Altronix AL1002ULADA NAC Power Extenders Installation Guide

: June 4, 2024
: Altronix

More than just power.™

NAC Power Extenders
Models Include:

AL1002ULADA
Wall Mountable NAC Power Extender
R1002ULADA
Rack Mountable NAC Power Extender
Installation Guide
(see Application Guide for additional information)

Rev. 062320

Installing Company: ___ Service Rep. Name:

Address: _____ Phone #:

Overview:

Altronix AL1002ULADA (wall mount) and R1002ULADA (rack mount) are extremely cost-effective 10A NAC power extenders with built-in battery charging. It may be connected to any 12 or 24 volt Fire Alarm Control Panel (FACP). Primary applications include Notification Appliance Circuit (NAC such as strobes and horns) expansion support to meet ADA requirements. It also provides auxiliary power to support system accessories. The unit delivers electronically regulated and filtered 24 volt power to Class B or Class A NAC loop circuits. The 10A max. alarm current can be divided between the four (4) outputs for powering NAC devices. Each output is rated at 2.5A max., and can be independently programmed for Steady, Temporal Code 3 or Strobe Synchronization. All outputs may be programmed for Input to Output Follower Mode (output will follow input). In non-alarm condition independent loop supervision for Class A and/or Class B FACP NAC circuits is provided. In the event of a loop trouble, the FACP will be notified via the steered input (Input 1 or Input 2). In addition, there are common trouble output terminals (NC, C, NO) which are used to indicate general loop/system trouble. A common trouble input is provided for optional NC (normally closed) devices to report trouble to the FACP. Two (2) FACP signaling outputs can be employed and directed to control supervision and power delivery to any combination of the four (4) outputs.

Specifications:

Agency Listings:

UL Listed Control Units for Fire Protective Signaling Systems (UL 864).
CSFM – California State Fire Marshal Approved.
NFPA 72 Compliant.

Input:

Power input 120VAC 60 Hz, 5.0A.
Two (2) Class A or two (2) Class B FACP inputs.
Two (2) NC dry contact trigger inputs.
Input Ratings: INP1 and INP2: 8-30VDC 6.5mA max from FACP. 12V 6.5mA, 24V 6.5mA from FACP.

Output:

Power-limited outputs.
24VDC @10A max total alarm current.
2.5A max current per output.
Separate 1.0A auxiliary output.
Programmable supervised indicating circuit outputs: Four (4) Class B or Two (2) Class A or One (1) Class A and Two (2) Class B (see Application Guide).
Thermal and short circuit protection with auto reset. Battery Backup:
Built-in charger for sealed lead acid or gel type batteries.
Automatic switchover to stand-by battery when AC Fails.
Zero voltage drop when switching over to battery backup.

Visual Indicators:

Input and output status LED indicators.

Supervision:

AC fail supervision (form “C” contact, 1A/28VDC). Factory set for 2 hours with optional 1 minute delay setting (field selectable).
Instant local AC trouble reporting relay (form “C” contact, 1A / 28VDC).
Battery presence and low battery supervision (form “C” contact, 1A / 28VDC).

Special Features:

2-wire horn/strobe Sync mode allows audible notification appliances (horns) and visual notification appliances (strobes) to be silenced/deactivated at the same time.
Sync protocols include Potter/Amseco, Gentex ® , System Sensor ® , and CooperWheelock ® .
Temporal Code 3, Steady Mode, Input to Output Follower Mode (maintains synchronization of notification appliances circuit).
Compatible with 12VDC or 24VDC fire panels.
Output loop supervision steered to Input 1 or Input 2.
Signal circuit trouble memory (helps identify intermittent loop problems).
Common trouble input and output.
Ground fault detection.
Unit includes power supply, red enclosure, cam lock, and battery leads.

Enclosure Dimensions (approx. H x W x D): AL1002ULADA: 15.5” x 12” x 4.5” (393.7mm x 304.8mm x 114.3mm). R1002ULADA: 3.375” x 19.0” x 26.5” (85.8mm x 482.6mm x 673.1mm).

WARNING: To reduce the risk of fire or electric shock, do not expose the unit to rain or moisture.
This installation should be made by qualified service personnel and should conform to all local codes.

Power Supply Specifications:

AC Input:| 120VAC, 60Hz, 5A, supplied by a maximum 15A dedicated branch circuit.
---|---
Output:| Four (4) regulated supervised NAC output circuits, 24VDC, 2.5A maximum current.
One (1) aux. special application 24VDC power output circuit 1A, non-supervised Class
E. Total output current must not exceed current 10A in Alarm Condition.
Battery| Use two (2) 12VDC / 7AH, two (2) 12VDC / 12AH or two (2) 12VDC / 36AH
batteries connected in series.
Stand-by/Alarm
Current Consumption:| 130mA/300mA
EOL Resistor (end of line):| 2.2K (2200 Ohm), Altronix Model # AL-EOL22 (included).
Ground fault maximum
test impedance:| 1000 Ohm.

Stand-by Specifications:

Stand-by Batteries| Stand-by Time Total
(A/Minutes)| Alarm Output
Current| Aux. Output
---|---|---|---
24VDC/7AH| 24 Hours| 10A/5 minutes|
24VDC/12AH (use two (2) 12VDC batteries in series)| 24 Hours| 10A/5 minutes| 50mA
24VDC/36AH| 24 Hours| 10A/5 minutes| 1A

Note: Unit is equipped with 1A max. auxiliary output: “AUX” will remain battery backed up during power outage. For loads connected to “AUX” please refer to battery “Stand-by Specifications” above for ratings. When loads are connected to “AUX” output during alarm condition, the remaining outputs may, not exceed 10A total alarm current (example: AUX = 1A, outputs up to 9A).

Installing R1002ULADA into Rack Tower:

Wiring methods shall be in accordance with the National Electrical Code/NFPA 70/ANSI, and with all local codes and authorities having jurisdiction. Product is intended for indoor use only.
Note: First assemble and install Z Bracket Wire Management Accesory (refer to Z Bracket Installation pg. 4)
Note: Rack enclosure must be UL listed and hard wired to a branch electrical circuit via conduit

Remove backplane from enclosure prior to installing into rack cabinet (do not discard hardware). Grounding: Connect both grounding lugs (Fig. 1) to earth ground using 12 AWG wire
In order to mount included UL Listed tamper switch (Altronix Model TS112 or equivalent) turn the enclosure upside down. Punch out the knockout in designated location, on the back of the unit, from outside of the drawer (Fig. 2, pg. 3). Insert the tamper switch into the knockout from outside of the drawer with the button facing outwards and spaded connectors inside the drawer. Connect tamper switch wiring to the Access Control Panel input or the appropriate UL Listed reporting device. To activate alarm signal open the rack drawer.
Slide the rack enclosure into an open 2U location in the four-post rack cabinet. Intended for indoor use in properly ventilated racks with ambient temperature inside the rack not to exceed 33ºC. Allow approx. 1” of spacing between units or other equipment.
Utilizing proper fasteners attach front ears to the rack rails (Rack Drawer, pg. 20).
Attach the rear of the adjustable slides to the rear rails of the rack cabinet with the proper fasteners.
Ensure that all internal cofigurations (voltage selection, switch settings, etc.) are completed before mounting backplane back into rack enclosure.

Mounting AL1002ULADA:

Mount the unit in the desired location. Mark and predrill holes in the wall to line up with the top two keyholes in the enclosure. Install two upper fasteners and screws in the wall with the screw heads protruding. Place the enclosure’s upper keyholes over the two upper screws; level and secure. Mark the position of the lower two holes. Remove the enclosure. Drill the lower holes and install two fasteners. Place the enclosure’s upper keyholes over the two upper screws. Install the two lower screws and make sure to tighten all screws (Enclosure Dimensions, pg. 19). Secure enclosure to earth ground (Fig. 5, pg. 5). Small terminal block wire gauges range from 16 AWG to 24 AWG, all others range from 14 AWG to 24 AWG.

Z Bracket Installation for R1002ULADA:

Altronix R1002ULADA enclosure includes Z Bracket, a convenient and reliable wire management accessory.

Hardware (included):

Ten (10) bolts and	eight (8) lock nuts.

Carefully unpack Z Bracket. Do not discard hardware (included) (Fig. 3, pg. 4).
Attach arms to each other using bolts and lock nuts (Fig. 3a, pg. 4).
Attach the hinge brackets to the ends of arms using bolts and nuts positioning them as shown on (Fig. 3b, pg. 4).
Make sure that all nuts are tightened.
Attach the hinge bracket on the longer side of Z Bracket to the adjustable slide using bolts and lock nuts (included) (Fig. 4, 4a, pg. 4).
Attach the hinge bracket on the shorter side of Z Bracket to the rear of the rack enclosure using bolts (included).

Installation Instructions:

Wiring methods shall be in accordance with the National Electrical Code/NFPA 70/NFPA 72/ANSI, and with all local codes and authorities having jurisdiction.

PRODUCT IS INTENDED FOR INDOOR DRY USE ONLY.

Carefully review:
Application Guide for AL602ULADA, AL802ULADA, AL1002ULADA

Power Supply Specifications	(pg. 3)
Stand-by Specifications	(pg. 3)
Output Programming Selection Table	(pg. 6)
Sync Mode Selection Table	(pg. 6)
Terminal Identification Table	(pgs. 7 & 8)
LED Status Indication Table	(pg. 8)

AL1002ULADA: connect line (L) and neutral (N) terminals to a separate unswitched AC circuit (120VAC, 60Hz) dedicated to the Fire Alarm System (Fig. 5 pg. 5). R1002ULADA: Plug the grounded AC line cord (included) into the IEC 320 connector of the R1002ULADA (Fig. 6, pg. 10). Plug unit into a reliable earth grounded socket located inside the rack enclosure. If different line cord is used it has to be UL listed SVT type 18AWG, minimum 6′ in length and min 60ºC temperature rated. Do not connect to a receptacle controlled by a switch.
Measure output voltage before connecting devices.This helps avoiding potential damage.
Connect battery to the terminals marked [ BAT +] on the Power Supply Board (battery leads included). Use two (2) 12VDC batteries connected in series.
Note: If batteries being used in your installation do not fit into the AL1002ULADA/R1002ULADA unit, it is required to install a separate enclosure, UL Listed for appropriate application. Separate battery enclosure is required to have 50 cubic inches of additional open space. All wiring methods shall be in accordance with the National Electrical Code NFPA 70/NFPA 72/ANSI and with all local codes and authorities having jurisdiction. Battery circuits are not power-limited; provide 0.25″ spacing from power-limited circuits and use separate knockout. If additional battery enclosure is required, it must be UL Listed for the application and mounted within 5′ of the AL1002ULADA enclosure in the same room; minimum 12 AWG wire in appropriate conduit is required for connection. When using conduit, make sure it is installed in a matter where it can not turn.
Set output selection switches marked [OUT1 through OUT4] to follow corresponding input [IN1 & IN2] and desired output signal type (Output Programming Selection Table, pg. 5).
Connect FACP output to the desired AL800LGK9E logic board inputs, and notification appliances to the desired AL800LGK9E logic board outputs (see Application Guide).
Note: The 2-wire horn/strobe sync mode will only synchronize horns, horn/strobes, strobes with synchronization capability.
WARNING: Emergency control or non fire equipment cannot be connected on same circuitry as fire alarm equipment.

Class A, Class B SW1 & SW2 Settings:

For all Class B hookups SW1 and SW2 on the AL800LGK logic board must be turned OFF.
For all Class A hookups SW1 and SW2 on the AL800LGK logic board must be turned ON.

Output Programming Selection Table:

Outputs must be programmed independently (OUT1 – OUT4)

Function	Switch Positions	Descriptions
ON	OFF

Input to Output
Follower Mode| 1| 2, 3| Output follows signal it receives from the corresponding
input (i.e. FACP Sync module – maintains synchronization of
notification appliance circuit).
Temporal Code 3 Mode| 3| 1, 2| Enables Temporal Code 3 signal generation output.
This mode will accept a steady or a pulsing input.
Steady Mode| | 1, 2, 3| A steady output signal will be generated.
This mode will accept steady or pulsing input.

For the above modes DIP Switch 4 determines which Input controls the corresponding output: Switch 4 in the ON position causes output(s) to be controlled by Input 1. Switch 4 in the OFF position causes output(s) to be controlled by Input 2. NOTE: It is required to control visual notification appliances (strobes) via Input 1 (IN1) and audible notification appliances (horns) via Input 2 (IN2). This allows audible notification appliances (horns) and visual notification appliances (strobes) to be silenced/ deactivated at same time.

AL800LGK9E Board
Output DIP Switches

Sync Mode Selection Table:

Function	Switch Positions	Descriptions
ON	OFF
Amseco Sync Mode*	1, 3,
4	2	This mode is designed to work with the Amseco series of horns, strobes,

and horn/strobes to provide a means of synchronizing the Temporal-coded horns, synchronizing the flash timing of the strobe, and allowing audible notification appliances (horns) and visual notification appliances (strobes) to be silenced/ deactivated at the same time.
Gentex®
Sync Mode
Centex is a registered trademark of
Gentex Corporation.| 1, 2,
3,4| | This mode is designed to work with the Gentex® series of horns, strobes, and horn/strobes to provide a means of synchronizing the Temporal- coded horns, synchronizing the flash timing of the strobe, and allowing audible notification appliances (horns) and visual notification appliances (strobes) to be silenced/ deactivated at the same time.
System Sensors’ Sync Mode
System Sensor is a registered trademark of Honeywell.| 1, 2, 4| 3| This mode is designed to work with the System Sensor® series of horns, strobes, and hom/strobes to provide a means of synchronizing the Temporal-coded horns, synchronizing the one-second flash timing of the strobe, and allowing audible notification appliances (horns) and visual notification appliances (strobes) to be silenced/ deactivated at the same time.
CooperWheelock® Sync Mode* CooperWheelock is a registered trademark of Cooper Wheelock.| 2,3, 4| 1| This mode is designed to work with the CooperWheelock series of horns, strobes, and hom/strobes to provide a means of synchronizing the Temporal-coded horns, synchronizing the one-second flash timing of the strobe, and allowing audible notification appliances (horns) and visual notification appliances (strobes) to be silenced/ deactivated at the same time.

*Note: The AL1002ULADA/R1002ULADA will only synchronize horns, horn/strobes, and strobes that contain synchronization capability. The same synchronization mode must be selected for all outputs

Amount of Notification Appliances per NAC:

Amseco	27 per NAC*	System Sensor ®	32 per NAC*
Gentex®	32 per NAC*	CooperWheelock ®	32 per NAC*

Terminal Identification Table:

AL800LGK9E Logic Board

Terminal Legend	Function/Description

IN1 +, IN1 —
IN2 +, IN2 — (Supervised)| These terminals connect to the 24VDC FACP notification appliance circuit outputs. (Class A or Class B) Input trigger voltage is 8-33VDC @ 6.5mA min. Terminal polarity is shown in alarm condition. During an alarm condition these inputs will cause the selected outputs chosen to drive notification appliances. The designated outputs are set by output switches [OUT1 through OUT4] (Output Programming Selection Table, pg. 5). A trouble condition on an output loop will cause the corresponding input to trip the FACP by opening the FACP loop. An alarm condition will always override trouble to drive notification appliances. Rated 12V 6.5mA, 24V 6.5mA.
RET1 +, RET1 —
RET2 +, RET2 — (Supervised)| For Class A hookups these terminal pairs return to FACP NAC1 and/or NAC2.
For Class B hookups the FACP EOL resistor from the NAC1 and/or NAC2 outputs are terminated at these terminals.
C “DRY1” NC C “DRY2” NC (Dry input trigger)| An open across these inputs, will cause the selected outputs chosen to drive notification appliances. The designated outputs are set by output switches [OUT1 through OUT4] (Output Programming Selection Table, pg. 5). Note these inputs are unidirectional and will not report a trouble condition to the FACP.
+ OUT1 —
+ OUT2 —
+ OUT3 —
+ OUT4 — (Supervised)| Notification appliances are connected to these regulated outputs (see 02 Application Guide pg. 2-4). Each power-limited output will supply 2.5A. Total supply current is 10A (see note below). Outputs are controlled by designated Input 1 [IN1] or Input 2 [IN2] (Output Programming Selection, pg. 5)
C “FAULT” NC (Common
trouble input)| An open circuit across this pair of terminals will cause [IN1 and IN2] to simultaneously signal a trouble condition back to the FACP (Typically used to report AC or BAT Fail). Form “C” contact 1A / 28VDC (Fig. 8, pg. 11).
NC, C, NO
(Common
trouble output)| These are dry contact trouble outputs that follow any general loop/system trouble conditions. (Typically used to trigger a digital communicator or other reporting device). Form “C” contact 1A / 28VDC, 0.35 Power Factor (Fig. 8, pg. 11).
AUX +| This separate 1A max auxiliary Special Application Power output circuit is Non-Supervised, Class E. See attached list of devices (Appendix A, pgs. 14-17). Supervised,
— DC +| 24VDC from power supply.

Note: Unit is equipped with 1A max. auxiliary output: “AUX” will remain battery backed up during power outage. For loads connected to “AUX” please refer to battery “Stand-by Specifications”, pg. 3 for ratings. When loads are connected to “AUX” output during alarm condition, the remaining outputs may not exceed 10A total alarm current (example: AUX = 1A, outputs up to 10A).

Terminal Identification Table:

**Power Supply Board***

Terminal
Legend| Function/Description
---|---
L, N| Connect 120VAC to these terminals: L to hot, N to neutral (Fig. 8, pg. 11).
+ DC —| 24VDC @ 10A in alarm non-power-limited output (Fig. 8, pg. 11).
AC FAIL
NO, C, NC| Form “C” dry contacts used to instantaneously signal the loss AC to local annunciation devices,
with AC present terminals marked NO and C are open, NC and C are closed. When loss of AC
occurs terminals marked NO and C are closed, NC and C are open.
AC LOCAL
NC, NO, C| Form “C” dry contacts used to instantaneously signal the loss AC to local annunciation devices,
with AC present terminals marked NO and C are open, NC and C are closed. When loss of AC
occurs terminals marked NO and C are closed, NC and C are open.
BAT FAIL
NO, C, NC| Form “C” dry contacts used to signal low battery voltage or loss of battery voltage. Under
normal conditions terminals marked NO and C are open, NC and C are closed. During a trouble
condition terminals marked NO and C are closed, and NC and C are open (Fig. 8, pg. 11).
— BAT +| Stand-by battery input (leads provided) (Fig. 8, pg. 11).

*Power Board Parameter Specifications:

AC Fail condition will report approximately 2 hours after loss of AC. To set AC Delay to 1 minute power the unit down (AC supply and Battery) prior to changing switch position. Turn “AC Delay” switch ON for 1 minute or OFF for 2 hours, respectively.
Low battery condition will report at approximately 20VDC.
Battery presence detection will report with in 180 seconds after battery remains undetected (missing or removed). A restored battery will report within 30 seconds.

LED Diagnostics:

Power Supply Board

Red (DC)	Green (AC)	Power Supply Status
ON	ON	Normal operating condition.
ON	OFF	Loss of AC. Stand-by battery is supplying power.
OFF	ON	No DC output.
OFF	OFF	Loss of AC. Discharged or no stand-by battery. No DC output.

AL800LGK9E – Logic Board

LED	OFF	ON	BLINK (LONG)*	BLINK (SHORT)**
Output 1	Normal	Alarm Condition	Trouble Condition	Trouble Condition Memory
Output 2	Normal	Alarm Condition	Trouble Condition	Trouble Condition Memory
Output 3	Normal	Alarm Condition	Trouble Condition	Trouble Condition Memory
Output 4	Normal	Alarm Condition	Trouble Condition	Trouble Condition Memory
Input 1	Normal	Alarm Condition	Trouble Condition	—
Input 2	Normal	Alarm Condition	Trouble Condition	—
Fault	Normal	Alarm Condition	—	—

Indicates current trouble condition. When trouble (open, short or ground) occurs on a specific output, the corresponding red output LED, [OUT1-OUT4] will blink. The corresponding green input LED will blink as well. Loop trouble will report within 30 seconds.
Indicates trouble condition memory. When a trouble condition restores, the units red output LED, [OUT1-OUT4] will blink with a shorter and distinctly a different duration. The green input LEDs will be off (normal condition).
To reset the memory depress the reset button (Fig. 8c, pg. 11). The LED(s) will extinguish.
Note:** If indicating circuits have been restored, memory reset is not required for normal operation of the unit.

NEC Power-Limited Wiring Requirements for AL1002ULADA Models:

Power-limited and non-power-limited circuit wiring must remain separated in the cabinet. All power-limited circuit wiring must remain at least 0.25” away from any non-power-limited circuit wiring. Furthermore, all power-limited circuit wiring and non-power-limited circuit wiring must enter and exit the cabinet through different conduits. One such example of this is shown below. Your specific application may require different conduit knockouts to be used. Any conduit knockouts may be used. For power-limited applications use of conduit is optional. All field wiring connections must be made employing suitable gauge CM or FPL jacketed wire (or equivalent substitute). Optional battery enclosure must be mounted adjacent to the power supply via Class 1 wiring methods.
Note: Refer to wire handling drawing below for the proper way to install the CM or FPL jacketed wire (Fig. 6a, pg. 9).

NEC Power-Limited Wiring Requirements for R1002ULADA Models:

Power-limited and non-power-limited circuit wiring must remain separated in the cabinet. All power-limited circuit wiring must remain at least 0.25” away from any non-power-limited circuit wiring. Furthermore, all power-limited circuit wiring and non-power-limited circuit wiring must enter and exit the cabinet through different conduits.
One such example of this is shown below. Your specific application may require different conduit knockouts to be used. Any conduit knockouts may be used. For power-limited applications use of conduit is optional. All field wiring connections must be made employing suitable gauge CM or FPL jacketed wire (or equivalent substitute).
Optional battery enclosure must be mounted adjacent to the power supply via Class 1 wiring methods.
Note: Refer to wire handling drawing below for the proper way to install the CM or FPL jacketed wire (Fig. 6a, pg. 9).

Hookup Diagram:

Optional Hookups:

Battery and AC monitoring: AC or Battery Fail condition will cause the common trouble input [C “FAULT” NC] to report back to the FACP via Input 1 and Input
The common trouble input may also be used for other optional supervisory monitoring. To report AC and Battery Trouble connect the battery and AC Fail relay output shown in (Fig. 8a, Pg. 11) to the common trouble input.
2- Dry contact input (C “DRY1” NC) (C “DRY2” NC) can be used to alarm output from an addressable module (these inputs are unidirection and cannot report back to trigger module). Connection to triggering devices must be made within 20ft. of distance and using conduit for wiring.
Auxiliary output [ AUX +] 24VDC at 1A max.
AC Local [NC, NO, C] should connect to the host control panel for local annunciation of the trouble condition.
Note: If common trouble input, terminals marked [C “FAULT” NC] are not used, these terminals must be shorted (connect jumper) to remain inactive. For optional hookups see Fig. 8b, Pg. 11.

Maintenance:

Unit should be tested at least once a year for the proper operation as follows:
Output Voltage Test: Under normal load conditions, the DC output voltage should be checked for proper voltage level (26.2-26.4VDC recommended range).
Battery Test: Under normal load conditions check that the battery is fully charged. Check specified voltage both at battery terminal and at the board terminals marked [ BAT +] to ensure that there is no break in the battery connection wires.
Fuses: Check input and output fuses on the power supply board, replace if necessary. Input fuse rating is 6.3A@ 250V, Output fuse rating is 15A @ 32V.
Note: Maximum charging current is 1.5A.
Note: Expected battery life is 5 years; however, it is recommended changing batteries in 4 years or less if needed.

Battery Calculation Worksheet

Device| Number of
Devices| Current per Device| Stand-by
Current| Alarm
Current
---|---|---|---|---
For each device use this formula:| This column x This column = Equals| Current per number of devices.
AL1002ULAD/VR1002ULADA (Current draw from battery)| 1
‘| Stand-by:| 130mA| 130mA|
Alarm:| 300mA| | 300mA
C| AL1002/R1002 Current| 130mA| 300mA
Auxiliary Devices| | Refer to device manual for current ratings.
| | Alarm/Stand-by| mA| mA| mA
| | Alarm/Stand-by| mA| mA| mA
| | Alarm/Stand-by| mA| mA| mA
B| I Auxiliary Devices Current (must not exceed 1A)
| | Refer to device manual for current ratings.
| | Alarm:| mA| OmA| mA
| | Alarm:| mA| OmA| mA
| | Alarm:| mA| OmA| mA
| | Alarm:| mA| OmA| mA
C| Notification Appliances Current must not exceed 1 OA (10,000mA) OmA| | mA
D| Total alarm current| mA| mA
E| Total current ratings converted to amperes (line D x 0.001)| A| A
F| Number of standby hours (24 for NFPA 72, Chapter 1, 1-5.2.5).| H|
G| Multiply lines E and F. Total stand-by All| AH|
H| Alarm sounding period in hours.
(For example, 5 minutes = 0.0833 hours.)| | H
I| Multiply lines E and H. Total alarm All| | AH
J| Add lines G and I. Total stand-by and alarm AH| AH|
K| Multiply line J by 1.30.
(30% extra insurance to meet desired performance) Total ampere – hours required| All|

Units are capable of recharging 36AH battery max. If total ampere – hour required exceeds 36AH, decrease AUX current to provide enough stand-by time for the application.

Appendix A: Compatible UL/cUL Listed Devices for Synchronization

A-1 Strobes, Horns, and Horn/Strobes
Table A-1 below lists Strobes, Horns, and Horn/Strobes compatible with AL1002ULADA/R1002ULADA NAC outputs.

System Sensor:

CHSR – UL	P4R-SP – UL	PC4RH-P – UL	SPSCW – UL	SPSWK-CLR-ALERT-UL
CHSW – UL	P4RH – UL	PC4RH-SP – UL	SPSCW-CLR-ALERT – UL	SPSWK-P – UL
HR/HRK/HW – UL	P4RH-P – UL	PC4W – UL	SPSCW-P – UL	SPSWK-R – UL
MHR – UL	P4RH-SP – UL	PC4W-P – UL	SPSCWH – UL	SPSWV – UL
MHW – UL	P4RK – UL	PC4W-SP – UL	SPSCWH-P – UL	SPSWV-P – UL
P1224MC – UL	P4RK-R – UL	PC4WH – UL	SPSCWHK – UL	SR – UL
P2R – UL	P4W – UL	PC4WH-P – UL	SPSCWHK-P – UL	SR-P – UL
P2R-P – UL	P4W-P – UL	PC4WH-SP – UL	SPSCWK – UL	SR-SP – UL
P2R-SP – UL	P4W-SP – UL	PC4WHK – UL	SPSCWK-CLR-ALERT – UL	SRH – UL
P2RH – UL	P4WH – UL	PC4WK – UL	SPSCWK-R – UL	SRH-P – UL
P2RH-LF – UL	P4WH-P – UL	SCR – UL	SPSCWV – UL	SRH-SP – UL
P2RH-P – UL	P4WH-SP – UL	SCR-P – UL	SPSCWV-P – UL	SRHK – UL
P2RH-SP – UL	P4WK – UL	SCR-SP – UL	SPSCWVH – UL	SRHK-P – UL
P2RHK – UL	PC2R – UL	SCRH – UL	SPSCWVH-P – UL	SRHK-R – UL
P2RHK-P – UL	PC2R-P – UL	SCRH-P – UL	SPSR – UL	SRK – UL
P2RHK-R – UL	PC2RH – UL	SCRH-SP – UL	SPSR-P – UL	SRK-P – UL
P2RK – UL	PC2RH-P – UL	SCRHK – UL	SPSRH – UL	SRK-R – UL
P2RK-P – UL	PC2RH-SP – UL	SCRK – UL	SPSRH-P – UL	SW – UL
P2RK-R – UL	PC2RHK – UL	SCW – UL	SPSRHK – UL	SW-ALERT – UL
P2W – UL	PC2RK – UL	SCW-CLR-ALERT – UL	SPSRK – UL	SW-CLR-ALERT – UL
P2W-P – UL	PC2W – UL	SCW-P – UL	SPSRK-P – UL	SW-P – UL
P2W-SP – UL	PC2W-P – UL	SCW-SP – UL	SPSRK-R – UL	SW-SP – UL
P2WH – UL	PC2W-SP – UL	SCWH – UL	SPSRV – UL	SWH – UL
P2WH-LF – UL	PC2WH – UL	SCWH-P – UL	SPSRV-P – UL	SWH-ALERT – UL
P2WH-P – UL	PC2WH-P – UL	SCWH-SP – UL	SPSW – UL	SWH-P – UL
P2WH-SP – UL	PC2WH-SP – UL	SCWHK – UL	SPSW-ALERT – UL	SWH-SP – UL
P2WHK – UL	PC2WHK – UL	SCWK – UL	SPSW-CLR-ALERT – UL	SWHK – UL
P2WHK-P – UL	PC2WK – UL	SPSCR – UL	SPSW-P – UL	SWHK-P – UL
P2WK – UL	PC4R – UL	SPSCRH – UL	SPSWH – UL	SWK – UL
P2WK-P – UL	PC4R-P – UL	SPSCRV – UL	SPSWH-P – UL	SWK-P – UL
P4R – UL	PC4R-SP – UL	SPSCRVH – UL	SPSWK – UL	P2GRL
P4R-P – UL	PC4RH – UL	P2RL	P2WL	P2GWL
P2RL-P	P2WL-P	P2RL-SP	P2WL-SP	P4RL
P4WL	SRL	SWL	SGRL	SGWL
SRL-P	SWL-P	SRL-SP	SWL-CLR-ALERT	SPSCWL
SPSCWL-P	SPSCWL-SP	SPSCRL	SPSCWL-CLR-ALERT	SPSWL
SPSRL	SPSWL-P	SPSRL-P	SPSWL-Alert	SPSWL-CLR-Alert
SPSRL-SP

Gentex:

GCS24CR – UL	GCCB24PCR / W – UL	GEC24-15/75WR – UL
GCS24CW – UL	GCCG24PCR / W – UL	GEC24-15/75WW – UL
GCS24PCR – UL	GCCR24PCR / W – UL	SSPK24CLPR – UL
GCS24PCW – UL	WGESA24-75PWR / W – UL	SSPK24CLPW – UL
GCC24CR – UL	WGESB24-75PWR / W – UL	SSPK24WLPR – UL
GCC24PCR – UL	WGESG24-75PWR / W – UL	SSPK24WLPW – UL
GCC24CW – UL	WGESR24-75PWR / G – UL	SSPK24AWR – UL
GCC24PCW – UL	WGECA24-75PWR / W – UL	SSPK24AWW – UL
GES3-24WR – UL	WGECB24-75PWR / W – UL	SSPK24-15/75WLPR – UL
GEC3-24WR – UL	WGECG24-75PWR / W – UL	SSPK24-15/75WLPW – UL
GEH24-R – UL	WGECR24-75PWR / G – UL	SSPK24-15/75AWR – UL
GEH24-W – UL	WGESA24-75PWLPR / W – UL	SSPK24-15/75AWW – UL
WGES24-75WR / WW – UL	WGESB24-75PWLPR / W – UL	SSPKA24-15/75PWR – UL
WGES24-75PWR / PWW – UL	WGESG24-75PWLPR / W – UL	SSPKA24-15/75PWW – UL
WGES24-75WRLP / WWLP – UL	WGESR24-75PWLPR / W – UL	SSPKA24-15/75AWR – UL
WGEC24-75WR / WW – UL	WGECA24-75PWLPR / W – UL	SSPKA24-15/75AWW – UL
WGEC24-75PWR / PWW – UL	WGECB24-75PWLPR / W – UL	SSPKB24-15/75PWR – UL
WGEC24-75WRLP / WWLP – UL	WGECG24-75PWLPR / W – UL	SSPKB24-15/75PWW – UL
WGEC24-75PWRLP / WWLP – UL	WGECR24-75PWLPR / W – UL	SSPKG24-15/75PWR – UL
GESA24PWR / W – UL	GX91-R / W – UL/cUL	SSPKG24-15/75PWW – UL
GESB24PWR / W – UL	GX91-PR / W – UL/cUL	SSPKR24-15/75PWR – UL
GESG24PWR / W – UL	GX93-R / W – UL/cUL	SSPKR24-15/75PWW – UL
GESR24PWR / W – UL	GX93-PR / W – UL/cUL	WSSPKA24-15/75AWR – UL
GECA24PWR / W – UL	WSSPK24-15/75WR / WW – UL	WSSPKA24-15/75AWW – UL
GECB24PWR / W – UL	WSSPK24-15/75PWR / PWW – UL	WSSPKA24-15/75PWR – UL
GECG24PWR / W – UL	WSSPK24-15/75AWR / AWW – UL	WSSPKA24-15/75PWW – UL
GECR24PWR / W – UL	GES24-177WR – UL	WSSPKB24-15/75PWR – UL
GCSA24PCR / W – UL	GES24-177WW – UL	WSSPKB24-15/75PWW – UL
GCSB24PCR / W – UL	GES24-15/75WR – UL	WSSPKG24-15/75PWR – UL
GCSG24PCR / W – UL	GES24-15/75WW – UL	WSSPKG24-15/75PWW – UL
GCSR24PCR / W – UL	GEC24-177WR – UL	WSSPKR24-15/75PWR – UL
GCCA24PCR / W – UL	GEC24-177WW – UL	WSSPKR24-15/75PWW – UL

Potter/Amseco:

CM24CR – UL	CSL-1224W-BW – UL/cUL	MH-12/24W – UL/cUL	SSC8-177R – UL
CM24CW – UL	CSL-1224W-GR – UL/cUL	SCM24C-177R – UL	SSC8-177W – UL
CSH-1224W-AR – UL/cUL	CSL-1224W-GW – UL/cUL	SCM24C-177W – UL	SSC8-3075110R

Cooper/Wheelock:

50-241575W-FR – UL/cUL| E70-24MCW-FN – UL/cUL| ET90-24MCCH-FN – UL/cUL| LSTW-A – UL/cUL
---|---|---|---
AH-24WP-R – UL| E70-24MCW-FR – UL/cUL| ET90-24MCCH-FW – UL/cUL| LSTW-ALA – UL/cUL
AMT-12/24-R – UL/cUL| E70-24MCW-FW – UL/cUL| HNR – UL/cUL| LSTW-NA – UL/cUL
AMT-12/24-W – UL/cUL| E70-24MCWH-FN – UL/cUL| HNRC – UL/cUL| LSTW-NA – UL/cUL
AMT-241575W-FR – UL/cUL| E70-24MCWH-FR – UL/cUL| HNW – UL/cUL| MIZ-24S-R – UL/cUL
AMT-241575W-FR-NYC – UL| E70-24MCWH-FR – UL/cUL| HNWC – UL/cUL| MIZ-24S-W – UL/cUL
AMT-241575W-FW – UL/cUL| E70-24MCWH-FW – UL/cUL| HS-24-R – UL/cUL| MT-12/24-R – UL
AMT-24MCW-FR – UL/cUL| E70H-241575W-FR – UL/cUL| HS-24-W – UL/cUL| MT-241575W- FR – UL/cUL
AMT-24MCW-FW – UL/cUL| E70H-241575W-FW – UL/cUL| HS4-241575W-FR – UL/cUL| MT- 241575W-FW – UL/cUL
AS-12100C – UL/cUL| E70H-24MCW-FR – UL/cUL| HS4-24MCC-FR – UL| MT-24MCW-FR – UL/cUL
AS-24100C – UL/cUL| E70H-24MCW-FW – UL/cUL| HS4-24MCC-FW – UL/cUL| MT-24MCW-FW – UL/cUL
ASWP-2475C-FR – UL| E70H-24MCWH-FN – UL/cUL| HS4-24MCW-FR – UL/cUL| MTWP- 2475C-FR – UL
ASWP-2475C-FW – UL| E70H-24MCWH-FW – UL/cUL| HS4-24MCW-FW – UL/cUL| MTWP- 2475C-FW – UL
ASWP-2475W-FR – UL| E90-24MCC-FN – UL/cUL| HSR – UL/cUL| MTWP-2475W-FR – UL
ASWP-2475W-FW – UL| ET90-24MCC-FW – UL/cUL| HSRC – UL/cUL| MTWP-2475W-FW – UL
ASWP-24MCCH-FR – UL| ET90-24MCC-FN – UL/cUL| HSW – UL/cUL| MTWP-24MCCH-FR – UL
ASWP-24MCCH-FW – UL| E90-24MCC-FR – UL/cUL| HSWC – UL/cUL| MTWP-24MCCH-FW – UL
ASWP-24MCWH-FR – UL| E90-24MCC-FW – UL/cUL| LHNR – UL/cUL| MTWP-24MCWH-FR – UL
ASWP-24MCWH-FW – UL| E90-24MCCH-FN – UL/cUL| LHNW – UL/cUL| MTWP-24MCWH-FW – UL
CH70-24MCW-FR – UL/cUL| E90-24MCCH-FR – UL/cUL| LHSR – UL/cUL| RSS-241575W-FR – UL/cUL
CH70-24MCW-FW – UL/cUL| E90-24MCCH-FW – UL/cUL| LHSR-A – UL/cUL| RSS-241575W- FW – UL/cUL
CH70-24MCWH-FR – UL/cUL| E90H-24MCC-FR – UL/cUL| LHSR-AL – UL/cUL| RSS-24MCW- FR – UL/cUL
CH70-24MCWH-FW – UL/cUL| E90H-24MCC-FW – UL/cUL| LHSR-N – UL/cUL| RSS-24MCW- FW – UL/cUL
CH90-24MCC-FR – UL/cUL| E90H-24MCCH-FR – UL/cUL| LHSW – UL/cUL| RSS-24MCWH-FR – UL/cUL
CH90-24MCC-FW – UL/cUL| E90H-24MCCH-FW – UL/cUL| LHSW-A – UL/cUL| RSS-24MCWH- FW – UL/cUL
CH90-24MCCH-FR – UL/cUL| EET90-24MCCH-FR – UL/cUL| LHSW-AL – UL/cUL| RSSA- 24MCC-NW – UL
CH90-24MCCH-FW – UL/cUL| ET-1010-R – UL| LHSW-N – UL/cUL| RSSA-24MCCH-NW – UL
E50-241575W-FW – UL/cUL| ET-1010-W – UL| LSPSTR – UL/cUL| RSSB-24MCC-NW – UL
E50-24MCWH-FR – UL/cUL| ET70-241575W-FR – UL/cUL| LSPSTR-AL – UL/cUL| RSSB- 24MCCH-NW – UL
E50-24MCWH-FW – UL/cUL| ET70-241575W-FW – UL/cUL| LSPSTR-ALA – UL/cUL| RSSG- 24MCC-NW – UL
E50H-241575W-FR – UL/cUL| ET70-24MCW-FN – UL/cUL| LSPSTR-N – UL/cUL| RSSG- 24MCCH-NW – UL
E50H-241575W-FW – UL/cUL| ET70-24MCW-FR – UL/cUL| LSPSTR-NA – UL/cUL| RSSR- 24MCC-NW – UL
E50H-24MCW-FR – UL/cUL| ET70-24MCW-FW – UL/cUL| LSPSTW – UL/cUL| RSSR-24MCCH- NW – UL
E50H-24MCW-FW – UL/cUL| ET70-24MCWH-FN – UL/cUL| LSPSTW-AL – UL/cUL| RSSWP- 2475C-FR – UL
E50H-24MCWH-FR – UL/cUL| ET70-24MCWH-FR – UL/cUL| LSPSTW-ALA – UL/cUL| RSSWP- 2475C-FW – UL
E50H-24MCWH-FW – UL/cUL| ET70-24MCWH-FW – UL/cUL| LSPSTW-N – UL/cUL| RSSWP- 2475W-AR – UL
E60-24MCC-FR – UL/cUL| ET70WP-24185W-FR – UL| LSPSTW-NA – UL/cUL| RSSWP- 2475W-FR – UL
E60-24MCC-FW – UL/cUL| ET70WP-24185W-FW – UL| LSTR – UL/cUL| RSSWP-2475W-FW – UL
E60-24MCCH-FR – UL/cUL| ET70WP-2475C-FR – UL| LSTR-A – UL/cUL| RSSWP-2475W-NW – UL
E60-24MCCH-FW – UL/cUL| ET70WP-2475C-FW – UL| LSTR-AL – UL/cUL| RSSWP-24MCCH- FR – UL
E60H-24MCC-FR – UL/cUL| ET80-24MCW-FR – UL/cUL| LSTR-ALA – UL/cUL| RSSWP- 24MCCH-FW – UL
E60H-24MCC-FW – UL/cUL| ET80-24MCW-FW – UL/cUL| LSTR-NA – UL/cUL| RSSWP- 24MCWH-FR – UL
E60H-24MCCH-FR – UL/cUL| ET80-24MCWH-FR – UL/cUL| LSTRW-ALA – UL/cUL| RSSWP- 24MCWH-FW – UL
E60H-24MCCH-FW – UL/cUL| ET80-24MCWH-FW – UL/cUL| LSTW* – UL/cUL| S8-24MCC-FW – UL/cUL
S8-24MCCH-FW – UL/cUL| STH-3R24MCCH-NR – UL| STR-ALB – UL| STW-ALB – UL
SA-S70-24MCW-FR – UL| STH-4M30WC – UL| STR-NA – UL| STW-NA – UL
SA-S70-24MCW-FW – UL| STH-4MS-R – UL| STR-NB – UL| STW-NB – UL
SA-S90-24MCC-FR – UL| STH-4R – UL| STR-NG – UL| STW-NG – UL
SA-S90-24MCC-FW – UL| STH-4R24MCCH-NW – UL| STR-NR – UL| STW-NR – UL
STH-2G – UL| STH-4R24MCCH110B-NR – UL| STRC-NA – UL| STWC-AB – UL
STH-2MS-R – UL| STH-4R24MCCH110R-NA – UL| STRC-NB – UL| STWC-ALA – UL
STH-2R – UL| STH-4R24MCCH110R-NR – UL| STRC-NG – UL| STWC-ALB – UL
STH-2R24MCCH-NR – UL| STH-90-4R24MCCH-NW – UL| STRC-NR – UL| STWC-NA – UL
STH-3MS-R – UL| STR-AB – UL| STW-AB – UL| STWC-NB – UL
STH-3R – UL| STR-ALA – UL| STW-ALA – UL| STWC-NG – UL
| | | STWC-NR – UL

*When using these model strobes the maximum current per NAC is limited to 2A.

Appendix B – UL Listed Compatible Devices

B-1 Relays
Table B-2 below lists relays compatible with AL1002ULADA/R1002ULADA AUX output and Outputs 1-8 when programmed as AUX.

Manufacturer	Model	Current (mA)
System Sensor	PR-1	15
PR-2	30
PR-3	30
EOLR-1	30
R-10T	23
R-14T	23
Manufacturer	Model	Current (mA)
---	---	---
System Sensor	R-20T	40
R-24T	40
R-10E	23
R-14E	23
R-20E	40
R-24E	40

AL1002ULADA Enclosure Dimensions:

15.5” x 12” x 4.5” (393.7mm x 304.8mm x 114.3mm)

R1002ULADA Enclosure Dimensions (H x W x D):

3.375” x 19.0” x 26.5” (85.8mm x 482.6mm x 673.1mm). Shown with Z Bracket attached.

Altronix is not responsible for any typographical errors.
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IIAL1002ULADA/R1002ULADA
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AL1002ULADA / R1002ULADA Installation Guide