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INSTALLATION & MAINTENANCE MANUAL • Approved Document No. DFU7002020 Rev 4 • Page 23 of 24

LPCB APPROVED CFP ALARMSENSE 2/4/8 ZONE FIRE ALARM PANEL

STANDBY BATTERY CALCULATION GUIDE

The standby time of the fire alarm panel, after the Mains has failed, depends on the quiescent loading 
of the panel, the alarm load of the panel, and the capacity of the batteries.
Note: LPCB approved systems must use 3.2Ah batteries (YUCEL Y3.2-12).
To determine the capacity of batteries required for any given standby period, the following formula 
should be used:

The multiplier 1.25 is present to account for lost capacity over the life of the batteries.

H = Number of hours standby required
P = The quiescent current of the panel = 0.025A
This figure is with the Mains failed, beeper operative and the Power Supply and General Fault lights lit. 
If there are other quiescent drains on the panel then these must be included.
Z = The total quiescent current of all zone devices
See Zone Circuit specification on page 24 for quiescent consumption of AlarmSense™ devices.
A = The total alarm current of the sounders (plus any other devices connected to other alarm outputs).
See Zone Circuit specification on page 24 for quiescent consumption of AlarmSense™ devices. Also, take 
into consideration conventional sounder load (where relevant).
T = The amount of time in hours required for the alarm (most commonly being half an hour).

Example 1:
The panel has 70 detectors each consuming 50µA each, 20 sounders at 20mA each, the required standby 
time is 24 hours and the required alarm time is 0.5 hours.

Z = 70 x 0.00005 = 0.0035A
P = 0.025A 
A = 20 x 0.02 = 0.4A
H = 24 
T = 0.5

Standby Time in Ah = 1.25 x [(0.5 x 0.4) + 24 x (0.025 + 0.0035)] = 1.1Ah.
Therefore, batteries with at least 1.1Ah capacity are required.

Example 2:
The panel has 100 detectors each consuming 50µA each, 40 sounders at 20mA each, the required standby 
time is 72 hours and the required alarm time is 0.5 hours.

Z = 100 x 0.00005 = 0.005A
P = 0.025A
A = 40 x 0.02 = 0.8A
H = 72
T = 0.5

Standby Time in Ah = 1.25 x [(0.5 x 0.8) + 72 x (0.025 + 0.005)] = 3.2Ah
Therefore, batteries with at least 3.2Ah capacity are required.

Standby Time in Ah = 1.25 x [(TxA) + H x (P+Z)]

Содержание AlarmSense CFP702-2

Страница 1: ...LPCB APPROVED CFP 2 4 8 ZONE FIRE ALARM CONTROL PANEL CFP702 2 2 Zone CFP702 2 2 Zone CFP704 2 4 Zone CFP708 2 8 Zone installation maintenance manual Approved Document No DFU7002020 Rev 4...

Страница 2: ...non latching zones delays test sounder status 16 17 Fault Diagnosis 18 Fault indications 18 Zone faults 19 Power supply faults 19 System faults 21 Repeater faults 22 Conventional sounder faults 22 Re...

Страница 3: ...lause 7 11 A delay facility selectable on a zone by zone basis is provided to delay the alarm sounders remote fire and or auxiliary outputs Test condition Clause 10 0 A zone test facility is provided...

Страница 4: ...this document A basic understanding of fire alarm system components and their use is assumed We strongly recommend that a suitably qualified and competent person is consulted in connection with the d...

Страница 5: ...of any personal electro static charge by momentarily touching any sound connection to safety earth e g a radiator Always handle PCBs by their sides and avoid touching the legs of any components PCBs s...

Страница 6: ...switched fused spur at 3 A or a 6 A Type B circuit breaker to IEC EN 60898 1 The Mains supply MUST be exclusive to the panel and be reliably earthed at the indicated earthing post Hint As an alternat...

Страница 7: ...e programmed into the panel using the Sounder Status function see Page 17 for details Also there are limitations on the number of sounders which can be used please refer to page 8 for important advice...

Страница 8: ...d supplying the panel s battery charging circuit and any output relays which may be fitted As a safe margin and to allow for these other loads the total sounder loading for the panel should not exceed...

Страница 9: ...limiting fuse which trips if one or more of the loads are shorted This affects all loads and results in appropriate faults being reported at the panel The current consumed by this output must be consi...

Страница 10: ...connected directly to this connector block and NOT to the base earth distribution post which is provided for making off zone circuit and conventional sounder circuit screens The Power Supply PCB s ea...

Страница 11: ...HR R V V 0V 1A 250 R 1A R Incoming Mains Cable This cable MUST be segregated from other cables Good quality cable glands MUST always be fitted Battery Connector CONN2 Leads supplied in the panel s acc...

Страница 12: ...lihood of incorrect connection Figure 10 Main Control PCB layout INSTALLATION MAINTENANCE MANUAL Approved Document No DFU7002020 Rev 4 Page 12 of 24 LPCB APPROVED CFP ALARMSENSE 2 4 8 ZONE FIRE ALARM...

Страница 13: ...All screens should be adequately insulated and connected between the nut and washers on the base earth distribution post see right using suitable eyed crimp connectors Do not disturb the lower nut th...

Страница 14: ...el only The programming of coincidence double knock Note This function is non compliant with EN54 2 The setting up zones for non latching operation Note This function is non compliant with EN54 2 The...

Страница 15: ...alse alarm pressing the CONTROL PANEL RESET button at access level 2 during the delay period will return the system to normal Important note If link PLK1 is fitted on the Main Control PCB see right tr...

Страница 16: ...non compliant with EN54 2 1 Press the ACCESS LEVEL THREE FUNCTIONS button until the COINCIDENCE light flashes any pairs of zones that are already programmed for coincidence will have their Zone Fault...

Страница 17: ...LEVEL THREE FUNCTIONS button To program zones into test 1 Press the ACCESS LEVEL THREE FUNCTIONS button until the TEST light flashes any zones that are already programmed for test will have their Zon...

Страница 18: ...correct this fault see page 19 section 1 1 Supply Present This light should be lit green at all times If off see power supply faults page 19 section 1 2 Power Supply Fault This light flashes yellow w...

Страница 19: ...rs this confirms there is a wiring fault 2 Refit and double check the wiring and the end of line capacitor on the zone Trace the fault with consideration for the type of fault indicated see above Note...

Страница 20: ...power supply fault will automatically be cleared Depending on battery size and the depth of discharge this may take several hours If the batteries are in poor condition they must be replaced If the b...

Страница 21: ...d System Fault lights will be cycle continuously plus the panel s internal sounder will activate Suggested action Press the panel s RESET button and if still in access level 3 the ESCAPE ACCESS button...

Страница 22: ...ulty and must be replaced 3 If a sounder circuit fault is detected correct the fault and reconnect the sounder circuit The sounder fault will automatically clear within 60 seconds Note If the sounder...

Страница 23: ...pecification on page 24 for quiescent consumption of AlarmSense devices A The total alarm current of the sounders plus any other devices connected to other alarm outputs See Zone Circuit specification...

Страница 24: ...ored for open and short circuit YES Reverse voltage DC monitoring Indicated by common fault Alarm voltage 27VDC maximum 20VDC minimum final battery voltage Sounder circuit fuses Each circuit protected...

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