Siemens MXL Marine Fire Detection System

Transcription

Marine Fire Detection
System Manual
MXL Control Panel
US Coast Guard Approved
Certificate No. (Cert No:161.002/22/7)
Reference
ULI File No. S522
Siemens Building Technologies, Inc.
Fire Safety
8 Fernwood Road
Florham Park, NJ 07932
Phone
(973) 593-2600
Fax
(973) 593-6612
www.sbt.siemens.com/fis
P/N 315-092382-6
Technical Manuals Online! - http://www.tech-man.com
Table Of Contents
I
DESCRIPTION OF THE MXL MARINE CONTROL PANEL ................................................ 1
Introduction ..................................................................................................................... 1
Equipment Location ........................................................................................................ 2
Software ........................................................................................................................... 2
Minimum MXL Control Panel Configuration ................................................................. 2
Components of the Basic System ................................................................................. 5
MMB-2 Main Board ....................................................................................................... 5
MPS-6 Power Supply .................................................................................................... 6
MPS-12 Power Supply .................................................................................................. 6
MKB-1 Keyboard/Annunciator Panel ............................................................................. 6
TSP-40 Logging Printer ................................................................................................. 7
TSW-2 Tamper Switch ................................................................................................... 7
BP-61 Batteries ............................................................................................................. 7
BTX Batteries ................................................................................................................ 7
Optional Modules ............................................................................................................ 8
MOM-4 Card Cage ........................................................................................................ 8
MOM-2 Card Cage ........................................................................................................ 8
CSM-4 Signal Module ................................................................................................... 9
CRM-4 Relay Module .................................................................................................... 9
CZM-4 Conventional Zone Module ............................................................................... 9
ALD-2I Analog Loop Driver ............................................................................................ 9
PSR-1 Remote Power Supply ..................................................................................... 10
NET-4 Communication Interface ................................................................................. 10
NET-7 Communication Interface ................................................................................. 11
MOI-7 Voice and Annunciator Driver ........................................................................... 11
MOD-16 Output Driver................................................................................................. 11
MID-16 Input Driver ..................................................................................................... 11
PIM-1 Peripheral Interface Module .............................................................................. 12
CZM-1B6 Remote Conventional Zone Module............................................................ 12
LIM-1 Loop Isolator Module ......................................................................................... 12
Intelligent/Analog Devices ............................................................................................ 13
FP-11 Intelligent/Analog Photoelectric Detector .......................................................... 13
FPT-11 Intelligent Thermal Detector ............................................................................ 13
ILP-1 Intelligent/Analog Photoelectric Detector ........................................................... 13
ILPT-1 Intelligent/Analog Photoelectric Detector with Heat Sensor ............................ 13
ILI-1 Intelligent/Analog Ionization Detector .................................................................. 13
ILI-1H Intelligent/Analog Ionization High Altitude Detector .......................................... 13
ILI-1A Intelligent/Analog Ionization High Air-Velocity Detector .................................... 13
ILI-1A Intelligent/Analog Ionization High Air-Velocity, High Velocity Detector .............. 13
ILI-1AH Intelligent/Analog Ionization High Air Velocity, High Altitude Detector ............ 14
ILI-1B Intelligent/Analog Ionization Air-Duct Detector ................................................. 14
ILI-1BH Intelligent/Analog Ionization Air-Duct High Altitude Detector .......................... 14
MSI-10B/20B Intelligent Manual Station ...................................................................... 14
MSI-B6F Intelligent Manual Station ............................................................................. 14
TRI-B6M Intelligent Interface Module .......................................................................... 14
i
Conventional Devices ................................................................................................... 14
DI-3 Ionization Detector ............................................................................................... 14
DI-3H Ionization High Altitude Detector ....................................................................... 14
DI-A3 Ionization High Air-Velocity Detector ................................................................. 14
DI-A3H Ionization High Air-Velocity, High Altitude Detector......................................... 15
DI-B3 Ionization Air Duct Detector ............................................................................... 15
DI-B3H Ionization Air Duct High Altitude Detector ....................................................... 15
DT-11 Thermal Detector .............................................................................................. 15
DT-C Series ................................................................................................................. 15
DT-135/200 WP ........................................................................................................... 15
DT-140/190 EP ............................................................................................................ 15
PE-11 Photoelectric Detector ...................................................................................... 15
PE-11T Photoelectric Detector with Heat Sensor ........................................................ 15
DB-SEAL and DB-11 SEAL ......................................................................................... 16
II
POWER REQUIREMENTS ................................................................................................. 17
Power Transfer Relay ...................................................................................................... 18
III
AUDIBLE ALARMS ............................................................................................................ 19
Alarm Locations and Requirements ................................................................................ 19
IV
INITIATING DEVICES—MANUAL ...................................................................................... 20
V
REMOTE ANNUNCIATION ................................................................................................. 20
Remote Annunciators ...................................................................................................... 20
VI
DETECTOR APPLICATION AND SPACING ...................................................................... 21
1. Smoke Detectors ......................................................................................................... 21
2. Thermal Detectors ....................................................................................................... 21
3. Planning A Fire Detection System ............................................................................... 22
4. Detector Installation ..................................................................................................... 25
VII ENCLOSURES ................................................................................................................... 26
1. Shock Mounting for Enclosures ................................................................................... 26
2. Installation ................................................................................................................... 26
VIII WIRING SPECIFICATIONS ................................................................................................ 32
1. ALD Loop Configuration Guide .................................................................................... 32
2. Wiring Specification for MXL ....................................................................................... 34
US COAST GUARD APPROVED EQUIPMENT LIST .......................................................... 37-44
COAST GUARD TYPICAL MXL CONNECTION DIAGRAM ................................................. 45-47
Technical
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ii
I. Description of the MXL
Marine Control Panel
INTRODUCTION
This manual contains information regarding
MXL equipment and detectors that are US
Coast Guard approved. The use of any other
equipment in systems required by US Coast
Guard regulations, but not US Coast Guard
approved, should only be considered when
absolutely necessary. Special US Coast
Guard one-time approval would be required.
The MXL Control Panel is capable of reading and displaying the sensitivity of remote
intelligent/analog ionization and photoelecric
detection devices at the control panel.
NOTE: When designing Fire Control
Systems for various types of vessels, the
designer should be aware of the required
vessel type, domestic and SOLAS regulations applicable for that vessel.
The basic MXL Control Panel can monitor
up to 2 analog loops, each containing up to
60 intelligent devices. Through the addition
of a MOM-4 card cage, the System can be
expanded to as many as 6 analog loops.
(With the addition of PSR-1 power supplies,
the System can be expanded to as many as
34 analog loops.)
The MXL Control Panel from Siemens
Building Technologies, Inc. is an advanced
fire protection and alarm control panel that
provides superior fire protection and multiplexed alarm reporting. Its use of unique
multi-processor network design along with
its ability to utilize both analog and conventional detection devices, make it the outstanding control unit in the life safety field.
Regardless of the size or complexity of the
life safety and security system requirements, the MXL system can be used for the
smallest to the largest applications.
The MXL is ideally suited for Marine, institutional and industrial fire and security applications.
The MXL Control Panel can process logical
decisions based on the status of initiating
devices. The system will also respond to
specified sequences of output circuit operation.
The system complies with the requirements
of NFPA 72 and NFPA13. It is Underwriters
Laboratory 864 and 1076 security listed.
The MXL Control Panel can control a wide
variety of System outputs, such as conventional Form C relay contacts, solid state
outputs, supervised outputs to control alarm
notification appliances, municipal tie outputs, and leased line outputs.
The MXL Control Panel can process logical
decisions based on the status of initiating
devices. The System can respond with
customer-specified sequences of output
circuit operation.
The System continuously checks all software and hardware for proper operation. It
continuously checks all System memory
components, control panel electronic hardware, and the System program. A hardwire
watchdog circuit is provided to ensure that
System programs are functioning properly. If
1
Description of the MXL Control Panel
a problem develops with the program or
processor, the watchdog circuit places the
System into a trouble condition and resets it.
To ensure reliable operation, the MXL
System is composed of independent modules, each with its own microprocessor. If
the main panel’s central processing unit
stops, these modules, operating in degrade,
still annunciate any alarm or trouble through
common lines called Any Alarm and Any
Trouble. All of the modules communicate
with the MXL Panel through a serial communications system.
All modules are continuously supervised for
their presence and for proper operation.
Problems are shown on the display to aid in
servicing and troubleshooting.
The MXL System is designed so that fire
alarm operation has first priority over all
other modes of operation. If the System
loses battery and commercial power, it
automatically goes through an initialization
routine when power is returned.
EQUIPMENT LOCATION
MXL System equipment shall not be installed
in locations that require an exceptional
degree of protection such as those that are
exposed to weather, seas, splashing,
pressure-directed liquids or similar moisture
conditions. These locations include:
1. On deck
2. A machinery space
3. A cargo space
4. A location within a galley or pantry area,
laundry or water closet which contains a
shower or bath; and
5. Other spaces with similar environmental
conditions.
Technical
2
SOFTWARE
The MXL software was written in a high
level language for ease of maintenance.
The software incorporates a multitasking
operating system that allows the microprocessor to handle many tasks almost simultaneously. This enables the MXL System to
handle communications to all initiating and
output option boards and to the annunciator.
This also enables the MXL System to check
that everything is running.
When the MXL Control Panel receives
power, the System runs a start-up procedure that sets up all initial conditions. The
System then starts the operating system
and the initialization routines for all of the
tasks, most of which concern handling
System modules. When the display task is
finished initializing, it displays the default
time and date at powerup. Initialization of
other modules may take several seconds,
but this takes place in the background and
so does not affect System operation.
The MXL System polls all network addresses
to see that all specified modules are present
and that there are no unspecified modules.
Any modules or devices that do not agree with
the programmed data are reported as
troubles on the annunciator.
MINIMUM MXL CONTROL PANEL
CONFIGURATION TO MEET NFPA 72,
UL 1076 AND NFPA 13
Table 1 presents the minimum MXL System
configuration necessary to meet NFPA 72,
UL 1076 and NFPA 13 requirements.
TABLE 1
MINIMUM MXL CONFIGURAT ION T O MEET NFPA 72, UL 1076 AND NFPA 13
NFPA Minimum Quantity
Module
Description
72
UL
1076 b
13
MMB-2a
MXL Main Unit
1
1
1
MPS-6
Power Supply
1
1
1
MPS-12
Power Supply
1
1
1
MKB-1
Keyboard/Annunciator Panel
1
1
1
TSP-40
Logging Printer
X
1
X
MOM-4
Optional Module Card Cage
X
1c
X
CSM-4
Signal Module
*
X
1d
CZM-4
Conventional Zone Module
**
X
**
ALD-2I
Analog Loop Driver
**
***
**
CZM-1B6
Remote Conventional Zone Module
**
X
**
---
Batteriesf
1e
1e
1e
c
TSW-2
Tamper Switch
X
1
X
PSR-1
Remote Power Supply
X
Xg
X
X = not required
*
For NFPA 72 Remote Station applications, one CSM-4 circuit must be configured
for alarm transmission. In addition, depending on the local authority having
jurisdiction, additional circuits may be required for Supervisory or Trouble
transmission. For NFPA 72 Auxiliary applications, one CSM-4 is required. For
other NFPA 72 applications, the CSM-4 is optional.
**
Any one of these modules is sufficient as an initiating device.
*** Only TRI-B6 / TRI-S, TRI-B6R / TRI-R, and TRI-B6D / TRI-D can be used as
security initiating devices.
NOTES:
a.
b.
e.
The batteries available are BP-61, BTX-1 and
BTX-2. The BP-61 is a module consisting of two
12V, 15 AH batteries. The BTX-1 batteries are a
pair of 12V, 31 AH batteries. The BTX-2 are a
pair of 12V, 55 AH batteries. Actual battery size
depends on System Configuration.
The MMB-2 must be programmed by the CSG-M
for all System configurations. (See CSG-M
Programming Manual, P/N 315-090381).
Refer to System wiring Diagram in this manual.
c.
UL 1076 requires a Model TSW-2 tamper switch
and a TSP-40 printer.
f.
See Appendix C in the MXL Manual, P/N 315092036 for Battery Calculations.
d.
Refer to the CSM-4 installation instructions (P/N
315-090854) for programming.
g.
The PSR-1 is not listed for security.
3
MMB-2
P1
(Main Board)
ALARM
ACK
AUD
TB3
SIL
ALARM
POWER
AUDIBLE
SILENCE
PARTIAL
SYSTEM
DISABLE
TB5
P3
P2
SIEMENS BUILDING TECHNOLOGIES
MXL
SUPV
SUPERVISORY
ACK
DISPLAY
TRBL
NEXT
TROUBLE
ACK
HOLD
TB2
SEC
ACK
SECURITY
RESET
ALT 1
2
3
HELP
4
5
6
PRINT
7
8
9
FORM
FEED
0
ALT
1
ENTER
CLEAR
ALT
2
FUNCTION
ALT 2
FUNCTION
F1
F2
F3
TB4
TB1
FUNCTION
1
F4
MKB-1
MOM-4
(Optional #1)
MOM-4
(Optional #2)
BATTERIES
Figure 1
The Basic MXL Control Panel
Technical
4
MOM-4
(Optional #3)
MPS-6
OR
MPS-12
P1
BATTERY
F2
20A
P14
MPS-6
CB1
NAC1
MPS-12
CB2
NAC2
P2
BATTERY
F3
F4
MOM-4
15 AMP
P3
POWER TO MOM-4
2 AMP MAX.
2 AMP
F1
MPS-6
8 AMP
12
4
P8
3
MMB-2
LOOP 2
1
CZM-1
POWER
1
TB3
2
CZM-1 POWER
COMPONENTS OF THE BASIC
SYSTEM
11
10
9
The basic MXL Control Panel consists of the
following components:
8
7
NAC 2
4
3
2
4
LOOP 1
1
P13
5
3
1
TAMPER
SWITCH
P16
MNET
(MXL Rev. 9
and higher)
TB1
I
C
2
0
4
P15
S7
S4
1
D2300CP
PROGRAMMER
P4
PRINTER
2
• MPS-6 or MPS-12 Power Supply
9
2
P10
NAC 1
DO NOT USE
1
• MMB-2 Main Board
3
TO ANN-1
GND FAULT
DISCONNECT
12A TO MOM-4
4
6
5
TB2
1
1
P6
1
P5
MOM-4
1
I
C
2
0
3
I
C
1
1
1
I
C
1
1
0
1
1
SPV
(MXL Rev. 8
and lower)
I
C
1
1
4
I
C
1
1
3
I
C
1
1
2
1
6 3
4 2
K K
1
7
P7
I
C
1
1
5
1
8
6
TRBL
• MKB-1 Keyboard/Annunciator
5
4
OFF
1
3
ON
P17
ALR
1
EXPANSION
Figure 2
MMB-2 Main Board
2
1
• TSP-40 Logging Printer (NFPA 72
Proprietary and UL 1076 configurations)
• MME-3-CG Enclosure
• TSW-2 Tamper Switch (UL 1076 configuration only)
• BP-61, BTX-1 or BTX-2 Batteries
MMB-2 Main Board
The MMB-2 Main Board contains:
• 16-bit central processing unit (CPU)
• System read-only memories (EPROMs)
• System random-access memory (RAM)
• FLASH memory for the CSG-M
• Watchdog circuitry
• Network interface circuitry
• Battery charger
• 24V regulator
• AC transfer relay
• Class A CZM-1 power
• 24 VDC unregulated supply
• Two analog loops (initiating/control)
• Two notification appliance circuits (audible/visual circuits)
• Three dry-contact relays
5
MPS-6 Power Supply
The MPS-6 is a supervised power supply
that converts 120 VAC, 60 Hz to unregulated 24 VDC at 6A.
MPS-12 Power Supply
The MPS-12 is a high current power supply
that provides the MXL System with primary
24 VDC power. It is rated at 12 amps and is
unfiltered and unregulated. The MPS-12
supplies the MMB-2 or PSR-1 and its
expansion modules with the power required
for normal operation. The module incorporated a 5 amp resettable circuit breaker on
the primary input, a 15 amp fuse on the 24V
output, and a built-in AC line filter for surge
and noise suppression. The MPS-12
mounts in the MXL enclosure backbox.
Figure 3
MPS-6 and MPS-12 Power Supply
MKB-1 Keyboard/Annunciator Panel
TO P8 OF MMB-2
The MKB-1 Keyboard/Annunciator Panel is
the annunciator and manual control panel
for the MXL. It includes the 2-line, 80character alphanumeric display that annunciates alarms, supervisories, troubles,
security conditions, and maintenance
information. The Control Panel also contains
the following indicators:
•
•
•
•
•
•
•
Alarm
Power
Supervisory
Trouble
Security
Audibles Silenced
Partial System Disabled
A keypad provides the following keys:
Figure 4
MKB-1 Keyboard/Annunciator
Technical
6
•
•
•
•
ACKnowledge keys
AUD SIL (Audible Silence)
RESET
NEXT Display
• HOLD Display
• Numeric keys
• Cursor control keys for data entry and
menu operation
• PRINT, HELP, and CLEAR keys
• User-configurable function keys
TSP-40 Logging Printer
Figure 5
TSP-40 Logging Printer
The TSP-40 Logging Printer is installed in the
MXL backbox and provides a paper record of
the activity of the System.
TSW-2 Tamper Switch
Figure 6
TSW-2 Tamper Switch
The TSW-2 Tamper Switch (Figure 6) below
is a 3-position switch that monitors the opening of the MXL enclosure and reports a
security condition. Closing the door automatically returns the switch to its normal operating
position. The switch can be pulled out to
indicate a closed position for maintenance
purposes.
BP-61 Batteries
The BP-61 is a module consisting of two 12V,
15 AH batteries. The BP-61 is recommended
for the NFPA 72 Local and 72 Proprietary and
the UL 1076 Systems. Actual battery size
depends on System configuration. See
Appendix C- Battery Calculations in the
MXL Manual, P/N 315-092036.
BTX Batteries
Figure 7
BP-61 and BTX Batteries
The BTX-1 batteries are a pair of 12V, 31 AH
batteries. The BTX-2 batteries are a pair of
12V, 55 AH batteries. Actual battery size
depends on System configuration. See Appendix C - Battery Calculations in the MXL
Manual, P/N 315-092036.
7
OPTIONAL MODULES
MOM-2 Card Cage
The following modules are available as
options to the MXL Control Panel:
The MOM-2 Card Cage contains two slots for
optional module cards; it can handle two halfwidth cards or one full-width card. The MOM-2
provides two power connector receptacles
and two data connector receptacles. A 24
VDC cable that provides the main power used
by the optional modules and an 8-wire ribbon
cable for connection of 5 VDC and data are
provided with the MOM-2 installation kit.
•
MOM-4 Card Cage
•
MOM-2 Card Cage
•
CSM-4 Signal Module
•
CRM-4 Relay Module
•
CZM-4 Conventional Zone Module
•
ALD-2I Analog Loop Driver
•
PSR-1 Remote Power Supply
•
NET-4/-7 Communication Interface
•
MOI-7 Voice and Annunciator Driver
•
MOD-16 Output Driver
•
MID-16 Input Driver
•
PIM-1 Peripheral Interface Module
•
CZM-1B6 Conventional Zone Module
•
LIM-1 Loop Isolator Module
MOM-4 Card Cage
The MOM-4 Card Cage (Figure 8) below
contains four slots for optional module cards;
it can handle four half-width cards or two fullwidth cards. The MOM-4 provides two power
connector receptacles and two data connector receptacles. A 24 VDC cable that provides the main power used by the optional
modules and an 8-wire ribbon cable for
connection of 5 VDC and data are provided
with the MOM-4 installation kit.
Figure 8
MOM-4 Card Cage
A System can include as many as three
MOM-4s in the backbox. If you install three
MOM-4s in a backbox, you cannot install a
TSP-40 printer in that backbox.
Figure 9
MOM-2 Card Cage
Technical
8
CSM-4 Signal Module
The CSM-4 Signal module (Figure 10) controls
two supervised notification appliance circuits.
Each circuit is capable of either Style Z (Class
A) or Style Y (Class B) operation. Each circuit
can be individually configured for notification
appliances, municipal tie or leased line.
CRM-4 Relay Module
Figure 10
CSM-4 Signal Module Card
The CRM-4 Relay module (Figure11) is an
output control module that contains four relay
outputs. Form C contacts are rated at
2A, 30 VDC/120 VAC resistive.
CZM-4 Conventional Zone Module
The CZM-4 Conventional Zone module
provides four initiating device circuits capable
of Style D (Class A) or Style B (Class B)
operation. Each zone supports up to thirty
two-wire detectors or an unlimited number of
shorting devices. Each zone has its own
address. You can use the CSG-M to write a
custom message for each zone (See the
CSG-M Programming Manual, P/N 315090381).
Figure 11
CRM-4 Relay Module Card
The ALD-2I Analog Loop Driver provides two
signaling line circuits capable of Style 6
(Class A) or Style 4 (Class B) operation for
monitoring analog devices. Each loop is
capable of monitoring up to 60 analog devices. Each device has its own address. You
can use the CSG-M to write a custom message for each device (See the CSG-M Programming Manual, P/N 315-090381).
Figure 12
CZM-4 Conventional Zone Module Card
Figure 13
9
The PSR-1 module is a microprocessor
controlled remote power supply and battery
charger. This module allows the basic MXL
System to expand to more than 2000 points.
It operates with an MPS-6 or an MPS-12 to
provide 6 or 12 amps of power for various
MXL modules.
The PSR-1 module:
1. Acts as an interface between remote
option modules and the MXL when used
with a NET-4 or NET-7 plug-in
communication module.
Figure 14
2. Can be used to power an MOI/MOD
annunciator driver set.
3. Can be used as an auxiliary power supply
in a stand-alone mode without an MXL.
There are nine status indicators on the PSR-1
(Refer to Figure 14). There are also two
relays used for common alarm and common
trouble or, if programmed, for local alarm and
local trouble.
NET-4 Communication Interface
The NET-4 provides the communication
interface between remote PSR-1 panels and
the main MXL. Each NET-4 connected
represents one network drop on the MXL
System. You can have up to 32 network
drops, including the MMB-2.
The NET-4 installs into the PSR-1 module
which provides all necessary power to the
NET-4. There are no configuration switches or
jumpers on the NET-4. (See Figure 15.)
Technical
10
Figure 15
NET-4 Board
NET-7 Communication Interface
The NET-7 module provides a Style 7
communication interface between the main
MXL and multiple remote panels in an MXL
System. Each NET-7, except the NET-7
connected to the MMB, electrically isolates
the pairs from the local power supply and
isolates ground faults to a single remote
panel. The MMB provides ground fault
detection for the two pairs.
Figure 16
NET-7 Board
Each NET-7 connected represents one
network drop on the MXL System. There
can be a maximum of 32 drops including the
MMB. The NET-7 has a network address
which must be set on the module and
installed into the CSG-M network map.
The NET-7 offers advanced performance
over the NET-4. NET-7s and NET-4s
cannot be combined in the same system.
The MOI-7 is an MXL network module that
connects to a graphic annunciator using
MOD-16s and MID-16s. The MOI-7 can be
connected to either Style 4 or Style 7 wiring.
Figure 17
The MOD-16 Output Driver module is a
graphic annunciator driver controlled by the
MOI-7 module. Up to eight MOD-16s can be
used with an MOI-7. Each MOD-16 can
activate up to 16 outputs for a total of 128
outputs.
Figure 18
MID-16 Input Driver
The MID-16 Input Driver provides 16 general purpose inputs for user-defined operations for the MXL. The MID-16 is controlled
by the MOI-7 module. Up to eight MID-16s
can be used with an MOI-7. The function of
each individual input is defined by the usage
assigned to it in the CSG-M.
Figure 19
MID-16 Input Driver
11
The PIM-1 module is an interface for an
MXL System to remote peripheral devices
such as printers, VDTs and CRTs. It connects an RS-232C device or CRT to an MXL
System without the peripheral device's
protective ground causing a ground fault.
The interface operates at up to 9600 baud
without losing any characters.
CZM-1B6 Remote Conventional Zone
Module
Figure 20
The CZM-1B6 is an MXL intelligent device
that connects a single zone of conventional
devices to an analog loop. The CZM-1B6 can
power up to 15 compatible two-wire, ionization or photoelectric smoke detectors. It can
also monitor an unlimited number of shorting
devices such as waterflow switches, thermal
detectors, manual stations, etc.
Each CZM-1B6 can be assigned a
32-character custom alphanumeric message.
It also includes an alarm indicator LED
which is visible through the cover plate.
The CZM-1B6 supports Style D (Class A)
and Style B (Class B) wiring. The module
uses one address on the analog circuit.
LIM-1 Loop Isolator Module
The LIM-1 Loop Isolator Module isolates
short circuits on MXL analog loops. By
placing devices between LIM-1s during
installation, a short in the wiring within that
group is disconnected from the rest of the
loop. The remainder of the devices continue
to operate. The LIM-1 operates in both Style
6 (Class A) and Style 4 (Class B) circuits.
Technical
12
Figure 21
CZM-1B6 Conventional Zone Module
INTELLIGENT/ANALOG DEVICES
The intelligent/analog devices described
below are available for use with the MXL
Control Panel (ALD-2I or MMB-2).
The UL identifiers for compatibility are the
same as the model names specified below.
FP-11 Intelligent/Analog
Photoelectric Detector
The FP-11 is an intelligent/analog photoelectric detector that can be used as an area or
duct detector [FP-11(d)]. It uses either a
DB-11 low profile mounting base or DB-3S
mounting base with the DB-ADPT adapter, a
DB-X11RS mounting base with relay or
DB-X3RS mounting base with relay with the
DB-ADPT adapter, an ADBI-60 audible base
with the DB-ADPT adapter, or an AD-11P or
AD-11XPR air duct housing.
FPT-11 Intelligent Thermal Detector
The FPT-11 is an intelligent/analog ratecompensated/fixed-temperature type thermal
and photoelectric detector. It can only be used
as an area detector. It uses either a DB-11
low profile mounting base or DB-3S mounting
base with the DB-ADPT adapter, a DB-X11RS
mounting base with relay or DB-X3RS mounting base with relay with the DB-ADPT
adapter, or an ADBI-60 audible base with the
DB-ADPT adapter.
ILP-1 Intelligent/Analog
The ILP-1 is an intelligent/analog photoelectric detector that can be used as an area or
duct detector [ILP-1(d)]. It uses either a
DB-3S low profile mounting base, a
DB-X3RS mounting base with relay, an
AD-3ILP or AD-3XRILP duct housing, or an
ADBI-60 audible base.
ILPT-1 Intelligent/Analog
Photoelectric Detector with Heat
Sensor
The ILPT-1 is an intelligent/analog ratecompensated/fixed-temperature type thermal
and photoelectric detector. It can only be
used as an area detector. It uses either a
DB-3S low profile mounting base, a DB-X3RS
mounting base with relay, or an ADBI-60
audible base.
ILI-1 Intelligent/Analog lonization
Detector
The ILI-1 is an intelligent/analog ionization
detector for use in open areas at altitudes of
0 to 4000 feet. It uses either a DB-3S low
profile mounting base, a DB-X3RS mounting
base with relay, or an ADBI-60 audible base.
ILI-1H Intelligent/Analog lonization
High Altitude Detector
The ILI-1H is an intelligent/analog ionization
detector for use in open areas at altitudes of
3000 to 8000 feet. It uses either a DB-3S
low profile mounting base, a DB-X3RS
audible base.
ILI-1A Intelligent/Analog lonization
High Air-Velocity Detector
The ILI-1A is an intelligent/analog ionization
high air-velocity detector for use in open
areas, computer facilities, and air ducts at
altitudes of 0 to 4000 feet, with air velocities
of 0 to 1200 feet per minute. It uses either a
DB-3S low profile mounting base, a DB-X3RS
audible base.
13
ILI-1AH Intelligent/Analog lonization
High Air-Velocity, High Altitude Detector
The ILI-1AH is an intelligent/analog ionization
high air-velocity, high altitude detector for
use in open areas, computer facilities, and
air ducts at altitudes of 3000 to 8000 feet,
with air velocities of 0 to 1200 feet per
minute. It uses either a DB-3S low profile
mounting base, a DB-X3RS mounting base
with relay, or an ADBI-60 audible base.
ILI-1B Intelligent/Analog lonization
Air-Duct Detector
The ILI-1B is an intelligent/analog ionization
detector for use in air duct applications at
altitudes of 0 to 4000 feet, with air velocities
of 500 to 4000 feet per minute. It uses either
the AD-3I housing or the AD-3XRI housing.
ILI-1BH Intelligent/Analog lonization
Air-Duct High Altitude Detector
The ILI-1BH is an intelligent/analog ionization detector for use in air duct applications
at altitudes of 3000 to 8000 feet, with air
velocities of 500-4000 feet per minute. It
uses either the AD-3I or AD-3XRI housing.
MSI-10B/20B Intelligent Manual Station
The MSI-10B/20B is an intelligent manual
station designed to interface with an analog
loop. The MSI-10B/20B can be flush
mounted or surface mounted using the
SB-5R mounting box.
TRI-B6M Intelligent Interface Module
The TRI-B6M addressable inferface module
interfaces direct shorting contact devices
with the analog loops. The TRI-B6M can
monitor a normally open or closed dry
contact and it can report the status of the
contact.
TRI-S, TRI-R, and TRI-D Intelligent
Interface Modules
The TRI-S/R/D series modules are intelligent interface modules that interface direct
shorting contact devices with the analog
loops. The TRI-S is a single-input module
with an independently controllable Form C
relay; the TRI-D is a dual-input module.
CONVENTIONAL DEVICES
The conventional devices described below are
available for use with the MXL Control Panel.
The UL identifiers for compatibility are the
same as the model numbers specified below.
DI-3 Ionization Detector
The DI-3 is an ionization detector for use in
open areas at altitudes of 0 to 4000 feet. It uses
the DB-3S low profile surface mounting base.
DI-3H Ionization High Altitude Detector
The DI-3H is an ionization detector for use
in open areas at altitudes of 3000 to 8000
feet. It uses the DB-3S low profile surface
mounting base.
MSI-B6F Intelligent Manual Station
The MSI-B6F is an intelligent manual station
designed to interface with an analog loop.
The MSI-B6F is a single-action station;
when used with the MS-FD adapter, the
MSI-B6F is a double-action station. The
MSI-B6F can be flush mounted or surface
mounted using the MS-FB backbox.
Technical
14
DI-A3 Ionization High Air-Velocity
Detector
The DI-A3 is an ionization high air velocity
detector for use in open areas, computer
facilities, and air ducts at altitudes of 0 to
4000 feet, with air velocities of 0 to 1200
feet per minute. It uses the DB-3S low
profile surface mounting base.
DI-A3H Ionization High Air-Velocity,
High Altitude Detector
DT-135/200 WP
The DI-A3H is an ionization high air velocity,
high altitude detector for use in air ducts only
at altitudes of 3000 to 8000 feet, with air
velocities of 0 to 1200 feet per minute. It uses
the DB-3S low profile surface mounting base.
This weatherproof thermal detector has a
rate compensated principal available in
either a 135OF or 200OF setting. The detector is epoxy coated and mounts to a weatherproof box for approved use in wet or
unsheltered locations.
DI-B3 Ionization Air Duct Detector
DT-140/190 EP
The DI-B3 is an ionization detector for use
only in air ducts at altitudes of 0 to 4000
feet, with air velocities of 500 to 4000 feet
per minute. It must be used with a Series 3
air duct housing (AD-3I or AD-3RI).
This explosionproof thermal detector has a
rate compensated principal available in either
a 140OF or 190OF setting. It should be used
in hazardous areas requiring explosionproof
devices. The detector mounts to an approved
explosionproof junction box.
DI-B3H Ionization Air Duct High
Altitude Detector
PE-11 Photoelectric Detector
The DI-B3H is an ionization detector for use
only in air ducts at altitudes of 3000 to 8000
feet, with air velocities of 500 to 4000 feet
per minute. It must be used with a Series 3
air duct housing (AD-3I or AD-3RI).
The PE-11 is a photoelectric detector that
responds to a wide range of both flaming
and smoldering fire conditions. It uses the
DB-11 low profile surface mounting base,
the DB-3S base with the DB-ADPT adapter,
or the AD-11P/PR air duct housing.
DT-11 Thermal Detector
The DT-11 is a thermal detector for use in
open areas. It uses the DB-11 low profile
surface mounting base or the DB-3S base
with the DB-ADPT adapter.
DT-C Series
The DT-135CS and DT-200CS thermal
detectors are the rate compensated type
available in 135OF and 200OF settings. The
DT-135CL and the DT-200CL are identical
to CS versions, except that they have an
internal alarm indicating lamp. There is a
practical limit only to the number per zone.
PE-11T Photoelectric Detector with
Heat Sensor
The PE-11T is a photoelectric detector with
heat sensor that responds to a wide range
of both flaming and smoldering fire conditions. It uses the DB-11 low profile surface
mounting base or the DB-3S base with the
DB-ADPT adapter.
15
Use DB-SEAL with all DB-3S/X3RS bases and DB-11 SEAL for DB-11
bases. Install as shown below.
Use the DB-Seal with a DB-3S base or the DB-11 Seal with a DB-11 base to prevent moisture
from condensing and collecting on the rear of the detector used. This moisture can occur when
units experience different temperatures or humidity conditions.
INSTALLING the DB-SEAL for DB-3S
BASE (See Figure 22)
INSTALLING the DB-11 SEAL for DB-11
BASE (See Figure 23)
All wiring must comply with national and
local codes.
All wiring must comply with national and
local codes.
1. Install and wire the DB-3S base by
following the DB-3S Installation
Instructions (P/N 315-083225). Make sure
that all wires are dressed flush to the
bottom of the base.
1. Install and wire the DB-11 base by
following the DB-11 Installation
Instructions (P/N 315-094193). Make sure
that all wires are dressed flush to the
bottom of the base.
2. Position the tabs on the seal over the slots
in the inner rim of the base and press the
seal in place.
2. Place the base seal (1/4" white foam)
firmly into the bottom of the base. Do not
cover the contact springs (See Figure 23.)
3. Check that the four openings for the
spring contacts clear the springs and the
plastic terminal supports.
3. Rotate the detector counterclockwise
while pressing on it until the detector
drops into the base.
4. With the seal in place, install the detector.
4. Rotate the detector clockwise until it stops
and locks in place.
5. Follow the checkout procedure in the
detector installation instructions.
Figure 22
Installing the DB-Seal
Figure 23
Installing the DB-11 Seal
Refer to the MXL Operation, Installation, and Maintenance Manual, P/N 315-092036, for
solutions to design questions regarding specific MXL fire alarm control functions and modules.
Technical
16
II. Power Requirements
It is a US Coast Guard requirement that the
fire detection system have two sources of
power. Most large ships have both main
generators and emergency generators;
therefore, they can satisfy this requirement
by arranging to have power supplied to the
fire detection system by both the main and
emergency generators.
other types of vessels. In cases where it is a
desired option to furnish the fire detection
system with standby battery power, even
when there are main and emergency
generators supplying the system, there is
no specific battery operation time period,
although it would be recommended to be a
minimum of 18 hours.
In cases where there are no emergency
generators, battery backup power to the
system is required. Revised US Coast
Guard regulations have reduced the
required battery operation time to 36 hours
for passenger ships and 18 hours for all
When the smoke detection system is
furnished with battery backup power, it is
necessary to calculate the system power
requirement to determine the battery ampere-hour capacity necessary.
NOTE: An approved Power Transfer Relay must be used for the automatic transfer from
main power to secondary power when the main power source has 15% to 20%
potential variation. The transfer to secondary power creates a visual and audible
trouble signal on the MXL Control Panel. The Model PTR-1 Power Transfer Relay
from Siemens Building Technologies, Inc. was designed for this purpose.
17
Power Requirements
POWER TRANSFER RELAY
The PTR-1 is an automatic power transfer relay that transfers power from the main generators,
at a 15% to 20% potential reduction, to the backup generators. This automatic transfer creates
an audible and visual system trouble signal. The PTR-1 is in its own enclosure. (See Figure 2426 for PTR-1 Connections, Cover and Enclosure.)
TO ANALOG LOOP
_
3.6K, 1/4W, 5%
TERMINAL
STRIP
+
POWER TRANSFER RELAY
MODEL PTR-1
TRI-S
MAIN POWER IN
120 VAC, 5A
SUPV SWITCH
NEUTRAL
AUXILIARY
POWER IN
120 VAC, 5A
MPS-6
120 VAC, 5A
NEUTRAL
PROGRAM AS TROUBLE
CAUSING N.C.
NOTE: VOLTAGE SENSITIVE POWER TRANSFER
RELAY ADJUSTED TO DROP OUT AT 97V +/- 3v
PULL IN AT 106V +/- 6V
Figure 24
PTR-1 Connections
Figure 25
PTR-1 Cover (Drip-Proof)
Figure 26
PTR-1 Enclosure (Mounting)
Technical
18
III. Audible Alarms
ALARM LOCATIONS AND REQUIREMENTS
Ten inch bells are required to sound in the following locations when any alarm initiating device is
actuated.
1. Alarm bell must always sound on the bridge regardless of which zone is in alarm.
2. Alarm bells must sound in the engine room, machinery spaces, and the control room when
the alarm is initiated in any of these spaces. In case the control room might be unattended
at the time of alarm, bells must also be installed in the passageways and lounge areas of
the licensed engineer’s quarters.
3. If an alarm is not acknowledged (silenced or reset) at the control panel within 2 minutes, the
control panel must automatically cause the General Alarm to sound.
NOTE: If it should be necessary to supplement the 10 inch bell audible output in high
noise background areas with horns, sirens, strobes, flashing or rotating lights,
the wiring to such supplementary alarm devices does not have to be supervised.
However, audible alarms other than bells must always be accompanied by lights
or strobes.
19
IV. Initiating Devices—Manual
—Intelligent/Analog Manual Station MSI-10B/20B
—Conventional Manual Station MS-51/501
—Reference US Coast Guard Approved Equipment List
Manual stations are recommended for use with automatic fire detectors. If a fire is observed
before automatic detector response, the manual activation of the station results in the same
system response as automatic detection. Manual stations should be installed throughout the
accommodation spaces, the service spaces, and the control stations.
NOTE: One manual station should be located at each exit. The stations should be readily
accessible in the corridors of each deck so that no part of the corridor is more
than 60 feet (20 meters) from another manual station.
V. Remote Annunciation
REMOTE ANNUNCIATORS
When the main control panel is located on the navigating bridge, remote annunciation is not
required by the US Coast Guard. However when the main control panel is located in a fire
control station which is not a constantly attended space, a supervised complete system status
annunciator is required.
Technical
20
VI. Detector Application and Spacing
1. SMOKE DETECTORS
2. THERMAL DETECTORS
1.1 Description and Function
2.1 Description and Function
Smoke detector is the generic name given
to either ionization type or photoelectric type
detectors. The ionization type responds to
both visible and invisible products of combustion, while the photoelectric type depends
on sensing visible smoke.
All thermal detectors respond only to excessive heat, which is assumed to be generated from a flaming fire. The detectors are
designed with different operating principles
as described below.
2.1.1 Fixed Temperature
1.2 Spacing
For average areas with smooth ceilings and
normal air movement, the maximum recommended spacing is 900 square feet or no
more than 30 feet between centers and 15
feet from a sidewall. In areas with higher air
movement, the detector spacing should be
reduced accordingly.
1.3 Application Limitations
1.3.1 On ceiling heights below 8 feet, the
possibility of unintentional alarms from
tobacco smoke does exist, especially in
areas where people might congregate. It is
recommended that smoke detectors in such
areas have their zones wired through alarm
confirmation module.
1.3.2 Smoke detectors should not be used
in areas where they could be subjected to
steam or moisture condensation such as in
galleys, laundries, etc. Thermal detectors
should be used in such areas.
The air temperature has to exceed the set
ratings of the devices in order to activate it.
The settings are 135° F, 190° F and higher
(on special order).
2.1.2 Rate Compensated
This type of thermal detector is similar to
the fixed temperature detector in operation,
but is compensated to eliminate the expected
thermal lag and, therefore, responds faster.
2.2 Spacing
Maximum approved spacing of thermal
detectors is as follows:
Type
Fixed Temperature (DT-11)
Fixed and
Rate of Rise
DT-135 CS, CL, and WP
Rate Compensated
DT-200 CS, CL and WP
Rate Compensated
Area Protected
(Square Feet)
Maximum
Distance from
Sidewalls (Feet)
625 (25 X 25)
12.5
2500 (50 X 50)
25
2500 (50 X 50)
25
2500 (50 X 50)
25
21
Detector Application and Spacing
3. PLANNING A FIRE DETECTION
SYSTEM
When planning a fire detection system,
make a choice of detector based on the
kinds of fires expected. The type and
quantity of fuel, possible ignition sources,
ranges of ambient conditions, and the value
of the property to be protected should all be
considered.
In general, heat detectors have the lowest
cost and false alarm rate, but are the slowest to respond. Since the heat generated by
small fires tends to dissipate fairly rapidly,
heat detectors are best used to protect
confined spaces, or directly over hazards
where flaming fires can be expected. They
are usually installed on a grid pattern at
their recommended spacing distances or at
reduced spacing for faster response. The
operating temperature of a heat detector
should be at least 25° F above the maximum expected ambient temperature in the
area protected.
Technical
22
Smoke detectors cost more than heat
detectors, but respond faster to fires. They
are better suited to protect large open
spaces than heat detectors because smoke
does not dissipate as rapidly as heat does
in the same size space. Smoke detectors
are either installed according to prevailing
air current conditions or on a grid layout.
Photoelectric smoke detectors are best
used in places where wire insulation or
other smoldering fires may be expected.
Ionization smoke detectors are useful where
fire would be expected to develop into a
small flaming condition soon after pyrolysis.
NFPA Standard 72 Chapter 5 has more
specific information on the installation of the
various types of detectors.
3.1 Detector Application
In view of the problems that can be expected with the misapplication and location of detection
devices aboard ship, the guidelines below should be followed when designing systems.
These tables list situations where the use of smoke detectors, ionization and photoelectric
should be avoided.
Moisture
Salt water spray
Corrosive atmospheres
Water spray
Live steam
Steam tables
Showers
Humidifiers
Heat treating
Dust or lint
Sawing, drilling and grinding
Pneumatic transport
Slop sinks
Humid outside air
Excessive tobacco smoke
Combustion Products And Fumes
Cooking equipment
Ovens
Dryers
Exhaust hoods
Metal cutting
Machining
Paint spray
Curing
Chemical fumes
Cleaning fluids
Engine exhaust
Gasoline forklift trucks
Diesel trucks and locomotives
Engines not vented to the outside
Welding and brazing
Heating element, abnormal
Dust accumulation
Improper exhaust systems
Incomplete combustion
3.1 MXL Intelligent/Analog Detectors
Photoelectric/Ionization and MXL Conventional Photoelectric/Ionization Detectors shall
not be installed in cargo holds and RO/RO spaces.
NOTE: Conventional weatherproof thermal detectors DT-135WP/DT-200WP must be used
in cargo holds and RO/RO spaces.
23
Areas to be Protected
Monitoring Machinery Spaces
— ACCOMMODATION SPACES (ION,
PHOTO)
Halls, dining rooms, lounges, and other
areas of this type with permanent walls,
corridors, sanitation facilities, cabins,
offices, infirmaries, and leisure rooms not
containing cooking appliances.
Because of the irregular shape of most
machinery spaces and the strong air
currents present, the number and type
of detectors used cannot be based on
the area protected, as is in the common
practice on land-based installations and
ship accommodation spaces. The best
design approach is to pick out all potential fire outbreak areas and place a fire
detector above each of them at deck
level. Areas of potential fire risk include
the following:
— SERVICE AREAS (ION, PHOTO, TEMP)
Service cabinets, radio rooms,
strong rooms, stores, workshops other
than machinery spaces, and similar
areas, including shafts going to them,
as well as life-vest storage areas.
— SPECIAL AREAS (ION, PHOTO, TEMP)
Closed areas for transport of special
materials.
— SAFETY STATIONS (ION, PHOTO,
TEMP)
Areas housing the radio equipment,
major navigation equipment, standby
generator and central installations.
— MACHINERY SPACES (ION, PHOTO,
TEMP)
Areas housing the propulsion unit,
boilers, liquid-fuel handling units,
stabilization equipment, ventilation and
air conditioning equipment, and similar
areas, including the shafts running to
them.
Technical
24
—
—
—
—
—
—
—
—
—
—
—
Auxiliary boiler front
Main boiler front
Fuel oil pressure pumps
Auxiliary generator sets
Main diesel engine fuel oil pumps
and injectors
Fuel oil purifiers
Lubricating oil purifiers
Fuel oil transfer pumps
Workshops
Electrical switchboards
Storerooms
Locate additional detectors with fairly
wide spacing to give general cover to
areas not containing special risk.
4. DETECTOR INSTALLATION
After the most suitable detector for the job is
selected, the location of the detector within
the space to be protected should be considered.
Spot type detectors are usually located on
the ceiling or side wall with the edge of the
detector located no closer than 4 inches
from the wall or ceiling. When heat detectors are installed at their listed spacing,
detection times are approximately equivalent to the operating time of standard 165°F
link-and-lever sprinklers. If faster response
is desired, reduce detector spacing. Also,
where ceiling heights exceed 16 feet, or
where ceiling construction is not smooth,
reduce spacings accordingly. Specific
information on the treatment of joisted,
beamed, and sloped ceilings can be found
in Chapter 5 of NFPA (2002 Edition).
When installing any type of heat detector,
consideration should be given to sources of
heat within the protected space which might
cause false alarms. For example, locate heat
detectors away from unit heaters and ovens
where surges of hot air might be expected.
The installation of smoke detectors is more
critical than for heat detectors because
smoke transport is strongly influenced by
the convective air flow patterns within the
protected area. For this reason, smoke
detectors are not assigned a listed spacing
by the testing laboratories other than a
maximum area coverage of 900 square feet
per detector. Although a grid pattern can be
used as a starting point, care must be taken
to appropriately locate the heating supply
registers and return air registers. Smoke
detectors should be located away from
turbulence caused by hot air outlets. The
location of the smoke detectors should favor
return air because the return air draws
smoke toward the detector and because air
velocity at the return tends to be lower.
Smoke stratification also should be considered when smoke detectors are installed.
Smoke may stratify below a ceiling due to
temperature gradients or air flow along the
ceiling. When stratification is a possibility,
smoke detectors can be installed with
alternate detectors at different levels.
The installation of ionization type detectors
is similar to that of smoke detectors since
fire gases tend to flow with smoke and are
similarly affected by convected flows within
the protected space. They also must be
located away from sources of oxidizable
gases or vapors; for example, away from
substances like aerosol sprays or hydrocarbon solvents, as these substances could
cause false alarms.
25
VII. Enclosures
1. SHOCK MOUNTING FOR
ENCLOSURES
All MME-3-CG enclosures are shipped with
shock mounting already in place.
28) on the upper rails that are attached to
the enclosure.
A US Coast Guard approval nameplate
must be affixed to the door of the enclosure.
3. Drill the two holes. Screw in the top bolts
(user supplied), leaving a small gap
between the wall and each top bolt.
2. INSTALLATION
4. Mount the enclosure/rail assembly on
the two bolts.
2.1 Model MME-3-CG
(Refer to Figure 28, page 28)
The Enclosure Kit Model MME-3-CG for
use in Coast Guard installations is
shipped as a complete package. To
mount the enclosure, consider the
following:
•
•
•
Mounting height for visual and
manual access to the keyboard/
annunciator
Weight and size of enclosure
Local mounting codes
To install the MME-3-CG:
1. Hold the empty enclosure against the wall
at a height that provides easy access.
2. Mark drill points on the wall in the center of
the two keyhole slots (marked "A" in Figure
BATTERIES
5. Mark drill points on the wall for the
remaining six holes in the rails. Drill the
holes.
6. Install bolts in the remaining two holes in
the top rails and four holes in the bottom
rails. Tighten all bolts securely.
7. To install the BP-61 battery set in the
enclosure, first remove the battery
bracket from the bottom left hand corner
of the enclosure by removing the 4 nuts
and washers. Place them to one side.
Install the battery. Replace the battery
bracket and secure it in place with the 4
nuts and washers. (Refer to Figure 27.)
NOTE: Flexible conduit or cable with
a maximum diameter of 3/4 inch and
a minimum length of 18 inches from a
rigid connection should be used to
house external wiring.
MPS-6
OR
MPS-12
Figure 27
MME-3-CG Battery Bracket Installation for BP-61 Battery Set
Technical
26
Enclosures
A
A
16-29/32”
0.31”
2-1/2”
40-5/8”
Figure 28
Mounting Diagram for MME-3-CG Enclosure
27
Enclosures
2.2 WIRING
In compliance with UL-864 all power limited
fire protective signaling conductors must be
separated a minimum of 1/4 inch from all of the
following items located within a control panel:
• electric light
• power
• Class 1 or non-power limited fire
protective signaling conductors
When installing power limited field wiring,
the installer must comply with NEC article
760-54, which states:
The fire alarm power-limited circuits are installed
using Types FPL, FPLR, FPLP or permitted
substitute cable, provided these power-limited
cable conductors extending beyond the jacket
are separated by a minimum of 0.25 in. (6.35
mm) or by a nonconductive sleeve or nonconductive barrier from all other conductors.
To meet the above requirements, the following
guidelines must be observed when installing
modules and wiring to this control panel.
WIRING ENTERING MAIN ENCLOSURE
Non-Power Limited Wiring
Wiring to the following MXL module terminations is considered non-power limited and
must enter the enclosure through the knockouts designated as non-power limited (Refer
to Figures 29 and 30). Wiring between the
knockouts and the module termination must
be in the shortest route and must not overlap any other wiring.
WIRING IN MAIN ENCLOSURE
Non-Power Limited Wiring
The following wiring is considered nonpower limited:
• from the MPS-6 or MPS-12
• from the batteries to the MMB
• from the MMB (P3) to the MOM-4 (P5)
When the TSP-40 optional printer is used,
the printer cable to the MOM-4 (P8) is
considered to be non-power limited. Route
the cable as shown in Figure 30.
WIRING ENTERING MAIN ENCLOSURE
Power Limited Wiring
Wiring to the following MXL module terminations is considered power limited and must
enter the enclosure through the knockouts
designated as power limited (Refer to
Figures 29 and 30). When installing modules in a MOM-2 or MOM-4, care must be
taken to determine whether the wiring
entering the enclosure is power limited or
non-power limited. Wiring between the
knockouts specified and the module termination must be in the shortest route and
must not overlap any other wiring.
TABLE 3
TABLE 2
Module
CRM-4*
CSM-4†
MPS-6
MPS-12
Termination
MO M-4
MO M-4
1, 2, 3
1, 2, 3
* CRM-4/CSM-4 modules must be installed in
the extreme left MOM module position. Install
the first CRM in position A, the second in
position B, etc., as shown in Figure 29.
† When the CSM-4 is used as Municipal Tie or
Releasing Service.
Technical
28
Module
Termination
ALD-2
ALD-2I
CSM-4*
CZM-4
MMB
MO M-4
MO M-4
MO M-4
MO M-4
TB1 (1-4)
TB2 (1-4)
TB3 (1-4)
TB4 (1-9)†
MO M-4
MO M-4
NIM-1W
REP-1
*
†
When the CSM-4 is used as Notification
Application Circuit or Leased Line.
Listed Class 2 or Power Limited Source.
Enclosures
POWER LIMITED
P2
P3
TB5
MMB
TB3
TB2
TB1
TB4
POWER LIMITED
POWER LIMITED
A
NON-POWER
LIMITED
P5
B
M
O
M
4
o
r
M
O
M
2
E
C
P8
NONPOWER
LIMITED
o
r
P5
D
M
O
M
4
F
M
O
M
2
I
G
P8
NONPOWER
LIMITED
H
P5
K
M
O
M
4
L
o
r
P8
M
O
M
2
M
POWER LIMITED
NON-POWER
LIMITED
+
_
+
_
MPS-6
OR
MPS-12
Figure 29
MXL Wiring When No TSP-40 Is Used
29
Enclosures
POWER LIMITED
TB5
TB3
MMB
1
9
TB2
TB1
TB4
POWER LIMITED
POWER LIMITED
M
O
M
4
P5
o
r
M
O
M
4
OPTIONAL
TSP-40
NONPOWER
LIMITED
P8
P5
P8
NONPOWER
LIMITED
M
O
M
2
M
O
M
2
NON-POWER
LIMITED
o
r
NON-POWER
LIMITED
+
_
+
_
MPS-6
OR
MPS-12
Figure 30
MXL Wiring When TSP-40 Is Used
Technical
30
Enclosures
INSTALL WIRING
MME-3-CG
Enclosure
Remove all system power before installation, first battery and then AC. (To power
up, connect the AC first and then the battery.)
Approved 3/4” Max
Flexible Metallic/
Nonmetallic Conduit Or
Cable (user supplied)
1. Wire in accordance with local codes and
NEC 760.
Compression Raintight
Fitting (user supplied)
2. Determine the location of knockouts in the
sides of the backbox where field wiring is
required.
Figure 31
Installing Compression Raintight Fitting
a. Drill a hole of appropriate size at each
knockout location.
b. Install a compression raintight fitting
(user supplied) at each knockout
location. Refer to Figure 31.
3. Pull all field wiring into the backbox. Do
not dress the wiring until the location of all
the equipment is known.
4. Install the wiring from the external AC power
source to the approximate location of the
power supply (MPS-6 or MPS-12). Add one
ferrite each to the hot, neutral and ground
wires as shown in Figure 32. Add ferrites
per Figure 32 for each MPS-6 or MPS-12 in
the system.
3.0"
AC CABLE
Ferrites supplied
with MME-3-CG
2.0"
Cable Preparation:
1. Strip the AC cable jacket approximately 30 inches.
2. Allow approximately 3 inches before winding each
individual wire (hot, neutral or ground) 4 times
through one of the 3 ferrites supplied with the
MME-3-CG.
3. Cut the excess wire to 2.0 inches as shown, then
wire to the appropriate terminal of the MPS power
supply.
4. Repeat steps 2 and 3 for the other 2 wires.
Figure 32
Installing Ferrites to Prevent Conducted Noise on AC Lines
31
VIII. Wiring Specifications
ALD-2I LOOP CONFIGURATION GUIDE
The ALD-2I loading graph on page 33 plots the ALD-2I Loop output current verses the total line
resistance. The results are used to determine the maximum line resistance, which can be
tolerated in conjunction with the number and types of devices connected to the loop. The current
for each device is listed on the graph. Note: This is device inrush current and must be used for
this calculation.
1.
Add the individual currents for each device that is to be connected to the loop.
2.
Locate the total ALD-2I current on the Y-axis and draw a horizontal line until it intersects
the curve.
3.
At the point of intersection draw a vertical line down until it intersects with the X-axis. It is at
this point that the graph will yield the total amount of line resistance that can be tolerated by
the loop.
The ALD-2I loading graph is to used to maximize the number of devices that can be installed on
the ALD-2I loop of an MXL system.
The vertical axis of the graph is milliamperes of current and the horizontal axis is ohms. When
you know either the total device current on an ALD-2I loop or the total resistance (both wires) of
that loop, the graph can be used to determine the other variable.
EXAMPLE #1:
The total line resistance of a loop is sixty (60) ohms. By using the graph you
will find that the total allowable device current is seventy-six (76) milliamperes.
EXAMPLE #2:
The total device current on a loop is going to be eighty (80) milliamperes. By
using the graph you find that the maximum allowable loop resistance is fiftyfive (55) ohms.
Technical
32
ALD-2I
Output
Current
(mA)
0
10
20
30
40
50
60
70
80
90
100
110
120
130
140
20
Dashed Line: ALD-2I Hardware
10
30
50
60
Total ALD-2I Line Resistance (ohms)
40
ALD-2I Loading Graph
70
80
Model
CZM Series
ID Series
TRI-60 Series
TRI-60D
IL Series
MSI-B6 Series
TRI-B6 Series
TRI-B6D
ICP/VCP Series
LIM-1
FP Series
TRI-S/R/D
90
100
Current
4.0 mA
0.5 mA
0.5 mA
1.0 mA
1.4 mA
1.4 mA
1.8 mA
2.3 mA
4.0 mA
0.5 mA
0.75 mA
1.6 mA
Wiring Specifications
33
WIRING SPECIFICATION FOR MXL
1. ALL WIRING MUST COMPLY WITH
LOCAL AND NATIONAL CODES.
2. Intermixing of field wiring cable types is
allowed.
3. Radiated and Conducted Emissions
Protection
A. For each circuit type described in
sections 4-8, add one clamp-on ferrite
having sufficient diameter to the cable
between the module and the knockout.
See Table 4.
TABLE 4
Clamp-On Ferrite
Manufacturer
Inside
Diameter
Stew ard
P/N 28A0434-0A2
0.210"
(5.35mm)
Stew ard
P/N 28A0592-0A2
0.189"
(4.80mm)
Stew ard
P/N 28A0593-0A2
0.266"
(6.75mm)
May be purchased from Digi-Key
Corporation, Thief River Falls, MN
56701, Phone (800) 344-4539
B. For each circuit type described in
sections 4-8, add one clamp-on ferrite
having sufficient diameter to the entire
bundle of cables outside the enclosure
approximately 12 inches from the
enclosure. See Table 5.
TABLE 5
Clamp-On Ferrite
Manufacturer
Inside
Diameter
Wurth Electronics
P/N 7427153
0.321"
(8.15mm)
Wurth Electronics
P/N 7427151
0.603"
(15mm)
Wurth Electronics
P/N 7427154
0.642"
(16.3mm)
Wurth Electronics
P/N 7427155
1.08"
(27.5mm)
May be purchased from Metuchen
Capacitors, Inc., Holmdel, NJ 07733,
Phone (800) 442-3014
Technical
34
C. For each power supply (MPS-6 or MPS-12)
add one ferrite each to the hot, neutral
and ground wires as shown in Figure 32,
page 31. Three ferrites are supplied with
the MME-3-CG enclosure.
4. For all Signaling Line Circuits (ALD-2I Loops)
A. All SLC circuits are rated Power Limited
and should be wired in accordance with
applicable codes.
B. The minimum wire size permitted is 18
AWG, maximum 14 AWG.
C. Multiple SLC circuits within the same
cable or metal raceway do not have to
be individually shielded.
D. The maximum line resistance:
Style 4 (Class B) circuit (all wires) is 100
ohms.
Style 6 (Class A) circuit, allowable
resistance is 100 ohms, 25 ohms per
line.
Refer to the ALD-2I Loop Configuration
Guide on page 32.
E. The maximum allowable line
capacitance for SLC circuits is:
0.4 UF Line to Line
0.8 UF Line to Ground
5. Non-addressable Initiating Device Circuits
(i.e., CZM-4, CZM-1, TRI Modules):
A. All Siemens Fire Safety initiating circuits
are rated Power Limited and should be
wired in accordance with applicable
codes.
B. The minimum wire size permitted is 18
AWG, maximum 14 AWG.
C. The maximum allowable line resistance
per module is as follows:
1. Model CZM-4:
Style B (Class B) - 70 ohms
maximum (both wires). If a Relay
Base is utilized, 40 ohms maximum.
Style D (Class A) - 70 ohms
maximum, 17.5 ohms per line. If a
Relay Base is utilized, 40 ohms
maximum, 10 ohms per line.
2. Model CZM-1 (No detector
accessories allowed):
Style B (Class B) - 35 ohms
maximum (both wires).
Style D (Class A) - 35 ohms
maximum, 8.7 ohms per line.
CZM-1 power wiring allowable.
presently compatible with modem
transmission.
7. MXL (XNET) Global Network Circuits (i.e.,
MXL to MXL):
A. Minimum wire size is 18 AWG,
maximum is 14 AWG.
B. The maximum allowable:
Style B (Class B) both wires,
maximum resistance is 4 ohms.
Line resistance is 80 ohms (both wires).
Style D (Class A) maximum
resistance is 1 ohm per wire.
Line capacitance is 0.33 UF Line to Line, 0.66
UF Line to Ground for each network pair.
3. Model TRI-Series* - minimum size
wire for supervised switch is 18
AWG, shielded, maximum line length
200 feet (TRI to switch).
Maximum Capacitance 0.04 UF Line
to Line.
Maximum Capacitance 0.08 UF Line
to Ground.
* Reference US Coast Guard Approved
Equipment List.
D. Parallel wiring (T-tapping) is not allowed
on any of the above.
6. MXL (MNET) Local Network Circuits (i.e.,
MXL to MXLR):
A. Minimum wire size permitted is 18 AWG,
maximum is 14 AWG.
B. The maximum allowable:
Line resistance is 80 ohms (both wires)
Line capacitance is 0.33 UF Line to Line
and 0.66 UF Line to Ground for
each network pair.
C. Parallel wiring (T-tapping) is not allowable
unless an REP-1 is utilized. Each REP-1
provides two Style 4 Circuits providing an
additional 80 ohms line resistance.
D. 120 ohm, 1/4 watt resistors must be
placed at each end of the network circuit
(MNET).
E. All MXL (MNET) local network wiring is
rated Power Limited and should be wired
in accordance with applicable codes.
F. The MXL (MNET) local network utilizes a
modified RS-485 (CSMA/CD). It is not
These parameters also apply to the
Foreign System Interface module
(RS-485).
C. Parallel Wiring (T-tapping) is not
allowable unless a REP-1 is utilized.
D. 120 ohm, 1/4 watt resistors must be placed
at each end of the XNET network pair.
E. All MXL (XNET) network wiring is rated
Power Limited and should be wired in
accordance with applicable codes.
F. Multiple MXL (XNET) network utilizes a
modified RS-485 (CSMA/CD). The
XNET can be configured with the
NIM-1W/1M modules to allow FSK data
transmission over properly configured
PBX or POTs lines.
8. Notification Appliance Circuits: (NAC)
A. All NAC circuits must use a minimum of
14 AWG wire.
B. Line resistance (all wires) is 3 ohms.
Line capacitance is 0.05 UF Line to Line
and 0.1 UF Line to Ground.
C. These circuits and their associated
wiring are rated Power Limited and
should be wired in accordance with
applicable codes.
D. Parallel wiring (T-tapping) is not allowed
on any NAC circuit.
E. When programmed for leased line
circuits, the external wiring resistance to
the monitoring location must be between
2K and 5K ohms. This line must be a
dedicated pair for fire alarm use only.
35
F. When programmed for municipal tie
circuits, the external wiring resistance to
the municipal box shall not exceed 22.5
ohms (both wires).
G. When programmed for releasing service
use, the maximum line resistance is 3
ohms (both wires).
NOTES:
1. When shielded cable is utilized, the wiring
shields should only be connected at the
point of origin, as specified.
2. Underground wiring is permissible if all
National and Local Code Requirements are met.
Technical
36
3. All underground wiring should be shielded
and use UL Listed / Approved (for fire
protection) Transient Protection Devices.
Metal raceway is recommended for
maximum reliability and dependability.
4. Overhead exterior wiring is not permitted.
5. Twisted pair wires standard twist is 6 turns
per foot.
6. For wire resistance information, refer to the
latest edition of the National Electric Code,
NFPA 70, or contact the manufacturer of the
wire in question.
US Coast Guard Approved
Equipment List (Cert No:161.002/22/7)
MXL
Marine Fire Detection System
1. MXL Control Panel/Enclosures
2. MXL System Modules
3. MXL Accessories
4. MXL Intelligent Initiating
Devices/Bases
5. MXL Notification Appliances/Devices
6. MXL Conventional Initiating
Devices/Bases
7. Previously Listed Equipment
P/N MXL-M-03
Rev-3-2/05
Pages 37 - 44
Fire Safety
8 Fernwood Road
Phone
(973) 593-2600
Fax
(973) 593-6612
37
1. MXL Control Panel/Enclosures
Model No.
Part No.
Description
Catalog No.
MME-3-CG
500-649569
MXL USCG Apprvd. Complete Enclosure
---
BB-55
500-693298
MXL 55 Amp Hour Battery Box
---
RCC-1
500-692533
Remote Control/Annunciator (MKB)
5039
2. MXL System Modules
Model No.
Part No.
Description
Catalog No.
MMB-2
SMB-2
MPS-6
MPS-12
MPS-12/220
MPS-12/240
PSR-1
500-894049
500-895955
500-490357
500-492209
500-492572
500-492573
500-891182
MXL Main Board
MXL-IQ Main Board
MXL 6 Amp. Power Supply
MXL 12 Amp. Power Supply
MXL 12 Amp. 220 VAC Power Supply
MXL 12 Amp. 240 VAC Power Supply
Remote Power Supply/Controller
(Requires MPS-6 Or MPS-12)
5000
5054
5000
5000
----5010
ALD-2I
CRM-4
CSM-4
CZM-4
LIM-1
MID-16
MKB-1
MOD-16
MOI-7
MOM-2
MOM-4
NET-4
NET-7
NIM-1W
PIM-1
PS-5A
PS-5N7
PTR-1
RCC-1
REP-1
TSP-40
500-891618
500-890401
500-890402
500-890488
500-892361
500-891747
500-890378
500-890828
500-892800
500-892766
500-890269
500-891181
500-091914
500-699103
500-691324
500-492369
500-892728
500-186248
500-692533
500-892954
500-890775
Analog Loop Drive (2 Circuits)
Relay Module (4 Relays)
Controllable Signal Module
Convention Zone Mod (4 Zones)
Short Circuit Line Isolator
Input Driver Mod. (16 Inputs)
Display/Annunciator with USCG MMB-2
Output Driver Mod. (16 Outputs)
Network I/O Interface Style 4 or 7
Expansion Cardcage (2 Slots)
Expansion Cardcage (4 Slots)
Style 4 Communication Module
Style 7 Communication Module
Global (X-NET) MXL Network Interface
Peripheral Interface Modules
Auxiliary 5V Power Supply Module
Local Network Interface Style 4/7
Power Transfer Relay
Remote Control/Annunciator (MKB)
RS-485 Network Repeater
Thermal Strip Printer, (Internal)
5005
5002
5001
5003
5040
5017
“ --- ”: Catalog Sheet is not available. However, an instruction sheet is provided with the shipped equipment.
Technical
38
--5008
5047
5043
5004
5012
5034
5072
5015
--5046
--5039
5051
5007
3. MXL Accessories
Model No.
BP-61
BTX-1
BTX-2
MPX-2
MXL-MPFO
TSP-40-PP
TSW-2
Part No.
175-387194
175-083897
175-083898
500-887821
500-692880
500-691888
500-692413
Description
Battery (15 AH, 24 VDC)
Battery (35 AH)
Battery (55 AH)
TRI/TRX Mounting Plate
Fiber Optic Mntg plt MOM Footprnt
TSP-40 Printer Paper
Panel Tamper Switch (UL 1076)
Catalog No.
3361
3361
3361
----5007
---
4. MXL Intelligent Initiating Devices/Bases
Model No.
AD-11P
AD-11PR
AD-11XPR
AD-3I
AD-3ILP
AD-3XRI
AD-3XRILP
ADBI-60
ADBX-11
*CZM-1B6
DB-11
DB-3S
DB-ADPT
DB-X11RS
DB-X3RS
EAD-3
FP-11
FPT-11
ILI-1
ILI-1A
ILI-1AH
ILI-1B
ILI-1BH
ILI-1H
ILP-1
ILPT-1
ISM-1
MSI-10B
MSI-20B
MSI-B6F
RA-ADB
TRI-B6M
TRI-D
TRI-R
TRI-S
Part No.
500-095656
500-095657
500-096062
500-086495
500-093268
500-086499
500-093269
500-090930
500-096181
500-895352
500-094151
595-381804
500-094187
500-096125
500-083248
500-686214
500-095112
500-095918
500-092725
500-093023
500-093031
500-093026
500-093033
500-093029
500-092650
500-092863
500-694122
500-893080
500-893081
500-895301
500-689948
500-894546
500-896226
500-896224
500-896225
Description
Air Duct Housing (For Series 11)
Air Duct Housing with Relay (For Series 11)
Air Duct Housing with Relay (For Series 11)
Air Duct Housing, Ion
Air Duct Photo Detector
Duct Housing with Relay for X&I Ion
Air Duct Photo Detector
Audible Base (For X or I Series)
Audible Base (For Series 11)
Detector Mounting Base for Series 11
Universal Base
Detector Base Adapter
Relay Base (For Series 11)
Relay Base (For X or I Series)
Weatherproof Air Duct Enclosure
Addressable FirePrint™ Fire Detector
Addressable Thermal Detector
Intelligent Ion Detector
Intelligent Ion, High Air Velocity
Intelligent Ion, High Air Velocity High Altitude
Intelligent Ion, Air Duct
Intelligent Ion, Air Duct High Altitude
Intelligent Ion, High Altitude
Intelligent Photo Detector
Intelligent Photo with 135 Thermal
Diode Barrier
Intelligent Man. Station, Single Action
Intelligent Man. Station, Double Action
Intelligent Metal Man. Station
Flush Trim Ring for Bases
Interface Module
Dual Input Module
Single Input with Relay
Single Input Module
Catalog No.
6178
6178
6178
6124
--6124
--6163
--5066
6173
----------6175
6176
6165
6165
6165
6165
6165
6165
6164
6164
--6183
6183
6188
--6170
6179
6179
6179
*Intrinisically Safe Application Requires Diode Barrier, DI-3IS Smoke Detector and Contact Devices.
39
5. MXL Notification Appliances/Devices
Model No.
BT-F
BT-SS
DSC
DSC-W
FER
FERW
FIB
FIBW
FWB-1
FWB-1W
FWB-2
FWB-2W
HN-EP
HNH-EP
U-EC
U-EC-W
U-EC-C
U-EC-MCS
U-EC-MCS-C
U-EC-MCS-W
U-HN
U-HN-W
U-HN-C
U-HN-MCS
U-HN-MCS-C
U-HN-MCS-W
U-HN-S110-1
U-HN-S110-1-W
U-HN-S110S-1
U-HN-S110S-1-W
U-HNH
U-HNH-W
U-HNH-C
U-HNH-MCS
U-HNH-MCS-C
U-HNH-MCS-W
U-HNH-S110-1
U-HNH-S110-1-W
U-HNH-S110S-1
U-HNH-S110S-1-W
U-MCS
U-MCS-W
U-MCS-AR
U-MCS-WE
U-MCS-6090V
U-MCS-6090V-W
U-MH
U-MH-W
Part No.
500-694372
500-694387
500-696872
500-696873
500-694493
500-695772
500-694496
500-695775
500-694494
500-695773
500-694495
500-695774
500-694290
500-694289
500-696850
500-696851
500-696924
500-699715
500-699716
500-699717
500-696512
500-696513
500-696935
500-699724
500-699725
500-699726
500-696692
500-696693
500-696694
500-696695
500-696534
500-696535
500-696946
500-699729
500-699730
500-699731
500-696714
500-696715
500-696716
500-696717
500-699701
500-699702
500-699746
500-648644
500-699703
500-699704
500-696558
500-696559
Description
Catalog No.
Bell
2537
Bell
2537
Dual Synchronization Control Module
2553
Dual Synchronization Control Module - White
2553
F-Series Extension Ring
2511
F-Series Extension Ring - White
2511
Indoor Surface Box
2511
Indoor Surface Box - White
2511
Weatherproof Back Box
2511
Weatherproof Back Box - White
2511
2511
2511
Explosion Proof Horn - "Lower Current"
2530
Explosion Proof Horn - "Higher dB"
2530
Electronic Chime
2556
Electronic Chime - White
2556
Electronic Chime - Ceiling
2556
Wall Chime w/Adapter Strobe
2556
Chime w/Adapter Strobe Ceiling
2556
Wall Chime w/Adapter Strobe - White
2556
Electro-Mechanical Horn - DC
2557
Electro-Mechanical Horn - DC / White
2557
Electro-Mechanical Horn - DC /Ceiling
2557
Electro-Mechanical Horn -DC w/Adapter Strobe
2557
Electro-Mechanical Horn -DC w/Adapter Strobe-Ceiling 2557
Electro-Mechanical Horn -DC w/Adapter Strobe-White 2557
Electro-Mech. Horn - DC w/110CD Strobe
2557
Electro-Mech. Horn - DC w/110CD Strobe-White
2557
Electro-Mech. Horn - DC w/110CD Sync. Strobe
2557
Electro-Mech. Horn - DC w/110CD Sync. Strobe-White 2557
Electro-Mechanical HIDB Horn
2557
Electro-Mechanical HIDB Horn-White
2557
Electro-Mechanical HIDB Horn-Ceiling
2557
Electro-Mechanical HIDB Horn w/Adapter Strobe
2557
Electro-Mech. HIDB Horn w/Adapter Strobe-White
2557
Electro-Mech. HIDB Horn w/Adapter Strobe-Ceiling
2557
Electro-Mech. HIDB Horn w/110CD Strobe
2557
Electro-Mech. HIDB Horn w/110CD Strobe-White
2557
Electro-Mech. HIDB Horn w/110CD Sync. Strobe
2557
Electro-Mech. HIDB Horn w/110CD Sync. Strobe-White 2557
Multicandela Selectable Strobe
2550
Multicandela Selectable Strobe-White
2550
Multicandela Selectable Strobe-Agent Release
2550
Multicandela Selectable Strobe-EVAC White
2550
Multicandela Selectable Strobe-Retro Plate Mount
2550
Multicandela Selectable Strobe-Retro Plate Mount-White
2550
Steady Tone Mini-Horn
2552
Steady Tone Mini-Horn-White
2552
Technical
40
5. MXL Notification Appliances/Devices (Cont.)
Model No.
U-MH-MCS
U-MH-MCS-W
U-MH-1G
U-MH-1G-W
U-MHT
U-MHT-W
U-MHT-MCS
U-MHT-MCS-W
U-MHT-1G
U-MHT-1G-W
U-MMT
U-MMT-W
U-MMT-AR
U-MMT-1G
U-MMT-1G-W
U-MMT-MCS
U-MMT-MCS-W
U-MMT-MCS-AR
U-S110-1
U-S110-1-W
U-S110S-1
U-S110S-1-W
Part No.
500-699711
500-699712
500-696556
500-696557
500-696582
500-696583
500-699709
500-699710
500-696580
500-696581
500-696606
500-696607
500-699759
500-606604
500-606605
500-699713
500-699714
500-699758
500-696658
500-696659
500-696660
500-696661
Description
Catalog No.
Steady Tone Mini-Horn w/Adapter Strobe
Steady Tone Mini-Horn w/Adapter Strobe-White
Steady Tone Mini-Horn 1Gang Mount
Steady Tone Mini-Horn 1 Gang Mount
Steady / Temporal Tone Mini-Horn / Strobe
Steady/Temporal Tone Mini-Horn / Strobe
Temporal Horn w/Adapter Strobe
Temporal Horn w/Adapter Strobe-White
Steady/Temporal Tone Mini-Horn 1 Gang Mount
Steady/Temporal Tone Mini-Horn 1 Gang Mount-White
8-Tone Electronic Horn
8-Tone Electronic Horn-White
8-Tone Electronic Horn Agent Release
8-Tone Electronic Horn single gang
8-Tone Electronic Horn single gang-White
8-Tone Electronic Horn w/Adapter Strobe
8-Tone Electronic Horn w/Adapter Strobe-White
8-Tone Electronic Horn w/Adapter Strobe Agent Release
110cd Strobe
110cd Strobe-White
110cd Sync. Strobe
110cd Sync. Strobe-White
2552
2552
2552
2552
2552
2552
2552
2552
2552
2552
2554
2554
2554
2554
2554
2554
2554
2554
2539
2539
2539
2539
6. MXL Conventional Initiating Devices/Bases
Model No.
Part No.
Description
Catalog No.
DB-11
DB11-SEAL
DB-3S
DB-ADPT
DB-SEAL
DF-30
DI-3
DI-A3
DI-A3H
DI-B3
DI-B3H
DI-3IS
500-094151
500-695622
595-381804
500-094187
500-692211
500-092600
500-081806
500-083263
500-086448
500-085081
500-086578
500-083117
Detector Base
DB-11 Seal for DB-11
Universal Base
Detector Base Adapter
Gasket (36 PER)
U.V. Flame for Use w/ DB-3S
Ionization Detector (Series 3)
Ionization Detector Hi Velocity
Ion. Det. Air Duct High Air Velocity High Altitude
Ionization Detector Air Duct
Ionization Detector Air Duct High Altitude
Ionization Detector Intr. Safe
6173
Manual
----Manual
6127
6119
6119
6119
6119
DT-11
DT-135CS
DT-200CS
DT-135CL
DT-200CL
DT-135WP
500-095430
500-017585
500-017586
500-017541
500-017542
500-087260
Thermal 135 Degree
Rate Comp./Fixed Temp 135°
Rate Comp./Fixed Temp 200°
Rate Comp./Fixed Temp LMP/Locking
Rate Comp./Fixed Temp LMP/Locking
Rate Comp./Fixed Temp Weatherproof
6174
6131
6131
6131
6131
6127
6119
41
6. MXL Conventional Initiating Devices/Bases (Cont.)
Model No.
Part No.
DT-200WP
DT-140EP
DT-190EP
500-087261
500-688976
500-688978
MS-51
MS-501
MSM-K
MSM-KD
MSM-K-WP
MSM-KD-WP
MSM-EXP
MSM-INST
MSM-BOX
PE-11
PE-11T
RR-11
500-620503
500-620522
500-698215
500-698216
500-698217
500-698218
500-698219
500-698220
500-698221
500-094150
500-095110
500-694622
Description
Rate Comp./Fixed Temp Weatherproof
Rate Comp./Fixed Temp 140° Expl. Proof
Rate Comp./Fixed Temp 190° Expl. Proof
** Other Temp Require Special Order **
Manual Stations N.O. SPST
Manual Stn. Double Action SPST
Metal Manual Station-Key
Metal Manual Station-Key-Double Action
Metal Manual Station-Key-Weather Proof
Metal Manual Sta-Key-Dbl Action-Weather Proof
Metal Manual Station-Explosion Proof
Metal Manual Station-Institutional
Surface Back Box
PE-11T Photo / Thermal Detector
Remote Relay Module
Catalog No.
6127
6127
6127
6183
6183
6184
6184
6184
6184
6184
6184
6184
6173
6173
6173
7. Previously Listed Equipment
Model No.
MXL-CG
CZM-1
MMB-1
NIM-1R
MKB-2
MKB-4
PAL-1
PIM-2
ADBI-60
DPH
FSB-1
ID-60I
ID-60IA
ID-60IH
ID-60P
ID-60PT
ID-60T-135
ID-60T-135
MSI-10
MSI-20
MT-SUR-BOX
MT-SUR-RIM
PMS-B6
PMS-B6-D
PMS-B6-EX
PMS-B6-INST
PMS-B6-WP
Part No.
500-192647
500-890736
500-890376
500-892953
500-892077
500-693519
500-692407
500-692406
500-090930
500-687639
310-083323
500-090259
500-090515
500-090514
500-090281
500-090282
500-090261
500-090261
500-091234
500-091670
500-693168
500-693169
500-698222
500-698223
500-698226
500-698227
500-698224
Description
MXL USCG Approved Complete Enclosure
MXL Main Board
Global (X-NET) MXL Network Interface
Display/Control Keyboard Hinged
Display Control Panel
U.L. Listed Parallel Printer MXL/CXL
Parallel Printer Interface Module
Audible Base (For X or I Series)
Horn, Double Projector
Flush Mount Backbox Horn/Strobe
Intelligent Ion Detector
Intelligent Ion High Air Velocity Detector
Intelligent Ion High Altitude Detector
Intelligent Photoelectric Detector
Intelligent Photoelectric Detector with Heat Sensor
Intelligent Rate Cmp./Fix -135 Thermal
Intelligent Thermal Detector
Intelligent Man. Station, Single Action
Intelligent Man. Station, Double Action
Mld. BKBX
Mld. EXTD
Intelligent Metal Man. StationKey
Intelligent Metal Man. StationKey-Dbl Action
Intelligent Metal Man. StationExplosion Proof
Intelligent Metal Man. StaInstitutional
Intelligent Metal Man. StationKey-Weather Proof
Technical
42
Catalog No.
--5006
5000
5026
--5048
5044
6163
--2511
----------6157
--6183
6183
2520
2520
-----------
7. Previously Listed Equipment (Cont.)
Model No.
Part No.
PMS-B6-WPD
PMS-BOX
SBL
SFP-1
SPH
TRI-B6
TRI-B6D
TRI-B6R
WBK-3
BACW-6
BACW-10
BT-LC
MBDC-6
MBDC-10
MT
MT4
MTS15/75
MTS4-15/75
500-698225
500-698221
500-692391
500-687796
500-687638
500-893286
500-893220
500-893180
310-025271
500-688442
500-688443
500-694382
500-688448
500-688449
500-693130
500-693131
500-693134
500-693135
S15/75-STD
U-EC-S17
U-EC-S17C
U-EC-S17S
U-EC-S30
U-EC-S30S
U-HN-S17
U-HN-S17S
U-HN-S30
U-HN-S30W
U-HN-S60
U-HN-S60S
U-HN-S75
U-HN-S75S
U-HNH-S17-W
U-HNH-S17S-W
U-HNH-S30-W
U-HNH-S30S
U-HNH-S30S-W
U-HNH-S60-W
U-HNH-S60S-W
U-HNH-S75-W
U-HNH-S75S-W
U-MH-S17-W
U-MH-S17S-W
U-MH-S30-W
U-MH-S30S-W
500-693112
500-696852
500-696925
500-696854
500-696856
500-696858
500-696514
500-696516
500-696518
500-696519
500-696522
500-696524
500-696526
500-696528
500-696537
500-696539
500-696541
500-696542
500-696543
500-696545
500-696547
500-696549
500-696551
500-696561
500-696563
500-696565
500-696567
Description
Catalog No.
Intelligent Metal Man. StaKey-Dbl Act-WeatherProof
Surface Back Box
Surface Box
Horn, Semi-flush Mounting Plate
Horn, Single Projector
Single Input Module
Dual Input Module
Single Input with Relay
Weatherproof Mounting Box
Polarized Bell 6" 120 VAC
Polarized Bell 10" 120 VAC
Bell
6" 24 VDC Motor Bell
10" 24 VDC Motor Bell
Multitone Signal
Multitone Signal (4" Sq. Electrical Box)
15/75CD Non Sleeping, Clg & Wall
15/75CD Non Sleeping, Clg & Wall
(4" Sq. Electrical Box)
Strobe 15/75 CD
Electronic Chime/Strobe
Electronic Chime/Strobe - Ceiling
Electronic Chime/Sync. Strobe
Electronic Chime/Strobe
Electronic Chime/Sync. Strobe
Electro-Mechanical Horn / Strobe
Electro-Mechanical Horn / Sync. Strobe
Electro-Mechanical Horn / Strobe-White
Electro-Mechanical HIDB Horn / Strobe
Electro-Mechanical HIDB Horn / Sync. Strobe
Electro-Mechanical HIDB Horn / Strobe-White
Electro-Mechanical HIDB Horn / Sync. Strobe
Electro-Mechanical HIDB Horn / Sync. Strobe-White
Steady Tone Mini-Horn / Strobe-White
Steady Tone Mini-Horn / Sync. Strobe-White
----2520
2511
--6159
6159
6159
—
2515
2515
2537
2513
2513
2521
2521
2521
2521
2520
2544
2544
2544
2544
2544
2541
2541
2541
2541
2541
2541
2541
2541
2541
2541
2541
2541
2541
2541
2541
2541
2541
2543
2543
2543
2543
43
7. Previously Listed Equipment (Cont.)
Model No.
U-MH-S60S-W
U-MH-S75-W
U-MH-S75S-W
U-MHT-S17-W
U-MHT-S17S-W
U-MHT-S30
U-MHT-S30-W
U-MHT-S30S-W
U-MHT-S60-W
U-MHT-S60S-W
U-MMT-S17-W
U-MMT-S17S-W
U-MMT-S30-W
U-MMT-S30S-W
U-MMT-S60S
U-S17
U-S17-W
U-S17S
U-S17S-W
U-S30
U-S30-W
U-S75
DF-1
DI-4A
DI-6
LA-1
PB-2400
PB-1191
PE-3
PE-3T
S121
S122
S-2406
TF1
Part No.
500-696571
500-696573
500-696575
500-696585
500-696587
500-696588
500-696589
500-696591
500-696593
500-696595
500-696609
500-696611
500-696613
500-696615
500-696619
500-696460
500-696461
500-696462
500-696463
500-696464
500-696465
500-696472
500-016425
500-025402
500-185487
500-690052
500-089949
500-095076
500-091540
500-091920
500-085145
500-086476
500-089951
500-690053
Description
Catalog No.
Steady / Temporal Tone Mini-Horn / Strobe-White
Steady / Temp. Tone Mini-Horn / Sync. Strobe-White
Steady / Temporal Tone Mini-Horn / Strobe-White
Steady / Temp. Tone Mini-Horn / Sync. Strobe-White
8-Tone Electronic Horn / Strobe-White
8-Tone Electronic Horn / Sync. Strobe-White
8-Tone Electronic Horn / Strobe-White
8-Tone Electronic Horn / Sync. Strobe-White
8-Tone Electronic Horn / Sync. Strobe
Stand Alone Strobe
Stand Alone Strobe-White
Stand Alone Sync. Strobe
Stand Alone Strobe
Stand Alone Strobe
Infra-Red Flame Det. User w/ DB-3S
Ionization Detector (Series 4)
Ionization Detector Adjustable
Adjustment Lamp for Lens Aln.
Proj. Beam Smk. Det. Trns/Rec.
Linear Beam Detector (P/N 315-095424-2)
Photoelectric Smoke Detector
Photoelectric Smoke w/ 135 Heat
Infra-Red Solar Blind Flame Det.
Infra-Red (Non Solar Blind)
I.R. Flame Detector, Dual Sensor
Test Kit w/ Three Filters
2543
2543
2543
2543
2543
2543
2543
2543
2543
2543
2542
2542
2542
2542
2542
--------------6120
6113
6126
6149
6149
6171
6160
6160
6144
6144
6150
6149
Graphic Annunciators (L.E.D.)
LD-0, LD-1, LD-2, LD-3, LD-4, LD-00, LD-5, LD-10, LD-20, LD-30, LD-40, G1212, G1818
MXL 19" Rack Mounted Modules
Model No.
ACM-RK
CABLES-RK
MKB-3
MMB-RK
MOM-RK
MPS-RK
MXL-RK
MXL-RK1
TSP-RK
VSR-RK
Part No.
500-893042
500-893044
500-893506
500-893047
500-893050
500-893045
500-893046
500-693470
500-893048
500-893043
Description
ACM-1 19" Rack Bracket
Rack Mount Cable Kit
Display/Controller for Rack Mount
MMB/PSR 19" Rack Mount Bracket
MOM/OMM 19" Rack Mount Bracket
MPS-6/12 19" Rack Mount Bracket
MKB-3 19" Rack Mount Bracket
All Side Panels (6ft.)
TSP-40 10" Rack Mount Bracket
VSM/VLM 19" Rack Mount Bracket
Technical
44
Installation Instruction No.
P/N 315-093402-3
P/N 315-093402-3
P/N 315-093402-3
P/N 315-093402-3
P/N 315-093402-3
P/N 315-093402-3
P/N 315-093402-3
P/N 315-093402-3
P/N 315-093402-3
P/N 315-093402-3
_
+
_
+
+
+
+
_
+
_
2
3
GROUND
120 VAC (NEUTRAL)
120 VAC, 60Hz (HOT)
5
6
1
4
3
2
SECONDARY
POWER
120 VAC,
50/60 H
TSP-40
PRINTER
CONNECT TO
CLASS 2/POWER
LIMITED ONLY
ALARM
NOT USED
WITH ALD-2I
87654321
16
16
15
14
13
12
11
TB4
P10
TB5
CSM-4
CZM-4
P7
TB6
P5
TB3
+
+
16
15
14
13
12
11
10
9
8
7
6
5
4
3
2
1
16
15
14
13
11 _
_
12
10
9
8
7
6
5
4
3
2
1
EOL
SUPV SHOWN
STYLE Z
(CLASS A)
POWER
LIMITED
EOL DEVICE,
P/N 140-820380
SUPV SHOWN
STYLE Y
(CLASS B)
POWER
LIMITED
_
+
BELL
DO NOT USE
DO
NOT
USE
DO
NOT
USE
_
BELL
+
SUPV SHOWN
STYLE Z (CLASS A)
POWER LIMITED
NOTE:
VISUAL ALARM MUST ACCOMPANY
AUDIBLE ALARMS OTHER THAN BELLS
DO NOT USE
EOL
NOT
USED
DO
NOT
USE
_
+
NAC CIRCUITS
POLARITY SHOWN IN
SUPERVISORY STATE
2K-5K OHM MAX
POWER LIMITED
UNSUPERVISED
LEASED LINE
EOL
POLARITY
SHOWN IN
SUPERVISORY
STATE
CRM-4 relay coils are supervised when not energized; contacts are not.
For alternate configurations using CZM-1B6s, consult Technical Support.
The following terminals on the PSR-1 (P/N 315-090911) are power limited: TB1 (1-6), TB4 (1-4), and TB3 (1-4).
When the CSM-4 is configured for Municipal Tie or Releasing Service, terminals 1 and 4 and/or terminals 9 and
12 are non-power limited. In all other applications, the CSM-4 is power limited on all terminals.
10. The MXL modules indicated with an asterisk in the Table on page 46 are rated power limited on all terminals.
11. For Compatible Notification Appliances, refer to the US Coast Guard Approved Equipment List in the Marine
Smoke Detection Systems Manual for the MXL Control Panel, P/N 315-092382.
15
16
TB3
14
15
11
10
9
8
10
9
8
6
5
7
NOT USED
WITH CZM-4
CONTACTS
SHOWN
DE-ENERGIZED
4
3
2
P8
TB7
MOM-4
6.
7.
8.
9.
1
7
6
5
4
3
2
13
TB5
DO
NOT
USE
UNSUPERVISED
RELAY CONTACT
RATING 2A
30 VDC/120 VAC
RESISTIVE
16
16
1
15
15
12
ALD-2I
14
CRM-4
13
TB4
MOM-4
12
11
10
9
8
7
6
5
4
3
2
P7
TB6
P5
14
13
12
TB1
87654321
NOTES:
1. For Installation Instructions for the MXL modules refer to the Table on page 46.
2. Waterflow Alarm must be CSG-M configured to at least one non-silenceable NAC.
3. Refer to the MXL/MXLV OPERATION, INSTALLATION, AND MAINTENANCE MANUAL
(P/N 315-092036) for minimum NFPA configurations and additional information.
4. Use the following batteries: BTX-1, BTX-2, or BP-61.
5. The CSM-4 module is capable of the following functions:
Leased Line Circuit
Supervised Local Energy Auxiliary Trip (Municipal Tie)
Supervised Notification Appliance Circuit
Releasing Service (per NFPA 13)
MPS-6/-12
POWER
SUPPLY
1
7
8
Power Transfer Relay
MAIN
POWER
120 VAC,
50/60 H
TB4-1
TB4-2
P10
AVAILABLE
CONFORMANCE
WITH STYLE 4
PTR-1
87654321
P6
MOM-4
1
P8
TB7
EOL
11
10
14
13
12
_
_
TB2
CSM-4
** OPERATES IN FULL
CONFORMANCE
WITH STYLE 6
* OPERATES IN FULL
P5
CONTACTS
SHOWN IN
NORMAL
STATE
NOT USED
16
15
14
13
12
11
10
9
8
+
+
7
9
6
8
5
4
3
2
7
SUPV
SHOWN
STYLE D
(CLASS A)
POWER
LIMITED
_
+
1
6
5
4
SUPV
SHOWN
STYLE B
(CLASS B)
POWER
LIMITED
EOL
87654321
123456
TROUBLE
UNSUPERVISED
CONTACT
RATED 2A,
30 VDC/120 VAC
RESISTIVE
SUPERVISORY
NOT USED
WITH ALD-2I
11
10
9
8
7
6
5
_ 4
3
2
1
12
P4
TB4-3
SUPV SHOWN
STYLE Y (CLASS B)
POWER LIMITED
NAC-1
BELLS IN CREWS’ QUARTERS
POLARITY SHOWN
IN SUPERVISORY STATE
BELL
_
+
TB1
87654321
PRINTER
PROGRAMMER
TB4-4
TB4-5
TB4-6
TB4-7
TB4-8
TB4-9
_
SUPV
SHOWN
STYLE 4
(CLASS B)
POWER
LIMITED
_ 3
TB2
21
TSW-2
POWER LIMITED
TAMPER
SWITCH
P9
MMB-2
MAIN
BOARD
TB5-1
+
BELL
SUPV SHOWN
STYLE Z (CLASS A)
POWER LIMITED
EOL DEVICE 2.2K, 1/2W
P/N 140-820380
NAC-2
SEE MMB-2 INSTALLATION
INSTRUCTIONS
(P/N 315-095097) FOR
CLASS A WIRING
CZM-1 POWER
POWER LIMITED
CLASS B WIRING SHOWN
+ 1
+ 2
21
TO PSR-1
TB1-1
TB1-2
TB1-3
TB1-4
TB1-5
TB2-1
_
_
+
+
_
+
SUPV
SHOWN
STYLE 6
(CLASS A)
POWER
LIMITED
LOOP 2
-24V
+24V
_
TB5-3
TB5-2
TB5-4
TB2-3
ANALOG
LOOP 1
TB2-4
TB2-2
TB5-5
TB5-6
TB5-7
TB5-8
TB5-9
TB5-10
TB5-11
TB5-12
P14
TB3-1
ANALOG
LOOP 2
87654321
ZONE 4
DO NOT USE
EOLR
120 OHMS,
1/4W, 5%
P/N 140-820150
TO MOM-4, MOM-2
TB3-3
TB3-2
TB3-4
POWER
TO MOM-4
_
+
POWER
BATTERY
SEE NOTE 4
_
+ +
+
_
P3
P2
P1
CONNECTION DIAGRAM
ZONE 3
NON POWER LIMITED
SUPV SHOWN
CLASS B**
POWER
LIMITED
_
_
_
+
321
LOOP 1
SUPV
SHOWN
CLASS A*
POWER
LIMITED
BATTERY
12
USE EITHER P1
FOR MPS-6 OR
P14 FOR MPS-12
21
Coast Guard Typical MXL
ZONE 2
HORN
ZONE 1
STROBE
12
45
Technical
46
24V unfiltered, FWR†
1A max
30 VDC
66mA max
24.5 VDC max
180mA max
24.5 VDC max
45mA max
1.5mA max
1A max
30 VDC
66mA max
20-24.5 VDC
4mA max
18-24.5 VDC
4mA max
12mA max
MMB-2 / SMB-2
CZM-1/1B6 Power
ALD-2I
CZM-4
CZM-1B6
3-9mA max
12mA max
315-091464-10
315-090853-5
315-090854-14
315-095355-6
315-090726-10
315-092135-8
315-091860-5
315-090856-6
315-090830-6
315-092799-6
315-092777-8
315-090852-12
315-090334-6
ALD-2I*
CRM-4
CSM-4†
CZM-1B6*
CZM-4*
LIM-1*
MID-16
MKB-1
MOD-16
MOI-7*
MOM-2
MOM-4
MPS-6
*Power limited on all terminals.
†See Note 9 on page 45.
Installation
Instructions
M XL
Modules
MPS-12
MPS-12/220
MPS-12/240
NET-4*
NET-7*
NET-7M
NIM-1W*
PS-5A
PS-5N7*
PSR-1
RCC-1/1F*
REP-1*
TSP-40
MXL
Modules
Installation
Instructions
315-092030-6
315-092820-7
315-092820-7
315-090909-4
315-091914-10
315-094531-5
315-099165-5
315-092367-7
315-092729-11
315-090911-20
315-095364-6
315-092686-5
315-090776-6
4 ohms max*
(10 CZM-1/1B6s max)
3 ohms max
PE-11
PHOTOELECTRIC
SMOKE
30
30
30
50
50
50
50
FEET
BET WEEN
DET ECT ORS
15
15
15
25
25
25
25
FEET
T O WALL OR
PART IT ION
DB-11
DB-3S + DB-ADPT
AD-11P/11PR
PE-11/11T*
315-094198-9
315-094198-9
315-095659-9
315-095429-3
315-095429-3
*M ay use up t o 30 det ect ors of any t ype.
**O nl y one PBA-1191, and no addi t i onal devi ces, can be
connect ed t o a CZM -4 i ni t i at i ng zone.
DB-11
DB-3S + DB-ADPT
315-093234-6
315-086591-7
DT-11*
315-081943-18
DB-3S
AD-3I/3ILP
AD-3RI/3RP
DI-A3/A3H*
DI-B3/B3H*
315-081943-18
Installation Instructions
DB-3S
Base
DI-3/3H*
Detector
C ompatible D etectors for C ZM -4
NOTE: These maximum recommended spacings are based on
smooth ceilings and moderate air flow. In other cases, decrease
detector spacing accordingly. Refer to Chapter 5 of NFPA 72 (2002
Edition) for guidance.
DI-3
DI-3IS
DT-140/190XP
HEAT RATE COMP
IONIZATION
DT-135/200WP
HEAT RATE COMP
IONIZATION
DT-11
DT-135/200CL
HEAT RATE COMP
MODEL
HEAT RATE COMP
T YPE
2.5K ohms
(includes line and load)
22.5 ohms max
(including load)
3 ohms max
35 ohms max
70 ohms max
100 ohms max with ID Series devices;
50 ohms max with IL/FP Series devices
3-9mA max
† FWR = Full Wave Rectified
220-320mA
(momentary)
L i n e I mp e d a n c e
100 ohms max with ID Series devices;
50 ohms max with IL/FP Series devices
For Proprietary Burglary Application (1076) use a TSW-2
tamper switch to monitor the main enclosure. Monitor each
TRI-S/R/D related to this application (1076) for 24 hours by
a listed motion detector to prevent tampering.
CSM-4
Leased Line
*See Note 7
CSM-4
Municipal
Tie
1.5A max
12mA max
MMB-2 / SMB-2
NAC Loop
30 VDC
66mA max
CSM-4
NAC Loop
Ala rm
30 VDC
66mA max
S u p e r v is o r y
MMB-2 / SMB-2
Analog Loop
E le c t r ic a l R a t in g s
(All ratings are per zone, per loop, or per circuit)
AD-3ILP
AD-3XRILP
DB-3S, DB-X3RS
ILP-2**(d)†
—
—
—
315-096242-4
315-094547-3
315-095302-5
315-093329-7
315-093234-6
315-093235-5
315-093336-1
315-095028-5
315-093234-6
315-093235-5
315-092594-8
315-093234-6
315-093235-5
315-092594-8
315-095921-8
315-095921-8
315-095921-8
315-095921-8
315-095387-4
315-095921-8
315-095921-8
315-095921-8
315-095921-8
315-095659-9
Installation
Instructions
315-095355-6
DB-11
DB-3S + DB-ADPT
AD-11P
PE-11/11T
315-094198-9
315-094198-9
315-095659-9
315-095429-3
315-095429-3
315-093234-6
315-086591-7
315-081943-18
315-081943-18
Installation Instructions
t h e C Z M -1 / -1 B 6 .
M a y u s e u p t o 1 5 d e t e c t o rs o f a n y t y p e .
* D o n o t u s e A D -1 1 P R o r d e t e c t o r-o p e ra t e d a c c e s s o ri e s w i t h
DB-11
DB-3S + DB-ADPT
DT-11
DB-3S
AD-3I/3ILP
AD-3RI/3RP
DI-A3/A3H
DI-B3/B3H
Base
DB-3S
DI-3/3H
Detector
C o mp a t i b l e D e t e c t o r s f o r C Z M - 1 / - 1 B 6 *
*The FP-11 is only com pat ible w it h M XL R ev. 10. 0 or
great er f irm w are.
**The I LP-2 i s onl y com pat i bl e wi t h M XL Rev 8. 0 or
great er f i rm ware.
†When t he CSG -M i s conf i gured, t he DUCT appl i cat i on
m u st b e se l e ct e d w h e n t h e d e vi ce i s u se d i n a n a i r d u ct
h o u si n g o r i n a sp o t d u ct a p p l i ca t i o n .
TRI-S/D/R
TRI-B6M
MSI-B6F
MSI-10B/-20B
ILT-1
—
DB-3S, DB-X3RS
ILP-2**
ILPT-1
AD-3ILP
AD-3XRILP
DB-3S, DB-X3RS
AD-3I
AD-3XRI
DB-3S, DB-X3RS
DB-11, DB-X11RS
DB-3S + DB-ADPT
DB-X3RS + DB-ADPT
ADBI-60 + DB-ADPT
DB-3S, DB-X3RS
DB-11, DB-X11RS
DB-3S + DB-ADPT
DB-X3RS + DB-ADPT
ADBI-60 + DB-ADPT
AD-11P/11XPR
—
Base
ILP-1 (d)
ILP-1
ILI-1B/1BH
ILI-1/1H/1A/1AH
FPT-11*
FP-11*(d)†
FP-11*
Compatible
Devices
CZM-1B6
C o mp a t i b l e I n i t i a t i n g D e v i c e s f o r
AL D -2 I, M M B -2 a n d S M B -2
TYPICAL LARGE MXL SYSTEM
CONFIGURATION
A. Compliance with Safety of Life at Sea (SOLAS) using USCG Approved Equipment.
B. POWER
Although the required two sources of power are available from the main and standby
generators, optional short term battery backup is also acceptable.
C. AUDIBLE ALARMS
1. It is specified that bells are pulsed in order to distinguish fire signals from steady bells of
the emergency alarms.
2. The SOLAS requirement of sounding bells in the crew's spaces if the alarm signals at the
control panel have not received attention within 2 minutes.
TYPICAL SMALL MXL SYSTEM
CONFIGURATION
Small cruise ships require six zones to cover the accommodation spaces. The low deck heights
of 7 feet 3 inches increases the possibility of smoke detectors alarming to tobacco smoke. The
use of the alarm verification will tend to eliminate this concern by not reporting, but recording first
alarm and requiring the device to alarm a second time within a time frame adjustable to one minute.
In the event of a true fire, it would be undesirable to have manual station activation so delayed.
Therefore, the manual stations are connected to their own CZM-4 zone not under the influence
of alarm verification.
NOTE:
NOTE:
When designing Fire Control Systems for
various types of vessels, the designer should
be aware of the required vessel type, domestic and SOLAS regulations applicable for that
vessel.
In addition to USCG approved initiation
devices listed on page 46, other approved
contact devices such as sprinkler waterflow
switches and flood alarms may be connected
to CZM-4 modules.
47
Fire Safety
8 Fernwood Road
Phone
(973) 593-2600
Fax
(973) 593-6612
P/N 315-092382-6

Siemens MXL Marine Fire Detection System

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