Installation Guide for Altronix models including: ACMS12, ACMS12CB, ACMS12 Series Sub Assembly Access Power Controllers, Sub Assembly Access Power Controllers, Access Power Controllers, Power Controllers

IIACMS12 CB I01V

Click to View

Altronix ACMS12 | Dual Input Access Power Controller, 12 Fus

Altronix ACMS12CB | Dual Input Access Power Controller, 12 P

• Download [pdf]
• Download Optimized
• Document:
  • Text
  • References

File Info : application/pdf, 12 Pages, 1.23MB

ACMS12 Series
Sub-Assembly Access Power Controllers
Models Include:
ACMS12
- Twelve (12) Fuse Protected Outputs
ACMS12CB
- Twelve (12) PTC Protected Outputs
Installation Guide

Rev. 061622

More than just power.TM

Overview:
Altronix ACMS12/ACMS12CB are sub-assemblies designed to be used in Altronix BC300, BC400, Trove1, Trove2 and Trove3 enclosures and Maximal power units. Access Power Controller's dual input design allows power to be steered from two (2) independent low voltage 12 or 24VDC Altronix power supplies to twelve (12) independently controlled fuse (ACMS12) or PTC (ACMS12CB) protected outputs. Outputs are activated by an open collector sink, normally open (NO), normally closed (NC) dry trigger input, or wet output from an Access Control System, Card Reader,Keypad, Push Button, PIR, etc. ACMS12(CB) will route power to a variety of access control hardware devicesincluding Mag Locks, Electric Strikes, Magnetic Door Holders, etc. Outputs will operate in Fail-Safe or Fail-Secure modes. The FACP Interface enables Emergency Egress, 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 twelve (12) outputs. The spade connectors allow you to daisy chain power to multiple ACMS12(CB) modules. This feature allows you to distribute the power over more outputs for larger systems.

Specifications:

Input Voltage:

Fire Alarm Disconnect:

· Input 1: 12 or 24VDC Altronix power supply. · Fire Alarm disconnect (latching or non-latching) is

Input 2: 12 or 24VDC Altronix power supply

individually selectable for any or all of the

or either 5 or 12VDC from

twelve (12) outputs.

VR6 Regulator.

Fire Alarm disconnect input options:

· Input Current:

a) Normally open [NO] or normally closed [NC]

ACMS12: 20A total

dry contact input. Polarity reversal input from

ACMS12CB: 16A total.

FACP signaling circuit.

· Twelve (12) independently selectable trigger inputs: · FACP input WET is rated 5-30VDC 7mA.

a) Normally open (NO) inputs (dry contacts).

· FACP input EOL requires 10K end of line resistor.

b) Normally closed (NC) inputs (dry contacts). · FACP output relay [NC]:

c) Open collector sink inputs.

Either FACP dry NC output or

d) Wet Input (5VDC - 24VDC) with 10K resistor Internal EOL connection to next ACMS12(CB).

e) Any combination of the above.

ACMS12 Fuse Ratings:

Outputs:

· Main input fuses are rated 15A/32V each.

· ACMS12: Fuse protected outputs rated @ 2.5A · Output fuses are rated 3A/32V.

per output, non power-limited.

ACMS12CB PTC Ratings:

Total output 20A max.

· Main input PTCs are rated 9A each.

See Input/Output Voltage Ratings, pg. 7.

· Output PTCs are rated 2.5A.

ACMS12CB: PTC protected outputs rated @ 2A per output, Class 2 power-limited. Total output 16A max.
Do not exceed the individual power supply ratings. See Input/Output Voltage Ratings, pg. 7.

LED Indicators: · Blue LED indicates FACP disconnect is triggered. · Individual voltage LED indicates 12VDC (Green)
or 24VDC (Red).

Total output current should not exceed max. current Environmental:

rating of the power supplies employed on each input. · Operating temperature: 0ºC to 49ºC ambient.

See Maximum Output of Altronix Power Supplies. · Humidity: 20 to 93%, non-condensing.

· Twelve (12) selectable independently controlled Mechanical:

Fail-Safe or Fail-Secure power outputs.

· Board Dimensions (W x L x H approximate):

· Individual outputs may be set to OFF position for

7.3" x 4.1" x 1.25" (185.4mm x 104.1mm x 31.8mm)

servicing (output jumper set to middle position). · Product weight (approx.): 0.7 lb. (0.32 kg).

· Outputs are selectable to follow power Input 1 or · Shipping weight (approx.): 0.95 lb. (0.43 kg).

Input 2. Output voltage of each output is the same

as the input voltage of the input selected.

See Input/Output Voltage Ratings, pg. 7.

· Surge suppression.

- 2 -

ACMS12/CB Sub-Assembly Installation Guide

Installation Instructions:

Wiring methods shall be in accordance with the National Electrical Code NFPA 70/NFPA 72/ ANSI / Canadian

Electrical Code / CAN/ULC-S524/ULC-S527/ULC-S537, and with all local codes and authorities having

jurisdiction. Product is intended for indoor dry use only.

Refer to Sub-Assembly Installation Instruction for mounting Rev. MS050913.

Carefully review:

LED Diagnostics

(pg. 5)

Typical Application Diagram

(pg. 6)

Terminal Identification Table

(pg. 5)

Hook-up Diagrams

(pg. 9-10)

Installation:

1. Mount ACMS12/ACMS12CB in the desired location/enclosure. When mounting ACMS12/ACMS12CB alone,

use female/female spacers (provided). When mounting with optional VR6 voltage regulator,

use female/female spacers (provided) between ACMS12/ACMS12CB and VR6 (Fig. 6, pg. 6).

Attach ACMS12/ACMS12CB to spacers utilizing 5/16" pan head screws (provided).

Connections:

Fig. 1

2. Ensure all output jumpers [OUT1] - [OUT12] are placed in the OFF (center) position. 3. Connect low voltage DC power supplies to terminals marked

PWR1

[+ PWR1 ­], [+ PWR2 ­] 4. Set each output [OUT1] - [OUT12] to route power from Power Supply 1 or 2

PWR2

(Fig. 1, pg. 3).

Note: Measure output voltage before connecting devices.

OFF

This helps avoiding potential damage.

5. Turn power off before connecting devices.

Operations:

Important: Inputs/Outputs and their switches are grouped (Fig. 3, pg. 4). 6. Output options: The ACMS12(CB) will provide up to twelve (12) switched power
outputs

Fig. 2 Output

<->

NO NO

Switched Power outputs: Connect the input of the device being powered to the terminals marked

NC

DIP

[­ Output1 +] through [­ Output12 +] carefully observing polarity. · For Fail-Safe operation slide output control logic DIP switch marked [Output]
for corresponding input into the ON position (Fig. 3, on right).

NO
12 34

· For Fail-Secure operation slide output control logic DIP switch marked [Output]

for corresponding input into the OFF position (Fig. 3, on right).

7. Turn main power on after all devices are connected.

Important: Inputs/Outputs and their switches are grouped (Fig. 3, pg. 4).

8. Input Trigger Options:

Note: If Fire Alarm disconnect is not used, connect a 10K Ohm resistor to terminals marked [GND and EOL],

plus connect a jumper to terminals marked [GND, RST].

Normally Open (NO) Input: Slide input control logic DIP switch marked [NO-NC] for corresponding input

Fig. 4

into the OFF position (Fig. 4, on right). Connect your wires to terminals marked

INP Logic

[+ INP1 ­] to [+ INP12 ­]. Normally Closed (NC) Input:

NC

DIP

<->

Slide input control logic DIP switch marked [NO-NC] for corresponding input into the ON position (Fig. 4, on right). Connect your wires to terminals marked [+ INP1 ­] to [+ INP12 ­].

NO
12 34

Open Collector Sink Input:

Connect the open collector sink input to the terminal marked [+ INP1 ­] to [+ INP12 ­].

Wet (Voltage) Input Configuration:

Carefully observing polarity, connect the voltage input trigger wires and the supplied 10K resistor to

terminals marked [+ INP1 ­] to [+ INP12 ­].

If applying voltage to trigger input - set the corresponding INP Logic switch to the "ON" position

If removing voltage to trigger input - set the corresponding INP Logic switch to the "OFF" position.

ACMS12/CB Sub-Assembly Installation Guide

- 3 -

Altronix Corp.
Brooklyn, NY USA www.altronix.com
ACMS12

Fig. 3 - ACMS12

+­+ ­+ ­+ ­

Input 1

Input 2

Input 3

Input 4

Input 5

Input 6

Input 7

Input 8

+­+ ­+ ­+ ­

Input 9

Input 10

Input 11

Input 12

+­+ ­+ ­+ ­

COM--

NO­­­NC FACP

DIP

DIP

OUTPUT DIP

NO

NO

NO

PWR1+ 12 34 12 34 12 34
Input/Output 1 - 4
15

NO

NO­­­NC FACP

DIP

DIP

OUTPUT DIP

NO

NO

56 78 56 78 56 78
Input/Output 5 - 8

NO­­­NC FACP

DIP

DIP

OUTPUT DIP

NO

NO

NO

9 10 11 12 9 10 11 12 9 10 11 12
Input/Output 9 - 12

+ PWR -- + PWR2 --

PWR2+
Internal EOL Jumper

15

3

3

3

3

3

3

3

3

3

3

3

3

PWR1 <­> PWR2
PWR1 <­> PWR2 PWR1 <­> PWR2 PWR1 <­> PWR2 PWR1 <­> PWR2 PWR1 <­> PWR2 PWR1 <­> PWR2 PWR1 <­> PWR2 PWR1 <­> PWR2 PWR1 <­> PWR2 PWR1 <­> PWR2 PWR1 <­> PWR2

FACP

NC GND GND ­F ­R C RST EOL +F +R

Output 1
­+

Output 2
­+

Output 3
­+

Output 4
­+

Output 5
­+

Output 6
­+

Output 7
­+

Output 8
­+

Output 9
­+

Output 10
­+

Output 11
­+

Output 12
­+

COM--

9. Fire Alarm Interface Options:

A normally closed [NC], normally open [NO] input or polarity reversal input from

Fig. 5

FACP signaling circuit will trigger selected outputs. To enable FACP Disconnect for an output slide output control logic

FACP

DIP switch marked [FACP] for corresponding output ON (Fig. 5, on right).

EN

NO

DIP

<->

To disable FACP Disconnect for an output slide output control logic

DIP switch marked [FACP] for corresponding output OFF (Fig. 5, on right).

DIS

Normally Open Input: Wire your FACP relay and 10K resistor in parallel with terminals marked

12 34

[GND] and [EOL].

Normally Closed Input:

Wire your FACP relay and 10K resistor in series with terminals marked

[GND] and [EOL].

FACP Signaling Circuit input trigger:

Connect the positive (+) and negative (­) from the FACP signaling circuit output to the terminals marked

[+ FACP ­]. Connect the FACP EOL to the terminals marked [+ RET ­] (polarity is referenced in an

alarm condition).

Non-Latching Fire Alarm Disconnect:

Connect a jumper to the terminals marked [GND, RST].

Latching Fire Alarm Disconnect:

Connect a NO normally open reset switch to terminals marked [GND, RST].

10. FACP Dry NC output:

When daisy-chaining Fire alarm signals between two boards, connect the [NC & C] of the first ACMS12(CB)

to the [GND & EOL] of the next ACMS12(CB). Place the EOL jumper on the center and bottom pins.

When using this output as a NC dry contact place the EOL jumper on the center and top pins.

- 4 -

ACMS12/CB Sub-Assembly Installation Guide

Daisy Chaining Two (2) ACMS12(CB) Dual Output Access Power Controllers: Use 18 AWG or larger UL Listed wire equipped with 1/4" UL Recognized quick connect terminals rated for proper voltage/current for all jumper connections. 1. Connect first ACMS12(CB) board's spade lug marked [PWR1 +] to the second ACMS12(CB) board's terminal marked [+ PWR1]. 2. Connect first ACMS12(CB) board's spade lug marked [COM ­] to the second ACMS12(CB) board's terminal marked [PWR1 ­]. 3. Connect first ACMS12(CB) board's spade lug marked [PWR2 +] to the second ACMS12(CB) board's terminal marked [+ PWR2].
Fig. 5

3

3

NO NO

FACP

FACP

NC GND GND ­F ­R C RST EOL +F +R

15
PWR2+

NO­­­NC DIP
PWR1+ 12 34

15

NC GND GND ­F ­R C RST EOL +F +R

15
PWR2+

NO­­­NC DIP
PWR1+ 12 34

15

COM--

COM--

+ PWR -- + PWR2 --

+ PWR -- + PWR2 --

LED Diagnostics: ACMS12 and ACMS12CB Access Power Controller

LED

ON

OFF

LED 1- LED 12 (Red) Output relay(s) de-energized.

Output relay(s) energized.

FACP

FACP input triggered (alarm condition). FACP normal (non-alarm condition).

Green Output 1-12

12VDC

­

Red Output 1-12

24VDC

­

Terminal Identification Table: ACMS12 and ACMS12CB Access Power Controller

Terminal Legend Function/Description

+ PWR1 ­ + PWR2 ­

12 or 24 VDC from power supply. 12 or 24 VDC from power supply or either 5 or 12 VDC from VR6 regulator.

+ INP1 ­ through Twelve (12) independently controlled Normally Open (NO), Normally Closed (NC),

+ INP12 ­

Open Collector Sink or Wet Input Triggers.

C, NC

FACP Dry NC output or internal EOL connection to next ACMS12(CB).

GND, RST

FACP interface latching or non-latching. NO dry input. Class 2 power-limited. To be shorted for non-latching FACP interface or Latch FACP reset.

GND, EOL

EOL Supervised FACP Input terminals for polarity reversal FACP function. Class 2 power-limited.

­ F, + F, ­ R, + R FACP Signaling Circuit Input and Return terminals. Class 2 power-limited.

­ Output 1 + through ­ Output 12 +

Twelve (12) selectable independently controlled outputs (Fail-Safe or Fail-Secure).

ACMS12/CB Sub-Assembly Installation Guide

- 5 -

Fig. 6
Access Control Panel Output C Relay NO
NC

+­+ ­+ ­+ ­

Typical Application Diagram:

Normally Open (N.O.) Door Releasing Device (turn corresponding INPUT switch OFF)

+­+ ­+ ­+ ­

Input 1

Input 2

Input 3

Input 4

Input 5

Input 6

Input 7

Input 8

Input 9

Input 10

Input 11

Input 12

+­+ ­+ ­+ ­

Altronix Corp.
Brooklyn, NY USA www.altronix.com
ACMS12

PWR1 <­> PWR2 PWR1 <­> PWR2

DC Power Supply (req'd.)
DC Power Supply (optional)

+ PWR -- + PWR2 --

COM-PWR2+

NO­­­NC DIP

FACP DIP

OUTPUT DIP

NO

NO

NO

PWR1+ 12 34

12 34

12 34

15

15

NO

NO­­­NC DIP

FACP DIP

OUTPUT DIP

NO

NO

56 78 56 78 56 78

NO­­­NC DIP

FACP DIP

OUTPUT DIP

NO

NO

NO

9 10 11 12 9 10 11 12 9 10 11 12

PWR1 <­> PWR2

PWR1 <­> PWR2

PWR1 <­> PWR2

PWR1 <­> PWR2

PWR1 <­> PWR2

PWR1 <­> PWR2

PWR1 <­> PWR2 PWR1 <­> PWR2

PWR1 <­> PWR2 PWR1 <­> PWR2

FACP (Fire Alarm Control Panel)

Internal EOL Jumper

3

3

3

3

3

3

3

3

3

3

3

3

FACP

NC GND GND ­F ­R C RST EOL +F +R

Output 1
­+

Output 2
­+

Output 3
­+

Output 4
­+

Output 5
­+

Output 6
­+

Output 7
­+

Output 8
­+

Output 9
­+

Output 10
­+

Output 11
­+

Output 12
­+

COM--

Mag. Lock Fail Safe (turn corresponding OUTPUT switch OFF)

Electromagnetic Door Holders Fail Safe
(turn corresponding OUTPUT switch OFF)

Electric Strike Fail Secure
(turn corresponding OUTPUT switch ON)

3

ACMS12

ACMS12CB

- 6 -

ACMS12/CB Sub-Assembly Installation Guide

Input/Output Voltage Ratings

Input Voltage and Source

Output Voltage Rating

5VDC (From VR6 regulator)

5VDC

12V (from VR6 regulator)

12VDC

12VDC (from external power supply)

11.7-12VDC

24VDC (from external power supply)

23.7-24VDC

Maximum Output of Altronix Power Supplies:

UL Listed or Recognized Power Supply

Output Voltage Setting

Max. Output Current

AL400ULXB2 / eFlow4NB

12VDC or 24VDC

4A

AL600ULXB / eFlow6NB

12VDC or 24VDC

6A

AL1012ULXB / eFlow102NB

12VDC

10A

AL1024ULXB2 / eFlow104NB

24VDC

10A

VR6

5VDC or 12VDC

6A

ACMS12/CB Sub-Assembly Installation Guide

- 7 -

VR6 - Voltage Regulator Overview:
VR6 voltage regulator converts a 24VDC input into a regulated 5VDC or 12VDC output. It is specifically designed to work with ACMS12(CB) by allowing to mount the Access Power Controller directly on top of VR6 to save enclosure space and simplify connections. Refer to VR6 Installation Guide Rev. 050517.

Specifications:

Power Input / Output: · Input: 24VDC @ 1.75A ­ Output: 5VDC @ 6A. · Input: 24VDC @ 3.5A ­ Output: 12VDC @ 6A.
Output: · 5VDC or 12VDC regulated output. · Output rating 6A max. · Surge suppression.

LED Indicators: · Input and output LEDs.
Electrical: · Operating temperature: 0ºC to 49ºC ambient. · Humidity: 20 to 93%, non-condensing.
Mechanical: · Product weight (approx.): 0.4 lb. (0.18 kg). · Shipping weight (approx.): 0.5 lb. (0.23 kg).

Connecting ACMS12(CB) to VR6:
1. Fasten male/female spacers (provided) to pems that match the hole pattern for VR6 in the desired location/enclosure. Use metal spacer for the mounting hole with star pattern (Fig. 7a, pg. 8).
2. Plug-in male 8-pin connector to female 8-pin receptacle on VR6 board (Fig. 7, pg. 8). 3. Fasten female/female spacers to male/female spacers (Fig. 7, pg. 8).
Use metal spacers over mounting hole with star pattern (Fig. 7a, pg. 8). 4. Align 8-pin male connector with female receptacle of ACMS12/ACMS12CB, then attach board to spacers
utilizing provided 5/16" pan head screws (Fig. 7, pg. 8). 5. Connect 24VDC power supply to terminal marked [+ PWR1 ­] of ACMS12/ACMS12CB (Fig. 8, pg. 7). 6. Select output voltage 5VDC or 12VDC using switch [S1] on VR6. 7. Complete steps 4-10 (pgs. 3-4).

Fig. 7

Spacer

Male/Female Spacer

Pem

8-Pin Connector

VR6

Pan Head Screw

Metal Spacer

Pem Fig. 7a

ACMS12/
C20
ACMS12CB

- 8 -

ACMS12/CB Sub-Assembly Installation Guide

Hook-Up Diagrams:
Fig. 8 - Daisy-chaining one or more ACMS12 units. EOL Jumper [EOL JMP] should be installed in the EOL position. Non-Latching.

NC GND GND ­F ­R C RST EOL +F +R
Jumper

NC GND GND ­F ­R C RST EOL +F +R
Jumper

Fig. 9 - Daisy-chaining one or more ACMS12 units. EOL Jumper [EOL JMP] should be installed in the EOL position. Latching Single Reset.

NC GND GND ­F ­R C RST EOL +F +R
N.O. Switch

NC GND GND ­F ­R C RST EOL +F +R
Jumper

Fig. 10 - Daisy chaining one or more ACMS12 units. EOL Jumper [EOL JMP] should be installed in the EOL position. Latching Individual Reset.

NC GND GND ­F ­R C RST EOL +F +R
N.O. Switch
ACMS12/CB Sub-Assembly Installation Guide

NC GND GND ­F ­R C RST EOL +F +R
N.O. Switch
- 9 -

Hook-Up Diagrams:

Fig. 10 - Polarity reversal input from FACP signaling circuit output (polarity is referenced in alarm conditiion). Non-Latching.

Fig. 11 -

Polarity reversal input from FACP signaling circuit output (polarity is referenced in alarm condition). Latching.

NC GND GND ­F ­R C RST EOL +F +R
Jumper 10K EOL + -- EOL
Fig. 12 - Normally Closed trigger input (Non-Latching).

NC GND GND ­F ­R C RST EOL +F +R

N.O. Switch

+ --

10K EOL

EOL

Fig. 13 - Normally Closed trigger input (Latching).

NC GND GND ­F ­R C RST EOL +F +R

Jumper

10K EOL

Fig. 14 - Normally Open trigger input (Non-Latching).

NC GND GND ­F ­R C RST EOL +F +R

N.O. Switch

10K EOL

Fig. 15 - Normally Open trigger input (Latching).

NC GND GND ­F ­R C RST EOL +F +R

Jumper

N.O. Switch
EOL

- 10 -

NC GND GND ­F ­R C RST EOL +F +R

N.O. Switch

10K EOL

ACMS12/CB Sub-Assembly Installation Guide

Notes:

ACMS12/CB Sub-Assembly Installation Guide

- 11 -

Notes:

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

IIACMS12/ACMS12CB

I01V

MEMBER

- 12 -

ACMS12/CB Sub-Assembly Installation Guide



References

• Altronix Home