Altronix Maximal11EV Maximal EV Series Expandable Power Systems Installation Guide

11EV Maximal EV Series Expandable Power Systems
Installation Guide

Maximal11EV Maximal EV Series Expandable Power Systems

Models Include:

Maximal11EV
– Power Supply 1: 12VDC @ 4A or 24VDC @ 3A.
– Power Supply 2: 12VDC @ 4A or 24VDC @ 3A.
Maximal13EV
– Power Supply 1: 12VDC or 24VDC @ 6A.
– Power Supply 2: 12VDC @ 4A or 24VDC @ 3A.
Maximal33EV
– Power Supply 1: 12VDC or 24VDC @ 6A.
– Power Supply 2: 12VDC or 24VDC @ 6A.
Maximal35EV
– Power Supply 1: 12VDC @ 10A.
– Power Supply 2: 12VDC or 24VDC @ 6A.| Maximal37EV
– Power Supply 1: 24VDC @ 10A.
– Power Supply 2: 12VDC or 24VDC @ 6A.
Maximal55EV
– Power Supply 1: 12VDC @ 10A.
– Power Supply 2: 12VDC @ 10A.
Maximal75EV
– Power Supply 1: 12VDC @ 10A.
– Power Supply 2: 24VDC @ 10A.
Maximal77EV
– Power Supply 1: 24VDC @ 10A.
– Power Supply 2: 24VDC @ 10A.
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Rev. MEV090710
Installing Company: __
Service Rep. Name: __
Address:
Phone #:

MaximalEV Overview:

Altronix Maximal Expandable Power Systems provide system designers and installers with maximum power choices and the highest levels of versatility. They provide 12VDC, 24VDC, or 12VDC and 24VDC simultaneously via two (2) single output power supply/chargers. Include AC fail, low battery, and battery presence monitoring.
Custom enclosures accommodate up to four (4) 12VDC/12AH batteries.

MaximalEV Series Configuration Chart:

Altronix Model
Number| Output Voltage Options| Outputs| 220VAC 50/6014z
Input Current Draw| Power Supply Board Input
Fuse Rating
---|---|---|---|---
Power Supply 1| Power Supply 2
Maxima111EV| AL400XB2V| AL400XB2V| 2| 2.25A| 5A/250V
12VDC 0 4A| 12VDC 0 4A
12VDC 0 4A| 24VDC 0 3A
24VDC O 3A| 24VDC O 3A
Maxima113EV| AL400XB2V| AL600XB220| 2| 2.5A| 5A/250V
12VDC 0 4A| 12VDC 0 6A
12VDC O 4A| 24VDC 0 6A
24VDC el 3A| 12VDC O 6A
24VDC @ 3A| 24VDC @ 6A
Maxima133EV| AL600XB220| AL600XB220| 2| 3.5A| 5A/250V
12VDC O 6A| 12VDC O 6A
12VDC O 6A| 24VDC O 6A
24VDC O 6A| 24VDC O 6A
Maxima135EV| AL600XB220| AL1012XB220| 2| 3A| 5A/250V
12VDC 0 6A| 12VDC O 10A
24VDC @ 6A| 12VDC (0 10A
Maxima137EV| AL600XB220| AL1024XB2V| 2| 5A| 5A/250V
12VDC 0 6A| 24VDC @ 10A
24VDC O 6A| 24VDC @ 10A
Maxima155EV| AL1012XB220| AL1012XB220| 2| 3A| 5A/250V
12VDC @ 10A| 12VDC @ 10A
Maxima175EV| AL1012XB220| AL1024XB2V| 2| 5A| 5A/250V
12VDC O 10A| 24VDC (0 10A
Maxima177EV| AL1024XB2V| AL1024XB2V| 2| 6.25A| 5A/250V
24VDC O 10A| 24VDC @ 10A

MaximalEV Features:

Output :
• Filtered and electronically regulated outputs  (built-in power supply).
• Short circuit and thermal overload protection  with auto reset.
Supervision :
• AC fail supervision (form “C” contacts).
• Low battery and battery presence supervision  (form “C” contact).
Visual Indicators:
• AC input and DC output LED indicators.
Battery Backup:
• Built-in charger for sealed lead acid or  gel type batteries.| Battery Backup (cont’d):
• Maximum charge current:
AL400XB2V, AL600XB220 and AL1012XB220  (Power Supply Board): 0.7A
AL1024XB2V (Power Supply Board): 3.6A
• Automatic switch over to stand-by battery when  AC fails.
• Zero voltage drop when unit switches over to  battery backup (AC failure condition).
Enclosure Dimensions (approximate H x W x D):
26” x 19” x 6.25”
(660.4mm x 482.6mm x 158.8mm)
• Enclosure accommodates up to four (4)  12VDC/12AH batteries.
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MaximalEV Installation Instructions:

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.

1. 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. 12).

2. Connect unswitched AC power (220VAC, 50/60Hz) to the terminals marked [L, N] on both power supply boards. Green branch wire connects to earth (safety) ground lug.
   Use 14 AWG or larger for all power connections. (Fig. 2, pg. 6).
   Keep power-limited wiring separate from non power-limited wiring.
   Minimum 0.25” spacing must be provided.
   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.

3. Select desired DC output voltage by setting SW1 to the appropriate position (Maximal11EV, Maximal13EV, Maximal33EV, Maximal35EV and Maximal37EV) (Fig. 1, pg. 5). Maximal55EV power supplies are factory set at 12VDC.
   Maximal77EV power supplies are factory set at 24VDC.
   Maximal75EV power supplies are factory set at 12VDC and 24VDC (Power Supply Board Stand-by Battery Specifications, pg. 5).

4. Measure the output voltage of the unit before connecting any devices to ensure proper operation.
   Improper or high voltage will damage these devices.

5. Connect devices to be powered to the terminals marked [+ DC –] (Fig. 2, pg. 6).

6. For Access Control applications batteries are optional. 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 battery to the terminals marked [+ BAT –] (Figs. 2-7, pgs. 6-11).
   Use two (2) 12VDC batteries connected in series for 24VDC operation (battery leads included).

7. Battery and AC Supervision outputs: 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 & Low/No Battery reporting (Fig. 2a, pg. 6).

8. Mount UL Listed tamper switch (not included) (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. 2b, pg. 6). Connect tamper switch wiring to the Access Control Panel input or the appropriate UL Listed reporting device. To activate alarm signal open the door of the enclosure.

9. Please ensure that the cover is secured with the provided key lock.

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 (Power Supply Stand-by Battery Specifications, pg. 5).
Battery Test:
Under normal load conditions check that the battery is fully charged, check 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: AL400XB2V, AL600XB220 and AL1012XB220 (Power Supply Board) maximum charge current is 0.7A.
AL1024XB2V (Power Supply Board) maximum charge current is 3.6A.
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:

Power Supply Board Terminal Identification:

AC power is present. Contact rating 1A @ 28VDC. AC or brownout fail is reported within 1 minute of event.
BAT FAIL NC, C, NO| Indicates low battery condition, e.g. connect to alarm panel. Relay normally energized when DC power is present. Contact rating 1A @ 28VDC. A removed battery is reported within 5 minutes. Battery reconnection is reported within 1 minute.
Low battery threshold:
12VDC output threshold set @ approximately 10.5VDC.
24VDC output threshold set @ approximately 21VDC.
+ BAT —| Stand-by battery connections.
AL400XB2V, AL600XB220 and AL1012XB220 (Power Supply Board) maximum charge current is 0.7A. AL1024XB2V (Power Supply Board) maximum charge current is 3.6A.

Power Supply Board Stand-by Battery Specifications

Altronix Model| Power Supply
Board| Battery| 20 min. of
Backup| 4 hr. of
Backup| 24 hr. of
Backup| 60 hr. of
Backup
---|---|---|---|---|---|---
Maxima111EV
Maxima113EV| AL400XB2V
(Refer to Fig. la, 1b
on pg. 5 for Switch
[SW1] location
and position)| 12VDC/40AH| N/A| 4A| 1A| 300mA
24VDC/12AH| N/A| 200mA| N/A| N/A
24VDC/40AH| N/A| 3A| 1 A| 300mA
Maxima113EV Maxima133EV Maxima135EV Maxima137EV| AL600XB220
(Refer to Fig. la, lb
on pg. 5 for Switch
[SW1] location
and position)| 12VDC/40AH| N/A| 6A| 1 A| 300mA
24VDC/12AH| N/A| 200mA| N/A| N/A
24VDC/40AH| N/A| 6A| 1 A| 300mA
Maxima135EV
Maxima155EV
Maxima175EV| AL1012XB220
(Factory set at
12VDC)| 12VDC/12AH| 10A| Battery capacity
for emergency
stand-by at least
20 mins.| N/A| N/A
Maxima137EV
Maxima175EV
Maxima177EV| AL1024XB2V
(Factory set at
24VDC)| 24VDC/12AH| 8A| 1.5A| 200mA| 100mA
24VDC/65AH*| N/A| 8A| 1.5A| 500mA

• Note : Additional battery enclosure required (Figs. 3-7, pgs, 7-11).

Power Supply Board Output Voltage Settings:

NEC Power-Limited Wiring Requirements for Maximal11EV:

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).
Note : Refer to wire handling drawing below for the proper way to install the CM or FPL jacketed wire (Fig. 3a).

NEC Power-Limited Wiring Requirements for Maximal13EV:

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).
Note : Refer to wire handling drawing below for the proper way to install the CM or FPL jacketed wire (Fig. 4a).

NEC Power-Limited Wiring Requirements for Maximal33EV, Maximal35EV, and

Maximal55EV:

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).
Note : Refer to wire handling drawing below for the proper way to install the CM or FPL jacketed wire (Fig. 5a).

NEC Power-Limited Wiring Requirements for Maximal37EV and Maximal75EV:

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).
Note : Refer to wire handling drawing below for the proper way to install the CM or FPL jacketed wire (Fig. 6a).

NEC Power-Limited Wiring Requirements for Maximal77EV:

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).
Note : Refer to wire handling drawing below for the proper way to install the CM or FPL jacketed wire (Fig. 7a).

Enclosure Dimensions

(H x W x D approximate): 26” x 19” x 6.25” (660.4mm x 482.6mm x 158.8mm)

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: [email protected]
Lifetime Warranty **IIMaximalEV Series
G26U**

Documents / Resources

| Altronix Maximal11EV Maximal EV Series Expandable Power Systems [pdf] Installation Guide
Maximal11EV, Maximal37EV, Maximal13EV, Maximal55EV, Maximal33EV, Maximal75EV, Maximal35EV, Maximal77EV, Maximal11EV Maximal EV Series Expandable Power Systems, Maximal11EV, Maximal EV Series Expandable Power Systems, Expandable Power Systems, Power Systems, Maximal EV Series, EV Series
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References

• altronix.com

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