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Document # 15342Document # 15342Document # 15342Document #
15342Document # 1534207/24/97 Revision:07/24/97 Revision:07/24/97
Revision:07/24/97 Revision:07/24/97 Revision: D1
For the System 500, System 5000,AFP-200, AM2020, AFP1010 and
SFP-1024Fire Alarm Control Panels
TheACM-8R
AnnunciatorControlModule
P/N 15342:D1 ECN 97-304
12 Clintonville RoadNorthford, CT 06472203-484-7161FAX:
203-484-7118
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WARNING - Several different sources of power can beconnected to
the fire alarm control panel. Disconnect allsources of power before
servicing. Control unit andassociated equipment may be damaged by
removing and/or inserting cards, modules, or interconnecting cables
whilethe unit is energized. Do not attempt to install, service,or
operate this unit until this manual is read and understood.
CAUTION - System Reacceptance Test after SoftwareChanges: To
ensure proper system operation, this productmust be tested in
accordance with NFPA 72-1993 Chapter7 after any programming
operation or change in site-specific software. Reacceptance testing
is required afterany change, addition or deletion of system
components,or after any modification, repair or adjustment to
systemhardware or wiring.
All components, circuits, system operations, or
softwarefunctions known to be affected by a change must be
100%tested. In addition, to ensure that other operations are
notinadvertently affected, at least 10% of initiating devicesthat
are not directly affected by the change, up to amaximum of 50
devices, must be tested and propersystem operation verified.
This system meets NFPA requirements foroperation at 0-49O
C/32-120O F and at a relativehumidity of 85% RH (non-condensing) at
30O C/86O
F. However, the useful life of the system's standbybatteries and
the electronic components may beadversely affected by extreme
temperature rangesand humidity. Therefore, it is recommended that
thissystem and its peripherals be installed in anenvironment with a
nominal room temperature of 15-27O C/60-80O F.
Verify that wire sizes are adequate for all initiating
andindicating device loops. Most devices cannot toleratemore than a
10% I.R. drop from the specified devicevoltage.
Like all solid state electronic devices, this system mayoperate
erratically or can be damaged when subjected tolightning induced
transients. Although no system is completelyimmune from lightning
transients and interferences, propergrounding will reduce
susceptibility. Overhead or outsideaerial wiring is not
recommended, due to an increased suscep-tibility to nearby
lightning strikes. Consult with the TechnicalServices Department if
any problems are anticipated or en-countered.
Disconnect AC power and batteries prior to removing orinserting
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,
makeall cable entries from the sides or rear. Before
makingmodifications, verify that they will not interfere with
battery,transformer, and printed circuit board location.
Do not tighten screw terminals more than 9 in-lbs.
Overtightening may damage threads, resulting in reduced
terminalcontact pressure and difficulty with screw terminal
removal.
This system contains static-sensitive components. Alwaysground
yourself with a proper wrist strap before handling anycircuits so
that static charges are removed from the body. Usestatic
suppressive packaging to protect electronic assembliesremoved from
the unit.
Follow the instructions in the installation, operating, and
pro-gramming manuals. These instructions must be followed to
avoiddamage to the control panel and associated equipment.
FACPoperation and reliability depend upon proper installation.
Audible warning devices such as bells may not alert peopleif
these devices are located on the other side of closed orpartly open
doors or are located on another floor of a building.
A fire alarm system will not operate without any
electricalpower. If AC power fails, the system will operate
fromstandby batteries only for a specified time.
Rate-of-Rise heat detectors may be subject to reducedsensitivity
over time. For this reason, the rate-of-rise featureof each
detector should be tested at least once per year bya qualified fire
protection specialist.
Equipment used in the system may not be technicallycompatible
with the control. It is essential to use onlyequipment listed for
service with your control panel.
Telephone lines needed to transmit alarm signals from apremise
to a central monitoring station may be out of serviceor temporarily
disabled.
The most common cause of fire alarm malfunctions, how-ever, is
inadequate maintenance. All devices and systemwiring should be
tested and maintained by professional firealarm installers
following written procedures supplied witheach device. System
inspection and testing should be sched-uled monthly or as required
by National and/or local fire codes.Adequate written records of all
inspections should be kept.
An automatic fire alarm system - typically made up of
smokedetectors, heat detectors, manual pull stations, audible
warn-ing devices, and a fire alarm control with remote
notificationcapability can provide early warning of a developing
fire. Sucha system, however, does not assure protection against
prop-erty 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 cannotreach the
detectors such as in chimneys, in walls, or roofs, oron the other
side of closed doors. Smoke detectors also maynot sense a fire on
another level or floor of a building. Asecond floor detector, for
example, may not sense a first flooror basement fire. Furthermore,
all types of smoke detectors- both ionization and photoelectric
types, have sensing limi-tations. No type of smoke detector can
sense every kind offire caused by carelessness and safety hazards
like smokingin bed, violent explosions, escaping gas, improper
storage offlammable materials, overloaded electrical circuits,
childrenplaying with matches, or arson.
IMPORTANT! Smoke detectors must be installed in thesame room as
the control panel and in rooms used by thesystem for the connection
of alarm transmission wiring,communications, signaling, and/or
power. If detectors arenot so located, a developing fire may damage
the alarmsystem, crippling its ability to report a fire.
While installing a fire alarm system may make lower insur-ance
rates possible, it is not a substitute for fire insurance!Fire
Alarm System Limitations
Installation Precautions Adherence to the following will aid in
problem-freeinstallation with long-term reliability:
Technical Publishing Document PRECAUSM.PM6
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Table of Contents
The ACM-8R Relay Module
............................................ 4Features of the
ACM-8R ....................................... 4Mounting
................................................................
4
Design Considerations
................................................... 5Limits
.....................................................................
5Wire Runs
..............................................................
5Wiring Specifications
............................................. 5Receive Only
Annunciators ................................... 6Receive/Transmit
Annunciators ............................ 6Remote Power Source for
Annunciators ............... 7Electrical Ratings
................................................... 8Power
Requirements ............................................. 8
Installing the ACM-8R
..................................................... 9Figure 3-1:
Mounting the Backbox ............................ 10Figure 3-2:
Configuring the ACM-8R ........................ 11Figure 3-3:
Wiring Multiple Annunciators .................. 12Figure 3-4:
ACM-8R Relay Terminal Assignments ... 13Table 3-1: Relay
Assignments .................................. 14Mapping the ACM-8R
relays ..................................... 14Row and Module
Arrangement ................................. 15Relay Assignment
Examples .................................... 15Figure 3-5:
Connecting the EIA-485 Loop ................ 19Figure 3-6:
Supplying Power to the ACM-8R ............ 20MPS-24A Main Power
Supply ................................... 20MPS-24B Main Power
Supply ................................... 20MPS-24BPCA Main Power
Supply ........................... 21UL Power-limited Wiring
Requirements .................... 21
ACM-8R and the System 5000 .....................................
22
ACM-8R and the AM2020/AFP1010 .............................
24
ACM-8R and the System 500
....................................... 26
ACM-8R and the AFP-200
............................................. 27
ACM-8R and the SFP-1024
........................................... 30
Section One:
Section Two:
Section Three:
Appendix A:
Appendix B:
Appendix C:
Appendix D:
Appendix E:
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Section OneThe ACM-8R Annunciator Control Module
The ACM-8R is an element in the Notifier ACS class of
annunciators. It provides theSystem 500, System 5000, AFP-200,
AM2020, AFP1010 and SFP-1024 Fire AlarmControl Panels with a relay
control module that can be mapped. The relays on thismodule can be
selected for mapping anywhere in theSystem 5000 or System 500
memory map (by groups ofeight).
Features of the ACM-8RThe ACM-8R provides eight Form-C relays
with 5 ampcontacts. The relays can be employed to track any 8
pointmodule in the System 5000 or System 500, or track anygrouping
of points in the AM2020 or AFP1010.
Extends capacity of System 5000, System 500, AFP-200and SFP-1024
by adding a relay per initiating zone.Extends capacity of AM2020 or
AFP1010 by adding 256relay points (using 32 ACM-8Rs x 8 relays per
module).The ACM-8R provides DIP switch selectable memorymapping of
relays.
The ACM-8R is also provided with removable terminalblocks for
ease of installation and service.
The ACM-8R Annunciator Control Module may be used in combination
with a varietyof products on the same EIA-485 bus circuit including
AFM Series annunciators, LDMSeries annunciators, LED-10N
annunciators and UDACTs (Universal Digital
AlarmCommunicator/Transmitter).
EIA-485 bus compatible accessories are designed to provide
maximum flexibility tosystem configurations. Examples include
multiple remote LED annunciators withcustomized labels per
corresponding area or function, multiple remote graphic
annun-ciators that illustrate building layout and floor plans,
remote DACTs for strategicmounting location near telephone
equipment plus remote high current switching relaysfor such
purposes as fan and damper control, elevator recall and door
releasing.
MountingThe ACM-8R module will mount to CHS-4 chassis or a
CHS-4L low-profile chassis(assumes one of four positions on the
chassis) or for remote applications, to an ABS-8R Annunciator
Surface-mount backbox with blank faceplate (18240). The ACM-8Rwill
also mount to the CAB-500 backbox in the System 500.
Additional ReferencesFor more information on annunciator
operation under various specific applications,refer to the
respective operating manual:
The AM2020/AFP1010 Operating Manual, Document 15335The System
5000 Operating Manual, Document 15581The System 500 Installation
Manual, Document 15019
The AFP-200 Instruction Manual, Document 15511The SFP-1024
Instruction Manual, Document 50475www.PDF-Zoo.com
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Fire Alarm Control Panel
Section TwoDesign Considerations
ACM-8R
LimitsThe ACM-8R is a member of the Notifier ACS class of
annunciators. Up to 32annunciators may be installed on an EIA-485
circuit. The actual number of annunciatormodules may be larger
depending on the number of expander modules employed.
Wire RunsCommunication between the Control Panel and the ACM-8R
is accomplished over apower-limited two-wire EIA-485 serial
interface. This communication, to include thewiring, is supervised
by the fire alarm control panel. Power for the annunciators must
bepower-limited and is provided via a separate power loop from the
control panel which isinherently supervised (loss of power also
results in a communication failure at the controlpanel).
*Note for AM2020 installations only: SIB-2048 can support two
EIA-485 circuits,each capable of spanning 6,000 feet @ 16 AWG. For
more details, refer toAppendix B: ACS and the AM2020.
Wiring SpecificationsThe EIA-485 circuit cannot be T-Tapped; it
must be wired in a continuous fashion fromthe control panel to the
annunciator. The maximum wiring distance between thepanel and the
last annunciator is 6,000 feet @ 16 AWG.The wiring size must be a
12 AWG to 18 AWG twistedshielded pair cable having a Characteristic
Impedance of120 ohms, +/- 20%. Limit the total wire resistance to
100 ohms on the EIA-485 circuit, and 10 ohms on the annunciator
power circuit. Do not run cable adjacent to,or in the same conduit
as, 120 VAC service, noisy electrical circuits that are
poweringmechanical bells or horns, audio circuits above 25
voltsRMS, motor control circuits, or SCRpower circuits.
Two-wire EIA-485 Circuit*(Maximum of 6,000 feet)
power-limited
ACM-8R Power(12 to 18 AWG )
power-limited
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Receive Only AnnunciatorsFor redundant annunciation of system
points, annunciators can be configured as"Receive Only"
annunciators. Receive Only annunciators must be set to the
sameaddress as the annunciators they duplicate, but are not fully
supervisable. Receive Onlyannunciators intercept information being
transmitted to a "Receive/Transmit" annuncia-tor so that this
information can be duplicated at an intermediate display location.
Whenconfigured for Receive Only operation, they cannot send
information to the system (suchas Module Trouble indications).
Wiring to Receive Only annunciators may be supervisedby installing
the modules "upstream" of fully supervised, Receive/Transmit
annunciatorsalong the EIA-485 line.
Receive/Transmit AnnunciatorsAnnunciators that are configured to
serve as receive/transmit annunciators are fullysupervised in that
they can both receive status information as well as transmit
trouble tothe control panel.
Fire AlarmControl Panel
Two-wireEIA-485Circuit
"Receive/Transmit" ACM-8Rset to Address "X"
"Receive Only" ACM-8Rset to Address "X" andinstalled
upstream.
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Remote Power Source for AnnunciatorsIf the ACM-8R and other
annunciator-type modules are to be powered from a remotesupply
(AM2020/AFP1010 only), a common connection between the negative
batteryterminals of each supply must be made.
Fire Alarm Control Panel
Power Loop
EIA-485Circuit
EIA-485 Circuit
Annunciator in a Backbox,powered from Control Panel
A common tie must be connec-ted between multiple power sup-plies
or the EIA-485 circuit willnot function properly!
Annunciators in a Cabinet,powered from remote supply
(AM2020/AFP1010 only)
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Electrical Ratings24 VDC (must be power-limited).
ACM-8R Current Draw from 24 VDC Input:Normal Standby: 0.030
ampsMaximum current with all output relays activated: 158 mA .
Relay ContactsUL contact ratings are 5 amps @ 125 VAC
(resistive) or 30 VDC (resistive) and 2 amps@ 125 VAC (inductive).
Refer to UL Power-limited Wiring Requirements for informationon
wiring the relays.
Form-C gold-plated, silver alloy relay contacts are for medium
duty switching and are notintended for Motor Control or Pilot
Duty.
Data Communications Port: EIA-485 operating at 20 Kbaud (must be
power-limited).
Power RequirementsThe ACM-8R draws its power from the control
panel and must be considered whencalculating the primary and
secondary power supply requirements for the system. Eachannunciator
module must be accounted for in the power calculations outlined in
therespective installation manual. However, if the current draw
dedicated to the ACM-8Rmust be calculated as a separate figure, use
the equations below.
Standby Current:Number of ACM-8R modules
[ ] X 0.030 = amps
Alarm Current:1.) Number of ACM-8R modules
[ ] X 0.030 = amps
2.) Maximum number of relays which can be activated
simultaneously*
[ ] X 0.016 = amps
Total Alarm Current (sum of 1 & 2) = amps
*The maximum number of simultaneously activated relays depends
on system configuration and programming.
The Total Annunciator Alarm Current cannot exceed 200 mA from
the MPS-24B,or 1 amp from the MPS-24A.
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Section Three: Installing the A CM-8R
For remote applications, use the ABS-8R enclosure.Select an
appropriate knockout on the ABS-8R enclosure. Mount the backbox.The
enclosure must be connected to a solid Earth Ground (do not use
conduitfor this purpose). Pull all annunciator wiring into the
enclosure.
Wire the Terminal BlocksConnect annunciator power and EIA-485
wiring to the removable terminal blocks(refer to Figure 3-2).
Note: A 120 ohm End-of-Line Resistor (supplied with the ACM-8R)
must beinstalled at the last annunciator on the EIA-485 circuit.
Remove the ELRsinstalled on all annunciators except the last.
Wire the relay terminals on the ACM-8R (refer to Figure 3-4 and
UL Power-limited Wiring Requirements).
Installing the annunciatorsSet the Address and Mode Select
switches (see Figure 3-2), and RelayAssignment DIP switches (Table
3-1) on the ACM-8R annunciator.
For mounting in the backboxPlace the ACM-8R in the ABS-8R
backbox. Align the two captive screws on thetop of the relay module
and the two mounting holes on the bottom of the relaymodule with
the pem standoffs on the backbox. Secure with captive screws attop
and with two loose screws at bottom.
For mounting in an FACP cabinetMount the CHS-4 or CHS-4L
Chassis.
CHS-4 or CAB-500 (System 500) mounting: Screw two
female-to-femalestandoffs over existing pem standoffs in the
desired mounting location at thebottom of the chassis. Align the
bottom mounting holes of the ACM-8R with thestandoffs just attached
and secure with two screws provided.
CHS-4L: Screw two female-to-female standoffs over existing pem
standoffs onthe upper end of the CHS-4L in the desired mounting
location. Insert the ACM-8R's mounting tab into the slot on the
chassis and align the captive screws ofthe ACM-8R with the
standoffs just attached. Secure captive screws.
Attach Terminal BlocksPlug in the annunciator's EIA-485, power
and relay terminal blocks.
Complete AssemblyAttach blank backbox cover (remote ABS-8R
installation) and secure with twoscrews, or continue with
installation of components in the fire alarm control
panelcabinet.
❑
❑
❑
❑
❑
❑
❑
❑
❑
FACP Applications
Remote Applications
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Figure 3-1: Mounting the Backbox
Select a knockout on the backbox. Mount thebackbox and draw all
annunciator, power, and relaywiring into the enclosure. Connect the
backbox toa solid Earth Ground. Do not use conduit for thispurpose
since it is not a reliable earth ground.
On Terminating the Shield
The EIA-485 circuit must be wired using a twisted-shielded pair
cable having a Characteristic Imped-ance of 120 ohms, +/- 20%. Do
not run cableadjacent to, or in the same conduit as, 120
VACservice, noisy electrical circuits that are poweringmechanical
bells or horns, audio circuits above 25V
RMS, motor control circuits, or SCR power circuits.
All enclosures, including the FACP backbox, mustbe connected to
earth ground! Never use the shieldfor grounding purposes. Terminate
the EIA-485shield at the Fire Alarm Control Panel only.
When the EIA-485 shield is in conduit: connect it to system
reference (system common).The shield can enter the cabinet, but
must be insulated from the cabinet (not electricalcontact). Between
annunciators, wire-nut multiple shields together (which can be
insideof the respective enclosure).
When the EIA-485 shield is not in conduit: Terminate the shield
at the outside of the FACPbackbox (ground). Do not allow the shield
to enter or even touch the cabinet. Betweenannunciators, wire-nut
multiple shields together outside of the respective enclosures.
ABS-8R Backbox
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TB2
TB1
432
1
54321
- System Common- System Common+ 24 Volts+ 24 VoltsEarth
Ground
- EIA-485 IN- EIA-485 OUT+ EIA-485 OUT+ EIA-485 IN
EIA-485 and Power Connections(both must be power-limited)
SW4-1: Set "ON" if relays are tobe activated by alarms signals
only.Set switch "OFF" for alarm andtrouble activation.
SW4-2: Set "ON" if the ACM-8R isto function in Receive Only
modeon the EIA-485 circuit.
ALM RCVONLY ONLY
MODE SELECT
SW4
TENS ONESSW1 SW2
ADDRESS SELECT
SW3 Relay Assignment DIP Switches(refer to Table 3-1)
EIA-485 Address Select
For System 500, set to 01.For System 5000, set 01 to 04.For
AFP-200, set 01 or 02.For AM2020/AFP1010, set 01 to 32.For
SFP-1024, set to any unusedaddress 01 to 32.
Figure 3-2: Configuring the ACM-8R
Caution! Failure to observe properpolarity on these connections
mayresult in damage to the annunciator.
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Multiple Annunciator Wiring
• Do not "T-Tap" the power-limited EIA-485 circuit. It will not
function properly. Wire asshown below.
• Leave the 120 ohm resistor installed across the EIA-485 Out
terminals at the lastannunciator on the circuit (see below). Remove
this resistor from all other annuncia-tors.
• Connect Earth Ground to a mounting screw on the backbox or
cabinet.
• Connect 24 VDC Power to the annunciator. This power must be
power-limited but neednot be supervised by a power supervision
relay since it is inherently supervised by thecontrol panel (loss
of communications is registered during loss of power to
theannunciator).
TB2TB2
ControlPanel
EIA-485 (+)
EIA-485 (-)
ELRPart #71244
Figure 3-3: Wiring Multiple Annunciators (6,000 ft. max.
run)
Last ACM-8R or otherannunciator-type device
First ACM-8R or otherannunciator-type device
4 (-)3 (-)2 (+)
1 (+)
4 (-)3 (-)2 (+)
1 (+)
Supervised and power-limited
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{Relay 5Normally Open
CommonNormally Closed
{Relay 6{{Relay 8
Relay 7
Relay Terminal Assignments
The ACM-8R provides eight relays with Form-C contacts rated for
5 amps. The terminalassignments are illustrated below. For
selecting where in the control panel's memorymap these relays will
be assigned, refer to Table 3-1. For information on
wiringlimitations, refer to the UL Power-limited Wiring
Requirements section.
Figure 3-4: ACM-8R Relay Terminal Assignments
Normally OpenCommon
Normally Closed
Normally OpenCommon
Normally Closed
Normally OpenCommon
Normally Closed
Normally OpenCommonNormally Closed
Normally OpenCommonNormally Closed
Normally OpenCommonNormally Closed
Normally OpenCommonNormally Closed
} Relay 4} Relay 3} Relay 2} Relay 1
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Mapping the ACM-8R relays
The ACM-8R contains an 8 position DIP switch (SW3) that assigns
annunciator pointsto the eight relays. Note that the address set on
the Address Select switches affectsexactly where the 8 relay group
will fall in the control panel's memory map.
Annunciator Pointsin Alarm Only
Mode
1-8
9-16
17-24
25-32
33-42
43-48
49-56
57-64
Set theseDIP switcheson SW3 ON
1 5
2 5
3 5
4 5
1 6
2 6
3 6
4 6
1 7
2 7
3 7
4 7
1 8
2 8
3 8
4 8
Annunciator Pointsin Alarm andTrouble Mode
1-4
5-8
9-12
13-16
17-20
21-24
25-28
29-32
33-36
37-40
41-44
45-48
49-52
52-56
57-60
61-64
Table 3-1: Relay Assignments (per EIA-485 address)
Mapping Note:Note that Table 3-1 outlines relay assignments at a
given EIA-485 address. A single EIA-485 address can support up to
64 points. At address "1," the information correspondsdirectly with
system points. However, point 1 in Table 3-1 at address "2"
actuallyrepresents the 64th point in the system; at address "3,"
the 129th point and so on.
Note also that points in the system and the number of circuits
correspond directly forAlarm Only Mode (64 circuits = 64
annunciator points). Whereas, in Alarm and TroubleMode, 64 circuits
requires 128 points (64 x 2) and would require two EIA-485
addressesto annunciate fully.
Refer to the relay mapping examples that follow for more
details.
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Row and Module ArrangementWhen installing the ACM-8R for Alarm
Only operation on a System 5000, the DIP switches onSW3 can be
alternately understood as a row and module arrangement. Note: This
correlationexists for each EIA-485 address. That is, the third
cabinet row would become the 1st cabinetrow at address 02.
SW3
Cabinet Row (select one only)
Set ON for 1st row
Set ON for 2nd row
(these switches are only used in
Alarm and Trouble Mode)
Row Module (select one only)
Set ON for 1st module
Set ON for 2nd module
Set ON for 3rd module
Set ON for last module
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1,6 2,6 3,6 4,6
1,5 2,5 3,5 4,5
1,6 2,6 3,6 4,6
1,5 2,5 3,5 4,5
Address 01
Address 01
Address 02
Address 02
Relay Assignment Example - System 5000 Alarm Only Mode
The ACM-8R can fol-low the alarm status ofany module in the
Sys-tem 5000. To assignthe ACM-8R to a mod-ule, two switches onSW3
must be set to"ON." Example: To as-sign the ACM-8R to thethird
module in the sec-ond row of a System5000, set switches 3and 6 on
SW3 to "ON",set the other sixswitches to "OFF."
S5000Module
ACM-8RAlarm Contact
Circuit 1 Relay 1
Circuit 2 Relay 2
Circuit 3 Relay 3
Circuit 4 Relay 4
Circuit 5 Relay 5
Circuit 6 Relay 6
Circuit 7 Relay 7
Circuit 8 Relay 8
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Relay Assignment Example - System 5000 Alarm & Trouble
Mode
1,5 2,5 3,5 4,5 1,6 2,6 3,6 4,6
Address 01
1,7 2,7 3,7 4,7 1,8 2,8 3,8 4,8
Address 01
Address 02
1,5 2,5 3,5 4,5 1,6 2,6 3,6 4,6
1,7 2,7 3,7 4,7 1,8 2,8 3,8 4,8
Address 02
The ACM-8R can fol-low the alarm andtrouble status of anymodule
half in the Sys-tem 5000. To assignthe ACM-8R to a mod-ule half,
two switcheson SW3 must be set to"ON." The twoswitches that must
beset "ON" are indicatedbelow the module half.Example: To assignthe
ACM-8R to the firstfour circuits of the thirdmodule in the
secondrow of a System 5000,set switches 1 and 8on SW3 to "ON,"
setthe other six switchesto "OFF."
S5000Module
ACM-8RAlarm
Contact
ACM-8RTroubleContact
Circuit 1 Relay 1 Relay 5
Circuit 2 Relay 2 Relay 6
Circuit 3 Relay 3 Relay 7
Circuit 4 Relay 4 Relay 8
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1,5 2,5 3,5 4,5 1,6 2,6
Address 01
3,7 1,8
Relay Assignment Example - System 500 Alarm Only ModeThe ACM-8R
can follow the alarm status of any module in the System 500.
Toassign the ACM-8R to a module, two switches on SW3 must be set to
"ON." Thetwo switches that must be set "ON" are indicated below the
module. Example:To assign the ACM-8R to the right-hand "L" series
board, set switches 3 and 6on SW3 to "ON," set the other six
switches to "OFF."
2,6 3,6
Address 01
Relay Assignment Example - System 500 Alarm & Trouble
ModeThe ACM-8R can follow the alarm and trouble status of any
module half in theSystem 500. To assign the ACM-8R to a module
half, two switches on SW3 mustbe set to "ON." The two switches that
must be set "ON" are indicated near themodule half. Example: To
assign the ACM-8R to the right-hand "L" series board,set switches 1
and 8 on SW3 to "ON," set the other six switches to "OFF."
CR-4L orICR-4L
CR-4L orICR-4L
1,5 2,5 3,5
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Figure 3-5: Connecting the EIA-485 LoopSupervised and
Power-Limited
AM2020/AFP1010 (SIB-2048)
EIA-485 CommonEarth Ground (chassis)
EIA-485 Loop 1 (+)EIA-485 Loop 1 (-)EIA-485 Loop 2 (+)EIA-485
Loop 2 (-)
EIA-485 (-)to ACM-8R TB2-3
(+) EIA-485to ACM-8R TB2-2
CPU-500
EIA-485 (-)to ACM-8R TB2-3
(+) EIA-485to ACM-8R TB2-2
CPU-5000
EIA-485 ConnectionThe EIA-485 circuit that drives the ACM-8R
must be power-limited and connected asillustrated below.
All connections above mustbe power-limited.
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Figure 3-6: Supplying Power to the ACM-8R
The ACM-8R requires 24 VDC regulated power to operate. This
power may be obtained by the main power supplies illustrated on
this and the next pages.
MPS-24A Main Power Supply (AM2020, AFP1010 or System 5000
only):For the System 5000, connect the power run for the ACM-8R to
MPS-24A TB3 Terminals1 (+) and 2 (-) (1 amp max and power-limited).
The AM2020 and AFP1010 require non-resettable power. Use TB3
Terminals 3 (+) and 4 (-) (2 amps maximum and power-limited) to
power the ACM-8R from the MPS-24A (do not cut jumper JP5). The
totalamount of current drawn from these terminals cannot exceed
that rating in standby or inalarm.
24 VDC Power (+)to ACM-8R TB1-2
( - ) Commonto ACM-8R TB1-4
MPS-24B Main Power Supply (AFP1010 or System 5000 only):Connect
the power run for the ACM-8R to MPS-24B TB2 Terminals 1 (+) and 2
(-) (power-limited). No more than 200 mA current can be drawn from
these terminals in standby oralarm (consult battery calculations
for the number of annunciator-type devices that canbe powered
here). Note: The AFP1010 requires non-resettable power. For
AFP1010applications, cut jumper JP1.
System 5000 24 VDC Power (+)
to ACM-8R TB1-2
{ Common ( - )
to ACM-8R TB1-4AM2020andAFP1010
{(+) 24 VDC Powerto ACM-8R TB1-2
( - ) Commonto ACM-8R TB1-4
MPS-24A
MPS-24B
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MPS-24BPCA Main Power Supply (System 500 Only)Connect the power
run for the ACM-8R to MPS-24BPCA TB2 terminals 1 (+) and 2 (-)
(power-limited). No more than 200 mA current can be drawn from
these terminals instandby or alarm.
24 VDC Power (+)to ACM-8R TB1-2
( - ) Commonto ACM-8R TB1-4
MPS-24BPCA
UL Power-limited Wiring RequirementsPower-limited and
nonpower-limited circuit wiring must remain separated in
thecabinet. All power-limited circuit wiring must remain at least
0.25" away from anynonpower-limited circuit wiring. Furthermore,
all power-limited circuit wiring andnonpower-limited circuit wiring
must enter and exit the cabinet through differentknockouts and/or
conduits. A typical wiring diagram for the ACM-8R is shown below.In
this diagram, relays K1 through K4 are being used for power-limited
circuits andrelays K5 through K8 for nonpower-limited circuits.
Different applications mayrequire different conduit knockouts to be
used. Any conduit knockouts may be usedprovided that the
nonpower-limited wiring remain separated from the
power-limitedwiring.
ACM-8R
ABS-8R Enclosure
Power-limitedCircuits
Nonpower-limitedCircuits
Typical Wiring Diagram
Note: Requirements for power-limited andnonpower-limited
circuits on the same ACM-8Rmodule are as follows:
1) If a mix of power-limited and nonpower-limited circuits are
connected to relays, skipa set of dry contacts to maintain
0.25"spacing between power-limited andnonpower-limited
circuits.
2) If only power-limited or nonpower-limitedcircuits are being
employed, all relays maybe used without skipping any for
spacingpurposes.
3) Relays K1 through K4 may be used to run allpower-limited
circuits while K5 through K8are being used to run all
non-power-limitedcircuits.
4) Refer to the Power-limited label located onthe FACP door.
Make a notation on thelabel for each circuit being employed as
aNonpower-limited circuit. (Refer to theexample on the label).
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Appendix AACM-8R and the System 5000
CapabilitiesWhen installed with a System 5000, the ACM-8R can
follow the status of initiating andindicating circuits, relays, and
several system control functions.
Circuits : IZM-8 Initiating Device Circuits (alarm and
trouble)ICM-4/ICE-4 Indicating Appliance Circuits (activation and
trouble)*CRM-4/CRE-4 Control Relays (activation)*TCM-2 circuits
(activation and trouble)*TCM-4 circuits (activation and
trouble)*VCM-4/DCM-4 circuits (activation and trouble)*AIM-200
zones (alarm and trouble)
CPU Points : Activated Notification Circuits 1 and 2, the Remote
Signaling Municipal Tiecircuit, and the Alarm Relay.
* Activation shown when System 5000 has been programmed to
display "Output Status"
Software RequiredTo operate the ACM-8R, the Control Panel must
be operating under CPU software withthe following part number (or
greater):
System 5000 Board U4 ROM Part NumberCentral Processing Unit
(CPU-5000) 73263
Trouble IndicationCommunication between the CPU and ACM-8Rs (Not
set for Receive Only Operation)is accomplished over a two-wire
EIA-485 serial interface. This communication circuit issupervised
by the Control Panel. Loss of communication results in "System
Trouble" and"Annunciator or Module Trouble" indications at the
CPU.
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48 points mapped tomodules in positions
3, 4, 5, 6, 7 and 8.
ACM-16AT set to address 1
8 CPU points
Annunciator Address 1:
8 CPU points (CPU point shift not an option).
8 unusable points (redundant AIM-200 points).
48 points mapped to the next six modules installed inthe System
5000 (which can also be AIM-200s forannunciation of their 8
software zones).
AIM-200 Point AnnunciationThe CPU can be programmed for an
alternate method of annunciating the AIM-200. Upto 192 intelligent
devices can be annunciated on a single AIM-200 along the
EIA-485interface. The System 5000 annunciates the AIM-200installed
directly to the right of the CPU-5000. Note thatan annunciator
cannot be used to execute manual ON/OFF control of intelligent
AIM-200 points. The optionprovides annunciation of up to 256 points
for the System5000, broken down as follows:
Annunciator Address 2:Intelligent Detectors, addressed 1-64, on
the AIM-200 installed next to the CPU-5000.
Annunciator Address 3:Addressable Modules, addressed 1-64, on
the AIM-200 installed next to the CPU-5000.
Annunciator Address 4:Intelligent Detectors, addressed 65-96,
followed by Addressable Modules, addressed65-96, on the AIM-200
installed next to the CPU-5000.
The System 5000 Programming Manual, Document 15584, provides
programminginstructions for this option. Refer to program choice
'AIM(256).'
Note: AIM-200 detector and module addresses 97, 98 and 99 may be
used, but cannotbe point-annunciated.
8 unusable AIM-200 points
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Appendix BACM-8R and the AM2020/AFP1010
CapabilitiesWhen installed with an AM2020/AFP1010 , the ACM-8R
can follow the status ofaddressable devices, software zones, and
several system control functions:
DevicesSDX-551 (Photo), CPX-551 (Ion) and FDX-551 (Heat)
Intelligent Detectors.MMX-1, MMX-2, MMX-101 Monitor Modules, and
CMX-1 and CMX-2Control Modules.BGX-101L Addressable Manual Pull
Stations.
Software Zones 1-240
XP Series Transponder SystemPower and Audio Supply
SupervisionXPP-1 Form-C Alarm and Trouble RelaysXPC Control, XPM
Monitor and XPR Relay Module Circuits
Software RequiredThe AFP1010 is fully compatible with the
ACM-8R. The AM2020 must be operatingwith software with the
following part numbers (or greater):
AM2020 Board ROM Part NumberCentral Processing Unit (CPU-2020)
73123Display Interface Assembly (DIA-1) 73132Loop Interface Board
(LIB-200) 73117 (for each LIB-200)
Note: Each ROM in software installed in the AM2020 or AFP1010
must be part of the same software combination
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Multiple EIA-485 CircuitsThe SIB-2048 can support two EIA-485
circuits, each capable of spanning 6,000 feet @16 AWG, as
illustrated below.
ACM-8R ACM-8R
To connect a second EIA-485 circuit, resistor R74must be cut
from the SIB-2048.
Programming the AM2020/AFP1010 for Remote
AnnunciationAnnunciator points must be programmed from the
AM2020/AFP1010 before the ACM-8R will function. The AM2020/AFP1010
employ the following format for annunciatorpoints:
A(xx) P(yy)
Annunciator address Annunciator points in the range of 1-32, as
set on the 1-64 annunciator's rotary decimal switches
For programming the Annunciator Control System into
AM2020/AFP1010 memory, andfor mapping system points and software
zones to annunciator points, refer to theProgramming Guide.
ACS Power
EIA-485 Loop 1(6,000 feet Max.)
EIA-485 Loop 1(6,000 feet Max.)
ACS Power
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CapabilitiesWhen installed with a System 500, the ACM-8R can
follow the status of initiating andnotification circuits, relays,
and several system control functions.
Circuits : IZ-4/IZ-4A/IZ-8 Initiating Device Circuits (alarm and
trouble)IC-4/ICE-4/ICR-4L Notification Appliance Circuits
(activation andtrouble)CR-4/CRE-4/CR-4L Control Relays
(activation)TC-2/TC-4 circuits (activation and trouble)
CPU Points: Activated Notification Circuits 1 and 2, the Remote
Signaling Municipal Tie circuit, and the Alarm Relay.
Trouble IndicationCommunication between the CPU and the ACM-8R
is accomplished over a two-wire EIA-485 serial interface. This
communication, to include the wiring, is supervised by theSystem
500. Loss of communication results in "System Trouble" and "Module
Failure"indications at the CPU.
Installation RequirementsThe CPU must be operating with software
Part Number 73265 or greater. The EIA-485circuit that drives the
ACM-8R must be connected to the CPU as illustrated.
Appendix CACM-8R and the System 500
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CapabilitiesThe AFP-200 is capable of supporting two annunciator
addresses, 01 and 02. Allreleases of AFP-200 software can support
ACM-8R modules, no special software isrequired. The AFP-200 sends
zone information to these annunciators, each of whichhave 64
points. By using ACM-8R modules, it is possible to get an alarm
contact or analarm and trouble contact for each of the AFP-200's
ninety-nine zones. The AFP-200zone mapping is as follows:
The AFP-200's eight system points and software zones Z1 through
Z56 areautomatically mapped to annunciator address 01, points 1
through 64 (A1P1 -A1P64).
Zones Z57 through Z99 are mapped to annunciator address 02,
points 1 through 44(A2P1 - A2P44). Note: Points 45 through 64 are
not used (A2P45 - A2P64).
Connecting the ACM-8R to the AFP-200When using the ACM-8R with
the AFP-200, switch SW2 on the AFP-200 must be set tothe 'ACS'
position. The EIA-485 connections are made to TB5-1 (+) and TB5-2
(-) on theAFP-200. Regulated, filtered, non-resettable power for
the ACM-8R may be obtainedfrom TB4-3 (+) and TB4-4 (-) on the
AFP-200.
Appendix DACM-8R and the AFP-200
ACM-8R
AFP-200TB1-3 (+)TB1-4 (-)
TB5-1 (+)TB5-2 (-)
24 VDC
EIA-485
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System AlarmNot usedNot usedNot usedNot usedNot usedNot usedNot
used
Z1Z2Z3Z4Z5Z6Z7Z8Z9Z10Z11Z12Z13Z14Z15Z16Z17Z18Z19Z20Z21Z22Z23Z24Z25Z26Z27Z28Z29Z30Z31Z32Z33Z34Z35Z36Z37Z38Z39Z40Z41Z42Z43Z44Z45Z46Z47Z48Z49Z50Z51Z52Z53Z54Z55Z56
Relay 1Relay 2 not usedRelay 3 not usedRelay 4 not usedRelay 5
not usedRelay 6 not usedRelay 7 not usedRelay 8 not used
Relay 1Relay 2Relay 3Relay 4Relay 5Relay 6Relay 7Relay 8Relay
1Relay 2Relay 3Relay 4Relay 5Relay 6Relay 7Relay 8Relay 1Relay
2Relay 3Relay 4Relay 5Relay 6Relay 7Relay 8Relay 1Relay 2Relay
3Relay 4Relay 5Relay 6Relay 7Relay 8Relay 1Relay 2Relay 3Relay
4Relay 5Relay 6Relay 7Relay 8Relay 1Relay 2Relay 3Relay 4Relay
5Relay 6Relay 7Relay 8Relay 1Relay 2Relay 3Relay 4Relay 5Relay
6Relay 7Relay 8
ACM-8RDip Switches
1=On5=On
ACM-8RDip Switches
2=On5=On
ACM-8RDip Switches
3=On5=On
ACM-8RDip Switches
4=On5=On
ACM-8RDip Switches
1=On6=On
ACM-8RDip Switches
2=On6=On
ACM-8RDip Switches
3=On6=On
ACM-8RDip Switches
4=On6=On
Annunciator Address '01'AFP-200 Zone ACM-8 Relay Settings
Relay 1Relay 2Relay 3Relay 4Relay 5Relay 6Relay 7Relay 8Relay
1Relay 2Relay 3Relay 4Relay 5Relay 6Relay 7Relay 8Relay 1Relay
2Relay 3Relay 4Relay 5Relay 6Relay 7Relay 8Relay 1Relay 2Relay
3Relay 4Relay 5Relay 6Relay 7Relay 8Relay 1Relay 2Relay 3Relay
4Relay 5Relay 6Relay 7Relay 8Relay 1Relay 2Relay 3
Relay 4 not usedRelay 5 not usedRelay 6 not usedRelay 7 not
usedRelay 8 not used
Z57Z58Z59Z60Z61Z62Z63Z64Z65Z66Z67Z68Z69Z70Z71Z72Z73Z74Z75Z76Z77Z78Z79Z80Z81Z82Z83Z84Z85Z86Z87Z88Z89Z90Z91Z92Z93Z94Z95Z96Z97Z98Z99
Not UsedNot UsedNot UsedNot UsedNot Used
ACM-8RDip Switches
1=On5=On
ACM-8RDip Switches
2=On5=On
ACM-8RDip Switches
3=On5=On
ACM-8RDip Switches
4=On5=On
ACM-8RDip Switches
1=On6=On
ACM-8RDip Switches
2=On6=On
Annunciator Address '02'AFP-200 Zone ACM-8 Relay Settings
AFP-200/ACM-8R RelayAssignmentAlarm Only Mode
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System StatusSystem StatusSystem StatusSystem StatusSystem
StatusSystem StatusSystem StatusSystem Status
Z1Z2Z3Z4Z5Z6Z7Z8Z9
Z10Z11Z12Z13Z14Z15Z16Z17Z18Z19Z20Z21Z22Z23Z24Z25Z26Z27Z28Z29Z30Z31Z32Z33Z34Z35Z36Z37Z38Z39Z40Z41Z42Z43Z44Z45Z46Z47Z48Z49Z50Z51Z52Z53Z54Z55Z56
1. System AlarmRelay 2 not usedRelay 3 not usedRelay 4 not
usedRelay 1 not usedRelay 2 not usedRelay 3 not usedRelay 4 not
used
Relay 1Relay 2Relay 3Relay 4Relay 1Relay 2Relay 3Relay 4Relay
1Relay 2Relay 3Relay 4Relay 1Relay 2Relay 3Relay 4Relay 1Relay
2Relay 3Relay 4Relay 1Relay 2Relay 3Relay 4Relay 1Relay 2Relay
3Relay 4Relay 1Relay 2Relay 3Relay 4Relay 1Relay 2Relay 3Relay
4Relay 1Relay 2Relay 3Relay 4Relay 1Relay 2Relay 3Relay 4Relay
1Relay 2Relay 3Relay 4Relay 1Relay 2Relay 3Relay 4Relay 1Relay
2Relay 3Relay 4
5. System Trouble6. Signal SilenceRelay 7 not usedRelay 8 not
used5. Supervisory6. Pre-Alarm
7. AC Fail8. Panel Trouble
Relay 5Relay 6Relay 7Relay 8Relay 5Relay 6Relay 7Relay 8Relay
5Relay 6Relay 7Relay 8Relay 5Relay 6Relay 7Relay 8Relay 5Relay
6Relay 7Relay 8Relay 5Relay 6Relay 7Relay 8Relay 5Relay 6Relay
7Relay 8Relay 5Relay 6Relay 7Relay 8Relay 5Relay 6Relay 7Relay
8Relay 5Relay 6Relay 7Relay 8Relay 5Relay 6Relay 7Relay 8Relay
5Relay 6Relay 7Relay 8Relay 5Relay 6Relay 7Relay 8Relay 5Relay
6Relay 7Relay 8
ACM-8RDip Switches
1=On5=On
ACM-8RDip Switches
2=On5=On
ACM-8RDip Switches
3=On5=On
ACM-8RDip Switches
4=On5=On
ACM-8RDip Switches
1=On6=On
ACM-8RDip Switches
2=On6=On
ACM-8RDip Switches
3=On6=On
ACM-8RDip Switches
4=On6=On
ACM-8RDip Switches
1=On7=On
ACM-8RDip Switches
2=On7=On
ACM-8RDip Switches
3=On7=On
ACM-8RDip Switches
4=On7=On
ACM-8RDip Switches
1=On8=On
ACM-8RDip Switches
2=On8=On
ACM-8RDip Switches
3=On8=On
ACM-8RDip Switches
4=On8=On
Annunciator Address '02'AFP-200 ACM-8R ACM-8R Zone Alarm Trouble
Settings
Relay 1Relay 2Relay 3Relay 4Relay 1Relay 2Relay 3Relay 4Relay
1Relay 2Relay 3Relay 4Relay 1Relay 2Relay 3Relay 4Relay 1Relay
2Relay 3Relay 4Relay 1Relay 2Relay 3Relay 4Relay 1Relay 2Relay
3Relay 4Relay 1Relay 2Relay 3Relay 4Relay 1Relay 2Relay 3Relay
4Relay 1Relay 2Relay 3Relay 4Relay 1Relay 2Relay 3Relay 4
Z57Z58Z59Z60Z61Z62Z63Z64Z65Z66Z67Z68Z69Z70Z71Z72Z73Z74Z75Z76Z77Z78Z79Z80Z81Z82Z83Z84Z85Z86Z87Z88Z89Z90Z91Z92Z93Z94Z95Z96Z97Z98Z99
Not Used
Relay 5Relay 6Relay 7Relay 8Relay 5Relay 6Relay 7Relay 8Relay
5Relay 6Relay 7Relay 8Relay 5Relay 6Relay 7Relay 8Relay 5Relay
6Relay 7Relay 8Relay 5Relay 6Relay 7Relay 8Relay 5Relay 6Relay
7Relay 8Relay 5Relay 6Relay 7Relay 8Relay 5Relay 6Relay 7Relay
8Relay 5Relay 6Relay 7Relay 8Relay 5Relay 6Relay 7Relay 8
ACM-8RDip Switches
1=On5=On
ACM-8RDip Switches
2=On5=On
ACM-8RDip Switches
3=On5=On
ACM-8RDip Switches
4=On5=On
ACM-8RDip Switches
1=On6=On
ACM-8RDip Switches
2=On6=On
ACM-8RDip Switches
3=On6=On
ACM-8RDip Switches
4=On6=On
ACM-8RDip Switches
1=On7=On
ACM-8RDip Switches
2=On7=On
ACM-8RDip Switches
3=On7=On
AFP-200/ACM-8R RelayAssignment
Alarm/Trouble Mode Annunciator Address '01'AFP-200 ACM-8R ACM-8R
Zone Alarm Trouble Settings
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Appendix EACM-8R and the SFP-1024
CapabilitiesWhen installed with an SFP-1024 Fire Alarm Control
Panel (FACP), the ACM-8RRelay Control Modules provide relay
activation for each of the ten FACP zones plusspecial functions.
Options exist to allow for alarm only or alarm and trouble
activa-tions per zone. Output activation for general alarm, general
trouble, general supervi-sory, NAC fault, AC fail, system off
normal, walktest start and battery trouble are alsoavailable. Up to
32 ACM-8R Relay Control Modules may be placed onto the
EIA-485communication bus (if no other devices are installed on the
bus).
CAUTION! : It is vitally important that, following relay
programming, all relays betested for correct activation by
triggering zones and/or special functions at the FACP.It should
also be noted :• ACM-8R relays will activate during the Alarm
Pre-signal Sequence and for Process Monitoring.• ACM-8R Relays will
not activate during the Alarm Verification Retard and
Resetperiods.• ACM-8R Relays will return to normal if a zone is set
for autoresettable operation.
Figure A-1: Wiring ACM-8R to SFP-1024
ACM-8R
SFP-1024
LED-10IM
Power OutEIA-485
120ΩΩΩΩΩ ELRPart #71244
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ACM-8R Alarm Activation OnlyDIP switch SW3 on the ACM-8R Relay
Control Module is used to determine whichFACP activations will
trigger relays on the Relay Control Module. When installedwith an
SFP-1024 Fire Alarm Control Panel, use the following tables to set
SW3switches. Note that two tables are provided; one table for alarm
only operation(SW4-1 = ON) and one table for alarm and trouble
operation (SW4-1 = OFF).
enoZ4201-PFS yaleRR8-MCA sgnitteS3WS
mralAmetsyS 1yaleR
desUtoN desuton2yaleR R8-MCAts1
desUtoN desuton3yaleR NO=1-3WS
desUtoN desuton4yaleR NO=5-3WS
desUtoN desuton5yaleR FFO=srehtollA
desUtoN desuton6yaleR
desUtoN desuton7yaleR
desUtoN desuton8yaleR
1Z 1yaleR
2Z 2yaleR R8-MCAdn2
3Z 3yaleR NO=2-3WS
4Z 4yaleR NO=5-3WS
5Z 5yaleR FFO=srehtollA
6Z 6yaleR
7Z 7yaleR
8Z 8yaleR
9Z 1yaleR R8-MCAdr3
01Z 2yaleR NO=3-3WS
a/n desuton3yaleR NO=5-3WS
a/n desuton4yaleR FFO=srehtollA
a/n desuton5yaleR
a/n desuton6yaleR
a/n desuton7yaleR
a/n desuton8yaleR
Table A-1 provides the switch settings for ACM-8R DIP switch SW3
when configuringthe relays to trigger for SFP-1024 alarm activation
only. Note that a maximum ofthree ACM-8Rs are required if one relay
is to be designated to trigger on any FACPalarm.
If a general system alarm relay is not required, two ACM-8Rs may
be used to allowindividual relay triggering for activation of FACP
zones 1 through 10. When usingonly two ACM-8Rs, be sure to use the
switch settings for the 2nd and 3rd ACM-8R inTable A-1.
Refer to Figure A-2 for information on setting DIP switch
SW3.
Table A-1: SW3 Settings for Alarm Only
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enoZ4201-PFS yaleRmralAR8-MCA yaleRelbuorTR8-MCA sgnitteS3WS
sutatSmetsyS mralAmetsyS1 elbuorTmetsyS5 R8-MCAts1
sutatSmetsyS desuton2yaleR desuton6yaleR NO=1-3WS
sutatSmetsyS desuton3yaleR lamroNffOmetsyS7 NO=5-3WS
sutatSmetsyS desuton4yaleR yrosivrepuSmetsyS8 FFO=srehtollA
sutatSmetsyS desuton1yaleR tluaF)s(CAN5 R8-MCAdn2
sutatSmetsyS desuton2yaleR tratStsetklaW6 NO=2-3WS
sutatSmetsyS desuton3yaleR elbuorTyrettaB7 NO=5-3WS
sutatSmetsyS desuton4yaleR liaFCA8 FFO=srehtollA
1Z 1yaleR 5yaleR R8-MCAdr3
2Z 2yaleR 6yaleR NO=3-3WS
3Z 3yaleR 7yaleR NO=5-3WS
4Z 4yaleR 8yaleR FFO=srehtollA
5Z 1yaleR 5yaleR R8-MCAht4
6Z 2yaleR 6yaleR NO=4-3WS
7Z 3yaleR 7yaleR NO=5-3WS
8Z 4yaleR 8yaleR FFO=srehtollA
9Z 1yaleR 5yaleR R8-MCAht5
01Z 2yaleR 6yaleR NO=1-3WS
a/n desuton3yaleR desuton7yaleR NO=6-3WS
a/n desuton4yaleR desuton8yaleR FFO=srehtollA
Table A-2 provides the switch settings for ACM-8R DIP switch SW3
when configuringthe relays to trigger for SFP-1024 alarm and
trouble activation. Note that a maximumof five ACM-8Rs are required
if relays are to be designated to trigger on any FACPstatus
change.
If system status relays are not required, three ACM-8Rs may be
used to allowindividual relay triggering for alarm and trouble
activation of FACP zones 1 through10. When using only three
ACM-8Rs, be sure to use the switch settings for the 3rd,4th and 5th
ACM-8R in Table A-2.
Refer to Figure A-2 for information on setting DIP switch
SW3.
Table A-2: SW3 Settings for Alarm and Trouble
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3333333333Document 15342 Rev D1 07/24/97 P/N 15342:D1
Application Example #1: Zone Alarm Activation Only (no system
status relays)Program the SFP-1024 at Level 3 addresses 02 - 03 for
the proper address setting.The address selected must be the highest
or maximum address value selected onany annunciator or ACM-8R
connected to the EIA-485 port. (Refer to the Program-ming
Instructions Section 3 of the SFP-1024 Installation Manual P/N:
50475).
For this example, only one relay per SFP-1024 zone is required
and the ACM-8Rsare the only devices on the EIA-485 bus. Since only
ACM-8Rs occupy the bus, theaddress setting for the ACM-8Rs should
be switches SW1 = 0 and SW2 = 1. Enterthis address into the
SFP-1024 Level 3 addresses 02 - 03.
Since each ACM-8R module contains eight relays, two ACM-8R
modules arerequired for 10 zones. Set the Mode Select switch SW4
for alarm only on both ACM-8Rs (SW4-1 = ON). Set one ACM-8R for
Receive Only (SW4-2 = ON) and the otherfor Receive/Transmit (SW4-2
= OFF). Set switch SW3 on one ACM-8R so that SW3-2 = ON and SW3-5 =
ON, and the remaining switches are OFF. Set SW3 on theother ACM-8R
so that SW3-3 = ON and SW3-5 = ON, and the remaining switchesare
OFF. Refer to the following charts:
enoZ4201-PFS yaleRR8-MCA sgnitteS
1Z 1yaleR 1#R8-MCA
2Z 2yaleR
3Z 3yaleR 1=2WS,0=1WS'10'sserddA
4Z 4yaleR
5Z 5yaleRNO=5-3WS,NO=2-3WS
FFO=8-3WS,7-3WS,6-3WS,4-3WS,3-3WS,1-3WS
6Z 6yaleR
7Z 7yaleR )ylnOevieceR(NO=2-4WS,)ylnOmralA(NO=1-4WS
8Z 8yaleR
enoZ4201-PFS yaleRR8-MCA sgnitteS
9Z 1yaleR 2#R8-MCA
01Z 2yaleR
A/N 3yaleR 1=2WS,0=1WS'10'sserddA
A/N 4yaleR
A/N 5yaleRNO=5-3WS,NO=3-3WS
FFO=8-3WS,7-3WS,6-3WS,4-3WS,2-3WS,1-3WS
A/N 6yaleR
A/N 7yaleRFFO=2-4WS,)ylnOmralA(NO=1-4WS
)timsnarT/evieceR(
A/N 8yaleR
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3434343434 Document 15342 Rev D1 07/24/97 P/N 15342:D1
Application Example #2: Zone Alarm and Trouble Activation (no
system statusrelays)Program the SFP-1024 at Level 3 addresses 02 -
03 for the proper address setting.The address selected must be the
highest or maximum address value selected onany annunciator or
ACM-8R connected to the EIA-485 port. (Refer to the Program-ming
Instructions Section 3 of the SFP-1024 Installation Manual P/N:
50475).
For this example, two relays per zone are required for alarm and
trouble, therefore,three ACM-8Rs are necessary. In this example,
the ACM-8Rs are the only deviceson the EIA-485 bus. Set the ACM-8R
address switches so that SW1 = 0 and SW2 =1 on each of the three
ACM-8Rs. Enter this address into the SFP-1024 Level 3addresses 02 -
03.
Set the SW4 Mode Select switch on each ACM-8R to Alarm/Trouble
activation (SW4-1 = OFF). Set SW4-2 to the ON position for Receive
Only operation on the first twoACM-8Rs and set SW4-2 to the OFF
position for Receive/Transmit operation on thelast (3rd) ACM-8R to
ensure proper supervision of all modules. On the first ACM-8R,set
SW3-3 = ON, SW3-5 = ON and the remaining SW3 switches to OFF. On
thesecond ACM-8R, set SW3-4 = ON, SW3-5 = ON and the remaining SW3
switches toOFF. On the last ACM-8R, set SW3-1 = ON, SW3-6 = ON and
the remaining SW3switches to OFF. Refer to the following
charts:
4201-PFSenoZ
R8-MCAmralAyaleR
R8-MCAelbuorTyaleR
sgnitteS
1Z 1yaleR 5yaleR 1#R8-MCA
2Z 2yaleR 6yaleR 1=2WS,0=1WS'10'sserddA
3Z 3yaleR 7yaleRNO=5-3WS,NO=3-3WS
=8-3WS,7-3WS,6-3WS,4-3WS,2-3WS,1-3WSFFO
4Z 4yaleR 8yaleRNO=2-4WS,)elbuorT/mralA(FFO=1-4WS
)ylnOevieceR(
4201-PFSenoZ
R8-MCAmralAyaleR
R8-MCAelbuorTyaleR
sgnitteS
5Z 1yaleR 5yaleR 2#R8-MCA
6Z 2yaleR 6yaleR 1=2WS,0=1WS'10'sserddA
7Z 3yaleR 7yaleRNO=5-3WS,NO=4-3WS
=8-3WS,7-3WS,6-3WS,3-3WS,2-3WS,1-3WSFFO
8Z 4yaleR 8yaleRNO=2-4WS,)elbuorT/mralA(FFO=1-4WS
)ylnOevieceR(
4201-PFSenoZ
R8-MCAmralAyaleR
R8-MCAelbuorTyaleR
sgnitteS
9Z 1yaleR 5yaleR 3#R8-MCA
01Z 2yaleR 6yaleR 1=2WS,0=1WS'10'sserddA
A/N 3yaleR 7yaleRNO=6-3WS,NO=1-3WS
=8-3WS,7-3WS,5-3WS,4-3WS,3-3WS,2-3WSFFO
A/N 4yaleR 8yaleRFFO=2-4WS,)elbuorT/mralA(FFO=1-4WS
)timX/vcR(
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3535353535Document 15342 Rev D1 07/24/97 P/N 15342:D1
Application Example #3: Two LED-10 Annunciators and 10 Alarm
Only Relays (nosystem status)Program the SFP-1024 at Level 3
addresses 02 - 03 for the proper address setting.The address
selected must be the highest or maximum address value selected on
anyannunciator or ACM-8R connected to the EIA-485 port. (Refer to
the ProgrammingInstructions Section 3 of the SFP-1024 Installation
Manual P/N: 50475).
For this example, only one relay per SFP-1024 zone is required
and the ACM-8Rs aresharing the EIA-485 bus with two LED-10Ns. Since
ACM-8Rs are sharing the bus withtwo other devices, the address
setting for the ACM-8Rs should be switches SW1 = 0and SW2 = 3.
Enter this address into the SFP-1024 Level 3 addresses 02 - 03.
Since each ACM-8R module contains eight relays, two ACM-8R
modules are requiredfor 10 zones. Set the Mode Select switch SW4
for alarm only on both ACM-8Rs (SW4-1 = ON). Set the first ACM-8R
on the bus for Receive Only (SW4-2 = ON) and the lastACM-8R for
Receive/Transmit (SW4-2 = OFF). Set switch SW3 on the first ACM-8R
sothat SW3-2 = ON and SW3-5 = ON, and the remaining switches are
OFF. Set SW3 onthe last ACM-8R so that SW3-3 = ON and SW3-5 = ON,
and the remaining switchesare OFF.Note: Figure A-2 is provided as
an application example and is not intended to be usedas a wiring
diagram. Refer to Figure A-1 or the appropriate manuals for
detailed wiringinformation.
Figure A-2: Two LED-10Ns and 10 Alarm Only Relays
FACP Program Level 3Address 02 = '0'Address 03 = '3'
Receive/Transmit
Receive/Transmit
LED-10N Address '01'
LED-10N Address '02'
ACM-8R Address '03' ACM-8R Address '03'
Receive Only Receive/Transmit
SW3-2 = ONSW3-5 = ON
SW4-1 = ONSW4-2 = ON
SW3-3 = ONSW3-5 = ON
SW4-1 = ONSW4-2 = OFF
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3636363636 Document 15342 Rev D1 07/24/97 P/N 15342:D1
Application Example #4: Two LED-10N Annunciators, 10 Alarm Only
Relays and20 Alarm and Trouble Relays (no system status
relays)Program the SFP-1024 at Level 3 addresses 02 - 03 for the
proper address setting.The address selected must be the highest or
maximum address value selected onany annunciator or ACM-8R
connected to the EIA-485 port. (Refer to the Program-ming
Instructions Section 3 of the SFP-1024 Installation Manual P/N:
50475).
For this example, only one relay per SFP-1024 zone is required
for the first set ofAlarm Only Relays, two relays per SFP-1024 zone
is required for the second set ofAlarm and Trouble Relays and the
ACM-8Rs are sharing the EIA-485 bus with twoLED-10Ns. Since ACM-8Rs
are sharing the bus with two other devices, the addresssetting for
the first set of ACM-8Rs should be switches SW1 = 0 and SW2 = 3
foraddress '03'. The address setting for the second set of ACM-8Rs
should be switchesSW1 = 0 and SW2 = 4 for address '04'. Enter this
highest address into the SFP-1024Level 3 addresses 02 - 03.
Since each ACM-8R module contains eight relays, two ACM-8R
modules arerequired for 10 zones of Alarm Only Relays. In this
example, these ACM-8Rs are setto address '03'. Set the Mode Select
switch SW4 for alarm only on both Alarm OnlyACM-8Rs (SW4-1 = ON).
Set the first ACM-8R with address '03' for Receive Only(SW4-2 = ON)
and the second ACM-8R with address '03' for Receive/Transmit(SW4-2
= OFF). Set switch SW3 on the first ACM-8R so that SW3-2 = ON and
SW3-5 = ON, and the remaining switches are OFF. Set SW3 on the
second ACM-8R sothat SW3-3 = ON and SW3-5 = ON, and the remaining
switches are OFF.
Three ACM-8R modules are required for 10 zones of Alarm and
Trouble Relays (20relays required). In this example, these ACM-8Rs
are set to address '04'. Set theMode Select switch SW4 for alarm
and trouble on all three ACM-8Rs addressed as'04' (SW4-1 = OFF).
Set the first two ACM-8Rs with address '04' for Receive Only(SW4-2
= ON) and the third ACM-8R with address '04' for Receive/Transmit
(SW4-2= OFF). Set switch SW3 on the first ACM-8R so that SW3-3 = ON
and SW3-5 = ON,and the remaining switches are OFF. Set SW3 on the
second ACM-8R so that SW3-4 = ON and SW3-5 = ON, and the remaining
switches are OFF. Set switch SW3 onthe third ACM-8R so that SW3-1 =
ON and SW3-6 = ON, and the remaining switchesare OFF. Refer to
Figure A-3 for an illustration of this application.
Note: Figure A-3 is provided as an application example and is
not intended to beused as a wiring diagram. Refer to Figure A-1 or
the appropriate manuals fordetailed wiring information.
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Figure A-3: Two LED-10Ns, 10 Alarm Only Relays and 20Alarm and
Trouble Relays
LED-10N Address '01'
Receive/Transmit
LED-10N Address '02'
Receive/Transmit
ACM-8Rs set to Address '03' (Alarm Only)
Receive Only
Receive/Transmit
SW3-2 = ONSW3-5 = ON
SW4-1 = ONSW4-2 = ON
SW3-3 = ONSW3-5 = ON
SW4-1 = ONSW4-2 = OFF
SW3-3 = ONSW3-5 = ON
SW4-1 = OFFSW4-2 = ON
SW3-4 = ONSW3-5 = ON
SW4-1 = OFFSW4-2 = ON
SW3-1 = ONSW3-6 = ON
SW4-1 = OFFSW4-2 = OFF
Receive Only Receive Only Receive/Transmit
ACM-8Rs set to Address '04' (Alarm and Trouble)
FACP Program Level 3Address 02 = '0'Address 03 = '4'
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Notes
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Technical Publishing Document WARNSM-C.P65
06/11/97www.PDF-Zoo.com