Fig. 2: overview of cpu board – Securitron DK-26W User Manual

PN# 500-12500

Page 2

Rev. C, 08/11

can give rise to electronic noise problems in certain environments. It should therefore be
avoided where possible and in no case should cable length exceed 30 ft. (10 meters).

Cable entry to the CPU board enclosure can be handled in one of two ways. There is a hole in
the bottom of the enclosure, the use of which creates the most attractive installation as the
cable is completely hidden. Alternately, there is a side knockout in the enclosure cover which
permits surface mounting of the cable. The side knockout also permits a wiring technique

which is convenient when the CPU board enclosure is to be mounted in an awkward
location such as above a drop ceiling. You can pop the board itself out of its snap track and
make all your connections with the board in your hands. The board is then re-snapped into the
plastic trak. The enclosure cover snaps on with the wires emerging from the side knockout. If
you use this technique, avoid touching the components or rear pins on the board as

much as possible. Static electricity can destroy the processor. Also when you snap the
board back in its track, make sure it’s securely done. Sometimes you need to squeeze the
outer lips of the track to insure that the board edges are really seated in the slot.

3. WIRING
3.1 POWER, DATA AND KEYPAD WIRING
Figure 2 shows the DK-26W CPU Board. You will make connections to the 18 terminals as
shown in the drawing and either leave the jumper block in the factory set position (connects pins
2 and 3) if you plan to power the DK-26W with 12 VDC or move the jumper to connect pins 1
and 2 if you will be using 5 VDC. Note that operation at 12 volts with the jumper block in the

5 volt position can damage the unit.

Note that the DK-26W will not operate on AC power. It will, however, accept full wave
rectified DC power (transformer + bridge rectifier) when it is being powered by 12 VDC.

When it is being powered by 5 VDC, the voltage must be regulated (+/- 1/2 volt). Be sure
to observe polarity when you power the DK-26W.

There are 12 color coded wires in the keypad cable. Refer to Figure 2 and connect each wire to
the indicated terminal on the CPU Board. No other connections may be made to these terminals
(except if two keypads are used with one CPU board).

The DK-26W will draw a maximum of 30 mA at 5 VDC or 12 VDC.

The Weigand output terminals: Data 0 and Data 1 connect to the appropriate inputs of the
access control system. The wire run maximum distance for reliable operation depends on the

wire gauge. A guide line is 200 ft. for 22 gauge; 300 ft. for 20 gauge and 500 ft. for 18 gauge.

FIG. 2: OVERVIEW OF CPU BOARD

G

R

N
YEL

RED

BLU

WHT

BLK

GRY

BRN

BG

E

ORG

P

NK

V

IO

D0

D1

LED

X

MIT

GREEN

YELLOW

RED

BLUE

WHITE

BLACK

GRAY

BROWN

BEIGE

ORANGE

PINK

VIOLET

MICRO-

PROCESSOR

FACILITY CODE

PROGRAM

BUTTON

TRANSMIT DATA

LED (FROM SYSTEM)

DATA 1

0 VDC (NEG)

+5 OR +12 VDC

DATA 0

1

3

2

JUMPER TO SET

VOLTAGE

FACTORY SET 2/3 = 12 V

CHANGE TO 1/2 FOR 5 V