
NZ100 Installation Commissioning & Operation
Possible cause/s Suggested remedy/ action
Mains LED is off
Bell circuits in defect.
Zone always in defect.
System fault light is on.
(Mains is on).
Defect occurs when door is closed.
Mains supply is not operational. Check mains supply.
AC Fuse on 302-665B or Mains
Fuse is blown.
Check and replace if necessary
F3 on 302-665B, and Mains
Fuse F4.
Diodes not fitted in series with bell.
End of line not fitted.
Fuse blown.
Fit diodes to bells as shown in section 4.
Fit end of line resistor
Check fuse F1 on PCB.
Replace if necessary.
Line is shorted.
Line is open.
End of line not fitted.
Brigade board is disconnected.
No brigade board.
Isolate or Test switches on brigade board not in normal position
Check and remove short.
Check line and rectify.
Fit 6K8 resistor to end of line.
Connect brigade board.
Make sure link is fitted to CN3, pins 5 and 6.
Return switches to normal position.
Page 15
11.
APPENDIX A
NZ100 Installation Commissioning & Operation
Q I = Quiescent Current Draw
Cct Max = The maximum number of devices that can exist on any one circuit ( IE 1.6mA max/cct ).
Heat Detectors
Order Code
4255-0300
4255-0400
Description
Heat Detector blue Indicating 57°C
Heat Detector yellow Indicating 77°C
Q I
40µA
40µA
Cct Max
40
40
Note: Rate of Rise Heat Detectors are also available.
Smoke Detectors
Order Code
55000-217
55000-317
55000-220
45681-200
201-0501
201-0505
201-0528
Beam Detectors
Order Code
220 0004
220 0005
220 0006
Description
Apollo Series 65 Ionisation (LPC)
Apollo Series 65 Optical (LPC)
Apollo Series 65 Integrating Ionisation (LPC)
Apollo Series 60/65 universal base
Apollo Orbis Optical with Flashing LED
Apollo Orbis MultiSensor
Apollo Orbis universal base
Description
Fireray 2000 Beam Detector Tx/Rx/controller
Fireray 50R Beam Detector
Fireray 100R Beam Detector
45µA
45µA
45µA
N/A
65µA
65µA
N/A
8mA
4mA
4mA
35
35
35
24
24
N/A
N/A
N/A
Manual Call Points
Order Code
213 0042
Description
Ampac Manual Call Point 40µA 40
Page 16
AUSTRALIA
AMPAC TECHNOLOGIES PTY LTD
7 Ledgar Rd
Balcatta
WA 6021
Western Australia
Tel: 61 8 9242 3333
EUROPE
AMPAC EUROPE LTD. (UK)
Unit 18 Network centre
Yorkshire Way
West Moor Park
Doncaster DN3 3GW
United Kingdom
Tel: +44 (0) 1302 833 522
NEW ZEALAND
AMPAC PACIFIC LTD
Unit 4 101 Diana Drive
Glenfield,
Auckland
New Zealand
Tel: 64 9 443 8072
Fax: 61 8 9242 3334
Email: [email protected]
Fax: +44 (0) 1302 835 021
Email: [email protected]
Fax: 64 9 443 8073
Email: [email protected]
HEAD OFFICE
UNCONTROLLED DOCUMENT
NOTE: Due to Ampac’s commitment to continuous improvement specifications may change without notice.
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Table of contents
- 5 INTRODUCTION
- 5 Unpacking and Inspection
- 5 Anti Static Precautions
- 5 SPECIFICATIONS
- 5 Power Supply/Battery Charger
- 5 Outputs
- 5 Detector Circuit
- 6 SYSTEM DESCRIPTION
- 6 General Description
- 6 Front Panel Layout
- 7 Internal Layout
- 7 Detector Circuits
- 8 Bell Circuits
- 8 Auxiliary Output
- 8 Walk Test
- 8 Buzzer
- 8 Buzzer Mute
- 8 Defect Indicators
- 9 Power Supply
- 9 Mains On Indicator
- 9 Fusing
- 9 Batteries
- 10 CONNECTING DEVICES
- 10 Detectors
- 10 Detector Limitations
- 10 Manual Call Points
- 12 Bells and Sounders
- 12 Auxiliary Relay
- 13 SETTINGS
- 13 Gating
- 13 No Brigade Board
- 14 INSTALLATION AND INITIAL OPERATION
- 14 Installing the NZ
- 14 Initial operation
- 15 INSTALLING THE BRIGADE BOARD (SGD TYPE II )
- 17 ASPI RELAY BOARD
- 18 SYSTEM OPERATION
- 18 Resetting the system
- 18 Using the Walk Test facility
- 18 Evacuation
- 19 TROUBLESHOOTING
- 20 APPENDIX