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PN: 51906:A

ECN 02-398

Fire Alarm Control Panel

MS-9200UD/MS-9200UDE
IMPORTANT! The SLC Manual Document #51309 must be referenced in addition to this
manual when installing or servicing the Fire Alarm Control Panel.

Document

#51906

12/10/02

Revision:

A

Fire Alarm System Limitations

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

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

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

The Manufacturer recommends that smoke and/or heat detectors be located throughout a protected premise following the
recommendations of the current edition of the National Fire
Protection Association Standard 72 (NFPA 72),
manufacturer's recommendations, State and local codes, and
the recommendations contained in the Guide for Proper Use
of System Smoke Detectors, which is made available at no
charge to all installing dealers. A study by the Federal Emergency Management Agency (an agency of the United States
government) indicated that smoke detectors may not go off in
as many as 35% of all fires. While fire alarm systems are designed to provide early warning against fire, they do not guarantee warning or protection against fire. A fire alarm system
may not provide timely or adequate warning, or simply may not
function, for a variety of reasons:
Smoke detectors may not sense fire where smoke cannot
reach the detectors such as in chimneys, in or behind walls, on
roofs, or on the other side of closed doors. Smoke detectors
also may not sense a fire on another level or floor of a building. A second-floor detector, for example, may not sense a
first-floor or basement fire.
Particles of combustion or "smoke" from a developing fire
may not reach the sensing chambers of smoke detectors because:
• Barriers such as closed or partially closed doors, walls, or
chimneys may inhibit particle or smoke flow.
• Smoke particles may become "cold," stratify, and not reach
the ceiling or upper walls where detectors are located.
• Smoke particles may be blown away from detectors by air
outlets.
• Smoke particles may be drawn into air returns before
reaching the detector.
The amount of "smoke" present may be insufficient to alarm
smoke detectors. Smoke detectors are designed to alarm at
various levels of smoke density. If such density levels are not
created by a developing fire at the location of detectors, the
detectors will not go into alarm.
Smoke detectors, even when working properly, have sensing
limitations. Detectors that have photoelectronic sensing
chambers tend to detect smoldering fires better than flaming
fires, which have little visible smoke. Detectors that have ionizing-type sensing chambers tend to detect fast-flaming fires
better than smoldering fires. Because fires develop in different ways and are often unpredictable in their growth, neither
type of detector is necessarily best and a given type of detector may not provide adequate warning of a fire.
Smoke detectors cannot be expected to provide adequate
warning of fires caused by arson, children playing with
matches (especially in bedrooms), smoking in bed, and violent
explosions (caused by escaping gas, improper storage of
flammable materials, etc.).

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IMPORTANT! Smoke detectors must be installed in the
same room as the control panel and in rooms used by the system for the connection of alarm transmission wiring, communications, signaling, and/or power. If detectors are not so located, a developing fire may damage the alarm system, crippling its ability to report a fire.
Audible warning devices such as bells may not alert people
if these devices are located on the other side of closed or
partly open doors or are located on another floor of a building.
Any warning device may fail to alert people with a disability or
those who have recently consumed drugs, alcohol or medication. Please note that:
• Strobes can, under certain circumstances, cause seizures
in people with conditions such as epilepsy.
• Studies have shown that certain people, even when they
hear a fire alarm signal, do not respond or comprehend the
meaning of the signal. It is the property owner's responsibility to conduct fire drills and other training exercise to make
people aware of fire alarm signals and instruct them on the
proper reaction to alarm signals.
• In rare instances, the sounding of a warning device can
cause temporary or permanent hearing loss.
A fire alarm system will not operate without any electrical
power. If AC power fails, the system will operate from standby
batteries only for a specified time and only if the batteries
have been properly maintained and replaced regularly.
Equipment used in the system may not be technically compatible with the control. It is essential to use only equipment
listed for service with your control panel.
Telephone lines needed to transmit alarm signals from a
premise to a central monitoring station may be out of service
or temporarily disabled. For added protection against telephone line failure, backup radio transmission systems are recommended.
The most common cause of fire alarm malfunction is inadequate maintenance. To keep the entire fire alarm system in
excellent working order, ongoing maintenance is required per
the manufacturer's recommendations, and UL and NFPA standards. At a minimum, the requirements of Chapter 7 of NFPA
72 shall be followed. Environments with large amounts of
dust, dirt or high air velocity require more frequent maintenance. A maintenance agreement should be arranged
through the local manufacturer's representative. Maintenance
should be scheduled monthly or as required by National and/
or local fire codes and should be performed by authorized professional fire alarm installers only. Adequate written records
of all inspections should be kept.

Installation Precautions

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

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 associated equipment may be damaged by removing and/or inserting cards,
modules, or interconnecting cables while the unit is energized.
Do not attempt to install, service, or operate this unit until this
manual is read and understood.
CAUTION - System Reacceptance Test after Software
Changes. To ensure proper system operation, this product
must be tested in accordance with NFPA 72 Chapter 7 after
any programming operation or change in site-specific software. Reacceptance testing is required after any change, addition or deletion of system components, or after any modification, repair or adjustment to system hardware or wiring.
All components, circuits, system operations, or software functions known to be affected by a change must be 100% tested.
In addition, to ensure that other operations are not inadvertently affected, at least 10% of initiating devices that are not
directly affected by the change, up to a maximum of 50 devices, must also be tested and proper system operation verified.
This system meets NFPA requirements for operation at
0-49° C/32-120° F and at a relative humidity of 85% RH (noncondensing) at 30° C/86° F. However, the useful life of the
system's standby batteries and the electronic components
may be adversely affected by extreme temperature ranges
and humidity. Therefore, it is recommended that this system
and all peripherals be installed in an environment with a nominal room temperature of 15-27° C/60-80° F.
Verify that wire sizes are adequate for all initiating and
indicating device loops. Most devices cannot tolerate more
than a 10% I.R. drop from the specified device voltage.

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.
Disconnect AC power and batteries prior to removing or inserting circuit boards. Failure to do so can damage circuits.
Remove all electronic assemblies prior to any drilling, filing,
reaming, or punching of the enclosure. When possible, make
all cable entries from the sides or rear. Before making modifications, verify that they will not interfere with battery, transformer, and printed circuit board location.
Do not tighten screw terminals more than 9 in-lbs.
Over-tightening may damage threads, resulting in reduced
terminal contact pressure and difficulty with screw terminal
removal.
Though designed to last many years, system components
can fail at any time. This system contains static-sensitive
components. Always ground yourself with a proper wrist strap
before handling any circuits so that static charges are removed from the body. Use static-suppressive packaging
to protect electronic assemblies removed from the unit.
Follow the instructions in the installation, operating, and
programming manuals. These instructions must be followed
to avoid damage to the control panel and associated
equipment. FACP operation and reliability depend upon
proper installation by authorized personnel.

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

Canadian Requirements
This digital apparatus does not exceed the Class A
limits for radiation noise emissions from digital
apparatus set out in the Radio Interference Regulations
of the Canadian Department of Communications.
Le present appareil numerique n'emet pas de bruits
radioelectriques depassant les limites applicables aux
appareils numeriques de la classe A prescrites dans le
Reglement sur le brouillage radioelectrique edicte par le
ministere des Communications du Canada.

LimWarLg.p65

01/10/2000

Notes

4

MS-9200UD PN 51906:A

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Table of Contents

SECTION 1: Product Description ........................................................................................................................12
1.1: Features and Options ...................................................................................................................................12
1.2: Specifications ..............................................................................................................................................14
1.2.1: Current Availability...........................................................................................................................15
1.3: Controls and Indicators ...............................................................................................................................16
1.4: Circuits ........................................................................................................................................................17
1.5: Digital Alarm Communicator/Transmitter ..................................................................................................17
1.6: Components.................................................................................................................................................18
1.6.1: Intelligent Addressable Detectors: Newer Series..............................................................................18
1.6.2: Intelligent Addressable Modules: Newer Series ...............................................................................19
1.6.3: 300 Series Intelligent Addressable Devices......................................................................................20
1.6.4: Addressable Device Accessories.......................................................................................................20
1.7: Optional Modules ........................................................................................................................................21
1.8: Accessories..................................................................................................................................................21
1.8.1: PK-Plus Programming Utility ...........................................................................................................21
1.8.2: Dress Panel........................................................................................................................................21
1.8.3: Battery Box .......................................................................................................................................22
1.8.4: Battery Charger .................................................................................................................................22
1.8.4.1 CHG-75 Battery Charger ........................................................................................................22
1.8.4.2 CHG-120F Battery Charger ....................................................................................................22
1.8.5: Annunciators .....................................................................................................................................23
1.9: Getting Started.............................................................................................................................................24
1.10: Telephone Requirements and Warnings ....................................................................................................25
1.10.1: Telephone Circuitry.........................................................................................................................25
1.10.2: Digital Communicator.....................................................................................................................25
1.10.3: Telephone Company Rights and Warnings .....................................................................................26
SECTION 2: Installation .......................................................................................................................................27
2.1: Mounting Backbox......................................................................................................................................27
2.2: Mounting Transformer ................................................................................................................................28
2.3: Power...........................................................................................................................................................31
2.3.1: AC Power and Earth Ground Connection.........................................................................................31
2.3.2: Battery Power....................................................................................................................................31
2.3.3: DC Power Output Connection ..........................................................................................................31
2.4: Relays ..........................................................................................................................................................32
2.5: Notification Appliance Circuits ..................................................................................................................32
2.5.1: Configuring NACs ............................................................................................................................33
2.5.2: Style Y (Class B) NAC Wiring .........................................................................................................33
2.5.3: Style Z (Class A) NAC Wiring ........................................................................................................34
2.6: Remote Synchronization Output .................................................................................................................34
2.7: UL Power-limited Wiring Requirements ....................................................................................................35
2.8: Digital Communicator.................................................................................................................................36
2.9: Optional Module Installation ......................................................................................................................37
2.9.1: 4XTMF Transmitter Module Installation..........................................................................................38
2.9.2: Printer/PC..........................................................................................................................................40
2.9.3: Digital Communicator and Annunciators .........................................................................................41
2.9.3.1 ACM-8RF Relay Control Module ..........................................................................................41
2.9.3.2 BRKT-9600 Universal Bracket Installation ............................................................................41
2.9.3.3 ACM and AFM Series Annunciators ......................................................................................43
SECTION 3: Programming ...................................................................................................................................44
3.1: Programming Data Entry ............................................................................................................................44
3.2: User Programming ......................................................................................................................................45
3.3: Initial Power-up...........................................................................................................................................46
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Table of Contents

3.4: Programming Screens Description ..............................................................................................................46
3.5: Programming and Passwords ......................................................................................................................46
3.6: Master Programming Level.........................................................................................................................48
3.6.1: Autoprogram .....................................................................................................................................49
3.6.2: Point Program....................................................................................................................................50
3.6.2.1 Detector Programming ............................................................................................................50
3.6.2.1.1 Add Detector ........................................................................................................................50
3.6.2.1.2 Delete Detector .....................................................................................................................51
3.6.2.1.3 Edit Detector ........................................................................................................................51
3.6.2.2 Module Programming .............................................................................................................60
3.6.2.2.1 Add Module .........................................................................................................................60
3.6.2.2.2 Delete Module ......................................................................................................................61
3.6.2.2.3 Edit Module Screen for Monitor Module .............................................................................61
3.6.2.2.4 Edit Module Screen for Control Modules ............................................................................70
3.6.3: Zone Setup.........................................................................................................................................77
3.6.3.1 Enable ......................................................................................................................................77
3.6.3.2 Disable .....................................................................................................................................78
3.6.3.3 Zone 97, 98 and 99 ..................................................................................................................78
3.6.3.4 Zones Installed ........................................................................................................................79
3.6.3.5 Zones Enabled .........................................................................................................................79
3.6.3.6 Zones Disabled ........................................................................................................................79
3.6.3.7 Zone Type ...............................................................................................................................80
3.6.3.8 Zones Available ......................................................................................................................81
3.6.4: Loop Setup ........................................................................................................................................81
3.6.4.1 Style .........................................................................................................................................81
3.6.4.2 Loop Protocol ..........................................................................................................................81
3.6.5: System Setup .....................................................................................................................................82
3.6.5.1 Trouble Reminder ...................................................................................................................83
3.6.5.2 Banner .....................................................................................................................................83
3.6.5.3 Time-Date ...............................................................................................................................84
3.6.5.3.1 Time .....................................................................................................................................84
3.6.5.3.2 Date ......................................................................................................................................85
3.6.5.3.3 Clock Format ........................................................................................................................85
3.6.5.3.4 Daylight Savings Time .........................................................................................................85
3.6.5.4 Timers .....................................................................................................................................86
3.6.5.4.1 PAS (Positive Alarm Sequence) Delay ................................................................................86
3.6.5.4.2 Pre-signal Delay ...................................................................................................................87
3.6.5.4.3 Waterflow Delay ..................................................................................................................87
3.6.5.4.4 AC Loss Delay .....................................................................................................................88
3.6.5.5 NAC (Notification Appliance Circuit) ....................................................................................88
3.6.5.5.1 Enabled .................................................................................................................................89
3.6.5.5.2 Type ......................................................................................................................................90
3.6.5.5.3 Silenceable ...........................................................................................................................90
3.6.5.5.4 Auto Silence .........................................................................................................................91
3.6.5.5.5 Coding (only for NACs not programmed as Sync Strobe Type) .........................................91
3.6.5.5.6 Zone ......................................................................................................................................92
3.6.5.5.7 Silence Inhibited ...................................................................................................................92
3.6.5.5.8 Sync Type .............................................................................................................................92
3.6.5.6 Relays ......................................................................................................................................93
3.6.5.7 Canadian Option ......................................................................................................................94
3.6.5.8 Waterflow Silenceable ............................................................................................................94
3.6.6: Verify Loop .......................................................................................................................................94
3.6.7: History...............................................................................................................................................95
3.6.7.1 View Events ............................................................................................................................95
3.6.7.2 Erase History ...........................................................................................................................95
3.6.8: Walktest .............................................................................................................................................96
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Table of Contents

3.6.9: Option Modules................................................................................................................................97
3.6.9.1 Annunciators/UDACT ............................................................................................................97
3.6.9.2 Onboard DACT .......................................................................................................................98
3.6.9.2.1 Onboard DACT Enable ........................................................................................................98
3.6.9.2.2 Primary Phone ......................................................................................................................99
3.6.9.2.3 Secondary Phone ..................................................................................................................99
3.6.9.2.4 Service Terminal ..................................................................................................................100
3.6.9.2.5 Central Station ......................................................................................................................102
3.6.9.2.6 Trouble Call Limit (Dialer Runaway Prevention) ...............................................................103
3.6.9.2.7 Manual Dial Mode ...............................................................................................................115
3.6.9.3 Printer/PC ................................................................................................................................116
3.6.10: Password Change ............................................................................................................................117
3.6.11: Clear Program .................................................................................................................................118
3.6.12: Program Check................................................................................................................................119
3.7: Maintenance Programming Level ...............................................................................................................121
3.7.1: Disable Point .....................................................................................................................................122
3.7.2: History...............................................................................................................................................123
3.7.3: Program Check..................................................................................................................................124
3.7.4: Walktest.............................................................................................................................................125
3.7.5: System ...............................................................................................................................................125
3.7.6: Zone Setup ........................................................................................................................................127
SECTION 4: Operating Instructions ....................................................................................................................129
4.1: Panel Control Buttons .................................................................................................................................129
4.1.1: Acknowledge/Step ............................................................................................................................129
4.1.2: Alarm Silence....................................................................................................................................129
4.1.3: Drill/Hold 2 Sec ................................................................................................................................129
4.1.4: Reset..................................................................................................................................................129
4.2: LED Indicators ............................................................................................................................................130
4.3: Normal Operation........................................................................................................................................131
4.4: Trouble Operation .......................................................................................................................................131
4.5: Alarm Operation..........................................................................................................................................133
4.6: Supervisory Operation.................................................................................................................................134
4.7: Process Monitor Operation..........................................................................................................................135
4.8: Hazard/Tornado Condition Operation .........................................................................................................135
4.9: Medical Alert Condition Operation.............................................................................................................135
4.10: NAC Operation .........................................................................................................................................135
4.11: Programmed Zone Operation ....................................................................................................................136
4.12: Disable/Enable Operation .........................................................................................................................136
4.13: Waterflow Circuits Operation ...................................................................................................................136
4.14: Detector Functions ....................................................................................................................................136
4.15: Time Functions: Real-Time Clock ............................................................................................................136
4.16: Synchronized NAC Operation ..................................................................................................................137
4.17: Coded Operation .......................................................................................................................................137
4.18: Presignal ....................................................................................................................................................137
4.19: Positive Alarm Sequence ..........................................................................................................................138
4.20: Special System Timers ..............................................................................................................................139
4.20.1: Silence Inhibit Timer.......................................................................................................................139
4.20.2: Autosilence Timer ...........................................................................................................................139
4.20.3: Trouble Reminder ...........................................................................................................................139
4.20.4: Waterflow Retard Timer..................................................................................................................139
4.20.5: Alarm Verification (None or One Minute)......................................................................................140
4.21: Walktest .....................................................................................................................................................140
4.22: Read Status ................................................................................................................................................141
4.22.1: System Point ...................................................................................................................................142

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Table of Contents

4.22.2: Zones ...............................................................................................................................................143
4.22.3: Power...............................................................................................................................................144
4.22.4: Trouble Reminder............................................................................................................................145
4.22.5: Timers..............................................................................................................................................145
4.22.6: NAC ................................................................................................................................................146
4.22.7: Relays ..............................................................................................................................................146
4.22.8: Program Check................................................................................................................................147
4.22.9: History.............................................................................................................................................147
4.22.10: Annunciators .................................................................................................................................148
4.22.11: Phone Line.....................................................................................................................................148
4.22.12: Central Station...............................................................................................................................149
4.22.13: Service Terminal............................................................................................................................150
4.22.14: Printer/PC ......................................................................................................................................150
4.22.15: Print ...............................................................................................................................................151
4.22.16: Time-Date......................................................................................................................................153
SECTION 5: Central Station Communications ...................................................................................................154
5.1: Transmittal Priorities ...................................................................................................................................157
SECTION 6: Remote Site Upload/Download .......................................................................................................159
6.1: Downloading Program.................................................................................................................................159
6.1.1: Security Features ...............................................................................................................................160
6.2: Downloading Initiated at Control Panel ......................................................................................................162
6.3: Downloading Initiated at a Service Terminal ..............................................................................................162
6.4: Uploading Initiated at a Service Terminal...................................................................................................163
SECTION 7: Power Supply Calculations .............................................................................................................164
7.1: Overview .....................................................................................................................................................164
7.2: Calculating the AC Branch Circuit..............................................................................................................164
7.3: Calculating the System Current Draw.........................................................................................................165
7.3.1: Overview ...........................................................................................................................................165
7.3.2: How to Use Table 7.3 on page 166 to Calculate System Current Draw ...........................................165
7.4: Calculating the Battery Size ........................................................................................................................167
7.4.1: NFPA Battery Requirements .............................................................................................................167
7.4.2: Selecting and Locating Batteries.......................................................................................................167
APPENDIX A: Software Zones ............................................................................................................................168
A.1: Correlations ...............................................................................................................................................168
APPENDIX B: Default Programming .................................................................................................................174
APPENDIX C: NFPA Standard-Specific Requirements ...................................................................................175
APPENDIX D: Wire Requirements .....................................................................................................................179

8

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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

Before proceeding, the installer should be familiar with the following documents.
NFPA Standards
NFPA 72 National Fire Alarm Code
NFPA 70 National Electrical Code
Underwriters Laboratories Documents:
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 1610 Central Station Burglar Alarm Units
UL 1638 Visual Signaling Appliances
UL 1971 Signaling Devices for Hearing Impaired
Other:
EIA-232E Serial Interface Standard
EIA-485 Serial Interface Standard
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•LiteDevice Compatibility
SLC Wiring Manual
AFM-16ATF & AFM-32AF
AFM-16AF Annunciator
ACS Series Annunciators
CHG-120F Battery Charger
CHG-75 Battery Charger
LDM Series Lamp Driver Modules
LCD-80F Remote Fire Annunciator
ACM-8RF Relay Control Module

MS-9200UD PN 51906:A

12/10/02

Document #15384
Document #51309
Document #15970
Document #15210
Document #51480
Document #50888
Document #51315
Document #50055
Document #51338
Document #50362

9

10

TRANSFORMER 1

MS-9200UD PN 51906:A

HIGH VOLTAGE

J10

1
2
3

JP4

4
3

CAUTION!

CAUTION!

2
1

J11

TRANSFORMER 2

Transformer 1 Connector

Transformer 2 Connector

Nonresettable or Resettable Power
Jumper selectable by JP4, 24 VDC filtered,
power-limited (0.500 amps maximum)
Supervision required. Nonresettable
Power suitable for powering annunciators,
Resettable Power suitable for powering
smoke detectors..

Resettable Power - 24 VDC filtered, power-limited
(0.500 amps maximum) to smoke detectors (IDC).
Supervision required.

Supervise with a power supervision relay A77-716B

DC Power Outputs (24 VDC)

24 VDC filtered, supervised and power-limited.
0.040 amps maximum, follows NAC1 control circuit.
Requires 4.7kohm End-of-Line resistor.

Remote Synchronization Output

+

+

-

Notification Appliance Circuits

-

JP5

J1

+

+

+

120 VAC, 60 HZ, 3.0 amps
220/240 VAC, 50 Hz, 1.5 amps

- +

BATTERY

J9

RELAY 1

NC C

NC C

JP2

RELAY 2

TB6NO

NC NO C

Trouble

PS2 Keyboard Interface

MINI DIN
KEYBOARD CONN.

J3

KEYPAD
I/F

A+ B-

4XTMF

CUT TO
MONITOR
4XTMF

JP3

J6

J7

KISSOFF

B

(Non Power Limited)

DACT Phone Line Jacks

SEC. PHONE LINE

J12

SEC. ACTIVE

PRI. PHONE LINE

J13

PRI. ACTIVE

A

shield
SHIELD

Cut this jumper to supervise
the 4XTMF module when
installed (see J5 & J6)

J5

A-

SLC SLC SLC

B A B A A B
+ + - TB10 SLC
B+

Cut this jumper to enable
Supervisory relay when
4XTMF module is installed

ACS

+

Refer to the SLC Wiring
Manual for detailed
information on wiring
addressable devices
for Style 4, 6 and 7.

TERM
(EIA-485)
to LCD-80F

O
O
U I U I
T N T N
+ + - -

SLC Loop

OR

Flash Memory Load Enable Switch.
UP is normal position for switch.
SW1 DOWN position allows loading of
factory software upgrades.

24 VDC, nonpower-limited
18 Amp Hour maximum

Battery

J4

Remove this jumper
to disable the FACP
battery charger when
using external charger.

To disable ground fault detection,
remove jumper/shunt from JP7

JP7

REMOVE TO
DISABLE GND. FLT.

Configure NACs for Claa A or
Class B wiring using NACKEY
card. Factory default is Class B.

RELAY 3

TB7 NO
TB5 NO

NO NC C

NC C

Alarm*
NO NC C

Supervisory*

(*Factory default relay programming)

For EDP-listed equipment or
personal computer with FACP
Upload/Download Utility.
50 foot maximum within same room.

EIA-232
to printer or
personal computer

ACS (EIA-485)
to ACS Annunc.
(power-limited,
supervised)

TB8 OUT+ IN+ OUT- IN- TB9

Contacts shown below in normal
condition (AC power with no alarm,
trouble or supervisory activity).

Contact Ratings:
2.0 amps @ 30 VDC (resistive)
0.5 amps @ 30 VAC (resistive)

2 Programmable Relays &
1 Fixed Trouble Relay

ELRs 4.7K, ½W

A Fail Safe Trouble NC NO C
relay switches to the
NO position during
trouble conditions and
under loss of all power.

NAC #2

B B B B
+ + - NAC
2 4 4 2 Number

+

+

+

NAC #4

B+ A+ A- B2B+ 4B+ 4B- 2BNAC 2 CLASS A
NAC 2 & 4 CLASS B

TB4

B+ A+ A- B1B+ 3B+ 3B- 1BNAC 1 CLASS A
NAC 1 & 3 CLASS B

TB3

-

B B B B
+ + - 1 3 3 1

+

+

+

NAC #3

LCD DISPLAY

JP6

+ -

+

REMOTE PWR
SUPPLY SYNC

TB2

+

+

+

NAC #1

NAC #1, #2, #3 & #4, Style Y (Class B) (Power Limited)
2.5 amps max. per circuit. JP6 configured
for Class B using NACKEY card.
(See Style Z illustrated near right edge of board).

HOT NEUT EARTH

TB11

+ 24V - + 24V NON-RST RST
POWER POWER

TB1

2
1

Basic System Connections

HIGH VOLTAGE

12/10/02

Red
White
Green
Black

DB9F

9 8 7 6

5 4 3 2 1

OR

5 4 3 2 1

TR D G
XC T N
V R D

TB3

B A A B
+ + - -

+

+

TB4

B A A B
+ + - -

+

+

NAC #2
+

NAC #1 & #2
Style Z (Class A) (Power Limited)
2.5 amps max. per circuit.
JP6 configured for Class A
using NACKEY card.
NAC #1
+

TB8
TB8 (option to DB-25)

25 24 23 22 21 20 19 18 17 16 15 14

13 12 11 10 9 8 7 6

TB8

Notification Appliance Circuits

T R D G
X C T N
V R D

Peripheral Devices and Their Documents:

ACM-16ATF &
ACM-32ATF
Doc. # 51480

AFM-16ATF &
AFM-32AF
Doc. #15970

ACM-8RF
Doc. #50362

ACS (EIA-485)
Annunciators

LDM-32F
Doc. #50055

AFM-16AF
Doc. #15210

Ack/Step

TERM (EIA-485)
Annunciators

Silence

Drill
Hold 2 sec.

Reset

1

SLC Loop
Addressable Devices and SLC Wiring
Doc. #51309

92udperi.cdr

LCD-80F
Doc. #51338

Battery Connector

JP1

AM-1 ENABLE

CUT FOR
240VAC

ENABLE
AC DELAY

JP3

F1

15

ADDRESS

SW 1
ON

068'31$

+

-

F3
JP2

OFF

GND FLT
DISABLE

TB 3
A- B- A+ B+

-

15

HOT NEUT EAR TH

11 0 5 7
10
8
14
12
1
13
6
2
15
9 4 3
ONES

TB 2
B AT BAT OUT OUT
+
+
-

TB 1

CHG-120F Charger
Doc. #50888

AM-1

JP4
16 HR
DELAY

J4

JP5
F2

TENS
11 0 5 7
10
8
14
12
1
13
6
15
9 4 32

TB 4

J1

J2 J3

NC NO C

+

CHG-75 Charger
Doc. # 51315



3URGXFW'HVFULSWLRQ

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Product Description

SECTION 1

The Fire•Lite MS-9200UD is a combination FACP (Fire Alarm Control Panel) and
DACT (Digital Alarm Communicator/Transmitter) all on one circuit board. This
compact, cost effective, intelligent addressable control panel has an extensive list of
powerful features. The combination of Fire•Lite’s newer series devices and legacy 300
Series devices, along with the MS-9200UD FACP, offer the latest in fire protection
technology. The power supply and all electronics are contained on a single circuit
board housed in a metal cabinet, providing a complete fire control system for most
applications. Optional modules, which plug into the main circuit board, are available
for special functions. Available accessories include LED, graphic and LCD
annunciators, reverse polarity/city box transmitter, local and remote upload/download
software and remote power expansion.
The integral DACT transmits system status (alarms, troubles, AC loss, etc.) to a Central
Station via the public switched telephone network. It also allows remote and local
programming of the control panel using the PK-Plus Upload/Download utility. In
addition, the control panel may be programmed or interrogated off-site via the public
switched telephone network. Any personal computer with WindowsΠ95 or greater,
and compatible modem with a speed of 14.4 kbps or faster and Fire•Lite Upload/
Download software kit PK-Plus, may serve as a Service Terminal. This allows
download of the entire program or upload of the entire program, history file, walktest
data, current status and system voltages.
Note: Unless otherwise specified, the term MS-9200UD is used in this manual to refer
to both the MS-9200UD and the MS-9200UDE FACPs (Fire Alarm Control Panels).
Inventory
When the MS-9200UD shipment is received, check to make certain that all parts have
been included in the shipment. The MS-9200UD shipment should consist of one of
each of the following:
✓
✓
✓
✓

main circuit board with display
backbox with door
plastic bag containing screws, cables, key, etc.
manual

1.1 Features and Options
•
•
•
•
•
•
•
•
•
•
•
•
•
•


Built-in DACT (Digital Alarm Communicator/Transmitter)
Single addressable SLC loop which meets NFPA Style 4, 6 and 7 requirements
198 addressable device capacity (99 detectors and 99 control/relay/monitor
modules)
99 software zones
Onboard NACs (Notification Appliance Circuits) which can be configured as
four Style Y (Class B) or two Style Z (Class A) circuits
3.0 amps total power for NACs and 24 VDC auxiliary power outputs expandable
to 6.0 amps
3.6 amps total system power (includes battery charger) expandable to 6.6 amps
Two programmable relay outputs and one fixed trouble relay
Synchronization output for remote power supply applications
Built-in Programmer
Telephone Line Active LEDs
Communication Confirmation (Kissoff) LED
Touchtone/Rotary dialing
Programmable Make/Break Ratio
068'31$

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•

EIA-232 Printer/PC interface (variable baud rate)

•

80-character LCD display (backlit)

•

Real-time clock/calendar with daylight savings time control

•

History file with 1,000 event capacity

•

Advanced fire technology features:

•

✓ Automatic drift compensation
✓ Maintenance alert
✓ Detector sensitivity test capability (NFPA 72 compliant)
✓ Automatic device type-code verification
✓ Point trouble identification
Waterflow selection per module point

•
•
•
•
•
•
•
•
•
•
•
•
•
•
•

068'31$

Alarm verification selection per detector point
Walktest, silent or audible
PAS (Positive Alarm Sequence) and Pre-signal per point (NFPA 72 compliant)
Silence inhibit timer option per NAC
Autosilence timer option per NAC
Continuous, March Time, Temporal or California code for main circuit board
NACs with two-stage capability
Selectable strobe synchronization per NAC
Remote Acknowledge, Alarm Silence, Reset and Drill via addressable modules,
AFM annunciators or LCD-80F Remote annunciator
Auto-program (learn mode) reduces installation time. Reports two devices set to
the same address
Password and key-protected nonvolatile memory
User programmable password
Fully programmable from local keypad or optional keyboard
Upload/Download (local or remote) of program and data via integral DACT
SLC operates up to 10,000 ft. (3,000 m) with twisted, shielded wire or 3,000 ft
(900 m) with untwisted, unshielded wire
Compatible with Fire•Lite’s newer series devices
✓ CP350, CP355: addressable Ionization Smoke Detector
✓ SD350(T), SD355(T), AD355: addressable Photo Smoke Detector (T= with
Thermal Sensor)
✓ H350(R), H355(R), H355HT: Fast Response Heat Detector (R=Rate-of-Rise
option, HT=High Temperature 190RF)
✓ D350P(R): addressable Photo Duct Detector (R=alarm relay option)
✓ B501BH & B501BHT Sounder Base
✓ B224RB Relay Base
✓ B224BI Isolator Base
✓ MMF-300: Monitor Module
✓ MMF-300-10: Monitor Module (10 Input Class B or 5 Input Class A)
✓ MDF-300: Dual Monitor Module (uses two consecutive SLC addresses)
✓ MMF-301: Miniature Monitor Module
✓ MMF-302: 2-wire Detector Module
✓ MMF-302-6: 2-wire Detector Module (6 Input Class B or 3 Input Class A)
✓ CMF-300: Control Module
✓ CMF-300-6: Control Module (6 Output Class B or 3 Output Class A)
✓ CRF-300: Relay Module
✓ CRF-300-6: Relay Module (6 Form-C relays)
✓ BG-12LX: Manual Pull Station
✓ I300: Isolator Module



Product Description

Specifications
•

Compatible with legacy Fire•Lite 300 Series devices:

•

✓ CP300: addressable Ionization Smoke Detector
✓ SD300(T): addressable Photoelectric Smoke Detector (T= Thermal Sensor)
✓ C304: Control Module
✓ M300: Monitor Module
✓ M301: Miniature Monitor Module
✓ M302: 2-wire Detector Module
✓ BG-10LX: Manual Pull Station
Optional 4XTMF module (conventional reverse polarity/city box transmitter)

•

Annunciators:
✓ ACM Series-LED Zone Annunciators
✓ LDM Graphic Annunciator Series
✓ LCD-80F Liquid Crystal Display point annunciator
✓ ACM-8RF Relay Module

1.2 Specifications
Refer to Illustration on page 10 for terminal locations and connections.
AC Power - TB11
MS-9200UD: 120 VAC, 60 Hz, 3.0 amps
MS-9200UDE: 240 VAC, 50 Hz, 1.5 amps
Wire size: minimum 14 AWG (2.00 mm2) with 600 V insulation
Battery (Lead Acid Only) - J9
Maximum Charging Circuit: Normal Flat Charge - 27.6 VDC @ 0.80 amp
Maximum Battery Charger Capacity: 18 Amp Hour (MS-9200UD cabinet holds
maximum of two 18 Amp Hour batteries. For greater than 25 Amp Hour up to 120
Amp Hour batteries, use the CHG-75 or CHG-120F Battery Charger and BB-55F
Battery Box.
Note: Jumper JP5, on the FACP main circuit board, must be removed to disable the
FACP battery charger when using an external battery charger.
Communication Loop - TB10
24 VDC nominal, 27.6 VDC maximum
Maximum length is 10,000 ft. (3,000 m) total twisted, shielded pair length or 3,000 ft.
(900 m) untwisted, unshielded pair length
Maximum loop current is 400 mA (short circuit) or 100 mA (normal)
Maximum loop resistance is 40 ohms
Supervised and power-limited circuit requires ferrite bead per FCC requirement
Refer to SLC Loop manual for wiring information
Notification Appliance Circuits - TB3 & TB4
Each Terminal Block provides connections for two Style Y (Class B) or one Style Z
(Class A) for a total of Four Style Y (Class B) or two Style Z (Class A) NACs
Style is configured using NACKEY card plugged into JP6 on main board
Power-limited circuitry
Maximum voltage drop in wiring: 2.0 VDC
Nominal operating voltage: 24 VDC
Current-limit: fuseless, electronic, power-limited circuitry
Maximum signaling current per circuit: 2.5 amps (see Figure 1.1 on page 15)
End-of-Line Resistor: 4.7 kΩ, ½ watt (P/N 71252 UL listed) for Style Y (Class B) NAC
Refer to Fire•Lite Device Compatibility Document for listed compatible devices
Two Programmable Relays and One Fixed Trouble Relay - TB5, TB6 & TB7
Contact rating: 2.0 amps @ 30 VDC (resistive), 0.5 amps @ 30 VAC (resistive)
Form-C relays
Refer to Figure 2.6 on page 32 for information on power-limited relay circuit wiring

14

MS-9200UD PN 51906:A

12/10/02

Specifications

Product Description
Nonresettable Power (24 VDC Nominal) - TB1, Terminals 1 (+) & 2 (-)
Jumper selectable (JP4) for conversion to resettable power output
Maximum ripple voltage: 10mVRMS
Total DC current available from each output is up to 0.5 amps (see Figure 1.1)
Power-limited circuit requires ferrite bead per FCC requirements
Four-Wire Resettable Smoke Detector Power (24 VDC nominal) - TB3,
Terminals 3 (+) & 4 (-)
Maximum ripple voltage: 10 mVRMS
Up to 0.5 amps is available for powering 4-wire smoke detectors (see Figure 1.1)
Power-limited circuit requires ferrite bead per FCC requirements
Refer to Fire•Lite Device Compatibility Document for listed compatible devices
Remote Sync Output - TB2
Remote power supply synchronization output
24 VDC nominal
Maximum current is 40 mA
End-of-Line Resistor: 4.7KΩ
Output linked to NAC 1 control
Supervised and power-limited circuit requires ferrite bead per FCC requirements
EIA-485 (TERM) or EIA-232 (ACS) - TB8
EIA-485 Terminal Mode annunciator connections: Terminal 1 (Out +), 2 (In +),
3 (Out -), 4 (In -)
EIA-232 PC/Printer applications connections: Terminal 1 (Transmit), 2 (Receive),
3 (Ground)
EIA-485 (ACS) - TB9
ACS annunciator connector, Terminal 1 (+) and Terminal 2 (-), requires ferrite bead

1.2.1 Current Availability
The following figure illustrates the maximum current that is possible for each panel
circuit and the total current available from the FACP with optional second transformer.

TB1
Nonresettable or
Resettable Power

1
2
3

Resettable Power
for 4-Wire Smoke Detectors

4

0.5 amps max
per circuit

0.5 amps max
per circuit

Standby
1 amp max
per panel

TB3
NAC #1

2

2.5 amps max

3

NAC #3

4

2.5 amps max
per circuit

TB4
NAC #2

1
2

NAC #4

3
4

Alarm
6 amps max

per circuit

2.5 amps max

Note: If NACs are
configured as two Style Z
(Class A) circuits, each
circuit can handle 2.5
amps maximum.

per circuit

2.5 amps max
per circuit

Refer to the battery calculations section for additional information.
Figure 1.1 Current Availability

MS-9200UD PN 51906:A

12/10/02

per panel

6.0 amps with optional second
XRM-24(E) transformer.
3.0 amps max. with only
standard transformer installed.

powerdist9200ud.cdr

1

15

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1.3 Controls and Indicators
LCD Display
The FACP uses an 80-character
FIRE-LITE ALARMS INC
(4 lines X 20 characters) high
viewing angle LCD display. The
SYSTEM ALL NORMAL
display includes a long life LED
10:00A 012102
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.
LED Indicators
LED indicators are provided to annunciate the following conditions:
•
•
•
•
•
•
•
•
•

AC Power (green)
Fire Alarm (red)
Supervisory (yellow)
Trouble (yellow)
Maintenance/presignal (yellow)
Alarm Silenced signals (yellow)
Disabled (yellow)
Battery fault (yellow)
Ground fault (yellow)

Key Panel
Mounted on the main circuit board, the key panel includes a window for the LCD
display and LED 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
Reset (lamp test)

Service/program keys:
•
•
•
•
•
•
•
•
•
•

AC POWER

MAINTENANCE

FIRE ALARM

ALARM
SILENCED

SUPERVISORY

DISABLED

TROUBLE

BATTERY
GROUND

2

1
4

5

ACK/STEP

1st

3
DEF

ABC

6

EVENT

ALARM
SILENCE

CLR

Keys labeled 1 to 9
7
8
9
* key
# key
0
#
*
-/.
0 (recall) key
1st Event key
Figure 1.2 Membrane/Display Panel
Clear key
Escape key
Mode key
Four cursor keys (up, down, left and right)
Enter key
GHI

JKL

MNO

PRS

TUV

WXY

ENTER

ESC

DRILL

HOLD 2 SEC

MODE

RESET

QZ

RECALL

9600kypd.cdr

•
•
•
•

Local Piezo Sounder
A piezo sounder provides separate and distinct pulse rates for alarm, trouble and
supervisory conditions.



068'31$

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1.4 Circuits
SLC Communication Loop
One SLC loop is provided standard on the FACP main circuit board. The SLC loop,
configurable for NFPA Style 4, 6 or 7, provides communication to addressable
detectors, monitor (initiating device) and control (output device) modules. Refer to the
SLC Wiring manual for information on wiring devices.
Reference
Manual

Output Circuits
The following output circuits are available on the FACP:
•
•
•

24 VDC Resettable (smoke detector power) output - 0.5 amps maximum
24 VDC Nonresettable or Resettable power output - 0.5 amps maximum
24 VDC Battery Charger (up to 18 AH batteries)

NAC (Notification Appliance Circuits)
NACs configurable for four Style Y (Class B) or two Style Z (Class A) using NACKEY
card in JP6, are provided with various programmable features.
Relays
One fixed and two fully programmable Form-C dry contact relays are provided. The
fixed fail-safe relay monitors system trouble and the two programmable relays are
factory default programmed for system alarm and system supervisory. Contacts are
rated 2.0 amps @ 30 VDC (resistive) and 0.5 amps @ 30 VAC (resistive). The
programmable relays can be programmed for the following operations:
•
•
•
•
•
•
•
•
•
•

fire alarm
trouble
supervisory
supervisory auto-resettable
DACT communication failure
process monitor
process monitor auto-resettable
hazard alert
medical alert
AC loss

1.5 Digital Alarm Communicator/Transmitter
Two modular phone jacks allow easy connection to telephone lines. Modular jacks are
labeled PH1 for Primary Phone Line and PH2 for Secondary Phone Line. Two
telephone line active red LEDs are provided as well as a green Kissoff LED. The
integral digital communicator provides the following functions:
•
•
•
•
•

•

Line Seizure: takes control of the phone lines disconnecting any premises phones
Off/On Hook: performs on and off-hook status to the phone lines
Listen for dial tone: 440 Hz tone typical in most networks
Dialing the Central Station(s) number: default is Touch-ToneŠ, programmable to
rotary
For tone burst or touchtone type formats: discern proper Ack and Kissoff tone(s).
The frequency and time duration of the tone(s) varies with the transmission
format. The control panel will adjust accordingly.
Communicate in the following formats:
✓ 12 Tone Burst types: 20 pps
(3+1, 4+1, 4+2, 3+1 Exp., 4+1 Exp., 4+2 Exp.)
✓ 3 Touchtone Types
4+1 Ademco Express
4+2 Ademco Express
Ademco Contact ID

068'31$



Product Description

Components

1.6 Components
Main Circuit Board



See Page

The main circuit board contains the system’s CPU, power supply, other primary
components and wiring interface connectors. The 4XTMF option module plugs in and
is mounted to the main circuit board. The circuit board is delivered in the MS-9200UD
kit and must be mounted to the backbox (refer to circuit board illustration on page 10).
Cabinet

Standard
XRM-24(E)

9200xfor.cdr

Optional
XRM-24(E)

ms9200UD.cdr

The MS-9200UD cabinet is red with a navy blue front overlay.
The backbox provides space for two batteries (up to 18 Amp
Hour). Ample knockouts are provided for system wiring. Also
available is an optional dress panel, which mounts to the inside
of the cabinet (required by ULC for Canadian installations).
The dress panel must be installed to meet FM requirements.

Transformer Assembly
One 100VA transformer is provided standard
with the panel (3.6 amps maximum). An
optional 100 VA transformer XRM-24
(XRM-24E for the MS-9200UDE) is available
to provide maximum system and accessory
power (6.6 amp total).

Batteries

+

-

9200batt.cdr

Battery Cable P/N 75287

+

The MS-9200UD cabinet provides space for
two batteries (up to 18 Amp Hour). Batteries
larger than 18 Amp Hour require an external
charger such as the CHG-75 or CHG-120F
and a UL listed battery box such as the BB55F. Batteries must be ordered separately.

1.6.1 Intelligent Addressable Detectors: Newer Series
Intelligent, addressable detectors provide information to the control panel on an SLC
Signaling Line Circuit (refer to the SLC Wiring Manual for detailed information on
device installation, wiring and operation). This allows the control panel to continually
process the information to determine the status (alarm, trouble, maintenance or normal)
of each detector. Each detector responds to an SLC address that is set in the detector
head using built-in rotary decimal switches. Note that a blinking LED on an intelligent
detector indicates communication between the detector and the control panel. Refer to
the Fire•Lite Device Compatibility Document for a list of approved detectors.
Smoke Detectors (Photoelectric)
The SD350 is an intelligent, addressable low profile photoelectric smoke detector
which provides smoke sensing technology. The SD350T includes a 135o fixed thermal
sensor.
Smoke Detector (Ionization)
The CP350 is an intelligent, addressable low profile ionization smoke detector which
measures the level of combustion products in its chamber using the ‘ionization
principle.’

18

MS-9200UD PN 51906:A

12/10/02

&RPSRQHQWV

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Smoke Detector (Duct)
The D350P is an intelligent, addressable photoelectric duct smoke detector. The
D350RP includes an alarm relay.
Heat Detectors
The H350 is an intelligent heat detector with a thermistor sensing circuit for fast
response, designed to provide open area protection with 50 foot (15 m) spacing
capability. The H350R incorporates a thermal Rate-of-Rise circuit of 15RF (9.4RC).
Detector Bases
The B501BH is a standard sounder base and the B501BHT is a temporal tone sounder
base for intelligent, addressable smoke detectors.
The B224RB is a relay base with one Form-C relay for intelligent, addressable smoke
detectors. It may be used to control auxiliary functions.
The B224BI is an isolator base for intelligent, addressable smoke detectors. It
functions similar to the I300 isolator module which allows loops to operate under fault
conditions and automatically restore when the fault is removed.

1.6.2 Intelligent Addressable Modules: Newer Series
The newer series of Control Modules and Monitor Modules provide an interface
between the control panel and conventional notification and initiating devices. Each
module can be set to respond to an address with built-in rotary switches. A blinking
LED on a monitor module indicates communication between the module and the
control panel. These devices can also be used when installed on older systems. Refer
to the Fire•Lite Device Compatibility Document for a list of approved notification and
initiating devices.
Reference
Manual

Monitor Modules
The MMF-300, MMF-300-10, MDF-300, MMF-302 and MMF-302-6 are addressable
monitor modules for monitoring conventional initiating devices. The MMF-300 is used
for normally open contact alarm initiating devices, such as manual pull stations, fourwire smoke detectors, heat detectors, waterflow, security contacts and supervisory
devices. The MMF-300-10 functions the same as the MMF-300 except it provides 10
Class B or 5 Class A inputs. The MDF-300 is a dual monitor module (Class B only)
which occupies two consecutive SLC addresses, with each module functionally the
same as the MMF-300. The MMF-302 is used primarily for two-wire smokes detectors
in addition to normally open contact devices. The MMF-302-6 functions the same as
the MMF-302 except it provides 6 Class B or 3 Class A inputs. The supervised IDCs
(Initiating Device Circuits) can be wired to the modules as NFPA Style B (Class B) or
Style D (Class A) circuits. The modules are supplied with a thermoplastic cover for
mounting to a 4-inch mounting box.
Monitor Module (miniature)
The addressable MMF-301 module is functionally similar to an MMF-300 but offered
in a smaller package for mounting directly in the electrical box of the monitored device.
Control Module
The CMF-300 and CMF-300-6 are an addressable Control Modules used to connect
NACs (Notification Appliance Circuits) to power and supervise compatible, UL-listed
notification appliances. The CMF-300 provides one Class B or Class A output while
the CMF-300-6 provides 6 Class B or 3 Class A outputs. The NACs can be wired to the
module as supervised NFPA Style Y (Class B) or Style Z (Class A) circuits. The
modules are supplied with a thermoplastic cover for mounting to a 4-inch square
mounting box.

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Relay Module
The CRF-300 and CRF-300-6 are a Control Relay Modules which are functionally
similar to the CMF-300 but used as Form-C relay modules. The CRF-300 provides one
Form-C relay while the CRF-300-6 provides six Form-C relays.
Isolator Module
The I300 loop isolator module is an automatic switch which opens the circuit voltage to
the SLC loop branch(es) whenever a wire-to-wire short circuit is detected on that loop.
The remainder of the communications loop leading up to the I300 will continue to
operate, unaffected by the short. The isolator module is bidirectional, meaning that it
can detect a fault condition between the input SLC terminals or output SLC terminals.
The I300 is required to meet NFPA Style 7 requirements.
Detector Annunciator
The RA400Z is a remote single LED annunciator that can be wired directly to an
addressable detector for annunciation of that detector’s alarm status.
Manual Pull Station
The BG-12LX is an addressable manual pull station featuring a key-lock reset. The
pull station responds to an address set by the installer using the built-in rotary decimal
switches on the pull station. The manual pull station includes the Fire•Lite key.

1.6.3 300 Series Intelligent Addressable Devices
Fire•Lite’s 300 Series Intelligent Addressable Devices are fully compatible with the
MS-9200UD FACP. The address of 300 Series devices cannot be set above 99.
Compatible devices include:
•
•
•
•
•
•
•
•

SD300 Photoelectric Detector
SD300T Photoelectric Detector with Thermal Sensor
CP300 Ionization Detector
M300 Monitor Module
M301 Miniature Monitor Module
M302 2-wire Monitor Module
C304 Control/Relay Module
BG-10LX Manual Pull Station

1.6.4 Addressable Device Accessories
End-of-Line Resistor Assembly Fire•Lite P/N R-47K
The 47 kΩ End-of-Line Resistor assembly (P/N: R-47K) is used to supervise the
MMF-300, MDF-300, MMF-301 and CMF-300 module circuits. The 3.9 kΩ End-ofLine Resistor assembly is used to supervise the MMF-302 module circuit. The resistors
are included with each module.
Power Supervision Relay
The UL listed End-of-Line power supervision relay is used to supervise the power to 4wire smoke detectors and notification appliances.
N-ELR Mounting Plate
The N-ELR is a single End-of-Line resistor plate. An ELR, which is supplied with each
module and fire alarm control panel, is mounted to the ELR plate. Resistors mounted to
the N-ELR plate can be used for the supervision of a monitor and control module
circuit.



068'31$

Optional Modules

Product Description

1.7 Optional Modules
The MS-9200UD main circuit board includes option module connectors for the
following module:
4XTMF Transmitter Module
The 4XTMF provides a supervised output for local energy municipal box transmitter,
alarm and trouble reverse polarity. It includes a disable switch and disable trouble
LED. A jumper on the module is used to select an option which allows the reverse
polarity circuit to open with a system trouble condition if no alarm condition exists.
The module plugs into connectors J5 and J6 which are located near the right edge the
main circuit board. When the 4XTMF module is installed, Jumper JP3, on the main
circuit board, must be cut to allow supervision of the module.

1.8 Accessories
1.8.1 PK-Plus Programming Utility
The PK-Plus Programming Utility can be used to program an MS-9200UD directly
from most IBM compatible computers, including laptops and portables, equipped with
a serial port. MS-9200UD program files can also be created and stored on the PC and
then downloaded to the control panel. The PK-Plus Kit includes the MS-9200UD
Windows-based Programming Utility software on CD-ROM with on-line help file. A
serial cable (P/N: PRT/PK-CABLE), which must be purchased separately, is required
for connection of the PC to the RS-232 (PC/Printer) terminals at TB8 of the MS9200UD main circuit board. Refer to the illustration on page 10 and the section titled
"Printer/PC" on page 40, for the location and connections to this terminal.

1.8.2 Dress Panel
An optional dress panel is available for the MS-9200UD. The dress panel restricts
access to the system wiring while allowing access to the key panel.

CAUTION: HIGH VOLTAGE UNDER PANEL

MS-9200UD PN 51906:A

12/10/02

dp9600.cdr

!! WARNING !!
SEVERAL DIFFERENT SOURCES OF POWER
CAN BE CONNECTED TO THIS CONTROL UNIT
DISCONNECT ALL SOURCES OF POWER BEFORE SERVICING

21

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1.8.3 Battery Box
BB-26
The BB-26 battery box may be used to house up to two 26 AH batteries and the
CHG-75 Battery Charger. The battery box is red and is provided with knockouts.
BB-55F
The BB-55F battery box may be used to house two 25 AH batteries, two 60 AH
batteries or one 100 AH battery. When the CHG-120F is mounted in the BB-55F, two
25 AH or one 60 AH battery may also be housed in the battery box.

1.8.4 Battery Charger
1.8.4.1 CHG-75 Battery Charger
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8')$&37KH)$&3EDWWHU\FKDUJHUPXVWEHGLVDEOHGE\UHPRYLQJMXPSHU
-3ZKHQXVLQJWKH&+*7KHFKDUJHUDQGXSWR$+EDWWHULHVFDQEHKRXVHG
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WKHFRQWUROSDQHO5HIHUWRWKH&+*0DQXDOIRUDGGLWLRQDOLQIRUPDWLRQ

1.8.4.2 CHG-120F Battery Charger

Reference
Manual



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1.8.5 Annunciators
ACM Series LED Zone Type Annunciators
The ACM Series Annunciators remotely display alarm and trouble status as well as
system status. In addition, they can provide remote Acknowledge, Silence, Reset and
Drill functions. For more detailed information, refer to the appropriate annunciator
manual. Following is a list of annunciators which can be used with the MS-9200UD.
Reference
Manual

•

•
•

•

•
•

•

068'31$

ACM-16ATF Annunciator Control Module annunciates 16 zones with 16 red
alarm LEDs and 16 yellow trouble LEDs. In addition, it has a System Trouble
LED, an On Line/Power LED and a local piezo sounder. It also has switches for
FACP Acknowledge, Silence, Reset and Drill. It has rotary address switches and
will accept up to three AEM-16ATF Expanders.
AEM-16ATF Annunciator Expander Module annunciates 16 zones with 16 red
alarm LEDs and 16 yellow trouble LEDs
AFM-16ATF Annunciator Fixed Module annunciates 16 zones with 16 red
alarm LEDs and 16 yellow trouble LEDs. In addition, it has a System Trouble
LED, an On Line/Power LED and a local piezo sounder. It also has switches for
FACP Acknowledge, Silence, Reset and Drill. It is fixed at address ‘1.’
ACM-32AF Annunciator Control Module annunciates 32 alarm zones with 32
red LEDs. In addition, it has a System Trouble LED, an On Line/Power LED
and a local piezo sounder. It also has a switch for local piezo silence. It has
rotary address switches and will accept one AEM-32AF Expander.
AEM-32AF Annunciator Expander Module annunciates 32 alarm zones with 32
red LEDs
AFM-16AF Annunciator Fixed Module annunciates 16 alarm zones with 16 red
alarm LEDs. In addition, it has a System Trouble LED, an On Line/Power LED
and a local piezo sounder. It also has a switch for local piezo silence. It is fixed
at address ‘1.’
AFM-32AF Annunciator Fixed Module annunciates 32 alarm zones with 32 red
LEDs.



3URGXFW'HVFULSWLRQ

*HWWLQJ6WDUWHG
LCD-80F Remote Fire Annunciator
The LCD-80F annunciator is a compact 80-character backlit LCD remote fire
annunciator that is capable of displaying English language text. It mimics the display
on the control panel and will annunciate device type, point alarm, trouble or
supervisory condition, zone assignment plus any custom alpha labels programmed into
the FACP. The annunciator also provides system status LEDs to display AC Power,
Alarm, Trouble, Supervisory and Alarm Silenced conditions. Additionally, the LCD80F is capable of remotely performing critical system functions such as Acknowledge,
Silence, Reset and Drill.

Reference
Manual

Reference
Manual

Communications between the control panel and the annunciator is accomplished over a
serial interface employing the EIA-485 communication standard. Up to 32 LCD-80F
annunciators may be connected to the EIA-485 circuit. The annunciators may be
powered from the host FACP or a remote UL listed filtered power supply such as the
Fire•Lite FCPS Series. For more detailed information, refer to the LCD-80F manual.
LDM Series Lamp Driver Modules (Graphic Annunciator)
The LDM Series Lamp Driver Modules, which consist of the LDM-32F master and
LDM-E32F expander modules, are used to provide an interface to a custom graphic
LED annunciator. The master module provides power and control for a maximum of
three expander modules. The LDM-32F and LDM-E32F have output connectors which
are used to drive lamps or LEDs and input connectors which are used for remote switch
functions. Refer to the LDM Series Lamp Driver Modules manual for a complete
description.

1.9 Getting Started
The following is a brief summary of the minimal steps involved in bringing an MS9200UD on-line:



•

Install Backbox and Main Circuit Board (refer to "Mounting Backbox" on page
27)

•

Address and Install Intelligent Devices (refer to the SLC Wiring Manual)

•

Enter Autoprogramming (refer to "Autoprogram" on page 49)

•

Resolve Programming Conflicts

•

Go to Point Program to Enter Specific Data (refer to "Point Program" on page
50). Use the right and left arrow keys to navigate between devices.

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Alarm dialing equipment must be able to seize the telephone line and place a call in an
emergency situation. It must be able to do this even if other equipment (telephone,
answering system, computer modem, etc.) already has the telephone line in use. To do
so, alarm dialing equipment must be connected to a properly installed RJ31X jack that
is electrically in series with and ahead of all other equipment attached to the same
telephone line. If there are any questions concerning these instructions, consult the
telephone company or a qualified installer about installing the RJ31X jack and alarm
dialing equipment. Refer to "Digital Communicator" on page 36 for an illustration of
the proper installation of this equipment.

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Installation

SECTION 2

The cabinet may be either semi-flush or surface mounted. The cabinet mounts using
two key slots and two 0.250” (6.35 mm) diameter holes located in the backbox. The
key slots are located at the top of the backbox and the two securing holes 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 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 Mounting Backbox
!

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.

See Page

✓ Mark and predrill holes in the wall for the top two keyhole mounting bolts
using the dimensions illustrated in Figure 2.3 on page 29
✓ Install two upper fasteners in the wall with the screw heads protruding
✓ Using upper ‘keyholes,’ place backbox over the two screws, level and secure
✓ Mark and drill the lower two holes
✓ Install remaining fasteners and tighten
✓ Screw supplied standoffs onto mounting studs in locations indicated below
✓ When the location is dry and free of construction dust, install the main circuit
board by aligning the 8 mounting holes in the circuit board with the 8
mounting standoffs in the backbox as illustrated below
✓ Secure the circuit board to the standoffs with the supplied screws as indicated
in following figure
MS-9200UD Main Circuit Board
TB 2

TB 1

TB 3

TB 4

TB 7 NO NC C TB 5
TB 6
NO NC C
NO NC C

JP 4
1
2
3

+ 24V - + 24V NON-RST RST
POWER POWER

+ -

REMOTEPWR
SUPPLY SYNC

JP 6

B+ A+ A- B1B+ 3B+ 3 B- 1 BNAC 1 CLASS A
NAC 1 & 3 CLASSB

B+ A+ A- B2B+ 4B+ 4 B- 2 BNAC 2 CLASS A
NAC 2 & 4 CLASSB

RELAY3

RELAY1

TB 8 OU T + NI +

OU T - N
I -

TB 9

A CS

L C SL C SL C SL C
TB 10 S B+
A+ B- A-

S HIE L D

A B

RELAY2

JP 2

JP 1

RE MOVE TO
DI SABLE GND . FLT.

4XTMF
1 2 3

JP 7

J5

J6
JP 3
CU T TO
MONITOR
4XTMF

SW1

KISS OFF

CAUT ION!

TRA N SFOR ME R 2

HIGH VOLTAGE

PR I. AC TIVE
LCD DIS PLAY

TRA N SFOR ME R 1

J1

SEC. AC TIVE

KEYPAD
I/F

J4

TB11

J13

J12

J3
J9

J10
HOT NEU T EARTH

mounting studs

- +

BATTERY

MIN I D IN
KEYB OAR D CONN.

PR I. PH ONE LIN E SEC. PH ONE LIN E

92udbdmn.cdr

J7

JP 5

J11

mounting studs

grounding stud

MS-9200UD Backbox

Figure 2.1 MS-9200UD Main Circuit Board Installation

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2.2 Mounting Transformer
One XRM-24(E) transformer is supplied standard with the control panel. An optional
second XRM-24(E) transformer can be ordered and installed to provide maximum
system power. Install the transformers in the locations indicated in the following
illustration.
1. Mount the Standard XRM-24 Transformer in the lower transformer mounting
location by positioning the wiring connector to the right as illustrated in the
following figure.
2. Slide the bottom transformer mounting bracket into the embossed mounting
pocket as illustrated.
3. Secure the top transformer mounting bracket to the mounting stud with the
supplied screw.
4. If the optional second XRM-24 Transformer is being installed, mount it in the
upper transformer mounting location by positioning the wiring connector to the
right as illustrated in the following figure.
5. Slide the top transformer mounting bracket into the embossed mounting pocket
as illustrated.
6. Secure the bottom transformer mounting bracket to the mounting stud with the
supplied screw.
7. Connect the Standard XRM-24 Transformer plug to Transformer 1 Connector
J10 on the FACP main circuit board
8. Connect the Optional XRM-24 Transformer plug to Transformer 2 Connector J11
on the FACP main circuit board.
9. Complete the installation as detailed in the following sections.

Mounting Pocket
Optional XRM-24 Transformer
Mounting Studs
Standard XRM-24 Transformer
Mounting Pocket

Figure 2.2 Transformer Mounting



068'31$

Mounting Transformer

Installation

1.75“

5.1 cm
2.00“

2.00“

2.00“

2.00“

2.00“

2.00“

4.45 cm
1.75“

1.625“ (4.128 cm)

4.128 cm
1.62“ (4.11 cm)
1.63“
4.1 cm
1.62“

15.5“ (39.37 cm)

4.128 cm
1.625“

12.00“ (30.48 cm)

4.1cm
1.62“

1.453“ (3.69 cm)

10.0“
25.4 cm
47.0cm
18.5“

4.45cm
1.75“

17.35 cm
6.83“

4.45cm
1.75“
4.1cm
1.583“
1.63“
4.128 cm

12.07 cm
4.75“
1.50“ (3.81 cm)

9600encl.cdr

4.75“
12.07 cm

1.75“
4.45 cm

Figure 2.3 MS-9200UD Cabinet Mounting

MS-9200UD PN 51906:A

12/10/02

29

Installation

Mounting Transformer

Depth = 4.37" (11.1 cm)

Top

Door = 15.78" (40.08 cm)
Backbox = 15.5" (39.37 cm)

Depth =
4.78"
(12.14 cm)

Door = 18.67" (47.43 cm)
Backbox = 18.5" (47.0 cm)

Left Side

Right Side
Bottom
18.620"
(47.3 cm)
Depth = 4.75"
(12.07 cm)

15.625"
(39.688 cm)

21.620"
(54.92 cm)

Battery Box = 8.5"
(21.59 cm)
9600cab.cdr

18.625"
(47.308 cm)

Trim Ring
P/N:FC-TR

Battery Box = 14.34" (36.42 cm)

Figure 2.4 MS-9200UD Cabinet Dimensions

30

MS-9200UD PN 51906:A

12/10/02

Power

Installation

2.3 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.

2.3.1 AC Power and Earth Ground Connection
Primary power required for the FACP is 120 VAC,
LCD DISPLAY
J4
J1
60 Hz, 3.0 amps for the MS-9200UD or 240 VAC,
50 Hz, 1.5 amps for the MS-9200UDE.
TB11
Overcurrent protection for this circuit must comply
J9
with Article 760 of the National Electrical Code
(NEC) and/or local codes. Use 14 AWG (2.00
- +
HOT NEUT EARTH
BATTERY
mm2) or larger wire with 600 volt insulation rating.
Make certain that the AC mains circuit breaker is off before wiring any connections
between the mains and the control panel. Connect wiring from the AC mains to TB11
on the FACP, being careful to observe proper connections.
Connect a wire from the grounding stud in the cabinet to a known solid earth ground in
the building. Refer to Figure 2.1 on page 27 for location of the stud. This connection is
vital for maintaining the control panel’s immunity to unwanted transients generated by
lightning and electrostatic discharge. Apply AC power to the panel only after the
system is completely installed and visually checked. Note that AC power must be
applied to the panel before installing the battery interconnect cable (refer to the
following section).

2.3.2 Battery Power

Interconnect
Cable

Before connecting the batteries to the FACP, make
+
certain that the interconnect cable between the
batteries is not connected. Do not connect the
interconnect cable until the system is completely
installed. Observe polarity when connecting the batteries. Connect the battery cable to
J9 on the main circuit board. Refer "Power Supply Calculations" on page 165, for
calculation of the correct battery rating.
-

+


See Page

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.

2.3.3 DC Power Output Connection
All DC power outputs are power-limited and require a ferrite bead per FCC
requirements (refer to "UL Power-limited Wiring Requirements" on page 35).
Power-limited Resettable Power
0.5 amperes max., 24 VDC nominal filtered, resettable power can
be drawn from TB1 Terminals 3(+) and 4(-)

Power-limited Resettable or Nonresettable Power
0.5 amperes max., 24 VDC nominal filtered, resettable
or nonresettable power can be drawn from TB1
Terminals 1(+) and 2(-)

MS-9200UD PN 51906:A

12/10/02

JP4
1
2
3

TB1 + - + 1

2

3

4

92udtb1.cdr

JP4 is used to configure TB1,
Terminals 1 & 2 for:
• Resettable Power - jumper pins 1 and
2 of JP4 as shown
• Nonresettable Power - jumper pins 2
& 3 of JP4

Figure 2.5 Power Outputs - 24 VDC

31

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2.4 Relays
The FACP provides two programmable Form-C relays and one fixed fail-safe Form-C
trouble relay, all with contacts rated for 2.0 amps @ 30 VDC (resistive) or 0.5 amps @
30 VAC (resistive).
Note that relay connections may be power-limited or nonpower-limited, provided that
0.25” spacing is maintained between conductors of power-limited and nonpowerlimited circuits. Refer to UL Power-limited wiring requirements.

TB5

TB6

RELAY 3

RELAY 1

RELAY 2

NO NC C

NO NC C

NO NC C

TB7

92udreyp.cdr

Note that the programmable relay labeled as
Relay 1 is factory default programmed as
Alarm and programmable Relay 3 is factory
default programmed as Supervisory.
The relay labeled Relay 2 is fixed as a
Trouble relay and cannot be changed. It is a
fail-safe relay which will transfer on any
trouble or total power failure.

Relay contacts shown with power applied to panel and
no active troubles, alarms or supervisories

Figure 2.6 Relay Terminals

2.5 Notification Appliance Circuits

See Page

Reference
Manual

The control panel provides four Style Y (Class B) or two Style Z (Class A) NACs
(Notification Appliance Circuits). Each circuit is capable of 2.5 amps of current. Total
current in alarm for all external devices cannot exceed 6.0 amps (refer to "Calculating
the System Current Draw" on page 165). Use UL listed 24 VDC notification
appliances only. Circuits are supervised and power-limited. Refer to the Fire•Lite
Device Compatibility Document for a listing of compatible notification appliances.
The NACs, which are located on the main circuit board, may be expanded via the
Fire•Lite FCPS Series field charger/power supplies.
The following sections describe the configuration and wiring of Style Y and Style Z
Notification Appliance Circuits on the MS-9200UD main circuit board. The NACs are
configured for Style Y (Class B) from the factory. Refer to "Configuring NACs" on
page 33 for information on changing the NAC configuration to Style Z (Class A).



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2.5.1 Configuring NACs
The Notification Appliance Circuits on the main circuit board are configured for Style
Y (Class B) or Style Z (Class A) by properly orienting the NACKEY card in JP6 which
is located at the top of the main circuit board near the NAC terminal blocks TB3 and
TB4. The default configuration is for Style Y (Class B). Refer to Figure 2.7 for
information on installing the NACKEY card.

NACKEY Card

• Style Z (Class A) - install NACKEY into JP6 with
Class A pointing down toward circuit board as
illustrated to the right.
• Style Y (Class B) - install NACKEY into JP6 with
Class B pointing down toward circuit board .

NACKEY -PCA
CLASS B
CLASS A

NACKEY must be inserted with text side facing in
toward center of main circuit board as illustrated to
the right. It is keyed to prevent incorrect insertion.

92nackey.cdr

NACKEY -PCA

JP6

Top edge of MS-9200UD
Main Circuit Board

TB3

TB4

NACKEY card slot

JP6

Figure 2.7 NAC Configuration Using NACKEY

2.5.2 Style Y (Class B) NAC Wiring
4 Style Y (Class B) Notification Appliance Circuits, supervised and power-limited - 4.7 kΩ, ½ watt P/N:71252 UL listed
NAC 4

NAC 3

NAC 2

Polarized Bells

+

+

+

+

Polarized Strobes

+

+

+

+

Polarized Horns

+

+

+

+

Notification Appliance Circuit
polarity shown in alarm state
circuit number

TB3

B B B B
+ + - 1 3 3 1

B B B B
+ + - 2 4 4 2

Polarized Bells

Polarized Strobes

Polarized Horns

Dummy Load all unused circuit

9200nacy.cdr

NAC 1

TB4

Figure 2.8 NAC Style Y (Class B) Wiring

068'31$



Installation

Remote Synchronization Output

2.5.3 Style Z (Class A) NAC Wiring
2 Style Z (Class A) Notification Appliance Circuits,
supervised and power-limited
Polarized Bell

+

+

Polarized Strobe

+

+

+

+

Polarized Horn

NAC 1

Polarized Bell

Polarized Strobe

Polarized Horn

B A A B
+ + - -

B A A B
+ + - -

9200nacz.cdr

Notification Appliance Circuit
polarity shown in alarm state
TB4

TB3

NAC 2

Figure 2.9 NAC Style Z (Class A) Wiring

2.6 Remote Synchronization Output
Synchronization is a feature that controls the activationof 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 to individuals. Devices connected directly to
the control panel’s NACs can be synchronized as described in "Type" on page 90.
Notification appliances connected to remote power sources may require
synchronization with the FACP’s devices. This can be accomplished by connecting the
Remote Synchronization Output from TB2 of the MS-9200UD to a compatible sync
input of a power supply such as the FCPS-24FS6/8. The 24 VDC, 40 mA signal from
TB2 follows, that is mimics, the signal on NAC1. This allows the devices connected to
the power supply to be synchronized with the devices connected to NAC1 on the FACP.
The Remote Synchronization Output is power-limited and supervised and requires a
ferrite bead (refer to "UL Power-limited Wiring Requirements" on page 35). A 4.7 kΩ
resistor must be connected to the end of the wiring at the remote power supply.
Remote Power Supply

Sync Input
Remote Sync Output
4.7 kΩ ELR

TB1

MS-9200UD

TB3

TB2

TB4

JP4
1
2
3

+ 24V - + 24V NON-RST RST
POWER POWER

+ -

REMOTE PWR
SUPPLY SYNC

B+ A+ A- B1B+ 3B+ 3B- 1B-

B+ A+ A- B2B+ 4B+ 4B- 2B-

Figure 2.10 Remote Sync Output

34

MS-9200UD PN 51906:A

12/10/02

UL Power-limited Wiring Requirements

Installation

2.7 UL 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 and nonpower-limited circuit wiring must
enter and exit the cabinet through different knockouts and/or conduits. A typical wiring
diagram for the MS-9200UD is shown below.
),*85(7\SLFDO8/3RZHUOLPLWHG:LULQJ5HTXLUHPHQWV
3RZHUOLPLWHG&LUFXLWV

3RZHUOLPLWHG&LUFXLWV

1RQSRZHUOLPLWHG&LUFXLWV

1RQSRZHUOLPLWHG&LUFXLWV

)HUULWH%HDGV
)HUULWH%HDGV

3RZHUOLPLWHG&LUFXLWV

maintain minimum 0.25”
between power-limited
and nonpower-limited
circuits wiring

$&3RZHU
*URXQG6WUDS

1RQSRZHUOLPLWHG
&LUFXLWV

*URXQGLQJ6WXG

XGXOSZFGU

7R%DWWHULHV

*Ferrite Bead Installation
Per FCC requirements, ferrite beads are required for the DC Power Outputs, Remote Power Supply Sync, ACS Output and SLC Circuit.

Wrap wire around ferrite bead as shown.

MS-9200UD PN 51906:A

12/10/02

Close ferrite bead.

35

,QVWDOODWLRQ

'LJLWDO&RPPXQLFDWRU

2.8 Digital Communicator
7ZRLQGHSHQGHQWWHOHSKRQHOLQHVFDQEHFRQQHFWHGWRWKHFRQWUROSDQHO7HOHSKRQHOLQH
FRQWUROFRPPDQGLVPDGHSRVVLEOHYLDGRXEOHOLQHVHL]XUHDVZHOODVXVDJHRIDQ5-;
VW\OHLQWHUFRQQHFWLRQ1RWHWKDWLWLVFULWLFDOWKDWWKHSDQHO VGLJLWDOFRPPXQLFDWRUEH
ORFDWHGDVWKHILUVWGHYLFHRQWKHLQFRPLQJWHOHSKRQHFLUFXLWWRSURSHUO\IXQFWLRQ
Customer Premises Equipment and Wiring
MS-9200UD

Network
Service
Provider’s
Facilities

Computer

RJ31X
Jack

Unused
RJ-11 Jack
MS-9200UD

Telephone
Line
Telephone
Network
Demarcation
Point

Unused
RJ-11 Jack

Fax Machine
Telephone

Answering
System
Telephone

Figure 2.1 DACT Installation
7KHFRQWUROSDQHO VGLJLWDOFRPPXQLFDWRULVEXLOWLQWRWKHPDLQFLUFXLWERDUG
&RQQHFWLRQDQGZLULQJRIWZRSKRQHOLQHVLVUHTXLUHGDVVKRZQEHORZ
(Secondary Lines)
Incoming Telco
Phone Lines
Tip
Ring

KISSOFF

PRI. ACTIVE

J13

Green Wire
Red Wire

Tip
Ring
Ring
To premise phones
Tip

Green Wire
Red Wire

(Primary Lines)
Incoming Telco
Phone Lines
Ring
To premise phones
Tip

1 2 3 4 5 6 7 8

1 2 3 4 5 6 7 8

Note:Shorting bars
inside RJ31X Jack
removed during
male plug insertion

SEC. ACTIVE

J12

7 foot
Cable
MCBL-7
(ordered
separately)
PRI. PHONE LINE SEC. PHONE LINE

Modular Female
Connectors

Male Plug
Connectors

Figure 2.2 Wiring Phone Jacks



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2.9 Optional Module Installation
WARNING! Disconnect all sources of power (AC and DC) before installing or
removing any modules or wiring.
MS-9200UD Keypad/Display Removal
Removal of the keypad/display is normally not necessary. If, however, it becomes
necessary to replace the keypad/display or access jumpers JP5 and JP7 or switch SW1,
the Keypad/Display can be removed by inserting a Phillips screwdriver into each of the
three holes located in the flexible covering of the Keypad/Display and loosening the
three mounting screws. Note that it is not necessary to disconnect the cables between
the Keypad/Display and the main circuit board unless the unit itself is being replaced.
Carefully lift the Keypad/Display and rest the unit at the bottom of the main circuit
board.
Mounting Screw Access Hole
TB2

TB1

TB3

TB4

TB7 NO NC C

JP4
1
2
3

+ 24V - + 24V NON-RST RST
POWER POWER

+ -

REMOTE PWR
SUPPLY SYNC

JP6

B+ A+ A- B1B+ 3B+ 3B- 1BNAC 1 CLASS A
NAC 1 & 3 CLASS B

B+ A+ A- B2B+ 4B+ 4B- 2BNAC 2 CLASS A
NAC 2 & 4 CLASS B

TB5 NO NC CTB6NO NC C

RELAY 3

RELAY 1

TB8 OUT+ IN+ OUT- IN- TB9

ACS

SLC SLC SLC SHIELD
TB10SLC
B+ A+ B- A- A B

RELAY 2

JP2

JP1

REMOVE TO
DISABLE GND. FLT.

4XTMF
1 2 3

JP7

J5

J6
JP3
CUT TO
MONITOR
4XTMF

SW1

J7

JP5

J11

KISSOFF

CAUTION!

TRANSFORMER 1

J1

SEC. ACTIVE

KEYPAD
I/F

J4

TB11

J13

J12

J3
J9

J10
HOT NEUT EARTH

- +

BATTERY

MINI DIN
KEYBOARD CONN.

PRI. PHONE LINE SEC. PHONE LINE

96dact1.cdr

TRANSFORMER 2

HIGH VOLTAGE

PRI. ACTIVE
LCD DISPLAY

Mounting Screw Access Holes

Figure 2.3 Keypad/Display Removal

068'31$



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2.9.1 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 right (disconnect)
position to prevent accidental activation of the municipal box. Note that a Disconnect
LED will illuminate after the module is installed in the MS-9200UD. In addition, the
System Trouble LED will turn on to indicate the Disconnect condition.
Note: 4XTMF Module is not suitable for
transmitting reverse polarity supervisory signal.

}Remote Alarm (power-limited)*
}Remote Trouble (power-limited)*
}

+ - +
1 2 3

4

5

+ 6 7

* Wiring from these
terminals can exit the
protected premises.
Dummy load terminals
No connection
6 and 7 (4.7kΩ, ¼ watt
resistor) if Municipal
Municipal Box (nonpower-limited)*
Box is not connected.

Polarities are shown for module activation

4xtmfl.cdr

Disconnect LED

Disconnect Switch
shown in disconnect
position

TBL Jumper

Connect to FACP J10 & J11

Figure 2.4 4XTMF Transmitter Module



068'31$

Optional Module Installation

Installation
The following steps must be followed when installing the 4XTMF module:
1. Remove all power (Primary and Secodary) from the FACP before installing
4XTMF
2. Cut jumper JP3 on the main circuit board to allow the control panel to supervise
the 4XTMF module
3. Carefully plug the connectors on the 4XTMF module into connectors J5 and J6
on the MS-9200UD main circuit board, being careful not to bend any pins
4. Secure 4XTMF module to standoffs with supplied screws.
5. Reapply power to the FACP
6. For proper 4XTMF operation, the output relays must be programmed for the
factory default settings: Alarm Relay 1, Trouble Relay 2 and Supervisory Relay 3
7. When the installation has been complete, enable the 4XTMF module by sliding
the disconnect switch to the left
8. Test system for proper operation
TB5 NO NC CTB6NO NC C

Standoff
RELAY 1

TB8 OUT+ IN+ OUT- IN- TB9

ACS

SLC

SLC SLC
TB10 SLC
B+ A+ B- A-

SHIELD

A

B

Standoff

RELAY 2

JP2

JP1

J5 & J6 Connectors
1 2 3

4XTMF

J5

4XTMF

J6

Cut Jumper JP3

JP3
CUT TO
MONITOR
4XTMF

J7

KISSOFF

J13

MS-9200UD

SEC. ACTIVE

J12

PRI. PHONE LINE SEC. PHONE LINE

92ud4xtm.cdr

PRI. ACTIVE

Figure 2.5 4XTMF Connectors to MS-9200UD Connectors
NOTE: Jumper JP2 on the MS-9200UD main circuit board can be used to configure the FACP
supervisory relay for operation with the 4XTMF module. Relay 3 at TB5 must be
programmed as a supervisory relay.
Cutting JP2 will allow the 4XTMF to generate a trouble if the supervisory contact opens
Leaving JP2 in will prevent generation of a trouble if the supervisory contact opens

MS-9200UD PN 51906:A

12/10/02

39

Installation

Optional Module Installation

2.9.2 Printer/PC
A serial printer or a PC (personal computer) may be connected to TB8 Terminals 1 - 4
on the FACP. The printer can be used to provide a hard-copy printout of real-time
events, history file and walktest data. An IBM compatible PC can be connected to
provide local FACP programming capabilities using the PK-Plus programming utility.
Installation of either device requires panel programming to allow the FACP to
communicate with the device.

!

CAUTION! Do not connect a printer or PC to the MS-9200UD FACP if a ground fault
exists on the control panel. Circuit damage may result. Remove all power (Primary
and Secodary) before installing or removing any wiring.
Installation
Remote printers and PCs require separate primary power. Also required is the PRT/
PK-CABLE which is an interface cable prewired to a DB9F connector. Wire the PRT/
PK-CABLE to TB8 Terminals 1 - 4 as illustrated in the following figure. Connect the
DB9F connector to the printer or PC serial EIA-232 port. If a nine-pin serial connector
is not available on the printer or PC, use a DB25 adapter. Make certain that the DB25
adapter does not swap the Transmit and Receive lines. Apply power to the FACP and
printer or PC. Note that a ground fault may occur on the FACP, dependent on the
printer or PC being used, due to this connection. For this reason, it is important that
there be no preexisting ground fault on the panel.
Note that the printer may or may not be supervised as determined by user
programming. Refer to "Printer/PC" on page 116.

Red
5 4 3 2 1

White

9 8 7 6

Green

PRT/PK-CABLE

Black

TX
RCV
DTR
GRND
ACS

SLC SLC SLC SHIELD
TB10 SLC
B+ A+ B- A- A B

Figure 2.6 Serial Printer and Computer Connections

9600tb7a.cdr

TB8 OUT+ IN+ OUT- IN- TB9

Printer Configuration
Refer to the documentation supplied with the printer for pertinent information about
printer setup. Set the printer’s options as listed in the following table:
COMMUNICATION SETUP
BUFFER:
DATA BITS:
PARITY:
STOP BIT:
BAUD RATE:
AUTOMATIC LINE FEED
AUTOMATIC CARRIAGE RETURN

LARGE
7
EVEN
1 STOP
2400/4800/9600
NO
NO

PC Configuration
The Windows-based PK-Plus Programming Utility Kit contains CD-ROM with on-line
help file.

40

MS-9200UD PN 51906:A

12/10/02

2SWLRQDO0RGXOH,QVWDOODWLRQ

,QVWDOODWLRQ

2.9.3 Digital Communicator and Annunciators
2.9.3.1 ACM-8RF Relay Control Module

Reference
Manual

7KH$&05)PRGXOHSURYLGHVHLJKW)RUP&UHOD\VZLWKFRQWDFWVUDWHGIRU
DPSV:KHQLQVWDOOHGZLWKDQ068')$&3WKH$&05)PRGXOHVSURYLGH
UHOD\DFWLYDWLRQIRUHDFKRIWKHSRVVLEOH)$&3]RQHVSOXVVSHFLDOIXQFWLRQV
2SWLRQVH[LVWWRDOORZIRUDODUPRQO\RUDODUPDQGWURXEOHDFWLYDWLRQSHU]RQH
2XWSXWDFWLYDWLRQIRUJHQHUDODODUPJHQHUDOWURXEOHJHQHUDOVXSHUYLVRU\1$&
IDXOW$&IDLOZDONWHVWVWDUWDQGEDWWHU\WURXEOHDUHDOVRDYDLODEOH7KH$&05)
FDQEHPRXQWHGUHPRWHO\LQDQ$%65)DQQXQFLDWRUVXUIDFHPRXQWEDFNER[RULQ
WKHSDQHOFDELQHWXVLQJWKH31%5.78QLYHUVDO%UDFNHW5HIHUWRWKH
$&05)PDQXDOIRULQIRUPDWLRQRQVHWWLQJPRGXOHVZLWFKHVIRUDGGUHVVLQJDQG
UHOD\IXQFWLRQV

2.9.3.2 BRKT-9600 Universal Bracket Installation
7KHRSWLRQDO%5.78QLYHUVDO%UDFNHWFDQEHXVHGWRPRXQWVSHFLILFPRGXOHV
LQVLGHWKH068'FDELQHW7KH%5.7PRXQWVWRWZRVWXGVORFDWHGLQ
WKHORZHUULJKWFRUQHURIWKHFRQWUROSDQHOFDELQHWDVLOOXVWUDWHGEHORZ,WLVVHFXUHG
WRWKH3(0VWXGVRQWKHEDFNZDOORIWKHFDELQHWZLWKWZRVXSSOLHGKH[QXWV
,03257$17:KHQWKH%5.7LVLQVWDOOHGWKH068'FDELQHWFDQ
KROGDPD[LPXPRIWZR$PS+RXUEDWWHULHVZLWKWKHRULHQWDWLRQLOOXVWUDWHG

AC POWER

MAINTENANCE

FIRE ALARM

ALARM
SILENCED

SUPERVISORY

DISABLED
BATTERY

TROUBLE

GROUND

2

1

ABC

4

5
GHI

7

*

DEF

6
JKL

8
PRS

EVENT

ALARM
SILENCE

CLR
ENTER

MNO

9
TUV

0

ACK/STEP

1st

3

ESC

MODE

#

DRILL
HOLD 2 SEC

WXY

RESET

-/.

QZ

Mount BRKT-9600 to PEM
studs on back of cabinet
using supplied hex nuts.

92brkmnt.cdr

RECALL

MS-9200UD Cabinet

Figure 2.7 BRKT-9600 Bracket Installation

068'31$



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0RGXOH,QVWDOODWLRQRQ%5.7
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%5.78QLYHUVDO%UDFNHW
✓ UDACT-F Digital Alarm Communicator/Transmitter - installs at standoff
location (A)
✓ ACM-8RF Annunciator Control Module (Relay) - installs at standoff location
(A)
5HIHUWRWKHDSSURSULDWHPRGXOHPDQXDOIRUGHWDLOHGLQIRUPDWLRQRQPRGXOH
RSHUDWLRQDQGZLULQJ
1. Install the two supplied standoffs in location (A) as indicated in Step 1 of the
following illustration
2. Position the module bottom in the slot located in the bottom of the BRKT-9600
as indicated in Step 2 of the following illustration
3. Secure the module to the standoffs installed in the top of the BRKT-9600 with
two mounting screws as indicated in Step 3 of the following illustration
4. Refer to the appropriate module manual for detailed information on wiring the
module for power, communication, etc.
5. Install a maximum of two 12 Amp Hour batteries with the orientation illustrated
in Figure 2.7. Larger batteries require a separate UL listed battery box
1RWH'RQRWEULQJZLULQJRUFRQGXLWLQWRWKHERWWRPRIWKHFDELQHWIRUWKLV
DSSOLFDWLRQ

BRKT-9600

BRKT-9600
(A)

(A)

BRKT-9600
standoffs
mounting
screws

Step 1

module

96brcksd.cdr

9600brkt.cdr

module

Slot
Step 2

Step 3

Figure 2.8 BRKT-9600 Module Installation Steps



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2.9.3.3 ACM and AFM Series Annunciators
$&0DQG$)06HULHV$QQXQFLDWRUVSURYLGHYLVXDOLQGLFDWLRQVRI)$&3VWDWXVLQ
UHPRWHORFDWLRQV5HIHUWRWKHDSSURSULDWHDQQXQFLDWRUPDQXDOIRULQIRUPDWLRQRQ
LQVWDOODWLRQZLULQJDQGRSHUDWLRQ
$QQXQFLDWRUDGGUHVVLQJLVVSHFLILFWRWKH068'FRQWUROSDQHO7KHIROORZLQJ
WDEOHGHVFULEHVWKHDQQXQFLDWRUDGGUHVVHVDQGWKHFRUUHVSRQGLQJDGGUHVVDEOH
GHYLFHVWKDWZLOOEHDQQXQFLDWHGDWHDFKDQQXQFLDWRUDGGUHVV
ACM Annunciator Address
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32

Annunciator Displays the Following Points
8 General System Status Points & Zones 1 - 56
Zones 57 - 99 & 4 NACs
SLC Loop, Module Addresses 1 - 64
not used
SLC Loop, Module Addresses 65 - 99
not used
not used
SLC Loop, Detector Addresses 1 - 64
not used
SLC Loop, Detector Addresses 65 - 99
not used
not used
not used
not used
not used
not used
not used
not used
not used
8 General System Status Points & Zones 1 - 56
Zones 57 - 99 & 4 NACs
SLC Loop, Module Addresses 1 - 64
not used
SLC Loop, Module Addresses 65 - 99
not used
not used
SLC Loop, Detector Addresses 1 - 64
not used
SLC Loop, Detector Addresses 65 - 99
not used
not used
not used

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5HIHUWR$QQXQFLDWRUV8'$&7RQSDJHIRULQIRUPDWLRQRQDQQXQFLDWRU
SURJUDPPLQJ0DNHFHUWDLQWRSURJUDPWKHDQQXQFLDWRUDGGUHVVHVWKDWKDYHEHHQ
SK\VLFDOO\LQVWDOOHGRQWKHV\VWHP
1RWH7KH*HQHUDO6\VWHP6WDWXV3RLQWVLQFOXGHWKHIROORZLQJ
•
•
•
•
•
•
•
•

068'31$

General Alarm
General Trouble
General Supervisory
Alarm Silenced
System Off Normal
AC Loss
Battery Fault
NAC Fault



3URJUDPPLQJ

SECTION 3

3URJUDPPLQJ'DWD(QWU\

Programming

3.1 Programming Data Entry
Programming can be accomplished using the MS-9200UD keypad or by connecting an
optional standard computer keyboard. The keyboard can be connected to the PS-2
connector J3 on the control panel main circuit board.
The information presented in this section refers to programming the MS-9200UD via
the onboard keypad. If an optional computer keyboard is connected to the MS-9200UD
main circuit board, the following table describes the keyboard keys which correspond
to the onboard keypad keys.
Keypad Keys
1st Event

Home

CLR

Delete

ESC

Esc

RECALL

Insert

*

*

#

#

A-Z

A-Z

0-9

0-9
(on QZ key)



Computer Keyboard Keys

Space bar

—

—

/

/

•

•

ENTER

Enter

ACK/STEP

F1

SILENCE

F2

DRILL

F3

RESET

F4

068'31$

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3.2 User Programming
!!

The MS-9200UD is completely field programmable and requires no special software
skills. While programming the MS-9200UD, the fire protection capabilities of the
control panel are enabled.
Site-specific programming may be accomplished in three ways:
•

Autoprogramming Feature - This is a convenient method for quickly bringing
the FACP addressable SLC devices on-line without the necessity of
programming each device individually. Refer to "Autoprogram" on page 49 for
a detailed description of Autoprogramming

•

Manual programming or editing, using the FACP keypad or a PC keyboard

•

Off-line Programming and Editing Feature - allows creation and editing of sitespecific custom programs using a Windows-based computer. For programs
requiring a large amount of data entry, this method may be preferred. A PK-Plus
programming kit can be ordered for this purpose

The System All Normal screen will be displayed in a programmed system with no active
alarms, troubles or supervisories, as illustrated below:

FIRE-LITE ALARMS INC
SYSTEM ALL NORMAL
10:00A 012102
Programming, Read Status and Manual Dial mode can be entered while the panel is in
any mode of operation. If the panel is in alarm, the alarm condition must be
acknowledged before entering any other mode. 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:

1=READ STATUS MODE
2=PROGRAMMING MODE
3=MANUAL DIAL MODE

See Page

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 141 for a detailed description of this feature.
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.
Pressing 3 will select the Manual Dial Mode which allows the user to enter a
troubleshoot mode of operation.
Exit Programming, Read Status and Manual Dial 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 not saved until the programmer exits this mode by
repeatedly pressing the ‘ESC’ key. If the Reset key is pressed or power is lost before
exiting Programming mode, all data just entered will be lost.

068'31$



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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.

3.3 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 addressable devices to the SLC, apply power to the
control panel. If the addressable devices have not yet been programmed into the FACP,
their LEDs will not flash and the following trouble message will be displayed.

TROUBL IN SYSTEM
NO DEVICES INSTALLED
09:03A 012102

3.4 Programming Screens Description

See Page

Three options are available when the Enter key is pressed: Read Status, Programming
and Manual Dial 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 48, for additional
information on the various screens.
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.

3.5 Programming and Passwords

See Page



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 117. If an invalid
password is entered, the blinking cursor will return to the first password character
position. To exit Programming, Read Status or Manual Dial mode at any time, press
the ESC (Escape) key repeatedly. Note that Programming mode must be exited using
the ESC key in order to store the program data entered during this mode. If the Reset
key is pressed or power is lost before exiting Programming mode, the data just entered
will not be saved.

068'31$

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

1=READ STATUS MODE
2=PROGRAMMING MODE
3=MANUAL DIAL 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=AUTOPROGRAM
2=POINT PROGRAM
3=ZONE SETUP

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

PROGRAMMING
1=POINT PROGRAM
2=HISTORY
3=PROGRAM CHECK

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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3.6 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 LED flashes until Programming mode is exited. The
following display will appear:

PROGRAMMING
1=AUTOPROGRAM
2=POINT PROGRAM
3=ZONE SETUP
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=LOOP SETUP
2=SYSTEM SETUP
3=VERIFY LOOP
Programming Screen #2

PROGRAMMING
1=HISTORY
2=WALKTEST
3=OPTION MODULES
Programming Screen #3

PROGRAMMING
1=PASSWORD CHANGE
2=CLEAR PROGRAM
3=PROGRAM CHECK
Programming Screen #4



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3.6.1 Autoprogram
PROGRAMMING
1=AUTOPROGRAM
2=POINT PROGRAM
3=ZONE SETUP

Programming Screen #1

Pressing 1 while viewing Programming Screen #1, will select the Autoprogram option,
which prompts the control panel to poll all devices installed on the SLC loop. The
primary purpose of autoprogramming is to allow the installer a fast and easy way to
bring the system on-line as quickly as possible. The first time the system is poweredup, it should be autoprogrammed.
If the system is already programmed and Autoprogram is initiated, the system will only
add default values for newly installed devices.
When Autoprogram is selected, the control panel will begin autoprogramming the
system by communicating with each addressable device installed on the SLC loop.
While autoprogramming, the panel will display the following:

AUTOPROGRAM
AUTOPROGRAMMING!
PLEASE WAIT
Autoprogram Progress Screen
When Autoprogramming is completed, the control panel will display the type and
quantity of each device installed on the SLC loop similar to the following display:

# OF DET LOOP1 055
# OF MON LOOP1 035
# OF CON LOOP1 030
Autoprogram Result Screen #1

In the preceding example, the display indicates that the SLC Loop has 55 addressable
detectors, 35 monitor modules and 30 control modules installed.
Pressing the ESC key will return the display to Programming Screen #1.

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3.6.2 Point Program
PROGRAMMING
1=AUTOPROGRAM
2=POINT PROGRAM
3=ZONE SETUP

Programming Screen #1

The Point Program option allows the programmer to add a new addressable device to an
SLC loop, delete an existing device from a loop or change the programming for an
existing device. Pressing 2, while viewing Programming Screen #1, will select the
Point Program option and display the following screen:

POINT PROGRAM
SELECT TYPE
1=DETECTOR
2=MODULE
Point Program Screen

3.6.2.1 Detector Programming
3UHVVLQJZKLOHYLHZLQJWKH3RLQW3URJUDP6FUHHQZLOODOORZWKHSURJUDPPHUWR
DGGGHOHWHRUFKDQJHWKHSURJUDPPLQJRIDQDGGUHVVDEOHGHWHFWRU7KHIROORZLQJ
VFUHHQZLOOEHGLVSOD\HGE\WKHFRQWUROSDQHO

DETECTOR
1=ADD
2=DELETE
3=EDIT
Detector Screen
3.6.2.1.1 Add Detector
3UHVVLQJZKLOHYLHZLQJWKH'HWHFWRU6FUHHQZLOOGLVSOD\WKHIROORZLQJVFUHHQ
ZKLFKDOORZVWKHSURJUDPPHUWRDGGDQHZGHWHFWRUDGGUHVVWRSURJUDPPLQJ

ADD DETECTOR
ENTER DETECTOR#
***
Add Detector Screen
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SURJUDPPHUNH\VLQWKHWKUHHGLJLWGHWHFWRUDGGUHVVVXFKDV
:KHQWKHODVWGLJLWLVNH\HGLQWKHIROORZLQJVFUHHQZLOOEHGLVSOD\HG

ADD DETECTOR
DETECTOR#
005
IS ADDED

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UHWXUQWKHGLVSOD\WRWKH$GG'HWHFWRU6FUHHQ



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DETECTOR
1=ADD
2=DELETE
3=EDIT

Detector Screen

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3.6.2.1.2 Delete Detector
3UHVVLQJLQWKH'HWHFWRU6FUHHQZLOOGLVSOD\WKH'HOHWH'HWHFWRU6FUHHQZKLFK
DOORZVWKHSURJUDPPHUWRGHOHWHDVSHFLILFGHWHFWRU

DELETE DETECTOR
ENTER DETECTOR#
***
Delete Detector Screen
$IODVKLQJFXUVRUZLOODSSHDULQWKHSRVLWLRQRIWKHILUVWDVWHULVNWRWKHOHIW7KH
SURJUDPPHUNH\VLQWKHWKUHHGLJLWGHWHFWRUDGGUHVVVXFKDV:KHQWKHODVW
GLJLWLVNH\HGLQWKHIROORZLQJVFUHHQZLOOEHGLVSOD\HG

DELETE DETECTOR
DETECTOR#
005
IS DELETED

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ZLOOUHWXUQWKHGLVSOD\WRWKH'HOHWH'HWHFWRU6FUHHQ
3.6.2.1.3 Edit Detector
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SUHVVLQJLQWKH'HWHFWRU6FUHHQ7KHIROORZLQJVFUHHQZLOOEHGLVSOD\HG

EDIT DETECTOR
ENTER POINT ADDRESS
***
Edit Detector Screen

$IODVKLQJFXUVRUZLOODSSHDULQWKHSRVLWLRQRIWKHILUVWDVWHULVNWRWKHOHIW7KH
SURJUDPPHUNH\VLQWKHWKUHHGLJLWGHWHFWRUDGGUHVVVXFKDV
:KHQWKHODVWGLJLWLVNH\HGLQLIWKHVHOHFWHGDGGUHVVKDVQRWEHHQDGGHGWR
SURJUDPPLQJDVFUHHQVKRZLQJLQIRUPDWLRQDERXWDGHYLFHZLWKWKHKLJKHVWDGGUHVV
WKDWLVLQVWDOOHGZLOOEHGLVSOD\HG
,IQRGHWHFWRUVKDYHEHHQLQVWDOOHGRQWKHORRSWKHIROORZLQJZLOOEHGLVSOD\HG

NO DETECTOR
INSTALLED

Edit Detector Screen #1

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,IWKHVHOHFWHGDGGUHVVKDVEHHQDGGHGWRSURJUDPPLQJGHYLFHVXPPDU\VFUHHQV
ZLOOEHGLVSOD\HG7KHVHVFUHHQVDOORZWKHSURJUDPPHUWRYLHZDOOGHYLFHVHWWLQJV
DWDVLQJOHJODQFH3UHVVLQJWKHOHIWRUULJKWDUURZNH\VZLOODOORZWKHSURJUDPPHU
WRUDSLGO\YLHZWKHGHYLFHVDWWKHSUHYLRXVRUQH[WDGGUHVV LILQVWDOOHG 
,IDGHWHFWRU VXFKDVDSKRWRHOHFWULFGHWHFWRU ZLWKWKHVHOHFWHGDGGUHVVLVQRW
SK\VLFDOO\LQVWDOOHGRQWKH6/&RUKDVDFRPPXQLFDWLRQIDXOWEXWWKHDGGUHVVLV
SURJUDPPHGLQWKHV\VWHPWKHIROORZLQJVFUHHQZLOOEHGLVSOD\HG

TROUBL SMOKE(PHOTO)

ZNNN
*
1D017
Edit Detector Screen #1
,IWKHVHOHFWHGDGGUHVVKDVEHHQDGGHGWRSURJUDPPLQJDQGDGHWHFWRU VXFKDVD
SKRWRHOHFWULFGHWHFWRU ZLWKWKHVHOHFWHGDGGUHVVLVSK\VLFDOO\LQVWDOOHGRQWKH6/&
DQGLVFRPPXQLFDWLQJZLWKWKHFRQWUROSDQHOWKHIROORZLQJZLOOEHGLVSOD\HG

NORMAL SMOKE (PHOTO)

ZNNN
V
1D017
Edit Detector Screen #1
7RFKDQJHWKHSURJUDPPLQJIRUWKHGLVSOD\HGGHWHFWRUSUHVVWKHNH\ERDUGµGRZQ¶
DUURZNH\WRYLHZWKH(GLW'HWHFWRUVFUHHQV
,QWKHSUHFHGLQJH[DPSOH
✓ Normal - indicates that the detector with the selected address is physically
installed on the SLC and communicating with the control panel (enabled)
✓  - represents the adjective and noun, which have been
programmed, describing the location of the displayed device
✓ ZNNN - represents the first of five possible software zones that the detector is
assigned to (NNN = the three digit zone number from 000 - 099)
✓ V or * - indicates whether or not alarm verification is enabled (V = alarm
verification enabled and * = alarm verification disabled)
✓ 1D017 - represents the Loop, Device type and Device address (1 = SLC Loop,
D=Detector and 017 = Detector Address 017)



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0DVWHU3URJUDPPLQJ/HYHO

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7KHIROORZLQJH[DPSOHVVKRZWKHHGLWLQJRIDSKRWRHOHFWULFsmoke detector with
address 017, located on the SLC loop:

EDIT DETECTOR 1D017
1=ENABLED
YES
2=TYPE
SMOKE(PHOTO)
3=VERIFICATION
OFF
Edit Detector Screen #2

EDIT DETECTOR 1D017
1=WALKTEST
NO
2=PAS
NO
3=PRE-SIGNAL
NO
Edit Detector Screen #3

EDIT DETECTOR 1D017
1=ZONE ASSIGNMENT
00 ** ** ** **
Edit Detector Screen #4

EDIT DETECTOR 1D017
1=NOUN/ADJECTIVE
2=DESCRIPTION
********************
Edit Detector Screen #5

(QDEOH'LVDEOH'HWHFWRU
EDIT DETECTOR
1=ENABLED
2=TYPE
3=VERIFICATION

Edit Detector Screen #2

068'31$

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6FUHHQ(DFKSUHVVRIWKHNH\ZLOOWRJJOHWKHVFUHHQEHWZHHQ(QDEOHG
ZNNN
*
1M012
,IWKHVHOHFWHGDGGUHVVKDVEHHQDGGHGWRSURJUDPPLQJDQGDPRGXOH VXFKDVD
PRQLWRUPRGXOH ZLWKWKHVHOHFWHGDGGUHVVLVSK\VLFDOO\LQVWDOOHGRQWKH6/&DQGLV
FRPPXQLFDWLQJZLWKWKHFRQWUROSDQHOWKHIROORZLQJVFUHHQZLOOEHGLVSOD\HG

NORMAL MONITOR

ZNNN
W
1M012

7RFKDQJHWKHSURJUDPPLQJIRUWKHGLVSOD\HGPRGXOHSUHVVWKHNH\ERDUGGRZQ
DUURZNH\WRYLHZWKHIROORZLQJ(GLW0RQLWRUVFUHHQV,QWKHSUHFHGLQJH[DPSOH
✓ Normal - indicates that the module with the selected address is physically
installed on the SLC and communicating with the control panel (enabled)
✓  - represents the adjective and noun, which have been
programmed, describing the location of the displayed device
✓ ZNNN - represents the first of five possible software zones that the module is
assigned to (NNN = the two digit zone number from 000 - 099)
✓ 1M012 - represents the Loop, Device type and Device address (1 = SLC Loop
1, M=Module and 012 = Module Address 012)
✓ W or * - indicates whether or not the device is programmed for Walktest (W =
programmed for walktest, * = not programmed for walktest).



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See Page

3URJUDPPLQJ
,IWKHVHOHFWHGDGGUHVVFRUUHVSRQGVWRDFRQWUROPRGXOHDVFUHHQGLVSOD\LQJ
LQIRUPDWLRQDERXWWKHFRQWUROPRGXOHZLWKWKHVHOHFWHGDGGUHVVZLOOEHGLVSOD\HGDV
VKRZQLQ(GLW0RGXOH6FUHHQIRU&RQWURO0RGXOHVRQSDJH
,IWKHVHOHFWHGDGGUHVVFRUUHVSRQGVWRDPRQLWRUPRGXOHDVFUHHQGLVSOD\LQJ
LQIRUPDWLRQDERXWWKHPRGXOHZLWKWKHVHOHFWHGDGGUHVVZLOOEHGLVSOD\HGDV
LOOXVWUDWHGLQWKHIROORZLQJ

NORMAL MONITOR


ZNNN
1M012



EDIT MONITOR
1M012
1=ENABLED
YES
2=TYPE
MONITOR
Edit Monitor Screen #2

EDIT MONITOR
1=PRE-SIGNAL
2=PAS

1M012
NO
NO

Edit Monitor Screen #3

EDIT MONITOR
1M012
1=WALKTEST
YES
2=ZONE ASSIGNMENT
00 ** ** ** **
Edit Monitor Screen #4

EDIT MONITOR
1M012
1=ADJECTIVE/NOUN
2=DESCRIPTION
********************
Edit Monitor Screen #5

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3URJUDPPLQJ

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(QDEOH'LVDEOH0RGXOH
7R(QDEOHRU'LVDEOHWKHPRQLWRUPRGXOHSUHVVWKHNH\ZKLOHYLHZLQJWKH(GLW
0RGXOH6FUHHQ(DFKSUHVVRIWKHNH\ZLOOWRJJOHWKHVFUHHQEHWZHHQ(QDEOHG

ZNNN
SW
1M002

Edit Control Screen #1
,QWKHSUHFHGLQJH[DPSOH
✓ Normal - indicates that the module with the selected address is physically
installed on the SLC and communicating with the control panel (enabled)
✓  - represents the adjective and noun, which have been
programmed, describing the location of the displayed device
✓ Control - indicates that the selected module is a control module
✓ S or * - represents Silenceable (S) or Nonsilenceable (*)
✓ W or * - represents Waterflow Timer Delay (W = Waterflow Timer Delay
enabled, * = Waterflow Timer Delay disabled)
✓ ZNNN - represents the first of five possible software zones that the module is
assigned to (NNN = the three digit zone number from 000 - 099)
✓ 1M002 - represents the Loop, Device type and Device address (1 = SLC Loop,
M=Module and 002 = Module Address 02)



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7RFKDQJHWKHSURJUDPPLQJIRUWKHGLVSOD\HGPRGXOHSUHVVWKHNH\ERDUGGRZQ
DUURZNH\WRYLHZWKHIROORZLQJ(GLW&RQWUROVFUHHQV

EDIT CONTROL
1=ENABLED
2=TYPE
CONTROL
3=SILENCEABLE

YES
YES

Edit Control Screen #2

EDIT CONTROL
1=WALKTEST
YES
2=ZONE ASSIGNMENT
00 ** ** ** **
Edit Control Screen #3

EDIT CONTROL
1=NOUN/ADJECTIVE
2=DESCRIPTION
********************
Edit Control Screen #4
EDIT CONTROL
1=ENABLED
2=TYPE
3=SILENCEABLE

Edit Control Screen #2

068'31$

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&RQWURO6FUHHQ(DFKSUHVVRIWKHNH\ZLOOWRJJOHWKHVFUHHQEHWZHHQ(QDEOHG
 
Z000
10*00A 010801 1M001

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 RESULTS

View Result Screen
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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3.6.9 Option Modules
PROGRAMMING
1=HISTORY
2=WALKTEST
3=OPTION MODULES

Programming Screen #3

Options available for the MS-9200UD include ACM Series, Graphic and LCD
annunciators, printer connection for acquiring hardcopy printouts of panel data and PC
(Personal Computer) connection for uploading and downloading panel data.
Pressing 3 while viewing Programming Screen #3 will display the following screen:

OPTION MODULES
1=ANNUNCIATORS/UDACT
2=ONBOARD DACT
3=PRINTER/PC
PR4800
Options Screen
Note that PR4800 in the display indicates that a supervised printer, configured for 4800
baud, has been previously programmed into the system.

3.6.9.1 Annunciators/UDACT
3UHVVLQJZKLOHYLHZLQJWKH2SWLRQV6FUHHQZLOOFDXVHWKHFRQWUROSDQHOWRGLVSOD\
WKHIROORZLQJVFUHHQV

ANNUNCIATOR
1=TERM ENABLED
2=ACS ENABLED
3=UDACT

YES
YES
YES

Annunciator Screen #1

ANNUNCIATOR
1=ACS INSTALLED

Annunciator Screen #2
$7HUPLQDO0RGHDQQXQFLDWRU DQG$&60RGHDQQXQFLDWRUFDQEHLQVWDOOHGLQWKH
068'V\VWHP7RHQDEOHDQ\RIWKHVHGHYLFHVSUHVVWKHQXPEHU
FRUUHVSRQGLQJWRWKHVHOHFWHGGHYLFHVKRZQLQ$QQXQFLDWRU6FUHHQVRWKDW 
INVREP
10:00A 010801 1D001
The information displayed in the above example provides the following information:
•

First line in display:
✓ The type of event; in this example TROUBL indicating a device trouble
✓ Device type identifier; in this example, SMOKE (PHOTO) indicates a
Photoelectric smoke detector. Other device type identifiers which can be
displayed include SMOKE (ION) for Ionization Detector, HEAT for Heat
Detector, CONTROL for Control Module and MONITOR for Monitor Module,
PULL STATION for a manual pull box, etc. Refer to "Edit Detector" on page
51, "Edit Module Screen for Monitor Module" on page 61 and "Edit Module
Screen for Control Modules" on page 70 for information on additional device
types.

•

Second line in display:
✓ ; refers to the user programmed adjective descriptor from library list
resident in the control panel or custom entry via PC.
✓ ; refers to the user programmed noun descriptor from library list
resident in the control panel or custom entry via PC.

•

Third line in display: INVREP indicates an invalid reply from the addressable
device. Other possible troubles include:
❒ SHORT - indicating a shorted circuit on an addressable device
❒ OPEN - indicating an open circuit on an addressable device
❒ DIRTY1 - 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
❒ DIRTY2 - maintenance alert indicating that a detector needs immediate
maintenance since it has been within 80% of its alarm threshold for 24
hours
❒ INVREP - maintenance alert indicating a hardware problem in the detector
❒ TEST F - indicating a detector has failed the automatic test operation which
functionally checks its sensing chamber and electronics
❒ INV ID - indicating that an incorrect device code (Type ID) has been
programmed for an installed device (for example, Photo has been
programmed but an Ion detector has been installed)

•

❒ SW TBL - indicating a module has failed the testing of its Class A switching
relay
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 01 for January, 08 for
the 8th day of the month and 01 for the year 2001
✓ Device Address; 1D001 in this example 1 represents SLC Loop, D represents
a detector and 001 represents device address 001

132

MS-9200UD PN 51906:A

12/10/02

Alarm Operation

Operating Instructions
Pressing the Acknowledge/Step or Alarm Silence key will cause the pulsing piezo to
silence and the system Trouble LED 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
LED will light.
If multiple trouble conditions exist in the system, they will be automatically scrolled on
the LCD display at a three second rate. If a combination of alarms, troubles and/or
supervisory conditions simultaneously occur in the system, only the alarms are scrolled
on the display.

4.5 Alarm Operation
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 LED flashes 1 second On and 1 second Off
The LCD displays Alarm along with the device name, type, address, adjective/
noun, associated zones and time/date
Communicate the alarm to the Central Station
Alarms latch and are not allowed to clear automatically
Alarms activate software zones if so programmed
Timers for Silence Inhibit, Autosilence and Trouble Reminder are started
Alarms activate the general alarm relay and general alarm zone Z00
The trouble relay is not activated
Store event in history buffer
Terminate upload or download communications

A typical alarm display would be as illustrated below:

ALARM

PULL STATION
 
Z000
10:00A 010801 1M001

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
SMOKE (ION) for Ionization Detector, HEAT for Heat Detector, CONTROL
for Control Module and MONITOR for Monitor Module, PULL STATION for
a manual pull box, etc. Refer to "Edit Detector" on page 51, "Edit Module
Screen for Monitor Module" on page 61 and "Edit Module Screen for Control
Modules" on page 70 for information on additional device types.

MS-9200UD PN 51906:A

12/10/02

133

Operating Instructions

Supervisory Operation
•

Second line in display:
✓ ; refers to the user programmed adjective descriptor from library list
resident in the control panel or custom entry via PC.
✓ ; refers to the user programmed noun descriptor from library list
resident in the control panel or custom entry via PC.

•

Third line in display: Z000 indicates the zone programmed to this device which,
in this example, is general alarm Zone 000. Note that a single device can be
programmed to five different zones but only the first zone will be displayed.

•

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 01 for January, 08 for
the 8th day of the month and 01 for the year 2001
✓ Device Address; 1M001 in this example 1 represents SLC Loop, M represents
a module and 001 represents device address 001

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 LED flashes ½ second On and ½ second Off

•

The LCD displays the status label Active Supervisory along with the device
name, type, address, adjective/noun, associated zones and time/date

•

Communicate the supervisory condition to the Central Station

•

The supervisory relay is activated

•

The alarm relay is not activated

•

Silenced alarms are resounded

•

Timers are not started

•

Store event in history buffer

•

Terminate upload or download communications

A typical Supervisory event would be displayed as illustrated in the following:

ACTIVE
SUPERVISORY
 
Z000
10:00A 010801 1M001

Note that, like alarms, supervisory signals latch (except when programmed for
supervisory autoresettable) and can be assigned to software zones. 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 133, for a description of the information displayed on the
control panel LCD.

134

MS-9200UD PN 51906:A

12/10/02

Process Monitor Operation

Operating Instructions

4.7 Process Monitor Operation
Process Monitor operation will initiate the following events:
•
•
•
•
•
•
•
•

The piezo sounder pulses ¼ second On and ¼ second Off
The LCD displays a process monitor message along with the device name, type,
address, adjective/noun, associated zones and time/date
Communicate the process monitor condition to the Central Station
Relays programmed for process monitoring will be activated
The alarm relay is not activated
Silenced alarms are not resounded
Timers are not started
Store event in history buffer

Note that, like supervisories, process monitor signals latch (except when programmed
for process monitor autoresettable) and can be assigned to software zones.

4.8 Hazard/Tornado Condition Operation
Hazard/Tornado Condition operation will initiate the following events:
•
•
•
•
•
•
•
•
•

The piezo sounder pulses ½ second On, ½ second Off
The LCD displays a hazard message along with the device name, type, address,
adjective/noun, associated zones and time/date
Communicate the hazard condition to the Central Station
Relays programmed for hazard will be activated
The alarm relay is not activated
Silenced alarms are resounded
Timers are not started
Store event in history buffer
Supervisory LED flashes ½ second On, ½ second Off

Hazard conditions latch. They can be assigned to software zones.

4.9 Medical Alert Condition Operation
Medical Alert Condition operation will initiate the following events:
•
•
•
•
•
•
•
•
•

The piezo sounder ½ second On, ½ second Off
The LCD displays a medical alert message along with the device name, type,
address, adjective/noun, associated zones and time/date
Communicate the medical alert condition to the Central Station
Relays programmed for medical alert will be activated
The alarm relay is not activated
Silenced alarms are resounded
Timers are not started
Store event in history buffer
Supervisory LED flashes ½ second On, ½ second Off

Medical alert conditions latch. They can be assigned to software zones.

4.10 NAC Operation
There are four Style Y (Class B) or two Style Z (Class A) programmable NACs
(Notification Appliance Circuits) resident on the MS-9200UD main circuit board. All
NACs may be programmed as silenceable or nonsilenceable and may also be
programmed for steady or coded operation. Coded operation provides a choice
between March Time, Temporal or California coding.

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Programmed Zone Operation

4.11 Programmed Zone Operation
Each addressable detector and monitor module can be assigned to a maximum of five software
alarm zones. A general alarm zone Z00 may be listed for output (control) points, but it is not
necessary to list Z00 for input points, since this is the default zone for all alarm input devices. Zone
Z00 is not activated by supervisory points.
When an input device alarms and is not disabled, it activates all software zones assigned to it. An
output device that is not disabled is turned on when any of the software zones to which it is
programmed become active. Only alarms, hazards/tornado alerts can turn on any of the four main
NACs.

4.12 Disable/Enable Operation
Input points which are disabled do not cause an alarm or any zone activation. Disabled output
points are held in the off state. All disabled points are treated as if they were in trouble, with the
exception being the status label that will be displayed is DISABL.

4.13 Waterflow Circuits Operation
If an alarm exists from a monitor module point that has a waterflow type code and its mapped NAC
control module outputs are programmed for nonsilenceable operation, the Alarm Silence key will
not function. Also, any output zone activated by a waterflow device will not be silenceable if the
Waterflow Silenceable option is set to NO in system programming.

4.14 Detector Functions
Maintenance Alert
Each addressable detector is monitored by the control panel for its maintenance status. If a detector
is near but below the allowed alarm limit, a ‘maintenance alert’ message will automatically be
displayed, signaling that the detector is in need of servicing.
Automatic Test Operation
An automatic test of an addressable detector is performed each minute, resulting in a complete SLC
loop test in approximately 5 hours (if the loop has the maximum number of devices installed). The
detector’s sensing chamber and electronics are functionally tested for normal, safe operation. A
trouble message is displayed upon failure of this test. A System Reset will clear this trouble.
Type Code Supervision
The FACP monitors addressable hardware device codes at slow intervals. Mismatch of any type
code, compared to the system program, will cause a device trouble.
System Alarm Verification
The control panel may be programmed to perform alarm verification to help eliminate the nuisance
of false alarms. Alarm verification applies to smoke detectors only.
Smoke Detector Data
Smoke detector data is monitored by the FACP, eliminating the need to test the sensitivity of each
detector at its location. A printout of each detector’s data can be retrieved from the FACP using an
optional printer or Windows© HyperTerminal. Detector sensing ability can decrease with age and
should be monitored as part of a system’s routine maintenance.

4.15 Time Functions: Real-Time Clock
The MS-9200UD 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 reset.

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Synchronized NAC Operation

Operating Instructions

4.16 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. NAC synchronization can only be
supported properly by the Remote Power Supply Sync Terminal, which follows NAC 1
programming.
Important: When a Notification Appliance Circuit with a mix of audible and visual
devices is programmed for silenceable and the synchronization feature is selected, only
the audible devices will be turned off if the Silence key is pressed. The visual devices
(strobes, etc.) will continue to operate.

4.17 Coded Operation
The NAC circuits resident on the control panel main circuit board can be programmed
for coded operation. The available pulse rates which can be programmed for coded
operation are as follows:
•
•
•

Continuous:
March Time:
Temporal Code:

•
•

California Code:
Two-Stage

Steady output with no pulsing
Pulses at 120 ppm (pulses per minute)
Pulses at ½ second On, ½ second Off, ½ second On, ½
second Off, ½ second On, 1½ second Off
10 seconds On, 5 seconds Off
Pulses at 20 ppm (pulses per minute) for 5 minutes and
then changes to on steady

4.18 Presignal
Presignal option programs an initiating device to delay the activation of NACs and/or
control modules while allowing visual verification by a person. Once a detector or
monitor module triggers an alarm, the onboard piezo sounds immediately, but the
NACs are not activated for a user programmed time duration of up to three minutes.
Note that the alarm relay and communicator will respond to the initial alarm
immediately. In addition, Zone 98 will activate. This zone can be programmed to a
control module which may be used to activate a sounder or indicator which the installer
designates as a Presignal indication. Do not assign Zone 98 to a Notification Appliance
Circuit when using this zone to indicate a Pre-signal condition.
After the programmed delay, the NACs will activate if the source of the alarm is not
cleared. Note that if a second alarm occurs during the programmed time delay, the
alarm will be processed immediately, causing activation of the appropriate output
zones. The events which occur upon Presignal activation are as follows:
✓
✓
✓
✓

onboard piezo sounds immediately
control panel LCD display will indicate a presignal event and the active point
control points programmed to Zone 98 will activate
annunciators (if enabled) will sound the local piezo, and pulse the alarm LED
and zone LED
✓ outputs (NACs and control modules) of associated zones will be inhibited
from activating for a user programmed time delay of up to three minutes
✓ second alarm occurring anytime during the time delay will cause immediate
activation of all associated outputs
Presignal does not affect monitor modules programmed as waterflow, supervisory,
process monitoring or remote switches. Presignal operation requires the approval of
the local Authority Having Jurisdiction.

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Positive Alarm Sequence

4.19 Positive Alarm Sequence
PAS (Positive Alarm Sequence) option will program an initiating device to delay panel activation
(including alarm relay and communicator) for a period of 15 seconds. Zone 97, however, will
activate immediately and may be used to connect a signaling device to indicate PAS activation. Do
not assign Zone 97 to a Notification Appliance Circuit when using this zone to indicate a PAS
condition.
When a detector or monitor module triggers an alarm, the onboard piezo sounds immediately, but
the NACs are prevented from activating for 15 seconds. This inhibit time is factory set and cannot
be changed. Pressing the Alarm Silence or Acknowledge/Step key during the 15 second inhibit
time will silence the piezo sounder and start a timer which prevents activation of NACs for an
additional time duration which can be user programmed for up to three minutes. After the
programmed delay, the NACs will activate if the source of the alarm is not cleared. Note that if a
second alarm occurs during either time delay, the alarm will be processed immediately, causing
activation of the appropriate output zones. The events which occur upon PAS activation are as
follows:
✓ onboard piezo sounds immediately
✓ control panel LCD display will indicate a presignal event and the active point
✓ control points programmed to Zone 97 will activate
✓ annunciators (if enabled) will sound the local piezo, and pulse the alarm LED and zone
LED
✓ outputs (NACs and control modules) of associated zones will be inhibited from activating
for a factory set duration of 15 seconds
✓ pressing the Alarm Silence or Acknowledge/Step key will start a timer which inhibits
output activation for additional time delay of up to three minutes which is user
programmable
✓ second alarm occurring anytime during either time delay will cause immediate activation
of all associated outputs

!

PAS does not affect monitor modules programmed as waterflow, supervisory, process monitoring
or remote switches. PAS operation requires the approval of the local Authority Having
Jurisdiction.
Note that the PAS BYPASS monitor type code, when activated, will inhibit the PAS capability until
the PAS BYPASS monitor is deactivated. While PAS is inhibited, signaling devices will
immediately place the control panel into alarm. This feature may be employed by wiring a
normally open device, such as a switch, to a monitor module which has been programmed for PAS
BYPASS.

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Special System Timers

Operating Instructions

4.20 Special System Timers
4.20.1 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 Authority Having
Jurisdiction.

4.20.2 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 Authority
Having Jurisdiction.

4.20.3 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 the trouble is not cleared within 24 hours, the piezo will resound, indicating that the
trouble condition still exists.

4.20.4 Waterflow Retard 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 Authority Having Jurisdiction.

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Walktest

4.20.5 Alarm Verification (None or One Minute)
If alarm verification is selected, an addressable smoke detector's alarm is ignored for a retard time
of 13 seconds and the detector's alarm condition is automatically reset. There will be no alarm
indication at the FACP during the Retard period. A confirmation period of 47 seconds follows,
during which a subsequent alarm from the same detector will cause the panel to immediately
activate the appropriate outputs and indicate the alarm condition at the FACP. If a different detector
alarms any time during the first detector's verification period, the panel will immediately activate
all appropriate outputs and indicate the alarm condition at the FACP. If no additional detector
alarms occur within 60 seconds of the first alarm (13 second retard plus 47 second confirmation),
the timer resets and the panel is ready to verify any new detector alarms which may occur.
13 sec.

0 sec.
Detector Alarm Verification
(Retard + Confirmation)

Detector Goes Into Alarm

RETARD

Alarm Ignored

Different Detector Alarms
During First Detector's
Verification Period

60 sec.
CONFIRMATION (47 seconds)

Control Panel Processes Alarm if Same Detector is Still in Alarm

Control Panel Immediately Processes Alarm

Note: Alarm Verification is available only for addressable smoke detectors, not conventional smoke
detectors.

4.21 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.
Alarm/Shorted Condition
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 and
control modules programmed for Walktest, then shut them off after eight seconds.
While in Walktest, the trouble relay is activated and the system Trouble LED flashes (as in all of
the Program and status change operations). The alarm relay is not activated.

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Read Status

Operating Instructions

4.22 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 or trouble 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
3=MANUAL DIAL 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=SYSTEM POINT
2=ZONES
3=POWER
Read Status Screen #1

READ STATUS
1=TROUBLE REMINDER
2=TIMERS
3=NACS
Read Status Screen #2

READ STATUS
1=ANNUNCIATORS
2=PHONE LINE
3=CENTRAL STATION
Read Status Screen #4

READ STATUS
1=SERVICE TERMINAL
2=PRINTER/PC
3=PRINT
Read Status Screen #5

READ STATUS
1=RELAYS
2=PROGRAM CHECK
3=HISTORY

READ STATUS
1=TIME-DATE

Read Status Screen #3

Read Status Screen #6

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Read Status

4.22.1 System Point
READ STATUS
1=SYSTEM POINT
2=ZONES
3=POWER

Pressing 1 while viewing Read Status Screen #1 will cause the following screen to be
displayed:

Read Status Screen #1

READ SYSTEM POINT
SELECT TYPE
1=DETECTOR
2=MODULE

The operator selects the type of device which is to be viewed by pressing 1 for Detector
or 2 for Module. If 1 is pressed, the display will change to the following screen:

READ SYSTEM POINT
ENTER DETECTOR#
***

Entering the three digit detector address will cause the control panel to display the
current status of the selected device. For example, if a detector with address 001 on the
SLC loop is entered, a display similar to the following will appear:

NORMAL SMOKE(PHOTO)
NORTH CLASSROOM
Z005
V
1D001

The information in the preceding display includes:

142

•

NORMAL - the present status (could also be ALARM, TROUBL, DISABL, etc.)

•

SMOKE (PHOTO) - the device type which is a photoelectric smoke detector
(could also be ION for ionization smoke detector)

•

NORTH CLASSROOM - the Adjective/Noun label for this device

•

Z005 - the first of five possible assigned software zones

•

1D001 - 1 = SLC Loop, D = Detector, 001 = Address 001

•

V - Alarm Verification Enabled (V = Yes, * = No)

•

S - Silenceable for control modules (S = Yes, * = No)

•

W - Walktestable for control and monitor modules (W = Yes, * = No)

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Operating Instructions
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

•

Alarm Verification On/Off (for detectors)

•

Walktest Yes/No

•

PAS (Positive Alarm Sequence) Yes/No (for detectors and monitor modules)

•

Pre-Signal Yes/No (for detectors and monitor modules)

•

Zone Assignments (five maximum)

•

Adjective/Noun descriptor

•

Silenceable Yes/No (for control modules)

4.22.2 Zones
READ STATUS
1=SYSTEM POINT
2=ZONES
3=POWER

Pressing 2 while viewing Read Status Screen #1 will cause the following screens to be
displayed:

Read Status Screen #1

ZONES
1=ZONES INSTALLED
2=ZONES ENABLED
3=ZONES DISABLED
Zones Screen #1

ZONES
1=SPECIAL PURPOSE
2=ZONE TYPE
Zones Screen #2
From the preceding screens, the control panel operator can view:

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Zones Installed - all software zones programmed into the system (99 maximum)

•

Zones Enabled - all software zones that are enabled

•

Zones Disabled - all software zones that have been disabled

•

Special Purpose - on or off programming for Special Purpose Zones 97 reserved
for PAS, 98 reserved for Pre-signal and 99 reserved for future use

•

Zone Type - the Type assigned to each installed zone (default is Alarm)

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Read Status

4.22.3 Power
Pressing 3 while viewing Read Status Screen #1 will cause the following screens to be
displayed:

POWER
BATTERY
24 V RST

27.21V
25.31

Power Screen #1

CHARGER
NAC 1
NAC 2

POWER

28.36V
-1.49V
-1.49V

Power Screen #2

NAC 3
NAC 4

POWER

-1.49V
-1.49V

Power Screen #3
A real-time display of the control panel voltages can be used to determine if a problem
exists in the system. Note that Power Screen #3 will only be displayed if the NACKEY
NAC option card is installed, in JP8 of the main circuit board, for Class B operation.
The following table lists the circuit being measured, possible conditions and their
respective voltage ranges:
Circuit

Condition

Voltage Range

Normal Battery (nominal)

27.05 to 28.15 VDC

Low Battery

20.0 to 20.8 VDC

No Battery

0 to 18.36 VDC

24V Resettable

Normal

21.25 to 27.50 VDC

24V Nonresettable

Normal

21.25 to 27.50 VDC

Charger

Normal

21.87 to 29.84 VDC

Normal

-1.3 to -1.6 VDC

Open Circuit

-2.3 to -2.5 VDC

Short Circuit

0 to 1.0 VDC

Battery

NAC 1 or NAC 2

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Operating Instructions

4.22.4 Trouble Reminder
READ STATUS
1=TROUBLE REMINDER
2=TIMERS
3=NAC

Pressing 1 while viewing Read Status Screen #2 will display the following screen:

Read Status Screen #2

TROUBLE REMINDER
TROUBLE REM
ON

The screen indicates whether the Trouble Reminder feature is On or Off.

4.22.5 Timers
Pressing 2 while viewing Read Status Screen #2 will cause the following Timer screens
to be displayed:

TIMERS
PAS DELAY
PRE SIGNAL
WATERFLOW

000
000
000

TIMERS
AC LOSS DELAY

4

These screens will indicate the delay time, in seconds, for each of the first three
possible delay options. The AC Loss Delay time is displayed in hours.

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Read Status

4.22.6 NAC
Pressing 3 while viewing Read Status Screen #2 will display the following screen:

1=NAC 1
2=NAC 2

NAC

3=NAC 3
4=NAC 4

Note that 3=NAC 3 and 4=NAC 4 will always be displayed regardless of how the
NACKEY NAC option card is installed.
The operator can press 1 to view the programmed options for NAC 1, 2 to view the
programmed options for NAC 2, 3 to view the programmed options for NAC 3 or 4 to
view the programmed options for NAC 4. The resulting screens will display the
following information:
•

Enable/Disable Status

•

Circuit Type (Bell, Strobe, etc.)

•

Silenceable/Nonsilenceable

•

Auto Silence Enable/Disable and time delay (in minutes)

•

Coding Selection (Temporal, Steady, etc.)

•

Zone Assignments

•

Silence Inhibit Enabled/Disabled

•

Synchronization Type (System Sensor, Wheelock or Gentex)

4.22.7 Relays
READ STATUS
1=RELAYS
2=PROGRAM CHECK
3=HISTORY

Read Status Screen #3

Pressing 1 while viewing Read Status Screen #3 will display the following screen:

RELAY
1=RELAY 1
2=RELAY 2
3=RELAY 3

The operator can view the programmed option for each relay by pressing the
corresponding number key.

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Operating Instructions

4.22.8 Program Check
Pressing 2 while viewing Read Status Screen #3 will cause a screen similar to the
following to be displayed:

PROGRAM CHECK
1=NACS NO INPUT
2=ZONES NO INPUT
3=ZONES NO OUTPUT

Pressing 1 while viewing the Program Check screen will display a screen which will
indicate if any input zones have not been programmed to one of the Notification
Appliance Circuits. Use the up and down arrow keys to view all NACs.
Pressing 2 while viewing the Program Check screen will display a screen which will
indicate if any output zones have not been programmed to at least one input zone. Use
the up and down arrow keys to view all zones.
Pressing 3 while viewing the Program Check screen will display a screen which will
indicate if any input zones have not been programmed to at least one output zone. Use
the up and down arrow keys to view all zones.

4.22.9 History
Pressing 3 while viewing Read Status Screen #3 will display the following screen:

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.

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Read Status

4.22.10 Annunciators
READ STATUS
1=ANNUNCIATORS
2=PHONE LINE
3=CENTRAL STATION

Pressing 1 while viewing Read Status Screen #4 will display the following screens:

Read Status Screen #4

ANNUNCIATORS
TERM ENABLED
YES
ACS ENABLED
YES
UDACT ENABLED
NO
Annunciator Screen #1

ANNUNCIATORS
1=ACS ADDRESS

Annunciator Screen #2

Annunciator Screen #1 indicates if Terminal Mode, ACS Mode and UDACT options
are enabled or disabled. Pressing ‘1’ while viewing Annunciator Screen #2 allows the
operator to view the ACS Mode Annunciator addresses which have been programmed
into the control panel.

4.22.11 Phone Line
Pressing 2 while viewing Read Status Screen #4 will display the following screen:

PHONE LINE
PRIMARY
TOUCHTONE
SECONDARY TOUCHTONE

This screen indicates the both the Primary and Secondary phone lines have been
configured for touchtone dialing operation.

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Read Status

Operating Instructions

4.22.12 Central Station
READ STATUS
1=ANNUNCIATORS
2=PHONE LINE
3=CENTRAL STATION

Pressing 3 while viewing Read Status Screen #4 will display the following screens:

Read Status Screen #4

CENTRAL STATION
REPORTING
ENABLED
REPORT
BOTH
CALL LIMIT
10
Central Station Screen #1

CENTRAL STATION
1=PRIMARY
2=SECONDARY
3=REPORT STYLE
Central Station Screen #2
Central Station Screen #1 indicates whether the Central Station Reporting is enabled or
disabled, if the Reports will be sent to one or both the Primary and Secondary Central
Station phone numbers and the Call Limit for DACT trouble calls within a 24 hour
period. Central Station Screen #2 provides information on the Primary and Secondary
Central Station programming which includes:

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•

Test Time Interval

•

Account Code

•

24 Hour Test Time

•

Phone Number

•

Communication Format

•

Event Codes

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Read Status

4.22.13 Service Terminal
READ STATUS
1=SERVICE TERMINAL
2=PRINTER/PC
3=PRINT

Read Status Screen #5

Pressing 1 while viewing Read Status Screen #5 will display the following screens:

SERVICE TERMINAL
PANEL ID
2=TERMINAL 1
3=TERMINAL 2
Service Terminal Screen #1

SERVICE TERMINAL
RING COUNT

Service Terminal Screen #2
The Panel ID number is displayed as the first item in Service Terminal Screen #1.
To view the phone number for each Service Terminal, press 2 for Terminal 1 or 3 for
Terminal 2 while viewing Service Terminal Screen #1.
The Ring Count is displayed in Service Terminal Screen #2.

4.22.14 Printer/PC
Pressing 2 while viewing Read Status Screen #5 will display the following screens:

PRINTER PC
PRINTER PC
PR4800
START BIT
STOP BIT
Printer/PC Screen #1

PRINTER PC
DATA BITS
PARITY
Printer/PC Screen #2

The display will inform the operator as to whether the control panel is configured for a
printer or a PC. In the example above, PR4800 indicates that the panel is configured for
a printer with a baud rate of 4,800.

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Operating Instructions

4.22.15 Print
READ STATUS
1=SERVICE TERMINAL
2=PRINTER/PC
3=PRINT

To print program data or control panel status, press 3 while viewing Read Status Screen
#5. The following screens will be displayed:

Read Status Screen #5

PRINT
1=HISTORY
2=WALKTEST LOG
3=DETECTOR DATA
Print Screen #1

PRINT
1=EXIT PRINTING

Print Screen #2

Pressing 1 while viewing Print Screen #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 while viewing Print Screen #1 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 96 for additional information on the display.
Pressing 3 while viewing Print Screen #1 allows the user to print the detector data for
each addressable smoke detector connected to the system. A printout, similar to the
following example, will be generated if an optional printer is connected to the FACP.
DEVICE#

DEVICE TYPE

1D001
1D002
1D003
1D004
1D005
1D006
1D007
1D008
1D009

SMOKE (PHOTO)
SMOKE (PHOTO)
SMOKE (PHOTO)
SMOKE (PHOTO)
SMOKE (PHOTO)
SMOKE (PHOTO)
SMOKE (PHOTO)
SMOKE (PHOTO)
SMOKE (PHOTO)

%DRIFT COMP
20
20
21
20
21
20
20
20
20

CHAMBER
1281
1281
1259
1309
1281
1322
1280
1215
1310

TIME/DATE
12:01AM 01-08-2001
12:01AM 01-08-2001
12:01AM 01-08-2001
12:02AM 01-08-2001
12:02AM 01-08-2001
12:02AM 01-08-2001
12:02AM 01-08-2001
12:02AM 01-08-2001
12:02AM 01-08-2001

Chamber Value
The Chamber value should be within the indicated range for the following smoke
detectors:
•

SD350(T), D350P(R) and SD300(T) Addressable Photoelectric Smoke
Detectors: 405 - 2100 (obscuration of 1.00%/ft to 3.66%/ft.)

•

CP350 and CP300 Addressable Ionization Smoke Detectors: 750 - 2100
(obscuration of 0.50%/ft. to 1.44%/ft.)

If the addressable smoke detector’s Chamber reading is not within the acceptable range,
clean the detector and check the Chamber value again. If the reading is still not within
the acceptable range, immediately replace the detector.

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Drift Compensation
Drift compensation uses software algorithms that identify and compensate for longterm changes in the data readings from each addressable smoke detector. These longterm changes in detector data readings are typically caused by dirt and dust
accumulation inside the smoke chamber. Drift compensation performs the following
functions:
•

Allows a smoke detector to retain its original ability to detect actual smoke and
resist false alarms, even as dirt and dust accumulate

•

Reduces maintenance requirements by allowing the control panel to
automatically perform the periodic sensitivity measurements required by NFPA
Standard 72

The FACP software also provides filters to remove transient noise signals, usually
caused by electrical interference.
Maintenance Alert
The software determines when the drift compensation for a detector reaches an
unacceptable level that can compromise detector performance. When a detector
reaches an unacceptable level, the control panel indicates a maintenance alert. Table
4.1 summarizes the three levels of maintenance alert:
Maintenance Level

FACP Status Displays

Indicates

Low Chamber Value

INVREP

A hardware problem in the detector

Maintenance Alert

DIRTY1

Dust accumulation that is near but below the
allowed limit. DIRTY 1 indicates the need for
maintenance before the performance of the detector
is compromised

Maintenance Urgent

DIRTY2

Dust accumulation above the allowed limit.

Table 4.1 Maintenance Alert Levels
Figure 4.1 illustrates a graphic representation of the maintenance levels:

Maintenance
Urgent

DIRTY
Maintenance
Alert

Acceptable
Range
Low Chamber
Reading

LOW
VALUE

Figure 4.1 Diagram of Maintenance Levels

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Operating Instructions

4.22.16 Time-Date
READ STATUS
1=TIME-DATE

The operator can view the daylight savings time and the month and week when daylight
savings time will begin and end. Pressing 1 while viewing Read Status Screen #6 will
display the following screens:

Read Status Screen #6

DAYLIGHT SAVINGS
ENABLED
YES
START MONTH
APR
START WEEK
WEEK-1

DAYLIGHT SAVINGS
END MONTH
OCT
END WEEK
LAST-W

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SECTION 5

Read Status

Central Station Communications
The control panel transmits zone and system status reports to Central Stations via the
public switched telephone network. Two supervised telephone line connections are
made to interface the control panel to the telephone lines. Two optional 7 foot
telephone cords are available for this purpose and can be purchased separately.
The control panel supervises both telephone lines for proper voltage. A delay of two
minutes will occur before a fault in either phone line connection is reported as a trouble.
When a fault is detected, an audible trouble signal will sound, the yellow trouble LED
will blink, the LCD display will indicate the phone line trouble and the trouble
condition will be reported to the Central Station over the remaining operational phone
line.
The control panel comes with line seizure capability provided for both the primary and
secondary telephone line interfaces. Any time that the control panel needs to make a
call to a Central Station, line seizure will disconnect any local premises phones sharing
the same telephone line.
All transmissions to the Central Stations will be sent over the primary phone line. In
the event of noisy phone lines, transmissions will be sent over the backup secondary
phone line.
Two phone numbers must be programmed, the primary Central Station phone number
and the secondary Central Station phone number. All system reports will be
transmitted to the primary Central Station phone number. Reports will automatically be
sent to the secondary Central Station phone number if attempts to transmits to the
primary Central Station phone number are unsuccessful. If 10 total attempts to
communicate are unsuccessful, a Communicator Failure report will be displayed. Note
that as an option, all reports may also be sent to the secondary Central Station phone
number.
The MS-9200UD meets NFPA 72 National Fire Code reporting requirements for: (a)
the type of signal, (b) condition and (c) location of the reporting premises. The general
priority reporting structure is:
1. Zone Alarms and Restores
2. Zone Troubles and Restores
3. System Troubles and Restores
4. 24-hour Test

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Central Station Communications
The control panel is capable of reporting detailed messages depending upon the format
in use. Table 5.1 shows the reporting structure for all formats.
Table 5.1 Format Selection
Format

Format

Format

Format

Report

3+1/4+1/Standard
4+1 Express

3+1/4+1/Expanded

4+2/Standard
4+2 Express

4+2/Expanded

Alarm

SSS(S) A

SSS(S) A
AAA(A) Z

SSSS AA2

SSSS AZ

Alarm Restore

SSS(S) RA

SSS(S) RA
RARARA(RA) Z

SSSS RARA2

SSSS RAZ

Zone Trouble
(Zone Open)

SSS(S) TZ

SSS(S) TZ
TZTZTZ(TZ) Z

SSSS TZTZ2

SSSS TZZ

Zone Trouble Restore

SSS(S) RTZ

SSS(S) RTZ
RTZRTZRTZ(RTZ) Z

SSSS RTZRTZ2

SSSS RTZZ

System Trouble

SSS(S) TS

SSS(S) TS
TSTSTS(TS) Y

SSSS TSTS2

SSSS TSY

System Trouble Restore

SSS(S) RTS

SSS(S) RTS
RTSRTSRTS(RTS) Y

SSSS RTSRTS2

SSSS RTSY

Zone Disable

SSS(S) DZ

SSS(S) DZ
DZDZDZ(DZ) Z

SSSS DZDZ2

SSSS DZZ

Zone Disable Restore

SSS(S) RDZ

SSS(S) RDZ
RDZRDZRDZ(RDZ) Z

SSSS RDZRDZ2

SSSS RDZZ

Low Battery

SSS(S) L

SSS(S) L
LLL(L) L2

SSSS LL2

SSSS LL2

Low Battery Restore

SSS(S) RL

SSS(S) RL
RLRLRL(RL) RL2

SSSS RLRL2

SSSS RLRL2

AC Loss

SSS(S) P

SSS(S) P
PPP(P) P2

SSSS PP2

SSSS PP2

AC Loss Restore

SSS(S) RP

SSS(S) RP
RPRPRP(RP) RP2

SSSS RPRP2

SSSS RPRP2

Fire Drill

SSS(S) FD

SSS(S) FD
FDFDFD(FD) FD2

SSSS FDFD2

SSSS FDFD2

Fire Drill Restore

SSS(S) RFD

SSS(S) RFD
RFDRFDRFD(RFD) RFD2

SSSS RFDRFD2

SSSS RFDRFD2

Supervisory Condition

SSS(S) V

SSS(S) V
VVV(V) Z

SSSS VV2

SSSS VZ

Supervisory Condition
Restore

SSS(S) RV

SSS(S) RV
RVRVRV(RV) Z

SSSS RVRV2

SSSS RVZ

Test Report

SSS(S) X

SSS(S) X

SSSS XX2

SSSS XX2

Upload or Download

SSS(S) UD

SSS(S) UD

SSS UDUD2

SSS UDUD2

Refer to Table 5.2 for an explanation of each letter code in Table 5.1 . Refer to Table
5.3 for a list of compatible receivers.

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Read Status

Table 5.2 Format Selection Address Explanation
Where
SSS or SSSS
A
A2
Z
RA
RA2
TZ
TZ2
RTZ
RTZ2
TS
TS2
RTS
RTS2
DZ
DZ2
RDZ
RDZ2
L
L2
RL
RL2
P
P2
RP
RP2
FD
FD2
RFD
RFD2
V
V2
RV
RV2
X
X2
Y

UD
UD2

=
=
=
=
=
=
=
=
=
=
=
=
=
=
=
=
=
=
=
=
=
=
=
=
=
=
=
=
=
=
=
=
=
=
=
=
=
7=
8=
9=
A=
B=
C=
D=
E=
F=
=
=

Subscriber ID
Alarm (1st digit)
Alarm (2nd digit)
Zone Number
Alarm Restore (1st digit)
Alarm Restore (2nd digit)
Zone Trouble (1st digit)
Zone Trouble (2nd digit)
Zone Trouble Restore (1st digit)
Zone Trouble Restore (2nd digit)
System Trouble (1st digit)
System Trouble (2nd digit)
System Trouble Restore (1st digit)
System Trouble Restore (2nd digit)
Zone Disable (1st digit)
Zone Disable (2nd digit)
Zone Disable Restore (1st digit)
Zone Disable Restore (2nd digit)
Low Battery (1st digit)
Low Battery (2nd digit)
Low Battery Restore (1st digit)
Low Battery Restore (2nd digit)
AC Loss (1st digit)
AC Loss (2nd digit)
AC Loss Restore (1st digit)
AC Loss Restore (2nd digit)
Fire Drill (1st digit)
Fire Drill (2nd digit)
Fire Drill Restore (1st digit)
Fire Drill Restore (2nd digit)
Supervisory Condition (1st digit)
Supervisory Condition (2nd digit)
Supervisory Condition Restore (1st digit)
Supervisory Condition Restore (2nd digit)
Test Report (1st digit)
Test Report (2nd digit)
A trouble corresponding to the following:
Ground Fault
Low Battery
not used
Telco Primary Line Fault
Telco Secondary Line Fault
Main Bell Fault, Annunciator Bell
Communication Fault to Primary Number
Communication Fault to Secondary Number
System Off Normal Fault/System Fault (Slave Operation, see Chapter 6)
Upload/download (1st digit)
Upload/download (2nd digit)

Note: For Expanded Reporting, the control panel automatically adds the digit
corresponding to the zone number and the second digit corresponding to any system
trouble condition. Only the first digit is programmable.
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Central Station Communications

5.1 Transmittal Priorities
The integral communicator transmits highest priority events first. Events, in terms of
priority, are listed below in descending order:
1. Alarms (highest priority level)
✓ Pull stations
✓ Waterflow
✓ Smoke detector
✓ Other alarm types
2. Supervisory Zone
3. System Troubles
✓ Zone disabled
✓ Fire drill
✓ AC fail (after delay)
✓ Zonal faults
✓ Earth fault
✓ Low battery
✓ Telephone line fault
✓ Notification Appliance Circuits fault
✓ Communication trouble
✓ Annunciator trouble
✓ System off normal
4. Restoral Reports
✓ Zone alarm
✓ Supervisory
✓ Zone(s) enabled
✓ Fire drill
✓ AC
✓ Zone fault
✓ Earth
✓ Battery
✓ Telephone line
✓ Notification Appliance Circuits
✓ Communication
✓ Annunciator trouble
✓ System off normal
5. 24 Hour Test (lowest priority)
Red LEDs are provided on the circuit board to identify which telephone line is
activated. Also, a green LED labeled Kissoff will turn on whenever the control panel
has successfully transmitted reports to the Central Station. The Kissoff LED may turn
on several times during communications with a Central Station.

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Transmittal Priorities

The table below shows UL listed receivers which are compatible with the MS-9200UD.

✔

1

4+2 Ademco Express

✔

✔

✔ (8)

2

3+1/Standard/1800/2300

✔

✔

✔

✔ (4)

✔

3

3+1/Expanded/1800/2300

✔

✔

✔

✔ (4)

4

3+1/Standard/1900/1400

✔

✔

5

3+1/Expanded/1900/1400

✔

✔

6

4+1/Standard/1800/2300

✔

✔

7

4+1/Expanded/1800/2300

✔

8

4+1/Standard/1900/1400

9

Surguard
MLR-2 (9)

✔

Sescoa
3000R (7)

4+1 Ademco Express

Radionics
6500 (5)

0

Radionics
6000 (6)

Osborne Hoffman
Models 1 & 2

FBI
CP220FB

ITI
CS-4000 (3)

Format #
(Addresses 16 & 42)

Ademco
685 (1)

Silent Knight
9000 (2)

Table 5.3 Compatible UL Listed Receivers

✔
✔
✔

✔

✔

✔

✔

✔ (4)

✔

✔

✔

✔ (4)

✔

✔

✔

✔ (4)

✔

✔

✔

✔

✔ (4)

✔

✔

✔

✔

✔

✔ (4)

✔

✔

✔

4+1/Expanded/1900/1400

✔

✔

✔ (4)

✔

✔

✔

A

4+2/Standard/1800/2300

✔

✔

✔ (4)

✔

✔

✔

B

4+2/Expanded/1800/2300

✔

✔

✔ (4)

✔

✔

✔

C

4+2/Standard/1900/1400

✔

✔

✔ (4)

✔

✔

✔

D

4+2/Expanded/1900/1400

✔

✔

✔ (4)

✔

✔

✔

E

Ademco Contact ID

✔

✔

✔

F

Not Used

✔

✔

✔

✔

✔

✔

✔

1. With 685-8 Line Card with Rev. 4.4d software
2. With 9002 Line Card Rev. 9035 software or 9032 Line Card with 9326A
software
3. Rev. 4.0 software
4. FBI CP220FB Rec-11 Line Card with Rev. 2.6 software and a memory card with
Rev. 3.8 software
5. Model 6500 with Rev. 600 software
6. Mode 6000 with Rev. 204 software
7. With Rev. B control card at Rev. 1.4 software and Rev. C line card at Rev. 1.5
software
8. Model 2 only
9. Version 1.62 software

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Remote Site Upload/Download

Remote Site Upload/Download

SECTION 6

The control panel may be programmed or interrogated off-site via the public switched
telephone network. Any personal computer with Windows™ 95 or greater, with a 14.4
Kbaud compatible modem and Fire•Lite Upload/Download software kit P/N PK-Plus,
may serve as a Service Terminal. This allows download of the entire program or upload
of the entire program, history file, walktest data, current status, system voltages, time
and date.
CAUTION: After successfully downloading a program, make certain to perform the
following steps:
1. Print out all programmed data via Print Mode or manually view programmed
entries and compare to intended program data
2. Test all affected panel operations
3. Immediately correct any problems found

6.1 Downloading Program
The first time that the control panel is downloaded (whether initiated at the jobsite or
remotely), a secret code is loaded in by a Service Terminal. Future upload or download
requests cause verification of the secret code by the control panel before processing of
data is allowed. If the secret code is not verified, the control panel will terminate the
request.
While the control panel is communicating with the Service Terminal, one of the
DACT’s red phone line active LEDs will remain on steady. At the conclusion of a
successful download, the green Kissoff LED will turn on steady for five seconds and the
red phone line active LED will turn off.
In order to download the panel (whether initiated at the jobsite or remotely), the
following must be true:
✓ The control panel must be in the Normal Mode of operation. Downloading is
not possible if the panel is in any other mode
✓ There cannot be any active communications ongoing with a Central Station
receiver
✓ All active events must be successfully 'kissed-off' by the Central Station(s).
The communicator must be in a standby state with no new information waiting
to be transmitted to a Central Station
Two basic communication mechanisms are supported as follows:
•

Download with callback - the Service Terminal calls the control panel. The
control panel answers the call, confirms the calling party then hangs up. The
Service Terminal then waits for a callback from the control panel. After the
control panel calls the Central Station and successfully reports that a request for
downloading has been received, the control panel calls the Service Terminal
back. Upon secret code verification, data transfers occur. When the data
transfers are completed and the Service Terminal disconnects from the control
panel, the panel calls the Central Station back to confirm either successful or
unsuccessful results.

•

Download with callback disabled - the Service Terminal calls the control panel.
No hang-up sequence occurs. Data transfers proceed.
Note that Callback enable/disable is controlled by the master user at the Service
Terminal on a per call basis.

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Downloading Program

Anytime a download with callback is initiated, the first thing the control panel will do is
one of the following:
•

contact the primary Central Station

•

contact the primary and secondary Central Stations

•

contact the first available Central Station phone number

Once contact has been established, the control panel will report a ‘request for upload/
download’ message. Following ‘kissoff’ of the request by the Central Station(s), the
control panel will then call the appropriate Service Terminal and begin the downloading
process.
Any time a download with callback disabled is initiated, the control panel and the
Service Terminal will communicate and transfer data without first contacting a Central
Station. When the data transfers are completed and the control panel disconnects from
the Service Terminal, the control panel will call the Central Station and report one of
the following conditions:
•

Upload/download request received

•

Upload and/or download request successful

•

Upload/download failed

To prevent the 'request for upload/download' message(s) from being reported to the
Central Station(s), make certain to disable all upload/download reports back to both
Central Stations.
During the downloading process, the fire protection remains active. Should a system
trouble or alarm condition occur, the control panel immediately terminates
downloading and processes the trouble or alarm locally and transmits the information
to the Central Station(s).

6.1.1 Security Features
Remote site upload and download with the control panel has been carefully designed to
include key security features to ensure proper functionality. The key features are listed
and explained below.
Secret Code Verification
A secret code is stored in the control panel by a Service Terminal to prevent
unauthorized access. The secret code is created at the Service Terminal by the master
user and cannot be viewed or changed by anyone other than a master user. Viewing of
the secret code is prohibited at the control panel. Prior to allowing an upload or
download of data, the control panel will verify the secret code transmitted by the
Service Terminal.
Time-out at Control Panel
Upon answering an incoming call on either the primary or secondary Central Station
phone line, the control panel will listen for a modem connection signal. If this signal is
not received within 30 seconds, the control panel will disconnect the call. Upon
successful connection (secret code verified and callback completed if applicable), if no
communication occurs within five minutes, the panel will disconnect the call.
Callback to Service Terminal
Any time the control panel is requested to allow an upload or download, it will confirm
the source of the incoming call, hang-up and call back the calling party (Service
Terminal phone number).

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Remote Site Upload/Download
Panel Identification Number
The panel identification number is typically used to identify the panel to the Service
Terminal when the control panel calls the Service Terminal. If more than one call
comes into the Service Terminal, the control panel ID number is used to sort out the
calling parties.
Another use of this code allows for identical secret codes to be placed into multiple
control panels at one jobsite, using the panel ID number to distinguish between the
individual panels.
Error Checking
As each block of data is received by the control panel, it is checked for accuracy. If an
error is detected, the block is retransmitted until correct, up to a maximum of four
times. If the Secret Code is not verified and four errors occur, the call is disconnected
and the report that the upload/download was not successful is called to the Central
Station(s).
Central Station Acknowledge
There is an option, referred to as the ‘callback’ option, whereby the control panel will
report to one or both Central Stations that a request for uploading or downloading has
been received prior to processing the call. If the Central Station(s) does not
acknowledge receipt of this request, uploading or downloading is prohibited. If
acknowledged by the Central Station(s), another message is transmitted, informing the
Central Station(s) that:
•

Downloading was successful

•

Uploading was successful

•

Uploading/downloading was not successful

Central Station Data Protection
The primary and secondary Central Station phone numbers, communications format,
account code, test time and programmable event codes are vital Central Station
information. These blocks of data are protected from partial programming due to faulty
phone connections, line noise and other errors. This prevents the panel from being
confused due to a wrong phone number, account code, test time and most critical
formatting errors.

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Downloading Initiated at Control Panel

6.2 Downloading Initiated at Control Panel
Before initiating the download procedure, make certain that the control panel is:
✓ In Normal Mode
✓ Central Station communications are off
✓ The communicator is in the standby state (red phone line active LEDs are off
and Kissoff LEDs are off)
Place the control panel into Program Mode and program one or both of the Service
Terminal phone numbers. It is also advisable at this time to program the Panel
Identification Number. This will allow the Service Terminal to easily identify incoming
calls.
Program the control panel for download operation. The control panel will now call the
appropriate Service Terminal phone number and the downloading process will begin.
Once the called Service Terminal identifies the incoming call (control panel), the
downloading process is allowed to continue. Downloading progresses until all
programmed information has been successfully loaded into the control panel.

6.3 Downloading Initiated at a Service Terminal
Before initiating the download procedure, make certain that the control panel is:
✓ In Normal Mode
✓ Central Station communications are off
✓ The communicator is in the standby state (red phone line active LEDs are off
and Kissoff LEDs are off)
Once the control panel accepts/answers an incoming call, the panel will:
1. Establish basic modem connection
2. Verify secret code and panel identification number
3. Verify callback vs. no callback request from the service terminal. If callback is
requested, steps 4 through 9 will occur. If no callback is requested, only steps 8
and 9 will occur
4. Identify the Service Terminal location
5. Hang-up/disconnect call
6. Call the Central Station(s) and transmit a request for upload/download message
(if programmed to do so). If this message is accepted, the control panel will
proceed to the next step
7. Return call to Service Terminal
8. After security clearance, begin downloading
9. Upon completion of download, call Central Station(s) back and report either a
successful download or failed upload/download message (if programmed to do
so)

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Remote Site Upload/Download

6.4 Uploading Initiated at a Service Terminal
Items that may be uploaded from the control panel to a Service Terminal are:
•

All programmed data plus the real-time clock, time and date

•

Entire Walktest data file

•

Troubleshoot Mode system voltages

•

Entire event History file

•

Current system status

Uploading is possible at any time provided the following conditions are true:
✓ The control panel must be in the Normal Mode of operation. Uploading is not
possible if the panel is in any other mode
✓ There cannot be any active communications ongoing with a Central Station
receiver
✓ All active events must be successfully 'kissed-off' by the Central Station (the
communicator must be in a standby state with no new information waiting to
be transmitted to a Central Station)
Once an incoming call is accepted/answered by the control panel, the panel will:
1. Establish basic modem connection
2. Verify secret code and panel identification number
3. Verify callback vs. no callback request from the service terminal. If callback is
requested, steps 4 through 9 will occur. If no callback is requested, only steps 8
and 9 will occur
4. Identify the Service Terminal location
5. Hang-up/disconnect call
6. Call the Central Station(s) and transmit a request for upload/download message
(if programmed to do so). If this message is accepted, the control panel will
proceed to the next step
7. Return call to Service Terminal
8. After security clearance, begin uploading
9. Upon completion of upload, call Central Station(s) back and report either a
successful upload or failed upload/download message (if programmed to do so).
During the uploading process, the fire protection remains active. Should a system
trouble or alarm condition occur, the control panel immediately terminates uploading
and processes the trouble or alarm locally and transmits the information to the Central
Station(s).

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Power Supply Calculations

Overview

Power Supply Calculations

SECTION 7
7.1 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 calculating 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

7.2 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 7.1 , to determine the total amount of current, in AC amperes (A), that must
be supplied to the system.
Table 7.1 AC Branch Circuit Requirements
Device Type

Number of
Devices

MS-9200UD
or
MS-9200UDE

1

Current Draw
(AC amps)
X

3.00
or
1.50

=

CHG-75

[

]

X

2.05

=

CHG-120F

[

]

X

2.00

=

[

]

X

[

]

Sum Column for AC Branch Current Required

164

Total Current
per Device

=
=

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Calculating the System Current Draw

Power Supply Calculations

7.3 Calculating the System Current Draw
7.3.1 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 7.3 on page 166. 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 7.3 on page 166. 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 7.3 on page
166.
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 7.2 shows how to convert milliamperes and
microamperes to full amperes.
Table 7.2 Converting to Full Amperes
To convert...

Multiply

Milliamperes (mA) to
amperes (A)

mA x 0.001

Microamperes (µ A) to
amperes (A)

µ A x 0.000001

Example
3 mA x 0.001 = 0.003A
300 µ A x 0.000001 = 0.0003 A

7.3.2 How to Use Table 7.3 on page 166 to Calculate System Current
Draw
Use Table 7.3 on page 166 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 Fire•Lite 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 7.4 on page 167
Following are the types of current that can be entered into Table 7.3 on page 166:
✓ 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.

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165

Power Supply Calculations

Calculating the System Current Draw
Table 7.3 contains 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 Calculation Column 2 and Calculation Column 3 to Table 7.4 on page 167.
Table 7.3 System Current Draw Calculations

Device Type
Main Circuit Board
ACM-8RF
ACM-16ATF
ACM-32AF
AEM-16ATF
AEM-32AF
AFM-16ATF
AFM-32AF
AFM-16AF
UDACT-F
LDM-32F
LDM-E32F
LCD-80F
4XTMF
4-wire Detector Heads
Power Supervision
Relays6
CP350
SD350
SD350T
H350
H350R
D350P
D350RP
B501BH & B501BHT7
B224RB Relay Base
B224BI Isolator Base
MMF-300
MMF-300-10
MDF-300
MMF-301
MMF-302
MMF-302-6
BG-12LX
CMF-300
CMF-300-6
CRF-300
CRF-300-6
I300
NAC #18
NAC #2
NAC #3
NAC #4
Current Draw from TB3
(nonalarm9)
Sum each column10
for totals

Calculation Column 1
Primary, Non-Fire Alarm Current
(amps)
Qty
1

Calculation Column 2
Primary, Fire Alarm Current
(amps)

Total
0.300

Qty
1

Calculation Column 3
Secondary, Non-Fire Alarm Current
(amps)

[

]

X[current draw]=
X[0.300]=
X[0.030]=

[

]

X [current draw] =
X[0.325]=
X[0.158]1=

[

]

X[current draw]=
X[0.255]=
X[0.030]=

[

]

X[0.040]

[

]

X[0.056]2=

[

]

X[0.040]=

[

]

X[0.002]

[

]

X[0.018]2=

[

]

X[0.002]=

[

]

X[0.040]

[

]

]

X[0.040]=

X[0.025]

[

]

X[0.056]2=
X[0.065]2=

[

[
]
[
]
1 max.
[
]
[
]
[
]
[
]
[
]

[

]

X[0.025]=

X[0.040]

[

]

X[0.075]=

[

]

X[0.040]=

[
[
[
[
[

]
]
]
]
]

X[0.040]=
X[0.002]=
X[0.025]=
X[0.005]=
X[
]=

X[0.040]
X[0.002]
X[0.064]
X[0.005]=
X[
]5=

[
[
[
[
[

]
]
]
]
]

X[0.056]3=

[

]

X[0.025]=

[

]

X[0.025]=

[
[
[
[
[
[
[
[
[
[
[
[
[
[
[
[
[
[
[
[
[
[

]
]
]
]
]
]
]
]
]
]
]
]
]
]
]
]
]
]
]
]
]
]

X[0.00030]=
X[0.00030]=
X[0.00030]=
X[0.00030]=
X[0.00030]=
X[0.00030]=
X[0.00030]=
X[0.001]=
X[0.00050]=
X[0.00045]=
X[0.00040]=
X[0.00350]=
X[0.00075]=
X[0.000375]=
X[0.00027]=
X[0.00200]=
X[0.00023]=
X[0.00039]=
X[0.00225]=
X[0.00027]=
X[0.00145]=
X[0.00040]=

[

]=

Primary Non-Alarm =

Total
0.325

X[0.018]=
X[0.064]=
X[0.011]4=
X[
]=

maximum alarm draw
for all devices

[
[
[
[

]
]
]
]

X[
X[
X[
X[

[

]

[

Primary Alarm =

0.400

Qty
1

[

]

X[0.025]=

[
[
[
[
[
[
[
[
[
[
[
[
[
[
[
[
[
[
[
[
[
[

]
]
]
]
]
]
]
]
]
]
]
]
]
]
]
]
]
]
]
]
]
]

X[0.00030]=
X[0.00030]=
X[0.00030]=
X[0.00030]=
X[0.00030]=
X[0.00030]=
X[0.00030]=
X[0.001]=
X[0.00050]=
X[0.00045]=
X[0.00040]=
X[0.00350]=
X[0.00075]=
X[0.000375]=
X[0.00027]=
X[0.00200]=
X[0.00023]=
X[0.00039]=
X[0.00225]=
X[0.00027]=
X[0.00145]=
X[0.00040]=

[

]

Total
0.255

]=
]=
]=
]=
]=

[

]=

Secondary Non-Alarm =

Table Footnote

1.
2.
3.
4.

All eight ACM-8RF relays activated on a single module.
All annunciator LEDs on
LDM-32F with LEDs on
If using the Reverse Polarity Alarm output, add 0.005 amps; if using the Reverse Polarity Trouble output, add
another 0.005 amps.
5. Refer to the Device Compatibility Document for standby current.
6. Must use compatible listed Power Supervision Relay.
7. Maximum alarm current for each sounder base is 0.015 amps which must be supplied by aux. 24VDC source.
8. Current limitation of Terminal TB3 & TB4 circuits is 2.5 amps per NAC.
9. The total standby current must include both the nonresettable/resettable (TB1 Terminals 1 & 2) and resettable
(TB1 Terminals 3 & 4) power. Caution must be taken to ensure that current drawn from these outputs during
alarm does not exceed maximum ratings specified. Current limitations of TB3 & TB4 circuits is 2.5 amps per
NAC output and 0.5 amps per auxiliary power output
10.Total current draw listed above cannot exceed 6.0 amps.

166

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Calculating the Battery Size

Power Supply Calculations

7.4 Calculating the Battery Size
Use Table 7.4 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 7.4 as follows:
1. Enter the totals from Table 7.3 on page 166, 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 cabinet door
Table 7.4 Total Secondary Power Requirements at 24 VDC
Secondary Standby Load
(total from Table 7.3 Calculation
Column 3)
[
]

Required Standby Time
(24 or 60 hours)

Primary Alarm Load
(total from Table 7.3 Calculation
Column 2)

Required Alarm Time
(for 5 min., enter 0.084,
for 10 min., enter 0.168)

[

X[

=

AH

=

AH

Sum of Standby and Alarm Ampere Hours

=

AH

Multiply by the Derating Factor

X 1.2

Battery Size, Total Ampere Hours Required

=

]

X[

]

]

AH

7.4.1 NFPA Battery Requirements
•

NFPA 72 Local and Proprietary Fire Alarm Systems require 24 hours of standby
power followed by 5 minutes in alarm

•

NFPA 72 Central, Auxiliary and Remote Station Fire Alarm Systems require 60
hours of standby followed by 5 minutes in alarm. Batteries installed in a system
powered by a generator need to provide at least 4 hours of standby power

7.4.2 Selecting and Locating Batteries
Select batteries that meet or exceed the total ampere hours calculated in Table 7.4 . The
control panel can charge batteries in the 7 AH to 18 AH range. The control panel
cabinet is capable of housing batteries up to 18 AH. Batteries larger than 18 AH require
a UL listed external battery charger and cabinet such as the BB-26, BB-55F or other UL
listed external battery cabinet.

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167

Software Zones

Correlations

Software Zones

APPENDIX A
A.1 Correlations

Setup and configuration of an addressable system is different than a conventional
system. In a conventional system, assignment of input devices (smoke detectors, pull
stations, heat detectors, etc.) to zones is accomplished through wiring. The wiring is
direct from clearly marked panel terminals to any device assigned to a particular zone.
Connection of output devices (horns, bells, strobes, etc.) in a conventional system is
accomplished by direct wiring of the output devices to Notification Appliance Circuit
terminals.
In an addressable system, a minimum of a single pair of wires (SLC communication
loop) is used to connect all addressable input and output devices. Communications
between the FACP (Fire Alarm Control Panel) and all addressable devices takes place
over the wire pair which originates from the FACP. Software programming is used to
configure the system as opposed to direct wiring. Zone assignments are created via
software means, hence the term software zones.
Setup of an MS-9200UD software zone is accomplished by panel programming. Each
addressable device can be assigned to a maximum of five software zones. Each
software zone, however, may have from 1 to 991 addressable input devices assigned to
it and from 1 to 991 addressable output devices assigned to it.
Monitor and control modules comprise one group of 991 addresses, with each module
having a unique address from 1 to 991. Detectors comprise a separate group of 991
addresses, each detector having a unique address from 1 to 991 in its group. Be careful
not to duplicate addresses within any one group (modules and detectors). Refer to the
following page for an example of zoning.
In the example on the following page:
•

Zone 01 has the following addressable devices assigned to it:
✓ SD350 smoke detectors with addresses 01 and 02
✓ MMF-300 monitor module with address 01
✓ MMF-302 monitor module with address 02 and 03
✓ CMF-300 control modules with addresses 05, 06, 07, 09 and 13

•

Zone 02 has the following addressable devices assigned to it:
✓ MMF-302 monitor module with addresses 02 and 03
✓ CP350 smoke detectors with addresses 03 and 04
✓ CMF-300 control modules with addresses 08, 09 and 10

•

Zone 03 has the following addressable devices assigned to it:
✓ SD350 smoke detectors with addresses 05, 06 and 07
✓ MMF-302 control module with address 04
✓ CMF-300 control modules with addresses 09, 11 and 12

The example points out some of the key assignment features of the MS-9200UD.
Addresses of detectors are not duplicated. Addresses of monitor and control modules
are not duplicated. The control module with address 09 is assigned to three software
zones (providing floor above and floor below). Be careful to properly plan the
installation prior to installing any devices.

168

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Correlations

Software Zones
Correlation of Input and Output Zones

Input Devices

Zones

SD350
01

Output Devices
CMF-300
13

SD350
02

CMF-300
05
ZONE
01

MMF-300
01

CMF-300
06

MMF-302
02

CMF-300
07

CMF-300
09

MMF-302
03

CP350
03

ZONE
02

CMF-300
08

CMF-300
10

CP300
04

SD350
05
CMF-300
11

SD350
06
ZONE
03

SD350
07

CMF-300
12

MMF-302
04

The zone correlations which are shown graphically above are also presented in Table
A.1 on page 170 and Table A.2 on page 171.

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169

Software Zones

Correlations

Table A.1 Detector Programming Sheet Example
Address
01
02
03
04
05
06
07
08
09
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50

170

Device
Type
SD350
SD350
CP350
CP350
SD350
SD350
SD350

Zone
Number
1
1
2
2
3
3
3

DETECTOR ZONE ASSIGNMENT
ADJ/NOUN
Address
Device
Type
FIRST HALL
51
ELEV. LOBBY
52
2ND FLOOR
53
ROOM 210
54
3RD FLOOR
55
MEZZANINE
56
MECH. ROOM
57
58
59
60
61
62
63
64
65
66
67
68
69
70
71
72
73
74
75
76
77
78
79
80
81
82
83
84
85
86
87
88
89
90
91
92
93
94
95
96
97
98
99

Zone
Number

ADJ/NOUN

MS-9200UD PN 51906:A

12/10/02

Correlations

Software Zones

Table A.2 Module Programming Sheet Example
Address
01
02
03
04
05
06
07
08
09
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50

Device
Type
MMF-300
MMF-302
MMF-302
MMF-302
CMF-300
CMF-300
CMF-300
CMF-300
CMF-300
CMF-300
CMF-300
CMF-300
CMF-300

MS-9200UD PN 51906:A

MONITOR/CONTROL MODULE ZONE ASSIGNMENT
Zone
ADJ/
Address
Device
Zone
Number
NOUN
Type
Number
1
51
1, 2
52
1, 2
53
3
54
1
55
1
56
1
57
2
58
1, 2, 3
59
2
60
3
61
3
62
1
63
64
65
66
67
68
69
70
71
72
73
74
75
76
77
78
79
80
81
82
83
84
85
86
87
88
89
90
91
92
93
94
95
96
97
98
99

12/10/02

ADJ/NOUN

171

Software Zones

Correlations

Table A.3 Blank Detector Programming Sheet - 1 of 2
Address
01
02
03
04
05
06
07
08
09
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50

172

Device
Type

Zone
Number

DETECTOR ZONE ASSIGNMENT
ADJ/
Address
Device
NOUN
Type
51
52
53
54
55
56
57
58
59
60
61
62
63
64
65
66
67
68
69
70
71
72
73
74
75
76
77
78
79
80
81
82
83
84
85
86
87
88
89
90
91
92
93
94
95
96
97
98
99

Zone
Number

ADJ/NOUN

MS-9200UD PN 51906:A

12/10/02

Correlations

Software Zones

Table A.4 Blank Module Programming Sheet - 1 of 2
Address

Device
Type

01
02
03
04
05
06
07
08
09
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50

MS-9200UD PN 51906:A

MONITOR/CONTROL MODULE ZONE ASSIGNMENT
Zone
ADJ/
Address
Device
Zone
Number
NOUN
Type
Number
51
52
53
54
55
56
57
58
59
60
61
62
63
64
65
66
67
68
69
70
71
72
73
74
75
76
77
78
79
80
81
82
83
84
85
86
87
88
89
90
91
92
93
94
95
96
97
98
99

12/10/02

ADJ/NOUN

173

Default Programming

Correlations

Default Programming

APPENDIX B

The following table provides a list of the programming options and their factory default
settings.
Program Option

Factory Default

Factory Default

Detector Programming

Not Installed

Daylight Savings

Yes

Detector Type

Smoke-Photo

Month Start Daylight Savings

April

Detector Verification

Off

Week Start Daylight Savings

1st Week

Detector Walktest

Yes

Month End Daylight Savings

October

Detector PAS

No

Week End Daylight

Last Week

Detector Presignal

No

Verification

No

Detector Zone Assign.

000 only

(future)

Detector Adj/Noun

none

PAS Timer

0

Module Programming

Not Installed

Presignal Timer

0

Module Type

Monitor

Waterflow Retard Timer

0

Module Walktest

Yes

NAC 1, 2, 3 & 4 Enable

Enabled

Module PAS

No

NAC 1, 2, 3 & 4 Silenceable

Yes

Module Presignal

No

NAC 1, 2, 3 & 4 Type

Bell

Module Zone Assign.

000 only

NAC 1, 2, 3 & 4 Sync Type

System Sensor

Module Adj/Noun

none

NAC 1, 2, 3 & 4 Autosilence

0

Zone 0 Enable

Enabled

NAC 1, 2, 3 & 4 Coding

Steady

Zone 1 Enable

Enabled

NAC 1, 2, 3 & 4 Zones

Zone 000 only

Zone 2 Enable

Enabled

NAC 1, 2, 3 & 4 Silence Inhibit

0

Zone 3 Enable

Enabled

Relay 1

Alarm

.........................through..........

.....................

Relay 2

Trouble (fixed)

Zone 96 Enable

Enabled

Relay 3

Supervisory

Zones 97, 98 & 99

Enabled

(future)

No

Annunciator Terminal Mode

No

(future)

174

Program Option

Loop Style

Style 4

Annunciator ACS Mode

Loop Protocol

CLIP

UDACT

No

Trouble Reminder

Off

ACS Installed

No

Banner

Fire•Lite

Onboard DACT

No

Time Format

12 Hr

Printer-PC

No

Hours Setting

12

Printer Baud

9600

Minutes Setting

00

Second Settings

00

AM-PM Setting

AM

Month Setting

01

Day Setting

01

Year Setting

00

MS-9200UD PN 51906:A

12/10/02

Correlations

NFPA Standard-Specific Requirements

NFPA Standard-Specific Requirements

APPENDIX C

The Fire•Lite MS-9200UD 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:
MS-9200UD 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 164, for Standby Power Requirements.
Initiating Devices
Connected to one of the control panel's Initiating Device Circuits.
Notification Appliances
Connected to the control panel's Notification Appliance Circuits via a control module.
The following additional equipment is needed for compliance with the NFPA 72
standards listed below:
NFPA 72 NATIONAL FIRE ALARM STANDARDS FOR:
NFPA 72 Central Station Service (Protected Premises Unit) or Remote Station
Service
Onboard Digital Alarm Communicator Transmitter for connection to a
compatible listed Central Station DACR or Protected Premises
Receiving Unit. This unit must be installed as outlined in "Digital
Alarm Communicator/Transmitter" on page 17.
OR
4XTMF Transmitter Module for connection to the Fire•Lite RS82
Remote Station Receiver. See Figure C.2, “Remote Station Connection
Using 4XTMF Module,” on page 177, 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
Transmitter Module Installation" on page 38 and as outlined in Figure C.1, “Municipal
Box Connected to 4XTMF Transmitter Module,” on page 176.
NFPA 72 Proprietary Fire Alarm System
MS-9200UD Alarm, Trouble and Supervisory contacts connected to Transmitter(s).
See Figure C.3, “Proprietary Protective Signaling System,” on page 178, for installation
instructions for this unit.

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175

NFPA Standard-Specific Requirements

Correlations

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 JP3 on the MS-9200UD main circuit board to supervise placement of
4XTMF module and circuit.
3. Cut JP2 on the MS-9200UD main circuit board to enable FACP Supervisory
relay.
4. Refer to "4XTMF Transmitter Module Installation" on page 38 for detailed
information.
Figure C.1 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 C.4 Municipal Box Connected to 4XTMF Transmitter Module

176

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Correlations

NFPA Standard-Specific Requirements
NFPA 72 Remote Station Protective Signaling System
Notes:
1. Cut Jumper JP3 on the MS-9200UD main circuit board to supervise placement of
the 4XTMF module.
2. Refer to "4XTMF Transmitter Module Installation" on page 38 for detailed
information.
Fire•Lite RS82 Remote Station Receiver UL listed.
Refer to Fire•Lite 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.2 Remote Station Connection Using 4XTMF Module

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177

NFPA Standard-Specific Requirements

Correlations

NFPA 72 Proprietary Protective Signaling Systems

MS-9200UD Addressable Fire Control Panel

MS-9200UD Main 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 MS-9200UD and the
transmitter are supervised by the transmitter.
2. This MS-9200UD/Transmitter arrangement
can be employed for NFPA 72 Proprietary
Protective Signaling System.

Figure C.3 Proprietary Protective Signaling System

178

MS-9200UD PN 51906:A

12/10/02

Correlations

Wire Requirements

Wire Requirements

APPENDIX D

T-tapping of the SLC loop wiring is allowed for 2-wire (Style 4) configurations. The
total resistance of any branch cannot exceed 40 ohms. The total wire length of all
branches cannot exceed 10,000 feet (3,000 m).
Connecting external system accessories to the MS-9200UD main circuits must be
carefully considered to ensure proper operation. It is important to use the correct type
of wire, wire gauge and wire run length for each MS-9200UD circuit. Reference the
chart below to specify wire requirements and limitations for each MS-9200UD circuit.
Note: If the SLC loop is to be run in conduit with Notification Appliance Circuits, the
risk of encountering problems can be greatly reduced by exclusively employing
electronic sounders (such as MA/SS-24D) instead of more electronically noisy
notification appliances such as electromechanical bells or horns.

Table D.1 MS-9200UD Wire Specifications
CIRCUIT CONNECTIONS

WIRE REQUIREMENTS

Circuit Type

Circuit Function

Wire Type and Limitations

SLC loop
(power-limited)

Connects to
Addressable
Devices

Twisted, shielded pair, 40
ohms maximum per length
of Style 6 and 7 loops. 40
ohms per branch maximum
for Style 4 loops1

ACS/TERM
(EIA-485)
(power-limited)
EIA-232
(power-limited)

Connects to
annunciator
modules
connects to
remote printer
and PC computer
Initiating Device
Circuit

MMF-300 and
MMF-301
(power-limited)

Wire Gauge and Compatible Brands

Untwisted, unshielded pair
Twisted, shielded pair with a
characteristic impedance of
120 ohms
Twisted, shielded pair

3,000 (900 m)
6,000 (1,800 m)

12 AWG (3.25 mm2): Genesis 4410,
Signal 98230, Belden 9583, WPW999
14 AWG (2.00 mm2):Genesis 4408 & 4608
Signal 98430, Belden 9581, WPW995
16 AWG (1.30 mm2): Genesis 4406 & 4606
Signal 98630, Belden 9575, WPW991
Direct Burial Cable Isotec NP713110VNQ-S
18 AWG (0.75 mm2): Genesis 4402 & 4602
Signal 98300, Belden 9574, WPW975
Direct Burial Cable Isotec NP714110VNQ-S
12-18 AWG (3.25 - 0.75 mm2)
18 AWG (0.75 mm2)

50 (15 m)

18 AWG (0.75 mm2) minimum

2,500 (760 m)

12-18 AWG (3.25 - 0.75 mm2)

2,500 (760 m)

12-18 AWG (3.25 - 0.75 mm2)

Distance limitation
set by 1.2 volt
maximum line
drop
Distance limitation
set by 1.2 volt
maximum line
drop
Distance limitation
set by 1.2 volt
maximum line
drop
20 (6 m)

12-18 AWG (3.25 - 0.75 mm2)

MMF-302
(power-limited)

Initiating Device
Circuit

CMF-300
(power-limited)

Notification
Appliance
Circuit

Maximum loop wire
resistance is 40 ohms for the
MMF-300 and 20 ohms for
the MMF-301
No more than a 2.4 volt drop
allowed at end of circuit.
Maximum loop wire
resistance is 25 ohms
In alarm, no more than a 1.2
volt drop allowed at end of
circuit

24 VDC
filtered
resettable
(power-limited)
24 VDC
nonresettable
(power-limited)

Connects to
4-wire smoke
detectors

No more than 1.2 volt drop
allowed from supply source
to end of any branch

Connects to
control modules,
annunciators and
accessories
Remote
secondary power
source

No more than 1.2 volt drop
allowed from supply source
to end of any branch

CHG-120F or
CHG-75

Recommended
Max. Distance
Feet (meters)
10,000 (3,000 m)
8,000 (2,400 m)
4,875 (1,450 m)
3,225 (980 m)

12 AWG (3.25 mm2) in
conduit

12-18 AWG (3.25 - 0.75 mm2)

12-18 AWG (3.25 - 0.75 mm2)

12-18 AWG (3.25 - 0.75 mm2)

Table Footnote

1. When using untwisted, unshielded wire, full conduit is recommended for optimum EMI/RFI protection.

MS-9200UD PN 51906:A

12/10/02

179

Notes

180

MS-9200UD PN 51906:A

12/10/02

Index
Numerics
24 Hour Test Time 106
300 Series addressable devices 20
4XTMF module 177, 178
coil resistance 38
current 38
installation 38
installation steps 39
see also Transmitter Module 14, 21
supervisory relay config. 39
voltage 38
A
AC Branch Circuit
calculations 165
AC Loss Delay 88
AC Power 31
current 14
current, maximum 31
voltage 14
wiring 14, 31
Account Code 105
Acknowledge/Step 16, 130
ACM 23
ACM LED annunciator 43
ACM Series
see also annunciator 23
ACM-16ATF Annunciator 23
ACM-32AF Annunciator 23
ACM-8RF 14
contact rating 41
mounting to BRKT-9600 42
see also Relay Control Module 41
ACS LED annunciator 14
add Detector 50
add Module 60
addressable 12
addressable detectors
see also detectors 14
Addressable Device Accessories 20
addressable modules 19
see also modules 13
addressing
annunciators 43
see also device addressing 81
see also module or detector addressing 19
Adjective
control module 74
list 57
monitor module 67
multiple entries 59
AEM-16ATF Annunciator 23
AEM-32AF Annunciator 23
AFM annunciator 43
AFM-16AF Annunciator 23
AFM-16ATF Annunciator 23
AFM-32AF Annunciator 23
Alarm 134
MS-9200UD PN 51906:A 12/10/02

Alarm Silence 16, 130
alarm verification 13, 54, 137, 141
annunciator 23
ACM 14, 43
ACM-8RF 14
LCD-80F 14
LDM Graphic 14
annunciator addressing 43
annunciator, graphic
see also LDM Series 24
annunciator, remote
see also LCD-80F 24
Automatic Test Operation 137
Autoprogramming 13, 45, 49
Autosilence 13, 140
NAC 91
auxiliary DC power 31
B
backbox 18
see also cabinet 30
Backup Reporting 103
Banner 82
setting 83
battery 18
cable connection 31
charger 17
charger capacity 14
Charging Circuit 14
see also secondary power 14, 31
battery box 22
battery charger 22
disable 14
external 22
baud rate 117
BB-55F
see also battery box 18, 22
BG-10LX
see also manual pull station 20
BG-12LX
see also manual pull station 20
BRKT-9600
bracket installation 41, 42
C
C304 Control/Relay Module 20
cabinet 18
dimensions 29, 30
cabinet mounting 27
Calculate System Current Draw 166
Calculating the Battery Size 168
Callback 161
Canadian Option 82, 94
Central Station 102, 162
account code 105
communications 155
phone number 106
Phone Numbers 104
report style 116
181

Index
CHG-120F
see also battery charger 22
see also remote battery charger 14
CHG-75
see also battery charger 22
see also remote battery charger 14
Clasic Loop Interface Protocol 81
Class A 19, 32
Class B 19, 32
NAC wiring 33
CLIP mode
see also Classic Loop Interface Protocol 81
Clock Format 85
CMF-300 control module 19
Coded Operation 138
Coding
NAC 91
communications format 107, 108
Control Buttons 130
control module 19
description display 76
display 70
edit 70
enable/disable 71
noun 75
noun/adjective 73, 74
silenceable 73
type 72
type codes 72
Correlations 169
CP300 Ionization Detector 20
CP350 18
CRF-300 relay module 20
current
AC Power 31
availability 15
maximum 15
Current Draw Calculations 167
D
D350P 19
D350R 19
DACT
enable 98
onboard 98
data
see also detector data and sensitivity 137
Data Entry
via computer keyboard 44
via keypad 44
data values
see also detector data and sensitivity 13
Date setting 85
Daylight Savings Time 85
DC power
nonresettable 31
resettable 31
see also auxiliary DC power 31
182

Default Programming 175
Delete Detector 51
Delete Module 61
Description
control module 76
detector label 59
monitor module 69
Detector 14
add 50
adding description 56
delete 51
edit 51
enable/disable 53
screen display 52
type 54
verification 54
Detector Annunciator 20
detector data 137, 152, 153
acceptable range 152
printout 152
Detector Programming 50
device addressing 81
Digital Communicator 25
dimensions
cabinet 29
DIRTY1 153
DIRTY2 153
Disable 78
Disable Point
Maintenance Level 123
Downloading 160, 163
dress panel 18, 21
drift compensation 13, 153
definition 153
Drill 16, 130
E
earth ground 31
edit
control module 70
detector 51
detector screens 52
module, monitor 61
EIA-232 40
for PC/Printer connection 15
see also Printer/PC interface 13
EIA-485
for ACS annunciators 15
for LCD-80F 15
Enable 77
Enable/Disable
control module 71
detector 53
module, monitor 64
End-of-Line Resistor Assembly 20
Enter key 47
Erase History 95
Error Checking 162
MS-9200UD PN 51906:A 12/10/02

Index
event codes 108
exiting
programming 45, 46
Read Status 45, 46
F
FACP
see also Fire Alarm Control Panel 12
Features 12
Fire Alarm Control Panel
see also FACP 12
Format Selection Address 156
Form-C relay 17, 32, 41
G
general alarm zone 66
see also zone Z00 56
ground fault 40
H
H350 19
H350R 19
Hazard Condition 136
History 95
erase 95
Maintenance Level 124
view events 95
History file 13
I
I300
see also Isolator Module 20
Indicators 16
Installation 27
intelligent 12
Inventory 12
INVREP 153
Isolator Module 20
K
Key Panel 16
function keys 16
service/program keys 16
keyboard and keypad 44
Keypad/Display
removal and installation 37
L
lamp test 16
LCD display 13, 16
LCD-80F annunciator 14, 24
LDM Series annunciator 24
LDM-32 Graphic Annunciator 14
LED
AC Power 131
Alarm Silenced 131
Battery 131
Disabled 131
Fire Alarm 131
Ground 131
Kiss-off 131
Maintenance 131
Primary Line Active 131
MS-9200UD PN 51906:A 12/10/02

Secondary Line Active 131
see also Indicators 16
Supervisory 131
Trouble 131
LED annunciator 23
Local Energy Municipal Box Service 38
Loop Setup 81
M
M300 Monitor Module 20
M301 Miniature Monitor Module 20
M302 2-wire Monitor Module 20
main circuit, mounting 27
Maintenance Alert 13, 137
levels 153
maintenance alert 153
Maintenance Program Level 2 46, 122
Manual Dial Mode 116
Manual programming 45
Manual Pull Station 20
Master Program Level 1 46, 48
MDF-300 monitor module 19
Medical Alert 136
MMF-300 monitor module 19
MMF-300-10 19
MMF-301 monitor module (miniature) 19
MMF-302 monitor module 19
Mode key 47
Module 13
add 60
addressing 19
delete 61
edit monitor 61
enable/disable 64
see also addressable modules 19
Module Programming 60
Monitor module 19
adjective 67
enable/disable 64
noun 68
noun/adjective 66
type 64
type action 65
Type list 64
type selection 65
Mounting
cabinet 27
main circuit board 27
municipal box transmitter
see also 4XTMF module 38
N
NAC 14, 17, 88, 90, 136
Auto Silence 91
coded 138
coding 91
current 14
End-of-Line Resistor 14
power 12
183

Index
see also Notification Appliance Circuit 12, 32
silence inhibit 92
silenceable 90
Style configuration 33
Style Y wiring diagram 33
synchronized 138
type codes 90
voltage drop 14
voltage, operating 14
wiring Style 32
NAC enable/disable 89
NAC options 82
NACKEY card 33
N-ELR Mounting Plate 20
NFPA 72 Auxiliary Fire Alarm System 176, 177
NFPA 72 Central Station Service (Protected Premises
Unit) or Remote Station Service 176
NFPA 72 Proprietary Fire Alarm System 176
NFPA 72 Proprietary Protective Signaling Systems 179
NFPA 72 Remote Station Protective Signaling System
178
NFPA Battery Requirements 168
NFPA Standard 176
nonpower-limited
relay connections 32
Nonresettable Power 17
current 15, 31
nonsilenceable
waterflow 80, 94
Normal 132
normal display 45
Notification Appliance Circuit 14, 88
see also NAC 12, 32
Noun
list 58
monitor module 68
multiple entries 59
Noun/Adjective 56, 58
control module 73
monitor module 66
O
Off-line Programming 45
Operating Instructions 130
Operation
alarm 134
disable/enable 137
hazard condition 136
medical alert 136
NAC 136
normal 132
process monitor 136
programmed zone 137
supervisory 135
trouble 132
waterflow 137
Option Modules 21, 37, 97
annunciators/UDACT 97
184

Printer/PC 117
Options 12
Output Circuits 17
P
Panel ID 100
Panel Identification Number 162
PAS 55, 78, 139
see also Positive Alarm Sequence 13, 54
selection 66
PAS BYPASS 139
PAS timer 86
Password 13, 46
change 118
Maintenance Level 2 47, 122
Master Level 1 47
PC (personal computer)
configuration 40
connection 40
ground fault 40
Phone Number 106
Piezo
see also sounder 16
PK-Plus Programming Utility 21
Point Program 50
Positive Alarm Sequence 54, 139
see also PAS 13
power
NAC 12
nonresettable 15
resettable smoke 15
system 12
power supply calculations 165
power-limited
relay connections 32
Power-up
first time 46
Pre-signal 13, 55, 78
function 138
selection 66
Pre-signal Delay timer 87
Pre-signal timer 86
Primary Phone 99
primary power
see also AC Power 31
printer
baud rate 117
configuration 40
connection 40
ground fault 40
setup 40
Printer/PC interface 13
Process Monitor 136
Program
check 120
check correlations 120
clear 119
Program Check
MS-9200UD PN 51906:A 12/10/02

Index
Maintenance Level 125
program keys
see also Key Panel 16
Programming 44, 45
autoprogramming 45
exiting 45
factory default 175
Level 1 46
Level 2 46
manual 45
Master Level 1 48
modules 60
off-line computer 45
via computer keyboard 44
via panel keypad 44
Programming Levels 46
Programming Screens 46
Programming Sheet 171, 172, 173
Programming Utility
see also PK-Plus 21
PRT/PK-CABLE
for PC/Printer connection 40
R
RA400Z
see also detector annunciator 20
Read Status 45, 142
annunciators 149, 150
exiting 45
history 148
NAC 147
power 145
Print 152
printer/PC 151
program check 148
relay 147
system point 143
Time-Date 154
timers 146
trouble reminder 146
zones 144
Real-Time Clock 137
Recall/Increment Function 59, 69, 76
Receivers 159
Relay 14, 17, 32, 93
connections 32
contact rating 14, 17, 32
fixed 32
Form-C 14, 93
programmable 12, 17, 32
programming 93
selections 93
trouble 12, 17, 32
Relay Control Module
see also ACM-8RF 41
relay module 20
Relay options 82
Remote Station Service 38
MS-9200UD PN 51906:A 12/10/02

remote switch functions 13
remote sync output 15
Remote Synchronization 34
REN
see also Ringer Equivalence Number 25
Report Style 116
Reporting Enable 102
Reset 16, 130
Resettable Power 17, 31
current 31
see also Smoke Detector Power 15
Ring Count 102
Ringer Equivalence Number 25
S
SD300 Photoelectric Detector 20
SD300T Photoelectric Detector 20
SD350 18
SD350T 18
Secondary Phone 99
Secondary Power Requirements 168
Secret Code 161
Security Features 161
sensitivity 137, 153
see also smoke detector sensitivity 137
Service Terminal 100, 101
Signal rate 13
Signaling Line Circuit
see also SLC 14
Silence Inhibit 13, 92, 140
Silenceable
control module 73
NAC 90
waterflow 94
silenceable circuits
synchronized signals 90
Silenceable waterflow 80
SLC 13, 17
current 14
reference manual 14
resistance 14
see also Signaling Line Circuit 12, 14
Style 17
voltage 14
wiring length 14
SLC Loop Protocol 81
SLC Style 81
smoke detector
chamber reading 152
data 137, 152
sensitivity 13, 137
Smoke Detector Power
current 15
Software Zones 12, 169
sounder 16
Specifications 14
strobe synchronization 13
Style 12
185

Index
Style B 19
Style D 19
Style Y 19, 32
NAC wiring 33
NC configuration 33
Style Z 19, 32
NAC configuration 33
wiring 34
subscreen 46
Supervisory 135
supervisory relay
configuring for 4XTMF 39
sync
programming 89
see also synchronization 92
sync output 15
current 15
End-of-Line resistor 15
voltage 15
synchronization 34, 138, 147
by manufacturer 92
programming 92
see also strobe synchronization 13
synchronized 138
synchronized signals 138
and silenceable circuits 90
System
Maintenance Level 126
System Point 143
system power 12
System Setup 82
T
Telephone Circuitry 25
Telephone Company
Rights and Warnings 26
telephone line 36
Terminal 101, 102
Test Time Interval 105, 106
Time and Date
Maintenance Level 127
Time setting 84
Time-Date setting 82, 84
Time-out 161
Timers 82
Transformer Assembly 18
Transmittal Priorities 158
Transmitter Module 38
see also 4XTMF module 21
Trouble 132
trouble display 133
trouble relay 12
Trouble Reminder 82, 140, 146
trouble responses 133
Type
control module 72
detector 54
monitor module 64
186

NAC 90
type code
control module 72
supervision 137
verification 13
U
UDACT-F
mounting to BRKT-9600 42
UL power-limited wiring requirements 35
see also power-limited and nonpower-limited 32
Upload/Download 160
Uploading 164
V
Verification
detector 54
Verify Loops 94
View Events 95
voltage
measurements 145
ranges 145
W
Walktest 13, 54, 73, 96
audible 96
Maintenance Level 126
operation 141
selection 66
silent 96
waterflow
nonsilenceable 80, 94
silenceable 80, 94
Waterflow Delay timer 86, 87
Waterflow Retard Timer 140
Waterflow Silenceable 82
Wire Requirements 180
wiring
AC Power 31
earth ground 31
NAC Style Y 33
NAC Style Z 34
wiring control modules
see also Style Y or Style Z 19
wiring modules
see also Style B or Style D 19
wiring Style 12
X
XRM-24
see Transformer
Z
Z00 56, 66
Z97
PAS zone 55
Z98 55
Zone 97 78
Zone 98 78
Zone Assignment 56, 66, 92
control module 73
Zone Setup 77
MS-9200UD PN 51906:A 12/10/02

Index
Maintenance Level 128
zone type 80
list 80
Zone Z97 55
Zone Z98
pre-signal zone 55
Zones 144, 169
see also software zones 12
Zones Disabled 79
Zones Enabled 79
Zones Installed 79
zones per device 56

MS-9200UD PN 51906:A 12/10/02

187

Notes



068'31$

Notes

068'31$



Notes



068'31$

Limited Warranty
The manufacturer warrants its products to be free from defects in materials and workmanship
for eighteen (18) months from the date of manufacture, under normal use and service. Products
are date-stamped at time of manufacture. The sole and exclusive obligation of the manufacturer
is to repair or replace, at its option, free of charge for parts and labor, any part which is
defective in materials or workmanship under normal use and service. For products not under
the manufacturer's date-stamp control, the warranty is eighteen (18) months from date of
original purchase by the manufacturer's distributor unless the installation instructions or catalog
sets forth a shorter period, in which case the shorter period shall apply. This warranty is void
if the product is altered, repaired, or serviced by anyone other than the manufacturer or its
authorized distributors, or if there is a failure to maintain the products and systems in which
they operate in a proper and workable manner. In case of defect, secure a Return Material
Authorization form from our customer service department. Return product, transportation
prepaid, to the manufacturer.
This writing constitutes the only warranty made by this manufacturer with respect to its
products. The manufacturer does not represent that its products will prevent any loss by fire
or otherwise, or that its products will in all cases provide the protection for which they are
installed or intended. Buyer acknowledges that the manufacturer is not an insurer and assumes
no risk for loss or damages or the cost of any inconvenience, transportation, damage, misuse,
abuse, accident, or similar incident.
THE MANUFACTURER GIVES NO WARRANTY, EXPRESSED OR IMPLIED, OF
MERCHANTABILITY, FITNESS FOR ANY PARTICULAR PURPOSE, OR OTHERWISE
WHICH EXTEND BEYOND THE DESCRIPTION ON THE FACE HEREOF. UNDER
NO CIRCUMSTANCES SHALL THE MANUFACTURER BE LIABLE FOR ANY LOSS
OF OR DAMAGE TO PROPERTY, DIRECT, INCIDENTAL, OR CONSEQUENTIAL,
ARISING OUT OF THE USE OF, OR INABILITY TO USE THE MANUFACTURER'S
PRODUCTS. FURTHERMORE, THE MANUFACTURER SHALL NOT BE LIABLE FOR
ANY PERSONAL INJURY OR DEATH WHICH MAY ARISE IN THE COURSE OF, OR
AS A RESULT OF, PERSONAL, COMMERCIAL, OR INDUSTRIAL USE OF ITS
PRODUCTS.
This warranty replaces all previous warranties and is the only warranty made by the
manufacturer. No increase or alteration, written or verbal, of the obligation of this warranty
is authorized.

LimWarLg.p65

01/10/2000

World Headquarters
One Fire-Lite Place, Northford, CT 06472-1653 USA
203-484-7161 • Fax 203-484-7118
www.firelite.com



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