System Sensor PDRP-1001 User Manual

PDRP-1001

3825 Ohio Avenue
St. Charles, IL 60174
1-800-SENSOR2
Fax: (630) 377-6495

Series

Deluge - Preaction Control

Panel

Instruction Manual

Document 50734

I56-933-01

04/06/2001 Rev:

PN 50734:D0 ECN 00-543

D

Fire Alarm System Limitations

While a fire alarm system may lower insurance
rates, it is not a substitute for fire insurance!

An automatic fire alarm system–typically made up of smoke
detectors, heat detectors, manual pull stations, audible warn­ing devices, and a fire alarm control with remote notification
capability–can provide early warning of a developing fire.
Such a system, however, does not assure protection against
property damage or loss of life resulting from a fire.

The Manufacturer recommends that smoke and/or heat detec­tors be located throughout a protected premise following the
recommendations of the current edition of the National Fire
Protection Association Standard 72 (NFPA 72),
manufacturer's recommendations, State and local codes, and
the recommendations contained in the Guide for Proper Use
of System Smoke Detectors, which is made available at no
charge to all installing dealers. A study by the Federal Emer­gency Management Agency (an agency of the United States
government) indicated that smoke detectors may not go off in
as many as 35% of all fires. While fire alarm systems are de­signed to provide early warning against fire, they do not guar­antee warning or protection against fire. A fire alarm system
may not provide timely or adequate warning, or simply may not
function, for a variety of reasons:

Smoke detectors may not sense fire where smoke cannot
reach the detectors such as in chimneys, in or behind walls, on
roofs, or on the other side of closed doors. Smoke detectors
also may not sense a fire on another level or floor of a build­ing. A second-floor detector, for example, may not sense a
first-floor or basement fire.

Particles of combustion or "smoke" from a developing fire
may not reach the sensing chambers of smoke detectors be­cause:

• Barriers such as closed or partially closed doors, walls, or
chimneys may inhibit particle or smoke flow.

• Smoke particles may become "cold," stratify, and not reach
the ceiling or upper walls where detectors are located.

• Smoke particles may be blown away from detectors by air
outlets.

• Smoke particles may be drawn into air returns before
reaching the detector.

The amount of "smoke" present may be insufficient to alarm
smoke detectors. Smoke detectors are designed to alarm at
various levels of smoke density. If such density levels are not
created by a developing fire at the location of detectors, the
detectors will not go into alarm.

Smoke detectors, even when working properly, have sensing
limitations. Detectors that have photoelectronic sensing
chambers tend to detect smoldering fires better than flaming
fires, which have little visible smoke. Detectors that have ion­izing-type sensing chambers tend to detect fast-flaming fires
better than smoldering fires. Because fires develop in differ­ent ways and are often unpredictable in their growth, neither
type of detector is necessarily best and a given type of detec­tor may not provide adequate warning of a fire.

Smoke detectors cannot be expected to provide adequate
warning of fires caused by arson, children playing with
matches (especially in bedrooms), smoking in bed, and violent
explosions (caused by escaping gas, improper storage of
flammable materials, etc.).

Heat detectors do not sense particles of combustion and
alarm only when heat on their sensors increases at a prede­termined rate or reaches a predetermined level. Rate-of-rise
heat detectors may be subject to reduced sensitivity over time.
For this reason, the rate-of-rise feature of each detector
should be tested at least once per year by a qualified fire pro­tection specialist.

Heat detectors are designed to protect

property, not life.

IMPORTANT!

Smoke detectors must be installed in the

same room as the control panel and in rooms used by the sys­tem for the connection of alarm transmission wiring, communi­cations, signaling, and/or power.

cated, a developing fire may damage the alarm system, crip­pling its ability to report a fire.

Audible warning devices such as bells may not alert people
if these devices are located on the other side of closed or
partly open doors or are located on another floor of a building.
Any warning device may fail to alert people with a disability or
those who have recently consumed drugs, alcohol or medica­tion. Please note that:

• Strobes can, under certain circumstances, cause seizures
in people with conditions such as epilepsy.

• Studies have shown that certain people, even when they
hear a fire alarm signal, do not respond or comprehend the
meaning of the signal. It is the property owner's responsibil­ity to conduct fire drills and other training exercise to make
people aware of fire alarm signals and instruct them on the
proper reaction to alarm signals.

• In rare instances, the sounding of a warning device can
cause temporary or permanent hearing loss.

A fire alarm system will not operate without any electrical
power. If AC power fails, the system will operate from standby
batteries only for a specified time and only if the batteries
have been properly maintained and replaced regularly.

Equipment used in the system may not be technically com­patible with the control. It is essential to use only equipment
listed for service with your control panel.

Telephone lines needed to transmit alarm signals from a
premise to a central monitoring station may be out of service
or temporarily disabled. For added protection against tele­phone line failure, backup radio transmission systems are rec­ommended.

The most common cause of fire alarm malfunction is inade­quate maintenance. To keep the entire fire alarm system in
excellent working order, ongoing maintenance is required per
the manufacturer's recommendations, and UL and NFPA stan­dards. At a minimum, the requirements of Chapter 7 of NFPA
72 shall be followed. Environments with large amounts of
dust, dirt or high air velocity require more frequent mainte­nance. A maintenance agreement should be arranged
through the local manufacturer's representative. Maintenance
should be scheduled monthly or as required by National and/
or local fire codes and should be performed by authorized pro­fessional fire alarm installers only. Adequate written records
of all inspections should be kept.

If detectors are not so lo-

LimWarLg.p65 01/10/2000

Installation Precautions

Adherence to the following will aid in problem-free
installation with long-term reliability:

WARNING -

nected to the fire alarm control panel.

of power before servicing. Control unit and associated equip­ment may be damaged by removing and/or inserting cards,
modules, or interconnecting cables while the unit is energized.
Do not attempt to install, service, or operate this unit until this
manual is read and understood.

CAUTION -

Changes.

must be tested in accordance with NFPA 72 Chapter 7 after
any programming operation or change in site-specific soft­ware. Reacceptance testing is required after any change, ad­dition or deletion of system components, or after any modifica­tion, repair or adjustment to system hardware or wiring.

All components, circuits, system operations, or software func­tions known to be affected by a change must be 100% tested.
In addition, to ensure that other operations are not inadvert­ently affected, at least 10% of initiating devices that are not
directly affected by the change, up to a maximum of 50 de­vices, must also be tested and proper system operation veri­fied.

This system meets NFPA requirements for operation at
0-49° C/32-120° F
condensing) at 30° C/86° F. However, the useful life of the
system's standby batteries and the electronic components
may be adversely affected by extreme temperature ranges
and humidity. Therefore, it is recommended that this system
and all peripherals be installed in an environment with a nomi­nal room temperature of 15-27° C/60-80° F.

Verify that wire sizes are adequate for all initiating and
indicating device loops. Most devices cannot tolerate more
than a 10% I.R. drop from the specified device voltage.

Several different sources of power can be con-

Disconnect all sources

System Reacceptance Test after Software

To ensure proper system operation, this product

and at a relative humidity of 85% RH (non-

Like all solid state electronic devices, this system may
operate erratically or can be damaged when subjected to light­ning-induced transients. Although no system is completely
immune from lightning transients and interferences, proper
grounding will reduce susceptibility.

Overhead or outside
aerial wiring is not recommended, due to an increased sus­ceptibility to nearby lightning strikes.

cal Services Department if any problems are anticipated or
encountered.

Disconnect AC power and batteries prior to removing or in­serting circuit boards. Failure to do so can damage circuits.

Remove all electronic assemblies prior to any drilling, filing,
reaming, or punching of the enclosure. When possible, make
all cable entries from the sides or rear. Before making modifi­cations, verify that they will not interfere with battery, trans­former, and printed circuit board location.

Do not tighten screw terminals more than 9 in-lbs.
Over-tightening may damage threads, resulting in reduced
terminal contact pressure and difficulty with screw terminal
removal.

Though designed to last many years, system components
can fail at any time. This system contains static-sensitive
components. Always ground yourself with a proper wrist strap
before handling any circuits so that static charges are re­moved from the body. Use static-suppressive packaging
to protect electronic assemblies removed from the unit.

Follow the instructions in the installation, operating, and
programming manuals. These instructions must be followed
to avoid damage to the control panel and associated
equipment. FACP operation and reliability depend upon
proper installation by authorized personnel.

Consult with the Techni-

FCC Warning

WARNING: This equipment generates, uses, and can

radiate radio frequency energy and if not installed and
used in accordance with the instruction manual, may
cause interference to radio communications. It has
been tested and found to comply with the limits for class
A computing device pursuant to Subpart B of Part 15 of
FCC Rules, which is designed to provide reasonable
protection against such interference when operated in a
commercial environment. Operation of this equipment in
a residential area is likely to cause interference, in which
case the user will be required to correct the interference
at his own expense.

Canadian Requirements

This digital apparatus does not exceed the Class A
limits for radiation noise emissions from digital
apparatus set out in the Radio Interference Regulations
of the Canadian Department of Communications.

Le present appareil numerique n'emet pas de bruits
radioelectriques depassant les limites applicables aux
appareils numeriques de la classe A prescrites dans le
Reglement sur le brouillage radioelectrique edicte par le
ministere des Communications du Canada.

LimWarLg.p65 01/10/2000

NFPA Standards

This control panel complies with the following NFPA standards:

•NFPA 13 - Sprinkler Systems

•NFPA 15 - Water Spray Systems

•NFPA 16 - Foam-Water Deluge Systems and Foam-Water Spray Systems

• NFPA 72 - Central Station Signaling Systems (Automatic, Manual, and Waterflow) - Protected
Premises Unit
Requires NOTI-FIRE 911AC DACT or 411UDAC Universal Digital Alarm Communicator

• NFPA 72 - Local Fire Alarm Systems (Automatic, Manual, Waterflow and Sprinkler Supervisory)

• NFPA 72 - Auxiliary Fire Alarm Systems (Automatic, Manual, and Waterflow)
Requires 4XTM

• NFPA 72 - Remote Station Fire Alarm Systems (Automatic, Manual, and Waterflow)
Requires 4XTM or NOTI•FIRE 911AC DACT or 411UDAC

Note: Applications which require the 411UDAC or the NOTI-FIRE 911AC are not FM approved.

Before proceeding, the installer should be familiar with the following documents.

NFPA Standards

• The above listed documentation

• NFPA 72 - Automatic Fire Detectors

• NFPA 72 - Installation, Maintenance, and Use of Notification Appliances for Fire Alarm Systems

• NFPA 72 - Testing Procedures for Signaling Systems

NFPA Standards

Underwriters Laboratories Documents

• UL 38 - Manually Actuated Signaling Boxes

• UL 217 - Smoke Detectors, Single and Multiple Station

• UL 228 - Door Closers - Holders for Fire Alarm Systems

• UL 268 - Smoke Detectors for Fire Alarm Systems

• UL 268A - Smoke Detectors for Duct Applications

• UL 346 - Waterflow Indicators for Fire Protective Signaling Systems

• UL 464 - Audible Signaling Appliances

• UL 521 - Heat Detectors for Fire Protective Signaling Systems

• UL 864 - Standard for Control Units for Fire Alarm Systems

• UL 1481 - Power Supplies for Fire Protective Signaling Systems

• UL 1638 - Visual Signaling Appliances

• UL 1971 - Signaling Devices for the Hearing Impaired

• CAN/ULC-S524-M91 Standard for Installation of Fire Alarm Systems

• CAN/ULC-S527-M87 Standard for Control Units for Fire Alarm System

Other

• NEC Article 300 - Wiring Methods

• NEC Article 760 - Fire Protective Signaling Systems

• Applicable Local and State Building Codes

• Requirements of the Local Authority Having Jurisdiction

• ADA - Americans with Disabilities Act

Refer to "Appendix B: Compatible Devices" on page 39 for a listing of all compatible initiating, indicating
and releasing devices.

4

PDRP-1001 Instruction Manual PN 50734:D0 04/06/01

NFPA Standards.......................................................................................................... 4

NFPA Standards .................................................................................................... 4

Underwriters Laboratories Documents ................................................................. 4

Other....................................................................................................................... 4

1. Product Description

Overview ...................................................................................................................... 7

Features .......................................................................................................................7

Options ........................................................................................................................7

Circuits ......................................................................................................................... 8

Input Circuits.......................................................................................................... 8

Output circuits........................................................................................................ 8

Front Panel Control Switches ................................................................................ 8

Suplemental Documentation ...................................................................................... 8

Control Panel............................................................................................................... 9

DIP Switch Functions................................................................................................ 10

Options ....................................................................................................................... 10

Transmitter Module - 4XTM .............................................................................. 10

Zone Relay Module - 4XZM .............................................................................. 10

Remote Annunciator - RZA-4X .......................................................................... 11

LED Interface Module - 4XLM .......................................................................... 11

Meter Module (Volts-Amps) - 4XMM ............................................................... 11

Specifications ............................................................................................................. 12

AC Power............................................................................................................. 12

Battery (lead acid only)........................................................................................ 12

Initiating Device Circuits ..................................................................................... 12

Notification Appliance and Releasing Circuits.................................................... 12

Alarm and Trouble Relays ................................................................................... 12

Resettable Power.................................................................................................. 12

Nonresettable Power ............................................................................................ 12

RMS Regulated Power......................................................................................... 12

Table of Contents

Table of Contents

2. Installation

Cabinet Mounting ..................................................................................................... 13

Removal of Circuit Board.................................................................................... 13

Mounting of Cabinet ............................................................................................ 13

Attaching Conduit ................................................................................................ 13

Reinstallation of Circuit Board ............................................................................ 14

Installing Optional Voltmeter/Ammeter................................................................. 15

Power Connections.................................................................................................... 16

AC Connections ................................................................................................... 16

Battery (DC) Connections.................................................................................... 16

Power-limited Wiring Requirements ...................................................................... 17

Initiating Device Circuits.......................................................................................... 18

Four-Wire Smoke Detector Connections............................................................. 19

Output Circuits.......................................................................................................... 20

Notification Appliance Circuits ........................................................................... 20

Releasing Circuits ................................................................................................ 21

Alarm Relay Circuit............................................................................................. 22

Trouble Relay Circuit........................................................................................... 22

Powering External Devices....................................................................................... 22

Optional Modules ...................................................................................................... 23

Overview.............................................................................................................. 23

Installation - Upper Position ................................................................................ 23

Installation - Lower Position................................................................................ 24

PDRP-1001 Instruction Manual PN 50734:D0 04/06/01

5

Table of Contents

Setup and Configuration....................................................................................... 25

Setting Mode of Operation ....................................................................................... 28

Basic Program ...................................................................................................... 28

Discharge Timer................................................................................................... 29

Power-Up Procedure................................................................................................. 30

3. System Operation

System Status LEDs .................................................................................................. 31

Control Switches........................................................................................................ 32

Zone Status LEDs...................................................................................................... 32

Piezo ............................................................................................................................ 33

Supervisory Service................................................................................................... 33

Zone Disable............................................................................................................... 33

Last Event Recall....................................................................................................... 34

Non-Silenceable Service ............................................................................................ 34

Sprinkler Supervisory Tracking .............................................................................. 34

System Events ............................................................................................................ 34

Standby Condition................................................................................................ 34

System Trouble Condition ................................................................................... 34

Single Zone in Alarm (Cross Zone) Condition .................................................... 35

Both Zones in Alarm (Cross Zone) Condition..................................................... 35

Brownout Condition............................................................................................. 35

Transmitter Module - 4XTM ........................................................................ 25

Zone Relay Module - 4XZM ........................................................................ 26

LED Interface Module - 4XLM .................................................................... 27

Appendix A: Secondary Power Calculations

Standby Battery Requirements................................................................................ 37

Calculating the Battery Capacity............................................................................. 38

Appendix B: Compatible Devices

Two-wire Smoke Detectors, UL Listed.................................................................... 39

Four-wire Smoke Detectors, UL Listed................................................................... 40

FM Approved Releasing Devices ............................................................................. 40

Notification Appliances, UL Listed.......................................................................... 41

Door Holders, UL Listed........................................................................................... 43

24 VDC Relays, UL Listed........................................................................................ 43

Appendix C: NFPA Standard-Specific Requirements

Minimum System Requirements.......................................................................... 45

Additional Requirements...................................................................................... 45

NFPA 72 - Signaling Systems for Central Station Service (Protected Premises Unit)45

NFPA 72 - Auxiliary Fire Alarm System ..................................................... 45

NFPA 72 - Remote Station Fire Alarm System ............................................ 45

Digital Alarm Communicator/Transmitter - Noti-Fire 911AC............................. 46

Universal Digital Alarm Communicator - 411UDAC ............................................ 47

Local Energy Municipal Box.................................................................................... 48

Remote Station Receiver - RS82-9 ........................................................................... 49

Appendix D: Testing & Maintenance

Testing ........................................................................................................................ 51

Inspection ............................................................................................................. 51

Alarm Test............................................................................................................ 51

Maintenance............................................................................................................... 51

Troubleshooting......................................................................................................... 51

6

PDRP-1001 Instruction Manual PN 50734:D0 04/06/01

Overview

Features

1. Product Description

The PDRP-1001 Series Deluge - Preaction Control System has been designed as a control center for use
in single- and dual-hazard deluge and preaction applications. The panel is a feature-packed control unit
suitable to perform detection and control functions associated with the release of water-based fire
protection systems. The panel is designed for maximum reliability with 100% solid state circuitry and
isolated relay contacts for outside interfacing and features programmable options to allow on-site
customization of the unit for various operating configurations.

An integral standby battery system, with charger, is provided. In case of commercial AC power
interruption, automatic switchover to the battery system will provide power to the panel for a minimum
of 24 hours.

The control panel is supplied complete with backbox, hinged door, control switches, and indicator LEDs.

The entire unit is housed in a standard sheet-metal enclosure with 1/2 in. (12.7 mm) and 3/4 in. (19.05 mm)
conduit knockouts available.

The PDRP-1001 and PDRP-1001A are 110/120 VAC control panels. The PDRP-1001E is a 220/240 VAC
control panel.

• Microprocessor-controlled

• Alarm and trouble resound

• Four Style B/D Initiating Device Circuits

• Two Style Y/Z Notification Appliance Circuits

• Two Style Y Release Circuits

• General alarm and trouble relays

• Designed for sprinkler standards NFPA 13, 15 & 16.

• Disable/enable controls per Initiating Device Circuit

• Last Event Recall

• Battery/Earth fault supervision

• Current protection on all notification circuits

• RMS regulated output power, 2.25 amps

• 7 amp-hour (AH) to 18 AH battery options, up to 90
hours standby

• Resettable and nonresettable regulated power
outputs

• Extensive transient protection

• Watchdog timer to supervise microprocessor

• Output circuits protected against false activations

• Slide-in zone identification labels

• Steel cabinet 14.5” (36.83cm) wide by 16.00”
(40.64cm) high by 4.75” (12.07cm) deep

• Dual Hazard operation

• Municipal Box output

• Adjustable discharge timer

Options

• 4XTM Transmitter Module - Complies with NFPA
72 Auxiliary and Remote Station Protective
Signaling systems

• 4XZM Zone Relay Module for zone/function relays

• RZA-4X Supervised remote annunciator (requires
4XLM Interface Module)

• 411UDAC or NOTI•FIRE 911AC Digital
Communicator - Complies with NFPA 72 Central
Station and Remote Station Protective Signaling
systems

Note: Applications which require the 411UDAC or the NOTI-FIRE 911AC are not FM approved.

PDRP-1001 Instruction Manual PN 50734:D0 04/06/01

• 4XMM Volt/Amp Meter Module

• Cross-zone option

• Dead-front dress panel option (DP-4X)
(Required for Canadian applications)

• Trim ring for flush mount between 16 in. (40.64 cm)
center studs (TR-4XR)

7

1. Product Description Circuits

Circuits

Input Circuits

Initiating Device Circuit #1 (Style B/D)

Initiating Device Circuit #2 (Style B/D)

Waterflow (Style B/D)

Supervisory (Style B/D)

Output circuits

NAC 1 - Alarm/Waterflow (Style Y/Z)

NAC 2 - Waterflow/Supervisory (Style Y/Z)

Releasing Circuit 1 (Style Y)

Releasing Circuit 2 - Supervisory (Style Y)

Note: Zone Relay Module (4XZM) tracks these four circuits.

Front Panel Control Switches

Switch 1 - Tone Silence

Switch 2 - Alarm Silence

Switch 3 - Alarm Activate

Switch 4 - System Reset

Suplemental Documentation

The table below lists document sources containing additional information regarding the PAR-3:

For information on... Refer to... Part Number

Digital Alarm
Communicator/Transmitters

Remote Station Receiver Fire•Lite RS82-9 Instruction Manual 15400

Voltmeter/Ammeter 4X Series Power Meter PID 15396

NOTI-FIRE 911AC Instruction
Manual

411UDAC Instruction Manual

74-06200-005

51073

8

PDRP-1001 Instruction Manual PN 50734:D0 04/06/01

Control Panel 1. Product Description

Control Panel

Notification Appliance Circuits

Style Z (Class A) / Style Y (Class B)

24VDC

Regulated Nonresettable

Regulated Resettable

RMS-Regulated

B+ A+ A– B–

TB1

J1

OUT#1

OUT#2

B+ A+ A– B–

AC POWER

Releasing Circuits

Style Y (Class B)

OUT#4

OUT#3

B+ B–

B+ B–

TB2

SYSTEM

ALARM

RELEASE

TB3

GEN
ALM1

GEN
ALM2

Relays

Alarm Contacts
Trouble Contacts

JP1

SUPV 1

SUPV 2

ZONE 1

Initiating Device Circuits - #1 to #4

Style D (Class A) / Style B (Class B)

Super-

visory

B+ A+ A– B–

IN #1

B+ A+ A– B–

IN #2

B+ A+ A– B–

Water-

flow

IN #3

B+ A+ A– B–

J4

J5

IN #4

TB4

TB5

J2

AMP

J9

J3

Battery Fail LED

Ground Fault LED

SUPERVISORY

SYSTEM

TROUBLE

CIRCUIT

TROUBLE

ALARM

SILENCED

POWER

TROUBLE

TONE

SILENCE

SW1 - DIP Switch

Micro Fail LED

WATERF LOW

SUPERVISORY

ALARM

SILENCE

ALARM

ACTIVATE

SYSTEM

RESET

Figure 1 Control Panel

OPT1

J10

OPT2

J7

J8

SW1

PEM2-board.cdr

J4 - J5 - J7 - J8

Optional Module

Connectors

PDRP-1001 Instruction Manual PN 50734:D0 04/06/01

9

1. Product Description DIP Switch Functions

DIP Switch Functions

The table below describes the DIP switch functions. For a more detailed explaination see "Setting Mode
of Operation" on page 28.

Options

#1 & #2 Mode of

Determines how NACs and Releasing Circuits respond to an alarm.

Operation

#3, #4 & #5 Timer Selects Discharge Timer setting.

Note: See “Setting Mode of Operation” on page 28 for a more detailed explanation of DIP switch
functions.

Three optional modules are available for use on the control panel. The control panel provides mounting
slots for two of these optional module boards.

Transmitter Module - 4XTM

The Transmitter Module provides a supervised output for a Local Energy
Municipal Box transmitter and alarm and trouble reverse polarity circuits for
Remote Station Service. Also included is a DISABLE switch and disable
trouble LED.

Note: As a jumper option, the alarm reverse polarity circuit will open on trouble if no
alarm exists.

Specifications for Local Energy Municipal Box service (NFPA 72 Auxiliary
Fire Alarm System)

Supervisory current: 5.0 mA.
Trip current: 0.35 amps (subtracted from Notification Appliance
power).
Coil Voltage: 3.65 VDC.
Coil resistance: 14.6 ohms.
Maximum allowable wire resistance between panel and trip coil: 3 ohms.
Municipal Box wiring can leave the building.

TBL

J1

J2

TB1

4XTMF.cdr

Specifications for Remote Station Service (NFPA 72 Remote Station Fire Alarm System)

Maximum load for each circuit: 10 mA.
Reverse polarity output voltage: 24 VDC.
Remote Alarm and Remote Trouble wiring can leave the building.

Zone Relay Module - 4XZM

The Zone Relay module provides Form-C contacts for the following:

• Relay #1 - Alarm/Alarm Pressure NAC

• Relay #2 - Alarm Pressure/Auxiliary Supervisory NAC

• Relay #3 - Release 1

• Relay #4 - Auxiliary Supervisory NAC/Release 2

• Relay #5 - System Alarm

• Relay #6 - System Trouble

Note: As a jumper option, the first four relays can be made silenceable.

Specifications

Dry Form-C contacts rated: 2.0 amps @ 30 VDC (resistive), 0.5 amps @ 30
VAC (resistive).

J2

LATCH

TB1

DISABLE

4XZMF.cdr

10

PDRP-1001 Instruction Manual PN 50734:D0 04/06/01

Options 1. Product Description

Remote Annunciator - RZA-4X

The Remote Annunciator mounts on a standard single-gang box, an d provides
LED indication of the same functions as the Zone Relay Module.

• Alarm/Alarm Pressure (red)

• Alarm Pressure/Aux Supervisory (red)

• Releasing Circuit 1 (red)

• Aux Supervisory/Releasing Circuit 2 (red)

• System Trouble LED (yellow)

A local trouble sounder and silence switch are also provided. All LED wiring
is supervised for open conditions. Any open condition will cause the System
Trouble LED to illuminate. Slide-in paper labels permit an easy change of
information.

Note: The Remote Annunciator requires the use of an LED Interface Module as described below.

SYSTEM TROUBLE

RE-SOUND

TONE

SILENCE

FIRE ALARM ANNUNCIATOR

RXA-4XF.cdr

LED Interface Module - 4XLM

The LED Interface Module supports the RZA-4X Remote Annunciator
Module. Annunciator wiring is supervised for open conditions by this module.
The module mounts to the main board on the J8 option connector.

Specifications

Maximum voltage/current, each output: 27.6 V / 8 mA.
Outputs are power-limited.

Meter Module (Volts-Amps) - 4XMM

The Meter Module provides a voltmeter to measure the voltage across the
batteries and an ammeter to measure the charging current to the batteries. The
meters are provided as an assembly that mounts to the lower left-hand corner
of the cabinet.

TB1

J2

4XLMF.cdr

0

3

10 20

DC VOLTS

30

0

3

PDRP-1001 Instruction Manual PN 50734:D0 04/06/01

DC AMPERES

4XMMF.cdr

11

1. Product Description Specifications

Specifications

AC Power

PDRP-1001 and PDRP-1001A: 110/120 VAC, 50/60 Hz, 1.2 amps
PDRP-1001E: 220/240 VAC, 50/60 Hz, 0.6 amps

Wire size: minimum #14 AWG with 600V insulation

Battery (lead acid only)

Maximum Charging Circuit: 27.6V, 1.5 amps
Maximum Battery Capacity: 18 AH.

Note: Batteries larger than 12 AH require Notifier BB-17 or other UL-listed external battery cabinet.

Initiating Device Circuits

Power-limited circuitry

Operation: Style B (Class B) or Style D (Class A)
Normal Operating Voltage: 24 VDC (ripple = 1.0V p-p)
Alarm current: 15 mA minimum
Short circuit current: 40 mA maximum
Maximum detector current in standby: 2 mA (max) per zone
Maximum loop resistance: 100 ohms
End-of-Line Resistor: 4.7K, 1/2-Watt (p/n 71252 UL listed)

Detector loop current is sufficient to ensure operation of one alarmed detector per zone.

Supervisory current: 5 mA (including End-of-Line Resistor)

Notification Appliance and Releasing Circuits

Power-limited circuitry

Maximum allowable voltage drop due to wiring: 2 VDC
Normal Operating Voltage: 24 VDC
Total current available to all external devices: 2.25 amps
Maximum signaling current per circuit: 1.5 amps
End-of-Line Resistor: 4.7K, 1/2-Watt (p/n 71252 UL listed)

Alarm and Trouble Relays

Dry Form-C contacts rated: 2.0 amps @ 30 VDC (resistive), 0.5 amps @ 30 VAC (resistive).

Note: Any power connected to these relay contacts must come from a power-limited supply. Fail-safe operation
ensures trouble relay functioning under loss of both primary power (AC) and secondary (battery power).

Resettable Power

Up to 200 mA is available for powering four-wire smoke detectors. Maximum ripple voltage: 1.0 V p-p.

Nonresettable Power

Total DC current available from this output is up to 200 mA (subtracted from four-wire smoke detector
power). Maximum ripple voltage: 1.0 V p-p.

RMS Regulated Power

12

Total DC current available for powering external devices is 0.5 amp (subtracted from 2.25 amps available
to Notification Appliance Circuits). Maximum ripple voltage: 100 mV p-p.

PDRP-1001 Instruction Manual PN 50734:D0 04/06/01

Cabinet Mounting

Carefully unpack the system and check for shipping damage.

Select a suitable location in a clean, dry, vibration-free environment that is not subject to extreme
temperatures. Locate the top of the cabinet approximately five feet above the floor with the hinge on the
left. The panel must be easily accessible for maintenance; the hinged door requires a minimum clearance
of 14 in. (35.56cm) to open.

Removal of Circuit Board

To prevent damage to the printed circuit board it should be removed prior to mounting of cabinet.

Step Action

1

Disconnect the transformer wires from the circuit board at the J1
connector.

2

Remove the four (4) phillips head screws securing circuit board to
backbox rails.

3

Carefully set board aside in a secure place.

2. Installation

Mounting of Cabinet

Securely mount the cabinet using the mounting holes provided.

Step Action

1 Mark and predrill holes for the top two keyhole mounting screws using the

dimensions shown in Figure 2 on page 14.

2 Install two upper screws in the wall with the heads protruding.

3 Using the upper keyholes, mount the backbox over the two screws.

4 Mark and drill the lower two holes.

5 Secure backbox by installing the remaining fasteners and tightening all

screws.

6

If required, attach optional Trim Ring (TR-4XR) using the provided
instructions.

Attaching Conduit

Select and remove knockouts according to the number of conduits required.

Attach conduits to backbox as required.

Determine the number of conductors required for the devices to be employed. Pull required conductors
into the box through the knockouts provided.

Note: All wiring should be in accordance with the National and/or Local codes for fire alarm systems, including
"Power-limited Wiring Requirements" on page 17.

PDRP-1001 Instruction Manual PN 50734:D0 04/06/01

13

2. Installation Cabinet Mounting

(

)

(

)

(

)

(

)

(

)

The figure below shows the exterior dimensions and mounting hole locations for the cabinet backbox and
dimensions of the optional trim ring:

16.125”

(40.96cm)

1.00”
(2.54cm)

1.00”
(2.54cm)

9.50”

(24.13cm)

14.50”

(36.83cm)

14.625”

37.15cm

12.50”

31.75cm

5.375”

13.65cm

4.75”

12.07cm

16.00”

40.64cm

MS44-cabdim.cdr

Figure 2 Cabinet Mounting Dimensions

Reinstallation of Circuit Board

Reinstall the printed circuit board as follows:

Step Action

1 Position circuit board over stand-offs on backbox rail and secure with four

(4) phillips screws. Tighten securely.

14.625”

(37.15cm)

16.125”

(40.96cm)

1.5”

(3.81cm)

MS44-trimring.cdr

2 Connect transformer wires to J1 connector on circuit board.

14

PDRP-1001 Instruction Manual PN 50734:D0 04/06/01

Installing Optional Voltmeter/Ammeter 2. Installation

Installing Optional Voltmeter/Ammeter

To monitor battery voltage and battery charging current, a 4XMM Meter Module is required. To install
the power meter module follow the steps below:

Step Action

1

Cut the jumper wire labeled “AMP”.

2 Secure the module to the backbox with the hardware provided. Refer to

Product Installation Drawing (PID) for detailed instructions.

3

Connect meter cable P2 to connector J2 on the main circuit board.

4

Connect meter cable P3 to connector J3 on the main circuit board.

The figure below shows the mounting location and connections for the Voltmeter/Ammeter.

TB5

‘AMP’ Jumper

J2

AMP

J9

J3

10 20

DC VOLTS

0

DC AMPERES

30

3

0

3

Figure 3 Mounting and Connecting the Meters

MS44-mminst.cdr

PDRP-1001 Instruction Manual PN 50734:D0 04/06/01

15

2. Installation Power Connections

Power Connections

WARNING: Do not apply any type power to this control panel until all connections have been

!

made and verified.

AC Connections

Disconnect (open) the circuit breaker in the AC main breaker panel and tag it “Out of Service”.

Note: Refer to "Power-Up Procedure" on page 30 before closing AC breaker.

Primary power required for the PDRP-1001 and PDRP-1001A control panels is 110/120 VAC, 50/60 Hz,

1.2 amps and for the PDRP-1001E is 220/240 VAC, 50/60 Hz, 0.6 amps.

Overcurrent protection for this circuit must comply with Article 760 of the National Electrical Code (NEC)
and/or local codes. Use #14 AWG (2.00 mm

2

) or larger wire with 600V insulation rating.

A separately fused and protected power connection to the panel should be supplied to prevent voltage
fluctuation and interruption of power.

Ground

Neutral

Hot

TB5

J2

AMP

J9

J3

MS44-ACconn.cdr

16

Figure 4 AC Power Connections

Battery (DC) Connections

WARNING: Battery contains sulfuric acid which can cause severe burns to the skin and eyes and

!

can destroy fabrics. If contact is made with sulfuric acid, immediately flush the skin or eyes with
water for 15 minutes and seek immediate medical attention.

CAUTION: Do NOT connect the battery interconnect wire at this time. Make this connection AFTER

!

initial system primary power connection.

Place batteries into bottom of cabinet as shown below. See "Appendix A: Secondary Power Calculations"
on page 37 for calculation of correct battery rating.

Note: Batteries are shipped separately and should be mounted only after the cabinet has been installed, the conduit
connected, and all wiring pulled, tested, and made ready to be terminated.

Continued on the next page...

PDRP-1001 Instruction Manual PN 50734:D0 04/06/01

Power-limited Wiring Requirements 2. Installation

Observe polarity when connecting the batteries. Connect the battery cable (p/n 75203 or 75202, depending
on terminal size of battery) to terminal J9 on the main circuit board using the plug-in connector provided.
Connect red wire to positive (+) terminal and black wire to negative (–) terminal on opposing batteries.
Do NOT connect battery interconnect wire at this time.

TB5

J2

AMP

J9

J3

Figure 5 Battery Installation and Connection

Power-limited Wiring Requirements

Power-limited and nonpower-limited circuit wiring must remain separated in the cabinet. All power­limited circuit wiring must remain at least 0.25 in (6.35 mm) away from any nonpower-limited circuit
wiring. Furthermore, all power-limited circuit wiring and nonpower-limited circuit wiring must pass
through separate knockouts and/or conduits.

Power-limited

Circuits

Nonpower-limited
Circuits

B+ A+ A– B–

TB1

J1

TB5

J2

AMP

J9

J3

MS44-BATconn.cdr

Power-limited Circuits

OUT#4

ALARM

IN #1

IN #2

IN #3

OUT#1

OUT#3

OUT#2

B+ B–

B+ B–

AC POWER

SYSTEM
ALARM

ALARM TEST

SUPERVISORY

SYSTEM
TROUBLE

CIRCUIT
TROUBLE

ALARM

SILENCED

POWER
TROUBLE

TONE

SILENCE

ALARM

SILENCE

NO NC C

B+ A+ A– B–

TB3

TB2

JP1

GEN

SUPV 1

ALM1

SUPR 2
GEN
ALM2

ZONE 1

ZONE 2

ZONE 3

ZONE 4

ALARM

SYSTEM

ACTIVATE

RESET

SW1

B+ A+ A– B–

B+ A+ A– B–

J4

TBL

J5

J10

J7

J8

B+ A+ A– B–

J1

J2

J2

IN #4

B+ A+ A– B–

TB4

TB1

POWER LIMITED

7 6 5 1

OPT1

TB1

Power-limited
Circuits

OPT2

Nonpower-limited
Circuits

DISABLE

LATCH

AC Power

PDRP-1001 Instruction Manual PN 50734:D0 04/06/01

MRP44-plwiring.cdr

Figure 6 Power-limited Wiring Requirements

17

2. Installation Initiating Device Circuits

Initiating Device Circuits

The control panel provides four (4) Initiating Device Circuits (#1, #2, #3 and #4) and they may be
configured as either Style D (Class A) or Style B (Class B).

Initiating devices include: Heat, Photoelectric and Ionization type detectors, Manual Pull Stations and
Waterflow alarm devices.

Note: Refer to the "Appendix B: Compatible Devices" on page 39 for compatible devices.

• Wire all alarm initiating devices sequentially for proper supervision.

• Observe polarity when connecting polarized devices.

• All circuits are supervised and power-limited.

• Leave dummy load resistor (provided) on all unused circuits.

Style D (Class A)

Initiating Device

Circuit

Heat
Detector

Two-wire
Smoke
Detector

Manual
Pull Station

Style B (Class B)

Initiating Device

Circuit

Note: Silk screen printing on circuit board moved to bottom for clarity

Style B (Class B)

Initiating Device

Circuit

Normally Open

Wate rflow

Devices

Style B (Class B)

Supervisory

Circuit

Normally Open

Tamper or

Pressure
Switches

4.7K, 1/2-Watt ELR
PN 71252
(UL listed)

PAR 3-i dc .cd r

18

Figure 7 Initiating Device Circuits

PDRP-1001 Instruction Manual PN 50734:D0 04/06/01

Initiating Device Circuits 2. Installation

Four-Wire Smoke Detector Connections

A maximum of 200mA is available from the 24VDC Resettable Power circuit on TB1 (+24VR terminals).
Any power that is drawn from the 24VDC Nonresettable Power on TB2 (+24VNR terminal) must be
subtracted from available resettable power. See "Specifications" on page 12 and "Powering External
Devices" on page 22.

Note: Refer to the "Appendix B: Compatible Devices" on page 39 for suitable 4-wire smoke detectors.

Notes on Style D (Class A) and Style B (Class B) field wiring:

1. The Power Supervision Relay coil leads must be connected to the last detector base 24V screw
terminals.

2. Calculation of the maximum allowable resistance in the 24VDC resettable power wiring:

Rmax =

(20.6 - Vom)

(N x Is) + (Na x Ia) + (Ir)

Where:

Rmax = maximum resistance of the 24 VDC wires
Vom = minimum operating voltage of the detector or end-of-line relay, whichever is greater, in volts
N = total number of detectors on the 24 VDC supply circuit
Is = detector current in standby
Na = number of detectors on the 24 VDC power circuit which must function at the same time in alarm
Ia = detector current in alarm
Ir = end-of-line relay current

4.7K, 1/2-Watt ELR
PN 71252 (UL listed)

–

+

–

+

I N
B+ A+

TB4

TB1

Control Panel
Power Circuit

IN #1

B+ A+ A– B–

Style B

Initiating Device Circuit

Power
Supervision
Relay
(A77-716B)

–

+

–

+

24 VDC Four-wire

Smoke Detectors

MS44-4wiresd.cdr

PDRP-1001 Instruction Manual PN 50734:D0 04/06/01

Figure 8 Typical Connection for Four-Wire Smoke Detectors

19

2. Installation Output Circuits

Output Circuits

Notification Appliance Circuits

The control panel provides two Style Z (Class A) or Style Y (Class B) Notification Appliance Circuits,
which are supervised and power-limited.

Each circuit is capable of 1.5 amps of current. Total current drawn from both NACs and both Releasing
Circuits (see "Releasing Circuits" on page 21) cannot exceed 2.25 amps.

Note: Refer to the "Appendix B: Compatible Devices" on page 39 for suitable devices.

• For DIP switch configuration, see "Setting Mode of Operation" on page 28.

• For non-silenceable service on NAC#1, see "Non-Silenceable Service" on page 34.

• Unused circuits must be connected with a dummy load as shown.

Polarized
Bell

Polarized
Strobe

Polarized
Horn

Style Z

(Class A)

Style Y

(Class B)

4.7K, 1/2-Watt ELR
PN 71252 (UL listed)

Unused Style Y Circuit

4.7K, 1/4-Watt ELR

PN 71252 (UL listed)

TB2

20

MRP44-nac.cdr

Figure 9 Notification Appliance Circuits

PDRP-1001 Instruction Manual PN 50734:D0 04/06/01

Output Circuits 2. Installation

Releasing Circuits

CAUTION: To prevent accidential discharge, connect releasing devices after initial panel tests are

!

completed.

The control panel provides two Style Y (Class B) Releasing Circuits, which are nonpower-limited.

Note: All wiring must follow the requirements as specified under "Power-limited Wiring Requirements" on page 17.

Each circuit is capable of 1.5 amps of current. Total current drawn from both Releasing Circuits and both
NACs (see "Notification Appliance Circuits" on page 20) cannot exceed 2.25 amps.

• UL listed and FM approved releasing devices must be used.

• Unused circuits must be connected with a dummy load as shown.

Releasing Circuits

TB2

Canadian Applications

REL-4.7K

Unused Releasing Circuits

4.7K, 1/4-Watt ELR

PN 71252 (UL listed)

TB2

MRP44-rel.cdr

Figure 10 Releasing Circuits

Wiring must be configured to maintain a minimum voltage of 20.4 VDC on releasing Circuits. Calculation
of maximum allowable resistance:

Rmax =

Where:

Rmax = maximum allowable resistance of wiring
Is = Solenoid current

20.6 VDC – 20.4 VDC

Is

PDRP-1001 Instruction Manual PN 50734:D0 04/06/01

21

2. Installation Powering External Devices

Alarm Relay Circuit

One Form-C dry contact alarm relay is provided in the basic panel for controlling supplementary devices.
Contacts are rated 2 amps at 30 VDC and 0.5 amps at 30 VAC (resistive) and are non-silenceable when
an alarm occurs.

Trouble Relay Circuit

One Form-C dry contact trouble relay is provided in the basic panel for controlling supplementary devices.
It is rated 2 amps at 30 VDC and 0.5 amps at 30 VAC (resistive) and will restore to normal when the trouble
condition is cleared.

Note: Power connected to these relay contacts must come from a power-limited supply. Power may be obtained from
TB1 Terminals 24VU or 24VR and TB2 Terminals 24VNR, or a UL-listed power-limited power supply.

TB3

Figure 11 Schematic Representation of Alarm/Trouble Coils & Contacts

Powering External Devices

CAUTION: Several different sources of power can be connected to this panel. Disconnect all sources

!

of power before servicing. The panel and associated equipment may be damaged by removing and/or

!

!

inserting cards, modules, or interconnecting cables while this unit is energized.

DC power connections are available from TB1 and TB2 on the control panel as shown below:

RMS-Regulated Power -
24 VDC power for inductive-type
devices such as door holders can
be connected to these terminals.

This output is not suitable for
powering devices requiring
filtered DC power.

TB1

MS44-relay.cdr

TB2

MS44-dcpower.cdr

Nonresettable Power -

24 VDC filtered, nonresettable power
can be drawn from these terminals.

The combined current draws from the
Resettable and Nonresettable outputs
cannot exceed 200 mA.

Resettable Power -

24 VDC filtered, resettable power for four-wire smoke
detectors can be obtained from these terminals.

The combined current draws from the Resettable and
Nonresettable outputs cannot exceed 200 mA.

22

Figure 12 Power Terminals

PDRP-1001 Instruction Manual PN 50734:D0 04/06/01

Optional Modules 2. Installation

Optional Modules

Overview

The control panel has two module connectors - J5 (upper position) and J8 (lower position). Three modules
are available for the panel and they can be used in any combination, including duplicate modules. The
corresponding option jumper must be cut before installation of an optional module, to enable module
supervision.

• The 4XZM Zone Relay and the 4XTM Transmitter Modules can be installed in either position.

• The 4XLM Interface Module must be installed in the lower position only.

Installation - Upper Position

To install either the 4XZM or 4XTM module in the upper position follow these instructions:

Step Action

1 Cut jumper ‘OPT1’ on main circuit board.

2 Insert the two stand-offs into the holes located on the right-side edge of the

main board. Secure with nuts and tighten securely.

3 Align the pins of J5 (and J4) connectors on the main board with the holes on

the underside of the J2 (and J1) connector on the optional board. Carefully
press down on the optional board until the pins are through the connectors
and it rests on the stand-offs.

4 Secure optional board to stand-offs with screws. Tighten securely.

5 Affix the terminal identification label (provided with the module) on the

back surface of the backbox, aligning it with the terminals on the module.

B–

IN #2

B+ A+ A– B–

IN #3

B+ A+ A– B–

IN #4

B+ A+ A– B–

TB4

TB1

Install Stand-offs here

J2

J4

J5

OPT1

LATCH

DISABLE

OPT1 - Cut prior to
installation of module

J10

J7

J8

OPT2

PDRP-1001 Instruction Manual PN 50734:D0 04/06/01

MS44-instmod1.cdr

Figure 13 Module Installation - Upper Position

23

2. Installation Optional Modules

Installation - Lower Position

To install either the 4XTM, 4XZM or 4XLM module in the lower position follow these instructions:

Step Action

1 Cut jumper ‘OPT2’ on main circuit board.

2 Remove the lower-right screw securing the main board to the lower rail.

Replace with a stand-off and tighten securely.

3 Insert one stand-off into the other hole located on the right-side edge of the

main board. Secure with nut and tighten securely.

4 Align the pins of J8 (and J7) connectors on the main board with the holes on

the underside of the J2 (and J1) connector on the optional board. Carefully
press down on the optional board until the pins are through the connectors
and it rests on the stand-offs.

5 Secure optional board to stand-offs with screws. Tighten securely.

6 Affix the terminal identification label (provided with the module) on the

back surface of the backbox, aligning it with the terminals on the module.

IN #2

IN #3

B–

B+ A+ A– B–

B+ A+ A– B–

IN #4

B+ A+ A– B–

TB4

J4

J5

TB1

OPT1

OPT2 - Cut prior to
installation of module

Install Stand-offs here

J10

J7

J8

OPT2

J2

Figure 14 Module Installation - Lower Position

MS44-instmod2.cdr

24

PDRP-1001 Instruction Manual PN 50734:D0 04/06/01

Optional Modules 2. Installation

Setup and Configuration

Transmitter Module - 4XTM

Connect a Remote Alarm circuit, Remote Trouble circuit or a Municipal Box to the Transmitter Module
as shown below. Polarities shown in activated positions.

Note: Dummy load terminals 6 and 7 (4.7K, 1/4 W resistor) if Municipal Box is not connected.

Note: Remote Alarm, Remote Trouble and Municipal Box wiring can leave the building.

Pushing the Disconnect Switch down will prevent unwanted activation of the Mu nicipal Box during testing
of the control panel. The Disconnect LED will remain illuminated while the Municipal Box is
disconnected. The System Trouble LED will indicate disconnected and/or Open Circuit conditions on the
Municipal Box.

Cut the TBL Jumper to allow the alarm reverse polarity circuit to open on trouble, if no alarm exists.

The wiring of this module must follow the requirements as specified under "Power-limited Wiring
Requirements" on page 17.

TB1

+

Remote Alarm (Power-limited)

–
+

Remote Trouble (Power-limited)

–

No Connection

+

Municipal Box (Nonpower-limited)

–

TBL Jumper

TBL

Disconnect Switch

J1

J2

Figure 15 4XTM Configuration

Disconnect LED

4XTMF.cdr

PDRP-1001 Instruction Manual PN 50734:D0 04/06/01

25

2. Installation Optional Modules

Zone Relay Module - 4XZM

Note: The PAR-3 includes one (1) Zone Relay Module (4XZM).

Relay #1 through #4 on this module will activate with outputs #1 through #4.

For non-latching (silenceable) relay operation, cut the jumper “LATCH”. If this jumper is left intact, the
relays will latch upon activation. To disconnect relays entirely, slide the disable switch to the right.

Note: If any dry contacts are to be used as nonpower-limited circuits, write this on the Protected Premises Unit label,
located on the door of the control panel.

TB1

J2

LATCH

DISABLE

4XZMF.cdr

Disable Switch“Latch” Jumper

Figure 16 Wiring the Zone Relay Module

The wiring of this module must follow the requirements specified under "Power-limited Wiring
Requirements" on page 17.

• If this module is used to drive both nonpower-limited and power-limited circuits, skip one set of

dry contacts to maintain the required separation between circuit types.

• If this module is used to drive both nonpower-limited and power-limited relays that are next to each

other, refer to the figure below which shows the one allowable arrangement.

Power-Limited
Circuit

26

No Connection

Nonpower-Limited
Circuit

MS44--4xzmf1.cdr

Figure 17 Mixing Power-Limited and Nonpower-Limited Circuits

PDRP-1001 Instruction Manual PN 50734:D0 04/06/01

Optional Modules 2. Installation

LED Interface Module - 4XLM

Connect the terminals on TB1 of the LED Interface Module to the corresponding terminals of the RZA­4X Remote Annunciator.

Make wiring connections with system power off.

Maximum wire impedance is 50 ohm per wiring connection.

The wiring of this module must follow the requirements as specified under "Power-limited Wiring
Requirements" on page 17.

TB1

+24V
Out #1
Out #2
Out #3
Out #4
Sysyem Trouble
Sound
Resound

J2

Connect to corresponding
terminals of the RZA-4X
Remote Annunciator.

SYSTEM TROUBLE

RE-SOUND

TONE

SILENCE

FIRE ALAR M ANNUNCIATOR

Front View

Side View

Figure 18 Connection of 4XLM to RZA-4X

Single-gang
Box

MS44--4xlmfconn.cdr

PDRP-1001 Instruction Manual PN 50734:D0 04/06/01

27

2. Installation Setting Mode of Operation

Setting Mode of Operation

Select operating mode by setting the SW1 DIP switches as described below.

After any changes are made to the configuration of the switches, the panel must be reset.

For Canadian use, refer to "Sprinkler Supervisory Tracking" on page 34.

SW1

MS44-dipsw.cdr

Basic Programming

Switch 1: Cross Zone

Switch 2: Dual Hazard

Not Used

Discharge Timer

Switch 3: Discharge Timer
Switch 4: Discharge Timer
Switch 5: Discharge Timer

Figure 19 DIP Switch Settings

Basic Program

Select the desired mode of operation and set DIP Switches 1 and 2 per the appropriate column.

Switch 1
Switch 2

Mode 1

Two Zon e

Single Hazard

OFF
OFF

Output 1 & 3 -

Activated by an
alarm on either IDC
1 or 2.
Output 2 -
Activated by a
waterflow alarm on
IDC 3.

Output 4 -

Activated by a
supervisory condition
on IDC 4.

Mode 2

Cross Zone

Single Hazard

ON

OFF

Output 1 -

Activated by an
alarm on either IDC
1 or 2.
Output 2 -
Activated by a
waterflow alarm on
IDC 3.

Output 3 -

Activated by alarms
on both IDC 1 and 2.
Output 4 -
Activated by a
supervisory condition
on IDC 4.

Mode 3

Combined Release

Dual Hazard

OFF

ON

Output 1 -

Activated by an
alarm on either IDC
1 or 2 or a waterflow
alarm on IDC 3.
Output 2 -
Activated by a
supervisory condition
on IDC 4.

Output 3 & 4 -

Activated by an
alarm on either IDC
1 or 2.

Mode 4

Split Release

Dual Hazard

ON
ON

Output 1 -

Activated by an
alarm on either IDC
1 or 2 or a waterflow
alarm on IDC 3.
Output 2 -
Activated by a
supervisory condition
on IDC 4.

Output 3 -

Activated by an
alarm on IDC 1.

Output 4 -

Activated by an
alarm on IDC 2.

28

Note: Output 1 and 2 refer to Notification Appliance Circuits; Output 3 and 4 refer to Releasing Circuits.

PDRP-1001 Instruction Manual PN 50734:D0 04/06/01

Setting Mode of Operation 2. Installation

Discharge Timer

Select the desired discharge timer setting by setting DIP Switches 3, 4 and 5 accordingly.

• For NFPA 13 and 15 applications timer must be set to “Disabled”.

• For NFPA 16 applications timer may be set to “10 Minutes” or “15 Minutes”.

Disabled 10 Minutes 15 Minutes

Switch #3

Switch #4

Switch #5

Note: Timer will always start at Zone 2 normal to alarm transition. Upon timeout, corresponding release circuits will
shut off.

Note: Zone 1 will always override timer shutoff (except for Mode #4 - Split Release).

OFF ON ON

OFF ON ON

OFF OFF ON

PDRP-1001 Instruction Manual PN 50734:D0 04/06/01

29

2. Installation Power-Up Procedure

Power-Up Procedure

WARNING: Prior to energizing this panel, notify all personnel and authorities, including any
personnel who may be working on, around, or near this unit.

WARNING: Battery contains sulfuric acid which can cause severe burns to the skin and eyes and

!

can destroy fabrics. If contact is made with sulfuric acid, immediately flush the skin or eyes with
water for 15 minutes and seek immediate medical attention.

CAUTION: Observe polarity of batteries. Improper connection will cause damage and VOID

WARRANTY.

!

Follow these steps to power-up the FACP:

1. Conduct Visual Inspection. A careful visual inspection should be made before applying power to
the system. See “Inspection” on page 51.

2. Notification. Notify personnel who may be working with the AC power circuits before removing
the “Out of Service” tag.

3. Apply Primary Power. Switch the circuit breaker to the ‘closed’ position, providing power to the
circuit.

• The green AC power LED will illuminate.

• The Trouble LED will illuminate until battery power is applied.

4. Connect Secondary Power. Connect battery interconnect wire as shown below.

• The trouble LED will clear. If the trouble light does not clear, refer to "Troubleshooting Table" on

page 52.

Battery Interconnect Wire

MS44-batcable.cdr

Figure 20 Battery Connections

30

PDRP-1001 Instruction Manual PN 50734:D0 04/06/01

System Status LEDs

Alarm, Trouble and Supervisory LEDs will flash on and off until the event(s) has been acknowledged
(TONE or ALARM SILENCE), at which point the LED will illuminate steadily.

3. System Operation

System
Status
LEDs

AC POWER

SUPERVISORY

TROUBLE

TROUBLE

SILENCED

TROUBLE

SILENCE

BATT EARTH

SYSTEM

ALARM

RELEASE

SYSTEM

CIRCUIT

ALARM

POWER

TONE

ALARM

SILENCE

ALARM

ACTIVATE

ZONE 1

ZONE 2

WATER FL OW

SUPERVISORY

SYSTEM

RESET

PEM2-panel1.cdr

MICRO
FAIL

Figure 21 System Status LEDs

AC Power - Green LED that illuminates steadily to indicate presence of AC power.

System Alarm - Red LED that flashes when an alarm occurs.

Release - Red LED that illuminates steadily when release occurs. After the Discharge Timer has expired,

the LED will flash.

Supervisory - Yellow LED that flashes upon activation of a supervisory device (such as tamper switch)
on

IDC

4.

System Trouble - Yellow LED that flashes for any trouble condition, including those associated with
optional boards.

Circuit Trouble - Yellow LED that flashes for trouble conditions on output circuits (notification and
releasing).

Alarm Silenced - Yellow LED that illuminates steadily when the ALARM SILENCE switch has been
pushed after an alarm.

Power Trouble - Yellow LED that flashes for low or disconnected batteries and earth fault conditions.

The following LEDs are located below the main panel and are visible only when the panel door is open.

Battery Fail (

detected.

Ground Fault (

condition.

Micro Fail - Yellow LED that illuminates on motherboard when watchdog timer detects microprocessor
failure.

PDRP-1001 Instruction Manual PN 50734:D0 04/06/01

BATT) - Yellow LED that illuminates steadily on motherboard when battery is low or not

EARTH) - Yellow LED that illuminates steadily on motherboard during a ground fault

31

3. System Operation Control Switches

Control Switches

TONE

SILENCE

ALARM

SILENCE

ALARM

AC TIVATE

SYSTEM

RESET

MS44-panel2.cdr

Figure 22 Control Panel Switches

Tone Silence - Pressing this switch acknowledges alarms, troubles and supervisories. The panel has

alarm and trouble resound with LED flash of new conditions. The flashing trouble LED(s) illuminate
steadily on TONE SILENCE and the piezo turns off. A second trouble will resound the piezo. Trouble
conditions are self-restoring. Alarms latch and require pressing SYSTEM RESET to clear. Unless the unit
is set for non-latching supervisory service, supervisories latch and require pressing SYSTEM RESET to
clear. The piezo has three tones for different conditions (see "Piezo" on page 33).

Alarm Silence - Pressing this switch acknowledges for alarms and supervisories. This switch will
silence the local piezo, change any flashing alarm LEDs to steady, and turn off the notification circuits (not
the Releasing Circuits). The “Alarm Silenced” LED will illuminate. Alarm silence is a latching function
and requires pressing SYSTEM RESET to clear.

Note: Releasing Circuits will turn off only if Discharge timer criteria is satisfied (see "Setting Mode of Operation" on
page 28).

Alarm Activate - This switch may be used to activate Notification Appliance Circuits (NACs). It also
activates the System Alarm Relay. This is a latching function. Pressing ALARM SILENCE silences the
NACs and System Alarm Relay, and lights the Alarm Silenced LED. Pressing SYSTEM RESET returns
the system to normal.

System Reset - This switch breaks power to all initiating circuits, four-wire smoke detector power and
optional boards and will clear any activated output circuits. If any alarm or trouble still exists after reset,
they will reactivate the panel. Holding SYSTEM RESET down will perform a LAMP TEST function and
will activate the piezo sounder.

Zone Status LEDs

The alarm and/or trouble LED(s) will flash until the event(s) has been acknowledged (TONE or ALARM
SILENCE), at which point the LED(s) will illuminate steadily.

ZONE 1

Alarm LED

ZONE 2

Trouble LED

WATERFLOW

Not Used

SUPERVISORY

PEM2-panel2.cdr

32

Figure 23 Zone Status LEDs

PDRP-1001 Instruction Manual PN 50734:D0 04/06/01

Piezo 3. System Operation

Piezo

The piezo (local buzzer) generates different tone patterns for different event conditions:

• Alarm - Generates a steady tone, no pulse.

• Trouble - Pulses one second on, one second off. Repeats 30 pulses per minute.

• Supervisory - Pulses one-half second on, one-half second off. Repeats 60 pulses per minute.

Supervisory Service

Initiating Device Circuit #4 is always used for monitoring supervisory devices (such as valve tamper
switches). A short circuit on this IDC (activation of a N.O. contact) will cause the Supervisory LED and
the Zone 4 (Supervisory) trouble LED to flash. The piezo will sound one-half-second on, one-half-second
off. Pressing TONE SILENCE will silence the piezo and cause the Supervisory LED to illuminate steadily,
but the Zone 4 (Supervisory) trouble LED will continue to flash. Supervisory signals latch and require
SYSTEM RESET to clear (unless unit is programmed for non-latching operation). The ALARM SILENCE
switch will silence the piezo, causing the Supervisory LED to illuminate steadily and turn off the
Supervisory Notification Circuit. An open circuit on Zone 4 (Supervisory) will be reported as a trouble.

Note: The Initiating Device Circuit for sprinkler supervisory zone can be programmed for tracking operation; latching
operation is the default setting. Canadian regulations require latching operation; for programming instructions, see
"Sprinkler Supervisory Tracking" on page 34.

Zone Disable

If a zone has been disabled, an alarm that occurs on that zone will flash the red zone LED, but not the piezo
or any output circuit. If both power sources are removed from the system, all zones will be re-enabled upon

restoration of power. Disable status will be lost.

The Zone Disable routine makes use of the four panel
switches as follows:

1. Press and hold in the TONE SILENCE switch.

2. With the TONE SILENCE switch held in, press

3. The Zone 1 Alarm LED will flash.

4. To disable Zone 1, press the SYSTEM RESET switch. The Zone 1 yellow LED will light to show

Note: The SYSTEM RESET switch toggles disable status for the selected zone.

5. To select the next zone, press the ALARM SILENCE switch.

6. To select the previous zone, press the ALARM ACTIVATE switch.

7. When disable selections are complete, release the TONE SILENCE switch.

If any zone has been disabled, the trouble relay will activate and System Trouble LED will flash.

(in sequence) the ALARM SILENCE switch, the
ALARM ACTIVATE switch, and then the
SYSTEM RESET switch.

that the zone is disabled.

TONE

SILENCE

Press

&

Hold

ALARM

SILENCE

Press ---> Press ---> Press

ALARM

ACTIVATE

SYSTEM

RESET

PDRP-1001 Instruction Manual PN 50734:D0 04/06/01

33

3. System Operation Last Event Recall

Last Event Recall

Last Event Recall allows the user to display the previous panel status. The Last Event Recall makes use
of the four panel switches as follows:

1. Press and hold in the TONE SILENCE switch.

2. With the TONE SILENCE switch held in, press (in sequence) the SYSTEM RESET switch, the
ALARM ACTIVATE switch, and then the ALARM SILENCE switch.

3. LEDs will light to indicate the last event recorded in the panel’s buffer.

4. Release the TONE SILENCE switch to return to normal operation.

To clear the Last Event buffer, press SYSTEM RESET twice.

Non-Silenceable Service

Notification Appliance Circuit #1 can be programmed as non-silenceable by following these steps:

1. Press and hold in the TONE SILENCE switch.

2. With the TONE SILENCE switch held in, press in sequence the ALARM SILENCE switch, then
the ALARM ACTIVATE switch, and finally the ALARM SILENCE switch again.

3. Release the TONE SILENCE switch.

Note: If both primary and secondary power sources are removed from the system, these settings will be lost. When
power is restored, Notification Appliance Circuit #1 will default to silenceable operation.

Sprinkler Supervisory Tracking

The Initiating Device Circuit for sprinkler supervisory zone can be programmed for tracking operation;
latching operation is the default setting. Canadian regulations require latching operation.

1. Press and hold in the TONE SILENCE switch.

2. With the TONE SILENCE switch held in, press in sequence the ALARM SILENCE switch, then
the ALARM ACTIVATE switch, and finally the ALARM ACTIVATE switch again.

3. Release the TONE SILENCE switch.

Note: If both primary and secondary power sources are removed from the system, this setting will be lost. When
power is restored, supervisory will default to latching operation.

System Events

Standby Condition

Green LED (AC power on) will be illuminated. All other LEDs (trouble and alarm) are off.

System Trouble Condition

Interruption of any of the electrically supervised circuits will illuminate the System Trouble LED. The
Trouble Relay Contacts will transfer. The piezo (local buzzer) will sound one second on, one second off,
and repeating until silenced. Silence the piezo by pressing the TONE SILENCE switch. The panel will
remain in the trouble state until the trouble condition has been cleared and the panel reset.

34

PDRP-1001 Instruction Manual PN 50734:D0 04/06/01

System Events 3. System Operation

Single Zone in Alarm (Cross Zone) Condition

Upon actuation of a single-zone initiating device, a red alarm LED will illuminate to indicate whether
Zone 1 or Zone 2 is in alarm.

In addition to the LED, a single-zone alarm will activate the Alarm Relay; the piezo and NAC #1 will start
sounding. In alarm condition, the piezo will generate a steady tone. The piezo can be silenced by pressing
the trouble silence switch. If the fire is extinguished before a second zone alarm is activated, return the
system to normal standby condition by pressing the reset switch inside the panel and holding it for three
(3) seconds.

Both Zones in Alarm (Cross Zone) Condition

When the first alarm occurs, the panel will function as described above.

Upon the occurrence of a second alarm, the second alarm LED will illuminate, NAC #2 will energize, and
the solenoid valve(s) will energize to activate releasing devices.

Brownout Condition

The total power being provided to the system’s power supply should not exceed the current draw during
fully loaded panel operation. Brownout circuitry annunciates degradation of the incoming AC voltage
supply. A brownout condition is annunciated when the AC power decreases. When the brownout threshold
is reached, the system reacts as if AC power is totally lost:

• Battery backup begins supplying power to operate the control panel

• General Trouble Relay contact transfers

• Green AC Power LED turns off

• Yellow System Trouble LED illuminates

• The piezo will sound one second on, one second off, and repeat until the Trouble is cleared.

When the AC voltage returns or increases above the brownout threshold, the green AC Power LED will
illuminate. The power supply circuitry will return to primary power functions and begin to recharge the
backup battery supply.

PDRP-1001 Instruction Manual PN 50734:D0 04/06/01

35

3. System Operation System Events

Notes

36

PDRP-1001 Instruction Manual PN 50734:D0 04/06/01

Appendix A: Secondary Power Calculations

Standby Battery Requirements

The Standby Battery Current obtained in the table below represents the amount of current that must be
supplied by the secondary power source (batteries) to sustain control panel operation for one hour.

Note: The control panel will support the installation of one or two optional modules, including two of the same type of
module. Only one 4XLM can be included in this count.

Device Type

Main Circuit Board 1 X 0.088 =

4XZM
Zone Relay Module

4XTM
Transmitter

•Reverse Polarity
Alarm output

•Reverse Polarity
Trouble output

RZA-4X/4XLM
Remote Annunciator

4XMM
Meter Module

2-wire
Detector Heads

4-wire
Detector Heads

End-of-line Relays

Current Draw from

TB2 (nonalarm)

Module

2

3

# of

Devices

[ ] X 0.008 =

[ ] X 0.011 =

[ ] X 0.005 =

[ ] X 0.005 =

[ ]

(1 max)

[ ] X 0.001 =

[ ] X

[ ] X

[ ] X [ ] =

[ ] X [ ] =

Current

(amps)

X 0.019 =

1

[ ]

1

[ ]

Total Current

(amps)

0.088

=

=

1. Refer to the "Appendix B: Compatible Devices" on page 39 for smoke detector standby current.

2. Must use compatible listed Power Supervision Relay.

3. The total standby current must include both the resettable (TB1 - +24VR terminals) and

PDRP-1001 Instruction Manual PN 50734:D0 04/06/01

Standby Battery Current = amps

nonresettable (TB2 - +24VNR terminals) power. Caution must be taken to ensure that current
drawn from these outputs during alarm does not exceed maximum ratings specified.

Table 1 Standby Battery Current

37

Appendix A: Secondary Power Calculations Calculating the Battery Capacity

Calculating the Battery Capacity

Use this table to determine the battery capacity required by the system.

Standby Battery Current
(from Table 1)
[ ] amps X

Required Standby Time in Hours

(typically 24
[ ] hrs

Enter:

0.25 for 5 minutes in alarm, or

0.50 for 10 minutes in alarm

1

, 602 or 903 hours)

Standby

=

Amp Hours

4

Alarm
Amp Hours

Total Standby and Alarm Load +

Multiply by derating factor X 1.2

Battery size required in AH =

1. NFPA 72 Central Station and Local and Proprietary Fire Alarm Systems require 24 hours of standby time.

2. NFPA 72 Auxiliary and Remote Station Fire Alarm Systems require 60 hours of standby time.

3. Factory Mutual Systems require 90 hours of standby for preaction and deluge sprinkler systems.

4. Alarm AH assumes a maximum system draw of 3 amps in alarm for 5 minutes (0.25 AH) or for 10 minutes (0.5AH).

Table 2 Amp Hour Calculations

The battery charger in this panel will charge a maximum of 18 AH of batteries within 48 hours (7 AH
minimum). Batteries larger than 12 AH will require a UL-listed battery cabinet (e.g. BB-17).

Select a battery with an equal or greater AH rating than the value obtained in the table above.

Note: Batteries must be lead-acid type.

38

PDRP-1001 Instruction Manual PN 50734:D0 04/06/01

Appendix B: Compatible Devices

Two-wire Smoke Detectors, UL Listed

Use the two-wire detectors listed below.

Detector
Model

System Sensor 1400 A Ionization n/a n/a 0.10 20

System Sensor 1451 A Ionization B401/B401B/

System Sensor 1851DH A Ionization DH1851DC A 0.12 15

System Sensor 2400 A Photoelectric n/a n/a 0.12 15

System Sensor 2400AIT A Photo/

System Sensor 2400AT A Photo/

System Sensor 2400TH A Photo/

System Sensor 2451 A Photoelectric B401/B401B/

System Sensor 2451TH A Photo/

System Sensor 2851DH A Photoelectric DH2851DC A 0.12 15

System Sensor 1451DH A Ionization DH400 A 0.12 15

System Sensor 2451 A Photoelectric DH400 A 0.12 15

System Sensor 2300T A Photo/

System Sensor 1800 A Ionization n/a n/a 0.12 n/a

System Sensor 1851B A Ionization B101B A 0.12 n/a

System Sensor 1851B A Ionization B107B A 0.12 n/a

System Sensor 2800 A Photoelectric n/a n/a 0.12 n/a

System Sensor 2800TH A Photo/

System Sensor 2851B A Photoelectric B101B A 0.12 n/a

System Sensor 2851B A Photoelectric B107B A 0.12 n/a

System Sensor 2851BTH A Photo/

System Sensor 2851BTH A Photo/

System Sensor 1151 A Ionization B401/

System Sensor 2151 A Photoelectric B401/

Identifier Type

Isolated

Thermal/Horn

Thermal/Horn

Thermal

Thermal

Thermal

Thermal

Thermal

Thermal

Base

Model

B406B

n/a n/a 0.12 15

n/a n/a 0.12 15

n/a n/a 0.12 15

B406B

B401/B401B/

B406B

n/a n/a 0.12 15

n/a n/a 0.12 n/a

B101B A 0.12 n/a

B107B A 0.12 n/a

B110LP/

B116LP

B110LP/

B116LP

Identifier

A 0.12 15/15/1

A 0.12 15/15/1

A 0.12 15/15/1

A 0.12 15/15/1

A 0.12 15/15/1

Standby

Current

(mA)

Detectors

per Zone

PDRP-1001 Instruction Manual PN 50734:D0 04/06/01

Table 3 Two-wire Smoke Detectors

39

Appendix B: Compatible Devices Four-wire Smoke Detectors, UL Listed

Four-wire Smoke Detectors, UL Listed

Use the four-wire detectors listed below.

Detector/Base Type

System Sensor 2424 Photoelectric 0.10 41

System Sensor 2424TH Photoelectric 0.10 41

System Sensor 2451 Photoelectric 0.10 39

System Sensor 2451TH w/B402 Base Photoelectric 0.10 39

System Sensor 1424 Ionization 0.10 41

System Sensor 1451 w/B402 Base Ionization 0.10 39

System Sensor 2412 Photoelectric 0.12 77

System Sensor 2412AT Photoelectric 0.12 58

System Sensor 2412TH Photoelectric 0.12 77

System Sensor 2312/24TB Photoelectric 0.12 50

System Sensor B112LP Base See Note 39

System Sensor B114LP Base See Note 75

System Sensor B404B Base See Note See Note

System Sensor 6424 Projected Beam 10 28.4

System Sensor DH400ACDCI Ionization Duct 25 95

System Sensor DH400ACDCP Photoelectric Duct 25 95

System Sensor 1112/24 Ionization 0.05 50

System Sensor 2112/24 Photoelectric 0.05 50

System Sensor 2112/24B Photoelectric 0.05 65

System Sensor 2112/24T Photoelectric w/135°

Thermal

System Sensor 2112/24TSRB Photoelectric w/135°

Thermal Supervisory Relay

Note: Contact manufacturer for currents.

Max Standby
Current (mA)

0.05 50

15 45

Max Alarm

Current (mA)

Table 4 Four-wire Smoke Detectors

FM Approved Releasing Devices

(System Sensor’s PDRP-1001/PDRP-1001A/PDRP-1001E)

Note: Refer to the FM approval guide for automatic water control valves which are compatible with solenoids listed.

Manufacturer Model Voltage Watts Amps NPS Orfice

Solenoid Group A

Skinner LV2LBX25 24 VDC 11 458 mA 1/2” 5/8”

Solenoid Group B

ASCO T8210A107 24 VDC 16.8 700 mA 1/2” 5/8”

ASCO R8210A107 24 VDC 16.8 700 mA 1/2” 5/8”

ASCO 8210A107 24 VDC 16.8 700 mA 1/2” 5/8”

Solenoid Group C

Star Sprinkler Corp. p/n 5550 24 VDC part of Model D Deluge Valve

Kidde-Fenwal p/n 890181 24 VDC 2.0

Kidde-Fenwal p/n 899175 24 VDC 2.0

Kidde-Fenwal p/n 48650001 24 VDC 0.2

Kidde-Fenwal p/n 897494 24 VDC 33.0 1.5

These valves are interchangeable

Table 5 Solenoid Release Valves

40

PDRP-1001 Instruction Manual PN 50734:D0 04/06/01

Notification Appliances, UL Listed Appendix B: Compatible Devices

Notification Appliances, UL Listed

Control panels suppling Special Application (FWR, Filtered) power must use the Notification Appliances
listed below.

• Rated Voltage is nominal operating voltage

• All currents are in millamperes and worst case average.

Product

System Sensor MA-12/24D Electronic Sounder 24VDC 73 46

System Sensor SS24 Strobe 24VDC * 30

System Sensor SS24LO Strobe 24VDC 45 25

System Sensor SS24LOC Ceiling Strobe (SS24LOBC - beige) 24VDC 45 25

System Sensor SS24M Strobe 24VDC 125 75

System Sensor SS24MC Ceiling Strobe 24VDC 125 75

System Sensor MASS24D Electronic Sounder/Strobe 24VDC 118 71

System Sensor MASS24LO Electronic Sounder/Strobe 24VDC 118 71

System Sensor MASS24LOC Electronic Ceiling Sounder/Strobe 24VDC 118 71

System Sensor MASS24LOLA Electronic Sounder/Strobe w/Fuego lens 24VDC 118 71

System Sensor MASS24M Electronic Sounder/Strobe 24VDC 198 121

System Sensor MASS24MC Electronic Ceiling Sounder/Strobe 24VDC 198 121

System Sensor PA400R Sounder 24VDC * 15

System Sensor PS24LO Add-on Strobe 24VDC 45 25

System Sensor SS2415ADA Signaling Strobe 24VDC 90 75

System Sensor SS2475ADA Signaling Strobe 24VDC 200 170

System Sensor SS24110ADA Signaling Strobe 24VDC 245 210

System Sensor SS241575ADA Signaling Strobe 24VDC 120 93

System Sensor SS2415ADAS Signaling Strobe with Synch. Circuit 24VDC 125 106

System Sensor SS241575ADAS Signaling Strobe with Synch. Circuit 24VDC 180 115

System Sensor MASS24110ADA Sounder/Signaling Strobe 24VDC 163 121

System Sensor MASS2475ADA Sounder/Signaling Strobe 24VDC 273 216

System Sensor MASS24110ADA Sounder/Signaling Strobe 24VDC 318 256

System Sensor MASS241575ADA Sounder/Signaling Strobe 24VDC 193 139

System Sensor MASS24110ADAS Sounder/Signaling Strobe w/Sync. Ckt. 24VDC 163 121

System Sensor MASS241575ADAS Sounder/Signaling Strobe w/Sync. Ckt. 24VDC 193 139

System Sensor PS2415ADA Mini-Sounder/Strobe 24VDC 110 90

System Sensor PS2475ADA Mini-Sounder/Strobe 24VDC 135 108

System Sensor PS24110ADA Mini-Sounder/Strobe 24VDC 240 225

System Sensor PS241575ADA Mini-Sounder/Strobe 24VDC 135 108

System Sensor SP1R2415ADA Speaker/Signaling Strobe 24VDC 90 75

System Sensor SP1R2475ADA Speaker/Signaling Strobe 24VDC 200 170

System Sensor SP1R24110ADA Speaker/Signaling Strobe 24VDC 245 210

System Sensor SP1R241575ADA Speaker/Signaling Strobe 24VDC 120 93

System Sensor V4R2415ADA Speaker/Signaling Strobe 24VDC 90 75

System Sensor V4R2475ADA Speaker/Signaling Strobe 24VDC 200 170

System Sensor V4R24110ADA Speaker/Signaling Strobe 24VDC 245 210

System Sensor V4R241575ADA Speaker/Signaling Strobe 24VDC 120 93

System Sensor SP100W24LOC Ceiling Speaker/Strobe, 8” round grill 24VDC 45 25

System Sensor SP101R24LO Speaker/Strobe, 5” square grill 24VDC 45 25

Rated

Voltage

FWRDCFiltered

DC

PDRP-1001 Instruction Manual PN 50734:D0 04/06/01

41

Appendix B: Compatible Devices Notification Appliances, UL Listed

Product

Rated

Voltage

FWRDCFiltered

DC

System Sensor SP101R24M Speaker/Strobe, 5” square grill 24VDC 125 75

System Sensor SP100W24MC Ceiling Speaker/Strobe, 8” round grill 24VDC 125 75

System Sensor MA12/24EH Multi Alert Horn with Mechanical Tone 12VDC/

20/64 38/43

24VDC

System Sensor MAEH24LO Multi Alert Horn with Mechanical Tone/Strobe 24VDC 109 68

System Sensor MAEH24LOC Multi Alert Horn with Mechanical Tone/Strobe 24VDC 109 68

System Sensor MAEH24LOLA Multi Alert Horn with Mechanical Tone/Strobe 24VDC 153 96

System Sensor MAEH24M Multi Alert Horn with Mechanical Tone/Strobe 24VDC 189 118

System Sensor MAEH24MC Multi Alert Horn with Mechanical Tone/Strobe 24VDC 189 118

System Sensor MAEH1215ADA Multi Alert Horn with Mechanical Tone/Strobe 12VDC 240 191

System Sensor MAEH121575ADA Multi Alert Horn with Mechanical Tone/Strobe 12VDC 310 246

System Sensor MAEH2415ADA Multi Alert Horn with Mechanical Tone/Strobe 24VDC 278 216

System Sensor MAEH2475ADA Multi Alert Horn with Mechanical Tone/Strobe 24VDC 273 216

System Sensor MAEH241575ADA Multi Alert Horn with Mechanical Tone/Strobe 24VDC 343 271

System Sensor MAEH24110ADA Multi Alert Horn with Mechanical Tone/Strobe 24VDC 318 256

System Sensor MAEH2415ADAS Multi Alert Horn with Mechanical Tone/Strobe 24VDC 198 152

System Sensor MAEH241575ADAS Multi Alert Horn with Mechanical Tone/Strobe 24VDC 253 241

System Sensor H12 SpectrAlert Horn 12VDC 25 14

System Sensor H24 SpectrAlert Horn

1

24VDC 42 37

System Sensor S1215 SpectrAlert Strobe 12VDC 159 133

System Sensor S121575 SpectrAlert Strobe 12VDC 182 168

System Sensor S2415 SpectrAlert Strobe

1

System Sensor S241575 SpectrAlert Strobe

System Sensor S2475 SpectrAlert Strobe

1

System Sensor S24110 SpectrAlert Strobe

1

1

24VDC 142 83

24VDC 132 76

24VDC 170 145

24VDC 220 169

System Sensor P1215 SpectrAlert Horn/Strobe 12VDC 173 144

System Sensor P121575 SpectrAlert Horn/Strobe 12VDC 196 179

System Sensor P2415 SpectrAlert Horn/Strobe

1

System Sensor P241575 SpectrAlert Horn/Strobe

1

24VDC 165 94

24VDC 177 111

System Sensor P2475 SpectrAlert Horn/Strobe 24VDC 215 180

System Sensor P24110 SpectrAlert Strobe

1

24VDC 265 214

System Sensor RP1215ADAA Retrofit Strobe Plate 12VDC 200 170

System Sensor RP121575ADAA Retrofit Strobe Plate 12VDC 240 255

System Sensor RP2415ADAA Retrofit Strobe Plate 24VDC 90 75

System Sensor RP241575ADAA Retrofit Strobe Plate 24VDC 120 93

System Sensor RP2475ADAA Retrofit Strobe Plate 24VDC 200 170

System Sensor RP24110ADAA Retrofit Strobe Plate 24VDC 245 210

Note 1: Refer to manufacturer’s installation instructions for more information.
*

Contact manufacturer for currents.

42

Table 6 Notification Appliances

PDRP-1001 Instruction Manual PN 50734:D0 04/06/01

Door Holders, UL Listed Appendix B: Compatible Devices

Door Holders, UL Listed

Use the Door Holders listed below.

24 VDC Relays, UL Listed

Use the Relays listed below.

Model Type

FM-980-24 Floor Mount, Single 68

FM-986-24 Wall Mount, Surface Wiring 68

FM-998-24 Wall Mount, Concealed Wiring 68

DH150A Floor Mount 96

DH154A Flush Mount 96

DH158A Surface Mount 96

Current

(mA)

Table 7 Door Holders

Vendor Model

System Sensor A77-716B 20

Air Products & Controls, LTD MR-101/C

MR-201/C

Current

(mA)

15
35

Table 8 24 VDC Relays

PDRP-1001 Instruction Manual PN 50734:D0 04/06/01

43

Appendix B: Compatible Devices 24 VDC Relays, UL Listed

Notes

44

PDRP-1001 Instruction Manual PN 50734:D0 04/06/01

Appendix C: NFPA Standard-Specific Requirements

Minimum System Requirements

The control panel has been designed for use in commercial, industrial, and institutional applications and
meets the requirements for service under the National Fire Protection Association (NFPA) Standards
outlined in this appendix. The minimum system components required for compliance with the appropriate
NFPA standard are listed below.

• Fire Alarm Control Panel. Contains the main control board, cabinet (backbox and door), main
supply transformer and power supply.

• Batteries. Refer to "Appendix A: Secondary Power Calculations" on page 37

• Initiating Devices. Connected to one of the control panel's Initiating Device Circuits.

• Notification Appliances. Connected to one of the control panel's Notification Appliance Circuits.

• Releasing Devices. Connected to one of the control panel’s Releasing Circuits.

Additional Requirements

The following additional equipment is needed for compliance with the NFPA standards listed below. The
relay contacts of this control panel may be used to trip any dialer that is UL listed for Central St ation/Remote
Station services. The illustrations in this appendix provide examples of possible system configurations.

Note: Applications which require the the NOTI-FIRE 911AC are not FM approved.

NFPA 72 - Signaling Systems for Central Station Service (Protected Premises Unit)

• NOTI-FIRE 911AC Digital Alarm Communicator/Transmitter (DACT) connected to a
compatible listed Central Station DACR or Protected Premises Receiving Unit. See "Digital Alarm
Communicator/Transmitter - Noti-Fire 911AC" on page 46 for installation instructions for this unit.

• 411UDAC Universal Digital Alarm Communicator connected to a compatible listed Central
Station DACR or Protected Premises Receiving Unit. See "Universal Digital Alarm Communicator

- 411UDAC" on page 47 for installation instructions for this unit.

NFPA 72 - Auxiliary Fire Alarm System

• 4XTM Transmitter Module for connection to a compatible listed Local Energy Municipal Box.
See "Local Energy Municipal Box" on page 48 for installation instructions for this unit.

NFPA 72 - Remote Station Fire Alarm System

• Fire•Lite RS82-9 Remote Station Receiver connected to a 4XTM Transmitter Module. See
"Remote Station Receiver - RS82-9" on page 49 for installation instructions for this unit.

• NOTI-FIRE 911AC DACT connected to a compatible listed Central Station DACR. See "Digital
Alarm Communicator/Transmitter - Noti-Fire 911AC" on page 46 for installation instructions for
this unit

• 411UDAC Universal Digital Alarm Communicator connected to a compatible listed Central
Station DACR. See "Universal Digital Alarm Communicator - 411UDAC" on page 47 for
installation instructions for this unit.

PDRP-1001 Instruction Manual PN 50734:D0 04/06/01

45

Appendix C: NFPA Standard-Specific Requirements Digital Alarm Communicator/Transmitter - Noti-Fire 911AC

Digital Alarm Communicator/Transmitter - Noti-Fire 911AC

Note: This application is not FM approved

Using the Noti-Fire 911AC DACT for connection to a Central Station Receiver or Protected Premises
Receiving Unit.

• AC Wiring for DACT/FACP must be connected to the same circuit.

• If the unit is not mounted in the control panel’s backbox all connections must be in conduit, less
than 20 ft. (609.6 cm) in length in the same room.

• For additional information refer to the Noti-Fire 911AC Instruction manual.

See Below for Terminal
Connections

To Central
Station

To AC Power

Control Panel

IN #1

IN #2

IN #3

IN #4

B+ A+ A– B–

TB4

TB3

B+ A+ A– B–

B+ A+ A– B–

B+ A+ A– B–

4XZM Zone

JP1

GEN

SUPV 1

ALM1

GEN
ALM2

STD DACT

Relay Module

SUPR 2

J2

LATCH

TB1

DISABL E

OPT1

Jumper

Place jumper over pins as shown when employing
a DACT. This directs the control panel to transmit
all trouble conditions except AC LOSS.

Figure 24 DACT Connections

+

–

PS 1270

12Volt

7AH Battery

TB3

To Common
Terminal of Relay

MS44-911ac.cdr

46

PDRP-1001 Instruction Manual PN 50734:D0 04/06/01

Universal Digital Alarm Communicator - 411UDAC Appendix C: NFPA Standard-Specific Requirements

Universal Digital Alarm Communicator - 411UDAC

The following figure illustrates an example of Central Station/Remote Station Receiver or Protected
Premises Receiving Unit reporting using a 411UDAC. The relay contacts of the MRP-4424 may be used
to trip any dialer listed for Central Station/Remote Station services. For additional information refer to the
Instruction Manual for the 411UDAC.

• All connections between the control panel and the 411UDAC must be in conduit, less than 20 feet
(6.1 meters) in length in the same room.

• The PDRP-1001 Series is non suitable for transmission of a supervisory signal to the DACT.

• Any zone of the 411UDAC can be wired to function as alarm or trouble; the unit must be
programmed accordingly. In this example, Zone 1 is wired to the control panel’s alarm relay, Zone2
is wired to the control panel’s trouble relay, and Zone 3 is wired to th e optional module’s supervisory
relay.

• AC power is supplied directly to the 411UDAC, not through the control panel. AC wiring for both
the 411UDAC and the control panel must be connected to the same AC branch circuit.

• End-of-Line Resistors must terminate all circuits. In this example, Zone 4 is unused and is
terminated at the board.

• When employing a DACT, place the JP1 jumper, on the control panel, as shown below. This directs
the panel to transmit all trouble conditions except AC LOSS. The DACT must be configured to
transmit AC power loss to the central station.

Alarm

Trouble

Control Panel

Jumper

Zone 1
Zone 2
Zone 3

RELAY 1
NO NC C

RELAY 2
NO NC C

TB1

NAC
B+ B-

+12V PWR
+ -

TB4

Supervisory

4XZM Zone
Relay Module

Figure 25 411UDAC Connections

Secondary Phone Line
Primary Phone Line

ZONE 1
B+ B-

ZONE 2
B+ B-

ZONE 3
B+ A+ A- B-

ZONE 4
B+ B-

TB2

411 UDAC

PH1

PH2

Modular Cable
P/N MCBL-6

MS44-411.cdr

PDRP-1001 Instruction Manual PN 50734:D0 04/06/01

47

Appendix C: NFPA Standard-Specific Requirements Local Energy Municipal Box

Local Energy Municipal Box

Using the 4XTM Transmitter Module for connection to a Local Energy Municipal Box.

• The Municipal Box circuit supervises for ground faults and opens (i.e. missing wire) but not for
direct short between two wires. It is not a power-limited circuit.

• This application is not suitable for separate transmission of sprinkler supervisory or trouble
conditions.

• Maximum loop resistance allowed for wiring from control panel to Municipal Box is 3 ohms.

FIRE

TBL

Municipal Box Circuit

+

–

TB1

Local Energy

Municipal Box

J1

J2

4XTM Transmitter Module
(activated polarities shown)

Figure 26 Municipal Box Connection

MS44-4xtmfmb.cdr

48

PDRP-1001 Instruction Manual PN 50734:D0 04/06/01

Remote Station Receiver - RS82-9

Using the 4XTM Transmitter Module for connection to a Fire•Lite RS82-9 Remote Station Receiver.

• Intended for connection to a polarity reversal circuit of a remote station receiving unit having
compatible ratings.

• All connections are power-limited and supervised with the exception of the reverse polarity loop.

• Supervision of the loop is the responsibility of the receiver.

Fire•Lite RS82-9
Remote Station
Receiver

4XTM Transmitter
Module

Figure 27 RS82-9 Connections

+ –

+ –

Remote

Alarm

TB1

Remote
Trouble

TBL

J1

J2

MS44-rs82.cdr

PDRP-1001 Instruction Manual PN 50734:D0 04/06/01

49

Appendix C: NFPA Standard-Specific Requirements Remote Station Receiver - RS82-9

Notes

50

PDRP-1001 Instruction Manual PN 50734:D0 04/06/01

Testing

Appendix D: Testing & Maintenance

Inspection

Perform the following prior to applying power to the system.

• Check the actual wiring hookup with the wiring diagrams.

• Insure that no pieces of wire have fallen into the circuitry.

• Check for missing or damaged parts.

Alarm Test

An initial alarm test should be conducted following installation to determine that all parts of the system
are functioning properly. The panels should remain powered for 24 to 36 hours proir to connecting the
releasing solenoids. This precaution will avoid false discharges of gas in case of faulty or improperly placed
detectors.

To perform an alarm test on the panel follow this procedure

1. Disconnect AC power and battery power.

2. Disconnect the installed solenoid valve circuit leads an connect spare solenoid valves, or connect
an end-of-line device to serve as a dummy load.

3. Reconnect AC power and battery power.

4. Initiate a first zone alarm condition by blowing smoke into one of the Zone 1 smoke detectors. This
should cause the first zone alarm condition.

• The alarm relay will energize.

• The red zone alarm LED will be illuminated.

• The remote Indicating Circuit #1 audible alarm and the local piezo will start sounding.

Maintenance

A regular schedule of inspection, testing, and maintenance is vital to insure proper and reliable operation
of the control panel. The procedures should be performed as required by the local authority having
jurisdiction. Refer to NFPA for further details.

Troubleshooting

A troubleshooting table is included on the following page which provides for symptoms, problems and
their solutions.

PDRP-1001 Instruction Manual PN 50734:D0 04/06/01

51

Appendix D: Testing & Maintenance Troubleshooting

Table 9 Troubleshooting Table

Symptom Problem Solution

1. Check TB2 for proper connections.

2. Remove all field wiring and install dummy ELR at
output circuit. Check for supervisory voltage across it,
(Normal -2.3 V), if problem persists, replace circuit
board.

3. Removed dummy ELR, reconnect field wiring and
measure voltage across output; (trouble-5V, short 0V).

4. Check for ELR at last device.

5. Check field wiring.

1. Check TB4 for proper connections.

2. Remove field wiring for zone in trouble and install
dummy ELR (4.7K). If problem persists, replace
circuit board.

3. Check for ELR at last device.

4. Check field wiring.

1. Check installation manual.

1. Check battery connections.

1. Remove batteries, check voltage across charger
output (17 to 19V), otherwise replace circuit board.

2. Reconnect batteries, measure battery voltage at
battery terminals. If voltage is less than 85% of rated
voltage, allow them to charge for 48 hours.

3. If problem persists, replace batteries.

1. Remove field wiring from main panel and optional
module(s) (if installed). Install dummy ELR (4.7K).

2. Remove both battery leads.

3. If trouble clears, connect one circuit at the time to
pin point the problem.

4. If trouble doesn’t clear, replace circuit board.

1. Move Municipal Box disconnect switch SW1 up.

1. Install optional module(s) or replace jumper if
module(s) is not used.

1. Install dummy load if Municipal Box option isn’t
used.

2. Check Municipal Box wiring.

1. Remove field wiring and install ELR. If trouble
clears, look for faulty or incorrectly wired devices.

1. Cut associated jumper OPT1 or OPT2.

1. Make sure module is properly installed.

2. Move disable switch SW1 on 4XZM to the left.

1. Make sure that 4XLM module is installed on J8.

2. Check field wiring.

1. Replace circuit board.

1. Press system reset.

1. Check incoming power (TB5).

1. Replace circuit board.

1. Replace circuit board.

AC
Power
LED ON

AC
Power
LED OFF

Circuit trouble
LED ON

Any of the right
column yellow
LEDs flashing

Notification appliance circuit
trouble

Initiating zone open circuit
trouble

Any of the right

System trouble
LED ON

column yellow
LEDs steady
ON

Zone disable

Missing or
Disconnected

Battery trouble
Batt yellow
LED ON

Power trouble

Low or
damaged
battery

LED ON

Ground fault trouble
Earth yellow LED ON

Yellow LED on
4XTM ON

4XTM

OPT1, OPT2 jumper cut

Municipal Box open circuit

Any of the right column red LEDs
ON

Disconnecting Municipal Box
switch ON 4XTM does not create
a trouble

Short on initiating circuit wiring

Jumper for optional modules
isn’t cut

4XZM: associated LED doesn’t
activate for alarm, trouble or

Optional module trouble

supervisory conditions

RZA-4X piezo doesn’t sound for
alarm, trouble or supervisory

4XLM

conditions

Micro Fail yellow LED ON Microprocessor damaged

All RZA-4X LEDs stay ON

System trouble LED ON

Power wasn’t removed prior to
installation

Loss of main power
Damaged circuit breaker

Micro Fail yellow LED ON Microprocessor damaged

52

PDRP-1001 Instruction Manual PN 50734:D0 04/06/01

Index

Index

Numerics

110/120 VAC
220/240 VAC
411UDAC
4XLM LED Interface Module
4XMM Meter Module
4XTM Transmitter Module
4XZM Zone Relay Module
911AC DACT

12
12

45, 47

11, 15

10, 23, 45, 48, 49
10, 23

45, 46

A

AC branch circuit
AC power
accidential discharge
acknowledge
additional equipment
alarm
Alarm Relay
alarm relay
allowable resistance
ammeter
annunciator wiring
audible alarm
authority having jurisdiction

31, 47, 51

31, 47

11

47

21

32

45

35

22, 51

19

11

51

B

backbox
backbox rail
Batteries
battery

BB-17
black wire
Brownout circuitry
buffer

13

13, 14

16, 45

17

cable
capacity
charger
interconnect wire
power

38

38

51

12, 38

17

35

34

16, 17

C

Canadian
Central Station
charging current
circuit

circuit board
circuit breaker
Combined Release
conductors
conduit

28, 33, 34

45, 46, 47

15

Remote Alarm
Remote Trouble
reverse polarity

13

16

13

13, 47

25

25

10

28

11, 23

51

Cross Zone
current
current draw

28, 35

12, 21

35

D

DC power connections
detector, four-wire smoke
detectors, type of

21

devices
devices, supplementary

45, 47

dialer
DIP switch
DIP switch functions
direct short
disable switch
disabled zone
discharge timer
discharge, accidential
Disconnect LED
Disconnect Switch
dry contacts
Dual Hazard
dummy load
dummy load resistor
duplicate modules

20, 28, 29

48

26

33

26

28
20, 21

22

18

22

10

29

21

25

25

18

23

E

earth fault
ELR
End-of-Line Resistor
energize
event
exterior dimensions
external battery cabinet
external devices

31

18, 19, 20, 21

12, 47

35

31

14

12

12

F

Fire Alarm Control Panel
first alarm
first zone
FM approved
Form-C contacts
four-wire smoke detector

35

51

45, 46

10, 12

G

ground fault

31, 48

I

Indicating Circuit #1
initial alarm test
initiating circuits
initiating device
Initiating Device Circuit

51

51

32

35, 45

32

45

12, 32

34

PDRP-1001 Instruction Manual PN 50734:D0 04/06/01

53

Index

inspection
interconnect wire, battery
Interface Module
interruption of circuits

51

30

11

34

J

J1 connector
J2 Connector
J3 Connector
J9 Connector
JP1 jumper
jumper

LATCH

13, 14

15
15
17

47

23, 24

26

K

keyhole
knockouts

13

13, 17

L

label

Protected Premises Unit
terminal identification

LAMP TEST function

32, 33

latch
LATCH jumper
latching operation
LED

Disconnect

System Trouble
LED Interface Module
LEDs

Alarm, Trouble and Supervisory
Local Energy Municipal Box
loop resistance
lower position

26

33, 34

25

25

48

23, 24

26

23, 24

32

11, 23

M

main breaker panel
maintenance
Manual Pull Stations
maximum allowable resistance
Maximum Battery Capacity
Maximum Charging Circuit
maximum resistance
Meter Module
microprocessor
minimum clearance
minimum voltage
module connectors
motherboard
mounting hole locations
mounting holes
Municipal Box

16

51

18

12
12

19

11, 15

31

13

21

23

31

14

13

25, 48

N

20

NACs

10

21

31

National Electrical Code, Article 760
National Fire Protection Association
negative
NFPA
NFPA standards
non-latching
nonpower-limited
nonresettable power
non-silenceable service
Notification Appliance Circuit
Notification Appliances

17

51

45

26, 32

17, 21, 26

19, 22

20

32

45

O

48

opens
operating mode
operating voltage
optional boards
Out of Service
output circuits
overcurrent protection

28

19

32

30

32

16

P

paper labels
piezo
piezo tones
polarity
polarity reversal circuit
polarized devices
positive
power connection
Power Supervision Relay
power-limited
power-limited power supply
previous panel status
primary power
programmed
Protected Premises Receiving Unit

11

32, 33, 34, 35, 51

32

17, 18, 30

49

18, 20

17

16

19

17, 20, 26, 49

22

34

16, 30

47

45, 46, 47

R

24

rail
rail, backbox
red wire
regulated power
relay contacts
Relay, System Alarm
release
releasing
Releasing Circuit
releasing device
Releasing Devices
Remote Alarm circuit
Remote Annunciator
Remote Station
Remote Station Service
Remote Trouble circuit
reset switch

13, 14

17

22

47

32

31

21

20, 21

35

45

25

11

45, 47

10

25

35

16

45

54

PDRP-1001 Instruction Manual PN 50734:D0 04/06/01

Index

resettable power

resistance, allowable

47

resistor

resound

reverse polarity

reverse polarity circuit

reverse polarity loop

RS82-9 Remote Station Receiver

RZA-4X Remote Annunciator

32

19, 22

19

25

10

49

11

S

second alarm

Secondary Power

secondary power source

self-restoring

separate transmission

short circuit

silence switch

Single Hazard

Slide-in paper labels

solenoid valve

Split Release

sprinkler

sprinkler supervisory

Standby Battery Current

stand-off

Style B (Class B)

Style D (Class A)

Style Y (Class B)

Style Z (Class A)

sulfuric acid

supervised

supervisory device

Supervisory LED

supervisory signal

supplementary devices

switch, disable

system alarm

System Alarm Relay

System Trouble LED

35

30

37

32

48

33

11

28

11

35, 51

28

33, 34

48

37

14, 23, 24

18

18
20, 21
20

30

20

31, 33

33

47

22

26

31

32

25

45, 49

troubleshooting
Two Zone

51

28

U

UL listed
unused circuits
upper position

45

20, 21

23

V

visual inspection

15

voltage
voltage drop
voltmeter

30

12

11

W

watchdog timer
Waterflow
wire, primary power
wires, transformer

31

18

13

Z

47

zone
Zone Relay Module

16

10, 23

T

tag, “Out of Service”
terminal identification label

51

testing
timer, watchdog
tone patterns
tones, piezo
tracking operation
transformer wires
Transmitter Module
trim ring
trouble

condition
relay

trouble sounder

PDRP-1001 Instruction Manual PN 50734:D0 04/06/01

33

32

14

47

22

30

23, 24

31

33, 34

13, 14

10, 23, 48, 49

31, 34, 48

11

55

Limited Warranty

System Sensor

®

warrants its products to be free from defects in materials and workman­ship for eighteen (18) months from the date of manufacture, under normal use and ser­vice. Products are date stamped at time of manufacture. The sole and exclusive
obligation of System Sensor

®

is to repair or replace, at is option, free of charge for parts

and labor, any part which is defective in materials or workmanship under normal use and

®

service. For products not under System Sensor
warranty is eighteen (18) months from date of original purchase by System Sensor

manufacturing date-stamp control, the

®

dis­tributor unless the installation instructions or catalog sets forth a shorter period, in which
case the shorter period shall apply. This warranty is void if the product is altered, repaired
or serviced by anyone other than System Sensor

®

or its authorized distributors or if there
is a failure to maintain the products and systems in which they operate in proper and work­able manner. In case of defect, secure a Return Authorization Number from our Customer
Service Department. Return product, transportation prepaid, to System Sensor Repair
Department, RA #_____, 3825 Ohio Avenue, St. Charles, IL 60174. Please include a note
describing the malfunction and suspected cause of failure.

This writing constitutes the only warranty made by System Sensor
products. System Sensor

®

does not represent that its products will prevent any loss by

®

with respect to its

fire or otherwise, or that its products will in all cases provide the protection for which they
are installed or intended. Buyer acknowledges that System Sensor

®

is not an insurer and
assumes no risk for loss or damages or the cost of any inconvenience, transportation,
damage, misuse, abuse, accident or similar incident.

SYSTEM SENSOR

®

GIVES NO WARRANTY, EXPRESSED OR IMPLIED, OF MER­CHANTABILITY, FITNESS FOR ANY PARTICULAR PURPOSE, OR OTHERWISE
WHICH EXTEND BEYOND THE DESCRIPTION ON THE FACE HEREOF. UNDER NO
CIRCUMSTANCES SHALL SYSTEM SENSOR

®

BE LIABLE FOR ANY LOSS OF OR
DAMAGE TO PROPERTY, DIRECT, INCIDENTAL OR CONSEQUENTIAL, ARISING
OUT OF THE USE OF, OR INABILITY TO USE SYSTEM SENSOR

®

THERMORE, SYSTEM SENSOR

SHALL NOT BE LIABLE FOR ANY PERSONAL

®

PRODUCTS. FUR-

INJURY OR DEATH WHICH MAY ARISE IN THE COURSE OF, OR AS A RESULT OF,
PERSONAL, COMMERCIAL OR INDUSTRIAL USE OF ITS PRODUCTS.

This warranty replaces all previous warranties and is the only warranty made by System

Sensor

®

. No increase or alteration, written or verbal, of the obligation of this warranty is

authorized.

3825 Ohio Avenue
St. Charles, IL 60174
1-800-SENSOR2
Fax: (630) 377-6495