2
3
Factory Window
Casement Window
Residential Door
Wood Awning Window
Sash Window
Triple Sliding Glass door
T
S
S
T
T
T
T
T
S
S
If detection area is too large or interrupted, fit slave detector(s)
X
The Shock Sensor module is to be placed into the base moulding
as seen in Fig. 3
Fig. 2
Fig. 3
Ensure arrow on the module points vertically upwards
This can be done by turning the cradle through 90°.
This adjustment allows horizontal or vertical mounting through 360°
Wiring
Using a standard alarm cable of either 6 cores (std operation) or 8
cores (latch operation), make the connections to the host control
panel and slave sensor(s) and/or contacts if used.
SD
1/3/4
Slave Sensor
or
N/C Contact
(optional)
L
L
A/T
A/T
A
A
SP
SET
+ 12V
0V
Fig. 4
Remove link if slave
sensors are fitted
N/C Anti-Tamper
N/C Alarm Relay
Spare
Set input
(optional)
1K
12V DC Supply
Setting the Sensitivity
The detection sensitivity may be set either automatically, whereby
the Trapper will indicate the required setting once a test shock is
applied to the protected surface, or manually referring to the amber
shock strength LED as an indicator.
Automatic Sensitivity Control
1. Apply power and remove links (LK1, 2, 4 and Q) as in Fig. 5
2. Remove and the refit link “E” to reset memory.
3. Firmaly strike the ptotected area at a point furthest from the
detector, using a hard object or suitable calibration tool, as in Fig.6.
Fig. 5
1
2
4
Q
E
Strike
Here
Trapper
Fig. 6
4. The shock signals received by the Trapper will be remembered as
80% of an alarm signal.
5. The LED will flash red a number of times .
Count the flashes and select the shock level by fitting the links,
as in Fig. 7
6. Repeat steps 1 to 5
7. Remove Link “E”, 2 the detection level is now set.
The green LED will flash at 2 Hz
If the LED does not flash, the trapper has not received a shock
signal. This may be because:
a. The test shock was too small, or
b. The detection area is too large.
To correct either:
a. Increase the test shock or
b. Fit additional slave sensor(s) to increase detection area.
If the detection area is too large or interrupted, fit slave detector(s)
as shown in Fig. 9
Testing the level of Detection
1. Set the required detection level, by fitting the sensitivity links.
2. Fit the link “E” as in Fig. 10.
3. Strike the protected surface.
4. After 3 seconds the LED will flash amber to indicate level of
shock received.
1 flash = 20% of an alarm, 2 flashes = 40%,
3 flashes = 60% as in Fig. 10a, 4 flashes = 80%, red = alarm.
5. The amber LED will continue to flash (with short pauses) to
show the memory status.
6. As more small shocks are applied, the LED will show the
accumulated level of shock held in the pulse count memory.
7. Repeat steps 2 to 4 throughout the protected area, to assess the
level of detection achieved.
Remove link “E” when detection testes are complete.
Note: The pulse count memory may be cleared by causing the
Trapper to go into alarm (Red LED).
Manual Sensitivity Control
1. Fit Link “E” and the three sensitivity links as required as in Fig. 11.
Fig. 7
1
2
4
Three Flashes
1+2 =3
Flashes
LK1
LK2
LK4
1
On
Off
Off
2
Off
On
Off
3
On
On
Off
4
Off
Off
On
5
On
Off
On
6
Off
On
On
7
On
On
On
Fig. 8
Maximum
Minimum
*
*
Fig. 9
Slave
Trapper
Fig. 10
1
2
4
Q
E
Fig. 10a
= 60%
Fig. 11
1
2
4
Q
E
The table in Fig. 8 below shows link positions
