Honeywell Clock Radio MRP 2001 User Manual

PN: 53040:A

ECN 07-072

Deluge • Preaction Control

MRP-2001 & MRP-2001E

Installation, Operation and Programming Manual

Document

4/16/07

#53040

Revision:

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Adherence to the following will aid in problem-free

installation with long-term reliability:

Installation Precautions

WARNING - Several different sources of power can be

connected to the fire alarm control panel. Disconnect all

sources of power before servicing. Control unit and asso-

ciated 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.

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.

Consult with the Technical Services Department if any

problems are anticipated or encountered.

CAUTION - System Reacceptance Test after Software

Changes. To ensure proper system operation, this product

must be tested in accordance with NFPA 72 after any

Disconnect AC power and batteries prior to removing or

programming operation or change in site-specific software. inserting circuit boards. Failure to do so can damage

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.

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.

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.

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.

This system meets NFPA requirements for indoor dry

operation at 0-49° C/32-120° F and at a relative humidity of

93 ±2% RH (non-condensing) at 32 ±2° C/90 ±3° 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 tempera-

ture of 15-27° C/60-80° F.

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.

Verify that wire sizes are adequate for all initiating and

indicating device loops. Refer to manual Specifications

section for maximum allowable I.R. drop from the specified

device voltage.

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 their 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.

PrecauLarge.PMD

02/26/2007

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Table of Contents

SECTION 1: Product Description .........................................................................................................................11

1.1: Product Features ..........................................................................................................................................11

1.2: Specifications ..............................................................................................................................................13

1.3: Controls and Indicators................................................................................................................................14

1.4: Components.................................................................................................................................................15

1.5: Optional Modules and Accessories .............................................................................................................16

SECTION 2: Installation ........................................................................................................................................17

2.1: Backbox Mounting ......................................................................................................................................17

2.2: Operating Power..........................................................................................................................................20

2.3: Input Circuits...............................................................................................................................................21

2.4: Output Circuits ............................................................................................................................................23

2.4.1: Outputs/Notification Appliance/Releasing Circuits..........................................................................23

2.4.2: Special Application DC Power Output Connections ........................................................................24

2.4.3: Relays - Programmable .....................................................................................................................24

2.5: Power-limited Wiring Requirements...........................................................................................................25

2.6: Installation of Optional Modules.................................................................................................................26

2.6.1: CAC-5X Class A Converter Module ................................................................................................26

2.6.1.1 Installation ...............................................................................................................................26

2.6.1.2 Wiring NACs and IDCs for Class A .......................................................................................27

2.6.2: 4XTMF Municipal Box Transmitter Option Module........................................................................28

2.6.2.1 4XTMF Transmitter Module Installation ...............................................................................29

2.7: ANN-BUS Devices .....................................................................................................................................30

2.7.1: ANN-BUS Wiring.............................................................................................................................30

2.7.1.1 Calculating Wiring Distance for ANN-BUS Modules ............................................................30

2.7.1.2 Wiring Configuration ..............................................................................................................32

2.7.1.3 Powering ANN-BUS Devices from Auxiliary Power Supply ................................................33

2.7.2: ANN-BUS Device Addressing..........................................................................................................33

2.7.3: ANN-80 Remote LCD Annunciator .................................................................................................34

2.7.4: Specifications ....................................................................................................................................34

2.7.5: Installation.........................................................................................................................................34

2.7.5.1 Mounting .................................................................................................................................34

2.7.5.2 Opening/Closing Annunciator ................................................................................................34

2.7.5.3 Wiring ANN-80 to FACP .......................................................................................................35

2.7.6: ANN-S/PG Serial/Parallel Printer Interface Installation...................................................................37

2.7.6.1 Specifications ..........................................................................................................................37

2.7.6.2 PRN-6 Printer Installation .......................................................................................................37

2.7.6.2.1 Connecting PRN-6 Printer ...................................................................................................38

2.7.6.2.2 Setting Printer Options .........................................................................................................38

2.7.7: ANN-I/O LED Driver Module..........................................................................................................39

2.7.7.1 ANN-I/O Board Layout ..........................................................................................................39

2.7.7.2 Specifications ..........................................................................................................................39

2.7.7.3 ANN-I/O Connection to FACP ...............................................................................................40

2.7.7.4 ANN-I/O Module LED Wiring ...............................................................................................41

2.7.8: ANN-LED Annunciator Module.......................................................................................................41

2.7.8.1 ANN-LED Board Layout ........................................................................................................42

2.7.8.2 Specifications ..........................................................................................................................42

2.7.8.3 Mounting/Installation ..............................................................................................................42

2.7.8.4 ANN-LED Connection to FACP ............................................................................................43

2.7.9: ANN-RLY Relay Module..................................................................................................................44

2.7.9.1 ANN-RLY Board Layout ........................................................................................................44

2.7.9.2 Specifications ..........................................................................................................................44

2.7.9.3 Mounting/Installation ..............................................................................................................44

2.7.9.4 ANN-RLY Connection to FACP ............................................................................................45

SECTION 3: Programming ..................................................................................................................................46

3.1: User Programming.......................................................................................................................................46

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Table of Contents

3.2: Initial Power-up...........................................................................................................................................47

3.3: Programming Screens Description..............................................................................................................47

3.4: Programming and Passwords ......................................................................................................................48

3.5: Master Programming Level.........................................................................................................................49

3.5.1: FACP CONFIG (Application Templates) .........................................................................................50

3.5.2: Input Zones........................................................................................................................................50

3.5.3: Output Circuits..................................................................................................................................57

3.5.3.1 Enabled ....................................................................................................................................58

3.5.3.2 Type ........................................................................................................................................58

3.5.3.2.1 Release Circuit 1 or Release Circuit 2 .................................................................................58

3.5.3.2.2 Release Stage NAC ..............................................................................................................59

3.5.3.3 Silence .....................................................................................................................................59

3.5.3.4 Auto Silence ............................................................................................................................60

3.5.3.5 Silence Inhibited .....................................................................................................................60

3.5.3.6 Coding .....................................................................................................................................61

3.5.3.6.1 Synchronized NAC Operation .............................................................................................62

3.5.4: Cross Input Zones .............................................................................................................................63

3.5.5: On-Board Relays...............................................................................................................................64

3.5.6: System Setup.....................................................................................................................................64

3.5.6.1 Timers ....................................................................................................................................65

3.5.6.1.1 Soak 1 or Soak 2 ..................................................................................................................66

3.5.6.1.2 Waterflow Delay ..................................................................................................................66

3.5.6.1.3 AC Loss Delay .....................................................................................................................67

3.5.6.2 Banner .....................................................................................................................................67

3.5.6.3 Time-Date ...............................................................................................................................68

3.5.6.3.1 Time .....................................................................................................................................69

3.5.6.3.2 Date ......................................................................................................................................69

3.5.6.3.3 Clock Format ........................................................................................................................69

3.5.6.3.4 Daylight Savings Time .........................................................................................................70

3.5.6.4 Trouble Reminder ...................................................................................................................70

3.5.6.5 Charger Disable .......................................................................................................................70

3.5.7: ANN-BUS.........................................................................................................................................71

3.5.7.1 ANN-BUS Enabled .................................................................................................................71

3.5.7.2 ANN-BUS Modules ................................................................................................................72

3.5.7.3 Auto-Configure .......................................................................................................................73

3.5.7.4 ANN-S/PG Options .................................................................................................................73

3.5.7.5 ANN-I/O LED Zone Assignments ..........................................................................................75

3.5.7.6 ANN-80 Options .....................................................................................................................76

3.5.7.7 ANN-RLY Options .................................................................................................................77

3.5.8: History...............................................................................................................................................78

3.5.8.1 View Events ............................................................................................................................78

3.5.8.2 Erase History ...........................................................................................................................78

3.5.9: Walktest.............................................................................................................................................79

3.5.10: Clear Program .................................................................................................................................80

3.5.11: Password Change ............................................................................................................................80

3.6: Maintenance Programming Level ...............................................................................................................81

3.6.1: Input Zones - Enable/Disable............................................................................................................82

3.6.2: History...............................................................................................................................................82

3.6.3: Walktest.............................................................................................................................................83

3.6.4: Time-Date..........................................................................................................................................84

SECTION 4: Operating Instructions ....................................................................................................................85

4.1: Panel Control Buttons .................................................................................................................................85

4.1.1: Acknowledge/Step ............................................................................................................................85

4.1.2: Alarm Silenced..................................................................................................................................85

4.1.3: Drill/Hold 2 Sec ................................................................................................................................85

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Table of Contents

4.1.4: Reset..................................................................................................................................................85

4.2: Indicators .....................................................................................................................................................86

4.3: Normal Operation........................................................................................................................................86

4.4: Trouble Operation........................................................................................................................................87

4.5: Alarm Operation..........................................................................................................................................88

4.6: Supervisory Operation.................................................................................................................................89

4.7: Disable/Enable Operation............................................................................................................................89

4.8: Waterflow Circuits Operation......................................................................................................................89

4.9: 2nd-Shot Water Switch................................................................................................................................90

4.10: Detector Functions.....................................................................................................................................90

4.11: Time Functions: Real-Time Clock.............................................................................................................90

4.12: Coded NAC Operation ..............................................................................................................................90

4.13: Release Stages ...........................................................................................................................................91

4.14: Special System Timers ..............................................................................................................................91

4.14.1: Silence Inhibit Timer.......................................................................................................................91

4.14.2: Autosilence Timer ...........................................................................................................................91

4.14.3: Trouble Reminder............................................................................................................................91

4.14.4: Soak Timers.....................................................................................................................................91

4.14.5: Waterflow Delay Timer...................................................................................................................91

4.15: Walktest .....................................................................................................................................................91

4.16: Read Status ................................................................................................................................................92

4.16.1: FACP Configuration........................................................................................................................93

4.16.2: Input Zones......................................................................................................................................93

4.16.3: Output Circuits ................................................................................................................................94

4.16.4: Cross Input Zones............................................................................................................................94

4.16.5: On-Board Relays.............................................................................................................................95

4.16.6: System Settings ...............................................................................................................................95

4.16.7: Timers..............................................................................................................................................96

4.16.8: Daylight Savings .............................................................................................................................96

4.16.9: History.............................................................................................................................................97

4.16.10: ANN-S/PG ....................................................................................................................................97

4.16.11: ANN-BUS .....................................................................................................................................98

SECTION 5: Power Supply Calculations .............................................................................................................99

5.1: Overview .....................................................................................................................................................99

5.2: Calculating the AC Branch Circuit..............................................................................................................99

5.3: Calculating the System Current Draw.........................................................................................................100

5.3.1: Overview ...........................................................................................................................................100

5.3.2: How to Use Table 5-3 on page 101 to Calculate System Current Draw...........................................100

5.4: Calculating the Battery Size ........................................................................................................................102

5.4.1: NFPA Battery Requirements.............................................................................................................102

5.4.2: Selecting and Locating Batteries.......................................................................................................102

APPENDIX A: Circuit Mapping and Cross-Zoning ..........................................................................................103

A.1: Input-to-Output Circuit Mapping and Cross-Zone Operation ...................................................................103

A.1.1: Mapping Input Zones to Output Circuits for Direct Activation ......................................................104

A.1.2: Mapping Input Zones to Release Circuits for Cross Zone

Activation ........................................................................................................................................105

A.1.3: Complex Examples of Cross Zoning and I/O Mapping for

Release Circuits ..............................................................................................................................107

APPENDIX B: FACP Configuration Templates ................................................................................................108

B.1: Template 7: Single Hazard - 3 Zone .........................................................................................................109

B.2: Template 8: Single Hazard - Cross-Zone With Manual Release ..............................................................110

B.3: Template 9: Dual Hazard - Combined Release ........................................................................................111

B.4: Template 10: Dual Hazard - Split Release ................................................................................................112

B.5: Template 11: Single Hazard - 3 Zones and Low Pressure ........................................................................113

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Table of Contents

B.6: Template 12: Single Hazard - 2 Zones Cross-Zoned With All Active ....................................................114

B.7: Template 13: Single Hazard - Dual Zone .................................................................................................115

APPENDIX C: NFPA Standard-Specific Requirements ...................................................................................116

C.1: NFPA 72 Auxiliary Fire Alarm System ....................................................................................................119

C.2: Central Station/Remote Station Transmitter:

Connection to FACP Dry Contacts ...........................................................................................................122

APPENDIX D: FACP with Keltron .....................................................................................................................123

APPENDIX E: Testing & Maintenance ..............................................................................................................124

E.1: Testing .......................................................................................................................................................124

E.1.1: Inspection .........................................................................................................................................124

E.1.2: Alarm Test .......................................................................................................................................124

5.4.3: Detector Testing ................................................................................................................................124

E.2: Maintenance ...............................................................................................................................................125

MRP-2001 & MRP-2001E P/N: 53040:A 4/16/07

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Notes

MRP-2001 & MRP-2001E PN 53040:A 4/16/2007

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It is imperative that the installer understand the requirements of the Authority Having Jurisdiction

(AHJ) and be familiar with the standards set forth by the following regulatory agencies:

•

Underwriters Laboratories Standards

NFPA 72 National Fire Alarm Code

CAN/ULC - S527-99 Standard for Control Units for Fire Alarm Systems

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

NFPA Standards

This Fire Alarm Control Panel complies with the following NFPA Standards:

NFPA 13 Installation of Sprinkler Systems

NFPA 15 Water Spray Fixed Systems

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

NFPA 72 National Fire Alarm Code for Local Fire Alarm Systems and Remote

Station Fire Alarm Systems (requires an optional Remote Station Output Module)

Underwriters Laboratories Documents for Reference:

UL 38 Manually Actuated Signaling Boxes

UL 217 Smoke Detectors, Single and Multiple Station

UL 228 Door Closers–Holders for Fire Protective Signaling Systems

UL 268 Smoke Detectors for Fire Protective Signaling 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 Protective Signaling Systems

UL 1481 Power Supplies for Fire Protective Signaling Systems

UL 1638 Visual Signaling Appliances

UL 1971 Signaling Devices for Hearing Impaired

CAN/ULC - S524-01 Standard for Installation of Fire Alarm Systems

Other:

NEC Article 250 Grounding

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 (LAHJ)

Fire•Lite Documents

Fire•Lite Device Compatibility Document

411UD Manual

411UDAC Manual

Document #15384

Document #50759

Document #51073

This product has been certified to comply with the requirements in the Standard for Control Units and Accessories for Fire

Alarm Systems, UL 864, 9th Edition. Operation of this product with products not tested for UL 864, 9th Edition has not

been evaluated. Such operation requires the approval of the local Authority Having Jurisdiction (AHJ).

MRP-2001 & MRP-2001E PN 53040:A 4/16/2007

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Main Circuit Board

D B T P O F T M X 4

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Product Features

Product Description

SECTION 1

Product Description

The MRP-2001 is a six zone FACP for single and dual hazard deluge and preaction applications.

The FACP provides reliable fire detection, signaling and protection for commercial, industrial and

institutional buildings requiring water-based releasing. The FACP is compatible with System

Sensor’s i³detectors which are conventional smoke detectors that can transmit a maintenance

trouble signal to the FACP indicating the need for cleaning and a supervisory ‘freeze’ signal when

the ambient temperature falls below the detector rating of approximately 45^oF (refer to System

Sensor for i³Installation and Maintenance Instructions). In addition, the control panel is

compatible with conventional input devices such as two-wire smoke detectors, four-wire smoke

detectors, pull stations, waterflow devices, tamper switches and other normally-open contact

devices. Refer to Device Compatibility Document for a complete listing of compatible devices.

Four outputs are programmable as NACs (Notification Appliance Circuits) or releasing solenoids.

Three programmable Form-C relays (factory programmed for Alarm, Trouble and Supervisory)

and 24 VDC special application resettable and nonresettable power outputs are also included on the

main circuit board. The FACP supervises all wiring, AC voltage, battery charger and battery level.

Activation of a compatible smoke detector or any normally-open fire alarm initiating device will

activate audible and visual signaling devices, illuminate an indicator, display alarm information on

the panel’s LCD, sound the piezo sounder at the FACP, activate the FACP alarm relay and operate

an optional module used to notify a remote station or initiate an auxiliary control function.

The MRP-2001E offers the same features as the MRP-2001 but allows connection to 220/240 VAC.

Unless otherwise specified, the information in this manual applies to both the 110/120 VAC and

220/240 VAC versions of the panels.

1.1 Product Features

•

Six programmable Style B (Class B) IDCs (Initiating

Device Circuit)

•

Four programmable Style Y (Class B) output circuits

- (special application power)

•

Three programmable Form-C relays

7.0 amps total 24 VDC output current

Resettable and non-resettable output power

Built-in Programmer

ANN-BUS for connection to optional:

ꢀ ANN-80 Remote LCD Annunciator

ꢀ ANN-I/O LED Driver

ꢀ ANN-S/PG Printer Module

ꢀ ANN-RLY Relay Module

ꢀ ANN-LED Annunciator Module

80-character LCD display (backlit)

Real-time clock/calendar with daylight savings time control

History log with 256 event storage

•

MRP-2001 & MRP-2001E PN 53040:A 4/16/2007

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Product Description

Product Features

•

Control Buttons

ꢀ ACK (Acknowledge)

ꢀ Alarm Silence

ꢀ System Reset/Lamp Test

ꢀ Drill

Indicators

ꢀ Fire Alarm

ꢀ Supervisory

ꢀ Trouble

ꢀ AC Power

ꢀ Alarm Silence

ꢀ Discharge

•

Piezo sounder for alarm, trouble and supervisory

24 volt operation

Low AC voltage sense

Outputs Programmable for:

ꢀ Releasing Solenoids

ꢀ NACs programmable for:

Silence Inhibit

Auto-Silence

Strobe Synchronization (System Sensor, Wheelock, Gentex, Faraday, Amseco)

Selective Silence (horn-strobe mute)

Temporal or Steady Signal

Silenceable or Nonsilenceable

Release Stage Sounder

•

Designed for sprinkler standards NFPA 13, 15 and 16

Disable/Enable control per input zone and output zone

Extensive transient protection

Dual hazard operation

Adjustable waterflow discharge timer and two soak timers

Cross-zone (double-interlock) capability

Pre-programmed and custom application templates

Automatic battery charger with charger supervision

Silent or audible walktest capabilities

Optional Dress Panel DP-51050 (red)

Optional Trim Ring TR-CE (red) for semi-flush mounting the cabinet

Optional CAC-5X Class A Converter Module for Outputs and IDCs

Optional 4XTMF Municipal Box Transmitter Module

Optional Digital Alarm Communicators (411, 411UD, 411UDAC)

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Specifications

Product Description

1.2 Specifications

AC Power

MRP-2001: 120 VAC, 60 Hz, 3.66 amps

MRP-2001E: 240 VAC, 50 Hz, 2.085 amps

Wire size: minimum #14 AWG (2.0 mm²) with 600V insulation

Supervised, nonpower-limited

Battery (sealed lead acid only) - J12

Maximum Charging Circuit - Normal Flat Charge: 27.6 VDC @ 1.4 amp

Supervised, nonpower-limited

Maximum Charger Capacity: 26 Amp Hour battery (two 18 Amp Hour batteries can be housed

in the FACP cabinet. Larger batteries require separate battery box such as the BB-26 or BB-55)

Minimum Battery Size: 7 Amp Hour

Initiating Device Circuits - TB4 and TB6

Alarm Zones 1 - 5 on TB 4

Alarm Zone 6 on TB6

Supervised and power-limited circuitry

Operation: All zones Style B (Class B)

Normal Operating Voltage: Nominal 20 VDC

Alarm Current: 15 mA minimum

Short Circuit Current: 40 mA max.

Maximum Loop Resistance: 100 ohms

End-of-Line Resistor: 4.7KΩ, 1/2 watt (Part #71252)

Standby Current: 2 mA

Refer to the Device Compatibility Document for listed compatible devices

Notification Appliance and Releasing Circuit(s) - TB5 and TB7

Four Output Circuits

Operation: Style Y (Class B)

Special Application power

Supervised and power-limited circuitry

Normal Operating Voltage: Nominal 24 VDC

Maximum Signaling Current: 7.0 amps (3.0 amps maximum per NAC)

End-of-Line Resistor: 4.7KΩ, 1/2 watt (Part #71252)

Max. Wiring Voltage Drop: 1.5 VDC

Refer to the Device Compatibility Document for compatible listed devices

Form-C Relays - Programmable - TB8

Relay 1 (factory default programmed as Alarm Relay)

Relay 2 (factory default programmed as fail-safe Trouble Relay)

Relay 3 (factory default programmed as Supervisory Relay)

Relay Contact Ratings: 2 amps @ 30 VDC (resistive) and 0.5 amps @ 30 VAC (resistive)

Auxiliary Trouble Input

The Auxiliary Trouble Input is an open collector, unsupervised circuit which can be used to

monitor external devices for trouble conditions. It can be connected to the trouble bus of a

peripheral, such as a power supply, which is compatible with open collector circuits.

All connections must be in conduit, less than 20 ft. (610 cm) in length in the same room.

Special Application Resettable Power - TB9

Operating Voltage: Nominal 24 VDC

Maximum Available Current: 500 mA - appropriate for powering 4-wire smoke detectors (see

note 1)

Power-limited Circuitry

Refer to the Device Compatibility Document for compatible listed devices

1. Total current for resettable power, nonresettable power and Output Circuits must not exceed

7.0 amps.

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Product Description

Special Application Resettable or Nonresettable Power - TB9

Controls and Indicators

Operating Voltage: Nominal 24 VDC

Maximum Available Current: 500 mA (see note 1)

Power-limited Circuitry

Jumper selectable by JP31 for resettable or nonresettable power:

ꢀ Jumper pins 1 & 2 on JP31 for nonresettable power

ꢀ Jumper pins 2 & 3 on JP31 for resettable power

Refer to the Device Compatibility Document for compatible listed devices

1.3 Controls and Indicators

LCD Display

The FACP uses an 80-character

(4 lines X 20 characters) high viewing angle

LCD display. The display includes a long life

LED backlight that remains illuminated. If AC

power is lost and the system is not in alarm, the

LED backlight will turn off to conserve batteries.

SYSTEM ALL NORMAL

10:00A 012106

Key Panel

Mounted on the main circuit board, the key panel includes a window for the LCD display and

indicators as listed above. The key panel, which is visible with the cabinet door closed, has 25

keys, including a 16 key alpha-numeric pad similar to a telephone keypad.

Function keys:

•

Acknowledge/Step

Alarm Silence

Drill

System Reset (lamp test)

Service/program keys:

•

Keys labeled 1 to 9

* key

# key

Figure 1.1 Membrane/Display Panel

0 (recall) key

1st Event key

Clear key

Escape key

Mode key

Four cursor keys (up, down, left and right)

Enter key

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Components

Product Description

Local Piezo Sounder

A piezo sounder provides separate and distinct pulse rates for alarm, trouble and supervisory

conditions.

Indicators

Indicators are provided to annunciate the following conditions:

•

Fire Alarm - red indicator

Supervisory - yellow indicator

AC Power - green indicator

System Trouble - yellow indicator

Alarm Silence - yellow indicator

Discharge - red indicator

Local Piezo Sounder

A piezo sounder provides separate and distinct sounds for alarm, trouble, maintenance and

supervisory conditions as follows:

•

Alarm - on steady

Trouble - pulse 1 second on and 1 second off

Maintenance - pulse ½ second on and ½ second off

Supervisory - pulse ½ second on and ½ second off

1.4 Components

Main Circuit Board

The main circuit board contains the system’s CPU and other primary components and wiring

interface connectors. Optional modules plug in and are mounted to the main circuit board.

Power Supply

One FLPS-7 power supply is provided standard with each FACP, mounted to a chassis.

Cabinet

The backbox measures 16.65” (42.29 cm) x 19.0” (48.26 cm) x 5.207” (13.23 cm) and provides

space for two batteries (up to 18 Amp Hours). Also available is an optional dress panel (DP-51050

[red] and supplied standard with Canadian versions only, DP-51050LED for mounting ANN-LED

annunciator modules) which mounts inside the cabinet and trim-ring (TR-CE [red]).

Batteries

The cabinet provides space for two 18 Amp Hour batteries (larger batteries require use of a UL

listed battery box such as the BB-26 or BB-55). Batteries must be ordered separately.

MRP-2001 & MRP-2001E PN 53040:A 4/16/2007

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Product Description

Optional Modules and Accessories

1.5 Optional Modules and Accessories

CAC-5X Class A Converter Module

The CAC-5X Module can be used to convert the Style B (Class B) Initiating Device Circuits to

Style D (Class A) and Style Y (Class B) Output Circuits to Style Z (Class A). The modules connect

to J2 and J7 on the FACP main circuit board. Note that two Class A Converter modules are required

to convert all six Output Circuits and four Initiating Device Circuits.

4XTMF Transmitter Module

The 4XTMF provides a supervised output for local energy municipal box transmitter and alarm and

trouble reverse polarity. It includes a disable switch and disable trouble LED. A module jumper

option allows the reverse polarity circuit to open with a system trouble condition if no alarm

condition exists. The 4XTMF mounts to the main circuit board connectors J4 & J5.

ANN-80 LCD Annunciator

The ANN-80 is a remote LCD annunciator that mimics the information displayed on the FACP

LCD display.

ANN-LED Annunciator Module

The ANN-LED Annunciator Module provides three LEDs for each zone: Alarm, Trouble and

Supervisory.

ANN-RLY Relay Module

The ANN-RLY Module, which can be mounted inside the cabinet, provides 10 Form-C relays.

ANN-S/PG Serial/Parallel Printer Gateway

The ANN-S/PG module provides a connection for a serial or parallel printer.

ANN-I/O LED Driver Module

The ANN-I/O module provides connections to a user supplied graphic annunciator.

Dress Panel

A dress panel DP-51050 (red) is available as an option. The dress panel restricts access to the

system wiring while allowing access to the membrane switch panel.

DP-51050LED Dress Panel

A DP-51050LED dress panel is provided standard only with Canadian versions of the FACP. The

dress panel restricts access to the system wiring while allowing access to the membrane switch

panel. It also allows the installation of an optional ANN-LED annunciator module.

TR-CE Trim-ring

A trim-ring TR-CE (red) is available as an option. The trim-ring allows semi-flush mounting of the

cabinet.

Battery Box

The BB-26 or BB-55 battery box may be used to house two batteries greater than 18 Amp Hour.

The battery box mounts directly below the control panel cabinet, centered to the main circuit board.

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Backbox Mounting

Installation

SECTION 2

Installation

The cabinet can be surface mounted or semi-flush mounted. The door is removable during the

installation period by opening and lifting it off the hinges. The cabinet mounts using two key slots

at the top of the backbox and two additional securing holes located at the bottom.

Carefully unpack the system and check for shipping damage. Mount the cabinet in a clean, dry,

vibration-free area where extreme temperatures or levels of humidity are not encountered. The area

should be readily accessible with sufficient room to easily install and maintain the panel. Locate

the top of the cabinet approximately 5 feet (1.5 m) above the floor with the hinge mounting on the

left. Determine the number of conductors required for the devices to be installed. Sufficient

knockouts are provided for wiring convenience. Select the appropriate knockout(s) and pull the

conductors into the box. All wiring should be in accordance with the National and/or Local codes

for fire alarm systems.

2.1 Backbox Mounting

The circuit board contains static-sensitive components. Always ground yourself with a proper wrist

strap before handling any boards so that static charges are removed from the body. Use static

suppressive packaging to protect electronic assemblies.

To prevent damage to the circuit board and to facilitate backbox mounting, the chassis with main

circuit board and transformer can be easily removed. Loosen the two 3/8” nuts securing the top

flanges of the chassis, then slide the chassis up to free it from the lower tabs. Place the chassis

assembly in a protective antistatic bag in a safe location until it can be reinstalled in the backbox.

ꢀ Mark and predrill hole in the wall for the center top keyhole mounting bolt using the

ꢀ

dimensions illustrated in Figure 2.2 on page 18

See Page

ꢀ Install center top fastener in the wall with the screw head protruding

ꢀ Place backbox over the top screw, level and secure

ꢀ Mark and drill the left and right upper and lower mounting holes

Note: outer holes (closest to sidewall) are used for 16” on-center stud mounting

ꢀ Install remaining fasteners and tighten

Board on Chassis

mounting holes

mounting slots

mounting studs

mounting tabs

grounding stud:

attach solid earth

ground wire (refer to

Figure 2.4 on page 20)

mounting slots

Backbox

Figure 2.1 Chassis Mounting in Backbox

MRP-2001 & MRP-2001E PN 53040:A 4/16/2007

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Installation

Backbox Mounting

Semi-Flush Mounting

Do not recess box more

than 3.875” into wall to

avoid covering venting

holes on top of box.

Hinge Slot for

optional Dress Panel

Mounting

slots for

optional

Trim Ring

Semi-Flush

mounting hole

Hinge Slot for optional

Dress Panel

Figure 2.2 Cabinet Dimensions

MRP-2001 & MRP-2001E PN 53040:A 4/16/2007

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Backbox Mounting

Installation

Figure 2.3 Backbox

MRP-2001 & MRP-2001E PN 53040:A 4/16/2007

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Installation

Operating Power

2.2 Operating Power

WARNING: 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.

Primary Power Source (AC) and Earth Ground Connections

AC power connections are made inside the control panel cabinet. The primary power source for the

panel is 120 VAC, 60 Hz, 3.66 amps for the MRP-2001 or 240 VAC, 50 HZ, 2.085 amps for the

MRP-2001E. Run a pair of wires (with ground conductor) from the protected premises main

breaker box to the AC terminal block TB1 on the main power supply. As per the National

Electrical Code, use 14 AWG (2.00 mm², 1.6 mm O.D.) or heavier gauge wire with 600V

insulation. No other equipment may be connected to this circuit. In addition, this circuit must be

provided with overcurrent protection and may not contain any power disconnect devices. A

separate Earth Ground connection must be made to ensure proper panel operation and lightning and

transient protection. Connect the Earth Ground wire [minimum 14 AWG (2.00 mm²)] to the

grounding stud in the backbox. Do not use conduit for the Earth Ground connection since this does

not provide reliable protection.

Secondary Power Source (Batteries)

Observe polarity when connecting the battery. Connect the battery cable to J12 on the main circuit

board using the plug-in connector and cable provided. The battery charger is current-limited and

capable of charging sealed lead acid batteries. The charger shuts off when the system is in alarm.

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.

120 VAC Power

Hot (L1)

Ground

Neutral (L2)

Ground Wire

J12

Batteries

Figure 2.4 Operating Power Connections

MRP-2001 & MRP-2001E PN 53040:A 4/16/2007

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Input Circuits

Installation

2.3 Input Circuits

The MRP-2001 has six programmable IDCs (Initiating Device Circuits). Each circuit is compatible

with System Sensor’s i³smoke detectors which generate a maintenance signal when the detector

becomes dirty and a separate supervisory ‘freeze’ signal when ambient temperature falls below the

detector rating of approximately 45^oF. The maximum loop resistance limit for each IDC is 100

ohms. The maximum number of detectors per zone is 25. The field wiring for each zone is

supervised for opens, shorts and ground faults. All conditions are visually and audibly

annunciated.

Each circuit is configured for Style B (Class B) operation and will accept i³smoke detectors, any

normally-open contact devices as well as conventional 2-wire or 4-wire, 24 VDC smoke detectors.

Refer to the Device Compatibility Document for a list of compatible devices.

Initiating Device Circuits can be converted to Style D (Class A) by installing the optional Class A

Converter module. Refer to "CAC-5X Class A Converter Module" on page 26.

Class B Initiating Device Circuits (supervised and power-limited) 4.7 KΩ, ½ watt resistor P/N:71252

UL listed Power Supervision Relay

(refer to Device Compatibility Document for list of compatible relays)

UL listed compatible 4-wire smoke detector

Input IDC

Waterflow Circuit

Normally Open

Waterflow

Devices or

Pressure Switches

manual pull stations

Resettable 24 VDC

4-wire smoke

detector power

manual

release

heat detectors

(500 mA maximum)

Dummy load all unused

circuits - 4.7 KΩ, ½ watt

resistor (P/N: 71245)

Figure 2.5 IDC Connections

MRP-2001 & MRP-2001E PN 53040:A 4/16/2007

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Installation

Input Circuits

Combination Waterflow/Supervisory Zone

A combination Waterflow/Supervisory circuit allows an FACP to distinguish between an Alarm

switch (waterflow device) and a Supervisory switch (tamper) installed on the same circuit. Any

circuit can be programmed as a Combo Type zone. The following figure illustrates the wiring of

Zone 2 as a Style B (Class B) Waterflow/Supervisory circuit.

Class B Initiating Device Circuits (supervised and power-limited)

4.7 KΩ, ½ watt resistor P/N:71252

Supervisory Switch

(tamper)

In-Line-Resistor

1.2 KΩ, ½ watt resistor P/N: 75579

Alarm Switch

(waterflow)

Dummy load all unused

circuits - 4.7 KΩ, ½ watt

resistor (P/N: 71245)

Figure 2.6 Style B Combination Circuit on Zone 2

Requirements for the Combination Waterflow/Supervisory circuit are as follows:

ꢀ The Waterflow Alarm Switch must connect to the FACP Initiating Device Circuit before

the In-Line Resistor as shown in Figure 2.6

ꢀ The Supervisory Switch must connect to the FACP Initiating Device Circuit after the In-

Line Resistor as shown in Figure 2.6

ꢀ Program the FACP Initiating Device Circuit as a Combination circuit as described in

"Input Zones" on page 50. Note that since a Waterflow Supervisory Switch is included in

a Combination circuit, the waterflow delay must be taken into consideration. Refer to

"Waterflow Delay" on page 66.

ꢀ Waterflow Alarm Switch activation causes the panel to latch into alarm until the alarm

condition is cleared and the FACP is reset

ꢀ Supervisory Switch activation causes the panel to latch the supervisory condition if the

Combo type code is selected or track (the panel will clear when the supervisory condition

is cleared) if the Combo Autoresettable Supervisory type code is selected

MRP-2001 & MRP-2001E PN 53040:A 4/16/2007

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Output Circuits

Installation

2.4 Output Circuits

2.4.1 Outputs/Notification Appliance/Releasing Circuits

Each of the four Style Y (Class B) Notification Appliance Circuits can output a maximum of 3.0

amps of current. Total current drawn from these as well as other DC power outputs cannot exceed

7.0 amps (refer to battery calculations section). Each circuit is supervised, power-limited and

provides special application power. Refer to the Device Compatibility Document for a listing of

compatible notification appliances.

The NACs can be converted to Style Z (Class A) by installing two optional Class A Converter

module. Refer to "CAC-5X Class A Converter Module" on page 26.

Class B Notification Appliance Circuits (supervised and power-limited)

4.7 KΩ, ½ watt resistor P/N:71252

Polarized Bell

Polarized Strobe

Polarized Horn

Polarized Strobe

Polarized Horn

Releasing Solenoid

Dummy load any unused

circuits (P/N: 71245)

Notification Appliance Circuits

polarity shown in alarm condition

Ferrite Beads

P/N 29150

Ferrite Bead

P/N 29150

- +

Note: Short Circuit Supervision must be enabled when using the

REL-4.7K for Canadian Applications. Refer to the section titled

"Release Circuit 1 or Release Circuit 2" on page 58 for information

on enabling short circuit supervision.

Ferrite Bead (P/N 29150)

Large gauge wire

should be looped

through bead at least

once as illustrated.

Smaller gauge wire can

be looped more often.

Ferrite Bead in open position

Ferrite Bead in closed position

Figure 2.7 NAC/Output Connections

MRP-2001 & MRP-2001E PN 53040:A 4/16/2007

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Installation

Output Circuits

2.4.2 Special Application DC Power Output Connections

Special Application Resettable and Nonresettable 24 VDC power is available on the MRP-2001

control panel.

Special Application

4-Wire Smoke Detector Power (500 mA)

24 VDC filtered, resettable power for 4-wire smoke detectors

can be obtained from these terminals (power-limited)

Special Application

Resettable or Nonresettable Power (500 mA)

24 VDC filtered, resettable or nonresettable power can be

obtained from these terminals (power-limited)

•

Jumper JP31 pins 1 & 2 for nonresettable power (as

illustrated in figure to right)

•

Jumper JP31 pins 2 & 3 for resettable power

Figure 2.8 Special Application Auxiliary Power

2.4.3 Relays - Programmable

The MRP-2001control panel provides a factory default programmed alarm relay, fail-safe trouble

relay and supervisory relay. Each relay can be programmed to activate for other conditions (refer

to "On-Board Relays" on page 64). Each Form-C relay is rated for 2 amps @ 30VDC (resistive)

and 0.5 amps @ 30 VAC (resistive).

Note that relay connections must be power-limited.

Note: Relay contacts are shown with

power applied to the panel and no active

troubles, alarms or supervisories.

The Trouble Relay is a fail-safe relay

which will transfer on any trouble or

total power failure.

Figure 2.9 Relay Terminals

MRP-2001 & MRP-2001E PN 53040:A 4/16/2007

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Power-limited Wiring Requirements

Installation

2.5 Power-limited Wiring Requirements

Power-limited and nonpower-limited circuit wiring must remain separated in the cabinet. All

power-limited circuit wiring must remain at least 0.25” (6.35 mm) away from any nonpower-

limited circuit wiring. Furthermore, all power-limited and nonpower-limited circuit wiring must

enter and exit the cabinet through different knockouts and/or conduits. A typical wiring diagram is

illustrated below.

*Note: In certain applications, an NAC (power-limited circuit) could be adjacent

to a releasing circuit (nonpower-limited without supervision kit REL-4.7K)

Nonpower-limited Circuits*

Power-limited Circuits

(Class 2)

Power-limited Circuits (Class 2)

Power-limited

Circuits

(Class 2)

CAC-5X

AC Power

120 VAC

Hot (L1)

Ground

Neutral (L2)

4XTMF

Nonpower-

limited

Circuit

earth

ground

Nonpower-

limited

Circuit

Power-limited

Circuit

(Class 2)

Deluge - Preaction Control FACP

Figure 2.10 Typical UL Power-limited Wiring Requirements

MRP-2001 & MRP-2001E PN 53040:A 4/16/2007

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Installation

Installation of Optional Modules

2.6 Installation of Optional Modules

CAUTION: Remove all power (AC and DC) before installing or removing modules or wiring.

2.6.1 CAC-5X Class A Converter Module

2.6.1.1 Installation

The CAC-5X Module can be used to convert five Style B (Class B) Initiating Device Circuits to

Style D (Class A) and the two Style Y (Class B) Notification Appliance Circuits to Style Z

(Class A). Two CAC-5X Modules are required to convert all Output Circuits and/or Initiating

Device Circuits to Class A. The modules plug into connector J2 which is located at the top left

of the main circuit board and J7 which is located at the top center of the main circuit board.

To install the CAC-5X, remove the two main circuit board mounting screws referenced in the

following illustration and replace with the two supplied male/female standoffs in the locations

indicated in the following figure. Carefully align the connector on the CAC-5X with J2 on the

FACP main circuit board and press the module securely into place. Make certain the pins are

properly aligned to prevent bending or breaking of any connector pins. Secure the CAC-5X to

the standoffs with the screws that were just removed.

To install the second CAC-5X on J7, remove the main circuit board mounting screw referenced

in the following illustration and replace with the supplied male/female standoff. Insert the

supplied plastic standoff in the location indicated in the following illustration. Carefully align

the connector on the CAC-5X with J7 and press the module securely into place. Make certain

the pins are properly aligned to prevent bending or breaking of any connector pins. Secure the

CAC-5X to the metal standoff with the screw that was just removed.

Installation on J7 Connector

Installation on J2 Connector

CAC-5X Module

Metal

Standoff

Metal

Standoff

Metal

Standoff

Plastic

Standoff

Main Circuit Board

Figure 2.11 CAC-5X Module Installation

MRP-2001 & MRP-2001E PN 53040:A 4/16/2007

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Installation of Optional Modules

Installation

2.6.1.2 Wiring NACs and IDCs for Class A

Wire the Style Z (Class A) Notification Appliance Circuits using TB5 of the FACP main circuit

board and TB2 of the CAC-5X module. Wire the Style D (Class A) Initiating Device Circuits

using TB4 of the FACP main circuit board and TB1 of the CAC-5X. Note that the wiring will

be identical when using TB7 NAC and TB6 IDC of the FACP. Make certain to observe polarity

when connecting the devices to the circuits. The B+ and A+ terminals must comprise the feed

and return for the positive side of a device and the B- and A- terminals must comprise the feed

and return for the negative side of a device. To configure any of the zones for Class B when the

CAC-5X is installed, simply wire to the B+ and B- input on the FACP terminal(s) and install the

End-of-Line Resistor after the last device on the circuit. Do not wire to the corresponding A+

and A- terminals on the CAC-5X module.

Class B (Style B) IDC - 4.7 KΩ

½ watt ELR resistor

P/N:71252 (supervised and power-limited)

Class A (Style D) IDC

(supervised and power-limited)

Smoke

Class A (Style Z) NAC

(supervised and power-limited)

Polarized

Bell

Pull Station

Polarized

Strobe

Heat

Polarized

Horn

Ferrite Bead

P/N 29150

Dummy load all unused

circuits - 4.7 KΩ

½ watt ELR resistor

Circuit polarities

shown in alarm

condition

B+ B- B+ B- B+ B- B+ B- B+ B-

(P/N: 71245)

B+ B-

FACP Main

Circuit Board

A+ A-

A+ A- A+ A- A+ A- A+ A- A+ A-

CAC-5X Class A Converter Module

Large gauge wire should be looped through

bead at least once as illustrated. Smaller

gauge wire can be looped more often.

Ferrite Bead in open position

Ferrite Bead in closed position

Figure 2.12 Wiring NACs and IDCs for Class A Operation

MRP-2001 & MRP-2001E PN 53040:A 4/16/2007

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Installation

Installation of Optional Modules

2.6.2 4XTMF Municipal Box Transmitter Option Module

The 4XTMF module can be plugged into connectors J4 and J5 on the main circuit board.

The following steps must be followed when installing the 4XTMF module:

1. Remove all power (AC and DC) from the FACP before installing the modules

2. Cut jumper JP30 on the main circuit board to allow the control panel to supervise the

placement of the 4XTMF option module

3. Install the two supplied metal standoffs in the locations indicated. These standoffs provide

the required earth ground protection

4. Carefully plug the connectors on the option module into connectors J4 and J5 on the FACP

main circuit board, being careful not to bend any pins

5. Secure the option module to the standoff on the main circuit board with the supplied screws

6. When the installation has been completed, connect the wiring to the modules as indicated in

the following sections

7. Test system for proper operation

Standoffs

Figure 2.13 4XTMF Option Module Connection

MRP-2001 & MRP-2001E PN 53040:A 4/16/2007

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Installation of Optional Modules

Installation

2.6.2.1 4XTMF Transmitter Module Installation

The 4XTMF provides a supervised output for a local energy municipal box transmitter in

addition to alarm and trouble reverse polarity. A jumper option allows the reverse polarity

circuit to open with a system trouble condition if no alarm condition exists. A disable switch

allows disabling of the transmitter output during testing to prevent accidental calling of the

monitoring service.

Local Energy Municipal Box Service (NFPA 72 Auxiliary Fire Alarm Systems):

Supervisory Current: 5.0 mA

Trip Current: 350 mA (subtracted from notification appliance power)

Coil Voltage: 3.65 VDC

Maximum Coil Resistance: 14.6 ohms

Maximum allowable wire resistance between panel and trip coil: 3 ohms

Municipal Box wiring can leave the building

Remote Station Service (NFPA 72 Remote Station Fire Alarm Systems) - Intended for

connection to a polarity reversal circuit or a Remote Station receiving unit having

compatible ratings:

Maximum load for each circuit: 10 mA

Reverse polarity output voltage: 24 VDC

Remote Alarm and Remote Trouble wiring can leave the building

Before installing the module, place the disconnect switch to the down (disconnect) position to

prevent accidental activation of the municipal box. Note that a Disconnect LED will illuminate

after the module is installed in the FACP. In addition, the System Trouble indicator will turn on

to indicate the Disconnect condition.

Note: 4XTMF Module is not directly suitable for transmitting reverse polarity

supervisory signal. For an application using reverse polarity of a supervisory signal,

refer to the Appendix titled "FACP with Keltron" on page 123.

Polarities are shown for module activation

TB1

}Remote Alarm (power-limited)*

}Remote Trouble (power-limited)*

No connection

}Municipal Box (nonpower-limited)*

* Wiring from these terminals can

exit the protected premises.

TBL Jumper

TBL

Dummy load terminals 6 and 7

(4.7kΩ, ¼ watt resistor) if

Municipal Box is not connected.

Disconnect

Switch

shown in

disconnect

position

Disconnect LED

Connect to FACP Connectors J4 & J5

Figure 2.14 4XTMF Transmitter Module

MRP-2001 & MRP-2001E PN 53040:A 4/16/2007

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Installation

ANN-BUS Devices

2.7 ANN-BUS Devices

WARNING! Disconnect all sources of power (AC and DC) before installing or removing any

modules or wiring.

A variety of optional devices can be connected to the FACP ANN-BUS communication circuit.

Compatible devices include:

•

ANN-80 LCD Annunciator

ANN-S/PG Serial/Parallel Printer Interface Module

ANN-I/O LED Driver Module

ANN-LED Annunciator Module (annunciates alarms, troubles and supervisories)

ANN-RLED Annunciator Module (annunciates alarms only)

ANN-RLY Relay Module

2.7.1 ANN-BUS Wiring

This section contains information on calculating ANN-BUS wire distances and the types of wiring

configurations (Class B).

2.7.1.1 Calculating Wiring Distance for ANN-BUS Modules

The following instructions will guide the installer in determining the type of wire and the

maximum wiring distance that can be used with FACP ANN-BUS accessory modules.

To calculate the wire gauge that must be used to connect ANN-BUS modules to the FACP, it is

necessary to calculate the total worst case current draw for all modules on a single 4-conductor

bus. The total worst case current draw is calculated by adding the individual worst case

currents for each module. The individual worst case values are shown in the following table:

Model Number

ANN-80 LCD Annunciator

Worst Case Current Draw

0.040 amps

ANN-S/PG Serial/Parallel Printer Interface Module

ANN-I/O LED Driver Module

0.040 amps

0.200 amps

ANN-(R)LED Annunciator Module

ANN-RLY Relay Module

0.068 amps

0.075 amps

Note: Total worst case current draw on a single ANN-BUS cannot exceed 0.5 amp.

MRP-2001 & MRP-2001E PN 53040:A 4/16/2007

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ANN-BUS Devices

Installation

After calculating the total worst case current draw, Table 2.1 specifies the maximum distance

the modules can be located from the FACP on a single wire run. The table ensures 6.0 volts of

line drop maximum. In general, the wire length is limited by resistance, but for heavier wire

gauges, capacitance is the limiting factor.

These cases are marked in the chart with an asterisk (*). Maximum length can never be more

than 6,000 feet (1,800 m), regardless of gauge used. The formula used to generate this chart is

shown in the note below.

Wiring Distance: ANN-BUS Modules to FACP

Total Worst Case Current

22 Gauge

18 Gauge

16 Gauge

14 Gauge

Draw (amps)

0.100

1,852 ft.

926 ft.

617 ft.

463 ft.

370 ft.

4,688 ft.

2,344 ft.

1,563 ft.

1,172 ft.

938 ft.

* 6,000 ft.

3,731 ft.

2,488 ft.

1,866 ft.

1,493 ft.

*6,000 ft.

5,906 ft.

3,937 ft.

2,953 ft.

2,362 ft.

0.200

0.300

0.400

0.500

Table 2.1 Wiring Distances

Note: The following formulas were used to generate the wire distance chart:

Maximum Resistance (Ohms)

6.0 Volts

Total Worst Case Current Draw (amps)

Maximum Wire Length (feet)

(6,000 feet maximum)

Maximum Resistance (Ohms)

Rpu

*500

where: Rpu = Ohms per 1,000 feet for various Wire Gauges (see table below)

Wire Gauge

Ohms per 1,000 feet (Rpu)

16.2

6.4

4.02

2.54

Exception: When using the ANN-RLY module, the installer must ensure that the maximum

24VDC power line drop does not exceed 0.3 volts. This results in the following wiring

limitations:

Wire Gauge

Maximum Wire Length

312 feet

497 feet

787 feet

1,250 feet

MRP-2001 & MRP-2001E PN 53040:A 4/16/2007

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Installation

ANN-BUS Devices

Wiring Distance Calculation Example:

Suppose a system is configured with the following ANN-BUS modules:

•

2 ANN-80 Remote LCD Annunciators

1 ANN-S/PG Serial/Parallel Printer Interface Module

1 ANN-I/O LED Driver Module

The total worst case current is calculated as follows:

ANN-80 Current Draw

ANN-S/PG Current Draw

ANN-I/O Current Draw

= 2 X 0.040 amps

= 1 X.0.040 amps

= 1 X.0.200 amps

= 0.080 amps

= 0.040 amps

= 0.200 amps

= 0.320 amps

Total Worst Case Current Draw

Using this value and referring to the Wiring Distance Table 2.1 on page 31, it can be found that

the available options are:

ꢀ 463 feet maximum using 22 Gauge wire

ꢀ 1,172 feet maximum using 18 Gauge wire

ꢀ 1,866 feet maximum using 16 Gauge wire

ꢀ 2,953 feet maximum using 14 Gauge wire

2.7.1.2 Wiring Configuration

Figure 2.15 illustrates the wiring between the FACP and ANN-BUS devices.

FACP

TB3

ANN-BUS and power wiring are

supervised and power-limited

ANN-80

Figure 2.15 FACP wiring to ANN-BUS Device

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ANN-BUS Devices

Installation

2.7.1.3 Powering ANN-BUS Devices from Auxiliary Power Supply

Figure 2.16 illustrates the powering of ANN-BUS devices from an auxiliary power supply such

as the FCPS-24FS6/8, when the maximum number of ANN-BUS devices exceeds the ANN-

BUS power requirements.

Cut Ground Fault Detection jumper JP1 (FACP monitors for ground faults)

TB3

FACP

ANN-BUS

-24 VDC

ANN-80

+24 VDC

ANN-BUS and power wiring are

supervised and power-limited

FCPS-24FS6/8

Figure 2.16 Powering ANN-BUS Devices from FCPS-24FS6/8

2.7.2 ANN-BUS Device Addressing

Each ANN-BUS device requires a unique address (ID Number) in order to communicate with the

FACP. A 5-position DIP switch on each device is used to set this address. The address set for these

devices must also be programmed at the FACP for the specific device (refer to the programming

section titled "ANN-BUS" on page 71).

A maximum of 8 devices can be connected to the FACP ANN-BUS communication circuit. Device

addresses do not need to be sequential and can be set to any number between 01 and 08. Note that

00 is not a valid address. The following table shows the DIP switch setting for each address.

Note: address (ID Number) DIP switches on some devices may have more than 5 switch positions.

Unless otherwise specified in the documentation supplied with each device, switch positions 6 and

above must be set to OFF.

Address

Switch 5

OFF

Switch 4

OFF

Switch 3

OFF

Switch 2

OFF

Switch 1

OFF

not valid

OFF

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Installation

ANN-BUS Devices

2.7.3 ANN-80 Remote LCD Annunciator

The ANN-80 LCD Annunciator is a compact, 80 character, backlit LCD remote fire annunciator

which mimics the FACP display. It also provides system status indicators for AC Power, Alarm,

Trouble, Supervisory and Alarm Silenced conditions. Communication between the ANN-80 and

FACP is accomplished over a two wire serial interface employing the ANN-BUS communication

format. The devices are powered, via two additional wires, from either the host FACP or remote

UL-listed, filtered, power supply.

2.7.4 Specifications

•

Operating Voltage Range: 18 VDC to 28 VDC

Current Consumption @ 24 VDC nominal (filtered and nonresettable):

ꢀ Normal/Standby (no activity): 37.0 mA

ꢀ Trouble: 39.0 mA

ꢀ Alarm: 40.0 mA

ꢀ AC Fail (not backlit): 15.0 mA

•

For use indoors in a dry location

2.7.5 Installation

Ensure that all power (AC and DC) has been removed from the FACP before installing the

annunciator.

2.7.5.1 Mounting

The ANN-80 can be surface or semi-flush mounted to a single, double or 4” square electrical

box. Select and remove the appropriate knockout(s), pull the necessary wires through the

knockouts and mount the annunciator in or on the wall depending on the type of installation

desired.

The ANN-80 cover must be attached to the annunciator backplate before mounting the

annunciator to the electrical box/wall. The cover cannot be reattached or removed after the

annunciator has been mounted.

2.7.5.2 Opening/Closing Annunciator

The following procedure details the steps used to open the annunciator in order to access the

terminal block and DIP switches (refer to figure below):

1. Turn the key switch to the ON (Unlocked) position by turning the key counter-clockwise

2. Push in the snap latch located on the right side of the unit while pulling the cover open

3. To close the cover, make certain the key switch is in the ON (Unlocked) position. Swing the

cover closed, snapping it shut

4. Turn the key switch to the OFF (Locked) position by turning clockwise and remove the key

Annunciator cover with LCD display

Annunciator backplate

Press in latch and pull

annunciator cover open

Key switch shown in ON position

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ANN-BUS Devices

Installation

2.7.5.3 Wiring ANN-80 to FACP

The following steps can be used as a guide to wire the annunciator. Make certain all power has

been removed from the FACP prior to annunciator installation.

1. Route wires from hole in backplate, through wiring channel and then to ANN-80 terminal

block TB1

wiring channel

wires

TB1

2. Remove appropriate amount of wire insulation

3. Connect the wiring from the FACP ANN-BUS to annunciator TB1 terminals 3 (A) & 4 (B).

Make certain to connect A to A and B to B

4. If appropriate, connect the wiring going to the next device on the ANN-BUS to TB1

terminals 3 & 4. Make certain to connect A to A and B to B

5. Connect the wiring from the 24 VDC power source to annunciator TB1 terminals 1 (-) & 2

(+). Make certain to observe proper polarity

6. If appropriate, connect the power wiring going to the next device to terminals

1 (-) & 2 (+). Make certain to observe proper polarity

7. After all connections are made, remove extra wire from inside of annunciator by dressing it

neatly through wire channel, with any excess wire pushed back through hole into electrical

box

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Installation

ANN-BUS Devices

FACP

TB3

4 3 2 1

ANN-BUS and power wiring are

supervised and power-limited

ANN-80

Figure 2.17 ANN-80 Wiring to FACP

The following table shows the ANN-80 connections to the FACP.

FACP (TB3)

ANN-80 (TB1)

Terminal 4 GND (-)

Terminal 1 (-)

Terminal 2 (+)

Terminal 3 (A)

Terminal 4 (B)

Terminal 3 PWR (+)

Terminal 2 A (ANN-BUS)

Terminal 1 B (ANN-BUS)

Programming

Following installation and wiring of the ANN-80 LCD annunciator to the FACP, the annunciator

must be added to the system via FACP programming. Refer to the programming section titled

"ANN-BUS" on page 71 in this manual for detailed programming information. Select the LCD

option for programming.

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ANN-BUS Devices

Installation

2.7.6 ANN-S/PG Serial/Parallel Printer Interface Installation

The ANN-S/PG Serial/Parallel Interface module allows the ancillary connection of a serial or

parallel printer to the FACP for a real-time log of system events, detector status reports and event

history. Note that either a serial or parallel printer may be installed, not both. Proceed with the

installation as described in the following:

1. Ensure that all power (AC and DC) has been removed from the FACP.

2. Connect the ANN-S/PG to the FACP as illustrated in Figure 2.18

TB3

FACP

ANN-S/PG Module

Parallel

Cable

ANN-BUS and power wiring are

supervised and power-limited

Connectors for

connection to

printer

Serial

Figure 2.18 ANN-S/PG Connection to FACP

3. Using the DIP switches on the back of the ANN-S/PG module, assign an ID number

(address) to the module

4. Select the address and configuration options for the ANN-S/PG module as described in the

Programming section of this manual (refer to "ANN-BUS" on page 71)

Note that the Auto-configure feature allows the programmer to quickly bring all installed

ANN-BUS modules online (refer to "Auto-Configure" on page 73)

5. Connect a printer to the ANN-S/PG Parallel or Serial connector (refer to Figure 2.18 on page

37)

2.7.6.1 Specifications

•

Operating Voltage: 24 VDC

Current (Alarm and Standby): 45 mA

Ambient Temperature: 32^oF to 120^oF (0^oC to 49^oC)

Max. Wiring Distance from FACP: 6,000 ft. (1,800 m)

Mounting: Surface

Dimensions: 6”W x 7-3/4”H x 1-7/16”D (15.2 cm W x 19.7 cm H x 3.7 cm D)

For indoor use in a dry location only

2.7.6.2 PRN-6 Printer Installation

When connected to the FACP via the ANN-S/PG module, the PRN-6 prints the status changes

within the control panel and time-stamps the printout with the time of day and date that the

event occurred. It provides 80 columns of data on standard 9” x 11” tractor-feed paper. This

section contains information on connecting a printer to the control panel and setting the printer

options.

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Installation

ANN-BUS Devices

2.7.6.2.1 Connecting PRN-6 Printer

Remote printers require a primary AC power source. If required for the fire alarm system

configuration (for example, a Proprietary Fire Alarm System), a remote printer requires a

secondary power source (battery backup). Since a secondary power source is not provided as a

standard feature, a separate UL-listed Uninterruptible Power Supply (UPS) should be used.

The building emergency power supply may be used, as long as it meets the power continuity

requirements of NFPA 72. Refer to NFPA 72 for further details.

Connect the remote printer to the FACP via the ANN-S/PG module using a standard DB-25

cable. One end of the cable will plug into the DB-25 connector on the PRN printer and the

other end plugs into the parallel connector on the ANN-S/PG module. Note that the 9-pin DB-

9 port on the ANN-S/PG is used to connect a serial printer. The 25-pin port is used for a

Centronics parallel printer cable. Connect either a serial or parallel printer, but not both at the

same time.

2.7.6.2.2 Setting Printer Options

Refer to the documentation supplied with the PRN printer for instructions on using the printer

menu controls. Set the printer options (under the menu area) as shown in the following table:

Table 2.2 PRN-6 Setup Options

Option

Font

LPI

Setting

HS Draft

6 LPI

Option

CPI

Skip

Setting

10CPI

0.5

ESC Character

Bidirectional Copy

CG-TAB

Country

Auto CR

Color Option

Formien

ESC

Graphic

E-US ASCII

OFF

Emulate

I/O

Buffer

Serial

Baud

Format

Protocol

Character Set

SI.Zero

Auto LF

PAPER

BIN 1

Epson FX-850

40K

9600 or 2400

7 Bit, Even, 1 Stop

XON/XOFF

Standard

Not Installed

Lines

Standard

6LPI=60

Exec 10.5

12/72”

BIN 2

SINGLE

PUSH TRA

PULL TRA

PAP ROLL

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ANN-BUS Devices

Installation

2.7.7 ANN-I/O LED Driver Module

The ANN-I/O is an LED driver module that can be used in a wide variety of applications, including

as an interface with most customized graphic annunciators. The ANN-I/O can drive up to 40

LEDs. The following sections describe hardware installation. Refer to the section titled "ANN-

BUS" on page 71 for programming information.

2.7.7.1 ANN-I/O Board Layout

Figure 2.19 illustrates the ANN-I/O board showing locations of screw terminals for connection

to the FACP, pin connectors for connecting LEDs and the DIP switch for selecting the ANN-

BUS ID number.

Terminals not used (future)

ANN-BUS (ID#)

Address DIP

switch

ANN-BUS Connector

Figure 2.19 ANN-I/O Board Layout

2.7.7.2 Specifications

•

Max. ANN-BUS Voltage: 28 VDC

Max. Current:

ꢀ Alarm: 200 mA

ꢀ Standby: 35 mA

ꢀ Each LED: 10 mA

•

Operating Temperature: 32^oF to 120^oF (0^oC to 49^oC)

For indoor use in a dry location only

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Installation

ANN-BUS Devices

2.7.7.3 ANN-I/O Connection to FACP

The ANN-I/O connects to the FACP via the ANN-BUS as illustrated in Figure 2.20. After the

ANN-I/O is connected to the panel, it must be added to the system via FACP programming.

TB3

ANN-I/O Module

FACP

ANN-BUS and power wiring are

supervised and power-limited

Figure 2.20 ANN-I/O Connection to FACP

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ANN-BUS Devices

Installation

2.7.7.4 ANN-I/O Module LED Wiring

There are four 12-pin connectors on the ANN-I/O module for connecting LEDs. Each set of 10

LEDs get their power from Pin 11 of the corresponding connector. Internal resistors are sized

so that there is approximately 10 mA of current for each LED. No series resistors are required.

LED outputs are mapped to output circuits. Refer to the section titled "ANN-I/O LED Zone

Assignments" on page 75 of this manual.

The LEDs are wired as illustrated in Figure 2.21. Note that the illustration depicts only

connectors P1 and P2. Wiring is identical for P3 (LEDs 21-30) and P4 (LEDs 31-40).

Figure 2.21 ANN-I/O Board Layout

2.7.8 ANN-LED Annunciator Module

The ANN-LED annunciator modules provide LED annunciation of general system faults and input

zones when used with a compatible FACP. The ANN-LED module provides alarm (red), trouble

(yellow) and supervisory (yellow) indication for up to ten input zones.

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ANN-BUS Devices

2.7.8.1 ANN-LED Board Layout

Figure 2.22 illustrates the ANN-LED board showing locations of screw terminals for

connection to the FACP and the DIP switches for selecting the ANN-BUS ID number.

ANN-BUS (ID#)

Address DIP switch

ANN-BUS Connector

Figure 2.22 ANN-LED Board Layout

2.7.8.2 Specifications

Max. ANN-BUS Voltage: 24 VDC

Max. Current:

•

ꢀ Alarm: 68 mA

ꢀ Standby: 28 mA

•

Operating Temperature: 32 F to 120 F (0 C to 49 C)

For indoor use in a dry location only

2.7.8.3 Mounting/Installation

Install the ANN-LED Module as described in the documentation supplied with the annunciator.

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ANN-BUS Devices

Installation

2.7.8.4 ANN-LED Connection to FACP

Figure 2.23 illustrates the ANN-LED board showing locations of screw terminals for

connection to the FACP and the DIP switches for selecting the ANN-BUS ID number.

FACP

ANN-LED

-24 VDC

+24 VDC

ANN-BUS

Figure 2.23 ANN-LED Connection to FACP

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Installation

ANN-BUS Devices

2.7.9 ANN-RLY Relay Module

The ANN-RLY relay module provides 10 programmable Form-C relays when used with a

compatible FACP.

2.7.9.1 ANN-RLY Board Layout

Figure 2.22 illustrates the ANN-RLY board showing locations of screw terminals for

connection to the FACP and the DIP switches for selecting the ANN-BUS ID number.

ANN-BUS (ID#)

Address DIP switch

ANN-BUS Connector

Figure 2.24 ANN-RLY Board Layout

2.7.9.2 Specifications

•

Operating Voltage: 24 VDC

Max. Current:

ꢀ Alarm: 75 mA

ꢀ Standby: 15 mA

•

Relay Contact Ratings:

ꢀ 2.0 amps @ 30 VDC (resistive)

ꢀ 0.5 amps @ 30 VAC (resistive)

•

Operating Temperature: 32 F to 120 F (0 C to 49 C)

For indoor use in a dry location only

2.7.9.3 Mounting/Installation

The ANN-RLY relay module can be mounted inside the FACP main circuit board chassis.

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ANN-BUS Devices

Installation

2.7.9.4 ANN-RLY Connection to FACP

Figure 2.23 illustrates the ANN-RLY board showing locations of screw terminals for

connection to the FACP and the DIP switches for selecting the ANN-BUS ID number.

FACP

ANN-RLY

-24 VDC

+24 VDC

ANN-BUS

Figure 2.25 ANN-RLY Connection to FACP

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Programming

User Programming

SECTION 3

Programming

NOTICE TO USERS, INSTALLERS, AUTHORITIES HAVING JURISDICTION AND OTHER INVOLVED PARTIES

This product incorporates field-programmable software. In order for the product to comply with the requirements in the

Standard for Control Units and Accessories for Fire Alarm Systems, UL 864, certain programming features or options must be limited

to specific values or not used at all as indicated below.

Program feature or option

Permitted in UL 864? (Y/N)

Possible settings

Settings permitted in UL 864

ANN-80 Lock Enable

Lock Enable Yes

Lock Enable No

Lock Enable Yes

Refer to Lock Enable in

"ANN-80 Options" on page 76

3.1 User Programming

The FACP is completely field programmable using the panel keypad and requires no special

software skills. While programming the FACP, the fire protection capabilities of the control panel

are enabled.

Program Templates have been provided to allow the panel to be quickly programmed with typical

job-site configurations. Refer to "Circuit Mapping and Cross-Zoning" on page 103 for an

explanation of mapping and cross-zoning and "FACP Configuration Templates" on page 108 for a

detailed description of each template.

Site-specific programming may be accomplished:

•

by Manual programming or editing, using the FACP keypad

The System All Normal screen will be displayed in a programmed system with no active alarms,

troubles or supervisories, as illustrated below:

SYSTEM ALL NORMAL

10:00A 092105

Read Status mode can be entered while the panel is in any mode of operation. If an alarm or

supervisory event exists at the panel, the event must be cleared before entering Programming mode.

The exception to this is the programmer/operator can access Programming mode if the supervisory

is due to the Disable Release event. Refer to Table 3.1 on page 52.

To access any of the programming or read status features, the Enter or Mode key must be pressed,

which will cause the LCD to display the following:

WATER RELEASE PANEL

1=READ STATUS MODE

2=PROGRAMMING MODE

Pressing 1, while this screen is being displayed, will cause the control panel to enter the Read

Status Mode which allows the user to view the programmed features and status of the control panel

The Read Status feature is not password protected. Refer to "Read Status" on page 92 for a

detailed description of this feature.

ꢀ

See Page

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Initial Power-up

Programming

Pressing 2 will select user Programming Mode which may only be accomplished by an authorized

person. After pressing 2, a screen will prompt for a password. After entering the correct password,

the user may select from a list of programming options.

Exit Programming and Read Status Mode

The programmer can exit any mode by repeatedly pressing the keypad ESC (Escape) key until the

display reads System All Normal. Note that the data which is entered during Programming mode

is automatically saved by the panel as soon as the data is entered. If the Reset key is pressed or

power is lost before exiting Programming mode, all data just entered will not be lost.

User Programming Levels

There are two user programming levels:

•

User Master Program Level 1 is used for programming panel specific data relating to device

types, zoning, messages, control panel functions, etc.

•

User Maintenance Program Level 2 is used by a qualified operator to access features such as

Disable/Enable, View and Clear History, Walktest and System Time Change.

3.2 Initial Power-up

The following sections describe the initial programming procedures for a new system. The same

procedures are used to modify programming in an existing system.

After completing the wiring of devices to the FACP, apply power to the control panel. If wiring has

not been completed and/or End-of-Line resistors are not installed at the panel, a trouble condition

will be indicated at the panel and a trouble message will be displayed on the LCD. Following is an

example of a possible trouble message that may be displayed.

OPEN PULL STATION

ZONE 1 OPEN FAULT

09:03A 012106

3.3 Programming Screens Description

Two options are available when the Enter key is pressed: Read Status and Programming Mode.

The Read Status and Programming options have multiple functions or features which may be

chosen. To view all of the choices, it is necessary that the programmer scroll through a number of

additional subscreens. These selections are displayed on multiple screens to make them more

readable for the programmer. Refer to "Master Programming Level" on page 49, for additional

information on the various screens.

ꢀ

See Page

The title of the main option screen will always be displayed at the top of the subscreens for the

programmer’s convenience. If additional subscreens exist, an Up or Down arrow will be displayed

in the upper right corner of the screen being viewed. The programmer can then press the keypad

Up or Down arrow key to view the new subscreen. To select one of the choices in a screen, the

programmer presses the keypad numerical key corresponding to the desired choice.

Note that subscreens may also have multiple options which require viewing more than one screen.

The same process, as detailed in the previous paragraphs, is followed to view all option choices.

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Programming

Programming and Passwords

3.4 Programming and Passwords

There are two factory set programming passwords which will access the Programming screens as

indicated in the following examples. From either of the screens, access to specific system and

device features or programming may be obtained. All user programming entries are stored in

nonvolatile memory. The factory set passwords can be changed by the user as described in

"Password Change" on page 80. If an invalid password is entered, the blinking cursor will return to

the first password character position. To exit Programming or Read Status mode at any time, press

the ESC (Escape) key repeatedly. Note that as soon as program data is entered, the data is

automatically saved by the panel. If the Reset key is pressed or power is lost before exiting

Programming mode, the data just entered will not be lost.

ꢀ

See Page

To access user Programming mode, press the Enter or Mode key. The LCD will display the

following:

1=READ STATUS MODE

2=PROGRAMMING MODE

To enter the user Programming mode, press 2. The display will read as follows:

PROGRAMMING

ENTER PASSWORD

*****

Entering the Master level password (default 00000) will cause the following screen to appear:

PROGRAMMING

1=FACP CONFIG

2=INPUT ZONES

3=OUTPUT CIRCUITS

Programming Screen #1

If the Maintenance level password (default 11111) is entered, the following screen will appear:

PROGRAMMING

1=INPUT ZONES

2=HISTORY

3=WALKTEST

Note that in the two preceding screens, an arrow appears to inform the programmer that additional

options can be viewed by pressing the keypad down arrow key.

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Master Programming Level

Programming

3.5 Master Programming Level

When the Master Program Level password is entered, the control panel will enter user

Programming mode. In this mode, the piezo sounder remains off, the trouble relay is activated and

the system Trouble indicator flashes until Programming mode is exited. The following display will

appear:

PROGRAMMING

1=FACP CONFIG

2=INPUT ZONES

3=OUTPUT CIRCUITS

Programming Screen #1

The down arrow which appears in the display indicates that additional programming choices can be

viewed by pressing the down arrow key on the keypad. If a down and up arrow appear in the

display, pressing the ‘down’ arrow key will display the subsequent Programming Screens as

illustrated below while pressing the ‘up’ arrow key will display the previous screen.

PROGRAMMING

1=CROSS INPUT ZONES

2=ON-BOARD RELAYS

3=SYSTEM SETUP

Programming Screen #2

PROGRAMMING

1=ANN-BUS

2=HISTORY 256 EVENTS

3=WALKTEST

Programming Screen #3

PROGRAMMING

1=CLEAR PROGRAM

2=PASSWORD CHANGE

Programming Screen #4

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Programming

Master Programming Level

3.5.1 FACP CONFIG (Application Templates)

For a detailed description of each Template, refer to "FACP Configuration Templates" on page

108. The FACP Configuration option allows the user to program the FACP with one of seven

factory preprogrammed templates or one custom template which can be programmed by the user.

The templates have been provided to allow the user to quickly program the panel with typical job-

site configurations. The user may choose to select one of the templates or bypass this option,

proceeding to the next sections which detail customized programming of the FACP.

PROGRAMMING

A factory template may be chosen and later changed to better fit a site requirement. The changed

template can be saved as the one custom template.

1=FACP CONFIG USER

2=INPUT ZONES

3=OUTPUT CIRCUITS

Pressing 1, while viewing Programming Screen #1, will select the FACP Config option and display

Programming Screen #1

the following screen:

FACP CONFIG

1=N/A

2=N/A

3=N/A

FACP Config Screen #1

Pressing the down arrow key will display screens for additional Templates and the Custom

Template. During initialization of the panel following power-up or reset, the selected Template will

be displayed by the LCD.

Note: Only Templates 7 through 13 are available for the MRP-2001/E Pre-Action/Deluge Control

Panel.

To select a pre-programmed templates, press the number key corresponding to the desired template.

Note that the factory templates may pre-set most programmable features of the FACP.

3.5.2 Input Zones

The Input Zones option allows the user to initially program or change the programming for the six

input zones (circuits). Pressing 2, while viewing Programming Screen #1, will select the Input

Zones option and display a screen similar to the following:

INPUT ZONES

1=ZONE 1

2=ZONE 2

3=ZONE 3

Input Zone Screen #1

Pressing the down arrow key will display additional screens for Input Zones 4 through 6. To

program a specific zone, press the number key corresponding to the desired zone while viewing one

of the Input Zone screens.

To program Input Zone 1, press the 1 key while viewing Input Zone Screen #1. The following

screens will be displayed:

INPUT ZONE 1

Normal PULL STATION

PRESS TO EDIT

Edit Input Zone Screen #1

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Master Programming Level

Programming

To change the programming for the displayed zone, press the keyboard ‘down’ arrow key to

view the Edit Zone screens.

The following examples show the editing of Input Zone 1:

INPUT ZONE 1

1=ENABLED

YES

2=TYPE PULL STATION

3=OUTPUT CIRCUIT MAP

Edit Input Zone Screen #2

INPUT ZONE 1

1=NOUN/ADJECTIVE

2=DESCRIPTION

********************

Edit Input Zone Screen #3

Enable/Disable Zone

To Enable or Disable the zone, press the 1 key while viewing the Edit Input Zone Screen #2.

Each press of the key will toggle the screen between Enabled Yes and Enabled No. If Enabled

No is selected, the zone will be disabled by the control panel, preventing the circuit from

reporting alarms and troubles to the panel. The control panel LCD will display the zone which

has been disabled and FACP will turn on the Trouble indicator.

Type

INPUT ZONE

1=ENABLED

To select the type of zone being programmed, press the 2 key while viewing the Edit Input Zone

Screen #2. This will cause the control panel to display the following Zone Type Screen:

2=TYPE

3=OUTPUT CIRCUIT MAP

Edit Input Zone Screen #2

ZONE 1 TYPE

1=PULL STATION

2=N/A

3=MANUAL RELEASE

Zone Type Screen #1

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Pressing the down arrow key displays additional zone types as indicated in the following table.

Table 3.1 Zone Types

Zone Type

Action When Activated

Fire Alarm

Pull-Station

Manual Release¹

Fire Alarm

Normally Open Contact

Fire

N/A

Waterflow

Fire

Waterflow NS (nonsilenceable)

Combo

Fire, nonsilenceable

Fire/Supervisory

Combo w/AutoResettable Superv²

Fire/Supervisory, nonlatching

2-Wire Smoke

2-Wire Heat

Linear Heat

N/A

Fire Alarm

N/A

Fire

Fire Alarm

Low Pressure

Supervisory, latching

Supervisory, nonlatching

Low Pressure AutoResettable²

High Pressure

Supervisory

High Pressure AutoResettable²

Supervisory, nonlatching

Disable Release³

Supervisory

Supervisory, nonlatching (disables Release Circuits)

Supervisory, latching

Supervisory AutoResettable²

N/A

Supervisory, nonlatching

2nd-Shot Water Switch⁴

Fire Alarm, nonlatching

Table Footnote

1. Activation of a Manual Release Switch will override Predischarge Delay,

resulting in an immediate water release.

2. AutoResettable means that a device with this type code, when activated, will

automatically reset when the corresponding condition is cleared.

3. Disable Release allows the installer to disable the releasing solenoids during

system testing. Disable Release will only work when the system is not in alarm.

4. The 2nd-Shot Water Switch provides the option of performing another immediate

water release manually. Refer to "2nd-Shot Water Switch" on page 90.

While viewing any Zone Type screen, select the type of zone being programmed by pressing the

corresponding keyboard number key. The display will return to Edit Input Zone Screen #2 and

indicate the selection next to the Type option.

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Programming

Output Circuit MAP

Output Mapping (per input zone) allows the programmer/operator to assign the Output Circuits

that will be activated when a particular Input Zone or cross-zoned releasing group goes active.

Pressing 3 for Output Circuit Map while viewing Edit Input Zone Screen #2 will display

screens which show the Output Circuits programmed to activate when the selected Input Zone

(or cross-zoned releasing group) is activated. Output Map Screen #1 displays the Output Type

Codes and programming for Output Circuits 1 through 3 and Output Map Screen #2 displays

the Output Type Code and programming for Output Circuit 4.

INPUT ZONE #

1=ENABLED

As an example, if Template 6 has been selected as the FACP Configuration [refer to "FACP

CONFIG (Application Templates)" on page 50], selecting the Output Circuit Map for Input

Zone 1 will display the following screens:

2=TYPE

3=OUTPUT CIRCUIT MAP

Edit Input Zone Screen #2

OUTPUT MAP ZONE 1

1=ALARM NAC

2=WATERFLOW NAC NO

3=RELEASE 1 YES

YES

Output Map Screen#1

OUTPUT MAP ZONE 1

4=SUPV BELL NAC N/A

Output Zone Screen#2

The screens indicate that when Input Zone 1 is activated:

Output Circuit #1 default programmed as Alarm NAC will activate (Yes)

Output Circuit #2 default programmed as Waterflow NAC will not activate (No)

Output Circuit #3 default programmed as Release 1 will activate (Yes)

Output Circuit #4 default programmed as Supv Bell NAC is not mapped (N/A)

Note that the MAP may indicate that an Input Zone is programmed to a particular Output

Circuit but, if it is cross-zoned with one or more other Input Zones, all must be active in order to

activate the Output Circuit. Refer to the examples in "Circuit Mapping and Cross-Zoning" on

page 103.

The Output Circuit Map can be customized by selecting or deselecting any of the four output

circuits for activation. Pressing the number key corresponding to the selected output will toggle

the display between Yes for activation by the Input Zone to No for no activation. The new

customized programming is automatically saved by the panel as soon as it is entered.

INPUT ZONE #

1=NOUN/ADJECTIVE

2=DESCRIPTION

Noun/Adjective

The Noun/Adjective selection allows the programmer to enter specific descriptors about the

detector currently being programmed. Pressing 1 while viewing Edit Input Zone Screen #3 will

cause the following screen to be displayed:

*****************

Edit Input Zone Screen #3

1=STANDARD ADJECTIVE

2=STANDARD NOUN

Noun/Adjective Screen

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Pressing 1 while viewing the Noun/Adjective Screen will cause the following screen(s) to be

displayed. Note that the keyboard down arrow key must be pressed to see all the Adjective

screens. Press the number corresponding to the adjective that is to be used as a descriptor for

the location of the detector currently being programmed. When an adjective has been selected,

it will appear at the top of the display as indicated by the asterisks.

**********************

1=3RD

2=4TH

3=5TH

1=NORTH

2=SOUTH

3=EAST

Adjective Screen #5

Adjective Screen #1

**********************

1=FLOOR1

2=FLOOR2

**********************

1=WEST

2=FRONT

3=FLOOR3

3=CENTER

Adjective Screen #6

Adjective Screen #2

**********************

1=REAR

2=UPPER

**********************

1=FLOOR4

2=FLOOR5

3=LOWER

3=ROOM

Adjective Screen #3

Adjective Screen #7

*********************

1=MAIN

2=FIRST

3=2ND

Adjective Screen #4

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Pressing 2 while viewing the Noun/Adjective Screen will cause the following screen(s) to be

displayed. Note that the keyboard down arrow key must be pressed to see all the Noun screens.

Press the number corresponding to the noun that is to be used as a descriptor for the location of

the detector currently being programmed. When a noun has been selected, it will appear at the

top of the display as indicated by the asterisks.

**********************

1=HVAC RM

2=ISLAND

**********************

1=BASEMENT

2=BOILER RM

3=KITCHEN

3=CLASSROOM

Noun Screen #4

Noun Screen #1

**********************

1=COMPUTER RM

2=CONTROL RM

**********************

1=ROOM

2=STOREROOM

3=DATA ROOM

3=TELCO ROOM

Noun Screen #2

Noun Screen #5

**********************

1=UPS ROOM

2=VAULT

**********************

1=DOCUMENT RM

2=ELECTRIC RM

3=GARAGE

Noun Screen #6

Noun Screen #3

Description

INPUT ZONE #

1=NOUN/ADJECTIVE

2=DESCRIPTION

The Description selection allows the programmer to enter additional information about the

detector currently being programmed. This information will be displayed as part of the device

label on the display. Pressing 2 while viewing Edit Input Zone Screen #3 will cause the

following screen to be displayed:

Edit Input Zone Screen #3

ZONE # DESCRIPTION

PRESS ENTER IF DONE

********************

Adjective/Noun Screen

A flashing cursor will appear at the first asterisk to the left. The programmer can enter

additional descriptive information about the device being programmed. This information will

appear on the display along with the standard device label information.

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A maximum of 20 characters (including spaces) can be entered. To enter alphanumeric

characters from the keypad, repeatedly press the appropriate key until the desired character is

displayed in the first position. For example, to enter the letter B, press the 2 (ABC) key three

times to toggle through the characters 1, A and B. Press the right arrow key to move the cursor

one position to the right and repeat the process to enter the next character. To enter a space,

press the * (QZ) key four times until a blank appears in the desired position. When all

characters have been entered, press the Enter key to store the information. The display will

return to the Edit Detector Screen #5, displaying the new information at the bottom of the

screen.

Recall/Increment Function

In addition, the user may use the Recall/Increment function at any time when the cursor is on

the first letter of the Description, Adjective or Noun field as follows:

•

If the zero key is pressed, a 0 is placed in the first letter position

If the zero key is then pressed a second time with no intervening key actions, the entire field

is replaced with the field entered for the previous device programmed, and the cursor moves

to the last character of the field (Recall function). The Recalled Adjective or Noun field may

now be changed letter-by-letter

•

If the zero key is pressed again with no other intervening key actions and the last character in

the field is a number 0-9, the number is incremented by one. If the last character is a letter, it

changes to a 0. If the last character goes from 9 to 0 and the characters to the left of the last

character are also numbers, they are also incremented (overflow)

The above increment function may be repeated with each press of the zero key

As an example, the user could quickly enter ‘FLR_3_ROOM_305’ as follows:

1. The cursor is on the first letter of the Adjective field. Press the zero key twice to display

FLR_3

2. With the cursor on the first letter of the Noun field, press the zero key twice to recall the

display ROOM_304. The cursor automatically jumps from the first to the last letter of the

Noun field

3. With the cursor on the last letter of the Noun field, press the zero key again to increment the

room number to 305

4. Press the Enter key to store the information

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Programming

3.5.3 Output Circuits

The options for the Output Circuits on the control panel main circuit board can be configured by

pressing 2 while viewing Programming Screen #2. The following screens will be displayed:

OUTPUT CIRCUITS

1=OUTPUT 1

2=OUTPUT 2

3=OUTPUT 3

PROGRAMMING

1=FACP CONFIG

2=INPUT ZONES

3=OUTPUT CIRCUITS

NAC Selection Screen

OUTPUT CIRCUITS

1=OUTPUT 4

Programming Screen #1

NAC Selection Screen

The Output Circuits can be configured independently by pressing 1 for Output 1, 2 for Output 2, 3

for Output 3 or 4 for Output 4.

To program an Output circuit, press the number corresponding to the Output to be programmed.

The following screens will be displayed for each selection:

OUTPUT #

1=ENABLED

2=TYPE

YES

ALARM NAC

Output Screen #1

OUTPUT #

1=SILENCE

2=AUTO SILENCE

3=SIL INHIBIT

NON-SIL

Output Screen #2

OUTPUT #

1=CODING

STEADY

Output Screen #3

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3.5.3.1 Enabled

Pressing 1 while viewing Output Screen #1 will cause the display to change to Enabled No.

This will prevent the selected main circuit board NAC from activating its devices. Each press

of the 1 key will cause the display to toggle between Enabled Yes and Enabled No.

Note that if a circuit is disabled, a trouble will be logged on the FACP until the circuit is

enabled. The exception is when a Release Circuit is disabled, a supervisory will be logged on

the FACP until the circuit is enabled.

NAC #

3.5.3.2 Type

1=ENABLED

2=TYPE

Pressing 2 while viewing Output Screen #1 will cause the following screen to be displayed:

ALARM NAC

NAC Screen #1

EDIT OUTPUT # TYPE

1=RELEASE CIRCUIT 1

2=RELEASE CIRCUIT 2

3=ALARM NAC

Edit Output # Type Screen

Pressing the down arrow key while viewing the Edit Output Type Screen will display additional

screens with the types shown in the following table:

Release Circuit 1

Release Circuit 2

Alarm NAC

Waterflow NAC

Release Stage NAC

Horn NAC

Strobe NAC

Supv Bell NAC

Trouble Bell NAC

Press the number key corresponding to the desired Output Type to program the selected Output.

3.5.3.2.1 Release Circuit 1 or Release Circuit 2

If Release Circuit 1 or Release Circuit 2 is selected as the Output Type, the following subscreen

will be displayed:

EDIT RELEASE CIR #

1=UNSUPV SHORTS

2=SUPV SHORTS

This screen allows the programmer to select whether or not to supervise the Releasing Circuit

Output for shorts.

•

When a normally-closed releasing solenoid is connected to the output circuit, pressing 1 will

prevent the FACP from supervising the output circuit for shorts.

When a normally-open releasing solenoid is connected to the output circuit, pressing 2 will

allow the FACP to supervise the output circuit for shorts.

Note: Release circuits may be directly activated by a single input zone or may be activated using

cross-zoned inputs. Refer to "Circuit Mapping and Cross-Zoning" on page 103 for a description of

cross-zoning and input to output circuit mapping.

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Programming

3.5.3.2.2 Release Stage NAC

If Release Stage NAC is selected as the Output Type, the following subscreen will be displayed:

RELEASE STAGES

1=RELEASE 1 ONLY

2=RELEASE 2 ONLY

An NAC can be used to signal the two stages of a release operation. This screen allows the

programmer to select the NAC output that will indicate the release stages for Release Circuit 1

or Release Circuit 2. For a description of this feature, refer to "Release Stages" on page 91.

OUTPUT #

3.5.3.3 Silence

1=SILENCE NON-SIL

2=AUTO SILENCE NO

3=SIL INHIBITED NO

Pressing 1 while viewing Output Screen #2 will cause the following screen to be displayed:

Output Screen #2

SILENCEABLE

1=SILENCEABLE

2=NON SILENCEABLE

3=SYNC MUTE

Silenceable Screen

Pressing 1 while viewing the Silenceable Screen will program the selected Output as a

silenceable circuit. This will allow the Output to be silenced by pressing the Alarm Silence key

or by the Auto Silence feature.

Pressing 2 while viewing the Silenceable Screen will program the selected Output as a

nonsilenceable circuit. This will prevent the selected main circuit board Output from being

silenced by pressing the Alarm Silence key or by the Auto Silence feature.

Pressing 3 while viewing the Silenceable Screen will program the selected Output as a

synchronized mute circuit. Refer to "Synchronized NAC Operation" on page 62 for a

description of synchronization.

Note: If the Output Circuit has been programmed as a Releasing Circuit, the Silenceable

Option will not be available and the display will indicate N/A next to it.

Important: When an Output Circuit with a mix of audible and visual devices is programmed for

Sync Mute, only the audible devices will be turned off if the Silence key is pressed or if the

Autosilence feature is enabled. The visual devices (strobes, etc.) will continue to operate.

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3.5.3.4 Auto Silence

The Auto Silence feature, when enabled, automatically silences all main circuit board

silenceable notification appliances after a programmed length of time. To enable this feature

and program the time delay before Auto Silence activation, press 2 while viewing Output

Screen #2. The following screens will be displayed:

AUTO SILENCE

1=NO

2=5 MINUTES

3=10 MINUTES

Auto Silence Screen #1

AUTO SILENCE

1=15 MINUTES

2=20 MINUTES

3=25 MINUTES

Auto Silence Screen #2

AUTO SILENCE

1=30 MINUTES

Auto Silence Screen #3

To disable the Auto Silence feature, press 1 for No while viewing Auto Silence Screen #1. To

enable the Auto Silence feature, press the number corresponding to the time delay which will

elapse before Auto Silence activates. This information will be stored in memory and the

display will return to NAC Screen #1.

OUTPUT #

1=SILENCEABLE YES

2=AUTO SILENCE NO

3=SIL INHIBITED NO

Note: If the Output Circuit has been programmed as a Releasing Circuit, the Auto Silence

Option will not be available and the display will indicate N/A next to it.

Output Screen #2

3.5.3.5 Silence Inhibited

The Silence Inhibit feature, when enabled, prevents the silencing of the selected main circuit

board Output for a period of one minute. Resetting the FACP will also be prevented for one

minute while the Output programmed for silence inhibit is activated. Pressing 3 while viewing

Output Screen #2 will cause a screen to be displayed with the options 1=No Silence Inhibit and

2=1 Min. Silence Inhibit. Pressing 1 will disable the Silence Inhibit feature while pressing 2

will enable a 1 minute Silence Inhibit for the selected Output.

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Programming

3.5.3.6 Coding

The Coding feature allows the programmer to select the type of output that the main circuit

board outputs will generate when activated. Pressing 1 while viewing Output Screen #3 will

cause the following displays to appear:

CODING

1=STEADY

OUTPUT #

1=CODING

2=MARCH TIME

3=CALIFORNIA

Coding Screen #1

Output Screen #3

CODING

1=TEMPORAL

2=FUTURE USE

3=FUTURE USE

Coding Screen #2

CODING

1=CROSS ZONE

2=SYNC SYSTEM SENSOR

3=SYNC WHEELOCK

Coding Screen #3

CODING

1=SYNC GENTEX

2=SYNC FARADAY

3=SYNC AMSECO

Coding Screen #4

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The programmer can select the notification appliance output coding by pressing the number

corresponding to the desired output. The coding selections are:

•

Steady - a continuous output with no coding

March Time - 120 ppm (pulse-per-minute) output

California - 10 seconds on and 5 seconds off

Temporal - ½ second on, ½ second off, ½ second on, ½ second off, ½ second on, 1½ second

off

•

Cross-Zone:

ꢀ 1st zone of a cross-zoned group in alarm causes programmed NAC output to pulse 1

second on and 1 second off

ꢀ 2nd zone of a cross-zoned group in alarm causes programmed NAC output to pulse ½

second on and ½ second off - Note: if more than three zones are cross-zoned, the

programmed NAC output will continue to pulse ½ second on and ½ second off for each

subsequent zone in alarm, until the final zone in the cross-zoned group goes into alarm

ꢀ All zones of a cross-zoned group in alarm causes the output programmed as a Releasing

Circuit to perform a release and the programmed NAC output to turn on steady

•

Synchronized output for System Sensor, Wheelock, Gentex, Faraday or Amseco - Refer to

"Synchronized NAC Operation" on page 62 for additional information.

Selection of one of the above options will cause the control panel to store the information in

memory and return the display to Output Screen #1, which will display the new coding choice.

Note: If the Output Circuit has been programmed as a Releasing Circuit, the Coding Option

will not be available and the display will indicate N/A next to it.

3.5.3.6.1 Synchronized NAC Operation

Synchronization is a panel feature that controls the activation of notification appliances in such

a way that all devices will turn on and off at exactly the same time. This is particularly critical

when activating strobes which must be synchronized to avoid random activation and a potential

hazard or confusion. The FACP can be programmed to operate with a variety of manufacturer’s

devices.

Notes:

1. The NAC1 output can be used to synchronize notification appliances connected to external

panels such as remote power supplies.

2. For Dual Hazard applications, NAC circuits are not synchronized.

3.5.3.6.1.1 Maximum Number of Strobes for Synchronization

The maximum current draw for a Notification Appliance Circuit cannot exceed 3.0 amps.

Refer to the manufacturer’s documentation supplied with the Strobes to determine the

maximum current draw for each strobe and ensure that the circuit maximum is not exceeded.

To ensure proper strobe and circuit operation, there is also a limit to the number of strobes that

can be attached to each circuit. Following is a list of the strobes that have been tested with this

FACP and the maximum number that can be connected to each NAC. Make sure that the NAC

maximum current is not exceeded:

ꢀ System Sensor: 46 Strobes

ꢀ Wheelock: 50 Strobes

ꢀ Gentex: 39 Strobes

ꢀ Faraday: 33 Strobes

ꢀ Amseco: 34 Strobes

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Programming

3.5.4 Cross Input Zones

An application may require that two or more input zones become active at the same time before a

particular releasing output activates. This is referred to as cross-zoning. For example, an installer

may want four particular zones to become active at the same time before a releasing circuit is

activated. By using the Cross Input Zone feature, the programmer can designate the input zones

that must become active and the output circuits that will be affected.

The Cross Input Zone option allows the user to view and program the groups of input zones that

will be used to activate one of the releasing output circuits. Pressing 1 while viewing Programming

Screen #2 will display a screen similar to the following:

PROGRAMMING

1=CROSS INPUT ZONES

2=ON-BOARD RELAYS

3=SYSTEM SETUP

CROSS INPUT ZONES

1=RELEASE 1 GROUPS

2=RELEASE 2 GROUPS

Programming Screen #2

This screen allows the programmer to view the cross-zoned grouping for Release Circuit 1 or

Release Circuit 2. In the following example, Template 7 has been chosen as the FACP

Configuration [refer to "FACP CONFIG (Application Templates)" on page 50]. Pressing 1 for

Release 1 Groups will display the following screen:

REL 1 CROSS GROUPS

X 1 2

NONE

The display indicates that Input Zone 1 is cross-zoned with Input Zone 2. Input Zone 3 is not cross-

zoned.

The user can alter the cross-zoning by pressing the number key corresponding to the Zone to be

reprogrammed. Screens similar to the following will be displayed:

REL 1 CROSS GROUP 1

1=ZONE 1

2=ZONE 2

3=ZONE 3

YES

Select Cross Zone Screen #1

REL 1 CROSS GROUP 1

1=ZONE 4

2=ZONE 5

3=ZONE 6

N/A

Select Cross Zone Screen #2

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In this example, since the cross-zoning for Release Circuit 1 (Zone 1) is being displayed, Yes is

shown for Zone 1 which is cross-zoned with Zone 2. Zone 2 displays Yes since it is cross-zoned

with Zone 1. The remaining zones display NO or N/A for no cross-zoning to Zone 1. By pressing

the number key corresponding to the desired zone, the display for that zone will toggle between Yes

and No indicating cross-zoning to Zone 1 or no cross-zoning to Zone 1.

3.5.5 On-Board Relays

Pressing 2 while viewing Programming Screen #2 will allow the programmer to configure the three

main circuit board Form-C relays. The following screen will be displayed:

ON-BOARD RELAYS

1=RELAY 1

2=RELAY 2

3=RELAY 3 SUPERVSRY

ALARM

TROUBLE

Relays Selection Screen

To program Relay 1, 2 or 3, press the number corresponding to the selected relay. The following

screens will appear for each relay to be programmed:

RELAY TYPE

1=ALARM

2=TROUBLE

RELAY TYPE

1=FUTURE USE

2=DISCHARGE

3=AC LOSS

3=SUPERVISORY

Relay Screen #1

Relay Screen #2

While viewing the selected screen, press the number corresponding to the desired relay type to

program the main circuit board relay. The choice will be stored in memory and the display will

return to the Relay Type Screen which will show the programmed type choice. Press the Escape

key to return to the Relays Selection Screen and repeat the preceding procedure for the remaining

relays.

3.5.6 System Setup

System Setup allows the programmer to configure the following control panel features:

•

Abort Type: Future Use

•

Timers: This option allows the programmer to set the Soak 1, Soak 2, Waterflow and AC

Loss time delays.

•

Banner: This option allows the user to change the top two lines of the LCD display from the

factory default readout to a user defined readout when the control panel is in Normal

condition.

•

Time-Date: This feature allows the programmer to set the time, display format (24 hr or 12

hr), date and daylight savings time feature into the FACP memory

Trouble Reminder: This feature, when enabled, provides an audible reminder that an alarm or

trouble still exists on the FACP after the control panel has been silenced. The control panel

piezo sounder will pulse once every 15 seconds during an alarm and every two minutes

during a trouble condition, after the Alarm Silence or Acknowledge key is pressed. The

piezo will continue to sound at these rates until the alarm or trouble condition is cleared. If

the Trouble Reminder feature is not enabled and a trouble condition is not cleared within 24

hours, the panel will reactivate the trouble sounder an send an Abnormal 24 hour Test

message via the optional communicator.

•

Charger Disable: This option allows the programmer to disable the onboard battery charger

in the event an external battery charger is being used.

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Programming

Pressing 3 for System Setup, while viewing Programming Screen #2, will cause the following

screens to be displayed:

SYSTEM SETUP

1=FUTURE USE

2=TIMERS

3=BANNER

PROGRAMMING

1=CROSS INPUT ZONES

2=ON-BOARD RELAYS

3=SYSTEM SETUP

System Setup Screen #1

Programming Screen #2

SYSTEM SETUP

1=TIME-DATE

2=TROUBLE REMIND NO

3=CHARGR DISABLE NO

System Setup Screen #2

SYSTEM SETUP

1=ABORT TYPE

2=TIMERS

3.5.6.1 Timers

Timers for Soak, Waterflow Delay and AC Loss Delay can be programmed by pressing 2 while

viewing System Setup Screen #1. The following screen will be displayed:

3=BANNER

System Setup Screen #1

TIMERS

1=SOAK 1

2=SOAK 2

3=WATERFLOW DELAY 60S

1 MIN

2 MIN

Timer Screen #1

TIMERS

1=AC LOSS DELAY 2 HR

Timer Screen #2

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3.5.6.1.1 Soak 1 or Soak 2

The factory default setting for Soak Time is 10 minutes. To select a Soak Time delay of 10 to

30 minutes, press 1 for Soak 1 (Release Circuit 1) or 2 for Soak 2 (Release Circuit 2) while

viewing Timer Screen #1. The following display will appear:

SOAK # TIME

1=ALWAYS ON

2=ENTER MINUTES

Soak Time Setup Screen

Pressing 1 while viewing the Soak Time Setup Screen will program the corresponding releasing

circuit to remain on during alarm activation until the alarm is cleared and the panel is reset.

Pressing 2 while viewing the Soak Time Setup Screen will display the following screen:

SOAK # TIME

RANGE 10-30 MINUTES

Soak Time Screen

This screen allows the user to program a specific length of time for the releasing circuit to

remain active after an input initiating a release has cleared. A flashing cursor is positioned in

the lower left corner of the display. Enter a soak time consisting of two digits, such as 10 for ten

minutes. Upon entering the second digit, the time delay will be stored in the control panel

memory and the display will return to the Delay Screen which will indicate the new soak time.

In this example, when the input circuit which initiated a release has cleared, the soak timer will

start, allowing the releasing circuit to continue releasing water for a total of ten minutes and

then deactivate.

TIMER

3.5.6.1.2 Waterflow Delay

1=SOAK 1

2=SOAK 2

1 MIN

2 MIN

A delay can be added prior to declaring a waterflow type of alarm. Be careful to include any

built-in delays of the waterflow device. The factory default setting for Waterflow delay is 00

for no delay. To select a Waterflow delay of 01 to 90 seconds for all devices programmed for

Waterflow delay, press 3 while viewing Timer Screen #1 to display the following screen:

3=WATERFLOW DELAY 0 S

Timer Screen #1

WATERFLOW DELAY

RANGE 00-90 SECONDS

Waterflow Delay Screen

A flashing cursor is positioned in the lower left corner of the display. Enter a delay time

consisting of two digits, such as 25 for twenty-five seconds. Upon entering the second digit, the

time delay will be stored in the control panel memory and the display will return to the Delay

Screen which will indicate the new delay time.

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Master Programming Level

Programming

3.5.6.1.3 AC Loss Delay

The reporting of a loss of AC power can be delayed by programming the length of the desired

delay. Press 1 while viewing Timer Screen #2 to display the following:

AC LOSS DELAY

RANGE 00-24 HOURS

TIMER

1=AC LOSS DLAY 2 HR

AC Loss Delay Screen #1

A flashing cursor will appear in the lower left corner of the display. The factory default setting

is 02 hours. Type the two digit AC loss reporting delay in hours (00 to 24 hour delay). When

the second digit is entered, the display will return to AC Loss Delay Screen #1.

Timer Screen #2

Note: Upon the loss of AC power at the control panel, relays programmed for AC Loss will

transfer immediately, regardless of the AC Loss Delay setting. If no troubles other than AC

Loss exist in the panel, the System Trouble relay will delay activation for the duration of the AC

Loss Delay setting.

SYSTEM SETUP

1=ABORT TYPE

2=TIMERS

3=BANNER

3.5.6.2 Banner

System Setup Screen #1

The top line of the display, which appears when the control panel is in normal mode, can be

changed by using the Banner option. Pressing 2 while viewing System Setup Screen #1 will

cause the following to be displayed:

SELECT BANNER

1=FACTORY BANNER

2=USER BANNER

Select Banner Screen

Pressing 1 while viewing the Select Banner Screen will display the following screen:

FACTORY BANNER

PRESS ENTER IF OK

User Defined Banner Screen #1

This screen allows the user to select the factory default Banner which will be displayed when

the system is in Normal Mode of operation. Press the Enter key to accept this as the default

display. Press the Escape key to cancel and return to the Select Banner Screen.

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Pressing 2 while viewing the Select Banner Screen will display the following screen:

USER BANNER-LINE 1

PRESS ENTER IF OK

User Defined Banner Screen

This screen allows the programmer to enter a custom banner. A flashing cursor will appear in

the bottom left corner of the display. A maximum of 20 characters (including spaces) can be

entered into the screen. After entering up to 20 characters in the screen, press Enter to store the

entry. To quickly clear the current banner, press the CLR key.

To enter alphanumeric characters from the keypad, repeatedly press the appropriate key until

the desired character is displayed in the first position. For example, to enter the letter B, press

the 2 (ABC) key three times to toggle through the characters 1, A and B. Press the right arrow

key to move the cursor one position to the right and repeat the process to enter the next

character. To enter a space, press the * (QZ) key four times to place a blank in the desired

position. When all characters have been entered, press the Enter key to store the information.

The display will return to the Select Banner Screen.

3.5.6.3 Time-Date

The control panel time and date can be changed by pressing 1 while viewing the System Setup

Screen #2. The following screen will be displayed:

TIME AND DATE

1=TIME 10:00A

2=DATE 04072006

3=CLOCK FORMAT 12HR

SYSTEM SETUP

1=TIME-DATE

2=TROUBLE REMIND

3=CHARGR DISABLE

System Setup Screen #2

Time-Date Screen #1

TIME AND DATE

1=DAYLIGHT SAVINGS

Time-Date Screen #2

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3.5.6.3.1 Time

To change the time, press 1 while viewing the Time-Date Screen. The following screen will be

displayed:

ENTER TIME AS 12HRS

10:00

1=AM

2=PM

Time Screen

A flashing cursor is located toward the top left of the display. Below the cursor is the current

time. To change the time, enter the two-digit hours followed by the two-digit minutes. The

cursor will move one position to the right each time a digit is entered. After the last minutes

digit is entered, the cursor will again move one position to the right. At this point enter 1 for

AM or 2 for PM. The display will then return to the Time-Date Screen which will show the

new time entry. If an error is made while entering a digit, press the CLR key to delete the entire

entry and beginning again.

3.5.6.3.2 Date

To change the date, press 2 while viewing the Time-Date Screen. The following screen will be

displayed:

ENTER DATE

**-**-****

MONTH DAY YEAR

04-07-2006

Date Screen

A flashing cursor is located toward the top left of the display. Below the cursor is the current

date. To change the date, enter the two-digit month followed by the two-digit day and then the

two-digit year (01 for 2001, 02 for 2002, etc.). The cursor will move one position to the right

each time a digit is entered. After the last year digit is entered, the display will return to the

Time-Date Screen which will show the new date entry. If an error is made while entering a

digit, press the CLR key to delete the entire entry and beginning again.

3.5.6.3.3 Clock Format

The clock can be configured to display 12 hour (AM & PM) or 24 hour (military) time.

Pressing 3 while viewing the Time-Date screen will cause the display to toggle between 12HR

and 24HR. Select 12HR for 12 hour display or 24HR for 24 hour display.

Note: If the clock is changed to 24 hour (military) format, the date will change to the European

standard of Day-Month-Year (for display purposes only).

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3.5.6.3.4 Daylight Savings Time

Pressing 1 while viewing Time-Date Screen #2 will cause the following screens to be displayed:

DAYLIGHT SAVINGS

1=ENABLED

2=START MONTH MAR

3=START WEEK WK 2

YES

TIME AND DATE

1=DAYLIGHT SAVINGS

Daylight Savings Screen #1

Time & Date Screen #2

DAYLIGHT SAVINGS

1=END MONTH

2=END WEEK

NOV

WK 1

Daylight Savings Screen #2

Pressing 1 while viewing Daylight Savings Screen #1 will cause the display to toggle between

Enabled Yes and Enabled No. The control panel will automatically update the time for daylight

savings time when Enabled Yes is selected.

Pressing 2 while viewing Daylight Savings Screen #1 will display another screen which allows

the programmer to select the month that daylight savings time will begin. In this sub-screen,

pressing 1 will select March, 2 will select April and 3 will select May.

Pressing 3 while viewing Daylight Savings Screen #1 will display two sub-screens which allow

the programmer to select the week of the month that daylight savings time will begin. In the

first sub-screen, pressing 1 will select the first week, 2 will select the second week and 3 will

select the third week, while in the second sub-screen, pressing 1 will select the fourth week and

2 will select the last week of the selected month.

Pressing 1 while viewing Daylight Savings Screen #2 will display another screen which allows

the programmer to select the month that daylight savings time will end. In this sub-screen,

pressing 1 will select September, 2 will select October and 3 will select November.

Pressing 2 while viewing Daylight Savings Screen #2 will display two sub-screens which allow

the programmer to select the week of the month that daylight savings time will end. In the first

sub-screen, pressing 1 will select the first week, 2 will select the second week and 3 will select

the third week, while in the second sub-screen, pressing 4 will select the fourth week and 5 will

select the last week of the selected month.

SYSTEM SETUP

1=TIME-DATE

3.5.6.4 Trouble Reminder

The Trouble Reminder features causes the control panel piezo to sound a reminder ‘beep’ for

alarms and troubles, after the panel has been silenced. Refer to "System Setup" on page 64, for

a detailed description of this feature. Pressing 2 while viewing System Setup Screen #2 will

cause the display to toggle to Trouble Remind Yes, which enables this feature. Each press of the

2 key will cause the display to toggle between Trouble Remind Yes and Trouble Remind No.

2=TROUBLE REMIND

3=CHARGR DISABLE

System Setup Screen #2

Note that if the Trouble Reminder feature is not enabled, a trouble existing on the panel for

more than 24 hours will cause the FACP to resound the trouble sounder.

3.5.6.5 Charger Disable

Pressing 3 while viewing System Setup Screen #2 will allow the programmer to enable or

disable the onboard battery charger. If an external battery charger is being used, the onboard

battery charger must be disabled. Each press of the 3 key will toggle between Chargr Disable

No and Chargr Disable Yes.

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3.5.7 ANN-BUS

Optional ANN-BUS devices available for the FACP include annunciators, relay modules and

printer connection for acquiring hardcopy printouts of panel data. Pressing 1 while viewing

Programming Screen #3 will cause the control panel to display the following screens.

PROGRAMMING

1=ANN-BUS

ANN-BUS

2=HISTORY

1=BUS ENABLED

2=BUS MODULES

3=AUTO CONFIGURE

3=WALKTEST

Programming Screen #3

ANN-BUS Screen #1

ANN-BUS

1=ANN-S/PG OPTIONS

2=ANN-I/O OPTIONS

3=ANN-80 OPTIONS

ANN-BUS Screen #2

ANN-BUS

1=ANN-RLY OPTIONS

2=ANN-LED OPTIONS

ANN-BUS Screen #3

An ANN-S/PG Printer module, ANN-I/O module, ANN-80 LCD annunciator module, ANN-

RLY relay module and ANN-LED module can be installed in the FACP. These devices

communicate with the FACP over the ANN-BUS terminals on the control panel.

3.5.7.1 ANN-BUS Enabled

The ANN-BUS must be enabled if any modules are installed on the ANN-BUS terminals. To

enable the ANN-BUS, press 1 while viewing ANN-BUS screen #1 so that the display reads

ANN-BUS Enabled Yes. Each press of the 1 key will cause the display to toggle between ANN-

BUS Enabled Yes and ANN-BUS Enabled No.

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3.5.7.2 ANN-BUS Modules

If an ANN-BUS module is installed, press 2 while viewing ANN-BUS screen #1 to select

ANN-BUS addresses for the module(s). The following screen will be displayed.

ANN-BUS MODULES

1=ADDR. 1 NONE

2=ADDR. 2 NONE

3=ADDR. 3 NONE

On Board DACT Screen #1

Pressing the down arrow key will allow the programmer to view additional screens displaying

Addresses 1 - 8. Pressing the number corresponding to the desired address will display a screen

with technical information about the selected module.

In the technical information screen, pressing 1 for Type will display the following screens:

ANN-BUS MODULE TYPE

1=NONE

2=ANN-80

3=ANN-I/O

Module Type Screen #1

ANN-BUS MODULE TYPE

1=ANN-S/PG

2=ANN-RLY

3=ANN-LED

Module Type Screen #2

Press the number corresponding to the module type, if any, that is installed with the selected

address. This will enable the module.

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3.5.7.3 Auto-Configure

The ANN-BUS Auto-Configure features allows the programmer to quickly bring all installed

ANN-BUS modules online. The software will search for all ANN-BUS modules and

automatically program the device type and address into the system. Pressing 3 while viewing

ANN-BUS Screen #1 will begin the Auto-Configure process and cause the following screen to

be displayed:

ANN-BUS

AUTO-CONGFIGURE

IN PROGRESS

PLEASE WAIT

Auto-Configure Screen

PROGRAMMING

3.5.7.4 ANN-S/PG Options

The Printer Option allows the user to configure the optional printer. Pressing 1 while viewing

the ANN-BUS Screen #2 will display the following screens:

1=ANN-S/PG OPTIONS

2=ANN-I/O OPTIONS

3=ANN-80 OPTIONS

ANN-BUS Screen #2

ANN-S/PG OPTIONS

1=PORT PARALLEL

2=PRINTER SUPV NO

3=OFFLINE TIMER

Printer Options Screen #1

ANN-S/PG OPTIONS

1=BAUD RATE

2=DATA BITS

3=PARITY

N/A

Printer Options Screen #2

ANN-S/PG OPTIONS

1=STOP BITS N/A

Printer Options Screen #3

Pressing 1 for Port while viewing Printer Options screen #1 will allow the programmer to select

between a Parallel and Serial Port for printer connection. Each press of the 1 key will cause the

display to toggle between Port PAR (parallel) and Port SER (serial). It is important to note that

the interface selected determines which options are available to the user.

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If the Parallel Port option is selected, the user has the option to supervise the printer and select

an offline timer for the supervision by pressing 2 for Printer Supervision while viewing Print

Options screen #1. Each press of the 2 key will cause the display to toggle between Printer

Supv NO for no supervision and Printer Supv YES for printer supervision. Note that this option

is not selectable if the Serial Port option has been selected.

If the Parallel Port option is selected, the user has the ability to select an Offline Timer by

pressing 3 while viewing Print Options screen #1. The resultant screen allows the programmer

to program the Offline Timer for a delay of between 0 and 255 seconds before loss of printer

supervision is reported as a trouble.

If the Serial Port option is selected, the Printer Supv and Offline Timer options will not be

available. The Baud Rate, Data Bits, Parity and Stop Bits options are only available when the

Serial Port option has been selected.

Pressing 1 for Baud Rate while viewing Printer Options screen #2 will cause a screen to appear

which allow the user to select a Baud Rate of 19200, 9600 or 2400.

Pressing 2 for Data Bits while viewing Printer Options screen #2 will cause screens to appear

which allow the user to select 5, 6, 7 or 8 Data Bits.

Pressing 3 for Parity while viewing Printer Options screen #2 will cause a screen to appear

which allows the user to select between No Parity, Even Parity or Odd Parity.

Pressing 1 for Stop Bits while viewing Printer Options screen #3 will cause a screen to appear

which allows the user to select between 0.5, 1.0 or 2.0 Stop Bits.

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3.5.7.5 ANN-I/O LED Zone Assignments

The information displayed by LEDs on every ANN-I/O module is not programmable and will

therefore be as indicated in the following table.

LED

Zone (any address)

AC Fault

General Alarm

General Supervisory

General Trouble

Alarm Silenced

Earth Fault

Battery Fault

Charger Fault

Disable

Maintenance

Zone 1 Alarm

Zone 2 Alarm

Zone 3 Alarm

Zone 4 Alarm

Zone 5 Alarm

Zone 6 Alarm

Not Used

Zone 1 Trouble

Zone 2 Trouble

Zone 3 Trouble

Zone 4 Trouble

Zone 5 Trouble

Zone 6 Trouble

Not Used

Zone 1 Supervisory

Zone 2 Supervisory

Zone 3 Supervisory

Zone 4 Supervisory

Zone 5 Supervisory

Zone 6 Supervisory

Not Used

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3.5.7.6 ANN-80 Options

Pressing 2 while ANN-BUS screen #2 will display the following screen:

ANN-80 OPTIONS

1=PIEZO ENABLE

2=LOCK ENABLE

3=ACK BTN ENABLE

ANN-80 Options Screen #1

ANN-80 OPTIONS

1=SIL BTN ENABLE

2=RST BTN ENABLE

3=DRL BTN ENABLE

ANN-80 Options Screen #2

The Piezo Enable option allows the programmer to select whether the piezo sounder on any

installed ANN-80 annunciator will ever sound. Pressing 1 while viewing the ANN-80 Options

Screen #1 causes the display to toggle between Piezo Enable Yes and Piezo Enable No.

The Lock Enable option allows the programmer to select whether or not the ANN-80 LCD

annunciator must be unlocked by its key before any annunciator key presses will function.

Pressing 2 while viewing the ANN-80 Options Screen #1 causes the display to toggle between

Lock Enable Yes (annunciator must be unlocked for keys to function) and Lock Enable No (lock

position is ignored).

The Acknowledge Button Enable (ACK BTN ENABLE) option allows the programmer to select

whether the Ack/Step button on any installed ANN-80 LCD annunciator will function normally

or always be ignored. Pressing 3 while viewing the ANN-80 Options Screen #1 causes the

display to toggle between Ack Btn Enable Yes (Ack/Step button functions normally) and Ack

Btn Enable No (Ack/Step button never functions).

The Silence Button Enable (SIL BTN ENABLE) option allows the programmer to select whether

the Silence button on any installed ANN-80 LCD annunciator will function normally or always

be ignored. Pressing 1 while viewing the ANN-80 Options Screen #2 causes the display to

toggle between Sil Btn Enable Yes (Silence button functions normally) and Sil Btn Enable No

(Silence button never functions).

The Reset Button Enable (RST BTN ENABLE) option allows the programmer to select whether

the Reset button on any installed ANN-80 LCD annunciator will function normally or always

be ignored. Pressing 2 while viewing the ANN-80 Options Screen #2 causes the display to

toggle between Rst Btn Enable Yes (Reset button functions normally) and Rst Btn Enable No

(Reset button never functions).

The Drill Button Enable (DRL BTN ENABLE) option allows the programmer to select whether

the Drill button on any installed ANN-80 LCD annunciator will function normally or always be

ignored. Pressing 3 while viewing the ANN-80 Options Screen #2 causes the display to toggle

between Drl Btn Enable Yes (Drill button functions normally) and Drl Btn Enable No (Drill

button never functions).

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3.5.7.7 ANN-RLY Options

Pressing 1 for ANN-RLY Options while viewing ANN-BUS Screen #3 will cause the following

screen to be displayed:

ANN-RLY OPTIONS

1=RELAY 1 IN ZONE 1

2=RELAY 2 IN ZONE 2

3=RELAY 3 IN ZONE 3

PROGRAMMING

1=ANN-RLY OPTIONS

2=ANN-LED OPTIONS

ANN-BUS Screen #3

ANN-RLY Options Screen

The ANN-RLY module provides ten Form-C relays which can be programmed for various

functions. The initial screen displays Relays 1 through 3. Pressing the down arrow key will

display the remaining relays for this module.

To program any of the ANN-RLY relays, while viewing the appropriate ANN-RLY Option

screen, press the number key corresponding to the relay to be programmed. Following is a list

of the available programming options for each relay:

•

General Alarm

General Trouble

General Supervisory

Future Use

General Discharge

Discharge Release 1

Discharge Release 2

AC Loss

Waterflow Delay

Future Use

General 2nd Shot Release

2nd Shot Release 1

2nd Shot Release 2

Input Zone 1

Input Zone 2

Input Zone 3

Input Zone 4

Input Zone 5

Input Zone 6

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3.5.8 History

The History option allows an authorized user to view or erase events which have occurred in the

control panel. Pressing 2 while viewing Programming Screen #3 will display the History options

as shown in the following display:

HISTORY

1=VIEW EVENTS

2=ERASE HISTORY

PROGRAMMING

1=ANN-BUS

2=HISTORY

3=WALKTEST

Programming Screen #3

History Screen

3.5.8.1 View Events

Pressing 1 while viewing the History Screen will allow the user to select the events to be

viewed as illustrated in the following:

HISTORY

1=VIEW ALL

2=VIEW ALARMS

3=VIEW OTHER EVENTS

View Events Screen

While displaying the View Events screen, press 1 to view all events, 2 to view only alarms or 3

to view other events. Use the up and down arrow keys to scroll through all of the displayed

events.

3.5.8.2 Erase History

The Erase History option allows a user to erase all events from the history file. This will

provide a clean slate in order to use the history file to track future events. Pressing 2 while

viewing the History Screen will display the following screen:

ERASE HISTORY

PROCEED ?

1=YES

2=NO

Erase History Screen

Pressing 1 while viewing the Erase History Screen will erase all events from the History file.

During this process, the display will read as follows:

ERASING HISTORY

PLEASE WAIT

Erase History Wait Screen

After the History file has been erased, the display will return to the History Screen.

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3.5.9 Walktest

Walktest allows an individual to test the fire alarm system without the necessity to reset the control

panel after each device activation. Pressing 3 while viewing the Programming Screen #3 will cause

the following Walktest options to be displayed:

WALKTEST

1=SILENT

2=AUDIBLE

PROGRAMMING

1=ANN-BUS

2=HISTORY

3=VIEW EVENTS

3=WALKTEST

Programming Screen #3

Walktest Screen

To perform a silent walktest which will not sound the NACs, press 1 while viewing the Walktest

Screen. To perform an audible walktest, which will sound the NACs, press 2 while viewing the

Walktest Screen. When either option is chosen, the panel will enter Walktest Mode and the

following screen will be displayed:

UNIT IN WALKTEST

Walktest Active Screen

The user can now perform a one-person walktest by activating devices throughout the system. As

each device is activated, the screen will display the information about the activated device as shown

below. Note that the colon (:) in the time is replaced with an asterisk (*) to distinguish the

walktest screen from an actual alarm screen.

ALARM ZONE 1

Z01

10*00A 010805

After completion of the Walktest, press the Esc (Escape) key to exit Walktest Mode and return to

the Walktest Screen. The results of the Walktest can now be viewed by pressing 3 while viewing

the Walktest Screen. The following screen will be displayed:

WALKTEST EVENTS

Use the up and down arrow keys to view all of the walktest results which will be displayed as

illustrated in the preceding screen. Note that the Walktest log is stored in RAM. If all power (AC

and DC) is removed from the FACP, the Walktest log information will be lost. This information is

also overwritten when subsequent walktests are performed.

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3.5.10 Clear Program

Pressing 1 while viewing Programming Screen #4, will select the Clear Program option. The

control panel will provide a warning to the user by prompting with the following display:

WARNING!

SYSTEM CHANGE

PROCEED?

PROGRAMMING

1=CLEAR PROGRAM

1=YES

2=NO

2=PASSWORD CHANGE

Programming Screen #4

Pressing 1 for Yes will cause the control panel to carry out the selected clear option. Pressing 2 for

No will prevent programming from being cleared.

3.5.11 Password Change

The factory set passwords, which have been programmed into the control panel, can be changed by

selecting the Password Change option. Pressing 2 while viewing Programming Screen #4 will

cause the following screen to be displayed:

PASSWORD CHANGE

1=MASTER

2=MAINTENANCE

Password Change Screen

Press 1 to change the Master Programming Level password or 2 to change the Maintenance Level

password. Note that the passwords will not be displayed on annunciators.

The following screen will appear when either change option is selected:

ENTER NEW FIVE DIGIT

PASSWORD

Enter Password Screen

A flashing cursor will appear in the center of the display. Enter a new five digit password (such as

10101 for the Master Level). After the fifth digit is entered, the following screen will be displayed:

VERIFY NEW

PASSWORD

Password Change Screen

The new five digit password must be re-entered to accept the change. The display will then return

to the initial Password Change Screen.

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Programming

3.6 Maintenance Programming Level

To access Maintenance Programming mode, press the Enter key. The LCD will display the

following:

1=READ STATUS

2=PROGRAMMING

To enter the Maintenance Programming mode, press 2. The display will read as follows:

PROGRAMMING

ENTER PASSWORD

When the Maintenance level password (default 11111) is entered, the following screen will appear:

PROGRAMMING

1=INPUT ZONES

2=HISTORY

3=WALKTEST

Note that in the preceding screens, an arrow appears to inform the programmer that additional

options can be viewed by pressing the keypad down arrow key, as shown in the following screen.

PROGRAMMING

1=TIME-DATE

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Maintenance Programming Level

3.6.1 Input Zones - Enable/Disable

The Input Zones option allows the user to enable or disable desired zones. Pressing 1 for Input

Zones, while viewing Maintenance Screen #1 will cause the following screens to be displayed:

POINT PROGRAM

1=ZONE 1

2=ZONE 2

PROGRAMMING

3=ZONE 3

1=INPUT ZONES

2=HISTORY

3=WALKTEST

Zone Select Screen

Maintenance Screen #1

Pressing the down arrow key will display additional Zones 4 - 6. Select the number corresponding

to the desired zone. A screen will appear which will allow enabling or disabling of the selected

zone, as illustrated in the following example:

INPUT ZONE 1

1=ENABLED YES

TYPE PULL STATION

Enable/Disable Select Screen

Pressing 1 repeatedly will cause the display to toggle between Enabled Yes and Enabled No.

3.6.2 History

Pressing 2 while viewing Maintenance Screen #1 will cause the following screen to be displayed:

HISTORY

1=VIEW EVENTS

2=ERASE HISTORY

History Screen

The History feature allows the operator to view control panel events which have been stored in a

history file in memory and erase the contents of the history file

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Programming

Pressing 1 while viewing the History screen will cause the following screen to be displayed:

HISTORY

1=VIEW ALL

2=VIEW ALARMS

3=VIEW OTHER EVENTS

To view all the events which have occurred in the control panel since the history file was last

erased, press 1 while viewing the Events screen. To view only alarms which have occurred, press 2

while viewing the Events screen. To view events other than alarms, press 3. The most recent event

will be displayed on the screen. To view all of the selected events, press the up or down arrow keys

to scroll through the list of events. If no events have occurred, the display will read NO EVENTS

IN HISTORY.

Pressing 2 while viewing the History Screen will cause the following screen to be displayed:

ERASE HISTORY

PROCEED ?

1=YES

2=NO

Erase History Screen

Pressing 1 while viewing the Erase History Screen will cause the message ERASING HISTORY,

PLEASE WAIT to be displayed. The display will then return to the History Screen. Pressing 2 will

cause the display to return to the History Screen without erasing the History file.

3.6.3 Walktest

PROGRAMMING

1=INPUT ZONES

2=HISTORY

To perform a walktest, press 3 while viewing Maintenance Screen #1. The following screen will be

displayed:

3=WALKTEST

Maintenance Screen #1

WALKTEST

1=SILENT

2=AUDIBLE

3=VIEW EVENTS

Walktest Screen

The operator can press 1 to perform a silent walktest or 2 to perform an audible walktest. The

display will read UNIT IN WALKTEST. To end the Walktest, press the Esc (Escape) key.

Pressing 3 after the walktest has been completed, will allow the operator to view the results of the

walktest.

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3.6.4 Time-Date

To program the time and date into the control panel, press 1 while viewing Maintenance Screen #2.

The following display will appear:

TIME AND DATE

1=TIME

2=DATE

3=CLOCK FORMAT 12HRS

01:00A

01012006

PROGRAMMING

1=TIME-DATE

Maintenance Screen #2

Time and Date Screen

To change the time, press 1 to display the following screen:

ENTER TIME AS 12HRS

01:00

1=AM

2=PM

Time Screen

A flashing cursor will appear on the left side of the display. Enter the four digit number

corresponding to the time (0000 - 1259). When the fourth digit is entered, the cursor will move one

position to the right. Press 1 for AM or 2 for PM to complete entering the time. The display will

return to the Time and Date Screen displaying the new time.

To change the date, press 2 while viewing the Time and Date Screen. The following screen will be

displayed:

ENTER DATE

**-**-****

MONTH DAY YEAR

01-01-2006

Date Screen

A flashing cursor will appear on the left side of the display. Enter the two digit month, two digit

day and four digit year. The cursor will move one position to the right after each entry. When the

fourth digit of the year has been entered, the display will return to the Time and Date Screen which

will show the new date.

To change between 12 hour and 24 hour format, press 3 for Clock Format while viewing the Time

and Date screen. Each press of the 3 key will toggle the display between 12 HR and 24 HR format.

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Panel Control Buttons

Operating Instructions

SECTION 4

Operating Instructions

Factory programmed Templates have been provided to facilitate the installation and configuration

of the Fire Alarm Control Panel. The factory default programming for this panel is Template #7.

Refer to "FACP Configuration Templates" on page 108 for a detailed description of the FACP

operation for Template #7.

4.1 Panel Control Buttons

4.1.1 Acknowledge/Step

The first press of the Acknowledge/Step key silences the piezo sounder, changes flashing LEDs to

steady and also changes the status field on the LCD display from capital letters to small letters

(TROUBL to troubl). When the piezo is silenced, an acknowledge message is sent to the printer and

the history file. Acknowledge also sends a silence piezo command to the optional annunciators

connected to the FACP. The Acknowledge key will have no effect on the Notification Appliance

Circuits.

When more than one event exists, the first press of the Acknowledge/Step key functions as

described in the preceding paragraph. Subsequent pressing of the key steps through each active

event.

4.1.2 Alarm Silenced

The Alarm Silenced key performs the same functions as Acknowledge/Step, except it will not step

through each event when multiple events are present at the panel. In addition, if an alarm exists, it

turns off all silenceable NACs (Notification Appliance Circuits) and causes the Alarm Silenced

indicator to turn on. It also sends an ‘alarm silenced’ message to the printer, history file and

optional annunciators. A subsequent new alarm will resound the system NACs. The Alarm

Silenced indicator is turned off by pressing the Reset key, the Drill key or subsequent activation of

the NACs.

Note:

1. If Silence Inhibit has been enabled, NACs cannot be silenced for one minute following

initiation of an alarm.

2. When the system is configured for dual hazard operation, an alarm in one hazard area may

reactivate notification appliance circuits programmed for that area only.

4.1.3 Drill/Hold 2 Sec

When the Drill key is held for a minimum of two seconds (time required to prevent accidental

activations), the FACP turns on all NAC outputs and turns off the Alarm Silenced indicator if it was

previously on. The EVAC IN SYSTEM message is shown on the LCD display. The same message

is sent to the printer and history file. The Alarm Silence key can be used to turn off all silenceable

NAC outputs following activation by the Drill key.

4.1.4 Reset

Pressing and releasing the Reset key turns off all NACs, temporarily turns off resettable power to 4-

wire detectors, causes a RESET IN SYSTEM message to be displayed on the LCD and sends the

same message to the printer and history file. It also performs a lamp test by turning on all LEDs,

piezo sounder and LCD display segments after the Reset key is released. Any alarm or trouble that

exists after a reset will resound the system.

Note that if Silence Inhibit has been enabled, the FACP cannot be reset for one minute following

initiation of an alarm.

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Operating Instructions

Indicators

4.2 Indicators

The eight indicators, which are located on the front panel, operate as follows:

AC Power

This is a green indicator which illuminates if AC power is applied to the FACP. A loss of AC

power will turn off this indicator.

Fire Alarm

This red indicator flashes when one or more alarms occur. It illuminates steady when the

Acknowledge/Step or Alarm Silence key is pressed. The Fire Alarm indicator turns off when the

Reset key is pressed. The indicator will remain off if all alarms have been cleared.

Supervisory

This is a yellow indicator that flashes when one or more supervisory conditions occur, such as a

sprinkler valve tamper condition. It illuminates steady when the Acknowledge/Step or Alarm

Silence key is pressed. It turns off when the Reset key is pressed and remains off if all supervisory

alarms have been cleared.

Trouble

This is a yellow indicator that flashes when one or more trouble conditions occur. It stays on steady

when the Acknowledge/Step or Alarm Silence key is pressed. The indicator turns off when all

trouble conditions are cleared. This indicator will also illuminate if the microprocessor watchdog

circuit is activated.

Alarm Silenced

This is a yellow indicator that illuminates after the Alarm Silence key is pressed while an alarm

condition exists. It turns off when the Drill or Reset key is pressed.

Discharge

This is a red indicator that illuminates steadily when the water releasing circuit is activated.

4.3 Normal Operation

With no alarms or troubles in the system, the display message is System All Normal along with the

current time and date as shown below. To set the time and date, refer to the appropriate section in

this manual.

SYSTEM ALL NORMAL

10:00A 031106

The FACP performs the following functions at regular intervals in Normal mode:

ꢀ Monitors AC input voltage and battery voltage

ꢀ Monitors and reports status option cards and control panel

ꢀ Refreshes LCD display and updates time

ꢀ Scans control panel keypad for key presses

ꢀ Tests memory

ꢀ Updates and reads all communications busses (EIA-485, etc.)

ꢀ i³smoke detectors will be polled for maintenance and freeze conditions (temperature of

45 F or less) on initial entry into Normal mode. Thereafter, each device will be polled

every hour for freeze and every four hours for maintenance conditions

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Trouble Operation

Operating Instructions

Note: To ensure that the system is functioning properly, the FACP will perform a freeze check five

minutes after the panel is reset, followed by a maintenance check. If there is no freeze or

maintenance condition, the panel will continue to monitor for freeze conditions every hour and

maintenance conditions every four hours.

4.4 Trouble Operation

With no alarms in the system, the detection of a trouble will cause the following:

•

The piezo to pulse 1 second On and 1 second Off

The system Trouble indicator to flash one second On and one second Off

The output circuits programmed as Trouble Bell NAC to activate

The trouble relay to activate

TROUBL with device type, noun/adjective, address and trouble description will appear on

the LCD display

•

The same message, along with the time and date, is sent to the optional printer and the history

buffer.

Note that specific troubles will initiate additional actions; for example, loss of AC power will turn

off the AC Power indicator, etc.

Input Zone

For Input Zones, the following is a typical message that could appear on the LCD display for a

device trouble:

TROUBL PULL STATION

ZONE 1 OPEN FAULT

10:00A 030806

The information displayed in the above example provides the following information:

•

First line in display:

ꢀ The type of event; in this example OPEN indicating a circuit trouble

ꢀ Device type identifier; in this example, PULL STATION indicates a manual device. Other

device type identifiers which can be displayed include 2-WIRE SMOKE for Smoke

Detector, 2-WIRE HEAT for Heat Detector, etc.

•

Second line in display:

ꢀ <ADJ>; refers to the user programmed adjective descriptor from library list resident in the

control panel or custom entry via PC.

ꢀ <NOUN>; refers to the user programmed noun descriptor from library list resident in the

control panel or custom entry via PC.

•

Third line in display indicates Zone and the fault condition. Other possible troubles include:

U OPEN - indicating an open circuit

U DIRTY - maintenance alert indicating that a detector is near but below the allowed

alarm limit and is in need of maintenance before the performance is compromised

Fourth line in display:

ꢀ Time; the current time in this example is 10:00A which represents 10:00 AM

ꢀ Date; the current month, day and year in this example is 03 for March, 08 for the 8th day

of the month and 06 for the year 2006

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Operating Instructions

Alarm Operation

Pressing the Acknowledge/Step or Alarm Silence key will cause the pulsing piezo to silence and the

system Trouble indicator to change from flashing to on steady. This block acknowledgment occurs

regardless of the number of troubles, alarms and supervisory events active in the system. When the

Acknowledge/Step key is pressed and at least one new alarm or trouble exists in the system, the

‘acknowledge’ message is sent to the printer and history file. If the trouble clears, either before or

after the Acknowledge/Step key is pressed, the ‘clear trouble’ message is sent to the printer and

history file.

If all troubles clear and there are no supervisory or fire conditions active in the system, the system

returns to normal mode operation and the System All Normal message is shown on the LCD display

and sent to the history and printer files. The auto-restore feature will restore cleared troubles even

if the troubles were never acknowledged. Note that pressing the Alarm Silence key when only

troubles exist in the system will have the same effect as pressing the Acknowledge/Step key except

the Alarm Silenced indicator will light.

4.5 Alarm Operation

For a detailed description of the alarm operation for each preprogrammed Template, refer to

"FACP Configuration Templates" on page 108 and "Circuit Mapping and Cross-Zoning" on page

103. Alarm operation is similar to trouble operation with the following differences:

•

The piezo sounder produces a steady output as opposed to a pulsed output

The Fire Alarm indicator flashes 1 second On and 1 second Off

The LCD displays Alarm along with the device name, type, adjective/noun, associated zones

and time/date

•

Alarms latch and are not allowed to clear automatically

Timers for Silence Inhibit, Autosilence and Trouble Reminder are started

Soak and Waterflow Delay Timers are started (if enabled) for appropriate circuits

Alarms activate the general alarm relay

Silenced alarms are resounded

Release Solenoid circuits are activated to produce a water release

The trouble relay is not activated

Store event in history buffer

A typical alarm display would be as illustrated below:

ALARM PULL STATION

ZONE 1

10:00A 030806

Note that the device type, which in this example is PULL STATION, can be any other

programmable alarm type.

The information displayed in the above example provides the following information:

•

First line in display:

ꢀ The type of event; in this example ALARM indicating an alarm condition

ꢀ Device type identifier; in this example, PULL STATION indicates a manual pull box.

Other device type identifiers which can be displayed include 2-WIRE SMOKE for Smoke

Detector, 2-WIRE HEAT for Heat Detector, etc.

•

Second line in display:

ꢀ <ADJ>; refers to the user programmed adjective descriptor from library list resident in the

control panel or custom entry via PC.

ꢀ <NOUN>; refers to the user programmed noun descriptor from library list resident in the

control panel or custom entry via PC.

•

Third line in display: Zone 1 indicates the zone programmed to this device which, in this

example, is Input Zone 1.

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Supervisory Operation

Operating Instructions

•

Fourth line in display:

ꢀ Time; the current time in this example is 10:00A which represents 10:00 AM

ꢀ Date; the current month, day and year in this example is 03 for March, 08 for the 8th day

of the month and 06 for the year 2006

4.6 Supervisory Operation

Supervisory operation is similar to alarm operation but with the following differences:

•

The piezo sounder pulses ½ second On and ½ second Off

The Supervisory indicator flashes ½ second On and ½ second Off

The LCD displays the status label Active Supervisory along with the device name, type,

adjective/noun, associated zones and time/date

•

The output circuits programmed as Supervisory NAC are activated

The supervisory relay is activated

The alarm relay is not activated

Silenced alarms are not resounded

Timers are not started

Store event in history buffer

A typical Supervisory event would be displayed as illustrated in the following:

FREEZE SUPERVISORY

ZONE 05 FROZEN SUPRV

10:00A 030806

In the preceding example:

U FROZEN SUPRV - indicates zone detector is below approximately 45^oF

Note that, like alarms, supervisory signals latch (except when programmed for supervisory

autoresettable). Supervisory alarms do not cause resound as do other alarm conditions. Open

circuits in supervisory wiring are processed by the control panel the same way as other trouble

conditions. Refer to "Alarm Operation" on page 88, for a description of the information displayed

on the control panel LCD.

4.7 Disable/Enable Operation

Input zones which are disabled do not cause an alarm or any zone activation. Disabled NACs are

held in the off state. Disabled zones/NACs are treated as if they were in trouble, with the exception

being the LCD status label that will be displayed is DISABL.

Note that disabled Releasing Circuits are treated as supervisory events.

4.8 Waterflow Circuits Operation

If an alarm exists from a zone that is a waterflow non-silenceable type, the Alarm Silence key will

not function.

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Operating Instructions

2nd-Shot Water Switch

4.9 2nd-Shot Water Switch

Following an initial waterflow release, an input circuit with the nonlatching Type Code of 2nd-Shot

Water Switch, when activated, will cause another waterflow release to occur immediately. If a

manual switch is connected to the circuit, an operator has the option to perform any number of

additional waterflow releases following an initial release.

4.10 Detector Functions

Maintenance Alert

i³smoke detectors will be polled for maintenance and freeze conditions (temperature less than

45 F) on initial entry into Normal mode. Thereafter, each device will be polled every hour for

freeze and every four hours for maintenance conditions All alarm and system trouble conditions

are annunciated on the control panel’s LCD.

Note: To ensure that the system is functioning properly, the FACP will perform a freeze check five

minutes after the panel is reset, followed by a maintenance check. If there is no freeze or

maintenance condition, the panel will continue to monitor for freeze conditions every hour and

maintenance conditions every four hours.

Important! In order to avoid false alarms, input zones must be disabled prior to any service work

being done. After service is completed, the input zones must be re-enabled.

4.11 Time Functions: Real-Time Clock

The FACP includes a crystal-based clock that provides time of day, date and day of week. Time is

displayed as 12 or 24 hour time with month/day/year and is stored in RAM. Daylight savings time

change-over is programmable and automatic. If both AC and battery are lost, the time must be

reprogrammed.

4.12 Coded NAC Operation

The NAC circuits resident on the control panel main circuit board can be programmed for coded

operation. The available options which can be programmed for coded operation are as follows:

•

Steady - Steady output with no pulsing

March Time - Pulses at 120 ppm (pulses per minute)

California Code - 10 seconds On, 5 seconds Off

Temporal Code - Pulses at ½ second On, ½ second Off, ½ second On, ½ second Off, ½

second On, 1½ second Off

•

Cross-Zone:

ꢀ 1st zone of a cross-zoned group in alarm causes programmed NAC output to pulse 1

second on and 1 second off

ꢀ 2nd zone of a cross-zoned group in alarm causes programmed NAC output to pulse ½

second on and ½ second off - Note: if more than three zones are cross-zoned, the

programmed NAC output will continue to pulse ½ second on and ½ second off for each

subsequent zone in alarm, until the final zone in the cross-zoned group goes into alarm

ꢀ all zones of a cross-zoned group in alarm causes the output programmed as a Releasing

Circuit to perform a water release and the programmed NAC output to turn on steady

•

Synchronized output for System Sensor, Wheelock, Gentex, Faraday or Amseco - Refer to

"Synchronized NAC Operation" on page 62 for additional information.

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Release Stages

Operating Instructions

4.13 Release Stages

Outputs programmed as Release Stage NACs indicate the two stages of a release operation:

ꢀ the activation of an output programmed as a Releasing Circuit will cause the programmed

indicating NAC output to turn on steady

ꢀ upon completion of the release, the programmed indicating NAC output will pulse at a 20

pulse-per-minute rate

4.14 Special System Timers

4.14.1 Silence Inhibit Timer

This option, if selected, prevents the Alarm Silence key from functioning for 60 seconds following

an alarm. A new alarm during the initial 60 second period will not cause the timer to restart with a

new 60 seconds. Silence Inhibit operation requires the approval of the local AHJ.

4.14.2 Autosilence Timer

If Autosilence is selected, the notification appliances, programmed as silenceable, will

automatically be silenced after a programmable duration of from 5 to 30 minutes. Pressing the

Drill key will restart the timer. Autosilence operation requires the approval of the local AHJ.

4.14.3 Trouble Reminder

If selected, this feature causes a reminding ‘beep’ every 15 seconds during an alarm (after the

Alarm Silence key is pressed) and every two minutes during a trouble condition (after the

Acknowledge/Step or Alarm Silence key is pressed). The ‘beeps’ from the onboard piezo sounder

will occur until the alarm or fault is cleared.

Note that if Trouble Reminder feature is not selected and the trouble is not cleared within 24 hours,

the piezo will resound, indicating that the trouble condition still exists.

4.14.4 Soak Timers

Two Soak Timers allow the user to program a time between 10 and 30 minutes for each water

releasing circuit to remain active. Soak Timer 1 is used for Releasing Solenoid Circuit 1 and Soak

Timer 2 is used for Releasing Solenoid Circuit 2. Following an alarm condition in which the

releasing circuit is activated, the water release will stop when the corresponding Soak Timer

reaches zero.

4.14.5 Waterflow Delay Timer

If selected, this option will delay the activation of a waterflow type alarm for a programmable time

duration from 1 to 90 seconds. This delay is in addition to any time delay inherent in the waterflow

device. This feature requires the approval of the local AHJ.

4.15 Walktest

Walktest is a feature which allows one person to test the fire alarm system. An audible walktest

will momentarily sound the Notification Appliance Circuits in the building and store the walktest

information in a file at the panel. A silent walktest will not sound the NACs but will store the

walktest information in a file which can be viewed at the panel. Disabled NAC devices will not

activate during walktest. In addition, i³smoke detectors will enter their own test mode causing

their LEDs to flash twice every five seconds (refer to i³specification document).

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Operating Instructions

Alarm/Shorted Condition

Read Status

When in audible Walktest, the panel responds to each new alarm and activates its programmed

control outputs for four seconds, if those outputs have been programmed for silenceable activation.

It also stores each alarm in the walktest history file which can be sent to an optional printer. The

stored display will be the same as if the device actually activated except the colon (:) in the time

stamp is replaced with an asterisk (*).

Open Condition

Addressable devices as well as all main circuit board NACs are monitored for fault conditions

during Walktest mode. When a new trouble condition occurs, the FACP will activate all NACs

programmed for Walktest, then shut them off after eight seconds.

While in Walktest, the trouble relay is activated and the system Trouble indicator flashes (as in all

of the Program and status change operations). The alarm relay is not activated.

4.16 Read Status

Read Status functions do not require a password. The control panel will continue to provide fire

protection while in Read Status mode. This mode can be entered while the control panel is in alarm

or trouble. If a new alarm occurs during these functions, the Read Status is exited to prevent

confusion.

Read Status Entry

When the operator presses the control panel Enter key, the LCD will display the following:

1=READ STATUS MODE

2=PROGRAMMING MODE

Pressing 1, while this screen is being displayed, will cause the control panel to enter the Read

Status mode which allows the user to view and print the programmed features and status of the

control panel.

The following screens will be displayed:

READ STATUS

1=TIMERS

2=DAYLIGHT SAVINGS

3=HISTORY

READ STATUS

1=FACP CONFIG

2=INPUT ZONES

3=OUTPUT CIRCUITS

Read Status Screen #1

Read Status Screen #3

READ STATUS

1=PRINT

2=ANN-BUS

1=CROSS INPUT ZONES

2=ON-BOARD RELAYS

3=SYSTEM SETTINGS

Read Status Screen #2

Read Status Screen #4

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Read Status

Operating Instructions

4.16.1 FACP Configuration

Pressing 1 while viewing Read Status Screen #1 will display the type of configuration programmed

into the FACP (refer to "FACP CONFIG (Application Templates)" on page 50). As an example, if

Template 7 was programmed as the FACP configuration, the following screen will be displayed:

READ FACP CONFIG

TEMPLATE 7

SINGLE HAZARD

X-ZONE MAN REL SW

4.16.2 Input Zones

Pressing 2 while viewing Read Status Screen #1 will cause the following screens to be displayed:

READ INPUT ZONES

1=ZONE 1

2=ZONE 2

3=ZONE 3

Pressing the down arrow key will allow the selection of Zones 4-6.

The operator selects the zone which is to be viewed by pressing the number corresponding to the

desired zone in each screen. For example, if 1 is pressed in the first screen, the display will change

to a screen similar to the following:

READ INPUT ZONE 1

PULL STATION

Normal

PRESS TO VIEW

Pressing the down arrow key, while viewing the screen shown above, will allow the operator to

view additional programming information about the selected device, such as:

•

Enable/Disable Status

Device Type

Output Circuit MAP

Adjective/Noun descriptor

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Operating Instructions

Read Status

4.16.3 Output Circuits

Pressing 3 while viewing Read Status Screen #1 will display the following screens:

READ OUTPUTS

1=OUTPUT 1

2=OUTPUT 2

3=OUTPUT 3

READ STATUS

1=FACP CONFIG

2=INPUT ZONES

Read Outputs Screen #1

3=OUTPUT CIRCUITS

Read Status Screen #1

READ OUTPUTS

1=OUTPUT 4

Read Outputs Screen #2

The operator can press 1 to view the programmed options for Output 1, 2 to view the programmed

options for Output 2, 3 to view the programmed options for Output 3 or 4 to view the programmed

options for Output 4.

The resulting screens will display the following information:

•

Enable/Disable Status

Circuit Type

Silenceable/Nonsilenceable

Auto Silence Enable/Disable and time delay (in minutes)

Silence Inhibit Enabled/Disabled

Coding Selection (Temporal, Steady, etc.)

4.16.4 Cross Input Zones

READ STATUS

Pressing 1 while viewing Read Status Screen #2 will display the following screens:

1=CROSS INPUT ZONES

2=ON-BOARD RELAYS

3=SYSTEM SETTINGS

CROSS INPUT ZONES

1=RELEASE 1

2=RELEASE 2

Read Status Screen #2

Cross Input Zone Screen

Pressing 1 for Release 1 or 2 for Release 2 will display the cross-zoning, if any, for the selected

Releasing Circuit as illustrated in the following screen:

CROSS ZONE REL 1

X 1 4

NONE

Cross Input Zone Screen

The Cross Zone Release screen displays the zones that have been cross-zoned. In this example,

Zone 1 is cross-zoned with Zone 4.

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Read Status

Operating Instructions

4.16.5 On-Board Relays

Pressing 2 while viewing Read Status Screen #2 will display the following screen:

ON-BOARD RELAYS

RELAY 1

RELAY 2

RELAY 3

ALARM

TROUBLE

SUPERVSRY

This screen allows the operator to view the programmed option for each relay.

4.16.6 System Settings

Pressing 3 while viewing Read Status Screen #2 will display the following screens:

SYSTEM SETTINGS

FUTURE USE

TROUBLE REMIND

CHARGER DISABLE NO

SYSTEM SETTINGS

FACTORY BANNER

The operator can view the system settings options that have been programmed into the FACP.

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Operating Instructions

Read Status

4.16.7 Timers

Pressing 1 while Read Status Screen #3 will display the following screens:

TIMERS

SOAK 1 10 MIN

SOAK 2 10 MIN

WATERFLOW DELAY 0 S

READ STATUS

1=TIMERS

2=DAYLIGHT SAVINGS

3=HISTORY

Read Status Screen #3

TIMERS

AC LOSS DELAY 2 HR

These screens allow the operator to view the various timer settings.

4.16.8 Daylight Savings

Pressing 2 while Read Status Screen #3 will cause the following screens to be displayed:

DAYLIGHT SAVINGS

ENABLED

START MONTH

START WEEK

YES

MAR

WK 2

DAYLIGHT SAVINGS

END MONTH

END WEEK

NOV

WK 1

These screens allow the operator to view settings that have been programmed for Daylight Savings

Time.

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Read Status

Operating Instructions

4.16.9 History

Pressing 3 while viewing Read Status Screen #3 will display the following screens:

HISTORY

1=VIEW ALL

2=VIEW ALARMS

3=VIEW OTHER EVENTS

The operator can view all events which have been stored in the history file, only alarms or other

events, such as troubles or supervisories, by pressing the corresponding number key.

4.16.10 PRINT

READ STATUS

To print control panel data, press 1 while viewing Read Status Screen #4. This allows printing to

1=PRINT

the printer connected to the ANN-S/PG module. The following screens will be displayed:

2=ANN-BUS

Read Status Screen #4

1=HISTORY

2=WALKTEST LOG

3=EXIT PRINTING

Pressing 1 allows the user to print the History file which will detail all of the system activities since

the file was last cleared from memory.

Pressing 2 allows the user to print the Walktest log which will detail all of the system activations

during walktest since the log was last cleared. Refer to "Walktest" on page 79 for additional

information on the display.

Pressing 3 will exit the Print operation.

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Operating Instructions

Read Status

4.16.11 ANN-BUS

Pressing 2 while viewing Read Status Screen #4 will display the settings for the ANN-BUS options

as shown in the following screens:

ANN-BUS

BUS ENABLED

1=BUS MODULES

2=ANN-S/PG OPTIONS

ANN-BUS Screen #1

ANN-BUS

1=ANN-80 OPTION

2=ANN-RLY OPTIONS

ANN-BUS Screen #2

ANN-BUS Screen #1 indicates whether the ANN-BUS is enabled (Yes/No).

Pressing 1 while viewing ANN-BUS Screen #1 will display BUS Module addresses 1-8 and the

devices, if any, located at those addresses.

Pressing 2 while viewing ANN-BUS Screen #1 will display the programmed options for the ANN-

S/PG Module devices connected to the ANN-BUS.

Pressing 1 while viewing ANN-BUS Screen #2 will display the programmed options for the ANN-

80 LCD annunciators connected to the ANN-BUS.

Pressing 2 while viewing ANN-BUS Screen #2 will display the programmed options for the ANN-

RLY devices connected to the ANN-BUS.

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Overview

Power Supply Calculations

SECTION 5

Power Supply Calculations

5.1 Overview

This section contains instructions and tables for calculating power supply currents in alarm and

standby conditions. This is a four-step process, consisting of the following:

1. Calculating the total amount of AC branch circuit current required to operate the system

2. Calculating the power supply load current for non-fire and fire alarm conditions and calcu-

lating the secondary (battery) load

3. Calculating the size of batteries required to support the system if an AC power loss occurs

4. Selecting the proper batteries for your system

5.2 Calculating the AC Branch Circuit

The control panel requires connection to a separate, dedicated AC branch circuit, which must be

labeled FIRE ALARM. This branch circuit must connect to the line side of the main power feed

of the protected premises. No other non-fire alarm equipment may be powered from the fire alarm

branch circuit. The branch circuit wire must run continuously, without any disconnect devices,

from the power source to the control panel. Overcurrent protection for this circuit must comply

with Article 760 of the National Electrical Codes as well as local codes. Use 14 AWG (2.00 mm²)

wire with 600 volt insulation for this branch circuit.

Use Table 5-1 , to determine the total amount of current, in AC amperes (A), that must be supplied

to the system.

TABLE 5-1:120 VAC Branch Circuit Requirements

Number of

Devices

Current Draw

(AC amps)

Total Current per

Device

Device Type

MRP-2001

3.66

2.085

MRP-2001E

[

]

[

]

Sum Column for AC Branch Current Required

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Power Supply Calculations

Calculating the System Current Draw

5.3 Calculating the System Current Draw

5.3.1 Overview

The control panel must be able to power all internal and external devices continuously during the

non-fire alarm condition. To calculate the non-fire alarm load on the system power supply when

primary power is applied, use Calculation Column 1 in Table 5-3 on page 101. The control panel

must support a larger load current during a fire alarm condition. To calculate the fire alarm load on

the power supply, use Calculation Column 2 in Table 5-3 on page 101. The secondary power

source (batteries) must be able to power the system during a primary power loss. To calculate the

non-fire alarm load on the secondary power source, use Calculation Column 3 in Table 5-3 on page

101.

When calculating current draw and the battery size, note the following:

• ‘Primary’ refers to the main power source for the control panel

• ‘Secondary’ refers to the control panel’s backup batteries

• All currents are given in amperes (A). Table 5-2 shows how to convert milliamperes and

microamperes to full amperes.

TABLE 5-2:Converting to Full Amperes

To convert...

Multiply

Example

Milliamperes (mA) to

amperes (A)

mA x 0.001

3 mA x 0.001 = 0.003A

Microamperes (µA) to

amperes (A)

µA x 0.000001

300 µA x 0.000001 = 0.0003 A

5.3.2 How to Use Table 5-3 on page 101 to Calculate System Current Draw

Use Table 5-3 on page 101 to calculate current draws as follows:

1. Enter the quantity of devices in all three columns

2. Enter the current draw where required. Refer to the Device Compatibility Document for

compatible devices and their current draw

3. Calculate the current draws for each in all columns

4. Sum the total current for each column

5. Copy the totals from Column 2 and Column 3 to Table 5-4 on page 102

Following are the types of current that can be entered into Table 5-3 on page 101:

ꢀ

Calculation Column 1 - The primary supply current load that the control panel must

support during a non-fire alarm condition, with AC power applied.

Calculation Column 2 - The primary supply current load that the control panel must

support during a fire alarm condition, with AC power applied.

Calculation Column 3 - The standby current drawn from the batteries in a non-fire

alarm condition during a loss of AC power.

100

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Calculating the System Current Draw

Power Supply Calculations

Table 5-3 contains three columns for calculating current draws. For each column, calculate the

current and enter the total (in amperes) in the bottom row. When finished, copy the totals from Cal-

culation Column 2 and Calculation Column 3 to Table 5-4 on page 102.

TABLE 5-3:System Current Draw Calculations

Calculation Column 1

Primary, Non-Fire Alarm Current

(amps)

Calculation Column 2

Primary, Fire Alarm Current

(amps)

Calculation Column 3

Secondary, Non-Fire Alarm Current

(amps)

Device Type

Qty

X[current draw]=

X[0.122]=

Total

Qty

X [current draw] =

Total

Qty

X[current draw]=

X[0.122]=

Total

Main Circuit Board

CAC-5X

0.122

0.185

0.122

X[0.185] =

[

]

X[0.001]=

[

]

X[0.001]=

[

]

X[0.001]=

4XTMF

X[0.005]=

X[0.011] =

ANN-80

X[0.037]=

X[0.040]=

X[0.037]=

2-wire Detector Heads

4-wire Detector Heads

Power Supervision

] =

[

]

X[0.025]=

[

]

X[0.025]=

[

]

X[0.025]=

Relays

[

]

NAC #1

NAC #2

NAC #3

NAC #4

Current Draw from

[

TB9 (nonalarm )

Sum each column

for totals

Primary Non-Alarm =

Primary Alarm =

Secondary Non-Alarm =

Table Footnote

1. If using the Reverse Polarity Alarm output, add 0.005 amps; if using the Reverse Polarity Trouble output, add another 0.005

amps.

2. Refer to the Device Compatibility Document for standby current.

3. Must use compatible listed Power Supervision Relay.

4. Current limitation of Terminal TB5 circuits is 3.0 amps per NAC

5. The total standby current must include both the resettable (TB9 Terminals 3 & 4) and nonresettable/resettable (TB9 Terminals 1

& 2) power. Caution must be taken to ensure that current drawn from these outputs during alarm does not exceed maximum rat-

ings specified. Current limitations of TB9, Terminals 1 & 2 = 0.500 amps, filtered, 24 VDC +/-5%, 120 Hz ripple @ 10 mV_RMS

nonresettable power and TB9, Terminals 3 & 4 = 0.500 amps, filtered, 24 VDC +/-5%, 120 Hz ripple @ 10mV_RMS, resettable

power.

6. Total current draw listed above cannot exceed 7.0 amps

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101

Power Supply Calculations

Calculating the Battery Size

5.4 Calculating the Battery Size

Use Table 5-4 to calculate the total Standby and Alarm load in ampere hours (AH). This total load

determines the battery size (in AH), required to support the control panel under the loss of AC

power. Complete Table 5-4 as follows:

1. Enter the totals from Table 5-3 on page 101, Calculation Columns 2 and 3 where shown

2. Enter the NFPA Standby and Alarm times (refer to ‘NFPA Requirements’ below)

3. Calculate the ampere hours for Standby and Alarm, then sum the Standby and Alarm

ampere hours

4. Multiply the sum by the derating factor of 1.2 to calculate the proper battery size (in AH)

5. Write the ampere hour requirements on the Protected Premises label located inside the cabi-

net door

TABLE 5-4:Total Secondary Power Requirements at 24 VDC

Secondary Standby Load

(total from Table 5-3 Calculation

Column 3)

Required Standby Time

(24 hours)

[

]

Primary Alarm Load

(total from Table 5-3 Calculation

Column 2)

Required Alarm Time

(for 5 min., enter 0.084,

for 10 min., enter 0.168)

[

]

Sum of Standby and Alarm Ampere Hours

Multiply by the Derating Factor

X 1.2

Battery Size, Total Ampere Hours Required

5.4.1 NFPA Battery Requirements

NFPA 72 Local, Central and Proprietary Fire Alarm Systems require 24 hours of standby power

followed by 5 minutes in alarm

5.4.2 Selecting and Locating Batteries

Select batteries that meet or exceed the total ampere hours calculated in Table 5-4 . The control

panel can charge batteries in the 7 AH to 26 AH range. The control panel cabinet is capable of

housing batteries up to 18 AH. Batteries larger than 18 AH require the BB-26, BB-55 or other UL

listed external battery cabinet.

102

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Input-to-Output Circuit Mapping and Cross-Zone Operation

Circuit Mapping and Cross-Zoning

APPENDIX A

Circuit Mapping and Cross-Zoning

A.1 Input-to-Output Circuit Mapping and Cross-Zone Operation

The flexible cross-zoning and input-to-output (I/O) mapping capability of this fire panel provides a

powerful toolset to accommodate many site-specific configurations. To simplify initial setup,

preconfigured application templates that employ cross-zoning and I/O mapping are included from

the factory. Refer to "FACP Configuration Templates" on page 108 for a description of each

supplied template.

The following sections provide some examples of setting up your own cross-zoned or I/O mapped

system.

The Installer is responsible for completely testing the proper operation of the fire panel as set

up by programming.

Notes:

1. Any general system trouble, such as a battery fault, will activate any output circuit

programmed as TROUBLE NAC in the OUTPUT CIRCUITS menu. Circuit mapping does

not apply.

2. Any input zone programmed for supervisory operation or as a DISABLE RELEASE switch in

the INPUT CIRCUITS menus will activate any output circuit programmed as SUPV BELL

NAC in the OUTPUT CIRCUITS menus. Circuit mapping does not apply.

3. The programming menus will prevent you from mapping any incompatible input zone and

output circuit types together, such as mapping a supervisory input zone to a releasing output

circuit.

4. Timers and/or delays are not represented in these examples.

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103

Circuit Mapping and Cross-Zoning

Input-to-Output Circuit Mapping and Cross-Zone Operation

A.1.1 Mapping Input Zones to Output Circuits for Direct Activation

Using the INPUT ZONES menus, you can assign any input zone to directly activate (without cross-

zoning) any of the four output circuits provided they are assigned matching operational types (see

the OUTPUT CIRCUIT MAP menu within the INPUT ZONES menus).

Example 1: A waterflow input zone assigned to directly activate an alarm output circuit by setting

the OUTPUT CIRCUIT MAP assignment to YES.

•

Output Circuit 1 is programmed as alarm NAC using the OUTPUT CIRCUITS menus.

Output Circuit 2 is programmed as Release Circuit 1 using the OUTPUT CIRCUITS menus.

Output Circuit 3 is programmed as Release Circuit 2 using the OUTPUT CIRCUITS menus.

Output Circuit 4 is programmed as supervisory NAC using the OUTPUT CIRCUITS menus.

Input Zone 1 is programmed as a waterflow zone using the INPUT ZONES menus.

Waterflow Input Zone 1 will directly activate Output Circuit 1 (Alarm NAC) but not Output

Circuits 2, 3 or 4.

ZONE 1 TYPE

1=N/A

2=WATERFLOW

3=WATERFLOW NS

OUTPUT MAP ZONE 1

1=ALARM NAC

2=RELEASE 1

3=RELEASE 2

YES

OUTPUT MAP ZONE 1

1=SUPV BELL NAC

N/A

Example 2: A single hazard application where a smoke detector input zone will directly activate

both an alarm NAC circuit and a releasing output circuit.

•

Output Circuit 1 is programmed as alarm NAC using the OUTPUT CIRCUITS menus.

Output Circuit 2 is programmed as Release Circuit 1 using the OUTPUT CIRCUITS menus.

Output Circuit 3 is programmed as waterflow NAC using the OUTPUT CIRCUITS menus.

Output Circuit 4 is programmed as supervisory NAC using the OUTPUT CIRCUITS menus.

Input Zone 1 is programmed as a smoke detector zone using the INPUT ZONES menus.

Smoke detector Input Zone 1 will directly activate Output Circuits 1 (Alarm NAC) and 2 (Release

1) but not output circuits 3 or 4.

ZONE 1 TYPE

1=COMBO

2=COMBO W/AR. SUPERV

3=2-WIRE SMOKE

OUTPUT MAP ZONE 1

1=ALARM NAC

2=RELEASE 1

3=WATERFLOW NAC

YES

OUTPUT MAP ZONE 1

1=SUPV BELL NAC

N/A

104

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Input-to-Output Circuit Mapping and Cross-Zone Operation

Circuit Mapping and Cross-Zoning

A.1.2 Mapping Input Zones to Release Circuits for Cross Zone

Activation

Using the OUTPUT CIRCUITS menus, this fire panel will allow you to assign a release circuit type

of operation to any two of the four output circuits. Up to two releasing circuits (or hazards), called

RELEASE 1 and RELEASE 2, may be created. Input zones may be assigned in various ways to

activate either one or both of the release circuits. The fire panel treats RELEASE 1 and RELEASE

2 functions independently from each other, although they may share input circuits for activation.

Cross-zoning is set up in the CROSS INPUT ZONES menus, where you can create up to three

groups of input zones for each release circuit. When cross zone groups have been set up, the

OUTPUT CIRCUIT MAP associated with the input zones will automatically show YES for release

output circuits. This extremely flexible cross-zone with grouping capability is used in the

following examples.

Example 3: A single hazard, cross-zoned application using two smoke detector input zones and

one releasing output circuit. Input Zones 1 and 2 are cross-zoned to activate output circuit 2, which

is programmed as a RELEASE 1.

•

Output Circuit 1 is programmed as alarm NAC using the OUTPUT CIRCUITS menus.

Output Circuit 2 is programmed as Release Circuit 1 using the OUTPUT CIRCUITS menus.

Output Circuit 3 is programmed as alarm NAC using the OUTPUT CIRCUITS menus

Output Circuit 4 is programmed as supervisory NAC using the OUTPUT CIRCUITS menus.

Either of smoke detector Input Zones 1 or 2 will directly activate Output Circuit 1 (Alarm

NAC).

•

Smoke detector Input Zone 2 will also directly activate Output Circuit 3 (Alarm NAC) but

not Output Circuits 2 or 4.

Smoke detector Input Zones 1 and 2 are cross-zoned (both must be in alarm) to activate

Output Circuit 2 (Release 1) but not Output Circuit 4.

ZONE 1 TYPE

1=COMBO

2=COMBO W/AR. SUPERV

3=2-WIRE SMOKE

ZONE 2 TYPE

1=COMBO

2=COMBO W/AR. SUPERV

3=2-WIRE SMOKE

OUTPUT MAP ZONE 1

OUTPUT MAP ZONE 2

1=ALARM NAC

2=RELEASE 1

3=ALARM NAC

YES

1=ALARM NAC

YES

2=RELEASE 1

3=ALARM NAC

OUTPUT MAP ZONE 1

OUTPUT MAP ZONE 2

1=SUPV BELL NAC

N/A

1=SUPV BELL NAC

N/A

REL 1 CROSS GROUP 1

1=ZONE 1

2=ZONE 2

3=ZONE 3

YES

MRP-2001 & MRP-2001E PN 53040:A 4/16/2007

105

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Circuit Mapping and Cross-Zoning

Input-to-Output Circuit Mapping and Cross-Zone Operation

Example 4: A dual hazard, cross-zoned application using four input zones and two releasing output

circuits. Input Zones 1 and 2 are cross-zoned to activate Output Circuit 2, which is programmed as

RELEASE 1. Input Zones 3 and 4 are cross-zoned to activate Output Circuit 3, which is

programmed as a RELEASE 2.

•

Output Circuit 1 is programmed as alarm NAC using the OUTPUT CIRCUITS menus.

Output Circuit 2 is programmed as Release Circuit 1 using the OUTPUT CIRCUITS menus.

Output Circuit 3 is programmed as Release Circuit 2 using the OUTPUT CIRCUITS menus

Output Circuit 4 is programmed as supervisory NAC using the OUTPUT CIRCUITS menus.

Any of smoke detector Input Zones 1 through 4 will directly activate Output Circuit 1 (Alarm

NAC) but not Output Circuits 2, 3 or 4.

•

Smoke detector Input Zones 1 and 2 are cross-zoned (both must be in alarm) to activate

Output Circuit 2 (Release 1) but not Output Circuits 3 or 4.

Smoke detector Input Zones 3 and 4 are cross-zoned (both must be in alarm) to activate

Output Circuit 3 (Release 2) but not Output Circuits 2 or 4.

ZONE 1 TYPE

1=COMBO

2=COMBO W/AR. SUPERV

ZONE 3 TYPE

1=COMBO

2=COMBO W/AR. SUPERV

3=2-WIRE SMOKE

ZONE 2 TYPE

1=COMBO

2=COMBO W/AR. SUPERV

3=2-WIRE SMOKE

ZONE 4 TYPE

1=COMBO

2=COMBO W/AR. SUPERV

3=2-WIRE SMOKE

OUTPUT MAP ZONE 1

OUTPUT MAP ZONE 2

1=ALARM NAC

2=RELEASE 1

3=RELEASE 2

YES

1=ALARM NAC

2=RELEASE 1

3=RELEASE 2

YES

OUTPUT MAP ZONE 1

OUTPUT MAP ZONE 2

1=SUPV BELL NAC

N/A

1=SUPV BELL NAC

N/A

OUTPUT MAP ZONE 4

OUTPUT MAP ZONE 3

1=ALARM NAC

2=RELEASE 1

3=RELEASE 2

YES

1=ALARM NAC

2=RELEASE 1

3=RELEASE 2

YES

OUTPUT MAP ZONE 3

OUTPUT MAP ZONE 4

1=SUPV BELL NAC

N/A

1=SUPV BELL NAC

N/A

REL 1 CROSS GROUP 1

REL 2 CROSS GROUP 1

1=ZONE 1

2=ZONE 2

3=ZONE 3

YES

1=ZONE 1

2=ZONE 2

3=ZONE 3

YES

REL 2 CROSS GROUP 1

1=ZONE 4

2=ZONE 5

3=ZONE 6

YES

106

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Input-to-Output Circuit Mapping and Cross-Zone Operation

Circuit Mapping and Cross-Zoning

A.1.3 Complex Examples of Cross Zoning and I/O Mapping for

Release Circuits

Following are some complex examples of cross-zoning for more demanding applications that are

possible with this fire panel. Input zone entries in a single cross-zone group are effectively

AND’ed together while the cross-zone groups are effectively OR’ed together. For the purpose of

describing this, the following language is used:

RELEASE 1

RELEASE 2

INPUT ZONE 1

INPUT ZONE 2

INPUT ZONE 3

INPUT ZONE 4

INPUT ZONE 5

INPUT ZONE 6

AND

any input zone may cause a release

all input zones must be active for a release

Example 5: Release Circuit 1 activates if either Input Zone 1 or 2 are active in addition to Input

Zone 3 being active.

•

R1 = (Z1 AND Z3) OR (Z2 AND Z3)

Set Zones 1 and 3 to YES in Cross Zoning Group 1 for RELEASE 1 in the CROSS INPUT

ZONES menus.

•

Set Zones 2 and 3 to YES in Cross Zoning Group 2 for RELEASE 1 in the CROSS INPUT

ZONES menus.

Set all other zones to NO in Cross Zoning Groups 1, 2 and 3 for RELEASE 1 in the CROSS

INPUT ZONES menus.

Example 6: Release Circuit 1 activates if Input Zones 1 and 2 and 3 are all active.

•

R1 = Z1 AND Z2 AND Z3

Set Zones 1, 2 and 3 to YES in Cross Zoning Group 1 for RELEASE 1 in the CROSS INPUT

ZONES menus.

•

Set all other zones to NO in Cross Zoning Groups 1, 2 and 3 for RELEASE 1 in the CROSS

INPUT ZONES menus.

Example 7: Release Circuit 1 activates if Input Zones 1 and 2 and 3 are all active. Release Circuit

2 activates if Input Zones 2 and 3 and 4 are all active.

•

R1 = Z1 AND Z2 AND Z3

R2 = Z2 AND Z3 AND Z4

Set Zones 1, 2 and 3 to YES in Cross Zoning Group 1 for RELEASE 1 in the CROSS INPUT

ZONES menus.

•

Set Zones 2, 3 and 4 to YES in Cross Zoning Group 1 for RELEASE 2 in the CROSS INPUT

ZONES menus.

Set all other zones to NO in Cross Zoning Groups 1, 2 and 3 for RELEASE 1 in the CROSS

INPUT ZONES menus.

Set all other zones to NO in Cross Zoning Groups 1, 2 and 3 for RELEASE 2 in the CROSS

INPUT ZONES menus.

Example 8: Release Circuit 1 activates if Input Zone 1 activates followed in time by Input Zone 2

activating.

•

This kind of sequential reaction is not possible at this time.

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107

FACP Configuration Templates

Input-to-Output Circuit Mapping and Cross-Zone Operation

APPENDIX B

FACP Configuration Templates

The MRP-2001/E has been provided with preprogrammed templates which allow the user to

quickly configure the FACP [refer to "FACP CONFIG (Application Templates)" on page 50]. The

user also has the option to reprogram selected portions of the template for customized applications.

The following pages of this appendix describe the programming for each of the templates.

Note: MRP-2001/E Pre-Action/Deluge Control Panel can be configured using preprogrammed

Templates 7 through 13 only. Template 7 is the factory default template for the FACP.

(Templates 1 through 6 are not available for this panel.)

Important! Each Template has been programmed with specific Input Zone Types and Output

Circuit Types. If the FACP is configured with one of the preprogrammed Templates, the user must

ensure that the devices connected to each Input Zone and Output Circuit are compatible with the

programmed types. (The user can reprogram the circuit types if desired).

108

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Template 7: Single Hazard - 3 Zone

FACP Configuration Templates

B.1 Template 7: Single Hazard - 3 Zone

TEMPLATE 7: SINGLE HAZARD - 3 ZONE

INPUT ZONES

WATERFLOW

PULL

STATION

OUTPUT CIRCUITS

2-WIRE SMOKE

FIRE

MANUAL

RELEASE

SUPV.

#1 ALARM NAC

#2 WATERFLOW NAC

#3 RELEASE SOLENOID 1

#4 SUPV. BELL NAC

Table Legend:

X = direct correlation between Input Zone and Output Circuit (input zone activation will turn on

corresponding output circuit).

Input Zone Types:

•

Zone 1 = 2-wire smoke

Zone 2 = Fire

Zone 3 = Waterflow - no waterflow delay since Waterflow Delay Timer is set to 0

Zone 4 = Manual Release

Zone 5 = Pull Station

Zone 6 = Supervisory

Output Circuit Types:

•

Output 1 = Alarm NAC

Output 2 = Waterflow NAC - no waterflow delay since Waterflow Delay Timer is set to 0

Output 3 = Release Solenoid 1 (unsupervised for shorts)

Output 4 = Supervisory Bell NAC

Timers

•

Soak Timer 1 - set for 10 minutes

Soak Timer 2 - set for 10 minutes

Waterflow Delay Timer - set for 0 seconds

AC Loss Delay Timer - set for 2 hours

Operation

•

Activation of Input Zone 1 (2-Wire Smoke) or Zone 2 (Fire) or Zone 4 (Manual Release) or

Zone 5 (Pull Station) will operate the Alarm NAC Output #1 and Release Solenoid 1 Output

#3. Release Solenoid 1 will turn off water release following time-out of the 10 minute Soak

Timer 1

•

Activation of Input Zone 3 (Waterflow) will operate the Waterflow NAC Output #2. There is

no FACP initiated delay in activation since the Waterflow Delay Timer is set to 0 seconds

Activation of Input Zone 6 (Supervisory) will operate the Supervisory Bell NAC Output #4

FACP Relay Operation

The following description of FACP relay operations are in addition to normal system operation.

•

Alarm Relay - activation of Input Zone 1 (2-Wire Smoke) or Zone 2 (Fire) or Zone 3

(Waterflow - with Waterflow Delay time) or Zone 4 (Manual Release) or Zone 5 (Pull

Station) will operate Alarm Relay

•

Trouble Relay - any system trouble will activate the Trouble Relay

Supervisory - activation of Zone 6 (Supervisory) will operate the Supervisory Relay

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109

FACP Configuration Templates

Template 8: Single Hazard - Cross-Zone With Manual Release

B.2 Template 8: Single Hazard - Cross-Zone With Manual Release

TEMPLATE 8: CROSS-ZONE WITH MANUAL RELEASE SWITCH

INPUT ZONES

PULL

STATION

OUTPUT CIRCUITS

2-WIRE SMOKE

FIRE

WATERFLOW

MANUAL

RELEASE

SUPV.

#1 ALARM NAC

#2 WATERFLOW NAC

#3 RELEASE SOLENOID 1

#4 SUPV. BELL NAC

Table Legend:

X = direct correlation between Input Zone and Output Circuit (input zone activation will turn on corresponding

output circuit).

Cx = cross-zone where x is the number of the Release Solenoid. All inputs with the same Release Solenoid

number must be active at the same time to turn on the corresponding solenoid output circuit

Input Zone Types:

•

Zone 1 = 2-wire smoke

Zone 2 = Fire

Zone 3 = Waterflow - activation delayed for 60 seconds (Waterflow Delay set to 60 secs.)

Zone 4 = Manual Release

Zone 5 = Pull Station

Zone 6 = Supervisory

Output Circuit Types:

•

Output 1 = Alarm NAC

Output 2 = Waterflow NAC - activation delayed for 60 seconds (Waterflow Delay set to 60 sec)

Output 3 = Release Solenoid 1 (unsupervised for shorts)

Output 4 = Supervisory Bell NAC

Timers

•

Soak Timer 1 - set for 10 minutes

Soak Timer 2 - set for 10 minutes

Waterflow Delay Timer - set for 60 seconds

AC Loss Delay Timer - set for 2 hours

Operation

•

Activation of both Input Zone 1 (2-Wire Smoke) and Zone 2 (Fire) at the same time, or Zone

4 (Manual Release) or Zone 5 (Pull Station) will operate the Release Solenoid 1 Output #3.

Release Solenoid will turn off water release following time-out of the 10 minute Soak Timer

1. Activation of any one of these zones will operate Alarm NAC Output #1

•

Activation of Input Zone 3 (Waterflow) will operate the Waterflow NAC Output #2. There is

a 60 second FACP initiated delay in activation since Waterflow Delay Timer is set to 60

seconds

Activation of Input Zone 6 (Supervisory) will operate the Supervisory Bell NAC Output #4

FACP Relay Operation

The following description of FACP relay operations are in addition to normal system operation.

•

Alarm Relay - activation of Input Zone 1 (2-Wire Smoke) or Zone 2 (Fire) or Zone 3

(Waterflow - with Waterflow Delay time) or Zone 4 (Manual Release) or Zone 5 (Pull

Station) will operate Alarm Relay

•

Trouble Relay - any system trouble will activate the Trouble Relay

Supervisory - activation of Zone 6 (Supervisory) will operate the Supervisory Relay

110

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Template 9: Dual Hazard - Combined Release

FACP Configuration Templates

B.3 Template 9: Dual Hazard - Combined Release

TEMPLATE 9: DUAL HAZARD - COMBINED RELEASE

INPUT ZONES

PULL

STATION

OUTPUT CIRCUITS

2-WIRE SMOKE

FIRE

WATERFLOW

MANUAL

RELEASE

SUPV.

#1 ALARM NAC

#2 SUPV BELL NAC

#3 RELEASE SOLENOID 1

#4 RELEASE SOLENOID 2

Table Legend:

X = direct correlation between Input Zone and Output Circuit (input zone activation will turn on corresponding

output circuit).

Input Zone Types:

•

Zone 1 = 2-wire smoke

Zone 2 = Fire

Zone 3 = Waterflow - activation delayed for 10 seconds (Waterflow Delay set to 10 secs.)

Zone 4 = Manual Release

Zone 5 = Pull Station

Zone 6 = Supervisory

Output Circuit Types:

•

Output 1 = Alarm NAC

Output 2 = Supervisory Bell NAC

Output 3 = Release Solenoid 1 (unsupervised for shorts)

Output 4 = Release Solenoid 2 (unsupervised for shorts)

Timers

•

Soak Timer 1 - set for 10 minutes

Soak Timer 2 - set for 10 minutes

Waterflow Delay Timer - set for 10 seconds

AC Loss Delay Timer - set for 2 hours

Operation

•

Activation of Input Zone 1 (2-Wire Smoke) or Zone 2 (Fire) or Zone 4 (Manual Release) or

Zone 5 (Pull Station) will operate the Alarm NAC Output #1, Release Solenoid 1 Output #3

and Release Solenoid 2 Output #4. Release Solenoid 1 will turn off water release following

time-out of the 10 minute Soak Timer 1 and Release Solenoid 2 will turn off water release

following time-out of the 10 minute Soak Timer 2

•

Activation of Input Zone 3 (Waterflow) will operate the Alarm NAC Output #1. There is a

10 second FACP initiated delay in activation since Waterflow Delay Timer is set to 10

seconds

Activation of Input Zone 6 (Supervisory) will operate the Supervisory Bell NAC Output #2

FACP Relay Operation

The following description of FACP relay operations are in addition to normal system operation.

•

Alarm Relay - activation of Input Zone 1 (2-Wire Smoke) or Zone 2 (Fire) or Zone 3

(Waterflow - with Waterflow Delay time) or Zone 4 (Manual Release) or Zone 5 (Pull

Station) will operate Alarm Relay

•

Trouble Relay - any system trouble will activate the Trouble Relay

Supervisory - activation of Zone 6 (Supervisory) will operate the Supervisory Relay

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111

FACP Configuration Templates

Template 10: Dual Hazard - Split Release

B.4 Template 10: Dual Hazard - Split Release

TEMPLATE 10: DUAL HAZARD - SPLIT RELEASE

INPUT ZONES

PULL

STATION

OUTPUT CIRCUITS

2-WIRE SMOKE

FIRE

WATERFLOW

SUPV.

MANUAL

RELEASE

#1 ALARM NAC

#2 SUPV BELL NAC

#3 RELEASE SOLENOID 1

#4 RELEASE SOLENOID 2

Table Legend:

X = direct correlation between Input Zone and Output Circuit (input zone activation will turn on corresponding

output circuit).

Input Zone Types:

•

Zone 1 = 2-wire smoke

Zone 2 = Fire

Zone 3 = Waterflow - activation delayed for 10 seconds (Waterflow Delay Timer 10 set to secs.)

Zone 4 = Supervisory

Zone 5 = Manual Release

Zone 6 = Pull Station

Output Circuit Types:

•

Output 1 = Alarm NAC

Output 2 = Supervisory Bell NAC

Output 3 = Release Solenoid 1 (unsupervised for shorts)

Output 4 = Release Solenoid 2 (unsupervised for shorts)

Timers

•

Soak Timer 1 - set for 10 minutes

Soak Timer 2 - set for 10 minutes

Waterflow Delay Timer - set for 10 seconds

AC Loss Delay Timer - set for 2 hours

Operation

•

Activation of Input Zone 1 (2-Wire Smoke) will operate Release Solenoid 1 Output #3 and

Alarm NAC Output #1. Activation of Input Zone 2 (Fire) will operate Release Solenoid 2

Output #4 and Alarm NAC Output #1. Activation of Input 5 (Manual Release) or Input 6

(Manual Pull Station) will operate Solenoid 1 Output #3 and Solenoid 2 (Output #4) and

Alarm NAC Output #1. Release Solenoid 1 will turn off water release following time-out of

the 10 minute Soak Timer 1 and Release Solenoid 2 will turn off water release following

time-out of the 10 minute Soak Timer 2

•

Activation of Input Zone 3 (Waterflow) will operate the Alarm NAC Output #1. There is a

10 second FACP initiated delay in activation since Waterflow Delay Timer is set to 10

seconds

Activation of Input Zone 4 (Supervisory) will operate the Supervisory Bell NAC Output #2

FACP Relay Operation

The following description of FACP relay operations are in addition to normal system operation.

•

Alarm Relay - activation of Input Zone 1 (2-Wire Smoke) or Zone 2 (Fire) or Zone 3

(Waterflow - with Waterflow Delay time) or Zone 5 (Manual Release) or Zone 6 (Pull

Station) will operate Alarm Relay

•

Trouble Relay - any system trouble will activate the Trouble Relay

Supervisory - activation of Zone 4 (Supervisory) will operate the Supervisory Relay

112

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Template 11: Single Hazard - 3 Zones and Low Pressure

FACP Configuration Templates

B.5 Template 11: Single Hazard - 3 Zones and Low Pressure

TEMPLATE 11: SINGLE HAZARD - 3 ZONES AND LOW PRESSURE

INPUT ZONES

PULL

STATION

OUTPUT CIRCUITS

2-WIRE SMOKE

FIRE

WATERFLOW

MANUAL

RELEASE

LOW

PRESS.

#1 ALARM NAC

#2 WATERFLOW NAC

#3 SUPV. BELL NAC

#4 RELEASE SOLENOID 1

Table Legend:

X = direct correlation between Input Zone and Output Circuit (input zone activation will turn on corresponding

output circuit).

Input Zone Types:

•

Zone 1 = 2-wire smoke

Zone 2 = Fire

Zone 3 = Waterflow - activation delayed for 10 seconds (Waterflow Delay set to 10 secs.)

Zone 4 = Manual Release

Zone 5 = Pull Station

Zone 6 = Low Pressure

Output Circuit Types:

•

Output 1 = Alarm NAC

Output 2 = Waterflow NAC - activation delayed for 10 secs. (Waterflow Delay set to10 secs.)

Output 3 = Supervisory Bell NAC

Output 4 = Release Solenoid 1 (unsupervised for shorts)

Timers

•

Soak Timer 1 - set for 10 minutes

Soak Timer 2 - set for 10 minutes

Waterflow Delay Timer - set for 10 seconds

AC Loss Delay Timer - set for 2 hours

Operation

•

Activation of Input Zone 1 (2-Wire Smoke) or Zone 2 (Fire) or Zone 4 (Manual Release) or

Zone 5 (Pull Station) will operate the Alarm NAC Output #1 and Release Solenoid 1 Output

#4. Release Solenoid 1 will turn off water release following time-out of the 10 minute Soak

Timer 1

•

Activation of Input Zone 3 (Waterflow) will operate the Waterflow NAC Output #2. There is

a 10 second FACP initiated delay in activation since Waterflow Delay Timer is set to 10

seconds

Activation of Input Zone 6 (Low Pressure) will operate the Supervisory Bell NAC Output #3

FACP Relay Operation

The following description of FACP relay operations are in addition to normal system operation.

•

Alarm Relay - activation of Input Zone 1 (2-Wire Smoke) or Zone 2 (Fire) or Zone 3

(Waterflow - with Waterflow Delay time) or Zone 4 (Manual Release) or Zone 5 (Pull

Station) will operate Alarm Relay

•

Trouble Relay - any system trouble will activate the Trouble Relay

Supervisory - activation of Zone 6 (Supervisory) will operate the Supervisory Relay

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FACP Configuration Templates

Template 12: Single Hazard - 2 Zones Cross-Zoned With All Active

B.6 Template 12: Single Hazard - 2 Zones Cross-Zoned With All Active

TEMPLATE 12: SINGLE HAZARD - 2 ZONES CROSS-ZONES WITH ALL ACTIVE

INPUT ZONES

PULL

STATION

OUTPUT CIRCUITS

2-WIRE SMOKE

FIRE

WATERFLOW

MANUAL

RELEASE

LOW

PRESS.

#1 ALARM NAC

#2 WATERFLOW NAC

#3 SUPV. BELL NAC

#4 RELEASE SOLENOID 1

Table Legend:

X = direct correlation between Input Zone and Output Circuit (input zone activation will turn on corresponding

output circuit).

Cx = cross-zone where x is the number of the Release Solenoid. All inputs with the same Release Solenoid

number must be active at the same time to turn on the corresponding solenoid output circuit

Input Zone Types:

•

Zone 1 = 2-wire smoke

Zone 2 = Fire

Zone 3 = Waterflow - activation delayed for 10 seconds (Waterflow Delay set to 10 secs.)

Zone 4 = Manual Release

Zone 5 = Pull Station

Zone 6 = Low Pressure

Output Circuit Types:

•

Output 1 = Alarm NAC

Output 2 = Waterflow NAC - activation delayed for 10 seconds (Waterflow Delay set to 10 secs.)

Output 3 = Supervisory Bell NAC

Output 4 = Release Solenoid 1 (unsupervised for shorts)

Timers

•

Soak Timer 1 - set for 10 minutes

Soak Timer 2 - set for 10 minutes

Waterflow Delay Timer - set for 10 seconds

AC Loss Delay Timer - set for 2 hours

Operation

•

Activation of both Input Zone 1 (2-Wire Smoke) and Zone 2 (Fire) at the same time, or Zone

4 (Manual Release) or Zone 5 (Pull Station) will operate the Release Solenoid 1 Output #4.

Release Solenoid will turn off water release following time-out of the 10 minute Soak Timer

1. Activation of any one of these zones will operate Alarm NAC Output #1

•

Activation of Input Zone 3 (Waterflow) will operate the Waterflow NAC Output #2. There is

a 10 second FACP initiated delay in activation since Waterflow Delay Timer is set to 10

seconds

Activation of Input Zone 6 (Low Pressure) will operate the Supervisory Bell NAC Output #3

FACP Relay Operation

The following description of FACP relay operations are in addition to normal system operation.

•

Alarm Relay - activation of Input Zone 1 (2-Wire Smoke) or Zone 2 (Fire) or Zone 3

(Waterflow - with Waterflow Delay time) or Zone 4 (Manual Release) or Zone 5 (Pull

Station) will operate Alarm Relay

•

Trouble Relay - any system trouble will activate the Trouble Relay

Supervisory - activation of Zone 6 (Supervisory) will operate the Supervisory Relay

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Template 13: Single Hazard - Dual Zone

FACP Configuration Templates

B.7 Template 13: Single Hazard - Dual Zone

TEMPLATE 13: SINGLE HAZARD - DUAL ZONE

INPUT ZONES

PULL

STATION

OUTPUT CIRCUITS

2-WIRE SMOKE

FIRE

LOW

PRESS.

WATERFLOW

MANUAL

RELEASE

#1 ALARM NAC

#2 WATERFLOW NAC

#3 RELEASE SOLENOID 1

#4 WATERFLOW NAC

Table Legend:

X = direct correlation between Input Zone and Output Circuit (input zone activation will turn on

corresponding output circuit).

Input Zone Types:

•

Zone 1 = 2-wire smoke

Zone 2 = Fire

Zone 3 = Low Pressure

Zone 4 = Waterflow - activation delayed for 10 seconds (Waterflow Delay set to 10 secs.)

Zone 5 = Pull Station

Zone 6 = Manual Release

Output Circuit Types:

•

Output 1 = Alarm NAC

Output 2 = Waterflow NAC - activation delayed for 10 seconds (Waterflow Delay set to 10 secs.)

Output 3 = Release Solenoid 1 (unsupervised for shorts)

Output 4 = Waterflow NAC - activation delayed for 10 seconds (Waterflow Delay set to 10 secs.)

Timers

•

Soak Timer 1 - set for 10 minutes

Soak Timer 2 - set for 10 minutes

Waterflow Delay Timer - set for 10 seconds

AC Loss Delay Timer - set for 2 hours

Operation

•

Activation of Input Zone 1 (2-Wire Smoke) or Zone 2 (Fire) or Zone 5 (Pull Station) or

Zone 6 (Manual Release) will operate the Alarm NAC Output #1 and Release Solenoid 1

Output #3. Release Solenoid will turn off water release following time-out of the 10 minute

Soak Timer 1

•

Activation of Input Zone 4 (Waterflow) will operate the Alarm NAC Output #1, Waterflow

NAC Output #2 and Waterflow NAC Output #4. There is a 10 second FACP initiated delay

in activation of these outputs since the Waterflow Delay Timer is set to 10 seconds

Activation of Input Zone 3 (Low Pressure) will not operate any Output Circuits (see Relays)

FACP Relay Operation

The following description of FACP relay operations are in addition to normal system operation.

•

Alarm Relay - activation of Input Zone 1 (2-Wire Smoke) or Zone 2 (Fire) or Zone 3

(Waterflow - with Waterflow Delay time) or Zone 4 (Manual Release) or Zone 5 (Pull

Station) will operate Alarm Relay

•

Trouble Relay - any system trouble will activate the Trouble Relay

Supervisory - activation of Zone 3 (Low Pressure) will operate the Supervisory Relay

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115

NFPA Standard-Specific Requirements

Template 13: Single Hazard - Dual Zone

APPENDIX C

NFPA Standard-Specific Requirements

This 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:

MRP-2001/E Control Panel

Contains the main control board, cabinet (backbox and door), main power supply transformer and

power supply.

Batteries

Refer to "Power Supply Calculations" on page 99, for Standby Power Requirements.

Initiating Devices

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

Notification Appliances

Connected to one of the control panel's Output Circuits.

Releasing Devices

Connected to one of the control panel's Output Circuits.

The following additional equipment is needed for compliance with the NFPA 72 standards listed

below:

NFPA 72 Central Station Service (Protected Premises Unit) or Remote Station Service

411UD may be installed as illustrated in Figure C.1, “FACP Connection to 411UD,”

on page 117

4XTMF Transmitter Module for connection to the RS82 Remote Station Receiver.

See Figure C.3 on page 120, for installation instructions for this unit

NFPA 72 Auxiliary Fire Alarm System

4XTMF Transmitter Module for connection to a compatible listed Local Energy Municipal Box.

This unit must be installed as illustrated in the section titled "4XTMF Municipal Box Transmitter

Option Module" on page 28 and as outlined in Figure C.2, “Municipal Box Connected to 4XTMF

Transmitter Module,” on page 119.

NFPA 72 Proprietary Fire Alarm System

FACP Alarm, Trouble and Supervisory contacts connected to Transmitter(s). See Figure C.4,

“Proprietary Protective Signaling System,” on page 121, for installation instructions for this unit.

The relay contacts of this control panel may be used to trip any dialer that is UL-listed for Central

Station/Remote Station services. The illustrations in this appendix provide examples of possible

system configurations.

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Template 13: Single Hazard - Dual Zone

NFPA Standard-Specific Requirements

The following figure illustrates an example of Central Station/Remote Station Reporting using a

411UD. The relay contacts from the MRP-2001/E may be used to trip any dialer UL-listed for

Central Station/Remote Station Reporting Services.

411UD

Channel1

Channel 2

Channel 3

Channel 4 (2.2K ELR)

Jumper -VDC to Trouble Relay contact

+ 24 VDC nonresettable power

- 24 VDC nonresettable power

J4 Not Installed

Relay Output (DACT Trouble) from 411UD

FACP Supervisory Relay

FACP Trouble Relay

FACP Alarm Relay

2.2K ELRs P/N 27070

1 2 3 4 5 6 7 8 9

FACP

Trouble Input

(nonsupervised,

power-limited)

Figure C.1 FACP Connection to 411UD

MRP-2001 & MRP-2001E PN 53040:A 4/16/2007

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NFPA Standard-Specific Requirements

Template 13: Single Hazard - Dual Zone

411UD

FACP

Alarm

TB2-1

TB2-2

TB2-3

TB2-4

TB2-5

TB2-6

TB8-1

TB8-3

TB8-4

TB8-6

TB8-7

TB8-9

Trouble

Supervisory

Table C.1 411-UD Connections to FACP

Notes:

1. Reference the 411UD Manual for additional information

2. All connections between the control panel and the 411UD must be in conduit, less than 20 ft.

(610 cm) in length in the same room.

3. Any zone of the 411UD can be wired to function as alarm, trouble or supervisory; the 411UD

must be programmed accordingly. In this example, Channel/Zone 1 is wired to the control

panel’s alarm relay, Channel 2/Zone 2 is wired to the control panel’s trouble relay and

Channel 3/Zone 3 is wired to the control panel’s supervisory relay.

4. Nonresettable 24 VDC power is supplied to the 411UD via TB9 terminals configured for

nonresettable power on the FACP. Jumper J4 on the 411UD must be removed for 24 VDC

power.

5. End-of-Line resistors must terminate all 411UD circuits, including unused circuits.

6. Program the 411UD for slave operation.

7. The MRP-2001/E must be programmed for AC Loss Reporting Delay This prevents the

immediate transmission of a trouble on the loss of AC power.

8. A (-)VDC from the 411UD Trouble Contacts will activate the Trouble Input J6 on the FACP.

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NFPA 72 Auxiliary Fire Alarm System

NFPA Standard-Specific Requirements

C.1 NFPA 72 Auxiliary Fire Alarm System

All connections are power-limited and supervised. This application is not suitable for separate

transmission of sprinkler supervisory or trouble conditions.

Notes:

1. 3 ohms maximum loop resistance allowed for wiring from control panel to Municipal Box.

2. Cut JP30 on the MRP-2001/E main circuit board to supervise placement of 4XTMF module

and circuit.

3. Cut JP24 on the MRP-2001/E main circuit board to enable FACP Supervisory relay.

4. Refer to "4XTMF Municipal Box Transmitter Option Module" on page 28 for detailed

information.

Figure C.2 Municipal Box Connected to 4XTMF Transmitter Module

FIRE

Municipal Box

Circuit

Gamewell Model M34-56

Local Energy Municipal Box

Polarities shown in alarm condition

Nonpower-limited

4XTMF

Figure A.2 Municipal Box Connected to 4XTMF Transmitter Module

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119

NFPA Standard-Specific Requirements

NFPA 72 Auxiliary Fire Alarm System

NFPA 72 Remote Station Protective Signaling System

Notes:

1. Cut Jumper JP30 on the MRP-2001/E main circuit board to supervise placement of the

4XTMF module.

2. Refer to "4XTMF Transmitter Module Installation" on page 29 for detailed information.

RS82 Remote Station Receiver UL listed.

Refer to Instruction Manual for Remote Station Receiver

Model RS82.

Polarity Shown is

Normal Standby

Power-limited

(Dummy load with a 4.7KΩ, ¼ watt

resistor when no connection is made)

Cutting TBL Jumper allows the

reverse polarity circuit to open

with a system trouble condition

if no alarm condition exists.

4XTMF Transmitter Module

Figure C.3 Remote Station Connection Using 4XTMF Module

120

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NFPA 72 Auxiliary Fire Alarm System

NFPA Standard-Specific Requirements

NFPA 72 Proprietary Protective Signaling Systems

Fire Alarm Control Panel

FACP Main Circuit Board

Form-C Alarm contact programmed to

activate on General Alarm.

Form-C Trouble contact which will

automatically activate on any Trouble

condition.

Form-C relay contact programmed to

activate on Supervisory condition.

Notes:

1. Connection between the FACP and the

transmitter are supervised by the transmitter.

2. This FACP/Transmitter arrangement can be

employed for NFPA 72 Proprietary

Protective Signaling System.

Figure C.4 Proprietary Protective Signaling System

MRP-2001 & MRP-2001E PN 53040:A 4/16/2007

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NFPA Standard-Specific Requirements

Central Station/Remote Station Transmitter: Connection to FACP Dry

C.2 Central Station/Remote Station Transmitter:

Connection to FACP Dry Contacts

The dry contacts of the MRP-2001/E programmable relays can be used to trip a UL-864 Listed

Central Station/Remote Station Transmitter. The FACP contacts must be supervised by the Central

Station/Remote Station Transmitter module using End-of-Line Resistors (ELRs) with a value

determined by the Transmitter manufacturer. Power is also provided by the Central Station/Remote

Station Transmitter manufacturer. Refer to the Central Station/Remote Station Transmitter

manufacturer’s manual for details.

Typical Central Station/Remote Station Transmitter Module

Typical Input Zone Triggers

*Note: The Trouble Relay is a

fail-safe relay. With power

applied to the FACP and no

troubles in the panel, the wiring

should be connected to the NO

and C contacts as indicated in the

illustration.

Fire Alarm Control Panel

Figure C.5 FACP Dry Contacts Connection to Central Station/Remote Station Transmitter

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Central Station/Remote Station Transmitter: Connection to FACP Dry Contacts

FACP with Keltron

APPENDIX D

FACP with Keltron

The following figure illustrates the connections between the FACP and Keltron Reveiver/

Transmitter.

CAUTION! For reasons of wiring diagram clarity, terminal designations of Keltron modules are

not shown in actual order. Follow Keltron manual and module markings for exact terminal

locations to prevent severe module damage!

IMPORTANT! All connections between the FACP and Keltron modules must be made within 20

feet and enclosed within conduit or equivalently protected against mechanical injury.

Keltron 95M3158 TTM-RPS

1. Terminals 7 and 8: Remote station alarm/trouble inputs.

2. Terminals 9 and 10: Sprinkler supervisory input.

*Note: For more information,

refer to Keltron manual.

Sprinkler Supervisory Signal

Alarm/Trouble Signal

4XTMF Module

Note: Cut TBL jumper on 4XTMF module to send

alarm/trouble signal from the same pair or terminals.

Fire Alarm Control Panel

(terminal blocks are not shown in

their actual positions in order to

clarify wiring connections)

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123

Testing & Maintenance

APPENDIX E

E.1 Testing

Testing

Testing & Maintenance

E.1.1 Inspection

Once installation has been completed, a careful visual inspection should be made before 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.

E.1.2 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 prior to

connecting the releasing solenoids. This precaution will avoid false activation of the suppression

system in case of faulty or improperly placed detectors.

To perform an alarm test on the control panel, proceed with the following steps:

1. Disconnect AC power and battery power

2. Disconnect the installed solenoid valve circuit leads and connect spare solenoid valves or

connect an End-of-Line device to serve as a dummy load

3. Reconnect AC and battery power

4. Initiate a first zone alarm condition by introducing smoke into one of the Zone 1 detectors.

This should cause the first zone alarm condition

ꢀ The red Fire Alarm indicator will illuminate

ꢀ The LCD display will indicate an alarm condition for zone 1

ꢀ The control panel piezo will sound

ꢀ The Alarm relay will energize

ꢀ The devices connected to the Indicating Circuit(s) programmed to activate on Zone 1

alarm will turn on

5. Repeat step 4 for each input zone

6. When testing has been completed, remove AC and battery power, reconnect the solenoid

valve circuits removed in step 2, reconnect AC and battery power and ensure that the control

panel is in normal standby condition

5.4.3 Detector Testing

Detectors must be tested after installation and following maintenance.

Important: Before testing, notify the proper authorities that maintenance is being performed and

the system will be temporarily out of service. Disable the zone or system undergoing maintenance

to prevent any unwanted alarms. Disconnect the installed solenoid valve circuit leads and connect

spare solenoid valves or connect an End-of-Line device to serve as a dummy load to prevent

unwanted water release.

Ensure proper wiring and power is applied. After power-up, allow 80 seconds for the detectors to

stabilize before testing. Refer to System Sensor’s i³Installation and Maintenance Instructions

document I56-1800-00 for device specifications and testing procedures.

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Maintenance

Testing & Maintenance

Test i³Series detectors as follows:

Test Switch

1. An opening for the recessed test switch is located on the detector housing.

2. Insert a small screwdriver or allen wrench (0.18” max.) into the test switch opening; push

and hold.

3. If the detector is within the listed sensitivity limits, the detector’s red LED should light

within five seconds.

Smoke Entry Test

Hold a smoldering punk stick or cotton wick at the side of the detector and gently blow the smoke

through the detector until it alarms.

Note: For the above tests, the detector will reset only after the power source has been momentarily

interrupted.

If a detector fails any of the above test methods, its wiring should be checked and it should be

cleaned as outlined in the Maintenance section of the System Sensor Document. If the detector still

fails, it should be replaced.

Notify the proper authorities when the system is back in service.

E.2 Maintenance

A regular schedule of inspection, testing and maintenance is vital to ensure proper and reliable

operation of the control panel. The procedures should be performed as required by the local

authority having jurisdiction. Refer to NFPA documentation for further details.

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Testing & Maintenance

Maintenance

126

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Index

Numerics

2nd-Shot Water Switch 52

4XTMF 120

BB-55