Page 1
AM2020/AFP1010
with SIB-NET
www.PDF-Zoo.com
Document 15094
11/20/95 Rev:
P/N 15094: C ECN 95 -210
C
Page 2
Installation Precautions Adherence to the following will aid in problem-free installation with long-term reliability:
WARNING -
this fire alarm control panel.
servicing. Control unit and associated equipment may be damaged by
removing and/or inserting cards, modules, or interconnecting cables
while the unit is energized. Do not attempt to install, service, or operate
this unit until this manual is read and understood.
CAUTION -
ensure proper system operation, this product must be tested in accordance with NFPA 72-1993 Chapter 7 after any programming operation
or change in site-specific software. Reacceptance testing is required
after any change, addition or deletion of system components, or after any
modification, repair or adjustment to system hardware or wiring.
All components, circuits, system operations, or software functions
known to be affected by a change must be 100% tested. In addition, to
ensure that other operations are not inadvertently affected, at least 10%
of initiating devices that are not directly affected by the change, up to a
maximum of 50 devices, must also be tested and proper system operation verified.
This system meets NFPA requirements for operation at 0-49
and at a relative humidity of 85% RH (non-condensing) @ 30
However, the useful life of the system's standby batteries and the
electronic components may be adversely affected by extreme temperature ranges and humidity. Therefore, it is recommended that this
system and its peripherals be installed in an environment with a
nominal room temperature of 60-80
Verify that wire sizes are adequate for all initiating and indicating
device loops. Most devices cannot tolerate more than a 10% I.R. drop
from the specified device voltage.
Fire Alarm System Limitations
Several different sources of power can be connected to
Disconnect all sources of power before
System Reacceptance Test after Software Changes:
O
F.
While installing a fire alarm system may make lower insurance rates
possible, it is not a substitute for fire insurance!
To
O
C
O
C.
Like all solid state electronic devices, this system may operate
erratically or can be damaged when subjected to lightning induced
transients. Although no system is completely immune from lightning
transients and interferences, proper grounding will reduce susceptibility.
Overhead or outside aerial wiring is not recommended, due to an
increased susceptibility to nearby lightning strikes.
Technical Services Department if any problems are anticipated or
encountered.
Disconnect AC power and batteries prior to removing or inserting
circuit boards. Failure to do so can damage circuits.
Remove all electronic assemblies prior to any drilling, filing, reaming,
or punching of the enclosure. When possible, make all cable entries from
the sides or rear. Before making modifications, verify that they will not
interfere with battery, transformer, and printed circuit board location.
Do not tighten screw terminals more than 9 in-lbs. Over tightening
may damage threads, resulting in reduced terminal contact pressure
and difficulty with screw terminal removal.
This system contains static-sensitive components. Always ground
yourself with a proper wrist strap before handling any circuits so that
static charges are removed from the body. Use static suppressive
packaging to protect electronic assemblies removed from the unit.
Follow the instructions in the installation, operating, and programming manuals. These instructions must be followed to avoid damage to
the control panel and associated equipment. FACP operation and
reliability depend upon proper installation.
Consult with the
An automatic fire alarm system - typically made up of smoke detectors,
heat detectors, manual pull stations, audible warning devices, and a fire
alarm control with remote notification capability can provide early warning of a developing fire. Such a system, however, does not assure
protection against property damage or loss of life resulting from a fire.
Any fire alarm system may fail for a variety of reasons:
Smoke detectors may not sense fire where smoke cannot reach the
detectors such as in chimneys, in walls, or roofs, or on the other side of
closed doors. Smoke detectors also may not sense a fire on another
level or floor of a building. A second floor detector, for example, may not
sense a first floor or basement fire. Furthermore, all types of smoke
detectors - both ionization and photoelectric types, have sensing limitations. No type of smoke detector can sense every kind of fire caused by
carelessness and safety hazards like smoking in bed, violent explosions,
escaping gas, improper storage of flammable materials, overloaded
electrical circuits, children playing with matches, or arson.
IMPORTANT!
Smoke detectors must be installed in the same
room as the control panel and in rooms used by the system for the
connection of alarm transmission wiring, communications, signaling, and/or power.
may damage the alarm system, crippling its ability to report a fire.
FCC Warning
WARNING: This equipment generates, uses, and can radiate radio
frequency energy and if not installed and used in accordance with the
instruction manual, may cause interference to radio communications. It has
been tested and found to comply with the limits for class A computing
device pursuant to Subpart B of Part 15 of FCC Rules, which is designed
to provide reasonable protection against such interference when operated
in a commercial environment. Operation of this equipment in a residential
area is likely to cause interference, in which case the user will be required
to correct the interference at his own expense.
www.PDF-Zoo.com
If detectors are not so located, a developing fire
Audible warning devices such as bells may not alert people if these
devices are located on the other side of closed or partly open doors or
are located on another floor of a building.
A fire alarm system will not operate without any electrical power. If AC
power fails, the system will operate from standby batteries only for a
specified time.
Rate-of-Rise heat detectors may be subject to reduced sensitivity
over time. For this reason, the rate-of-rise feature of each detector
should be tested at least once per year by a qualified fire protection
specialist.
Equipment used in the system may not be technically compatible with
the control. It is essential to use only equipment listed for service with
your control panel.
Telephone lines needed to transmit alarm signals from a premise to a
central monitoring station may be out of service or temporarily disabled.
The most common cause of fire alarm malfunctions, however, is
inadequate maintenance. All devices and system wiring should be
tested and maintained by professional fire alarm installers following
written procedures supplied with each device. System inspection and
testing should be scheduled monthly or as required by National and/or
local fire codes. Adequate written records of all inspections should be
kept.
Canadian Requirements
This digital apparatus does not exceed the Class A limits for radiation
noise emissions from digital apparatus set out in the Radio Interference
Regulations of the Canadian Department of Communications.
Le present appareil numerique n'emet pas de bruits radioelectriques
depassant les limites applicables aux appareils numeriques de la classe
A prescrites dans le Reglement sur le brouillage radioelectrique edicte par
le ministere des Communications du Canada.
PRECAULG.PM5 11/02/95
Page 3
Table of Contents
Section 1 Installing the Serial Interface Board for the AM2020/AFP1010 ........................................................ 4
Section 1.1 Introduction .................................................................................................................... 4
Table 1-1 SIB-NET Related Documentation .................................................................................. 5
Figure 1-1 NROM-2.0/2.5 with 1 SIB-NET Chip ........................................................................... 6
Section 1.2 Mounting the Interconnect Chassis Assemblies ............................................................. 6
Figure 1-2 Mounting the ICA-4L and System Boards ..................................................................... 7
Figure 1-3 Connecting Two ICA-4Ls using Expansion Power Cable 75142 .................................. 8
Section 1.3 Mounting the Serial Interface Board .............................................................................. 9
Figure 1-4 SIB-NET Terminal Designations .................................................................................. 10
Section 1.4 The CRT T erminal ........................................................................................................ 11
Figure 1-5 CRT to SIB Connections .............................................................................................. 12
Section 1.5 Remote Printers ............................................................................................................ 13
Figure 1-6 Remote Printer to SIB Connections ............................................................................. 13
Figure 1-7 Keltron Printer Connections.........................................................................................14
Figure 1-8 EIA-485 to SIB-NET Connections .............................................................................. 1 5
Appendix A Circuit/Devices Ratings ................................................................................................................. 16
www.PDF-Zoo.com
Document 15094 Rev C 11/20/95 15094:C Page 3
Page 4
Section One:
Installing the Serial Interface Board for the
AM2020/AFP1010 and NOTIFIRENET
Section 1.1: Introduction
The SIB-NET is an intelligent Serial Interface Board (SIB) installed in the AM2020/AFP1010. When used
with a Media Interface Board (MIB), the SIB can communicate with NOTIFIRENET. This allows the
AM2020/AFP1010 to transmit alarm and trouble events through the network to other network nodes for display
and recording. Also, the network allows the NRT/INA to perform reset, acknowledge, and signal silence
functions at the AM2020/AFP1010. The SIB-NET replaces the SIB-2048 in existing systems which connect to
NOTIFIRENET. The SIB-NET supports all features of the SIB-2048, including ACS annunciators,
printers, and CRTs.
Programming the AM2020/AFP1010 with SIB-NET
For information regarding programming the AM2020/AFP1010 for use with the SIB-NET , refer to the AM2020/
AFP1010 manual, Document 50119.
Related Documentation
To obtain a complete understanding of specific features of the SIB-NET, or to become familiar with functions
in general, make use of the documentation noted in Table 1-1.
www.PDF-Zoo.com
Document 15094 Rev C 11/20/95 15094:CPage 4
Page 5
Title Number
AM2020/AFP1010 Fire Alarm Control Panel 50119/15088
The LCD-80 Liquid Crystal Display 15037
The Network Reporting Terminal (NRT) 15090
The Intelligent Network Annunciator (INA) 15092
Network Serial Interface Board (SIB-NET) 15094
The UZC-256 Universal Zone Coder Installation 15216
CCM-1 Product Installation Document 15328
MPS-TR Product Installation Document 15331
AM2020/AFP1010 Operator Instructions 15337
The Notifier Device Compatibility Document 15378
Analog Fire Panel (AFP-200) 15511
Canadian Requirements for the AM2020/AFP1010 15631
The NIB-96 Network Interface Board 15666
The NR45-24 Charger 15760
The Annunciator Control System 15842
The LDM Lamp Driver Modules 15885
The Voice Alarm Multiplex 15889
The XP Series Transponder Systems 15888
Network Adapter Module (NAM-232) 50038
UDACT 50050
The FSK-2400 Modem 50115
OLP-1 50128
VGAS Installation 50251
The Media Interface Board (MIB) 50255
Repeater (RPT) 50256
NOTIFIRENET
MMX-2 Installation Instructions M500-03-00
50257
www.PDF-Zoo.com
Table 1-1: SIB-NET Related Documentation
Document 15094 Rev C 11/20/95 15094:C Page 5
Page 6
WARNING: You must have either a NROM-2.0/2.5 (AM2020) or N1ROM-2.0/2.5 (AFP1010) software kit
installed in the system. The NROM-2.0/2.5 software kit contains: 1 SIB-NET chip (see Figure 1-1), 10 LIB
chips, 1 CPU-2020 chip and 1 DIA-2020 chip. The N1ROM-2.0/2.5 software kit contains: 1 SIB-NET chip, 2
LIB-200 chips, 1 CPU-2 chip and 1 DIA-1010 chip. The entire network must contain the same version of
NOTIFIRENET software, either Version 2.0 or 2.5. Improper system operation will result if the versions are not the same.
Software Combination Compatibility Warning: All software part numbers are not compatible with each
other. Improper mixing of software part numbers can compromise Life Safety functions. If unsure about the
compatibility of a particular software combination, consult the factory.
This software is not compatible with earlier versions of CGAS, AMNET , AUTOPLEXOR and VGAS/UNINET
systems. Software in these items must be upgraded for compatibility.
• Open the Display Interface Assembly door.
• Observing proper orientation and ensuring that none
of the pins are bent, insert the ROM into the socket
for U15 on the SIB-NET
• Close the DIA door.
• Warning: Software must be compatible systemwide. When not completely sure about compatibility, consult the factory before changing ROMs.
Figure 1-1: NROM-2.0/2.5 with 1 SIB-NET Chip
Section 1.2: Mounting the Interconnect Chassis Assemblies
The AM2020/AFP1010 system can use one to three Interconnect Chassis Assemblies (ICA-4/ICA-4L), depending on the specific installation requirements (the AFP1010 requires only one). If using more than one ICA-4/
ICA-4L, interconnect each ICA-4/ICA-4L before connection to the backbox by mating the plug connector on
one chassis to the socket connector on the other (no cable required). Align the entire ICA-4/ICA-4L assemblies
over the studs in the backbox. Connect a chassis grounding cable (71073) for each board installed on the ICA4/ICA-4L to an ICA-4/ICA-4L stud. Secure the assemblies and cables with the provided nuts and washers.
Each ICA-4/ICA-4L is marked with “TOP” for proper orientation. NOTE: The ICA-4L with the SIB-NET
interface card must be in the top position in the backbox!
WARNING: When connecting an ICA-4 to an ICA-4L, there is an extra pin which must go in front of the
connector (see Figure 1-2).
The ICA-4L is a low-profile mounting chassis that replaces the ICA-4 in all BE-1010N and BE-2020N basic
equipment kits. The ICA-4L is fully compatible with both CAB-2 and CAB-3 series cabinets and the ICA-4
chassis.
Document 15094 Rev C 11/20/95 15094:CPage 6
www.PDF-Zoo.com
Page 7
Older power cable
(part number 71030)
Figure C
Warning!
The ICA-4L chassis includes a 16th pin (see
Figures A and B) for connection to the system
boards (CPU, SIB, LIB, and so on) which is
not used at this time. NOTE: There is no extra
pin when using a SIB-NET. When connecting
system boards, make sure that the socket header
on the board engages only pins 1–5 on the ICA4L as indicated.
The ICA-4L chassis includes an extra pin when
connected to an older power cable (71030).
The extra pin is in front, facing the door of the
cabinet (Figure C). The power cable part number 75378 has 16 positions which will connect
properly with the ICA-4L. If the newer cable
75378 is used with the older ICA-4 chassis,
there will be an extra 16th socket position on
the cable. This empty cable socket should be
located to the front of the ICA-4 pin header.
There is an extra receptacle when connect-
ing an ICA-4 to the bottom of an ICA-
4L. This receptacle should also be
in the front. Connecting two ICA-
4Ls does not require extra pins or
receptacles. For connection of two
ICA-4L chassis with expansion
power cable (part number 75142)
see Figure 1-3.
www.PDF-Zoo.com
Figure A
Figure 1-2: Mounting the ICA-4L and System Boards
Must be an ICA-4L.
Can be either an ICA-4 or
ICA-4L.
}
CAB-2 or CAB-3
Series Backbox
Document 15094 Rev C 11/20/95 15094:C Page 7
Figure B
Page 8
When connecting two ICA-4L chassis using an expansion power cable (part number 75142), there will be an
extra pin on one chassis and an extra receptacle on the other. Both the extra pin and the receptacle should be in
the front, facing the cabinet door (see Figure 1-3).
• 15 positions for old cable (part number 71030) to the ICA-4
• 15 positions for old cable (part number 71020) to the ICA-4L with extra pin (see Figure 1-2).
• 16 positions for new cable (part number 75378) to the ICA-4 with extra receptacle
• 16 positions for new cable (part number 75378) to the ICA-4L
• Expansion power cable (part number 75142) remains at 15 positions
Figure 1-3: Connecting Two ICA-4Ls using Expansion Power Cable 75142
www.PDF-Zoo.com
Document 15094 Rev C 11/20/95 15094:CPage 8
Page 9
Section 1.3: Mounting the Serial Interface Board (SIB-NET)
The SIB-NET mounts on the ICA-4L chassis. The AM2020/AFP1010 system connects to and interfaces to the
network through the MIB and the SIB-NET. The MIB mounts onto the SIB-NET. The chassis is compatible
with the ICA-4. For more information on the ICA-4L, refer to the installation section in the AM2020/AFP1010
Manual.
The following example illustrates installation of a SIB-NET in the front left-hand position of an Interconnect
Chassis Assembly. Installation of boards in remaining ICA-4L positions involves a similar procedure.
Step 1
Place the SIB in front of the Interconnect Chassis Assembly (ICA-4L) in the installation position. Tilt the
SIB into the ICA-4L and align the square slots on the
board with the first set of four tabs on the ICA-4L as
illustrated.
Step 2
Carefully push the SIB-NET back to the first level.
Slide the SIB-NET away from the ICA-4L until it is
directly over the second set of four tabs, now located
immediately behind the printed circuit board.
Step 3
Push the SIB-NET back so that it rests on the four
tabs behind the board. Slide the board in toward the
center of the ICA-4L and carefully engage the socket
connector on the SIB-NET with the plug connector
on the ICA-4L. When correctly seated, a mechanical tab will stop the SIB-NET. Seating the connector and plug requires applying some force. Before
applying force, carefully check alignment of all pins.
When installed, the SIB-NET seats in a channel consisting of four retaining tabs in front of the printed
circuit board and four retaining tabs in back of the
printed circuit board.
www.PDF-Zoo.com
Document 15094 Rev C 11/20/95 15094:C Page 9
Page 10
To ICA-4L
Terminals 1-4: Provide wiring for one PRN printer to
this unsupervised circuit.
Terminals 5-8: Provide connection to the Keltron
VS4095/5 printer or any UL EDP-listed printer. Connection is not supervised. EDP listed printers serve in an ancillary capacity only.
Terminals 9-12: Provide connection for 1–25 CRTs to
this supervised circuit.
Terminals 13-16: Provide connection to UL EDP-listed
display monitors. Devices are not supervised and serve in
an ancillary capacity only.
EIA-485 Reference
Earth Ground
EIA-485 (+)
EIA-485 (-)
EIA-485 (+)
EIA-485 (-)
EIA-232 Reference
Transmit to Printer
EIA-232 Reference
Receive from Printer
EIA-232 Reference
Transmit to AUX Printer
EIA-232 Reference
Ready/Busy from Keltron Printer
EIA-232 Reference
Transmit to CRT
EIA-232 Reference
Receive from CRT
EIA-232 Reference
Transmit to AUX Monitor
EIA-232 Reference
CTS from AUX Monitor
www.PDF-Zoo.com
Figure 1-4: SIB-NET Terminal Designations
Document 15094 Rev C 11/20/95 15094:CPage 10
Page 11
Section 1.4: The CRT Terminal
The CRT Terminal with keyboard features an 80 column, 25 line display. Function keys allow you to execute
F ACP commands from the keyboard.
Primary and Secondary Power
The CRT requires 120 VAC, 50/60Hz primary power. A secondary power source (battery backup) is not
provided; the use of a separate Uninterruptable Power Supply (UPS), UL listed for Fire Protective Signaling is
recommended.
Electrical Specification
CRT-1 CRT-2
Voltage: 120 VAC 90 – 264 VAC
Frequency: 60 Hz 47 – 63 Hz
Current 0.6 A 0.5 – 0.2 A
Installation
Connection between the AM2020/AFP1010 and the CRT is provided through an EIA-232 interface on the
Serial Interface Board (SIB). Assemble a custom cable for connection to the EIA port on the CRT. Connect
additional CRTs with installer-provided cables (AUX on first CRT to EIA port on second CRT, and so on).
Multiple Terminals
The AM2020/AFP1010 supports up to 25 terminals installed on the EIA-232 circuit of the Serial Interface
Board. Each CRT is shipped from the factory with a keyboard, used for programming the FACP . The keyboard
can only be used on the first CRT installed in the chain. Only the first CR T is supervised on the EIA-232 circuit.
When finished programming, remove the keyboard.
AUX EIA
The AUX and EIA ports are located
on the back of the CRT-1 Monitor.
PAR SER2-AUX SER1-EIA
The PAR (Parallel), AUX and EIA ports are
located on the back of the CRT-2 Monitor.
www.PDF-Zoo.com
Document 15094 Rev C 11/20/95 15094:C Page 11
Page 12
Wiring distance limited by cable
capacitance. Refer to the EIA232E standard.
CRT with Keyboard
One maximum – the CRT-1 must be the first in a chain
and must be in the same room as the AM2020/AFP1010.
The CRT-2 can be located remotely.
Twisted-pair
50 feet (typical)
Twisted-pair
SIB-NET
SIB-NET (Connector P3)
9 EIA-232 Reference
10 Transmit to CRT
Twisted-pair
nc
To EIA Port
of next CRT
To AUX Port of
CRT
CRT CRT without keyboard
Up to 24 max in chain. Allow 50 feet
maximum (typical) between CRTs.
Twisted-pair
nc
To EIA Port of CRT
with keyboard
11 EIA-232 Reference
12 Receive from CRT
NOTES:
1) Outputs are power limited (for device/circuit ratings, refer to Appendix A).
2) Make connections with overall foil/braided-shield twisted-pair cable.
3) Apply power to the CRTs before start-up of the system beginning with the last CRT in the chain.
4) A total of 25 CRTs can be installed. Only one keyboard (shipped with each CR T) can be used in the entire
system and installed on the first CRT in a chain. For all applications, use the keyboard to program the
FACP. When finished programming the system, remove the keyboard or keep the keyboard in a locked
enclosure.
www.PDF-Zoo.com
Figure 1-5: CRT to SIB Connections
Document 15094 Rev C 11/20/95 15094:CPage 12
Page 13
Section 1.5: Remote Printers
The AM2020/AFP1010 can employ PRN-4 remote
printers. PRN-4 remote printers provide hard-copy
printout of all status changes within the system, and
time-stamps the printout with the current time-of-day
and date. The PRN-4 provides 80 columns of data on
standard 9" by 11" tractor-feed paper.
Installation
Remote printers require 120 VAC, 50/60Hz primary
power. A secondary power source (battery backup) is
not provided. Recommendation: Use a separate Uninterruptable Power Supply (UPS) 50 W minimum, UL
listed for Fire Protective Signaling.
An EIA-232 interface on the SIB provides connection
between the FACP and the PRN-4. An installer provided cable must be assembled for connection to the
printer's EIA-232 port. See Figure 2-4 for wiring instructions.
A special print feature allows the PRN-4 to print all
information programmed into the F ACP (including system configuration and addressable device parameters).
Printer Configuration
Refer to the documentation supplied with the
PRN-4 for instructions on the printer's menu controls. Set the printer's options as follows:
L/R ADJUST: 0
FONT: HS DRAFT
LPI: 6CPI
ESC CHARACTER: ESC
BIDIRECTIONAL COPY: ON
CG-T AB: GRAPHIC
COUNTRY: E-USA ASCII
AUTO CR: OFF
LANGUAGE: ENGLISH
AUTO TEAR: 1S
COLOR OPTION: NOT INSTALLED
FORMLEN:
LINES: 6 LPI=60
ST ANDARD: EXECUTIVE 10.5"
CPI: 10 CPI
SKIP: 0.5"
EMULATE: EPSON
I/O:
BUFFER: 36K
SERIAL:
BAUD; 2400
FORMAT: 7 BIT, EVEN, 1 STOP
CHARACTER SET: STANDARD
S1.ZERO: ON
AUTO LF: OFF
MENLOCK: ALL
P APER:
PROTOCOL: XON/XOFF
BIN 1: 12/72''
BIN 2: 12/72''
SINGLE: 12/72''
PUSH TRA: 12/72''
PULL TRA: 12/72''
PAP R OLL: 12/72''
P APOPT: NO
PRN-4
Remote
Printer
nc
Plug this DB25 connector
into the EIA-232 port of
the printer.
50 feet
(typical)
3
Wiring distance is limited
by cable capacitance.
Refer to the EIA-232E
standard.
SIB-NET
SIB-NET (Connector P3)
Twisted-pair
Twisted-pair
NOTES:
1) Outputs are power limited and are not supervised.
2) Make connections with overall foil/braided-shield twisted-pair cable.
3) This printer does not support Near Letter Quality (NLQ) mode.
1 EIA-232 Reference
2 Transmit to Printer
3 EIA-232 Reference
4 Receive From Printer
Figure 1-6: Remote Printer to SIB Connections
www.PDF-Zoo.com
Document 15094 Rev C 11/20/95 15094:C Page 13
Page 14
Keltron Printer
Model No. VS4095/5
(Refer to note 4 below.)
50 feet max
(typical)
Wiring distance limited by
cable capacitance. Refer to
the EIA-232E standard.
Twisted-pair
SIB-NET
Connector P3
EIA-232 Reference
5
Transmit to Printer
6
SIB-NET
nc
4
Plug this DB-25 connector into the
EIA-232 port of the printer.
Twisted-pair
EIA-232 Reference
7
Ready/Busy
8
from Printer
Main Power Supply
MPS-24A
TB3- 3 (+)
and
TB3-4 (-)
DC IN -
+ DC IN
Keltron Remote Printer
Model No. VS4095/5
Figure 1-7: Keltron Printer Connections
NOTES:
1) Outputs are power limited and are not supervised.
2) Make connections with an overall foil/braided-shield twisted-paired cable suitable for EIA-232E applications.
3) The SIB-NET can employ two printers.
4) Set the Keltron printer DIP switches as follows:
www.PDF-Zoo.com
SP1-1 OFF SP2-1 OFF
SP1-2 ON SP2-2 OFF
SP1-3 OFF SP2-3 OFF
SP1-4 ON SP2-4 OFF
SP1-5 OFF SP2-5 OFF
SP1-6 ON SP2-6 OFF
SP1-7 OFF SP2-7 ON
SP1-8 ON SP2-8 OFF
Document 15094 Rev C 11/20/95 15094:CPage 14
Page 15
EIA-485 Reference
P5
SIB-NET
CPU-2020/CPU-2
EIA-485 circuit characteristic impedance of twisted-pair wiring should be approximately 120 ohms.
120 ohms,
1/4 watt
432+
TB2
1+
7
6
5
4
TB1
3
2
1
432+
TB2
1+
7
6
5
4
TB1
3
2
1
Refer to Appendix A for EIA-485 circuit ratings and limitations.
NOTE: If the SIB-NET is not the first device on the EIA-485 circuit, set SW1 on the SIB-NET to the ''out''
position.
The EIA-485 Reference (P5-1) for the SIB-NET must be connected to any ACS device which is not within the
same cabinet or is not powered by the SIB-NET AM2020/AFP1010 power supply. Connect P5-1 of the SIBNET to:
• ACM-16AT at TB1-4
• LDM-32 at TB1-4
• NIB-96/AMG-1 power supply (MPS-24A) at TB2-2
• SCS-8/L at TB1-4
• LCD-80 at P1-4
• RPT-485W Ref. A at TB1-5
• RPT-485W Ref.B at TB2-5
• RPT-485WF Ref. A at TB1-5
www.PDF-Zoo.com
Figure 1-8: EIA-485 to SIB-NET Connections
Document 15094 Rev C 11/20/95 15094:C Page 15
Page 16
Appendix A: Circuit/Device Ratings
Circuit Type Circuit Functions Wire Requirements
LIB-200
SLC Loop
EIA-485
EIA-232
MMX
XPM-8/L
CMX
XPC-8
Power Runs To CMXs; to XPC-8s
Power Runs To annunciators
Connects to Intelligent and
Addressable Modules, and
to XP Transponders
Connects to AMG-1 and to
Annunciator Control
System Modules
Connects to CRTs and
remote printers
Initiating Device Circuit
Notification Apopliance
Circuit
Twisted-shielded pair, 12 to 18
AWG, 40 ohms max per length of
Style 6 and 7 loops. 40 ohms per
branch max for Style 4 loops
Twisted-shielded pair with a
characteristic impedance of
approximately 120 ohms. 18 AWG
minimum.
Twisted-shielded pair. 18AWG
minimum.
12-18 AWG. Maximum loop wire
resistance is 20 ohms (MMX-1,
MMX-101) or 100 ohms (XPM-8)
12-18 AWG. MPS-24A: At alarm
current level, no more than a 1.2
volts drop at the end of the circuit.
12-18 AWG. Size wire so that no
more than 1.2 volts drop across wire
run from supply source to end of any
branch.
12-18 AWG. Size wire so that no
more than 2.4 volts drop across wire
run from supply source to end of any
branch.
Distance
(feet)
10,000
8,000
4,875
3,225
6,000
6,000
6,000
4,000
see
EIA-232D
5,000
4,000
2,438
1,613
Installer
Calculation
Required
Installer
Calculation
Required
Installer
Calculation
Required
Typical Wire Type
Belden 9586 (12 AWG) West Penn 999
Belden 9581 (14 AWG) West Penn 995
Belden 9575 (16 AWG) West Penn 991
Belden 9574 (18 AWG) West Penn 975
Belden 9586 (12 AWG) West Penn 999
Belden 9581 (14 AWG) West Penn 995
Belden 9575 (16 AWG) West Penn 991
Belden 9574 (18 AWG) West Penn 975
Belden 9586 (12 AWG) West Penn 999
Belden 9581 (14 AWG) West Penn 995
Belden 9575 (16 AWG) West Penn 991
Belden 9574 (18 AWG) West Penn 975
Belden 9586 (12 AWG) West Penn 999
Belden 9581 (14 AWG) West Penn 995
Belden 9575 (16 AWG) West Penn 991
Belden 9574 (18 AWG) West Penn 975
Belden 9586 (12 AWG) West Penn 999
Belden 9581 (14 AWG) West Penn 995
Belden 9575 (16 AWG) West Penn 991
Belden 9574 (18 AWG) West Penn 975
Belden 9586 (12 AWG) West Penn 999
Belden 9581 (14 AWG) West Penn 995
Belden 9575 (16 AWG) West Penn 991
Belden 9574 (18 AWG) West Penn 975
Belden 9586 (12 AWG) West Penn 999
Belden 9581 (14 AWG) West Penn 995
Belden 9575 (16 AWG) West Penn 991
Belden 9574 (18 AWG) West Penn 975
NR45-24
Remote Secondary Power
Source
Twisted-shielded pair, 12 AWG in
conduit
20 (max) Belden 9583 (12 AWG) West Penn 999
www.PDF-Zoo.com
Document 15094 Rev C 11/20/95 15094:CPage 16
Page 17
Type of Circuit Devices/Ratings Circuit Ratings Connections
MPS-24A Main Power Supply 120 VAC, 50/60 Hz, 1.8 amps
Main Supply Circuit
A dedicated branch of the AC
service that supplies primary AC
power to the Fire Alarm Control
secondary supply during non-fire
Panel.
Battery Charger Circuit
Charges and maintains the
alarm conditions.
MPS-24B Main Power Supply 120 VAC, 50/60 Hz, 1.8 amps
AVPS-24 Audio/Visual Power Supply 120 VAC, 50/60 Hz, 1.0 amps
AA-30 Audio Amplifier 120 VAC, 50/60 Hz, 1.0 amps
AA-120 Audio Amplifier 120 VAC, 50/60 Hz, 1.85 amps
MPS-24A Main Power Supply and two
PS-12250 (12 volt, 25 AH) batteries.
MPS-24B Main Power Supply
NR45-24 Remote battery charger with
two LA-55 (12 volt, 55 AH) batteries.
27.6 VDC. Float type battery charger 2.0A
Max. Supervised and power-limited.
27.6 VDC. Float type battery charger (750 mA
max). Supervised and power-limited.
120 VAC, 50/60 Hz, 1.0 amps
27.6 VDC. Float type battery charger (2.0
amps max). Supervised and power-limited.
Plug P2: Term. 1 + 8 (Ground)
Plug P2: Term. 1 + 8 (Ground)
TB2: Term. 1 (+), Term 2 (-)
TB2: Term. 5 (+), Term 6 (-)
Term. 1 (Hot), Term 2 (Neutral),
TB1: Term. 2 + 3 (Ground)
Term 4 + 5 (Neutral)
Term 6 + 7 (Hot)
TB1: Term. 2 (Ground)
Term 3 (Neutral)
Term 4 (Hot)
TB1: Term. 1 + 6 (Ground)
Term 4 (Neutral)
Term 5 (Hot)
Term 3 + 4 (Neutral)
Term 5 + 6 (Hot)
Term 5 + 6 (Neutral)
Term3 +4 (Hot)
Chassis ground.
Term. 3 (+), Term 4 (-)
Battery Discharge Circuit
or
Secondary Power Input
Supplies power to the Fire Alarm
Control Panel during loss of
primary AC power.
Notification Appliance Power
Provides power for Notification
Appliance Circuits and remote
signaling devices.
External Resettable Power
AA-30 Audio Amplifier
AA-120 Audio Amplifier
AVPS-24 Audio Visual Power Supply
MPS-24A Main Power Supply
MPS-24B Main Power Supply
MPS-24A Main Power Supply: use
with any UL listed 24 VDC fire alarm
Notification Appliance.
MPS-24B Main Power Supply: use
with any UL listed 24 VDC fire alarm
Notification Appliances.
AVPS-24 Audio/Visual Power Supply:
WARNING see list of compatible
devices in the Device Compatiblity
Document.
MPS-24A Main Power Supply
3.0 amps max. draw in alarm. 25.0 amp max.
screw terminal contact rating. Supervised.
Battery leads are not power-limited.
7.3 amps max. draw in alarm. 25.0 amp max.
screw terminal contact rating. Supervised.
Battery leads are not power-limited.
3.0 amps max. draw in alarm. 25.0 amp max.
screw terminal contact rating. Supervised.
Battery leads are not power-limited.
6.0 amps max. draw in alarm. 25.0 amp max.
screw terminal contact rating. Supervised.
Battery leads are not power-limited.
2.9 amps max. draw in alarm. 25.0 amp max.
screw terminal contact rating. Supervised.
Battery leads are not power-limited.
20.4 - 26.4 VDC (3.0 amps max.)
Power-limited and supervised.
20.4 - 26.4 VDC (2.0 amps max. of regulated
current available in alarm only) Power-limited
and supervised with a UL listed relay.
20.4 - 32.0 VRMS (3.0 amps max.) Full-wave,
unfiltered. Power-limited and supervised with
20.4 - 26.4 VDC (200 mV ripple). 1.0 amps
20.4 - 26.4 VDC (200 mV ripple). 2.0 amps
an A77-716 relay.
max. (draws from the total of 3.0 amps of
MPS-24A regulated current available in
standby or 6.0 amps available in alarm).
Power-limited and supervised with an
A77-716 relay.
max. (draws from the total of 3.0 amps of
MPS-24A regulated current available in
standby or 6.0 amps available in alarm).
Power-limited and supervised with an
A77-716 relay. Note: Optional jumper
selectable.
Plug P1: Term. 1 (+), Term 4 (-)
Plug P1: Term. 3 + 4 (+),
Term 1 + 2 (-)
TB1: Term. 2 (+), Term 3 (-)
TB2: Term. 1 (+), Term 2 (-)
TB2: Term. 5 (+), Term 6 (-)
TB3: Term. 3 (+), Term 4 (-)
TB2: Term. 3 (+), Term 4 (-)
TB2: Term. 1 (+), Term 2 (-)
TB3: Term. 1 (+), Term 2 (-)
TB3: Term. 3 (+), Term 4 (-)
www.PDF-Zoo.com
Municipal Box Circuit
20.4 - 26.4 VDC (200 mV ripple). 200 mA
MPS-24B Main Power Supply
CMX Control Module with an MBT-1
Municipal Box Trip device and an
A77-716 power supervision relay.
XP Transponder XPC-8 module with
an MBT-1 Municipal Box Trip device.
max. (draws from the total of 750 mA of
regulated current available in standby and
alarm. Power-limited and supervised with a
Local Energy Municipal Box connection.
Supervised and power-limited. (3.65 VDC
nominal). (10 ohms max. loop resistance. Trip
Local Energy Municipal Box connection.
Supervised and power-limited. (3.65 VDC
nominal). (10 ohms max. loop resistance. Trip
UL listed relay.
current = 250 mA.
current = 250 mA.
TB2: Term. 1 (+), Term 2 (-)
Refer to Supervising an
Uninterruptable Power Supply in the
AM2020/AFP1010 Manual.
Refer to Appendix A of the XP Series
Transponder Manual.
Document 15094 Rev C 11/20/95 15094:C Page 17
Page 18
Type of Circuit Devices/Ratings Circuit Ratings Connections
Notification Appliance
Circuit
A circuit or path directly
connected to a
notification appliance.
Speaker
Circuits
Speaker Power
(High-level Audio)
CMX Control Module fed from an MPS-24A,
MPS-24B, AVPS-24, or other 24 VDC
power supplies listed for Fire Protective
Signaling. WARNING: See list of AVPS-24
compatible devices in the Device
Compatibility Document, 15378.
XP Transponder XPC-8 module fed from an
MPS-24A, MPS-24B, AVPS-24, or other
24VDC listed power supply.
WARNING: See list of AVPS-24
compatible devices.
CMX-1 Control Module fed from an AA-30
or AA-120.
CMX-2 Control Module fed from an AA-30
or AA-120. Model A2143-20 coupling
capacitor (10uA leakage max.) is required
for NFPA Style Z connection. Refer to the
CMX-2 Installation Instructions for more
details.
XP Transponder XPC-8 module fed from an
AA-30 or AA-120.
AA-30 or AA-120 Audio Amplifier feeding
signal to a CMX Control Module or an XP
Transponder XPC-8 Module. Use only
UL-listed speakers rated for a minimum 25
VRMS (30 watts max with AA-30, 120 watts
max with AA-120) or 70.7 VRMS min when
using the AA-120 with T-70 option. (100
watts max)
Operating voltage supplied dependent on
the signal power source employed.
ELR=47K, 1/2 watt, Part #47K (N-ELR) in
Canada. NFPA Style Y or Style Z field
wiring. Max Load is 2 amps Resistive @ 24
VDC. Most Notification Appliances are
resistive. Certain electromechanical
devices exhibit inductive loading
characteristics. For these types of devices,
derate the outputs to 1 amp @ 30 VDC
(0.6pf). Size wiring for no more than 1.2
volt drop at last device on circuit.
Supervised. Power limiting is a function of
the power source.
Operating voltage supplied dependent on
the power source employed. ELR = 47K,
1/2 watt, Part # R-47K (N-ELR in Canada).
NFPA Style Y or Style Z field wiring. Max
Load is 2 amps Resistive @ 24 VDC. Most
Notification Appliances are resistive.
Certain electromechanical devices exhibit
inductive loading characteristics. For these
types of devices, derate the outputs to 1
amp @ 30 VDC (0.6pf). Size wiring for no
more than a 1.2-volt drop at last device on
circuit. Supervised. Power limiting is a
function of the signaling power source.
Operating voltage dependent on amplifier
employed. Max of 40 mA total speaker
leakage current due to coupling capacitors.
48 watts max @ 25 VRMS max. ELR=
47K, 1/2 watt, Part # A2143-20 (N-ELR in
Canada). Max line resistance dependent
upon wattage required at each speaker.
NFPA Style Y field wiring. Supervised.
Power-limiting is a function of the signaling
power source.
Operating voltage dependent on amplifier
employed. 43.75 watts max., up to 70.7
VRMS. Max of 40 uA total speaker leakage
current due to coupling capacitors.
ELR=47K, 1/2 watt, Part # A2143-00
(N-ELR in Canada). Max. line resistance
dependent upon wattage required at each
speaker. NFPA Style Y or Z field wiring.
Supervised. Power-limiting is a function of
the signaling power source.
Operating voltage dependent on amplifier
employed. 48 watts max @ 70.7 Vrms
max. ELR=47K, 1/2 watt, Part # R-47K
(N-ELR in Canada). Max line resistance
dependent upon wattage required at each
speaker. NFPA Style Y or Style Z field
wiring. Supervised. Power-limiting is a
function of the signal source.
25 Vrms audio amplifier output (70.7 Vrms
for AA-120 with T-70 option). AA-30: 30
watts max. AA-120: 120 watts max.
AA-120 with T-70 option: 100 watts max.
Frequency response: 800 Hz to 2800 Hz.
Two wire high level audio circuit is not
supervised. Four-wire high level audio
circuit is supervised (except when T-70 is
used). AA-30, AA-120 and T-70 are
power-limited. Maximum wiring distance
limited by wattage required at each
speaker.
NFPA Style Y Activated Polarity CMX
Terminal 6 (+), 7 (-)
NFPA Style Z Activated Polarity CMX
Terminals 6, 9 (+); 7, 8 (-)
NFPA Style Y Activated Polarity (8 zones
on XPC-8 P2): Term.1 (+), 2 (-); 3 (+), 4
(-); 5 (+), 6 (-); 7 (+), 8 (-); 9 (+), 10 (-); 11
(+), 12 (-); 13 (+), 14 (-); 15 (+), 16 (-).
NFPA Style Z Activated Polarity (4 zones
on XPC-8 P2): Term. 1 ,3 (+), 2 ,4 (-);
5,7 (+), 6,8 (-); 9,11 (+), 10,12 (-); 13,15
(+), 14,16 (-).
NFPA Style Y supervised polarity: CMX
Terminals 7 (+), 6 (-)
NFPA Style Y supervised polarity: CMX
Terminals 7 (+), 6 (-).
NFPA Style Z supervised polarity: CMX
Terminals 7,8 (+); 6,9 (-).
NFPA Style Y supervised polarity (8
zones on XPC-8 P2):Term.1 (-), 2 (+); 3
(-), 4 (+); 5 (-), 6 (+); 7 (-), 8 (+); 9 (-), 10
(+); 11 (-), 12 (+); 13 (-), 14 (+); 15 (-), 16
(+).
NFPA Style Z supervised polarity (4
zones on XPC-8 P2):Term. 1 ,3 (-), 2 ,4
(+); 5,7 (-), 6,8 (+); 9,11 (-), 10,12
(+);13,15 (-), 14,16 (+).
AA-30 and AA-120 Connector P6 to
XPC-8 Connector P3. AA-30 Connector
P6 {or P8.5 (-) and P8.6 (+)} to CMX
Term. 3 (-) and 4 (+). Wire optional
supervisory return loop from CMX Term 3
(-) and 4 (+) to AA-30 Connector P7 or
P8.2(-), P8.3 (+) or AA-120 P8.2 (-), P8.3
(+). AA-120 with T-70 option: connect 25
VRMS output P7.3 and P7.4 to
transformer input P7.1 and P7.2 to obtain
70.7 VRMS output at P8.7 and P8.8.
Connection not supervised.
www.PDF-Zoo.com
Document 15094 Rev C 11/20/95 15094:CPage 18
Page 19
Type of Circuit Devices/Ratings Circuit Ratings Connections
Common Telephone Riser
(FFT to XPC)
Individual Telephone
Zones
(XPC to Telephone Jacks)
Low Level Audio Riser
(AMG-1, AMG-E or ATG-2
to AA-30, AA-100 or
AA-120)
Form-C Dry Contacts
FFT-7/FFT-7S Fire Fighter's
Telephone to an XP
Transponder XPC-8
Module.
XP Transponder XPC-8
Module fed from an
FFT-7/FFT-7S: Employs
phone jacks APJ-1 and
FPJ; Fireman's Handset
FHS-1; Fireman's Handset
Enclosures FHE-F and
FHE-S.
AA-30/AA-100/AA-120/
ATG-2/ACT-1 fed from an
AMG-1, AMG-E, ATG-2
Audio Message/Tone
Generator
XP Transponder XPP-1:
Dual Form-C Alarm and
Trouble Relays
XP Transponder XPR-8 :
Eight Form-C relays or four
Dual Form-C relays
CMX-1: One Form-C relay
CMX-2: One Form-C relay
24 VDC (nominal), 1-Vrms max. 800 Hz to 2800
Hz. Seven (7) telephone handsets active at one
time max including Master Telephone.
Supervised/power-limited. Two-wire circuit
supervised via 27K ELR, Part # R-27K (N-ELR
for Canada). Optional return loop for 4-wire
circuit. Max wiring resistance (including
individual telephone zone to last handset.)
permitted is 40 ohms. 10,000 ft. max wiring
distance at 12 AWG to last handset.
No telephone jack maximum per circuit.
Two-wire circuit supervised via a 47K ELR, Part
# R-47K (N-ELR in Canada). No outboard ELR
for four-wire supervised circuit. Max resistance
due to wiring is 40 ohms from FFT-7 to
termination of the telephone circuit. Power
limitation is a function of the signal source
employed.
Power-limited/supervised. 10,000 feet maximum
distance at 12 AWG gauge wire.
2 amps resistive @ 30 VDC. One amp inductive
(0.6 pf) @ 24 VDC. Not supervised. Power
limitation is a function of the signal source
applied.
2 amps resistive @ 30 VDC. One amp inductive
(0.6 pf) @ 24 VDC. Not supervised. Power
limitation is a function of the signal source
applied.
2 amps resistive @ 30 VDC. One amp inductive
(0.6 pf) @ 30 VDC.
2 amps resistive @ 30VDC. One amp inductive
(0.6 pf) @ 30 VDC. Pilot Duty: 0.6 amps @ 30
VDC (0.35pf); 0.3 amps @ 110 VDC (0.35 pf);
0.3 amps @ 120 VAC (0.365 pf)
FFT-7/FFT-7S Connector P3 Term. 3 (+) and 2 (-)
to XPC-8 Connector P3.2 (+), P3.1 (-), and/or
P4.2 (+) P4.1 (-), P5.2 (+) P5.1 (-), P6.2 (+)
P6.1(-), P7.2 (+) P7.1 (-), P8.2(+) P8.1 (-), P9.2(+)
P9.1 (-), P10.2 (+) P10.1 (-). Optional four-wire
redundant return to FFT-7FFT-7S Connector P3
Term. 6 (+) and 5 (-) to XPC-8 Connector P10.
Two-wire circuits (8 telephone circuits on XPC-8
P2): Term.1 (-), 2 (+); 3 (-), 4 (+); 5 (-), 6 (+); 7 (-),
8 (+); 9 (-), 10 (+); 11 (-), 12 (+); 13 (-), 14 (+); 15
(-), 16 (+).
Four-wire circuits (4 telephone circuits on XPC-8
P2): Term. 1 ,3 (-), 2 ,4 (+); 5,7 (-), 6,8 (+); 9,11
(-), 10,12 (+); 13,15 (-), 14,16 (+).
Internal Two-wire: AMG-1 P5 to AA-30 P2.
External Two-wire: AMG-1 P4, Terminals 4 (-) and
5 (+) to AA-30 P3, Terminals 4 (-) and 5 (+).
External Four-wire: Include return from AA-30 P8,
Terminals 5 (-) and 6 (+) to AMG-1 P4, Terminals
1 (-) and 2 (+).
Refer to the XPP-1 in the XP SeriesTransponder
Refer to the XPR-8 in the XP Series Transponder
Power: Term 2 (+), Term 1 (-)
Normally Open contacts use Term 4; normally
closed contact use Term 5; common use Term 6
closed contact use Term 5; common use Term 6
Break tabs for Form C relay
Power: Term 2 (+), Term 1 (-)
Normally Open contacts use Term 4; normally
Break tabs for Form C relay
System Manual
System Manual
www.PDF-Zoo.com
Document 15094 Rev C 11/20/95 15094:C Page 19
Page 20
Type of Circuit Devices/Ratings Circuit Ratings Connections
SLC Loop
A circuit or path directly over
which multiple signals are
transmitted and received.
EIA-485 Interface
and EIA-232 Interface
Initiating Device Circuit
A circuit to which automatic or
manual signal-init iat ing de vic es
are connected where the signal
received does not identify the
individual device being
operated.
LIB-200 Board: Employs int ell ige nt
detectors and addressable modules SDX-551, SDX-551TH, FDX-551,
CPX-551, MMX-1, MMX-2, MMX-101,
CMX-1, BGX-10L, XPP-1, ISO-X.Ten
SLC Loops max per AM2020 system,
two per AFP1010.
SIB-2048/NET Serial Interface Board:
Employs AMG-1 Audio Message
Generator and annunciat or mod ule s ACM-16AT (AEM-16AT), ACM-32A
(AEM-32A).
SIB-2048/NET and SIB-232 Serial
Interface Boards: Employs CRT-1 with
Keyboard and CRT-1 without keyboard.
SIB-2048/NET and SIB-232 Serial
Interface Boards: Employs PRN-3 and
Keltron P-40 printers.
SIB-2048/NET and SIB-232 Serial
Interface Boards: Employs UL EDP
listed equipment (displ ay mon ito rs and
printers).
MMX-1 Monitor Module: Employs
contact-type devices only - manual pull
stations, heat detectors, supervisory or
waterflow switches, and 4-wire smoke
detectors.
MMX-101 Monitor Module: Employs
contact-type devices only - manual pull
stations, heat detectors, supervisory or
waterflow switches, and 4-wire smoke
detectors.
XP Transponder XPM-8 module:
Employs 2-wire smoke detectors and
contact-type devices - manual pull
stations, heat detectors, supervisory or
waterflow switches, and 4-wire smoke
detectors.
XP Transponder XPM-8L module:
Employs dry-contact type devices only manual pull stations, heat detectors,
supervisory or waterflow switches, and
4-wire smoke detectors.
MMX-2 Monitor Module: Maximum of
40 MMX-2 modules per LIB-200.
Employs dry-contact type devices only manual pull stations, heat detectors,
supervisory or waterflow switches, and
4-wire smoke detectors.
24 Volts DC nominal, 27.6 volts DC max.
Maximum length is 10,000 ft. per channel (NFPA
Style 4) or 10,000 ft. total twisted pair length
(NFPA Style 6 and 7). Maximum loop current is
200mA (short circuit) or 100 mA (normal).
Maximum loop resistance is 40 ohms.
Supervised and power-li mit ed .
+/- 5 volts peak-to-peak. Supervised and
power-limited. 6000 ft. max distance.
Terminating resistor = 120 ohms, 1/4-watt (Part
# 71244). Characteristic impedance of the
wiring is 120 ohms.Transmission rate = 20.833
Kbps
+/- 12 volts peak-to-peak. Supervised and
power-limited. Max distan ce lim ite d by
capacitance of wire (refer to EIA-232E
Standard). Transmission rate of 2400 bps.
+/- 12 volts peak-to-peak. Power-limited but not
supervised. Max distance limited by
capacitance of wire (refer to EIA-232E
Standard). Transmission rate of 2400 bps.
+/- 12 volts peak-to-peak. Power-limited but not
supervised. Max distance limited by
capacitance of wire (refer to EIA-232E
Standard). Transmission rate of 2400 bps
ELR = 47K, 1/2, Part # A2143-20 (N-ELR in
Canada). NFPA Style B or Style D field wiring.
20 ohms max loop resistance. Supervised and
power-limited (210 uA).
ELR = 47K, 1/2, Part # A2143-20 (N-ELR in
Canada). NFPA Style B or Style D field wiring.
20 ohms max loop resistance. Supervised and
power-limited (210 uA).
24 VDC (nominal), 200mV ripple. ELR = 2.2K,
1/2 watt, Part #R-2.2K (N-ELR in Canada).
NFPA Style B or Style D field wiring. 100 ohms
max loop resistance. Supervised and
power-limited (50 uA). See Notifier Device
Compatibility Docume nt , 15378 , for a list of
compatible 2-wire detectors.
24 VDC. ELR=10K, 1/2 watt, Part # R-10K
(N-ELR in Canada). NFPA Style B field wiring.
1000 ohms max loop resistance. Supervised
and power-limited.
24VDC Input 12-18 AWG. See Document
M500-03-00 for limits. Supervised. Power
limiting is a function of the 24 VDC source.
NFPA Style B or D Initiating Device Circuit
12-18 AWG 25 ohms max (including 24VDC
input wiring above). Supervised and power
limited (90mA). 3.9K, 1/2 W end-of-line resistor
required at terminals 8 and 9 for NFPA Style D
operation. See Document M500- 03 -00 for
additional limits. See Not ifi er Device
Compatibility Docume nt for a list of com pat ible
2-wire detectors.
NFPA Style 4: LIB-200
Channel A - Term. 1 (+) 3 (-);
Channel B - Term. 5 (+), 7 (-).
NFPA Style 6, 7: LIB-200
Terminals 1, 5 (+); 3,7 (-).
SIB-2048/NET P5, Terminal 5 (+) and 6
(-) to AMG-1 Connector P3, Terminal 6
(+) and 4 (-). SIB-2048 P5, Terminal 5
(+) and 6 (-) to ACM-16AT or ACM-32A
Connector TB2, Terminal 3,4 (-) and
1,2 (+).
For SIB-2048 and SIB-232, see Chapter
One, Figures 5-2 and 5-3 of the
AM2020/AFP1010 Manua l. For
SIB-NET see Section 1.5 of this manual.
For SIB-2048 and SIB-232, see Chapter
One, Figures 5-2 and 5-3 of the
AM2020/AFP1010 Manua l. For
SIB-NET see Section 1.5 of this manual.
For SIB-2048 and SIB-232, see Chapter
One, Figure 5-2 and 5-3 of the
AM2020/AFP1010 Manua l. For
SIB-NET see Section 1.5 of this manual.
NFPA Style B: MMX-1 Terminals 7 (+),
6 (-) NFPA Style D: MMX-1 Terminals
7,8 (+), 6,9 (-)
NFPA Style B: MMX-101 Red Wire (+),
White Wire (-)
NFPA Style B (8 zones on XPM-8 P2):
NFPA Style D (4 zones on XPM-8 P2):.
NFPA Style B (8 zones on XPM-8L P2)
MMX-2 Terminal 3(-) and 4(+)
NFPA Style B MMX-2 Terminal 6(-) and
7(+)
NFPA Style D MMX-2 Terminals 6,9(-)
and 7, 8(+)
www.PDF-Zoo.com
Document 15094 Rev C 11/20/95 15094:CPage 20
Page 21
Limited Warranty
NOTIFIER® warrants its products to be free from defects in materials and wo rkmanship
for eighteen (18) months from the date of manufacture , under normal use and service.
Products are date stamped at time of manufacture. The sole and exclusiv e obligation
of NOTIFIER® is to repair or replace, at its option, free of charge for parts and labor,
any part which is defective in materials or workmanship under normal use and service.
For products not under NOTIFIER® manufacturing date-stamp control, the warranty
is eighteen (18) months from date of original purchase by NOTIFIER®'s distributor
unless the installation instructions or catalog sets forth a shorter per iod, in which
case the shorter period shall apply. This warranty is void if the product is altered,
repaired or serviced by anyone other than NOTIFIER® or its authorized distributors or
if there is a failure to maintain the products and systems in which they operate in a
proper and workable manner . In case of def ect, secure a Return Material Authorization
form from our customer service department. Return product, transportation prepaid,
to NOTIFIER®, 12 Clintonville Road, Northford, Connecticut 06472-1653.
This writing constitutes the only warranty made b y NOTIFIER® with respect to its
products. NOTIFIER® does not represent that its products will prevent any loss by
fire or otherwise, or that its products will in all cases provide the protection for which
they are installed or intended. Buyer ackno wledges that NO TIFIER® is not an insurer
and assumes no risk for loss or damages or the cost of any inconvenience,
transportation, damage, misuse, abuse, accident or similar incident.
NOTIFIER® GIVES NO WARRANTY, EXPRESSED OR IMPLIED, OF
MERCHANTABILITY, FITNESS FOR ANY PARTICULAR PURPOSE, OR
OTHERWISE WHICH EXTEND BEYOND THE DESCRIPTION ON THE FACE
HEREOF. UNDER NO CIRCUMSTANCES SHALL NOTIFIER® BE LIABLE FOR
ANY LOSS OF OR DAMAGE TO PROPERTY, DIRECT, INCIDENTAL OR
CONSEQUENTIAL, ARISING OUT OF THE USE OF, OR INABILITY TO USE
NOTIFIER® PRODUCTS. FURTHERMORE, NOTIFIER® SHALL NOT BE LIABLE
FOR ANY PERSONAL INJURY OR DEATH WHICH MAY ARISE IN THE COURSE
OF, OR AS A RESULT OF, PERSONAL, COMMERCIAL OR INDUSTRIAL USE OF
ITS PRODUCTS.
This warranty replaces all previous warranties and is the only warranty made by
NOTIFIER®. No increase or alteration, written or verbal, of the ob ligation of this warranty
is authorized.
"NOTIFIER" is a registered trademark.
12 Clintonville Road, Northford, CT 06472
Phone: (203) 484-7161
FAX: (203) 484-7118
www.PDF-Zoo.com
April 1994 warnbg-c.pm5
Loading...