Guide to selecting a power supply
The PS900 Series provides a variety of flexible options allowing you to design custom
solutions to address a broader range of applications. This brief guide will help you configure
the proper solution based on the unique characteristics of your opening. If at any point in
the system design or installation process you need assistance, you can turn to the security
and safety consultants at Allegion for support.
1. Sizing a supply
Simple as they may seem, power supplies play a critical role in your access
control system. They protect devices downstream by providing filtered and
regulated power. To begin with you must determine the number of devices that
will be connected to the power supply and the type of device - electric strikes,
electromagnetic locks, electrified mechanical locks, exit devices, automatic
operators or accessories such as pushbuttons. Each type of device has specific
current demands. For example, high in-rush exit devices pull a significant current
to retract or unlock the device and then drop to a lower holding current. If a
device has an in-rush current you also need to determine how long the in-rush
current lasts.
Power supplies convert high voltage AC power into the low voltage DC outputs
required by most access control devices. Begin by checking the input voltage
to ensure that it is compatible with your buildings source AC power. The PS900
Series, for example, features a universal 120-240 VAC input. All devices fed from a
power supply must accept the same output voltage – typically 12 VDC or 24 VDC.
To calculate the total load, add the peak current draw of all devices in the system
to determine the required amperage of the supply.
Quick survey
Gather the following information to
determine the necessary size of the
power supply:
Number of devices
Type of devices
In-rush current requirements
Duration of in-rush current
Allegion • Guide to selecting a power supply
Allegion product Current draw Voltage
Card readers
PR10 110 mA Linear: 5 - 16VDC
SM10 195 mA Linear: 5 - 16VDC
MT11 170 mA Linear: 5 - 16VDC
MT15 200 mA Linear: 5 - 16VDC
MTK15 230 mA Linear: 5 - 16VDC
MTMS15 200 mA Linear: 5 - 16VDC
MTMSK15 200 mA Linear: 5 - 16VDC
MTB11 190 mA @12V, 100 mA @ 24V 5-28 VDC
MTB15 190 mA @12V, 100 mA @ 24V 5-28 VDC
MTKB15 200 mA @12V, 105 mA @ 24V 5-28 VDC
Electronic locks
AD-300 250 mA 12VDC or 24VDC
PIM400-TD2 250 mA 12VDC or 24VDC
PIM400-485 250 mA 12VDC or 24VDC
PIB300-2D 250 mA 12VDC or 24VDC
PIM400-1501 400 mA PoE 802.3af compliant
power injector
WRI400 500 mA 12VDC or 24VDC
REPTR400 500 mA 12VDC or 24VDC
ECK/GCK400 500 mA 12VDC or 24VDC
CT5000 250 mA 12VDC or 24VDC
GWE Gateway 330mA 12V DC
100 mA 24V DC
or PoE Class 0 powered
device that requires 15.4 watts
12VDC or 24VDC
Electrified
mechanical devices
ND Series 24VAC - 350 mA
24VDC - 150 mA
24VDC or 24 VAC
L Series Peak - 1.3 A,
5 - 10 second intervals
Holding - 135 mA
between peak intervals
24VDC or 24 VAC
QEL 1.0 A inrush (0.5 sec)
0.14 A Holding
24VDC
MEL 1.0 A inrush (0.5 sec)
0.14 A Holding
24VDC
E996L
98/99 Series trim
0.22 A 24VDC
E360L
33A/35A Series trim
.50 A 24VDC
DE5300 24VDC - 500 mA
without maglocks
24VDC
E7500 12VDC - 600 mA
24VDC - 300 mA
12VDC or 24VDC
EL
1
16 A inrush (0.5 sec)
0.3 A holding current
24VDC
Motor driving
Chexit/RCM
1
1.25 A inrush (arming 0.5 sec)
390 mA continuous
24VDC
Sizing a supply
Calculate the total peak current
draw of all devices in the system to
determine the required amperage
of the supply.
§ Schlage PS902 - up to 2 amps
§ Schlage PS904 - up to 4 amps
§ Schlage PS906 - up to 6 amps
§ Von Duprin PS914 - up to 4 amps
continuous current and capable
of providing 16 amp high in-rush
current for 300 msec
Allegion • Guide to selecting a power supply
Allegion product Current draw Voltage
Electric strikes
5100 Series 12VDC - 0.38 A
24VDC - 0.19 A
12VDC or 24VDC
field selectable
6100 Series 12VDC - 0.6 A
24VDC - 0.33 A
12VDC or 24VDC
6200 Series 12VDC - 0.6 A
24VDC - 0.33 A
24VDC standard
12VDC and AC op-
tional
6300 Series 12VDC - 0.5 A
24VDC - 0.24 A
12VDC or 24VDC
field selectable
6400 Series 12VDC - 0.375 A
24VDC - 0.190 A
12VDC or 24VDC
field selectable
4200 Series 12VDC - 0.20 A
24VDC - 0.10 A
30VDC - 0.20 A
12VDC or 24VDC
field selectable
Electromagnetic locks
M420/M450 12VDC - 0.75 A
24VDC - 0.38 A
12VDC or 24VDC
M490 12VDC - 0.65 A
24VDC - 0.35 A
12VDC or 24VDC
M490DE 12VDC - 0.75 A
24VDC - 0.45 A
12VDC or 24VDC
M490G 12VDC - 0.65 A
24VDC - 0.35 A
12VDC or 24VDC
320M 12VDC - 0.45 A
24VDC - 0.23 A
12VDC or 24VDC
GF3000 12VDC - 0.90 A
24VDC - 0.45 A
12VDC or 24VDC
390RFK 12VDC - 0.65 A
24VDC - 0.45 A
12VDC or 24VDC
Note:
§ All devices fed from a power supply must accept the same output voltage.
§ Battery powered devices not included in above reference table. Please refer to data sheets for more information.
2. Choosing option boards
Check for fire door labels on the door and frame. If an opening is fire rated
code requires that the door have positive latching, which fail-secure hardware
provides.
§ Fail-secure hardware is locked when power is removed. Power is applied to
unlock the door.
§ For applications, such as stairwell re-entry doors, where access is required
upon fire alarm, fail-safe hardware is applied. Fail-safe hardware is unlocked
when power is removed. Power is applied to lock the door.
The PS900 Series offers the 900-FA option board which cuts power to
downstream devices when the fire alarm is activated to allow for
fail-safe/fail-secure conditions. For the PS902 the 900-FA board can be
connected directly to the main printed circuit board (PCB) on the supply. For the
rest of the PS900 Series power supplies the 900-FA board must be connected
to another option board.
§ 900-FA: Emergency interface relay integrates with fire alarm and is used to
cut DC output in case of emergency.
Sizing a supply
Quick survey
Identify if the opening is fire rated
or has special requirements, such
as re-entry upon fire alarm. Then
identify if it requires hardware
for fail-safe, fail-secure, or both
conditions upon loss of power or
fire alarm. Always consult your
local AHJ for requirements of the
opening if it is unclear.
About Allegion
Allegion (NYSE: ALLE) is a global pioneer in seamless access. We keep people and
their assets safe, wherever they are, bringing together simple solutions, convenient
access and advanced technology.
For more, visit www.allegion.com
© 2022 Allegion
010491, Rev. 09/22
www.allegion.com/us
Quick survey
Is access control still required in
the event of a power outage:
Yes
No
Allegion, the Allegion logo, Von Duprin, the Von Duprin logo, Schlage and the Schlage logo are trademarks of Allegion plc, its
subsidiaries and/or aliates in the United States and other countries. All other trademarks are the property of their respective owners.
3. Application
The PS900 Series allows you to address a wide range of applications with
options boards that can be combined and configured in countless ways. A
complete operational description of the opening is essential. How many doors
are there? Is logic or sequencing required?
§ 900-4R: 4 independently controlled relays to power multiple devices
§ 900-2RS: 2 relay EL panic device control board providing time delay between
the firing of the outputs
§ 900-4RL: 4 relay board with integrated logic for controlling security interlocks,
auto operators and time delays
§ 900-8F: 8 individually fuse protected outputs, giving the flexibility to power
multiple devices and provide another layer of protection
§ 900-8P: 8 positive thermal coecient (PTC) protected outputs
6. Battery back up
Upon loss of building power it is important that your access control devices still
function properly. The 900-BBK board provides up to four hours of backup power
at the same output voltage as the power supply. There is a dedicated location on
the supply for the 900-BBK board that nothing else can go on so in most cases it
does not take away space from other option boards. The exception to this is the
PS906. The PS906 can accommodate: a.) two option boards and a 900-BBK kit,
or b.) three option boards and no 900-BBK kit.
§ 900-BBK: Battery backup kit (includes battery backup board and two 7A/hr.
batteries) and provides up to four hours of backup power when cycled every 5
minutes at full load
Number of connectors
PS902
1
(2 amps)
PS904
1
(4 amps)
PS906
1
(6 amps)
PS914
1
(4 amps high inrush)
Option boards 1 2 3
2
2
Battery backup board 1 1 1 1
1 One fire alarm board can be connected directly to the PS902. If a fire alarm board is desired for the PS904, PS906 or
PS914, it must be connected to an option board.
2 If battery back-up is installed, only two additional option boards can be used.
Quick survey
Provide a complete operational
description of the opening.
