User Manual

ManualsBrandsSECO-LARM ManualsBurglar AlarmsTwin Photobeam Detector

Running the Cable

Run a cable from the alarm control panel to the photobeam sensor. If burying the cable is required,

make sure to use electrical conduit. Shielded cable is strongly suggested. See Table 1 for maximum

cable length.

Typical Installations

The photoelectric beam lens can be adjusted horizontally ±90°, and vertically ±5° (see fig. 2). This

allows much flexibility in terms of how the transmitter and receiver can be mounted. See fig. 3.

Install at a distance of 32” to 39” (80 to 100 cm) above the ground for most situations. See fig. 3.

Wiring the Transmitter – Wall Mount

1. Remove the cover. Remove the screw under

the lens unit in order to detach the mounting

plate. See fig. 4.

2. If the sensor wiring comes from inside the wall

– Break a hole in the mounting plate’s rubber

grommet, and pull the cable through the

grommet’s hole. Then run the cable through

the hole near the top of the sensor unit so it

comes out the front. Using two of the included

mounting screws, attach the mounting plate to

the wall. Then reattach the sensor unit to the

mounting plate, connect the wires, and snap

on the cover. See fig. 5.

3. If the sensor wiring is run along the surface of

the wall – There are two plastic knockouts on

the back of the sensor unit, one on top and one

on bottom. Break out the appropriate knockout,

and pull the wiring through the knockout. Then

run the wiring through the hole near the top of

the sensor unit so it comes out the front. Using

two of the included mounting screws, attach the

mounting plate to the wall. Then reattach the

sensor unit to the mounting plate, connect the

wires, and snap on the cover. See fig. 6.

Table 1: Cable Length

Note (1):

Max. cable length when two or more sets are connected is the value shown in

Table 1 divided by the number of sets.

Note (2):

The power line can be wired to a distance of up to 3,300 ft. (1,000m) with

AWG22 (0.33mm

) telephone wire.

AWG22

0.33mm

0.0005in

AWG20

0.52mm

0.0008in

AWG18

0.83mm

0.0013in

AWG17

1.03mm

0.0016in

320m

1,050 ft.

550m

1,800 ft.

800m

2,600 ft.

980m

3,190 ft.

2,800m

18,000 ft.

4,800m

15,750 ft.

7,200m

23,620 ft.

8,800m

28,870 ft.

280m

920 ft.

450m

1,480 ft.

700m

2,300 ft.

850m

2,790 ft.

12V 24V 12V 24V 12V 24V

Wire Size

12V 24V

E-960-D90Q E-960-D190Q

E-960-D290Q

Model E-964-D390Q

2,400m

7,870 ft.

4,200m

13,780 ft.

6,200m

20,340 ft.

7,600m

24,930 ft.

110m

390 ft.

170m

560 ft.

250m

820 ft.

310m

1,020 ft.

900m

2,950 ft.

1,400m

4,590 ft.

2,200m

7,220 ft.

2,600m

8,530 ft.

200m

660 ft.

350m

1,150 ft.

500m

1,640 ft.

590m

1,940 ft.

1,600m

5,250 ft.

3,000m

9,840 ft.

4,200m

13,780 ft.

5,200m

17,060 ft.

Horizontal

Adjustment

Fine Tuning the Receiver

1. Once the sensor is mounted and aligned, the sensor

can be fine tuned using the voltage output jack.

a. Set the range of a volt-ohm meter (VOM) to

1~4VDC.

b. Insert the red (+) probe into the (+) terminal

and the black (-) probe into the (-) terminal.

c. Measure the voltage (see table 4).

d. Adjust the horizontal angle by hand until the

VOM indicates the highest voltage.

e. Adjust the vertical angle by turning the vertical

adjustment screw until the VOM indicates the

highest voltage.

NOTE -

Do not interrupt the beam while adjusting alignment.

Fig. 10:

Horizontal and Vertical

Sensor Adjustment

Horizontal

Adjustment

Vertical

Adjustment

View

Finders

Adjusting the Alignment

The transmitter and receiver sensor units can be adjusted ±5º

vertically and ±90º horizontally once the unit is mounted and

power is connected (see fig. 2 on page 3).

There are two ways to adjust alignment:

1. Laser adjustment (see fig. 1 on page 3):

a. Remove the transmitter cover, then turn the laser on with

the ON/OFF switch (see fig. 1 on page 3). A red dot will

show where the photoelectric beams are aimed.

b. Adjust the transmitter's sensor unit vertically and

horizontally until the red dot is centered on the receiver

and both the receiver’s LEDs turn off. See Table 3. It may

be necessary to adjust the horizontal and vertical angles

of the receiver's sensor unit as well.

c. Repeat steps a and b for the receiver.

d. Turn the lasers off, and then replace the covers.

WARNING: Do not look directly at the lasers.

2. Eyeball adjustment (see fig.10):

a. Remove the transmitter cover, and look into one of

the alignment viewfinders (one of the four holes

located between the two lenses) at a 45° angle.

b. Adjust the horizontal angle of the lens vertically

and horizontally until the receiver is clearly seen

in the viewfinder.

c. Repeat steps a and b for the receiver.

d. Replace the transmitter and receiver covers.

NOTE - If you cannot see the opposite unit in the viewfinder, put a sheet of white paper near the unit to

be seen, move your eyes about 2" (5cm) away from the viewfinder, and try again.

Table 4:

Note: 4VDC is maximum possible reading.

Table 3: Receiver LED Indicators

Alarm

(Red LED)

Signal

strength

OFF

Best

Good

Fair

Re-adjust

Signal (Yellow LED)

Multi

frequency

OFF

Flash

Single

frequency

Alignment

quality

Best

Good

Fair

Re-adjust

Voltage output

Multi

frequency

Single

frequency

>2.8V

1.8~2.7V

1.1~1.7V

<1.0V

>2.8V

1.7~2.7V

1.1~1.6V

<1.0V