BEST Installation Instructions For The 8KW And 9KW Electrified Cylindrical With RQE T56090d

User Manual: BEST Installation Instructions for the 8KW and 9KW Electrified Cylindrical with RQE Installation

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Wiring Instructions for 8KW and 9KW Series
Electrified Cylindrical Locks with Request-to-exit
Wiring diagram
The diagram below shows how to wire 8KW and 9KW electrified locks.

Power Supply
24 Volts AC or DC
*Note: In some door applications (for
example fire doors), it may not be
possible to make extra holes into the
door. In such scenarios, the TCM may
be installed in a secure location at no
more than 20 feet from the door.

TCM (Temperature
Control Module)
Insert TCM into the
1“ dia extension.*

8WDTL
Door transfer loop

Ceiling

RQE (Request-to-exit) wires

(1” dia x 3” deep hole)

Brown
(common)
Orange
(NO)
Green
(NC)

RQE (Request-to-exit) wires
are normally used with
access control systems.

Run wires through the door or
mount wires to the door surface with wire molding.
To find the correct wire gauge
for wire runs, see Figure 2 on
the reverse side.
Electrified cylindrical
chassis — 9KW shown
with RQE

Figure 1—Wiring diagram for 8KW and 9KW electrified locks (9KW with RQE shown)

Electrical requirements
The following table describes the voltage and current specifications
for the 8KW and 9KW locks, with RQE (REX) switch, and
door monitoring switch.
Unit

Voltage

8KW (RQE not available)

24 volts AC or DC 0.18 amp continuous duty

9KW with and without RQE

24 volts AC or DC 0.18 amp continuous duty

RQE switch

30 volts AC or DC 0.7 amp inductive
maximum
0.7 amp resistive

T56090/Rev D 1800760 ER-7991-19 Jan 2015

Current

BEST ACCESS SYSTEMS
A Product Group of Stanley Security Solutions, Inc

— Over

Minimum gauge wire chart for lock circuits
The chart in Figure 2 helps you find the minimum wire gauge needed for a specific length wire run. It assumes that the lock circuit is made of
two conductor cable. The chart also factors in a 15% voltage loss at 24 volts.
Maximum
lock current
(in amps)

1.500

Do not use this
chart for any plots
made to this
shaded area.

1.375
1.250
1.125
1.000

10

AW
Gw

.875

ire

12

.750

AW
Gw

.625
.500

16
18

.375

20
.250

ire

14

Gw

ire

AW
Gw

AW

ire

Gw

AW

AW

ire

Gw

ire

.125

Example
4000'

3500'

3000'

2500'

2000'

1500'

1000'

500'

0

Total footage of two conductor cable for lock circuit (in feet)

Figure 2—Minimum gauge wire chart for lock circuits

To find the correct gauge wire
1 Determine the maximum lock current and find that value on the
left side of the chart.
2 Determine the total footage of cable to be used in the lock circuit
and find that value at the bottom of the chart.
3 Locate the intersection of current and footage. The line above or
to the right of the intersection shows what minimum gauge wire
you need.
Example
▲ Lock current: 0.18 amp maximum
▲ Total wire run: 1000 feet
Wire gauge needed: 20 AWG two conductor cable
Note: For 12 volt locks, double the maximum lock current, then use
that value on the left side of the chart.

T56090/Rev D 1800760 ER-7991-19 Jan 2015

Installation hints
1 Wire gauge (or size) determines how efficiently the lock will operate. Consider wire gauge before installation. To find the recommended minimum wire gauge for all wire runs, see Figure 2.
2 Use wire of 20 AWG (gauge) or larger. We do not recommend
using a smaller wire gauge than 20 AWG.
3 When wiring two or more locks to a single power supply, make
sure that the power rating of the power supply is 1 ½ times
greater than the sum of the lock’s power requirement.
Example
For two locks powered by one supply:
▲ Lock 1 (9KW) is rated at 24 volts, 0.18 amps—24 volts × 0.18
amps = 4.32 volt-amps
▲ Lock 2 (45HW) is rated at 24 volts, 0.75 amps—24 volts × 0.75
amps = 18 volt-amps
Choose a transformer with a rating of at least: (4.32 volt-amps +
18 volt-amps) × 1 ½ = 33.48 volt-amps

BEST ACCESS SYSTEMS
A Product Group of Stanley Security Solutions, Inc
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