Potter PFC-9000 Series User Manual

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PFC-9000 • 5403535 • REV G • 9/08

Hochiki Ion, AIS

- Ionization Smoke Sensor

Hochiki Photo, APS

- Photoelectric Smoke Sensor

Hochiki Heat, AHD

- 135º Fixed Temperature Heat Sensor

Hochiki Duct, ADSD

- Duct Smoke Sensor with or without relay

FRCM-2, FRCM-4 (IPT Mod)

- Single Address Input Module

DRM, Dual Relay Mod

- Output Module with Dual Form C Relays

SOM, Supv Output Mod

- Output Module with End of Line Supervision

The Process refers to how the panel will process the signal from a particular device. Listed below are the types of processes and a

description of what they do.

Initiating (Detection) Circuit Types:

Non-Verified Alarm

This is a “Normal” type of Alarm which may have Pull-Stations, Smoke Sensors or Heat

Sensors attached. Any activation of these devices will immediately result in an Alarm

condition in the Fire Alarm Control Panel. An Alarm condition causes any associated Zone

Status LED and the Common Alarm LED to illuminate Red.

Verified Alarm

These Alarms are verified by a reset and timing procedure, and may have Pull-Stations,

Smoke Sensors or Heat Sensors attached. Any activation of Pull-Stations or Heat Sensors will

result in an Alarm condition in the Fire Alarm Control Panel within 4 seconds. Smoke Sensors

will be verified for a real Alarm within 60 seconds depending upon the start-up time of the

Smoke Sensors being used. If 4 seconds is too long a response time for Pull-Stations, then

they should be wired separately on a Non-Verified Alarm Circuit. An Alarm condition causes

any associated Zone Status LED and the Common Alarm LED to illuminate Red.

Water-Flow Alarm

Water-flow Alarms are for FRCM’s monitoring waterflow switches on sprinkler systems.

When this type of alarm is selected a 15-second delay, (Retard), is automatically introduced

to that circuit. The circuit is sampled once a second, if an alarm condition exists on the circuit

for 10 samples in a fifteen second period an alarm signal is sent. An alarm condition causes

any associated Zone Status LED and the common Alarm LED to illuminate as well as any

NAC or relays correlated to that address. The 15 second retard time cannot be changed or

disabled. If it is desired to not have a retard time associated with a waterflow device simply

select Non-Verified Alarm as the circuit type.

General Alarm

To provide Remote General Alarm, such as for remote key-switches. In a Single Stage

System, these inputs act the same as Non-Verified Alarms, but if Correlations are enabled,

General Alarm Notification Circuits are correlated to ALL Notification Circuits.

Non-Latching Supervisory

Supervisory devices that are not required to have the system reset may be configured as non-

latching. An activation on these circuits will cause any associated Zone Status LED and the

Common Supervisory LED to illuminate Amber. The buzzer will sound continuously. If the

circuit activation is removed, the Supervisory condition will clear (so long as there are no

other Supervisory conditions in the system) and the Zone Status LED will extinguish.

Latching Supervisory

Supervisory devices that are required to latch on the control panel must be configured as

latching. Activation on these circuits will cause any associated Zone Status LED and the

Common Supervisory LED to illuminate Amber. The buzzer will sound continuously. If the

circuit activation is removed, the Supervisory condition will NOT clear until the panel is reset.

Monitor

This is a supervised general purpose non-latching input used mainly for correlating to a Relay

Circuit. No other system condition occurs as a result of its activation (short-circuit), although

it is supervised for Trouble (open-circuit).

Trouble-Only

This is for monitoring a Trouble Condition from an external device. Both open and short

circuits generate a non-latching Trouble condition.