Advanced Axis AX Series User manual
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Conventional Zone Module
Installation & Operation Manual
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Table of Contents Page
1INTRODUCTION...................................................................................................................................................3
2INSTALLATION....................................................................................................................................................4
2.1MOUNTING .....................................................................................................................................................4
2.1.1AX-CZM Module with Hardware ..............................................................................................................4
2.1.2AX-009 Enclosure Mounting ....................................................................................................................5
2.1.3AX-CZM Module Mounting in AX-009 Enclosure.....................................................................................6
2.2DIP SWITCH PROGRAMMING ...........................................................................................................................8
2.3AX-CZM MODULE OPERATING MODES ...........................................................................................................9
2.3.1Class B Mode of Operation......................................................................................................................9
2.3.2Class A Mode of Operation......................................................................................................................9
2.4AX-CZM MODULE WIRING .............................................................................................................................9
2.4.1Class A Conventional Zone Wiring ........................................................................................................10
2.4.2Class B Conventional Zone Wiring ........................................................................................................10
2.4.3AX-CZM 24 VDC Power Wiring .............................................................................................................11
2.4.4AX-CZM Reset Input Wiring...................................................................................................................11
2.4.5AX-CZM Host Panel Monitoring Wiring..................................................................................................12
2.4.6Multiple AX-CZM Module Power and Reset Wiring ...............................................................................13
2.4.7Typical Host Panel Monitoring/Control of the AX-CZM Module.............................................................14
3DETECTOR COMPATIBILITY ...........................................................................................................................15
4MODULE SPECIFICATIONS .............................................................................................................................17
Note: Prefix “C” equals Canadian Conventional Zone Module (CAX-CZM)
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1 Introduction
The AX-CZM (CAX-CZM Canadian ULC version) is Advanced’s conventional zone module that can be monitored
and controlled by any ANSI/UL 864 or ULC S527 Listed fire alarm control panel (Host FACP”). The module
provides monitoring of up to eigth (8) Class B, with programmable end-of-line, or four (4) Class A conventional
zones, and has three Form C relay contacts for signalling an alarm, trouble and, if required, earth/ground fault
condition on a per module basis.
The AX-CZM module gets powered from either the HOST FACP or a regulated, power limited 24 VDC power supply
Listed for Fire Protection Signaling.
Note: The power supply power to the AX-CZM module must be a regulated, power limited 24 VDC power
supply Listed for Fire Protection Signaling.
The AX-CZM module makes use of the Advanced Software Monitoring And Real Time Power Management
(SMART-PM) techniques in order to minimize current requirements under alarm conditions across multiple zones.
This SMART-PM technology results in lower power consumption, and increased fire alarm control panel battery life.
Figure 1
–
A
X-CZM Module
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2 Installation
2.1 Mounting
2.1.1 AX-CZM Module with Hardware
The AX-CZM module is supplied with a terminal designation strip and hardware for mounting in an Advanced AX-
009 enclosure (see figure 2).
Note: The AX-009 enclosure can support two (2) AX-CZM modules (see figure 7).
The AX-CZM module must be earth/grounded; this is normally achieved via the screws used to secure
the module to the enclosure and the enclosure being earth/grounded. Should this not be the case, a
dedicated earth/ground must be provided.
Figure 2 – AX-CZM Module, Terminal Designation Strip and Hardware
AX-
CZM
Terminal
Designation
Strip
Hardware
6 – Hex Standoffs
4 – Screws
Must be
Grounded
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2.1.2 AX-009 Enclosure Mounting
The AX-009 enclosure can be mounted utilizing the provided three mounting holes or it can be mounted to a single
or double gang electrical box. Refer to the below diagram for enclosure dimensions. When mounting the AX-009
enclosure to the wall use appropriate hardware to secure properly.
When mounting ensure that there is sufficient space to allow the cover to be removed / opened after installation. If
the cover is completely removed, remember to reconnect the earth/ground wire prior to replacing the cover.
Note: The AX-009 enclosure includes seven 7/8” knockouts (4 on top / 3 on bottom) and one 5/8” knockout
(on bottom) for conduit connection.
Figure 3 – AX-009 Enclosure Mounting
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2.1.3 AX-CZM Module Mounting in AX-009 Enclosure
1. Screw the four (4) provided hex standoffs on to the four (4) mounting studs of the AX-009 enclosure as
indicated below.
2. Place the AX-CZM module over the four (4) installed hex standoffs and secure with two (2) screws and
two (2) Hex standoffs (see figure 5).
3. Place the terminal designation strip over the two (2) previously installed Hex standoffs and secure with
the remaining two (2) screws (see figure 6).
Note: The terminal designation strip is printed on both sides, with one indicating Class B wiring
and the other indicating Class A wiring designations. Based on wiring requirements, place the
correct wiring designation facing out.
ON
1
TX
RX
HB
COM N/C N/O COM N/ C N/O COM N/ C N/O
0V 24V
I/P MON
A PBUS B
REL1 / FIRE REL2 / TROUBLE REL3 / EA RTH
Figure 5
–
A
X-CZM Module Mounting
Figure 4 – AX-CZM Module Standoff Mounting
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4. If a second AX-CZM module is required secure the second AX-CZM module to the right-side mounting
studs in the same manner as was explained with the left-side AX-CZM module (see figure 7).
+ - + -
ZON E 1 ZON E 2
+ - + -
ZON E 1 ZON E 2
+ - + -
ZON E 1 ZON E 2
+ - + -
ZON E 1 ZO N E 2
CLASS B ZONE MONITOR
ALLCIRCUITS ARE POWER LIMITED
ON
1
ON = PBUS MODULE
ON= CLASS A/ OFF =CLASS B
ON= EARTHMONITOR ACTIVE
ADDRESS
SETUP
ON
1
TX
RX
HB
COM N/C N/ O COM N/ C N/O COM N/ C N/O
0V 24V
I/P MON
A PBUS B
REL1/ FIRE REL2/ TROUBLE REL3 / EARTH
+ - + -
ZON E 1 ZON E 2
+ - + -
ZON E 1 ZON E 2
+ - + -
ZON E 1 ZON E 2
+ - + -
ZON E 1 ZO N E 2
CLA SS B ZONE MONITOR
ALLCIRCUITS ARE POWER LIMITED
ON
1
ON = PBUS MODULE
ON= CLASS A/ OFF =CLASS B
ON = E A R TH M ON ITO R A C TI VE
ADDRESS
SETUP
ON
1
TX
RX
HB
COM N/C N/ O COM N/ C N/O COM N/ C N/O
0V 24V
I/P MON
A PBUS B
REL1/ FIRE REL2 / TROUBLE REL3 / EARTH
Figure 7 – Two (2) AX-CZM Modules Mounted in an AX-009 Enclosure
ON
1
TX
RX
HB
COM N/C N/ O COM N/ C N/O COM N/ C N/O
0V 24V
I/P MON
A PB US B
RE L1 / FIRE R E L2 / TROU BLE R E L3 / EA RTH
Figure 6
–
Terminal Designation Strip Mounting
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2.2 DIP Switch Programming
Each AX-CZM module has four DIP switch settings for programming module functionalities. The AX-CZM module
can be setup as eight (8) Class B or four (4) Class A conventional zones, configured for local earth/ground fault
monitoring, if the host panel’s power supply does not provide earth/ground fault detection capabilities, and can be
configured for either 3.9K, 4.7K or 6.8K Class B end-of-line (EOL) monitoring.
AX-CZM Module Default Dip Switch Settings = All OFF:
Segment 7 OFF: Earth/ground fault monitoring is performed by host panel’s power supply. If AX-CZM local
earth/ground fault monitoring is required, slide DIP switch segment 7 to the ON position.
Note: If multiple AX-CZM modules require earth/ground fault monitoring and they are receiving power from
a common power supply source only one (1) of the AX-CZM modules should be set to AX-CZM local
earth/ground fault monitoring. In addition, if an AX-CZM module is performing earth/ground fault
monitoring the earth/ground fault reference impedance is 75K.
Segment 6 OFF: Class B wiring for all conventional zones. If Class A wiring is required, slide DIP switch
segment 6 to the ON position.
Segment 3 – 5 OFF: Unused dip switch segments, position has no relevance, leave in the OFF position.
Segment 1 – 2 OFF: Class B end-of-line (EOL) value 6.8K. If a 4.7K or 3.9K Class B end-of-line is required, set
DIP switch 1 and 2 as indicated below:
DIP 1 DIP 2 Setting
0 (OFF) 0 (OFF) 6.8K (Default)
1 (ON) 0 (OFF) 4.7K
0 (OFF) 1 (ON) 3.9K
1 (ON) 1 (ON) Unused (6.8K)
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2.3 AX-CZM Module Operating Modes
The AX-CZM module zone circuits are preset to the following operating modes:
2.3.1 Class B Mode of Operation
Zone # Latching Input Alarm Verification Short Circuit = Alarm
1
2
3
4
5 * Non-Latching
6 * Non-Latching
7
8
2.3.2 Class A Mode of Operation
Zone # Latching Input Alarm Verification Short Circuit = Alarm
1
2
3
4 * Non-Latching
* Note: These preconfigured “Non-Latching” zone circuits are not permitted by ANSI/UL864 or ULC S527.
These zones should be considered Not Connected.
2.4 AX-CZM Module Wiring
This equipment is constructed with static sensitive components. Observe anti-static
precautions at all times when handling printed circuit boards. Wear an anti-static
earth/ground strap connected to enclosure earth/ground point.
The AX-CZM module must be earth/grounded; this is normally achieved via the screws used to secure
the module to the enclosure and the enclosure being earth/grounded. Should this not be the case, a
dedicated earth/ground must be provided.
The AX-CZM module offers eight (8) Class B or four (4) Class A conventional zones, and three (3) Form C, relay
outputs (Alarm, Trouble and Earth/Ground Fault). In addition, the AX-CZM module has a resettable input for
resetting latched zone alarm conditions.
ATTENTION
OBSERVE PRECAUTIONS
FOR HANDLING
ELECTROSTATIC
SENSITIVE DEVICES
Must be
Grounded
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2.4.1 Class A Conventional Zone Wiring
1. Wire out-going conventional zone circuit wiring to “Zone 1, 2, 3 or 4, OUT + and –“. Wire incoming
conventional zone circuit wiring to “Zone 1, 2, 3 or 4, IN + and –“(see figure 8).
2.4.2 Class B Conventional Zone Wiring
1. Wire out-going conventional zone circuit wiring to “Zone 1, 2, 3, 4, 5, 6, 7 or 8, OUT + and –“, and install
a 6.8K end-of-line (EOL) resistor (4.7K or 3.9K based on DIP switch 1 and 2 setting) at the last device
(see figure 9).
Figure 8 – AX-CZM Class A Module Wiring
Figure 9 – AX-CZM Class B Module Wiring
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2.4.3 AX-CZM 24 VDC Power Wiring
1. Wire, in conduit, 24 VDC from the Host FACP or an ANSI/UL Listed power supply to terminals 0V and
24V of the AX-CZM module [0V = negative, 24V = positive] (see figure 10). If supplying voltage to
multiple AX-CZM modules, wire 0V and 24V to next AX-CZM module.
Note: Loss of 24 VDC will transfer the failsafe (inverted) trouble relay contact. If supervision of the failsafe
(inverted) trouble relay contact is not made by the HOST fire alarm control panel, Host panel and the
interface wiring must be installed in conduit, within the same room and no further than 20 feet away from
the AX-CZM module.
2.4.4 AX-CZM Reset Input Wiring
1. Wire, in conduit, a normal open reset relay contact, which momentarily closes on host panel reset, to
the “I/P – MON” input of the AX-CZM module. When activated (closed momentarily) the AX-CZM
module will reset all active (latched) zones (see figure 11).
Note: The HOST FACP normally open (momentary closed for reset) input is unsupervised, reset contact
and wiring must be installed in conduit, within the same room and no further than 20 feet away from the AX-
CZM module.
Figure 10 – AX-CZM 24 VDC Wiring
Figure 11 – AX-CZM Reset Input Wiring
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2.4.5 AX-CZM Host Panel Monitoring Wiring
1. Wire the host panel monitoring inputs to the Alarm and Trouble contacts of the AX-CZM module.
2. If AX-CZM local earth/ground fault monitoring is required, wire the host panel earth/ground fault
monitoring input to the Ground Fault Contact of the AX-CZM module (see figure 12).
The AX-CZM module has three (3) Form C relay contacts (Alarm, Trouble and
Earth/Ground Fault), for host panel monitoring of the AX-CZM module status.
These three relays are global to all conventional zones on the AX-CZM module, so
while an alarm or trouble can be reported, it cannot be determined which of the
conventional zones is active. For this reason, it is recommended that all AX-CZM
module conventional zones be associated with the same physical detection area.
Note: If supervision of the AX-CZM module status relay contacts is not made by the HOST fire alarm
control panel, Host panel and the interface wiring must be installed in conduit, within the same room and
no further than 20 feet away from the AX-CZM module.
TX
RX
HB
COM N/C N/O COM N/C N/O COM N/C N/O
0V 24V
I/P MON
A PBUS B
REL1 / FIRE REL2 / TROUBLE REL3 / EARTH
Alarm
Contact
Trouble
Contact
Ground
Fault
Contact
Form C Relay Contact
Host Panel Monitoring
Figure 12 – AX-CZM Host Panel Relay Contact Wiring
* Relay Contacts Rated
1A @ 30VDC, 1PF
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2.4.6 Multiple AX-CZM Module Power and Reset Wiring
Note: Loss of 24 VDC will transfer the failsafe (inverted) trouble relay contact. The HOST FACP normally
open (momentary closed for reset) input is unsupervised, wiring must be within 20 feet of the reset contact
in conduit.
+ - + -
ZONE 1 ZONE 2
+ - + -
ZONE 3 ZONE 4
+ - + -
ZONE 5 ZONE 6
+ - + -
ZONE 7 ZONE 8
CLASS B ZONE MONITOR
ALL CIRCUITS ARE POWER LIMITED ON
1
ON = PBUS MODULE
ON = CLASS A / OFF = CLASS B
ON = EARTH MONITOR ACTIVE
ADDRESS
SETUP
ON
1
TX
RX
HB
COM N/C N/O COM N/C N/O COM N/C N/O
0V 24V
I/P MON
A PBUS B
REL1 / FIRE REL2 / TROUBLE REL3 / EARTH
(+)
(--)
24
VDC
+ - + -
ZONE 1 ZONE 2
+ - + -
ZONE 3 ZONE 4
+ - + -
ZONE 5 ZONE 6
+ - + -
ZONE 7 ZONE 8
CLASS B ZONE MONITOR
ALL CIRCUITS ARE POWER LIMITED ON
1
ON = PBUS MODULE
ON = CLASS A / OFF = CLASS B
ON = EARTH MONITOR ACTIVE
ADDRESS
SETUP
ON
1
TX
RX
HB
COM N/C N/O COM N/ C N/O COM N/C N/ O
0V 24V
I/P MON
A PBUS B
REL1 / FIRE REL2 / TROUBLE REL3 / EARTH
Host Panel Reset Input
(momentary short/contact closure)
Host Panel Reset Input
(momentary short/contact closure)
Figure 13 – Multiple AX-CZM Module Power and Reset Wiring
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2.4.7 Typical Host Panel Monitoring/Control of the AX-CZM Module
Note: The HOST FACP normally open (momentary closed for reset) input is unsupervised, wiring must be
within 20 feet of the reset contact in conduit. Supervision of the alarm, trouble and, if required,
earth/ground relay contacts is performed by the Host FACP zone modules. The trouble relay contact, is
failsafe (inverted) loss of 24 VDC power will transfer the trouble contact. End-of-line resistors for the
Canadian CAX-CZM must be installed on an Advanced EOL-ASSY (standard single gang end-of-line plate).
Preconfigured “Non-Latching” zone circuits (Class B = zones 5 & 6; Class A = zone 4) are not permitted by
ANSI/UL864 or ULC S527. These zones should be considered Not Connected.
ON
1
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3 Detector Compatibility
Model Detector
ID
Detector
Type
Base
Model
Base
ID
Standby
Current
(μA)
Maximum
# of
Devices /
Circuit
GE (ESL - Sentrol)
711U S10A Photoelectric 701E, 701U, 702E, 702U S00 70 20
711UT S10A Photo / Thermal 701E, 701U, 702E, 702U S00 70 20
721U S10A Photoelectric 701E, 701U, 702E, 702U S00 70 20
721UT S10A Photo / Thermal 701E, 701U, 702E, 702U S00 70 20
712U S10A Ionization 701E, 701U, 702E, 702U S00 70 20
722U S10A Ionization 701E, 701U, 702E, 702U S00 70 20
713-5U S10A ROR / Fixed Temp 701E, 701U, 702E, 702U S00 70 20
713-6U S10A Rate Of Rise 701E, 701U, 702E, 702U S00 70 20
429C S10A Photoelectric N/A S00 70 20
429CT S10A Photo / Thermal N/A S00 70 20
428C S10A Photoelectric N/A S00 70 20
428CT S10A Photo / Thermal N/A S00 70 20
C2M-PD * S10A Photoelectric N/A S00 70 20
C2M-PDC * S10A Photoelectric N/A S00 70 20
C2M-PDHC * S10A Photo / Thermal N/A S00 70 20
511C S10A Photoelectric N/A S00 70 20
511AFT S10A Photo / Thermal N/A S00 70 20
518C * S10A Photoelectric N/A S00 70 20
518AFT * S10A Photo / Thermal N/A S00 70 20
521B S10A Photoelectric N/A S00 70 20
528B * S10A Photoelectric N/A S00 70 20
521BXT S10A Photo / Thermal N/A S00 70 20
528BXT * S10A Photo / Thermal N/A S00 70 20
System Sensor (BRK)
2W-B A Photo Electric (i3) N/A N/A 100 20
2WT-B A Photo / Thermal (i3) N/A N/A 100 20
C2W-BA * A Photo Electric (i3) N/A N/A 80 20
C2WT-BA * A Photo / Thermal (i3) N/A N/A 80 20
1100 A Ionization N/A N/A 100 20
1100A * A Ionization N/A N/A 100 20
1151 A Ionization B401, B110LP, B116LP A 120 16
1151A * A Ionization B401, B401B, B110LPA A 120 16
1400 A Ionization N/A N/A 100 20
1400A * A Ionization N/A N/A 100 20
1451 A Ionization B401B, B406B A 120 16
1451A * A Ionization B401B, B406BA A 120 16
1451DH A Ionization DH-400 A 120 16
1800 A Ionization N/A N/A 120 16
1851 A Ionization B101B, B107B A 120 16
2100S A Photoelectric N/A N/A 100 20
2100SA * A Photoelectric N/A N/A 100 20
2100TS A Photo / Thermal N/A N/A 100 20
2100TSA * A Photo / Thermal N/A N/A 100 20
2151 A Photoelectric B401, B110LP, B116LP A 120 16
2151A * A Photoelectric B401, B401B, B110LPA A 120 16
2400 A Photoelectric N/A N/A 120 16
2400A * A Photoelectric N/A N/A 120 16
2400TH A Photo / Thermal N/A N/A 120 16
2400THA * A Photo / Thermal N/A N/A 120 16
2451 A Photoelectric B401, B406B, DH-400 A 120 16
2451A * A Photoelectric B401, B406B, DH-400 A 120 16
2451TH A Photo / Thermal B401, B406B A 120 16
2800 A Photoelectric N/A N/A 120 16
2800TH A Photo / Thermal N/A N/A 120 16
2851B A Photoelectric B101B, B106B A 120 16
2851BTH A Photo / Thermal B101B, B106B A 120 16
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FCI
301I A Ionization 301B A 120 16
301P A Photoelectric 301B A 120 16
301PT A Photo / Thermal 301B A 120 16
301IL A Ionization 301BL A 120 16
301PL A Photoelectric 301BL A 120 16
301T A Photo / Thermal 301BL A 120 16
Fenwal (Kidde-Fenwal)
CPD-7021 I1FE1 Duct (Ionization) 70-211002-000 D22FE1 60 20
CPD-7021 I1FE1 Ionization 70-201000-001 FEO1A 60 20
70-201000-002 FEO2A
70-201000-003 FEO3A
70-201000-005 FEO5A
PSD-7125 P5FE1 Photoelectric 70-201000-001 FEO1A 100 20
70-201000-002 FEO2A
70-201000-003 FEO3A
70-201000-005 FEO5A
PSD-7126 P6FE1 Photo / Thermal 70-201000-001 FEO1A 100 20
70-201000-002 FEO2A
70-201000-003 FEO3A
70-201000-005 FEO5A
PSD-7129 P9FE1 Duct (Photoelectric) 70-211002-000 D22FE1 100 20
CPD-7051 * I51FE1 Duct (Ionization) 2WB
2WRLT
FE51A,
FE52A,
60 20
CPD-7051 * I51FE1 Ionization 2WB
2WRLT
FE51A
FE52A
FE55A
60 20
PSD-7155 * P55FE1 Photoelectric 2WB
2WRLT
FE51A,
FE52A,
60 20
PSD-7156 * P56FE1 Photoelectric 2WB
2WRLT
FE51A,
FE52A,
60 20
PSD-7155 * P55FE1 Duct (Photoelectric) 2W DH60 60 20
Hochiki
DCD-135/190 * DCD-135/190 ROR / Fixed Temp NS6-100, HSC-220R HB-55, 72 45 20
SIJ-24 SIJ-24 Ionization NS6-100, HSC-220R HB-55, 72 40 20
SLR-24H * SLR-24H Photo / Thermal NS6-100, HSC-220R HB-55, 72 45 20
SLR-24V * SLR-24V Photoelectric NS6-100, HSC-220R HB-55, 72 45 20
Mircom
MIR-1400A * A Ionization N/A N/A 100 20
Siemens
DI-3 * DI-3 Ionization DB-3S DB-3S 100 20
DI-3H DI-3H Ionization DB-3S DB-3S 100 20
DI-A3 * DI-A3 Ionization DB-3S DB-3S 100 20
PE-11 PE-11 PhotoelectricDB-11 DB-11 110 18
PE-11C * PE-11C PhotoelectricDB-11 DB-11 110 18
PE-11T * PE-11T Photo / Thermal DB-11 DB-11 110 18
Simplex (only compatible when installed in a Class B configuration)
2098-9201 HD-3 Photoelectric 2098-9211 HB-54 40 20
2098-9202 HD-3 Photo / Thermal 2098-9211 HB-54 40 20
2098-9576 HD-3 Ionization 2098-9211 HB-54 40 20
4098-9201 HD-3 Photoelectric 2098-9211 HB-54 100 20
4098-9202 HD-3 Photo / Thermal 2098-9211 HB-54 100 20
* Suitable for use with ULC S527 control unit.
Note: The previous table assumes that all devices in a zone are of the same family and type. If mixed
families and/or types are used the maximum device quiescent load should be kept to less than 2mA.
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4 Module Specifications
AX–CZM Conventional Zone Module Specifications
Operating Voltage 24VDC (wired from FACP 24VDC or a Listed power supply)
Operating Current
Quiescent
Minimum
Maximum (Relays - OFF)
Maximum (Relays - ON)
Alarm
110mA (Vs = 24V, 8 Zones = Min Load)
120mA (Vs = 24V, 8 Zones = Max Load, Relays Off)
135mA (Vs = 24V, 8 Zones = Max Load, 3 Relays On)
@ least 318mA (Vs = 20V, 8 Zones = Max Alarm Load, 3 Relays On)
Ground Fault Reference Impedance 75K (valid only for AX-CZMs performing earth/ground fault detection)
Temperature (Indoor/Dry Environment) 32–1200F (0-490C)
Relative Humidity 93% Non Condensing (maximum)
Dimension 1.3”H x 4.2”W x 5”L
Weight 5.3 oz
Zone Circuits
Zone Circuit Voltage
Zone Circuit Current Limit
Zone Circuit Resistance
Class B End-of-Line (EOL)
Eight (8) Class B or Four (4) Class A
24V ± 5%
50mA (Under Short Circuit)
50Ω
Configurable:
6.8K, Part Number 855-027-682
4.7K, Part Number 855-027-472
3.9K, Part Number 855-027-392
End-of-line resistors for the Canadian CAX-CZM must be installed on
an Advanced EOL-ASSY (standard single gang end-of-line plate)
As our policy is one of constant product improvement the right is therefore reserved to modify product specifications without prior notice
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Doc Number: 682-040S AFS
Revision: 1.2
First Issued: 2013-mm-dd
100 South Street, Hopkinton, Massachusetts 01748
Tel: (508) 435-9995 Fax: (508) 435-9990
Email: usa@advancedco.com Web: www.advancedco.com
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