Fire-Lite MS-4012, MS-4024, CMS-4012, CMS-4024 Instruction Manual

2

R

12 Clintonville Road, Northford, CT 06472 Phone: (203) 484-7161 FAX: (203) 484-7118

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Instruction Manual for the

MS-4012/4024 and CMS-4012/4024

Fire Alarm Control Panels

Document 15586 5/11/93 Revision:

P/N 15586:E ECN 93-119

E

2 15586 Rev E 5/14/93 P/N 15586:E

Table of Contents

Note: This instruction manual covers panels listed by UL (MS-4012 and MS-4024) and by ULC (CMS-4012 and CMS-4024). For simplicity, this document refers to these panels as the "4012" (for the 12-volt MS-4012 and CMS- 4012 control panels) and the "4024" (for the 24-volt MS-4024 and CMS-4024 control panels).

Page

Table of Figures 4

1.0 Fire Alarm Control System 7

1.1 Standard Features 7

1.2 Optional Features 7

2.0 Controls and Indicators 8

2.1 Control Switches 8

2.2 Status Indicators 9

3.0 Installation Instructions 10

3.1 General 10

3.2 Initiating Circuits 10

3.3 Output Circuits 11

3.4 Power 12

3.5 Optional Modules 13

4.0 Periodic Testing 20

4.1 Notification 20

4.2 System Test 20

4.3 Zone Test 20

4.4 Initiating Device Test 20

4.5 Supervisory Test 20

4.6 Trouble Test 21

4.7 Battery Test 21

4.8 Test Completion 21

5.0 Troubleshooting Guide 22

5.1 Control Panel Checkup 23

Appendix A: Specifications 26 Appendix B: Power Calculations 28 Quick Reference Sheets

Inside Back Cover

15586 Rev E 5/14/93 P/N 15586:E 3

Table of Figures

Page

2A Dress Panel 8

3A Zone Wiring 10

3B Dress Panel Terminal Guide 11

3C Indicating Circuit Wiring Diagram 11

3D Typical End of Line Relay Connection 12

3E AC Connections 12

3F Battery and Meter Connections 13

3G Remote Zone Annunciator Installation 14

3H Zone Relay Module Connections 15

3I General Alarm and Trouble Module Connections 16

3J Transmitter Module Connections 17

3K McCulloh-Type Transmitter Connection 18

3L Basic System Wiring Diagram 19

3M Battery Charger Check Procedure 24

4 15586 Rev E 5/14/93 P/N 15586:E

The MS-4012/4024 and CMS-4012/4024 Fire Alarm Control Panels are suitable for service under the following standards:

National Fire Protection Association (NFPA) Standards:

71 Signaling Systems for Central Station Service 72 Local Protective Signaling Systems 72 Auxiliary Protective Signaling Systems 72 Remote Station Protective Signaling Systems 72 Proprietary Protective Signaling Systems

Underwriter's Laboratories (UL) listed as a

Fire Protective Signaling System - Standard 864

Underwriter's Laboratories of Canada (ULC) listed

Standard CAN/ULC - S527 - M87

California State Fire Marshall (CSFM) listed

CSFM File Number: 7165-075:130

Bureau of Standards and Appeals listed

MEAMEA

MEA

MEAMEA

For Compatible Notification Appliances, 2 and 4-wire smoke detectors and door holders, refer to the Fire Lite Device Compatibility Document, 15384.

MEA Resolution Number: 578-81-SA

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A Packaging Note

Each optional module listed in this manual as "40xx" is offered in 12 and 24-volt versions. The "XX" represents either "12" or "24" volts DC.

Each module is further distinguished by its respective two letter abbreviation (such as TM for Transmitter Module).

When received, the actual module boards will be marked as "MS4000 - 40xx" followed by a one letter abbreviation and the letter "B" (

For instance: To order a 24-volt General Alarm and Trouble Module, order a "4024AT".

The module received will be marked "MS4000 - 40xxAB."

for board

).

The voltage of a particular module is inked

on the bottom side of the PC board

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1.0 Fire Alarm Control System

The MS-4012/4024 and CMS-4012/4024 are 4-zone fire alarm control panels designed for use in commercial, industrial, and institutional applications. The 4012 is designed for 12-volt (nominal) devices. The 4024 is designed for 24-volt (nominal) devices. Activation of any compatible two wire detector or any normally open initiating device will sound audible devices, annunciate a fire zone, trip a municipal box, notify a remote station and activate supplementary relay(s).

1.1 Standard features include:

✓✓

✓ 4 Class B (Style B) initiating zones

✓✓ ✓✓

✓ 2 Class B (Style Y) indicating circuits

✓✓ ✓✓

✓ Normally closed supervisory zone

✓✓ ✓✓

✓ Power limited initiating and indicating loops

✓✓ ✓✓

✓ Walk test feature with indicator

✓✓ ✓✓

✓ Disable switches per initiating zone

✓✓ ✓✓

✓ Resettable regulated power for 4-wire smoke detectors

✓✓ ✓✓

✓ Current limited float type charger for sealed batteries

✓✓ ✓✓

✓ Battery supervision

✓✓ ✓✓

✓ Ground fault indicator

✓✓ ✓✓

✓ Extensive transient protection

✓✓ ✓✓

✓ Single Form-C general alarm contact

✓✓ ✓✓

✓ Supervision of option boards

✓✓ ✓✓

✓ Conversion of Zone 4 to a N.O. sprinkler supervisory

✓✓ ✓✓

✓ Waterflow Alarm Service, including two zone waterflow plates (4000 WF) that

✓✓

mechanically lock the disable switch on waterflow zones.

1.2 Optional features include:

Transmitter Module (40xxTM) with reverse polarity alarm and trouble outputs, supervised

✓✓

✓

✓✓

output for local energy municipal box, and transmitter disable switch with indicator. General Alarm and Trouble Module (40xxAT) that provides one Form-C general alarm

✓✓

✓

✓✓

contact with disable switch and one Form-C dry trouble contact with visual trouble indicator. Zone Relay Module (40xxZR) that provides a Form-C alarm contact by zone, Form-A

✓✓

✓

✓✓

general alarm contact and Form-C trouble contact. LED Annunciator Interface Module (40xxLI) for use with a remote zone annunciator (type

✓✓

✓

✓✓

RZA-4).

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2.0 Controls and Indicators

2.1 Control Switches

Trouble Silence switch will si-

lence an audible trouble device. The system trouble LED and the trouble contact will remain activated until the trouble has been corrected. If trouble silence switch is still engaged when trouble is cleared, audible device will resound.

System Test switch while held down will energize an audible trouble device and will light all indicators except the zone alarm LEDs. Upon release of the switch, all zones will go into alarm mode and the supplementary relay(s) will

ALARM

TROUBLE

ALARM

TROUBLE

ALARM

TROUBLE

ALARM

TROUBLE

DISABLE

FIRE ALARM CONTROL

ZONE

1

ZONE

2

ZONE

3

ZONE

4

AC POWER

SYSTEM ALARM

SUPERVISORY

SYSTEM TROUBLE

IND. CIRC. TROUBLE

BATTERY TROUBLE

GROUND FAULT

WALK TEST

SYSTEM RESET

TROUBLE SILENCE

SYSTEM TEST

WALK TEST

be activated.

Figure 2A: Dress Panel

Note: The Supervisory LED may not light during System Test, depending on whether or not Zone 4 is

programmed for supervisory service. To test the Supervisory LED, remove the jumper across Terminals 9 and 10, creating a supervisory condition. If the LED lights, it is good.

Walk Test switch allows one person to test all initiating an indicating devices. The function of this switch is to automatically reset the panel. After receiving an alarm signal, the panel will sound all signaling devices for two seconds and then will reset the panel. The procedure repeats every two to three seconds until the alarm condition is cleared.

Disable switch (per initiating zone) prevents the sounding of alarm indicating devices in response to an alarm condition on that zone. Zone and system trouble LEDs light and the audible trouble device sounds when a respective zone is disabled. Zone alarm LED continues to indicate any alarm condition on disabled zone.

Note: The alarm and trouble contacts on the optional zone relay

module (40xxZR) are NOT disabled by the zone disable switch.

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2.2 Status Indicators

A.C. Power - A green LED that remains on while the A.C. power supply is operating. If this indicator fails to light

under normal conditions, service the system immediately.

System Alarm - A red LED that lights when an alarm condition is detected. Supervisory - A yellow LED that indicates need for action in connection with the supervision or maintenance

of sprinklers, extinguishing systems or other protective systems. System Trouble - This yellow LED indicates that a fault or abnormal condition exists and that the fire alarm

system may be inoperative. Ind. Circuit Trouble - A yellow LED that lights in response to a fault in the main bell circuits, including an open

or a short in the field wiring, or connection of a non-polarized indicating appliance.

Battery Trouble - A yellow LED that annunciates fault in the battery circuit. Ground Fault - A yellow LED that lights when either side of the power source is shorted to the chassis. Walk Test - A yellow LED that lights when the Walk Test feature is activated. Zone Alarm - A red LED that lights when its associated zone is in alarm. The zone disable does not affect this

annunciator. Zone Trouble - A yellow LED that lights when its associated zone has a fault or abnormal operating condition.

This trouble circuit monitors an initiating loop, local and remote zone alarm indicators, and the position of the zone disable switch .

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3.1 General

Carefully unpack the system and check for shipping damage. Mount the cabinet in a clean, dry, vibration-free area in which extreme temperatures are not encountered. The location should be readily accessible with sufficient room for easy installation and maintenance. Locate the top of the cabinet approximately five feet above the floor with the hinge mounting on the left. Determine the number of conductors required for the devices to be employed. Pull required conductors into the box through the knockout provided. All wiring should be in accordance with the National and/or Local codes for fire alarm systems.

3.0 Installation Instructions

3.2 Initiating Circuits

Zones - Wire all alarm initiating devices sequentially for

proper supervision. Initiating devices include: coded and noncoded pull stations; heat, photoelectric, and ionization type detectors; and waterflow alarm devices.

NOTE: To employ coded manual pull stations, inhibit the latching circuit for a particular zone by removing the associated diode in the zone circuit on the main board (see Figure 3L).

Observe polarity when connecting polarized devices. Connect first device to the panel, second device to the first device, third to the second and so on. Remove the End-of-Line resistor (ELR) from the terminals and install on the terminals of the last device. Wire the zones to the panel as shown in Figures 3A and 3B.

Supervisory Circuit (Normally Open) - Zone 4 can be programmed to function as a normally open supervisory zone. A short across the loop will light the zone alarm and supervisory LEDs, and will activate an audible trouble device that can not be silenced and will sound until the panel is returned to normal. An open in the wiring will light zone and system trouble LEDs, and the audible trouble device will sound. In this mode, the audible device can be silenced. Remove jumper plugs JP5, JP6 and install JP7 and JP8. Connect normally open contacts to Zone 4 terminals with an ELR across the last device.

Supervised Class B Operation

ELR

Smoke Detector

Heat Detector

Manual Station

Smoke Detector

Figure 3A: Zone Wiring

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+ - +

Figure 3B: Dress Panel Terminal Guide

Waterflow - For waterflow service without a disable capability, the 4000WF can be employed. This adhesive-

backed metal plate can be affixed to the front dress panel over any zone used for monitoring sprinkler waterflow detection devices. The plate mechanically locks the disable switch in the enable position so that it cannot silence a waterflow alarm. To install, push the zone disable switch into the up (enable) position. Remove the adhesive backing from the 4000WF plate and place it over the dress panel so that the switch protrudes through the plate.

✍✍

✍

NOTE: This option must not be used on Zone 4 if that

✍✍

zone is programmed for sprinkler supervisory service.

See the Device Compatibility Document for compatible, UL listed detectors available from Fire Lite.

3.3 Output Circuits

Indicating (Bell) Circuits - Two Class B Indicating Appliance Circuits are provided as a standard feature on

this panel. Each circuit is capable of 1.5 amperes of signaling current. Total current drawn from both circuits cannot exceed 2.5 amperes. Indicating appliances must be polarized. Remove ELR from each circuit and install after the last device connected to its respective circuit (see Figures 3B and 3C).

Indicating Circuit

Polarized Polarized Polarized Horn Light Bell

End of Line Resistor 10K 1/4-watt

Figure 3C: Indicating Circuit Wiring Diagram

Alarm Relay - One Form-C dry supplementary alarm contact is provided in the basic panel for controlling

supplementary devices. It is rated for 2 amps of current at 30 VDC and 0.5 amps at 30 VAC (resistive). See Figure 3B for terminal location.

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3.4 Power

Smoke Detector Power - Resettable power for 4-wire photoelectric and ionization smoke detectors can be

obtained from terminals 19 (negative) and 20 (positive). Up to 200mA of current is available, depending on the number of optional modules in the system (see Appendix B: Table B-2 ).

Non-resettable Power - Non-resettable power can be drawn from Terminal Block 3. Power obtained from TB3 must be subtracted from available Smoke Detector Power.

Resettable Power is to be drawn from the control panel, limit combined current to 50 mA.

CAUTION: Several different sources of power can be connected to this panel. Disconnect all sources of power before servicing. The panel and associated equipment may be damaged by removing and/or inserting cards, modules, or interconnecting cables while this unit is energized.

Note: If both Smoke Detector and Non

20 (+)

19 ( - )

Unregulated, Unfiltered Power: Devices such as door holders requiring such DC power, up to 200 mA for door holders, can be connected to terminal #18(+) and 19(-). See Figure 3B for terminal location.

Smoke Detector Power

Zone Loop

Smoke Detector Power

Figure 3D: Typical End of Line Relay ConnectionFigure 3D: Typical End of Line Relay Connection

Figure 3D: Typical End of Line Relay Connection

Figure 3D: Typical End of Line Relay ConnectionFigure 3D: Typical End of Line Relay Connection

End of Line Resistor

Last device on zone

Listed End of Line Relay

Contacts shown in energized position.

AC Power - Primary power required for this panel is 120 VAC, 60 Hz, 1.2 amperes. Overcurrent protection for this circuit must comply with Article 760 of the National Electrical Code (NEC) and/or local codes. Use #14 AWG or larger wire with 600 volt. Connect AC power to panel terminals as illustrated in Figure 3E.

Neutral

Hot

Figure 3E: AC Connections

12 15586 Rev E 5/14/93 P/N 15586:E

CAUTION HIGH VOLTA GE

Battery Power - Observe polarity when connecting battery. Connect battery to P2 on the main board using

the plug-in connector provided. See Appendix B for calculation of correct battery rating. See Figure 3F for battery connections.

CAUTION: 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 skin or eyes with water for 15 minutes and seek immediate medical attention.

Ammeter - To monitor charging current, employ a zero-centered meter with a minimum range of 4 - 0 - 4.

Remove jumper JP2 and connect meter to plug P6 (see Figure 3F). Voltmeter - To monitor the charger output voltage, use a voltmeter with a range of 0 - 50 VDC. Connect the

meter to plug P5 (see Figure 3F).

Zero-Centered Ammeter

Figure 3F: Battery and Meter Connections

3.5 Optional Modules

The 4012/4024 has two module connectors - P3 and P4. Four modules are available for the panel, and they can only be used in the combinations described below.

Connector P3 OR

Connector P4 OR

To Battery

(4 to 9 amp-hour)

Zone Relay Module (40xxZR)

LED Interface (40xxLI)

General Alarm and Trouble Module (40xxAT)

Transmitter Module (40xxTM)

Voltmeter

15586 Rev E 5/14/93 P/N 15586:E 13

Remote Zone Annunciator (RZA-4) - This option provides remote LED annunciation of zone alarms and system trouble status. It includes an audible trouble device with a trouble silence switch. To make use of this remote function, an LED interface board (40xxLI) must be used. The 40xxLI module is supervised for insertion (once JP3 is removed from the main board). If the 40xxLI is then removed, all four zone trouble LEDs and the system trouble LED will come on, and the panel's audible trouble device sounds. All wiring except audible trouble is supervised for opens and ground faults. The 4012/24 can power only one annunciator.

To install: * Remove jumper JP3 on the main board. * Plug the 40xxLI into connector P3 on the main board. Note that either this module or a Zone

Relay Module (40xxZR) may be plugged into P3, but not both.

* Connect the RZA-4 to the 40xxLI as illustrated in Figure 3G below.

Connect to P3 on Main Board

To RZA-4 Terminal #:

RZA-4

Terminals

RZA-4 Schematic

Note: For unused zones on the RZA-4, jumper

corresponding terminal(s) on the 40xxLI to Terminal 1(+12/24 volts). For instance, if Zones 3 and 4 are not to be used on the RZA4, jumper Terminals 4 and 5 on the 40xxLI to Terminal 1 on the 40xxLI.

1 2 3 4 5 6 7 8 9

Figure 3G: 40xxLI - Remote Zone Annunciator (RZA-4) Installation

14 15586 Rev E 5/14/93 P/N 15586:E

Zone Relay Module (40xxZR) - One Form-C dry alarm contact per zone, one Form-A general alarm contact,

one Form-C trouble contact are provided with this option. The module is supervised for insertion (once jumper JP3 on the main board is cut). If the 40xxZR is then removed, all four zone trouble LEDs and the system trouble LED will come on, and the panel's audible trouble device sounds. Contacts are rated for 2.0 amps at 30 VDC and 0.5 amps at 120 VAC. For applications requiring ULC listing, these contacts shall be derated to 2.0 amps at 30 VDC and 0.5 amps at 30 VAC.

To install, remove jumper JP3 on the main board (Zone Alarm relays will NOT operate with JP3 installed). Plug the module into connector P3 on the main board. Note that either this module or the LED Interface Board (40xxLI) can be plugged into P3, but not both. Screw terminal connections are provided with each contact (see Figure 3H).

The Zone Disable and Trouble Silence switches will not affect operation of the relays on the 40xxZR module.

General Alarm Contact

Zone 1

Zone 2

Zone 3

Zone 4

System Trouble

Note 1: Pin 2 is a Form-B general alarm contact. This pin provides a Normally Closed contact that will open only when ALL four

Note 2: Zone 4 alarm contacts WILL operate if Zone 4 is programmed as a supervisory zone.

zones are in alarm.

Figure 3H: 40xxZR Zone Relay Module Connections

15586 Rev E 5/14/93 P/N 15586:E 15

General Alarm and Trouble Module (40xxAT)- This module provides one Form-C general alarm contact and a system trouble contact. An Auxiliary Disable switch disables the alarm contact and creates a system trouble condition. A yellow LED indicates when the switch is in the disable position. This module is supervised for insertion (once jumper JP4 on the main board is cut). If the 40xxAT is then removed, the system trouble LED will light and the panel's audible trouble device will sound.

Contacts are rated for 2.0 amps at 30 VDC and 0.5 amp at 120 VAC. For applications requiring ULC listing, these contacts shall be derated to 2 amps at 30 VDC and 0.5 amps at 30 VAC.

To install, remove jumper JP4 on the main board. Plug the module into connector P4 through the standoff. Secure the board to the main board using two screws provided. Note that either this module or a Transmitter Module (40xxTM) may be plugged into P4, but not both.

Trouble

Alarm

Figure 3I: 40xxAT General Alarm and Tr o ub le Module Connections

16 15586 Rev E 5/14/93 P/N 15586:E

Transmitter Module (40xxTM) - Use this module to connect to a local energy municipal box. Reverse polarity

alarm and trouble outputs are also provided. The reverse polarity alarm and municipal box outputs can be disabled via a switch. A yellow LED indicates when the switch is in the disable position. The module is supervised for insertion (once JP4 on the main board is removed). If the 40xxTM is then removed, the system trouble LED will light and the panel's audible trouble device sounds. To install, remove jumper JP4 on the main board. Plug this module into connector P4 and secure with the screws provided.

Municipal Box Output + (alarm polarity shown) ALARM + in Normal - in Alarm OUTPUT - in Normal + in Alarm TROUBLE - in Normal + in Trouble OUTPUT + in Normal - in Trouble

Figure 3J: 40xxTM Transmitter Module Connections

** Local Energy Municipal Box (supervised circuit): Remove jumper JP1. If box is equipped

with a reset supervisory switch, remove jumper between main board terminals 9 and 10 (see Figure 3B). Wire the switch common to terminal 9 and the N.C. contact to terminal 10.

** Remote Station Connection (non-supervised): Terminals 3 and 4 provide a reverse polarity alarm output. Trouble signals can be transmitted on these same terminals by cutting jumper JP2 on the module (output voltage drops to zero (0) VDC during trouble unless overriden by an alarm condition).

Note: This panel is suitable for use as a remote station where separate transmission circuits are required for fire and trouble. To implement this feature, leave JP2 intact, use terminals 3 and 4 for alarm only, and terminals 5 and 6 for the reverse polarity trouble output.

15586 Rev E 5/14/93 P/N 15586:E 17

McCulloh Transmitter - A McCulloh-type transmitter may be connected to the 4012/4024 (see Figure 3K for connection of a model ATTE-B transmitter). The transmitter is mounted in a separate cabinet. Note that a General Alarm and Trouble Module (40xxAT) is required to use the transmitter. NOTE: Be sure to derate available signaling power by the transmitter coil current.

ATTE-B 40xxTM 4012/4024 Terminal Module

3 19 4 4 5 19 6 5 7 19 8 20

For more information on the ATTE-B, consult "Bulletin 669" available from Potter Electric Signal Company.

Figure 3K: ATTE-B McCulloh-Type Transmitter ConnectionFigure 3K: ATTE-B McCulloh-Type Transmitter Connection

Figure 3K: ATTE-B McCulloh-Type Transmitter Connection

Figure 3K: ATTE-B McCulloh-Type Transmitter ConnectionFigure 3K: ATTE-B McCulloh-Type Transmitter Connection

** Alarm Operation - During an alarm condition, the control panel will actuate the transmitter and cause the unit to transmit the

following:

- Four rounds of coded signal if the control panel is in a normal state.

- Three rounds of coded signal if the control panel is in a trouble state.

The transmitter's red LED will light during an alarm. When the alarm has cleared, reset the panel to reset the transmitter.

** Trouble Operation - During a trouble condition, the control panel will actuate the transmitter and cause the unit to transmit

one round of coded signal. The transmitter's yellow LED will light during trouble conditions. After the trouble condition in the control panel has been cleared, press the Reset switch on the ATTE-B to remove the transmitter from a trouble state.

3.6 Central Station Service

The 4012/4024 can be employed as a Central Station Protected Premise Control Unit under the following conditions:

✓✓

✓ The control unit is used in conjuction with a compatible electrically actuated transmitter, UL listed for central

✓✓

station fire service under classification UUTV (Potter Electric Signal Company model ATTE-B)

✓✓

✓ The central station receiving unit must be UL listed and compatible with the transmitter.

✓✓ ✓✓

✓ The transmitter must be installed according to its installation instructions.

✓✓ ✓✓

✓ The transmitter cabinet must be mounted adjacent to the control unit with interconnecting wiring enclosed in

✓✓

conduit.

✓✓

✓ The fire alarm control unit, transmitter, and receiver are required to have at least 24-hour standby operating

✓✓

power.

18 15586 Rev E 5/14/93 P/N 15586:E

Indicating Appliance Circuits: Class B operation. Power limited circuitry.

2.5 amps max (1.5 amps/circuit). 1.2 mA in normal. ELR = 10 K, 1/4 watt. Must use polarized indicating appliances.

Initiating Device Circuits: Class B operation. 2.0 mA per loop. Power limited circuitry. ELR - 2.2K, 1/4-watt (4012); 4.7K, 1/4 watt (4024)

Heat Detector

Manual Station

Smoke Detector

Ground

120 VAC 60 Hz

1.2 Amps Ground

Dry supplementary alarm contact. Rated 2 amps @ 30

VDC and 0.5 amps @ 30 VAC (resistive).

DC power for external devices.

Power limited (see Section 3.4). Unfiltered, unregulated, 1 amp max (subtract from indicating circuit power).

Four-wire detector power

(up to 200 mA max, refer to Appendix D). If non-resettable power is used, limit combined current to 50 mA.

Non-resettable Power

(up to 50 mA max). Subtract from Fourwire detector power. Refer to Appendix D.

Plug TM or AT module in P4 and cut JP4

Inhibit latching circuit by removing diode in associated zone:

D31 (Zone 1) D33 (Zone 2) D35 (Zone 3) D37 (Zone 4)

Connect Transformer to P1

Remove JP5 and JP6 then install JP7 and JP8 for normally open supervisory service on Zone 4.

Zero-centered Ammeter

Plug LI or ZR module in P3 and cut JP3

Cut JP4 when TM or AT module is employed

Cut JP2 when ammeter is employed

Voltmeter

Battery

(4-9 amp-hour)

PS-1242 or PS-1279

Figure 3L: Basic System Wiring Diagram

15586 Rev E 5/14/93 P/N 15586:E 19

To insure proper and reliable operation, it is recommended that an inspection and testing of the system be conducted monthly, or as required by National and/or Local codes. Testing should be performed by a qualified service representative.

4.1 Notification

Before testing the panel, notify: ** Fire department and/or the central station receiving any transmitted alarm or trouble condition. If it is

necessary to inhibit alarm transmission, slide the remote station disable switch to its abnormal position.

** Facility personnel so that the alarm sounding devices will be ignored during the test period.

4.2 System T est

Slide the System Test switch down and ensure that all indicators except the zone alarm LEDs light and that all signaling devices are active. Release the switch and ensure that all zone alarm LEDs light. Reset the panel.

4.3 Zone Test

Test a zone by shorting the zone contacts with a jumper. Ensure that the signaling devices are activated and that the zone and system alarm LEDs light. Reset the panel and repeat for each zone.

4.0 Periodic Testing

4.4 Walk T est

To check all initiating devices, slide the Walk Test switch down. The Walk Test LED will light and the system trouble devices will be activated. In this mode, the panel will reset automatically. Activate an alarm initiating device and ensure that the indicating devices function. Check each initiating device in this manner. When all initiating and indicating devices have been checked, return the Walk Test switch to its normal position.

4.5 Supervisory Test

When the fourth zone is programmed to monitor normally open supervisory devices, a contact closure across the loop will light the supervisory and zone alarm LEDs and will sound the audible trouble device. In this state, the audible device will continue to sound regardless of the position of the trouble silence switch. An open in the loop will light zone and system trouble LEDs and will sound the audible device.

20 15586 Rev E 5/14/93 P/N 15586:E

4.6 T rouble T est

Momentarily open the following circuits, one at a time, and check for a trouble signal:

❑❑

❑ Indicating Appliance Circuits 1 and 2

❑❑ ❑❑

❑ All initiating zones

❑❑ ❑❑

❑ Supervisory circuit

❑❑ ❑❑

❑ Municipal Box (if employed)

❑❑

4.7 Battery T est

With fully charged battery, remove AC power and repeat the test procedure outlined in Section 4.2. Measure battery voltage while the indicating appliances are activated. Reapply AC power and reset the panel. Replace any battery with terminal voltage less than 85% of rating.

4.8 T est Completion

At the conclusion of testing, return all switches to their normal (up) positions. Notify the fire department, central station and facility personnel that the test is complete.

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Troubleshooting is divided into two parts. Section 5.1 is a diagnostic procedure that can be used to determine the general condition of the control panel. Section 5.2 is to be used by QUALIFIED SERVICE PERSONNEL

ONLY to isolate a specific problem with the panel.

5.1 Control Panel Checkup

This procedure must be used after initial installation of the control panel. The procedure should also be followed after any repairs are made to the panel. Follow the procedure step by step until the problem is eliminated or all tests have been completed. Remove both sources of power from this unit whenever working with the unit's terminals, modules, or plugs.

Jumpers - Ensure that jumpers JP2-JP8 and Diodes D31, D33, D35, and D37 are programmed in accordance with the guidelines below. Refer to Figure 3L for jumper and diode locations.

* JP2 is cut only when an ammeter is employed. * JP3 is cut only when a 40xxLI or 40xxZR is being used. * JP4 is cut only when a 40xxTM or 40xxAT is being used. * For normally open supervisory service on Zone 4, JP7 & JP8 must be installed and JP5 and JP6 must be

removed. For normal operation on Zone 4, JP5 & JP6 must be installed and JP7 & JP8 removed.

* For coded output, inhibit the alarm latching circuit on an initiating zone by cutting its respective diode: D31-

Zone 1; D33-Zone 2; D35-Zone 3; D37-Zone 4.

5.0 Troubleshooting Guide

Reset - Disconnect the batteries. Remove AC power from the panel. Wait 30 seconds and reconnect AC

power first, followed by the batteries. This resets the panel's built-in fuses. Isolate - To distinguish between a problem in the field wiring, disconnect all initiating and indicating loops and

reinstall the end-of-line resistors across the appropriate terminals. Jumper terminals 9 and 10 together. Disconnect any wiring on terminals 15-20. If employing any of the optional modules, disconnect all wiring but leave the modules in their appropriate connectors (P3 & P4). The only wires leading to the panel should be the AC power connections. Refer to Figure 3L for ELR values.

If this action clears the problem, the trouble lies in the field wiring. To isolate

the problem, reconnect the wires one at a time until the problem reappears.

Remove one module at a time and reconnect the corresponding jumper (JP3 for 40xxLI or 40xxZR - and JP4 for 40xxTM or 40xxAT).

If this action clears the problem condition, the

trouble lies in the module. Replace the module.

Leave each module off to continue the testing.

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System Test - Slide the system test switch down and ensure that all LEDs except the zone alarm LEDs light.

Release the switch and ensure that all alarm LEDs light. Note: The Supervisory LED may not light during System Test, depending on whether or not Zone 4 is programmed for supervisory service. To test the Supervisory LED, remove the jumper across Terminals 9 and 10, creating a supervisory condition. If the LED lights, it is good.

If any LED fails to light or the audible trouble device fails

to sound, the panel must be repaired or replaced.

Conclusion - If the problem still exists, four conditions may prevail:

a) Main board has failed. b) Power Supply (transformer) has failed. c) Batteries have failed. d) Combination of the above three.

If the AC led is on, the transformer can be eliminated as the source of

the problem. If the battery trouble LED is off (but passed the system test),

the batteries are not the source of the problem. If the batteries and

transformer are known to be good, have the panel repaired or replaced.

Problems concerning the AC power supply or the batteries are covered in Section 5.2.

5.2 Component Troubleshooting

QUALIFIED SERVICE PERSONNEL ONLY!

The test procedures in Section 5.1 must be conducted prior to conducting the test in this section in order to accurately troubleshoot the control panel.

Battery Test (Battery Trouble Indication) The batteries may be tested by conducting the procedure in Section 4.7.

Transformer Test (AC Power LED off) Ensure that circuit breaker CB1 is not tripped. Measure the AC voltage applied to the transformer primary winding (pins 5 & 7 on plug P1- see Figure 3L for plug locations). This voltage should fall in the range 102

- 132 VAC. Measure the transformer secondary voltage on plug P1 to determine if it falls within the following specifications: P1 - Pins 2 & 3: 24 - 32 AC volts P1 - Pins 1 & 3: 12 - 16 AC volts

If the transformer secondary voltage does not

meet specifications, replace the transformer.

15586 Rev E 5/14/93 P/N 15586:E 23

Charger Test, New Models (CMS-4012/4024s and newer model MS-4012/4024s only)

IMPORTANT! The Battery Charger Output cannot be field adjusted on CMS4012/4024 control panels and on newer revisions of the MS-4012/4024 control panels. These panels are distinquished from earlier models by the addition of two non-resettable power terminals (Terminal Block 3) in the upper right-hand part of the control board. Any attempts to adjust this output may result in damage to the batteries (to read and adjust the charger output on earlier model MS-4012/ 4024s, see the next page).

The charger output can be read with a voltmeter to determine if the panel is operating properly. To read the charger output, see Figure 3M: Battery Charger Check Procedure. If the charger output voltage does not meet specifications (and the transformer is known to be good), the control panel will have to be repaired or replaced.

Step 1

Remove and save JP12 from the control panel.

Newer 4012s and 4024s contain TB3 (Nonresettable Power Output).

Step 2

Remove the batteries and place a 1k, 1watt resistor across the charger ouput pins - P2, pin 1(+) and P2, pin 3 (-).

Step 3

Using a voltmeter, measure the DC voltage across the 1K resistor. This voltage must be 13.2 - 13.3 on the 4012, or 27.5 - 27.7 on the 4024.

At the conclusion of the test, remove the voltmeter and 1K resistor, replace the batteries, and reinstall JP12!

Figure 3M: Battery Charger Check Procedure

24 15586 Rev E 5/14/93 P/N 15586:E

Charger Test, Older Models (Older Model MS-4012/4024s only)

Note: This procedure may result in destruction of the batteries if used on CMS-4012/4024s and newer MS-4012/4024s that provide non-resettable power!

For MS-4012/4024s that do not provide non-resettable power, the battery charging circuit can be checked and if neccessary, calibrated under the following procedure. Remove the batteries and place a 1k, 1-watt resistor across the charger ouput pins [plug P2: pin 1 - (+), pin 3 (-) ]. Using a voltmeter, measure the DC voltage across the 1K resistor. If the voltage measured is not 13.2 - 13.3 (4012) or 27.5 - 27.7 VDC (4024), perform the following calibration procedure:

Step 1 Adjust R5 until the voltage across the 1K resistor is 30 VDC (MS-4024) or 15 VDC (MS-4012).

Step 2 Adjust R108 until the the Battery Trouble LED just turns on (threshold point).

Step 3 Adjust R5 until the voltage across the resistor is 27.6 VDC (MS-4024) or 13.2 VDC (MS-4012).

Step 4 Remove the meter and resistor and reconnect the batteries to Plug P2.

If this adjustment fails to bring the charger voltage to within the specified range, or fails to extinquish the battery trouble indication, (and the transformer and batteries are known to be good), have the panel repaired or replaced.

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Appendix A: Specifications

A.1 Initiating Circuits

Power-limited circuitry Operation: Class B (Style B) Standby voltage: 4012 = 12 VDC (ripple = 10mV peak-to-peak)

4024 = 24 VDC (ripple = 10mV peak-to-peak) Alarm current: 15 milliamps minimum Short circuit current: 35 milliamps typical Maximum detector current in standby: 2 milliamps (peak) per zone Maximum loop resistance = 200 ohms End-of-line resistor: 4012 = 2.2K, 1/4-watt 4024 = 4.7K, 1-4-watt Detector loop current is sufficient to ensure operation of one alarmed detector per zone. Supervisory current: 5mA

A.2 Indicating Circuits

Power-limited circuitry Maximum voltage drop due to wiring: 4012 = 1 VDC 4024= 2 VDC Indicating device operating range: 4012 = 9 - 15 VDC 4024 = 18-31 VDC Total current to all external devices: 2.5 amps Maximum signaling current per circuit: 1.5 amps End-of-line resistor = 10k, 1/4 watt

A.3 Alarm Relay

Dry Form-C contacts rated for: 2.0 amps @ 30 VDC (resistive)

0.5 amps @ 30 VAC (resistive)

A.4 AC Power

120 VAC, 60 Hz, 1.2 amps Wire size: #14 AWG with 600V insulation

A.5 T ransmitter Module (40xxTM)

For local energy municipal box service

Output current: 1.2 mA (in normal). Trip current: 0.35 amps. Coil Voltage: 3.65 VDC. Coil resistance: 14.6 ohms. Total wire resistance between panel and trip coil = 3 ohms

For Remote Station service:

Output current shall not exceed 10 milliamps per circuit. Reverse polarity output voltage: 4012 = 12 VDC 4024 = 24 VDC. See Figure 3J for terminal information.

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A.6 Zone Relay Module (40xxZR)

Contacts rated for: 2.0 amps @ 30 VDC (resistive) 0.5 amps @ 120 VAC (resistive) Note: For U.L.C. applications, contacts are derated for: 2.0 amps @ 30 VDC (resistive)

0.5 amps @ 30 VAC (resistive)

A.7 General Alarm and Tr o ub le Relay Module (40xxAT).

Contacts rated for: 2.0 amps @ 30 VDC (resistive) 0.5 amps @ 120 VAC (resistive) Note: For U.L.C. applications, contacts are derated for: 2.0 amps @ 30 VDC (resistive)

0.5 amps @ 30 VAC (resistive)

A.8 Four-wire Smoke Detector Power

Up to 200mA of current can be provided to four-wire smoke detectors. Note: If using Non-Resettable power (Terminal Block 3), the combined current shall be limited to 50 mA.

A.9 Unregulated, Unfiltered Power

Total DC current available for powering external devices is 1.0 amp (subtracted from indicating appliance power).

A.10 Non-resettable Power

DC current available from this output and four-wire smoke power output combined is 50mA.

A.11 Cabinet Dimensions

Door = 15-1/4" Backbox = 15"

Cabinet = 2-7/8"

Backbox = 2-1/2"

Door = 14-3/4"

Backbox = 14-1/2"

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Appendix B: Power Calculations

NOTE: The LED Interface (40xxLI) does not consume any power and can be ignored when calculating power

requirements. In addition, the General Alarm and Trouble Module (40xxAT) does not consume power during trouble and the RZA-4 consumes nothing in alarm.

Table 1: Standby Battery Requirements

Basic Control Panel 79.2 mA

(AC Power off - System trouble LED on and audible trouble sounder activated - includes indicating supervisory current)

If using a Zone Relay Module: 4012ZR, add 8 mA

or 4024ZR, add 16 mA

If using a Transmitter Module (40xxTM), add 5 mA

If using the Reverse Polarity Alarm output, add 10 mA

If using the Reverse Polarity Trouble output, add 10 mA

If using a Remote Zone Annunciator (RZA-4), add 8 mA

Unregulated, Auxiliary power (draw from Terminals 18 & 19)

Number Current Total in Per Device use Device Current

a. Two-wire detector heads

b. Four-wire detector heads

c. End of Line Relays

d. Add lines a, b, & c for subtotal

X 0.1 mA =

X 0.15 mA =

X 25.0 mA =

Place subtotal here

Add last column for Standby Battery Current :

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28 15586 Rev E 5/14/93 P/N 15586:E

Table 2: Power Supply Loading

Basic Control Panel (all zones in alarm)

If using the Zone Relay Module, add 64 mA for the MS-4012 or 32 mA for the MS-4024

If using General Alarm & Trouble Module: add 18 mA for the MS-4012 or 10 mA for the MS-4024

If using the Transmitter Module (40xxTM), add 13 mA If using the Reverse Polarity Trouble output, add 10 mA Current (in mA) drawn from Non-resettable Power (TB3)

340 mA340 mA

340 mA

340 mA340 mA

Place subtotal from line d, Table 1 here

Add column for Total Alarm Current:

(Total Alarm Current cannot exceed 550 mA)

Table 3: Ampere-Hour Calculations

Standby Battery Current Standby Time

Convert the total from Table 1 24 or 60 hours

to amps and enter here

amps X hours =

Enter 0.3 for 5 minutes in alarm

or 0.6 for 10 minutes in alarm +

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Standby

amp/hours

Alarm

amp/hours

Add Standby and Alarm amp/hours =

Select a battery with a greater amp/hour rating.

Notes: * NFPA 72 Local and 72 Proprietary Protected Premises systems require 24 hours of standby.

* NFPA 72 Auxiliary and 72 Remote Station systems require 60 hours of standby. * The battery charger in this panel will charge a maximum of 9 AH batteries within 48 hours (6 AH minimum).

(Batteries larger than 7-AH battery will have to be mounted in a separate cabinet adjacent to panel).

Batteries available from FireLite

PS-1242 4.2 AH @ 12 VDC (MS-4012 requires two) PS-1270 7.0 AH @ 12 VDC (MS-4024 requires two)

15586 Rev E 5/14/93 P/N 15586:E 29

Total amp/hours

needed

MS-4012/4024 Quick Reference Sheet

O p e r a t i o n

T e

Alarm Condition:

Alarm Silence:

Alarm Reset:

Trouble Condition:

Action Result

Notify fire department, central station, and facility personnel of test.

Slide SYSTEM TEST switch down. ------------------ All LEDs (except zone alarm) light and

Release SYSTEM TEST switch. ---------------------- All zone alarm LEDs will light.

Short out each zone, one at a time. ---------------- Zone and system LEDs light. All indicating

1) The system alarm and zone alarm indicators will light.

2) Indicating appliances will be activated.

3) Supplementary output will be activated. Locate alarmed zone and slide zone disable switch downward. After correcting the alarm condition, reset the control panel by

depressing the SYSTEM RESET switch. A trouble signal under normal operation indicates a condition

that requires immediate correction. Contact your local service representative. The panel's audible trouble buzzer that sounds in response to a trouble condition may be silenced by depressing the TROUBLE SILENCE switch (the trouble LED will remain on).

indicating appliances are activated.

appliances are activated.

s t i n g

Name:

Address:

Slide WALK TEST switch down. --------------------- Walk Test LED and system trouble activated.

Activate alarm initiating ------------------------------- Zone alarm and system LEDs light. Indicating devices, one at a time appliances are briefly activated then reset.

Slide WALK TEST switch up. ------------------------- Panel exits test mode and returns to normal.

Short out Zone 4 (if monitoring ---------------------- Supervisory and zone alarm LEDs light. Audible device N.O. supervisory devices). continues to sound until trouble condition is corrected.

Open Zone 4 (if monitoring -------------------------- Zone and system trouble LEDs light and N.O. supervisory devices). audible trouble device sounds.

Momentarily open all circuits, ----------------------- System and respective circuit trouble LEDs one at a time. light. Audible trouble device sounds.

Remove AC power and conduct SYSTEM ------ Battery terminal voltage should be at nominal rating. TEST again. Measure battery voltage.

Notify fire department, central station, and facility personnel that test is complete.

Local Service Representative

Telephone:

Cut out, frame and place this sheet adjacent to the control panel.

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CMS-4012/4024 Quick Reference Sheet