Altronix Maximal FD Series Maximal55FD Dual Power Supply Access Power Controllers Installation Guide
- June 4, 2024
- Altronix
Table of Contents
- Installation Guide
- MaximalFD Series Overview:
- MaximalFD Series Configuration Chart:
- Agency Listings:
- MaximalFD Series Features:
- MaximalFD Installation Instructions:
- Maintenance:
- Power Supply Board LED Diagnostics:
- Access Power Controller LED Diagnostics:
- Power Supply Board Stand-by Battery Specifications:
- Power Supply Board Terminal Identification:
- Access Power Controller Terminal Identification:
- Power Supply Board Output Voltage Settings:
- Access Power Controller Typical Application Diagram (for each ACM8CB):
- NEC Power-Limited Wiring Requirements:
- FACP Hook-Up Diagrams:
- Features:
- LINQ2 Mounts Inside any MaximalF Enclosure
- Read User Manual Online (PDF format)
- Download This Manual (PDF format)
More than just power. TM
Maximal FD Series Maximal55FD Dual
Power Supply Access Power Controllers
Installation Guide
Models Include:
Maximal11FD
– Power Supply 1: 12VDC @ 3.3A or 24VDC @ 3.6A.
– Power Supply 2: 12VDC @ 3.3A or 24VDC @ 3.6A.
– Sixteen (16) PTC-protected power-limited outputs.| Maximal11FD
– Power Supply 1: 12VDC @ 3.3A or 24VDC @ 3.6A.
– Power Supply 2: 12VDC @ 3.3A or 24VDC @ 3.6A.
– Sixteen (16) PTC-protected power-limited outputs.| Maximal55FD
– Power Supply 1: 12VDC @ 9.3A.
– Power Supply 2: 12VDC @ 9.3A.
– Sixteen (16) PTC-protected power-limited outputs.| Maximal75FD
– Power Supply 1: 12VDC @ 9.3A.
– Power Supply 2: 24VDC @ 9.6A.
– Sixteen (16) PTC-protected power-limited outputs.| Maximal77FD
– Power Supply 1: 24VDC @ 9.6A.
– Power Supply 2: 24VDC @ 9.6A.
– Sixteen (16) PTC-protected
power-limited outputs.
---|---|---|---|---
Installation Guide
Rev. MDFD052419
Installing Company: ___
Service Rep. Name: _____
Address: _____
Phone #: __ ____
MaximalFD Series Overview:
MaximalFD Access Power/Controllers distribute and switch power to access
control systems and accessories. They convert a 120VAC 60Hz input into sixteen
(16) independently controlled 12VDC or 24VDC PTC-protected outputs.
Outputs are activated by an open collector sink or normally open (NO) dry
trigger input from an Access Control System, Card Reader, Keypad, Push Button,
PIR, etc. Units will route power to a variety of access control hardware
devices including Mag Locks, Electric Strikes, Magnetic Door Holders, etc.
Outputs will operate in both Fail-Safe and/
or Fail-Secure modes. The FACP Interface enables Emergency Egress, and Alarm
Monitoring, or may be used to trigger other auxiliary devices. The fire alarm
disconnect feature is individually selectable for any or all of the eight (8)
outputs.
MaximalFD Series Configuration Chart:
**** Altronix Model Number| 120VAC 60 Hz Input (current)| **** Power
Supply Board Input Fuse Rating| Power Supply Board Battery Fuse Rating|
Nominal DC Output Voltage Options| Maximum Supply Current for Main and Aux.
Outputs (Power Supply 1 / Power Supply 2), (V)| PTC Protected Class 2 Power-
Limited Outputs (auto-resettable)| ACM8CB Board Input Fuse Rating| ACM8CB
Board Output PTC Rating
---|---|---|---|---|---|---|---|---
Power Supply 1| Power Supply 2
[DC]| [AUX]| [DC]| [AUX]
12VDC Output Range (V)| 24VDC Output Range (V)| 12VDC Output Range (V)| 24VDC
Output Range (V)| 12VDC Output Range (V)| 24VDC Output Range (V)| 12VDC Output
Range (V)| 24VDC Output Range (V)
**** Maximal11FD
| ****
7A
| **** 5A/ 250V| 7.5A/ 32V| eFlow4NB| eFlow4NB| –|
16
| ****
10A/
250V
| ****
2.5A/
250V
9.8-
13.2
| –| 10.05-
13.2
| –| 9.8-
13.2
| –| 10.05-
13.2
| –| 3.3A +
3.3A
9.8-
13.2
| –| 10.05-
13.2
| –| –| 19.9-
26.4
| –| 20.2-
26.4
| 3.3A +
3.6A
–| 19.9-
26.4
| –| 20.2-
26.4
| –| 19.9-
26.4
| –| 20.2-
26.4
| 3.6A +
3.6A
**** Maximal33FD
| 7A| ****
**** 5A/ 250V
| ****
10A/ 32V
| eFlow6NB| eFlow6NB| –| ****
16
| ****
10A/
250V
| ****
2.5A/
250V
9.7-
13.2
| –| 10.03-
13.2
| –| 9.7-
13.2
| –| 10.03-
13.2
| –| 5.3A +
5.3A
9.7-
13.2
| –| 10.03-
13.2
| –| –| 19.8-
26.4
| –| 20.19-
26.4
| 5.3A +
5.6A
–| 19.8-
26.4
| –| 20.19-
26.4
| –| 19.8-
26.4
| –| 20.19-
26.4
| 5.6A +
5.6A
Maximal55FD
| ****
7A
| ****
5A/ 250V
| ****
15A/ 32V
| eFlow102NB| eFlow102NB| ****
9.3A +
9.3A
| ****
16
| ****
10A/
250V
| ****
2.5A/
250V
9.7- 13.2| –| 10.03-
13.2
| –| 9.7- 13.2| –| 10.03-
13.2
| –
Maximal75FD
| ****
8A
| 5A/250V
(eFlow102NB)
6.3A/250V
(eFlow104NB)
| ****
15A/32V
| eFlow102NB| eFlow104NB| ****
9.3A +
9.6A
| ****
16
| ****
10A/250V
| ****
2.5A/250V
9.7-
13.2
| –| 10.03-
13.2
| –| –| 19.8-
26.4
| –| 20.28-
26.4
Maximal77FD| 9A| 6.3A/250V| 15A/32V| eFlow104NB| eFlow104NB| ****
9.6A +
9.6A
| ****
16
| ****
10A/250V
| ****
2.5A/250V
–| 19.8-
26.4
| –| 20.28-26.4| –| 19.8-
26.4
| –| 20.28-
26.4
All units: These units are classified as Class 2 Power-Limited stand- alone power supplies with stand-by batteries and they are suitable to power: sensors, and electromechanical devices (e.g. electric door strikes).
Agency Listings:
UL Listings for
US Installations: UL 294 – UL Listed for Access Control System Units.
ANSI/UL 294 7th Ed. Access Control Performance Levels:
Destructive Attack – I; Endurance – I; Line Security – I; Stand-by Power – II,
III, IV.
UL Listings for
Canadian Installations:
ULC-S319-05 – Electronic Access Control Systems Class I equipment.
CSA C22.2 No.205 – Signal Equipment.
ULC-S319-05 Electronic Access Control Systems will be invalidated through the
use of any add-on, expansion, memory, or other modules manufactured by the
manufacturer or other manufacturers.
MaximalFD Series Features:
ACM8CB Access Power Controller Modules:
-
Sixteen (16) independently trigger controlled outputs. Output options:
a) Sixteen (16) Fail-Safe filtered power outputs.
b) Sixteen (16) Fail-Secure filtered power outputs.
c) Any combination of the above. -
Sixteen (16) Access Control System trigger inputs. Input trigger options:
a) Sixteen (16) normally open (NO) dry trigger inputs.
b) Sixteen (16) open collector inputs.
c) Any combination of the above. -
Sixteen (16) unswitched filtered aux. power outputs (outputs are rated @ 2.5A).
-
Red LEDs on the ACM8CB board indicate individual outputs are triggered (relays energized).
-
Fire Alarm disconnect (latching or non-latching) is individually selectable for any or all of the sixteen (16) outputs.
Fire Alarm disconnect input trigger options:
a) Normally open (NO) or normally closed (NC) dry trigger input.
b) Polarity reversal input from the FACP signaling circuit. -
The green LED on the ACM8CB board indicates FACP disconnect is triggered.
-
FACP output relay indicates that FACP input is triggered (form “C” contact rated @ 1A/28VDC not evaluated by UL).
-
eFlow Power Supply/Charger provides common power for the ACM8CB board (factory wiring) and all connected access control devices (field wiring).
-
ACM8CB board main fuses are rated @ 10A. Output PTCs are rated @ 2.5A.
eFlow Power Supply/Charger:
-
Input: 120VAC, 60Hz.
-
For output voltage and supply current refer to MaximalFD series Configuration Chart, pg. 3.
-
Auxiliary Class 2 Power-Limited output rated @ 1A (unswitched).
-
Overvoltage protection.
-
Built-in charger for sealed lead acid or gel-type batteries.
-
Maximum charge current 1.54A.
-
Automatic switch over to stand-by battery when AC fails. Transfer to stand-by battery power is instantaneous with no interruption.
-
Supervised Fire Alarm disconnect (latching or non-latching) 10K EOL resistor. Operates on a normally open
(NO) or normally closed (NC) trigger. -
AC fail supervision (form “C” contacts).
-
Battery fail & presence supervision (form “C” contacts).
-
Low power shutdown. Shuts down DC output terminals if battery voltage drops below 71-73% for 12V units and 70-75% for 24V units (depending on the power supply). Prevents deep battery discharge.
-
For fuse, ratings refer to the MaximalFD series Configuration Chart, pg. 3.
-
Green AC Power LED indicates 120VAC present.
-
AC input and DC output LED indicators.
-
Short circuit and overload protection.
-
Enclosure accommodates up to four (4) 12VDC/12AH batteries.
Enclosure dimensions (H x W x D): 26” x 19” x 6.25” (660.4mm x 482.6mm x 158.8mm).
MaximalFD Installation Instructions:
Wiring methods shall be in accordance with the National Electrical Code/NFPA 70/ANSI, the Canadian Electric Code, Part I, Part II, and with all local codes and authorities having jurisdiction. The product is intended for indoor use only.
Power Supply Board LED Diagnostics | (pg. 7) |
---|---|
Access Power Controller LED Diagnostics | (pg. 7) |
Power Supply Board Stand-by Battery Specifications | (pg. 7) |
Power Supply Board Terminal Identification | (pg. 8) |
Access Power Controller Terminal Identification | (pg. 8) |
Power Supply Board Output Voltage Settings | (pg. 9) |
Access Power Controller Typical Application Diagram | (pg. 9) |
FACP/Optional Power Supply Hook-up Diagrams | (pg. 12) |
-
Mount unit in the desired location. Mark and predrill holes in the wall to line up with the top three keyholes in the enclosure. Install three upper fasteners and screws in the wall with the screw heads protruding. Place the enclosure’s upper keyholes over the three upper screws, level, and secure. Mark the position of the lower three holes. Remove the enclosure. Drill the lower holes and install the three fasteners. Place the enclosure’s upper keyholes over the three upper screws. Install the three lower screws and make sure to tighten all screws (Enclosure Dimensions, pg. 15).
-
Connect unswitched AC power (120VAC 60Hz) to terminals marked [L, N] (Fig. 3, pg. 10). Green “AC” LED on the power supply board will turn on. This light can be seen through the LED lens on the door of the enclosure. Use 14 AWG or larger for all power connections. Secure green wire leads to earth ground.
Keep power-limited wiring separate from non-power-limited wiring.
Minimum 0.25” spacing must be provided (Fig. 3, pg. 10).
CAUTION: Do not touch exposed metal parts. Shut branch circuit power before installing or servicing equipment. There are no user-serviceable parts inside.
Refer installation and servicing to qualified service personnel. -
Select desired DC output voltage by setting SW1 to the appropriate position on the power supply board (Maximal11FD and Maximal33FD), (Fig. 1, pg. 9). Maximal55FD power supply is factory set at 12VDC.
Maximal77FD power supply is factory set at 24VDC. Maximal75FD consists of one (1) power supply board that is factory set at 12VDC, and one (1) power supply board that is factory set at 24VDC. -
Measure the output voltage of the unit before connecting any devices to ensure proper operation.
Improper or high voltage will damage these devices. -
Output options (Fig. 2, pg. 9):
The unit will provide either sixteen (16) switched power outputs, sixteen (16) dry form “C” outputs, or any combination of both switched power and form “C” outputs.
(a) Fail-Safe Switched Power outputs:
For Fail-Safe operation connect the positive (+) input of the access control devices to the terminal marked [NC]. Connect the negative (–) input of the access control devices to the terminal marked [COM].
(b) Fail-Secure Switched Power outputs:
For Fail-Secure operation connect the positive (+) input of the access control devices to the terminal marked [NO]. Connect the negative (–) input of the access control devices to the terminal marked [COM]. -
ACM8CB Auxiliary Power outputs (unswitched):
Connect access control devices that require constant power to terminals marked [C] positive (+) and [COM] negative (–).
eFlow Auxiliary outputs (unswitched):
For auxiliary device connection, this output will not be affected by Low Power Disconnect or Fire Alarm
Interface. Connect the device to terminals marked [+ AUX –] (Fig. 3, pg. 10). -
Input trigger options (Fig. 2, pg. 9):
(a) Normally Open [NO] input trigger:
Inputs 1-8 are activated by normally open or open collector sink inputs. Connect access control panel outputs, keypads, push buttons, REX PIRs, etc. to terminals marked [IN] and [GND].
(b) Open Collector Sink inputs: Connect the access control panel open collector sink positive (+) to terminals marked [IN] and the negative (–) to terminals marked [GND]. -
ACM8CB Fire Alarm Interface options (Figs. 5-9, pg. 12):
A normally closed [NC] or normally open [NO] input trigger from a fire alarm control panel or a polarity reversal input from an FACP signaling circuit will affect selected outputs. To enable FACP Disconnect for an output turn the corresponding switch(es) [SW1-SW8] OFF on each ACM8CB board. To disable FACP disconnect for an output turn the corresponding switch(es) [SW1-SW8] ON on each ACM8CB board.
(a) Normally Open [NO] input:
For non-latching hook-ups refer to Fig. 6, pg. 12. For latching hook-up refer to Fig. 7, pg. 12.
(b) Normally Closed [NC] input:
For non-latching hook-ups refer to Fig. 8, pg. 12. For latching hook-up refer to Fig. 9, pg. 12.
(c) FACP Signaling Circuit input trigger:
Connect the positive (+) and negative (–) from the FACP signaling circuit output to the terminals marked [+ INP –]. Connect the FACP EOL to the terminals marked [+ RET –] (polarity is referenced in an alarm condition). The jumper located next to TRG LED must be cut (Fig. 2a, pg. 9 and Fig. 6, pg. 12). -
FACP Dry form “C” output (not evaluated by UL) (Fig. 2b, pg. 9):
FACP form “C” contacts can be used to trigger reporting or signaling devices. These contacts switch upon a fire alarm input trigger to the ACM8CB boards. -
Stand-by Battery Connections (Fig. 3, pg. 10):
For the U.S. Access Control applications batteries are optional. Batteries are required for Canadian installations (ULC-S319). When batteries are not used, a loss of AC will result in the loss of output voltage. When the use of stand-by batteries is desired, they must be lead acid or gel type. Connect the battery to terminals marked [– BAT +] (Fig. 3, pg. 10). Use two (2) 12VDC batteries connected in series for 24VDC operation (battery leads included). Use batteries – Castle CL1270 (12V/7AH), CL12120 (12V/12AH), CL12400 (12V/40AH), CL12650 (12V/65AH) batteries or UL recognized BAZR2 and BAZR8 batteries of an appropriate rating. -
Battery and AC Supervision outputs (Fig. 3, pg. 10): It is required to connect supervisory trouble-reporting devices to outputs marked [AC Fail, BAT Fail] supervisory relay outputs marked [NC, C, NO] to appropriate visual notification devices. Use 22 AWG to 18 AWG for AC Fail and Low/No Battery reporting.
-
To delay AC reporting for 2 hrs., set the DIP switch [AC Delay] to the OFF position (Fig. 3, pg. 10).
To delay AC reporting for 1 min., set the DIP switch [AC Delay] to the ON position (Fig. 3, pg. 10). -
Low Power Shutdown (Fig. 3, pg. 10): To enable Low Output Power Shutdown, set the DIP switch [Shutdown] to ON position.
To disable Low Output Power Shutdown, set the DIP switch [Shutdown] to the OFF position. -
Installation of Tamper Switch (Fig. 3a, pg. 10):
Mount UL Listed tamper switch (Altronix model TS112 or equivalent) at the top of the enclosure. Slide the tamper switch bracket onto the edge of the enclosure approximately 2” from the right side (Fig. 3a, pg. 10). Connect the tamper switch wiring to the Access Control Panel input or the appropriate UL Listed reporting device. To activate the alarm signal, open the door of the enclosure. -
Multiple power supply inputs (Fig. 2, pg. 9) (Not evaluated by UL): When using an additional Listed external power supply, jumpers J1 and J2 located on the corresponding ACM8CB board must be cut (Fig. 2c, pg. 9 and Fig. 5, pg. 12). Connect external Listed power-limited access control power supply to the terminals marked [– Control +] (These terminals are paralleled to the [– Power +] terminals). When using DC power supplies, polarity must be observed. When using AC power supplies, polarity needs not to be observed (Fig. 2d, pg. 9). All field wiring connections must be made employing suitable gauge CM or FPL jacketed wire (or equivalent substitute) (Fig. 4a, pg. 11).
Maintenance:
The unit should be tested at least once a year for the proper operation as
follows:
FACP Supervision: To ensure proper connection and operation of the Fire
Alarm disconnect hookup.
Please follow the appropriate procedure below:
Normally Open Input:
Placing a short between terminals marked [T] and [+ INP] will trigger the Fire
Alarm Disconnect. Remove the short to reset.
Normally Closed Input:
Removing the wire from the terminal marked [INP –] will trigger the Fire Alarm
Disconnect. Replace the wire to the terminal marked [INP –] to reset.
FACP Signal Circuit Input: It is necessary to trigger the Fire Alarm
System. In all of the above scenarios, the green TRG LED of the ACM8CBs will
illuminate. All outputs selected for Fire Alarm Disconnect will activate
releasing locking devices.
Note: All outputs [OUT 1] – [OUT 8] must be in a normal (de-energized)
condition prior to testing. When the unit is configured for Normally Open
(Fig. 8, pg. 12) or Normally Closed (Fig. 10, pg. 12) latching operation, it
is necessary to reset the Fire Alarm Disconnect by activating the Normally
Closed reset switch.
Output Voltage Test: Under normal load conditions, the DC output voltage
should be checked for proper voltage level (refer to MaximalFD series
Configuration Chart, pg. 3).
Battery Test:
Under normal load, conditions check that the battery is fully charged, check
the specified voltage at the battery terminals and at the board terminals
marked [+ BAT –] to ensure that there is no break in the battery connection
wires.
Note: Maximum charge current is 1.54A. The expected battery life is 5
years; however, it is recommended to change batteries within 4 years or less
if necessary.
Power Supply Board LED Diagnostics:
Red (DC) | Green (AC/AC1) | 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. |
Red (Bat) | Battery Status | |
--- | --- | |
ON | Normal operating condition. | |
OFF | Battery fail/low battery. |
Access Power Controller LED Diagnostics:
LED | ON | OFF |
---|---|---|
LED 1- LED 8 (Red) | Output relay(s) energized. | Output relay(s) de-energized. |
Trg (Green) | FACP input triggered (alarm condition). | FACP normal (non-alarm |
condition).
Power Supply Board Stand-by Battery Specifications:
Battery| Maxima111FD| Maxima133FD| Maxima155FDI Maxima175FD,
and Maxima177FD
---|---|---|---
7AH| 30 Mins./4A| 10 Mins./6A| 5 Mins./10A
12AH| 35 Mins./4A| 30 Mins./6A| 30 Mins./10A
40AH| Over 4 Hours/4A| Over 4 Hours/6A| Over 2 Hours/10A
65AH| Over 4 Hours/4A| Over 4 Hours/6A| Over 4 Hours/10A
*Only these configurations can be utilized in ULC-S319 installations.
Power Supply Board Terminal Identification:
Terminal Legend | Function/Description |
---|---|
L, G, N | Connect 120VAC 60Hz to these terminals: L to hot, N to neutral. Do |
not use terminally marked [G].
+ DC –| Factory connected to ACM8 board.
Trigger EOL Supervised| Fire Alarm Interface trigger input from a short or
FACP. Trigger inputs can be normally open and normally closed from an FACP
output circuit (Class 2 power-limited input) (Fig. 3, pg. 10).
NO, GND RESET| FACP interface latching or non-latching (Class 2 power-limited)
(Fig. 3, pg. 10).
+ AUX –| Auxiliary Class 2 power-limited output rated @ 1A (unswitched) (Fig.
3, pg. 10).
AC FAIL NC, C, NO| Indicates loss of AC power, e.g. connect to audible device
or alarm panel. The relay is normally energized when AC power is present.
Contact rating 1A @ 30VDC (Class 2 power-limited) (Fig. 3, pg. 10).
BAT FAIL NC, C, NO
| Indicates low battery condition, e.g. connect to the alarm panel. The relay
is normally energized when DC power is present. Contact rating 1A @ 30VDC.
A removed battery is reported within 5 minutes.
Battery reconnection is reported within 1 minute (Class 2 power-limited) (Fig.
3, pg. 10).
+ BAT –| Stand-by battery connections.
Maximum charge current 1.54A (non-power-limited) (Fig. 3, pg. 10).
Access Power Controller Terminal Identification:
Terminal Legend | Function/Description |
---|---|
– Power + | 12VDC or 24VDC from the power supply/charger (factory connected). |
These terminals are paralleled to the [– Control +] terminals.
**** – Control +| These terminals are paralleled to the [– Power +]
terminals.
These terminals can be connected to an external Listed power-limited access control power supply to provide isolated operating power for the devices (Not evaluated by UL). Jumpers J1 and J2 must be removed.
TRIGGER INPUT 1- INPUT 8 IN, GND| From normally open and/or open collector
sink trigger inputs (request to exit buttons, exit pairs, etc.)
**** OUTPUT 1-
OUTPUT 8
NC, C, NO, COM
| 12VDC to 24VDC trigger controlled outputs. The maximum load per output is
2.5A.
Maximal11FD: P/S 1 – 9.8-13.2VDC @ 3.3A P/S 2 – 9.8-13.2VDC @ 3.3A or P/S 1 –
19.9-26.4VDC @ 3.6A P/S 2 – 19.9-26.4VDC @ 3.6A or P/S 1 – 9.8-13.2VDC @ 3.3A
and P/S 2 – 19.9-26.4VDC @ 3.6A.
Maximal33FD: P/S 1 – 9.7-13.2VDC @ 5.3A P/S 2 – 9.7-13.2VDC @ 5.3A or P/S 1 –
19.8-26.4VDC @ 5.6A P/S 2 – 19.8-26.4VDC @ 5.6A or P/S 1 – 9.7-13.2VDC @ 5.3A
and P/S 2 – 19.8-26.4VDC @ 5.6A.
Maximal55FD: P/S 1 – 9.7-13.2VDC @ 9.3A and P/S 2 – 9.7-13.2VDC @ 9.3A.
Maximal75FD: P/S 1 – 9.7-13.2VDC @ 9.3A and P/S 2 – 19.8-26.4VDC @ 9.6A.
Maximal77FD: P/S 1 – 19.8-26.4VDC @ 9.6A and P/S 2 – 19.8-26.4VDC @ 9.6A.
Fail-Safe [NC positive (+) & COM Negative (–)], Fail-Secure [NO positive (+) &
COM Negative (–)], Auxiliary output [C positive (+) & COM Negative (–)].
When using AC power supplies polarity needs not be observed. Contacts are shown in a non-triggered state.
FACP INTERFACE T, + INPUT –| Fire Alarm Interface trigger input from FACP.
Trigger inputs can be normally open or normally closed from an FACP signaling
circuit output (Figs. 5-9, pg. 12) .
FACP INTERFACE NC, C, NO| Form “C” relay contact rated @ 1A 28VDC for alarm
reporting (not evaluated by UL).
Power Supply Board Output Voltage Settings:
Access Power Controller Typical Application Diagram (for each ACM8CB):
CAUTION: When the power supply board is set for 12VDC use only one (1)
12VDC stand-by battery.
Keep power-limited wiring separate from non-power-limited.
Use minimum 0.25″ spacing.
12AH Rechargeable batteries are the largest batteries that can fit in this
enclosure. A UL-listed external battery enclosure must be used if using the
40AH or 65AH batteries.
NEC Power-Limited Wiring Requirements:
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 the use of conduit is optional. All field wiring
connections must be made employing suitable gauge CM or FPL jacketed wire (or
equivalent substitute).
The optional UL Listed battery enclosure must be mounted adjacent to the power
supply via Class 1 wiring methods.
For Canadian installations use shielded wiring for all connections.
Note: Refer to the wire handling drawing below for the proper way to
install the CM or FPL jacketed wire (Fig. 4a).
FACP Hook-Up Diagrams:
Fig. 5 Optional hook-up using two (2) isolated power supply inputs (Only
applicable on Maximal11FD, not evaluated by UL):| Fig. 6 Polarity reversal
input from FACP signaling circuit output (polarity is referenced in alarm
condition):
---|---
|
Fig. 7 Normally Open: Non-Latching FACP trigger input:| Fig. 8 Normally Open
FACP Latching trigger input with reset:
|
Fig. 9 Normally Closed: Non-Latching FACP trigger input:| Fig. 10 Normally
Closed: Latching FACP triggers input with reset:
|
Notes:………………..
Enclosure Dimensions (H x W x D approximate): 26” x 19” x 6.25” (660.4mm x 482.6mm x 158.8mm)
Maximal11FD/33FD/55FD/75FD/77FD Series Access Power Controllers (PTC)
Installation Guide Altronix is not responsible for any typographical errors.
140 58th Street, Brooklyn, New York 11220 USA
phone:718-567-8181
fax:718-567-9056 website:
www.altronix.com
e-mail:info@altronix.com
Lifetime Warranty
IIMaximal11FD/33FD/55FD/75FD/77FD Series H11U
eFlow Power Supply
Chargers can be Controlled and Monitored while Reporting Power
Diagnostics from Anywhere over the Network…
LINQ
LINQ2 – Network Communication Module
LINQ2 provides remote IP access to real-time data from eFlow power
supply/chargers to help keep systems up and running at optimal levels. It
facilitates fast and easy installation and set-up, minimizes system downtime,
and eliminates unnecessary service calls, which helps reduce Total Cost of
Ownership (TCO) – as well as creates a a new source of Recurring Monthly
Revenue (RMR).
Features:
- UL is Listed in the U.S. and Canada.
- Local or remote control of up to (2) two Altronix eFlow power output(s) via LAN and/or WAN.
- Monitor real-time diagnostics: DC output voltage, output current, AC & battery status/service, input trigger state change, output state change, and unit temperature.
- Access control and user management: Restrict read/write, Restrict users to specific resources
- Two (2) integral network controlled Form “C” Relays.
- Three (3) programmable input triggers: Control relays and power supplies via external hardware sources.
- Email and Windows Dashboard notifications
- The event log tracks history.
- Secure Socket Layer (SSL).
- Programmable via USB or web browser – includes operating software and 6 ft. USB cable.
LINQ2 Mounts Inside any MaximalF Enclosure
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