Takex - 100m Low Current Quad Beam

LOW CURRENT PHOTOELECTRIC BEAM SENSOR
PXB-100SW : OUTDOOR 330ft (100m)
Instruction Manual
Thank you for purchasing this product.
Read this instruction manual before using the product to make sure that you use it correctly.
This device is an opposed type photoelectric beam sensor that consists of
a photo transmitter that transmits infrared light, and a photo receiver
for the transmitted light, as shown in the illustration on the right.
The infrared light transmitted from the transmitter expands in a cone
shape, while the light beams enter the receiver.
The straight line that connects the transmitter with the receiver is the
detection line.
If the detection line is obstructed (light is obstructed for more than 0.05
– 0.7 seconds), the receiver detects this break in the light beams, and
outputs a signal.
The current consumption of this products is a little. so it can be used
with solar battery unit in a site without a power supply.
Even in case wired, the thin wire is enough for wiring due to less
current consumption. It is good for moneywise.
In order to ensure that the detection line has sufficient margin of
sensitivity, adjust the direction of the light beams before placing the
system into operation. Providing sufficient margin of sensitivity reduces
the occurrence of malfunction caused by dense fog, heavy rain, frost,
snow, and other such weather conditions.
Coverage of light beams
Detection line
Transmitter
Receiver
Main Features
(1) DOUBLE MODULATION
(8) DRIP-PROOF HOUSING
Double modulated beams are designed to
distinguish the external lights.
It increases the reliability in the outdoor security
system.
Prevents rain and snow from streaming down
the front side of housing, helping to avoid false
alarm.
(9) DUAL RING SIGHT
(2) WIDE BEAM
Enables better and clear view for easy beam
alignment.
The pitch between upper beam and lower one is
widened more than old models.
False alarm by birds and falling leaves reduces
drastically.
(10) TARGET COLOR
(3) QUAD HIGH POWER BEAM
The beam power is 100 times of the minimum
requirement.
The beam distance is 10 times of the described
specifi cation.
This high power beam also realizes the reliability
against the harsh conditions like fog, snow, heavy
rain.
(4) LOW CURRENT CONSUMPTION
50% less than remaining models. The battery size
may reduce, wiring diameter may lessen,
installation cost may decrease.
The vivid color of the internal structure can be
recognized easily from the far end in the beam
alignment procedure.
The color differs between a transmitter and a
receiver which helps easy installation and
checking.
(11) INCREASED ANGLE
ADJUSTMENT ALLOWANCE
Vertically ±20˚ compared with previous version.
It may adapt to the slope installation fl exibly.
(12) SOLAR BATTERY CORRESPONDENCE
(5) ECOLOGY
RoHS adapted – Environment friendly. Free from
Lead, Mercury, Cadmium, Hexavalent chromium,
Polybrominated biphenyl, Polybrominated
diphenyl ether.
It can be used with solar battery unit in a site
without a power supply. It becomes possible to
install without wiring work.
(13) WIRELESS ALIGNMENT CHECKER
(6) INSECT/ WATER PREVENT
Enables easy and accurate beam alignment.
(Sold separately)
Anti-insect bushing and special gasket enable
IP65 rated tight housing.
(14) LIGHTNING PROTECTION
(7) ANTI-BIRD SPIKE
Minimize the damage by the induced surge
through wirings.
It may stand 10000V under normal mode,
15000V under common mode.
Keeps birds and small animals away from the
sensor, helping to reduce false alarms.
①
— TABLE OF CONTENTS —
1 PRODUCT COMPONENTS
1-1 PARTS DESCRIPTION ......................................................... 2
1-2 ACCESSORIES..................................................................... 2
1-3 NAMES OF OPERATION SECTION..................................... 3
2 PRECAUTIONS............................................................................. 3
3 BEFORE INSTALLATION
3-1 PROTECTION DISTANCE AND RANGE OF LIGHT
BEAM COVERAGE ............................................................... 4
3-2 MOUNTING HEIGHT ............................................................ 4
3-3 OPTICAL AXIS ADJUSTMENT RANGE ............................... 5
3-4 EXAMPLE OF PRACTICAL APPLICATION.......................... 5
3-5 IN CASE OF USING ALIGNMENT WIRELESS CHECKER “ER-02”
(Soled separately) ................................................................. 5
4 INSTALLATION METHOD
4-1 WALL INSTALLATION METHOD.......................................... 6
4-2 POLE INSTALLATION METHOD.......................................... 7
5 WIRING METHOD
5-1 POSITION AND RATING OF TERMINALS........................... 8
5-2 WIRING DISTANCE BETWEEN SENSOR AND
POWER SUPPLY.................................................................. 8
5-3 WIRING DISTRIBUTION DIAGRAM (WIRING DIAGRAM) .. 8
6 OPTICAL AXIS ADJUSTMENT
6-1 NAMES AND FUNCTIONS OF OPTICAL AXIS
ADJUSTMENT PARTS ....................................................... 10
1
PRODUCT COMPONENTS
1-1
PARTS DESCRIPTION
7
8
9
10
11
6-2 OPTICAL AXIS ADJUSTMENT USING
THE ALIGNMENT MECHANISM ........................................ 11
• Optical Axis Fine Adjustment Using the Sound Check ..... 12
• Optical Axis Fine Adjustment Using the Monitor
Output Voltage................................................................... 13
• Optical Axis Fine Adjustment Using the Alignment
Wireless Checker: ER-02 (Sold Separately) ..................... 13
OPERATION CHECK .................................................................. 14
EXPLANATION OF FUNCTIONS
8-1 FUNCTION SETTING CHECK............................................ 14
8-2 MODULATION FREQUENCY CHANGEOVER FUNCTION... 14
8-3 TRANSMISSION POWER SELECTION FUNCTION.......... 14
8-4 SOUND CHECK FUNCTION .............................................. 15
8-5 RESPONSE TIME ADJUSTMENT FUNCTION .................. 15
8-6 UPPER/LOWER CHANGEOVER FUNCTION.................... 15
8-7 ALARM OUTPUT SELECTION FUNCTION ....................... 15
8-8 ENVIRONMENTAL OUTPUT SELECTION FUNCTION ..... 15
8-9 LIGHT SENSITIVITY SIGNAL FUNCTION ......................... 16
8-10 EXTERNAL ENVIRONMENT DIAGNOSTIC FUNCTION ....... 16
8-11 ALIGNMENT WIRELESS CHECKER CONNECTION
FUNCTION .......................................................................... 16
TROUBLESHOOTING ................................................................ 17
SPECIFICATIONS....................................................................... 18
EXTERNAL DIMENSIONS Unit: inch (mm) ................................ 19
This section describes the contents of the product package and the names and functions of
the parts that appear in this instruction manual.
• Check that the following transmitter, receiver, and accessories are included in the box when you first
unpack the product.
Waterproof film
Cover: 2 pcs
Upper optical unit
Caution: Do not peel off or damage
the waterproof film.
Reflector
View finder
Swing arm (Red)
(Vertical angle adjustment)
Vertical angle
adjustment screw
(Red)
Horizontal angle fine
adjustment screw
(White)
Swivel base (White)
(Horizontal angle adjustment)
Transmitter: Fluorescent yellow
Receiver: Fluorescent orange
Cut bush
Wiring terminal
Grommet: 2 pcs
Function setting section
explained in
1-3 NAMES OF OPERATION
SECTION
Installation plate: 2 pcs
Lower optical unit
Sensor fixing screw
: 2 pcs
Transmitter
Cover fixing screw
Receiver
Transmitter/Receiver label on rear surface
Sensor body: 2 pcs (transmitter: 1 pc, receiver: 1 pc)
1-2
Accessories
Self-tapping screw
Pole installation fitting
for installation
: 4 pcs
(φ4 x 30)
(compatible with single tube)
: 8 pcs
Countersunk
oval-head screw
(M4x20)
: 8 pcs
②
Cable tie
: 8 pcs
Anti bird spike
: 4 pcs
Instruction manual
: 1 pc
1-3
NAMES OF OPERATION SECTION
[Receiver]
[Transmitter]
Light reception authorization LED: Red
Alarm LED: Red
(Upper/Lower)
Transmitter LED: Red
Upper/lower changeover switch
(Upper/Lower)
Sensitivity attenuation
LED: Red
“8 EXPLANATION OF FUNCTIONS
(8-6 UPPER/LOWER CHANGEOVER
FUNCTION)”
Upper/lower changeover switch
“8 EXPLANATION OF FUNCTIONS
(8-6 UPPER/LOWER CHANGEOVER FUNCTION)”
Not used
Monitor jack
Sound check switch
(Factory setting: OFF)
Detection response time adjustment volume
(Factory setting: Standard position [0.05 secs])
“8 EXPLANATION OF FUNCTIONS
(8-5 RESPONSE TIME ADJUSTMENT
FUNCTION)”
“8 EXPLANATION OF FUNCTIONS
(8-4 SOUND CHECK FUNCTION)”
Environmental output changeover switch
(Factory setting: N.C.)
Transmitter power changeover switch
Transmitter channel changeover switch
“8 EXPLANATION OF FUNCTIONS
(8-8 ENVIRONMENTAL OUTPUT SELECTION FUNCTION)”
(Factory setting: H)
(Factory setting: 1CH)
Alarm output changeover switch (Factory setting: N.C.)
“8 EXPLANATION OF FUNCTIONS
(8-2 MODULATION FREQUENCY
CHANGEOVER FUNCTION)”
“8 EXPLANATION OF FUNCTIONS
(8-3 TRANSMITTER POWER
SELECTION FUNCTION)”
2 PRECAUTIONS
“8 EXPLANATION OF FUNCTIONS
(8-7 ALARM OUTPUT SELECTION FUNCTION)”
Light reception channel changeover switch (Factory setting: 1CH)
“8 EXPLANATION OF FUNCTIONS
(8-2 MODULATION FREQUENCY CHANGEOVER FUNCTION)”
This manual describes the precautions to be observed for safe operation of this device by classifying them into the
following categories. As these are important, be sure to read and strictly observe them.
(1) When using multi-level protection, use sensors of the same model for both upper and lower sensors, and set the
same transmission power (H/L) for all of them.
(2) Using these sensors together with sensors from a different series (e.g. PB-IN-100HF) may cause interference
between the sensors.
Description of the Display
Warning Indicates information that if ignored and the device is handled incorrectly, may result in death or serious injury.
Caution Indicates information that if ignored and the device is handled incorrectly, may result in injury or damage to property alone.
This symbol indicates a prohibited action, with the specific action shown near the symbol.
Example:
Do not disassemble
Indicates the useful information.
Warning
Do not use the sensors powered with a voltage level other
than the indicated power supply voltage specified (between
10 to 30V DC). Doing so may cause a fire or electrical shock.
Do not disassemble or modify this device. Doing so may cause a
fire, electrical shock, or malfunction of the device.
Do not connect a device that exceeds the capacity shown to
the output contact of this device. Doing so may cause a fire or
electrical shock.
If smoke or an abnormal odor or sound is found, leaving it
unattended may cause a fire or electrical shock. Immediately
turn off the power to the device and confirm that the abnormal
state has been corrected, and then ask the place of purchase for
repair.
Do not touch the terminal section with wet hands.
Doing so may cause an electrical shock.
Caution
Do not install this device in a location that cannot support its
weight. Doing so may cause the device to fall and cause an
injury or malfunction of the device.
Consider the rated protection distance for each device, and
use within the rated distance.
Do not install the device as shown below. Doing so may cause erroneous detection or detection failure.
Models other than
PXB-100SW
PXB-100SW
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shaded by trees etc.
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strong light such as sunlight or
light from vehicle headlights can
directly enter the optical axis
③
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objects that move (the
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the optical axis
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with other models
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ground
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Cautions when using the outdoor photoelectric beam sensor (Daily maintenance)
1. In areas where there are trees or weeds, the photoelectric beams may get obstructed by overgrown branches or leaves.
As this may cause erroneous detection, be sure to trim down leaves and branches according to the growth of the plants.
Furthermore, the photoelectric beams may get obstructed by swaying branches or leaves due to wind. Keep in mind the swaying of leaves
and branches when trimming them.
2. Bine plants may wrap around the photoelectric beam sensors causing erroneous detections. Therefore, be sure to prune such plants
regularly.
3. Insects, bird droppings, or other natural phenomena may also soil the sensors causing erroneous detection. Be sure to clean the sensors
regularly.
3
BEFORE INSTALLATION
3-1
PROTECTION DISTANCE AND
RANGE OF LIGHT BEAM COVERAGE
In order to use these sensors correctly, thoroughly read this instruction manual and select the
mounting position and protection distance.
As the infrared light leaves the transmitter, it expands into conic shape light beams.
The optical axis is in the center of the light beams. Arrange the reflector so
that the device on the opposite side is in the center of the light beams.
If the optical axis (center of the light beams) is aligned
correctly, a detection line with sufficient margin of
sensitivity is formed.
CORRECT
4.45" (113 mm)
7.24" (184 mm)
Approx. 8ft (2.4 m)
WRONG
If the optical axis is not aligned correctly, there will
be insuf fi cient margin of sensitivity even if the
receiver is at the center of the light beams, making
the system more susceptible to adverse effects of the
environment resulting in a malfunction.
4.45" (113 mm)
330ft (100 m)
3-2
MOUNTING HEIGHT
As these sensors are designed to detect humans, install so that the center of the sensors are at a height of
approximately 2.6ft (0.8 m) from the ground when installing both on a wall and on a pole.
WRONG
CORRECT
CORRECT
Approx. 2.6' (0.8 m)
WRONG
WRONG
④
Installing so that the center of the sensor is
approximately 2.6ft (0.8 m) from the ground means that
the protection line is at waist height for humans,
enabling reliable detection.
If the installation position is too high or too low, the
protection line will be above shoulder height or below
knee height, making it more dif fi cult for reliable
detection.
3-3
• Refer to the diagram below, and install the sensors within the optical axis adjustment
range. (Photoelectric beams are drawn in simplified form)
OPTICAL AXIS ADJUSTMENT RANGE
(Example 1)
Top View
(Example 2)
(Example 3)
+90°
(Movable within 180°)
90°
–90°
+20°
Within 20°
Side View
Within 20°
(Movable within 40°)
–20°
+20°
Within 20°
Within 20°
(Movable within 40°)
–20°
3-4
EXAMPLE OF PRACTICAL APPLICATION
• In order to minimize the occurrence of malfunctions, refer to the protection diagram below for
optimal operation.
Using the sensors incorrectly may cause malfunction. (Light beams are drawn in simplified form)
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Straight Line Protection
Transmitter
1CH
Receiver Receiver
1CH
1CH
2 Level Straight Line Protection
Transmitter Transmitter
1CH
3CH
Receiver
3CH
Transmitter
1CH
Receiver Receiver
1CH
1CH
Transmitter Transmitter
1CH
2CH
Receiver
2CH
Transmitter
3CH
Receiver Receiver
3CH
3CH
Transmitter Transmitter
3CH
4CH
Receiver
4CH
2 Level Protection
Transmitter
1CH
Transmitter
3CH
Receiver
1CH
2 Level External Perimeter Protection
Receiver
3CH
Transmitter
2CH
Receiver
External Perimeter Protection
Transmitter
3CH
Transmitter
1CH
1CH
4CH
3CH
3CH
Receiver
1CH
3-5
2CH
1CH
2CH
3CH
4CH
Transmitter
Transmitter
3CH
Receiver
2CH
Receiver
Transmitter
1CH
3CH
1CH
Receiver
1CH
Receiver
3CH
4CH
Transmitter
1CH
4CH
Receiver
Transmitter
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Receiver
3CH
IN CASE OF USING ALIGNMENT WIRELESS CHECKER “ER-02” (Soled separately)
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⑤
4 INSTALLATION METHOD
4-1
1
WALL INSTALLATION METHOD
4
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Cover
Cover fixing screw
Sensor body
Installation plate
2
Sensor fixing screw
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0.39"(10 mm)
Marking
1.77"(45 mm)
0.39"(10 mm)
3
3.29"(83.5 mm)
9.45"(240 mm)
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When installing in the
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When installing using
the same installation
holes as those for the
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Self-tapping screw
for installation
(φ4x30)
Note: Accessories
Anti bird spike
(Accessory)
Installation
plate
Grommet
15 mm
About the grommet
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Knockout
⑥
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4-2
1
Note: This device can be attached to a pole with diameters of 1.65" (φ42 mm) to
1.95" (φ49 mm).
POLE INSTALLATION METHOD
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Cover fixing screws
Sensor body
Installation plate
2
Sensor fixing screws
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Note: Accessories
Pole
installation
fitting
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Grommet
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Installation to a pole
exceeding φ1.95" (φ49 mm)
5
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Pole cover for PXB
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Anti Bird spike
(Accessory)
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4
locations
Knockout
M4 tap
Knockout
3.29"(83.5mm)
4
locations
Note: Cut the upper section only if the pole
penetrates the top surface.
Countersunk
oval-head
screw
(M4x20)
Note: Accessories
⑦
For φ1.68"
(φ42.7 mm)
For φ19.1"
(φ48.6 mm) (single tube)
Diameter supported by pole
5 WIRING METHOD
5-1
POSITION AND RATING OF TERMINALS
<Transmitter>
1
2
<Receiver>
Power input 5 to 30V DC
(polarity)
Current consumption: 5 to 8V DC: 3.7mA
10 to 30V DC: 5.2mA
1
2
3
4
5
6
Tamper output
30V (AC/DC) 0.1A
No-voltage contact: b contact
Built-in contact protection resistance
7
8
5-2
7
8
Power input 5 to 30V DC
(polarity)
Current consumption: 5 to 8V DC: 2.3mA
10 to 30V DC: 3.1mA
Alarm output
30V (AC/DC) 1A (Resistance load)
No-voltage relay contact: N.C./N.O. switchable
Built-in contact protection resistance
Environmental output
30V (AC/DC) 1A (Resistance load)
No-voltage relay contact: N.C./N.O. switchable
Built-in contact protection resistance
Tamper output
30V (AC/DC) 0.1A
No-voltage contact: b contact
Built-in contact protection resistance
WIRING DISTANCE BETWEEN SENSOR AND POWER SUPPLY
Voltage
Wire size
AWG 20 (Dia,0.8mm)
AWG 18 (Dia,1.0mm)
AWG 17 (Dia,1.1mm)
AWG 16 (Dia,1.25 mm)
AWG 15 (Dia,1.4mm)
AWG 14 (Dia,1.6mm)
DC6V
DC12V
DC24V
2100ft. (640m)
3300ft. (1000m)
4000ft. (1200m)
5100ft. (1550m)
6400ft. (1950m)
8400ft. (2560m)
12500ft. (3810m)
20000ft. (6000m)
23500ft. (7160m)
30500ft. (9300m)
38000ft. (11600m)
50000ft. (15200m)
34000ft. (10400m)
53000ft. (16000m)
65000ft. (19800m)
84000ft. (25600m)
105000ft. (32000m)
135000ft. (40000m)
tWhen 2 or more units are connected, the wiring distance is calculated as follows: [Above value/number of units]
5-3
WIRING DISTRIBUTION DIAGRAM (WIRING DIAGRAM)
(1) Signal output for the upper and lower levels of the receiver cannot be output separately.
(2) For outdoor wiring installation, carry out pipe laying work whenever possible.
(3) Never use overhead wiring.
[Precautions for Installation]
Basic connections
When multiple sensor units are connected to the same circuit
Power supply
(12 V DC)
Alarm signal
(b contact)
Power supply
(12 V DC)
Alarm signal
(b contact)
①②
①②③④
Transmitter
Receiver
①②
(Controller)
①②③④
①②
①②③④
(Controller)
Transmitter
Receiver Transmitter
Receiver
(1CH)
(3CH)
When multiple sensor units are connected
to separate circuits
Basic connections for 2 level protection
Power supply
(12 V DC)
Power supply
(12 V DC)
Alarm signal 1
(b contact)
Alarm signal
(b contact)
①②
①②③④
⑤
⑥
⑦
⑧
Alarm signal 2
(b contact)
①②
①②③④
①②
①②③④
(Controller)
Transmitter
Receiver Transmitter
Receiver
(1CH)
(3CH)
Transmitter
(1CH)
Receiver
(1CH)
①②
①②③④
⑤
⑥
⑦
⑧
Transmitter
(3CH)
In case of using solar panel & power supply unit
"BA-6SLA" (Sold separately)
Environment signal
(b contact)
Tamper signal
(b contact)
(Controller)
Receiver
(3CH)
Transmitter : Solar panel & power supply unit, Receiver : Wired
・Basic connections
Solar panel & Power supply unit
BA-6SLA
＊It is impossible to pick up alarm signal as lower and
upper beam individually
＊Please do piping work for exterior wiring.
＊Please avoid aerial wiring as much as possible.
＊There is an insufficient sunshine area in winter.
The BA-6SLA may not work properly in such area.
Power supply
(12 V DC)
Power supply
Alarm signal
(b contact)
(Controller)
Transmitter
⑧
Receiver
Transmitter & Receiver: Solar panel & power unit
●Basic connection
( 1 zone, connect alarm output
and tamper output)
Solar panel & Power supply unit
BA-6SLA
Solar panel & Power supply unit
BA-6SLA
Power supply
Power supply
RF
transmitter
If the transmitter is required,
please prepare it in customer
side.
②①
①②③④
⑦
⑧
Transmitter
●Multiple connection
( 2 zones, Connect alarm output
and tamper output)
Receiver
Receiver
Note : One BA-6SLA (Solar panel unit) can connect 2 sets of PXB-100SW
(Transmitter x 2 units, Receiver x 2 units)
Solar panel & Power supply unit
BA-6SLA
Power supply
Receiver
RF
transmitter
Solar panel & Power supply unit
BA-6SLA
Solar panel & Power supply unit
BA-6SLA
Power supply
Power supply
②①
①②③④
①②③④
⑦
⑧
⑦
⑧
Transmitter
1CH
●Multiple connection
( 2 zones x 2 stacks, Connect alarm
output and tamper output)
①②
Receiver
1CH
Receiver
1CH
Transmitter
1CH
Note : One BA-6SLA (Solar panel unit) can connect 4 units of transmitters only
but one BA-6SLA can not connect 4 units of receivers only due to capacity.
Solar panel & Power supply unit
BA-6SLA
Power supply
Receiver
RF
transmitter
Solar panel & Power supply unit
BA-6SLA
Solar panel & Power supply unit
BA-6SLA
Power supply
RF
transmitter
Power supply
②①
⑦
⑧
①②③④
①②③④
⑦
⑧
Transmitter
1CH
②①
⑦
⑧
Transmitter
3CH
⑦
⑧
Receiver
1CH
Receiver
1CH
①②③④
⑦
⑧
①②③④
⑦
⑧
Receiver
3CH
Receiver
3CH
⑨
①②
⑦
⑧
Transmitter
1CH
①②
⑦
⑧
Transmitter
3CH
RF
transmitter
6
OPTICAL AXIS ADJUSTMENT
6-1
By aligning the optical axis correctly, a protection line with sufficient margin
of sensitivity can be created, reducing the occurrence of malfunction.
Always adjust the optical axis on both upper and lower levels.
NAMES AND FUNCTIONS OF OPTICAL AXIS ADJUSTMENT PARTS
Reflector Section Horizontal/Vertical Angle Adjustment Method
Names of the Optical Unit
Coarse adjustments
Fine adjustments
–90°
Horizontal
–5°
+90°
+5°
Horizontal angle fine
adjustment screw
View finder
Swing arm
(Red)
Note: For vertical
angle
adjustments
Swivel base
(White)
Note 1: For horizontal angle
adjustments
Note 2: Single notch is
equivalent to 3°
Vertical
Coarse adjustments can be made
by moving the swivel base
within the range of 0˚ to ±90˚.
Next, fine adjustments of 0˚ to ±5˚
can be made using the horizontal
angle adjustment screw.
Coarse adjustments
+10°
–10°
Fine adjustments
+10°
Vertical angle adjustment screw
(Red)
Note: For vertical angle
adjustments
–10°
Horizontal angle fine adjustment screw
(White)
Note: For horizontal angle adjustments
The inclination of the reflector can
be switched between -10˚ and +10˚
by pushing it forwards or
backwards.
Double Ring Alignment Mechanism
Visible from the view finder
Next, fine adjustments of 0˚ to ±10˚
can be made using the vertical angle
adjustment screw.
Near
When the view finder is
looked closely, view appears
as the diagram on the right.
Adjust the angle so that the
target color appears in the
center of the ring.
Far (The accuracy high)
Near
Far
Note: Sequence of
adjustment
When the view finder is
looked from a distance, the
view appears as the diagram
on the right.
Adjust the angle so that the
target color appears in the
center of the ring.
Names of the Operation Section
Note: This section describes the name and function of each part used during optical axis adjustment.
Upper transmission/reception authorization LED
Alarm LED
Note: Only available
on the receiver
• Lights up when an
alarm is output.
Sensitivity attenuation
LED
Note: Only available on
the receiver
• Lights up when the
sensitivity is
insufficient.
Lower transmission/reception authorization LED
The corresponding LED lights up when the
light transmission/reception is authorized.
(The upper and lower can be switched by
he upper/lower changeover switch.)
Upper/lower changeover switch
Transmitter
Each time the switch is pressed, the optical unit that transmits the light switches.
Only transmit
Only transmit
Transmit from both upper and lower
No transmission
from upper
from lower
Receiver
Each time the switch is pressed, the optical unit that receives the light is switched.
Received on both upper/lower
Only received on upper
Only received on lower
Monitor jack Note: Only available on the receiver
• The monitor output voltage can be checked by using a commercially available tester.
Sound check switch Note: Only available on the receiver
• Light reception level can be checked by the sound tone.
In the walk test mode, the beep sound is generated according to the alarm output.
Channel change over switch ※ Installed on the transmitter and receiver (Factory setting : 1CH)
⑩
6-2
1
OPTICAL AXIS ADJUSTMENT USING THE ALIGNMENT MECHANISM
Move the swivel base and swing arm so that the opposite device is roughly aligned with the view finder.
Or
Horizontal angle adjustment
2
Vertical angle adjustment
Look closely through the view finder, and adjust the position so that the sensor of the opposite device is visible at the center of the ring
using the horizontal and vertical angle fine adjustment screws.
Or
Vertical angle adjustment
Horizontal angle fine adjustment
3
Look through the view finder from a distance, and readjust so that the sensor of the opposite device is visible at the center of the ring
using the horizontal and vertical angle fine adjustment screws.
Or
Vertical angle adjustment
Horizontal angle fine adjustment
Turn on the power to the transmitter and receiver, check that the LEDs of both the transmitter and receiver are lit.
Receiver
Transmitter
Lit
Lit
If the LED of the receiver indicates as follows, take an appropriate measure according to the following description.
Description of the Display
Receiver
4
Remedy
(1) The light enters the receiver, but the light reception
level is insufficient
(The optical axis is misaligned)
(1) Go to step
(1) Different channels are set for the transmitter and
receiver
(2) The photoelectric beams are interfered
(1) Set the same channel for the transmitter and
receiver
(2) Change to a channel that is not influenced by other
factors
(1) The light does not enter the receiver at all
(The optical axis is not adjusted correctly)
Go back to step
⑪
5
1
and fine adjust the optical axis
and adjust the optical axis again
5
To improve accuracy of optical axis
Perform the procedure of “Optical Axis Adjustment Using the Sound Check”, “Optical Axis Fine
Adjustment Using the Monitor Output Voltage”, or “Optical Axis Fine Adjustment Using the Alignment
Wireless Checker”.
Optical Axis Fine Adjustment Using the Sound Check
The sound check function indicates the light reception level by using high and low pitch tones.
The sound check function is only installed on the receiver.
<<Caution>>
First, check only the transmission on the upper level and reception on the upper level , and then check only the transmission on the
lower level and reception on the lower level.
(When the light can be received on both the upper and lower levels, the beep sound at the total light reception level of the upper and lower levels are
generated.)
1. Turn the sound check switch on the receiver to the
ON position.
When the optical axis is roughly aligned, the beep
sound can be heard.
The optical axis is greatly misaligned if no sound
can be heard.
Transmitter
Receiver
Lit
Beep
(low pitch
siren)
Lit
Lit
Lit
Sound check
switch
2. Fine adjust the upper level optical axis.
Receiver
Transmitter
(1) Press the upper/lower changeover switch on
the transmitter to select [Only transmit from
upper].
(2) Press the upper/lower changeover switch on
the receiver to select [Reception authorization
on upper only].
(3) Turn the adjustment screw to fine adjust until
the tone reaches the highest pitch.
(Adjust both the transmitter and receiver.)
Lit
Beep
(high pitch
beep)
Lit
3. Fine adjust the lower level optical axis.
(1) Press the upper/lower changeover switch on
the transmitter to select [Only transmit from
lower].
(2) Press the upper/lower changeover switch on
the receiver to select [Reception authorization
on lower only].
(3) Turn the adjustment screw to fine adjust until
the tone reaches the highest pitch.
(Adjust both the transmitter and receiver.)
Transmitter
Receiver
Beep
(high pitch
beep)
Lit
Lit
4. Check if the light from another transmitter enters the receiver.
(1) Press the upper/lower changeover switch on the transmitter to
select [No transmission].
(2) Press the upper/lower changeover switch on the receiver to
select [Reception authorized for both upper and lower].
(3) Check that the alarm LED lights up when the receiver outputs
an alarm signal, and that the sensitivity attenuation LED also
lights up.
Transmitter
Lit
Off
If no alarm is activated or the sensitivity attenuation LED is not lit
When using multi-level protection, there may be some effects of
other photoelectric beam sensors. In such case, readjust the other
photoelectric beam sensors to reduce the effects to the minimum
possible.
In addition, check that an appropriate channel is set.
⑫
Receiver
Optical Axis Fine Adjustment Using the Monitor Output Voltage
Accurate adjustments of the optical axis can be achieved by checking
the light reception level value using the voltage of the monitor output.
<<Caution>>
First, check only the transmission on the upper level and reception on the upper level , and then check only the transmission on the lower
level and reception on the lower level.
(The values are not displayed correctly when the light can be received for both the upper and lower levels.)
See the following table for the monitor output voltage.
Receiver
Monitor Output Voltage Light Sensitivity
More than 2.5 V DC
Best
2.2 to 2.5V DC
Good
Less than 2.2V DC
Poor, re-adjust
1. Insert a commercially available tester into the monitor
jack on the receiver.
Monitor
<<Caution>>
The monitor jack is polarized.
Check the polarity of the tester pin before inserting it.
Use a tester with an internal resistance of over 500 kΩ.
Transmitter
Receiver
2. Fine adjust the upper level optical axis.
(1) Press the upper/lower changeover switch on
the transmitter to select [Only transmit from
upper].
(2) Press the upper/lower changeover switch on
the receiver to select [Reception authorization
on upper only].
(3) Turn the adjustment screw to fine adjust until
the monitor output voltage reaches the highest
value.
(Adjust both the transmitter and receiver.)
3. Fine adjust the lower level optical axis.
Lit
Beep
(high pitch
beep)
Lit
Monitor
Receiver
Transmitter
(1) Press the upper/lower changeover switch on
the transmitter to select [Only transmit from
lower].
(2) Press the upper/lower changeover switch on
the receiver to select [Reception authorization
on lower only].
(3) Turn the adjustment screw to fine adjust until
the monitor output voltage reaches the highest
value.
(Adjust both the transmitter and receiver.)
Lit
Beep
(high pitch
beep)
Lit
Monitor
4. Check if the light from another transmitter enters the receiver.
(1) Press the upper/lower changeover switch on the transmitter to
select [No transmission].
(2) Press the upper/lower changeover switch on the receiver to
select [Reception authorized for both upper and lower].
(3) Check that the alarm LED lights up when the receiver outputs
an alarm signal, and that the sensitivity attenuation LED also
lights up. Also check the monitor output voltage.
Transmitter
Receiver
Lit
Off
If no alarm is activated or the sensitivity attenuation LED is not lit
When using multi-level protection, the monitor output voltage may
become close to “1 V” due to effects of other photoelectric beam
sensors. In such case, readjust the other photoelectric beam
sensors to reduce the effects to the minimum possible.
In addition, check that an appropriate channel is set.
Optical Axis Fine Adjustment Using the Alignment Wireless Checker: ER-02 (Sold Separately)
Accurate adjustments of the optical axis can be achieved by checking the light reception level value using the voltage of the monitor output.
As the light reception level value can also be checked using the voltage on the transmitter, more accurate adjustments of the optical axis can be
achieved.
Using the alignment wireless checker enables easy and accurate beam alignment.
Providing sufficient margin of sensitivity increases resistance to the dense fog, snow, and heavy rain, which makes it possible to construct a
highly reliable intrusion alarm system.
Note: For detailed operation procedure of the alignment wireless checker, refer to the instruction manual for the alignment wireless checker ER-02.
⑬
7 OPERATION CHECK
1
Be sure to perform an operation check after the optical axis adjustment.
After optical axis adjustments are completed, attach the cover in position while the receiver is in light reception mode,
and wait for approximately 5 seconds.
If a “beep” tone sounds once, the auto gain lock is completed.
<<Caution>>
t*GUIFCFFQTPVOETDPOUJOVPVTMZJOTIPSUJOUFSWBMT
[peep-peep-peep-peep-peep...], the light reception level is insufficient.
At this point, the LED for the relevant level starts flashing.
Perform optical axis adjustments again.
t8IFOVTJOHNVMUJMFWFMQSPUFDUJPOJGMJHIUJTFOUFSJOHUIFSFDFJWFS
from somewhere other than the opposite transmitter, appropriate
gain lock cannot be performed. In such a case, turn off the power to
other transmitters, and then set the auto gain lock.
Transmitter
Beep
(high pitch
beep)
Obstruct the sensor beams near the sensor or the center of the detection
line and check that an alarm can be output correctly.
2
Receiver
If the sound check switch is set to ON, after the auto gain lock has
been completed normally, the walk test mode is activated for 5
minutes. The beep sound is generated in synchronization with the
alarm output.
The alarm LED lights up according to the alarm output.
If no alarm is output
An alarm is output
Turn off the power to the
transmitter and check that
an alarm is output.
Lit
The sensor beams are
not obstructed
Change the height or location of the sensor so
that the light on the detection line can be
obstructed completely.
Light entrance due to
wraparound of the beams
Readjust the optical axis, and move the direction
of the optical axis away from the reflection surface
within the allowable range.
(Perform this for both the transmitter and receiver)
(Due to light entrance caused
by reflection)
Switch the channel.
Spill-over light entrance
(Due to the same channel setting)
No alarm is output
8 EXPLANATION OF FUNCTIONS
8-1
This section describes the detailed information of the functions that appear in
this instruction manual. Set each function according to the description below.
FUNCTION SETTING CHECK
This device features the functions that must be set for operating the device, as well as those that are necessary for adjustment procedures.
Perform setting and adjustment by checking the following table.
Whether to set on
transmitter or receiver
Setting
Setting item
Both transmitter and receiver
Channel
Transmitter only
Transmission power
Alarm memory
Receiver only
Sound check
Response time
8-2
1CH
2CH
H
L
3CH
Timer
Remote
ON
OFF
0.05 secs (Standard)
MODULATION FREQUENCY CHANGEOVER FUNCTION
4CH
0.3 secs
0.7 secs
Other
Note: Installed on the transmitter and the receiver
Changing the channel changes the modulation frequency, which can prevent mutual interference or wraparound of the photoelectric beams.
Set corresponding transmitters and receivers to the same channel.
1 2
Function setting switch
(Factory setting: 1CH)
8-3
1CH
2CH
3CH
4CH
1 2
1 2
1 2
1 2
TRANSMISSION POWER SELECTION FUNCTION
Note: Only installed on the transmitter
This function switches the transmission power relative to the protection distance.
Interference or spill-over transmission of photoelectric beams can be prevented by setting an appropriate transmission power.
L
H
3
3
<<E.g.>>
When PXB-100SW is set at a distance of 200ft (60 m), set to L
3
Function setting switch
(Factory setting: H)
Power
Model
L
200' (60 m)
When PXB-100SW is set at a distance of 295ft (90 m), set to H
H
PXB-100SW Within 250ft (75 m) Over 75m but within 330ft (100 m)
295' (90 m)
⑭
8-4
SOUND CHECK FUNCTION
Note: Only installed on the receiver
4
Other settings
Light reception level can be checked by the sound tone.
(The tone pitch becomes higher as the light reception level
increases.)
The sensitivity attenuation LED is off while the receiver
cover is removed.
The beep sound is generated according to the alarm output.
(Activated for approximately 5 minutes after auto gain lock)
Walk test mode
Alarm memory display
8-5
4
Function setting switch
(Factory setting: OFF)
Operation (status)
Light reception level
ON
4
You can be notified of the light reception status or current alarm
operation on the receiver by the sound of alarms.
Item
OFF
If an alarm is output while the memory LED is lit, the beep
sound is generated.
RESPONSE TIME ADJUSTMENT FUNCTION
Set the alarm memory display function to the remote
mode.
Note: Only installed on the receiver
The detectable interruption time can be adjusted
(Refer to the diagram below to adjust the response time)
Interruption time:
0.05 secs
Interruption time:
0.3 secs
Interruption time:
0.7 secs
Running at full speed
Walking normally
0.3
0.7
(Sec)
Response time adjustment volume
(Factory setting: 0.05)
0.05
Walking slowly
<<Caution>>
(1) If the interruption time is shorter than the response time, the obstructing object is not detected.
(2) In areas where there are large objects that could be blown and obstruct the optical axis (e.g., birds, a lot of paper, and
cardboard), set the response time slightly slower by taking the installation condition into consideration. (However, if the
response time is too slow, the units may not detect an intruder.)
8-6
UPPER/LOWER CHANGEOVER FUNCTION
Note: Installed on the transmitter and the receiver
This function allows you to switch the optical unit to transmit/receive the light by pressing the upper/lower changeover switch.
Note: The sensors switch as shown in the diagram below when the upper/lower changeover switch is pressed.
[Receiver]
[Transmitter]
Transmitter LED/reception
authorization LED
(Different displays for
upper and lower)
Lit
Off
Lit
Off
No transmission
Lit
Lit
Lit
Upper/lower changeover
switch
8-7
Lit
ALARM OUTPUT SELECTION FUNCTION
Only transmit
from lower
Lit
Only transmit
from upper
Lit
Transmit from both
upper and lower
(When power is on)
Reception authorization
on upper only
Reception authorization
on both upper and lower
(When power is on)
Note: Only installed on the receiver
Select alarm output N.O. or N.C.
３
N.C.
N.O.
３
３
Function setting switch
(Factory setting: N.C.)
8-8
ENVIRONMENTAL OUTPUT SELECTION FUNCTION
Note: Only installed on the receiver
Select environmental output N.O. or N.C.
４
Function setting switch
(Factory setting: N.C.)
⑮
Reception
authorization on
lower only
N.C.
N.O.
４
４
8-9
LIGHT SENSITIVITY SIGNAL FUNCTION
Note: Only installed on the receiver
The LED lights up when the light reception level is considered to be
insufficient in order to notify the operator of that an inspection is
necessary.
8-10
Sensitivity
attenuation LED
: Lit
EXTERNAL ENVIRONMENT DIAGNOSTIC FUNCTION
Note: Only installed on the receiver
The light reception level falls below the specified level under adverse environmental conditions such as dense fog or heavy rain.
This function issues an environmental output if such conditions are maintained.
Note: The environmental output continues until the light reception level for both the upper and lower beams recovers to the
specified level (for 5 seconds at the shortest).
8-11
ALIGNMENT WIRELESS CHECKER CONNECTION FUNCTION
Note: Installed on the transmitter and the receiver
Using the alignment wireless checker that is sold separately enables easy and accurate optical axis adjustment.
Providing sufficient margin of sensitivity increases the resistance to the dense fog, snow, and heavy rain, which makes it
possible to construct a highly reliable intrusion alert system.
●Self checking
ER-02
●Manual checking
Lit
Flashing
Off
ER-02
Bidirectional communication
Lit
Flashing
Off
Bidirectional communication
In case of using alignment wireless checker "ER-02" (Soled separately)
If an electrical supply to PXB-100SW is under 10VDC, Don't share an electrical supply with ER-02.
Please use battery to operate ER-02 and set dipswitch "supply from battery "in ER-02.
Even if there is no any electrical supply to PXB-100SW, It is possible to align an optical axis of PXB-100SW using
ER-02 with battery.
(In case of an electrical supply to PXB-100SW is over 10VDC, it is possible to share the electrical supply with ER-02.)
⑯
9 TROUBLESHOOTING
• Check the device by referring to the table below. If you cannot restore the device to a
normal condition after the check, contact the place of purchase or TAKEX.
Status
Cause
Remedy
Transmitter LED does not
light (cover is open)
(1) Power is not on
(2) Poor wiring or breaking of wire, short
(3) Transmitter is set to [Do not transmit]
(1) Connect the power source
(2) Check again
(3) Press the upper/lower changeover switch
Beam reception authorization
LED does not light
(cover is open)
(1) Power is not on
(2) Poor wiring or breaking of wire, short
(1) Connect the power source
(2) Check again
(1) Power is not on
(2) Poor wiring or breaking of wire, short
(3) Photoelectric beam is reflected by some object and
entering the receiver
(1) Connect the power source
(2) Check again
(3) Remove the reflecting object, or change
the installation location or optical axis
direction
(4) Obstruct four levels simultaneously
(5) Shorten the detection response time
Alarm LED does not light
even if the photoelectric
beam is obstructed
(4) Four levels are not obstructed simultaneously
(5) Sensor beam is obstructed for less time than the
detection response time setting in the receiver
(1) Optical axis (alignment) is not aligned correctly
Alarm LED does not go out
(Alarm output does not stop)
Continually activated
(2) There is an obstruction between the transmitter and
receiver
(3) Transmitter/receiver cover or reflection section is dirty
(4) Frequency channel settings on the transmitter and
receiver do not match
(1) Poor wiring connection
(2) Change of supply voltage
(3) Obstruction between transmitter and receiver (objects
such as branches that move with the wind)
(4) The wiring of the transmitter/receiver is located nearby
a power line
(5) Unstable sensor installation
(6) Transmitter/receiver cover or reflection section is dirty
(7) Improper alignment of optical axis
(8) A large bird or cat may obstruct the beams
(9) Transmission power switch is set to L, which does not
keep enough margin of sensitivity
(1) Perform angle adjustment again and set
the gain lock
(2) Remove the object
(3) Clean using a soft cloth
(4) Readjust the frequency channels so they
are the same
(1) Check again
(2) Stabilize the supply voltage
(3) Remove the object
(4) Change the wiring route
(5) Fix in a stable location
(6) Clean using a soft cloth
(7) Perform optical axis adjustment again, set
the gain lock and secure the margin of
sensitivity
(8) Set the response time to be slightly longer
(however, this is not possible if there is a
possibility that an intruder could run
through at top speed)
(9) Set the transmission power switch to H,
remove the receiver cover and set the gain
lock again
Daily Inspections
To clean the device, use a soft, wet cloth and then wipe off any water drops.
If the device is particularly dirty, dip the soft cloth in water that includes a weak neutral detergent.
Wipe the device gently with the cloth, then wipe off any detergent that remains.
Do not use substances such as thinner or benzene. (The plastic parts may deform, discolor or change their properties.)
Perform operation checks on a regular weekly basis.
⑰
11 EXTERNAL DIMENSIONS
Unit: inch (mm)
3.94"(100 mm)
(When installed on wall)
2.52"
(64 mm)
4-φ0.16"
Compatible with screws
(4-φ4 mm)
9.06"(230 mm)
3.29"(83.5 mm)
7.95"(202 mm)
9.45"(240 mm)
4.76"(121 mm)
2-φ0.16"
Compatible with screws
(2-φ4 mm)
1.57"(400 mm)
7.62"(193.5 mm)
17.72"(450 mm)
Wiring hole
2-φ0.79"
(φ20 mm)
0.94"(24 mm)
2-φ0.16"
Compatible with screws
(2-φ4 mm)
4.29"(109 mm)
3.35"(85 mm)
0.94"(24 mm)
2.87"(73 mm)
4.49"(114 mm)
2.36"
(60 mm)
Wiring hole 0.51"×0.31"
(Knockout: 2 locations)
Reference installation drawing
2.68"
(68 mm)
Pole installation dimensional drawing
5.98"(152 mm)
9.25"(235 mm)(For installation on φ1.68"(φ42.7 mm))
9.53"(242 mm)(For installation on φ1.91"(φ48.6 mm))
Pole cover
(Optional accessory)
Supported pole diameters
φ1.65"(φ42 mm) - φ1.93"(φ49 mm)
4.68"(117.5 mm)(For installation on φ1.68"(φ42.7 mm) pole)
4.76"(121 mm)(For installation on φ19.1"(φ48.6 mm) pole)
⑲
Supported pole diameters
φ1.65"(φ42 mm) - φ1.93"(φ49 mm)
Limited Warranty :
TAKEX products are warranted to be free from defects in material and workmanship for 12 months from original date of shipment. Our warranty does not cover
damage or failure caused by natural disasters, abuse, misuse, abnormal usage, faulty installation, improper maintenance or any repairs other than those provided
by TAKEX. All implied warranties with respect to TAKEX, including implied warranties for merchantability and implied warranties for fitness, are limited in
duration to 12 months from original date of shipment. During the Warranty Period, TAKEX will repair or replace, at its sole option,free of charge, any defective
parts returned prepaid. Please provide the model number of the products, original date of shipment and nature of difficulty being experienced. There will be
charges rendered for product repairs made after our Warranty Period has expired.
In Japan
In the U.S.
In Australia
In the U.K.
Takenaka Engineering Co., Ltd.
Takex America Inc.
Takex America Inc.
Takex Europe Ltd.
83-1, Gojo-sotokan, Higashino,
Yamashina-ku, Kyoto 607-8156, Japan
Tel : 81-75-501-6651
Fax : 81-75-593-3816
http : // www. takex-eng. co. jp /
3350, Montgomery Drive
Sant Clara, CA 95054, U.S.A.
Tel : 408-747-0100
Fax : 408-734-1100
http : // www. takex. com
4/15 Howleys Road, Notting Hill,
VIC, 3168
Tel : +61 (03) 9544-2477
Fax : +61 (03) 9543-2342
Takex House, Aviary Court, Wade Road,
Basingstoke, Hampshire. RG24 8PE, U.K.
Tel : (+44) 01256-475555
Fax : (+44) 01256-466268
http : // www. takexeurope. com
No.05-769
⑳
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