Main Features
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.
Enables easy and accurate beam alignment.
(Sold separately)
Minimizes the damage caused by induced
lightning through wiring.
Vertically ±20°compared with previous version.
It may adapt to the slope installation exibly
Enables better and clear view for easy beam
alignment.
Double modulated beams are designed to distinguish the true
beam signal from accidental or deliberate interference from
sunlight, car headlights and other articial light sources.
This increases the reliability in the outdoor security system.
The beam power is 100 times of the minimum requirement.
The beam distance is 10 times of the described specication.
This high power beam also realizes the reliability against
the harsh conditions like fog, snow, heavy rain.
Thank you for purchasing this product.
Read this instruction manual before using the product to make sure that you use it correctly.
This product is designed to be installed into the housing (sold separately) for use. Make sure to install this product into the housing for use.
&
HF
AT
Upper and lower beam individually detects the objects and
issues a signal only by blocking each beam.
AT output : OR-gated by upper and lower beam.
HF output : AND-gated.
By synchronizing the timing of transmitting and receiving
beam, the stacking system will be more reliable.
PHOTOELECTRIC BEAM SENSOR
Instruction Manual
(1) ANTI-CRAWL DETECTION
(2) AT
.
HF SEPARATE OUTPUT
1
2
3
4
(3) SYNCHRONIZED HIGH POWER BEAM
(5) QUAD HIGH POWER BEAM
(6) ECOLOGY
(8) DUAL RING SIGHT
(9) TARGET COLOR
(10)
INCREASED RANGE
ADJUSTMENT ALLOWANCE
(11)
WIRELESS ALIGNMENT CHECKER
(12)
LIGHTNING PROTECTION
30% less than current models. The low current
consumption reduces cabling costs.
(7) LOW CURRENT CONSUMPTION
(4) DOUBLE MODULATION
RoHS adapted - Environment friendly. Free from Lead,
Mercury, Cadmium, Hexavalent chromium, Polybrominated
biphenyl, Polybrominated diphenyl ether.
PXB-100ATC-KH: 330ft (100m)
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.
This model is designed to prevent a crawling intrusion to coverage area
by means of OR-gated detection in addition to AND-gated detection.
In order to ensure that the detection line has sufcient margin of
sensitivity, adjust the direction of the light beams before placing the
system into operation. Providing sufcient 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
Receiver
Transmitter
1
Check that the following transmitter, receiver, and accessories are included in the box when you first
unpack the product.
1-1
PARTS DESCRIPTION
1-2
Accessories
—
TABLE OF CONTENTS
—
1
PRODUCT COMPONENTS
This section describes the contents of the product package and the names and functions of
the parts that appear in this instruction manual.
Instruction Manual
(This Manual)
: 1 pc
Panhead screw
(M3×12mm)
: 8 pcs
PRODUCT COMPONENTS1
2
3
4
5
6
7
8
9
10
11
12
13
1-1
1-2
1-3
OPERATING PRECAUTIONS
2-1
BEFORE USE
3-1
3-2
3-3
3-4
3-5
INSTALLATION METHOD
4-1
INITIAL SETTING
5-1
5-2
5-3
5-4
5-5
5-6
5-7
5-8
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2
2
3
4
5
5
5
6
6
9
9
9
9
10
10
10
10
10
PARTS DESCRIPTION
ACCESSORIES
NAMES OF OPERATION SECTION
EXAMPLE OF INCORRECT INSTALLATION
PROTECTION DISTANCE AND RANGE OF LIGHT
BEAM COVERAGE
MOUNTING HEIGHT
OPTICAL AXIS ADJUSTMENT RANGE
TERM DESCRIPTION
APPLICATIONS
INSTALLATION INTO HOUSING
MODULATION FREQUENCY CHANGEOVER
SYNCHRONIZED TIMING
MASTER / SLAVE SELECTION
BEAM POWER SELECTION
ALARM OUTPUT SWITCH
ENVIRONMENTAL OUTPUT SWITCH
RESPONSE TIME
SOUND CHECK
WIRING METHOD
6-1
6-2
6-3
OPTICAL AXIS ADJUSTMENT
7-1
7-2
OPERATION CHECK
EXPLANATION OF FUNCTIONS
9-1
9-2
9-3
9-4
9-5
9-6
9-7
9-8
9-9
TROUBLESHOOTING
SPECIFICATIONS
EXTERNAL DIMENSIONS
OPTIONAL
POSITION AND RATING OF TERMINALS
WIRING DISTANCE
WIRING DISTRIBUTION DIAGRAM (WIRING DIAGRAM)
NAMES AND FUNCTIONS OF OPTICAL AXIS
ADJUSTMENT PARTS
OPTICAL AXIS ADJUSTMENT USING
THE ALIGNMENT MECHANISM
AUTO GAIN LOCK FUNCTION
UPPER/LOWER CHANGEOVER FUNCTION
LED LIGHT TURN-OFF FUNCTION
PROGRAMMABLE AGC FUNCTION
EXTERNAL ENVIRONMENT DIAGNOSTIC FUNCTION
ALARM LED
LIGHT SENSITIVITY SIGNAL FUNCTION
FUNCTION SETTING CHECK
ALIGNMENT WIRELESS CHECKER CONNECTION
FUNCTION
11
11
12
14
15
19
20
20
20
21
21
21
21
21
21
22
22
23
23
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...
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....
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View finder
Reflector
Horizontal angle fine
adjustment screw (White)
Vertical angle
adjustment screw (Red)
Wiring terminal
Wiring terminal
Swivel base (White)
(Horizontal angle
adjustment)
Sensor body : 2 pcs (Transmitter: 1 pc, Receiver: 1 pc)
Swing arm (Red)
(Vertical angle adjustment)
Upper optical unit
Lower optical unit
TRANSMITTER
RECEIVER
Fluorescent yellow
Fluorescent orange
1-3
NAME OF OPERATION
SETTING
Reception authorization
LED switch
Transmitter LED switch
2
[Transmitter]
[Receiver]
NAMES OF OPERATION SECTION
1-3
Reception authorization
LED switch
Transmitter LED
switch
“9 EXPLANATION OF FUNCTIONS
(
9-3 LED LIGHT TURN-OFF FUNCTION
)”
“9 EXPLANATION OF FUNCTIONS
(
9-3 LED LIGHT TURN-OFF FUNCTION
)”
“5 INITIAL SETTING (5-4 BEAM POWER SELECTION )”
“5 INITIAL SETTING (5-1 MODULATION FREQUENCY CHANGEOVER)”
“5 INITIAL SETTING (5-1 MODULATION FREQUENCY CHANGEOVER)”
“9 EXPLANATION OF FUNCTIONS (9-1 AUTO GAIN LOCK FUNCTION)”
“5 INITIAL SETTING (5-8 SOUND CHECK)”
“5 INITIAL SETTING (5-7 RESPONSE TIME)”
“5 INITIAL SETTING (5-6 ENVIRONMENTAL OUTPUT SWITCH)”
“5 INITIAL SETTING (5-5 ALARM OUTPUT SWITCH)”
“5 INITIAL SETTING (5-3 MASTER/SLAVE SELECTION)”
“5 INITIAL SETTING (5-2 SYNCHRONIZED TIMING)”
“5 INITIAL SETTING (5-2 SYNCHRONIZED TIMING)”
“9 EXPLANATION OF FUNCTIONS
(9-2 UPPER/LOWER CHANGEOVER FUNCTION)”
“9 EXPLANATION OF FUNCTIONS
(9-2 UPPER/LOWER CHANGEOVER FUNCTION)”
(Factory set : ON)
(Factory set : ON)
Transmission LED
(Upper/lower)
Light reception authorization LED
(Upper/lower) : Red
Beam power switch (Factory set : H)
Transmitter channel changeover swicth (Factory set : 1CH)
Alarm LED : Red
Sensitivity attenuation LED : Red
Sound check switch (Factory set : OFF)
Auto-gain lock switch
(Factory set : OFF)
Monitor Jack
Receiver channel changeover switch (Factory set : 1CH)
Upper/Lower changeover switch
Upper/lower changeover switch
Synchronized timing switch (Factory set : A)
Synchronized timing switch (Factory set : A)
Environmental output switch (Factory set : N.C.)
Alarm output switch (Factory set : N.C.)
Detection response time adjustment switch (Factory set : 0.1sec)
Master/Slave selection switch
(Factory set :
Master)
Vacant
12345678
12345678
6,7,8.
5.
4.
3.
1,2.
8.
6,7.
5.
4.
3.
1,2.
Please set "ON" after complete optical axis adjustment.
3
Do not use the sensors powered with a voltage level other than
the indicated power supply voltage specied (between 10 to
30V DC). Doing so may cause a re or electrical shock.
Do not connect a device that exceeds the capacity shown to the
output contact of this device. Doing so may cause a re or
electrical shock.
Do not touch the terminal section with wet hands.
Doing so may cause an electrical shock.
Do not disassemble or modify this device. Doing so may cause
a re, electrical shock, or malfunction of the device.
If smoke or an abnormal odor or sound is found, leaving it
unattended may cause a re or electrical shock. Immediately
turn off the power to the device and conrm that the
abnormal state has been corrected, and then ask the place of
purchase for repair.
EXAMPLE OF INCORRECT INSTALLATION
2-1
DON'TS
Do not install as shown below. This will cause
erroneous detection or detection failure.
2
OPERATING PRECAUTIONS
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.
Warning
Caution
Description of the Display
Indicates information that if ignored and the device is handled incorrectly, may result in death or serious injury.
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 specic action shown near the symbol.
Indicates the useful information.
Example: Do not disassemble
Warning
Caution
(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-HF) may cause interference between
the sensors.
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.
1. In areas where there are trees or weeds, the infrared 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 infrared may get obstructed by swaying branches or leaves due to wind. Keep in mind the swaying of leaves and
branches when trimming them.
2. Vine type plants may wrap around the photoelectric beam sensors causing erroneous detections. Therefore, be sure to prune such plants
regularly.
3. Other natural phenomena such as insects or bird droppings may soil the sensors causing miss detection. Be sure to clean the sensors
regularly.
Cautions when using the outdoor photoelectric beam sensor (Daily maintenance)
Installation in locations
shaded by trees etc.
Installation on uneven
ground
Slanted installation Overhead wiring
Installation close to a wall
Installation in locations where the
unit may be splashed by dirty
water or direct sea spray
Installation directly above
a wall
Installation in an
unstable, wobbling location
Installation in location where
strong light such as sunlight or
light from vehicle headlights can
directly enter the receiver
Installation in areas where
objects that move with the
wind (the laundry etc) can
obstruct the optical axis
Using PXB-100ATC-KH
together with other
models (Except PBX-100HF-KH)
4
3
PROTECTION DISTANCE AND
RANGE OF LIGHT BEAM COVERAGE
3-1
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.
MOUNTING HEIGHT
3-2
OPTICAL AXIS ADJUSTMENT RANGE
3-3
As these sensors are designed to detect humans, install so that the center of the sensors are at a height of
approximately 2.6ft (0.8m) from the ground when installing both on a wall and on a pole.
BEFORE USE
In order to use these sensors correctly, thoroughly read this instruction manual and select the mounting position and
protection distance.
If the optical axis is not aligned correctly, there will be
insufcient 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.
If the optical axis (center of the light beams) is aligned
correctly, a detection line with sufcient margin of
sensitivity is formed.
-
90°
Range where the optical
axis is shielded
-
20°
-
20°
+90°
+20°
+20°
(180°)
Top View
Side view
CORRECT
CORRECT
CORRECT
WRONG
WRONG
WRONG
WRONG
Stacking : In order to prevent the intrusion by crawling or climbing over, stack PXB-100ATC in several numbers.
1ft(0.3m)
1ft(0.3m)
Standard setting
Set the sensor about 1ft(0.30m) from the
oor so that it will detect the head of
crawling person.
To prevent a intruder from climbing over
the standard setting beams, set the sensor
at the height upper than standard setting.
Approx. 2.6'(0.8m)
Installing so that the center of the sensor is
approximately 2.6ft (0.8m) 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 difcult for reliable detection.
4.45" (113mm)
4.45" (113mm)
7.24" (184mm)
Maximum 330ft (100m)
8ft(2.4m)
<<Caution>>
The optical axis may be shielded depending on the shape of the
housing and mounting surface.
Check the optical axis range carefully and start installation
before use.
5
TERM DESCRIPTION
This manual uses the following terms for explanation. Refer to the terms and their meanings.
3-4
APPLICATIONS
3-5
Connect the synchronized units by wire
Set the transmitter and receiver to the same channel
: Frequency channel of the infrared beam signal. (There are four channels from 1CH to 4CH)
Set the transmitter as a master
Set the transmitter and receiver to the same syncronized timing
D
A
B
C
D
Single stacking
2
3
4
1
Single stacking
: A signal emitted from the synchronized output of the master, which is the reference signal to
determine the timing for transmitting and receiving the infrared beams.
: A device to output the synchronized signal, which is used as a reference to determine the timing
for transmitting and receiving the infrared beams. (Only the transmitter can be set as the master.)
: A device to transmit or receive the infrared beams based on the input synchronized signal.
(The receiver operates as the slave.)
: Timing for transmitting and receiving the infrared beams based on the synchronized signal.
You can select from two types of timing, A and B.
Change the synchronized timing in the same channel to achieve the multi-level protection.
: A wire to transfer the synchronized signal from the master to the slaves.
Channel (CH)
Synchronized signal
Master
Slave
Synchronized timing
Synchronized wire
2
3
1
* Synchronized wire is necessary for even single stacking.
* Please note that there is an electric polarity in a synchronized wire.
C
B
A
Transmitter
Receiver
12345678
Synchro
input
Synchro
output
Connect between synchronized units
Set as Master
12345678
Set as A timing
Set as 1CH
Set as A timing
Set as 1CH
(polarity)
(polarity)
Synchro
input
(polarity)
A
B
6
D
A
B
C
D
H
I
E
F
G
2 level stackings
1st beam setting (Same as single stacking)
2nd beam setting
Set the transmitter and receiver to the same channel as 1st beam
Set the transmitter and receiver to the different syncronized timing from 1st beam
Set the transmitter as a slave
Connect the syncronized units by wire
Connect the syncronized units by wire
Set the transmitter and receiver to the same channel
Set the transmitter and receiver to the same syncronized timing
Set the transmitter as a master
Connect the synchronized units by wire
t1MFBTFOPUFUIBUUIFSFJTBOFMFDUSJDQPMBSJUZJOBTZODISPOJ[FEXJSF
2 Level Stacking Application
Transmitter Receiver
12345678
12345678
Set as a master
12345678
4
3
3
21
21
12345678
1
s
t
2
n
d
Connect between synchronized unit
Set as A timing
Set as 1CH
Set as A timing
Set as 1CH
Connect between synchronized unit
Connect between syncronized unit
Set as B timing
Set as 1CH
Set as Slave
Set as B timing
Set as 1CH
Synchro
output
(polarity)
Synchro
input
(polarity)
Synchro
input
(polarity)
Synchro
input
(polarity)
A
A
B
B
C
H
I
E
E
F
F
G
Synchro
output
(polarity)
Synchro
input
(polarity)
4
3 3
21 21
7
Triple level stacking Fourth level stacking (Maximum : Four spans)
This product adopts the synchronized wire system to allow up to two units having the same channel to be installed in the same
direction. If the modulating beam frequency switch function is used together, up to two spans for 6 or 8 level stacking line
protection, four spans for the 4-level stacking line protection, eight spans for the 2-level stacking line protection can be easily
installed.
Transmitter
Transmitter
Transmitter
Transmitter
Transmitter
Transmitter Receiver Transmitter Receiver
Receiver
Receiver
Receiver
Receiver
Transmitter Receiver
Synchro
Synchro
Sybnchro
Synchro
Synchro
3CH
A
Slave
1CH
B
Slave
1CH
A
Master
3CH
B
Slave
1CH
A
3CH
B
1CH
B
3CH
A
3CH
A
Slave
3CH
A
1CH
B
Slave
1CH
B
Transmitter Receiver
1CH
A
Master
1CH
A
1CH
1CH
A
Master
B
Slave
1
s
t
2
n
d
1CH
1CH
A
B
1
s
t
2
n
d
3CH
3CH
A
Slave
B
Slave
1
s
t
2
n
d
3CH
3CH
A
B
1
s
t
2
n
d
Transmitter
1CH
A
Master
1
s
t
Receiver
A
1CH
1
s
t
Transmitter
1CH
B
Slave
2
n
d
Receiver
1CH
B
2
n
d
Transmitter
3CH
A
Slave
3
r
d
Receiver
3CH
A
3
r
d
Not neighboring channel
(1CH and 3CH)
(2CH and 4CH)
(1CH and 3CH)
(2CH and 4CH)
Transmitter Receiver
Transmitter Receiver
Transmitter Receiver
Transmitter Receiver
Not neighboring channel
Synchro
Synchro
Synchro
A
1CH
1
s
t
1CH
A
Master
1
s
t
1CH
B
Slave
2
n
d
3CH
A
Slave
3
r
d
3CH
B
Slave
4
t
h
3CH
B
4
t
h
3CH
A
3
r
d
1CH
B
2
n
d
Receiver
Transmitter
Transmitter
Receiver
Transmitter
Transmitter
Receiver
Receiver
1CH
1CH
A
Master
B
Slave
1
s
t
2
n
d
4CH
4CH
A
Master
B
Slave
1
s
t
2
n
d
3CH
3CH
A
Slave
B
Slave
1
s
t
2
n
d
2CH
2CH
A
Slave
B
Slave
1
s
t
2
n
d
2CH
2CH
A
B
1
s
t
2
n
d
4CH
4CH
A
B
1
s
t
2
n
d
3CH
3CH
A
B
1
s
t
2
n
d
1
s
t
2
n
d
1CH
1CH
A
B
Avoid setting the neighboring number of channel
in the same direction. (Like 1CH and 2 CH)
Avoid setting the neighboring number of channel
in the same direction. (Like 1CH and 2 CH)
In the 3rd and 4th beam, set the same channel
and different synchronized timing.
Receiver
Synchro
Straight line protection
2 level straight line protection
(Maximum : Eight spans)
Perimeter round protection
2 level external perimeter protection
8
4-1
INSTALLATION METHOD
4
5-1
INITIAL SETTING
5
In order to avoid cross talk between the same channel, select the different timing setting A or B.
MODULATION FREQUENCY CHANGEOVER
Master : Output the synchronized signal from synchronized output terminal.
Slave : Transmitter irradiate a beam as setting channel and setting timing according to synchronized input signal from master.
12
12121212
4CH2CH 3CH1CH
Factory set : 1CH
* In case of 2 level installation, set the same channel
and change the synchronized timing.
* In case of more than 3 level installtion, change the
channel but not neighboring number.
* Set the transmitter and the receiver to the same channel.
Panhead screw
(M3×12mm)
: 4 pcs
(ACCESSORIES)
Housing
(Frame)
* Installed on the transmitter and the receiver
INSTALLATION INTO HOUSING
5-2
* Installed on the transmitter and the receiver
5-3
* Only installed on the transmitter (Receiver to be slave only)
3
33
AB
Factory set : A
* Set the same timing for same transmitter, receiver pair.
* In case add one more set in same synchronized wire group,
Please set the different timing.
4
44
Master
Slave
Factory set : Master
* Select only one transmitter as Master and others as Slave
* One master for up to 7 slaves (Transmitter : 3, Receiver : 4) in one synchronized
wire group.
Read the instruction manual for your housing carefully, and install the product into the housing correctly.
Wiring is required based on the sensor installation.
Refer to "6 WIRING METHOD" for wiring and connection.
Refer to "9 EXPLANATION OF FUNCTIONS" for switching channels and transmitting beam power.
MASTER/SLAVE SELECTION
SYNCHRONIZED TIMING
9
5-4
BEAM POWER SELECTION
* Select the suitable power according to the installation site (Detection Distance)
* Only installed on the transmitter
5-5
ALARM OUTPUT SWITCH
* Only installed on the receiver
5-6
ENVIRONMENTAL OUTPUT SWITCH
* Only installed on the receiver
200ft (60m)
300ft (90m)
5-7
RESPONSE TIME
* Only installed on the receiver ( AT output )
5-8
SOUND CHECK
250ft (75m) or less 250ft (75m) - 330ft (100m)
* Select N.O. or N.C.
Running Walking Crawling
* Only installed on the receiver
1) In case AT output selected : When either upper or lower beam is shielded (Or-gated) - Response time is set as below.
When both of upper and lower beam is shielded simultaneously (And-gated) - Response time is 0.05s.
2) In case HF output is selected : Signal is issued only when both of upper and lower beam is shielded simultaneously.
The response time is 0.05s.
5
55
LH
Factory set : H
LH
200ft (60m)=L
300ft (90m)=H
4
4
4
N.C.
N.O.
Factory set : N.C.
* Select N.O. or N.C.
5
5
5
Factory set : N.C.
N.C.
N.O.
8
8
8
OFF ON
Factory set : OFF
Item
Light reception
level
Auto Gain Lock
check sound
Walk test mode
Setting
Details
Sound Check Switch
ON
ON
Other settings etc
Auto Gain Lock
switch “OFF”
without cover
The optimum margin of sensitivity
has been set.
The required margin of sensitivity
has not been secured.
Beep sound
“Pi-”
(1sec)
Details Result
Pass
Fail
When performing operation checks, the beep sound is generated in connection with the
alarm LED.
Light reception level can be checked by the sound tone. The tone pitch becomes higher as the
light reception level increases.
Also, sounds are not produced when an alarm is being output, when put a cover on, when auto
gain lock switch on.
Approximately
5 sec after
Auto Gain Lock
switch “ON”
“
PiPiPi........”
(20sec)
Approximately 5 minutes
after Auto Gain Lock
0.5s
0.2s
0.3
67
67
67
67 67
s
0.1s
Factory set : 0.1s
Shielding time : 0.1s
Shielding time : 0.3s Shielding time : 0.5s
<<Caution>>
Detection is not performed when the shielding time is shorter than the detection response time.
If there is a possibility that large ying objects (such as birds, newspaper, and cardboard boxes) shield the
optical axis, set longer detection response time by one level.
(Note that a detection response time too much longer could fail to detect intruders.)
Detection on one side of
the beam
Detection on one side of
the beam
Detection on one side of
the beam
10
WIRING METHOD
6
POSITION AND RATING OF TERMINALS
6-1
WIRING DISTANCE
6-2
11
AWG20 (Dia.0.8mm)
AWG18 (Dia.1.0mm)
AWG17 (Dia.1.1mm)
AWG16 (Dia.1.25mm)
AWG15 (Dia.1.4mm)
AWG14 (Dia.1.6mm)
1,000' ( 300m)
1,550' ( 473m)
1,900' ( 580m)
2,500' ( 750m)
3,100' ( 950m)
4,000' (1,200m)
7,100' (2,160m)
11,000' (3,400m)
13,500' (4,000m)
17,000' (5,200m)
21,500' (6,550m)
28,500' (8,690m)
wire size
voltage
12V DC
24V DC
AWG20 (Dia.0.8mm)
AWG18 (Dia.1.0mm)or more
2,850 ' ( 869m)
3,300 ' (1,000m)
Wire size Distance
<Transmitter> <Receiver>
Power input 12 to 30V DC
(non-polarity)
Current consumption : 48mA
Alarm output
(AT output) *1
*2
Alarm output
(HF output)
Synchronized input
(polarity)
*1 In case AT output is selected :
When either upper or lower beam is shielded (Or-gated) - Response time is
set as selected. When both of upper and lower beam is shielded simultaneously (And-gated) -
Response time is 0.05s.
*2 In case HF output is selected : Signal is issued only when both of upper and lower
beam is shielded simultaneously. The response time is 0.05s.
Environmental output
30V(AC/DC)
.
0.25A (Resistance load)
Dry contact N.C./N.O.switchable
Built-in contact protection resistance
30V(AC/DC)
.
0.25A (Resistance load)
Dry contact N.C./N.O.switchable
Built-in contact protection resistance
30V(AC/DC)
.
0.25A (Resistance load)
Dry contact N.C./N.O.switchable
Built-in contact protection resistance
* Maximum 3,300ft(1,000m) and not more.
Power input 12 to 30V DC
(non-polarity)
Current consumption : 27mA
Synchronized output
(polarity)
Synchronized input
(polarity)
(AWG description)
[
ft
]
[
ft
]
(AWG description)
Distance between sensor and power supply Synchronized wiring distance
* In case two or more sensors connected, divide the distance by the number.
12
WIRING DISTRIBUTION DIAGRAM (WIRING DIAGRAM)
6-3
AlarmEnv.
master
Alarm
Env.
(N.C.)
Control panel
Transmitter Receiver
Control panel
Note : Connect all transmitters and receivers of the same group by synchronized wiring.
Select one transmitter as a master, all the others are as slave.
One master may have maximum 7 slaves.
Power supply
(12 to 30VDC)
Power supply
(12 to 30VDC)
1CH
A
1CH
A
1CH
B
master
Transmitter Receiver
Slave
Transmitter Receiver
Single level protection, AT output, Environmental output
2 pairs in a straight line, AT output, Environmental output
(N.C.)
(N.C)(N.C)
Transmitter Receiver
2 level protection, 1st pair by HF output,
2nd pair by AT output/HF output swichable
4 level protection. AT output.
1) Neighbouring channel cannot be set.
2) In the same channel, change the synchronized timing.
1st
2nd
2nd
3rd
4th
ATHF
A
1CH
A
1CH
B
1CH
B
1CH
A
3CH
B
3CH
Power supply
(12 to 30VDC)
Power supply
(12 to 30VDC)
Power supply
(12 to 30VDC)
Alarm
(N.C.)
Env.
(N.C.)
Alarm
(N.C.)
Env.
(N.C.)
Slave
Slave
Slave
Master
Slave
Alarm
(N.C.)
Env.
(N.C.)
Master
PXB-100HF-KH
PXB-100ATC-KH
Control panel
Control panel
Transmitter Receiver
Control panel
Transmitter Receiver
Swichable
2 level protection. 1st pair is PXB-100HF-KH, 2nd pair is
PXB-100ATC-KH
1) In case PXB-100HF-KH and PXB-100ATC-KH is connected, channel
setting cannot be neighbouring or the same number.
2) Synchronized wiring cannot be connected to PXB-100HF.
Master
1st
2nd
A
3CH
1CH
13
NAMES AND FUNCTIONS OF OPTICAL AXIS ADJUSTMENT PARTS
7-1
Reception authorization LED switch
Transmitter LED switch
Near
Far
Names of the Optical Unit
Reflector Section Horizontal/Vertical Angle Adjustment Method
Auto-gain lock switch
Receiver
Transmitter
Receiver
(Factory set : ON)
(Factory set : ON)
(Factory set : OFF)
OPTICAL AXIS ADJUSTMENT
7
View finder
By aligning the optical axis correctly, a protection line with a sufficient
margin of sensitivity can be created, reducing the occurrence of malfunction.
Always adjust on both upper and lower sections
Horizontal
Vertical
Horizontal angle fine
adjustment screw
Double Ring Alignment Mechanism
Visible from the view finder
Horizontal angle fine adjustment screw
(White)
Note: For horizontal angle adjustments
Vertical angle adjustment screw
(Red)
Note: For vertical angle
adjustments
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°
Fine adjustments
+90°
–90°
+5°
–5°
Coarse adjustments
Coarse adjustments can be made
by moving the swivel base
within the range of 0˚ to ±90˚.
Next, ne adjustments of 0˚ to ±5˚
can be made using the horizontal
angle adjustment screw.
Coarse adjustments
Fine adjustments
–10°
+10°
–10°
+10°
The inclination of the reector can
be switched between -10˚ and +10˚
by pushing it forwards or
backwards.
Next, ne adjustments of 0˚ to ±10˚
can be made using the vertical
angle adjustment screw.
Near
Far
When the view nder 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.
When the view nder 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.
(The accuracy high)
Note: Sequence of
adjustment
<<Caution>>
During the optical axis adjustment, make sure to set Auto Gain Lock switch to [OFF], and Transmitter LED
switch and Reception authorization LED switch to [ON].
When the optical axis adjustment is completed, set Auto Gain Lock switch to [ON], and Transmitter LED
switch and Reception authorization LED switch to [OFF].
14
Transmit from both upper and lower
Look closely through the view nder, 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 ne adjustment screws.
7-2
OPTICAL AXIS ADJUSTMENT USING THE ALIGNMENT MECHANISM
Alarm LED : Lights on by alarm output
Sensitivity attenuation LED : Lights on when beam reception power is less than
certain level.
Upper/lower changeover switch : To change the status
Light Reception authorization LED : To show upper or lower beam is receivable
or not.
When synchronization of the timing is unstable, LED blinks alternatively.
Notice : Attaching the cover, both of upper/lower area receives the beam, LED off.
Transmission LED:
Upper/lower changeover switch
To show which beam operates.
When synchronization is unstable, LED blinks
alternatively.
<Transmitter>
<Receiver>
Move the swivel base and swing arm so that the opposite device is roughly aligned with the view nder.
Or
Or
Vertical angle adjustment
Horizontal angle adjustment
1
2
Each time the switch is pressed, the optical unit that transmits the light switches.
Transmitter
Only transmit
from upper
Only transmit
from lower
No transmission
Receiver
Received on both upper/lower Only received on lowerOnly received on upper
Each time the switch is pressed, the optical unit that receives the light is switched.
Auto-gain Lock switch:
Sound check switch:
8
Monitor jack:
To check the beam reception level
To maintain the most suitable margin of sensitivity for
the protection distance and reduce the occurrence of
malfunctions.Please set "OFF" before optical axis
adjustment and please set "ON" after complete optical
axis adjustment.
By turning "ON", the beam reception level can be
checked by the sound. During walk test, buzzer will
be on according to the detection.
Near
Near
Names of the Operation Section
Note:This section describes the name and function of each part used during optical axis adjustment.
Vertical angle adjustment
Horizontal angle fine adjustment
* : Upper beam only authorized : Shows upper reception level
Lower beam only authorized : Shows lower reception level
* : Both of upper/lower beam authorized ; Show the reception
level of the less one
<Transmitter>
<Receiver>
15
Horizontal angle fine adjustment
Vertical angle adjustment
Or
Transmitter Receiver
Description Remedy
Improper alignment and
and unsufficient beam power
Different channel between
transmitter and receiver
The unit is receiving
disturbance from other unit
Improper sighting
Set the same channel
Set the channel as
different number
Connect the synchronizing
wire properly
Align the beam axis
properly
Align the beam axis
properly
Wrong synchronazation
Connect the synchronizing
wire properly
Wrong synchronization
Flashing
Flashing
(Slave setting sensor only)
3
4
Receiver
Transmitter
Light on Light on
Turn on the power to the transmitter and receiver, check that the LEDs of both the transmitter and receiver are on.
If the LED of the receiver and transmitter indicates as follows, take an appropriate measure according to the following description.
Look through the view nder 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 ne adjustment screws.
Far
Light on
Flashing
Off
16
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.
Light
on
Light
on
Light
on
Light
on
Light
on
Light
on
Light
on
<<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.)
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.
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.
Optical Axis Fine Adjustment Using the Sound Check
5
ReceiverTransmitter
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”.
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.
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 ne adjust until
the tone reaches the highest pitch.
(Adjust both the transmitter and receiver.)
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 ne adjust until
the tone reaches the highest pitch.
(Adjust both the transmitter and receiver.)
Sound check
switch
ON
8
ReceiverTransmitter
ReceiverTransmitter
ReceiverTransmitter
17
Pip
(Long tone)
Bleep
(High-pitched
tone)
Bleep
(High-pitched
tone)
Light reception level
Intermitten tone
Pip (tone : long short) Bleep
Continuous tone
(Good)
High-pitched tone
(Best)
MuchLittle
Optical Axis Fine Adjustment Using the Alignment Wireless Checker:ER-02(Sold Separately)
More than 2.2 V DC
2.0 to 2.2V DC
Less than 2.0V DC
Monitor Output Voltage
Best
Good
Poor, re-adjust
Light Sensitivity
Optical Axis fine Adjustment Using the Monitor Output Voltage
See the following table for the monitor output voltage.
Monitor
Monitor
Off
Receiver
Transmitter
Receiver
Transmitter
Bleep
(High-pitched
tone)
Bleep
(High-pitched
tone)
Accurate adjustments of the optical axis can be achieved by
checking the light reception level value using the voltage of
the monitor output.
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.
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.
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.
Light
on
Light
on
Light
on
Light
on
Light on
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 ne adjust until
the monitor output voltage reaches the highest
value.
(Adjust both the transmitter and receiver.)
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 ne adjust until
the monitor output voltage reaches the highest
value.
(Adjust both the transmitter and 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.
(The values are not displayed correctly when the light can be received for both the upper and lower levels.)
1. Insert a commercially available tester into the monitor
jack on the receiver.
<<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 100 kΩ.
Receiver
Transmitter
18
OPERATION CHECK
8
Be sure to perform an operation check after the optical axis adjustment.
An alarm is output
Light on
Transmitter
Receiver
The sensor beams are
not obstructed
Light entrance due to
wrap around of the beams
(Due to light entrance caused
by reflection)
1
2
3
4
Turn off the power to the
transmitter and check that
an alarm is output.
Change the height or location of the sensor so
that the light on the detection line can be
obstructed completely.
Change over a channel or synchronized timing.
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)
Spill-over light entrance
No alarm is output * It results from the same channel and the same synchronized timing settings.
If no alarm is output
Transmitter
Beep
(high pitch
beep)
ON
OFF
Light ON
Shield the light
Shield the light
Light enters
Light enters
Spill-over
No alarm is output
No alarm is output
Wrap around
Walls, etc.
Receiver
Bleep
(High-pitched
tone)
Light entrance due to beam wraparound
Spill-over light entrance
After 5 seconds
ON
ON
OFF
"Pi-" : PASS
"PiPiPi......" : FAIL
Auto-gain Lock switch
Reception authorization
LED switch
Transmitter LED switch
Transmitter
Transmitter
Transmitter
Transmitter
Receiver
Receiver
Receiver
Receiver
Set Transmitter LED switch of the transmitter to [OFF] and mount
the cover (housing).
When Transmitter LED switch is set to [OFF], the LED light turns
off, but the upper and lower beams are transmitted.
After the optical adjustment is completed, set Auto Gain Lock
switch to [ON] under the light beam reception condition, and wait
for approximately 5 seconds.
During this period, do not shield the optical axis.
A one-time short beep sound [Pi
-
] shows that the auto gain lock is
completed correctly.
(After the auto gain lock, the upper and lower LEDs light off.)
Set Reception authorization LED switch of the receiver to [OFF].
Obstruct the sensor beams near the sensor or the center of
the detection line and check that an alarm can be output
correctly.
In using the environmental output, conrm
that the environmental output is generated
when the optical axes in both the upper and
lower sections are shielded for 20 seconds or
more.
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.
After the auto gain lock is completed correctly, the walk test mode
is activated for 5 minutes regardless of whether the cover is
mounted or not. During the walk test mode, the beep sound is
generated when the alarm LED lights on by the alarm output. After
approximately 5 minutes has elapsed, the walk test mode ends.
Even if Auto Gain Lock switch is not set to [ON], set Reception
authorization LED switch to [OFF] activate the walk test mode for
5 minutes.
The intermittent beep sound like “PiPiPi........”
shows that the beam reception volume is not
enough. In this case, the LED on the side of the
insufcient reception volume blinks. Set Auto Gain
Lock switch to [OFF], and adjust the optical axis
again.
In the multi-level protection, when the light enters
from other units than the opposing transmitter, turn
off the power of the other transmitter to stop
transmitting the light beam, then set Auto Gain
Lock switch to [ON].
<<Caution>>
19
EXPLANATION OF FUNCTIONS
9
This section describes the detailed information of the functions that
appear in this instruction manual. Set each function according to the
description below.
Reception authorization LED switch
(Factory set : ON)
Transmitter LED switch
(Factory set : ON)
Shorter than the maximum
rated protection distance
Maximum rated protection distance
When switching "ON"
the Auto Gain Lock
switch, the beam was
interrupted.
Improper beam
alignment.
Remove the interruption
and retry switch "ON"
Auto Gain Lock.
Re-align the optical axis
adjustment.
“ PiPiPi.....”
“ Pi- ”
(1sec)
(20sec)
Beep
Results
Same margin of sensitivity
Checking the conditions
Cause Remedy
Light reception authorization LED
:
:
:
1 sec
Auto Gain Lock switch
(Factory set : OFF)
Reception
authorization on
lower only
Reception authorization on
upper only
Reception authorization on both
upper/lower
No transmission
Only transmit
from lower
Only transmit from
upper
Transmit from both
upper/lower
Transmission/reception
authorization LED
(Different displays for
upper and lower)
Upper/lower changeover
switch
PASS
FAIL
Receiver
Transmitter
Provided the units are used within the maximum rated protection distance, this function is used to
automatically set the optimum margin of sensitivity for the receiver in any protection distance
This function allows the upper and lower sensors to be switched "ON" and "OFF".
This function is used to light on/off Transmitter LED
and Reception authorization LED. Also, when the LED
in the receiver lights [OFF], the attenuation correction
is conducted for the cover.
: Light on
: Flashing
: Off
: Light on
: Off
: Light on
: Off
* Only installed on the receiver
AUTO GAIN LOCK FUNCTION
9-1
* Available on transmitter and receiver
UPPER/LOWER CHANGEOVER FUNCTION
LED LIGHT TURN-OFF FUNCTION
9-2
* Available on transmitter and receiver
9-3
* The sensors switch as shown in the diagram below when the upper/lower changeover switch is pressed.
[Transmitter]
[Receiver]
<<Caution>>
Please set "OFF" during adjust optical axis.
Please set "ON" and then put cover on after complete optical axis adjustment.
OFF
ON
After 5 seconds when Auto
Gain Lock switch is "ON",
the beep sounds to show the
conditions.
Reception level
of the upper beam
is not enough
Reception level
of the lower beam
is not enough
Reception level of
upper/lower beam
is not enough
After the LED switches are turned [OFF], the LEDs light
off, but the light beam is transmitted and received on both
the upper and lower sections.
Reception authorization LED also lights off when Auto
Gain Lock switch in the receiver is set to [ON], but set
Reception authorization LED switch to [OFF] during
operation.
20
<<Caution>>
* Only installed on the receiver
PROGRAMMABLE AGC(AUTO GAIN CONTROL) FUNCTION
9-4
* Only installed on the receiver
EXTERNAL ENVIRONMENT DIAGNOSTIC FUNCTION
9-5
* Only installed on the receiver
ALARM LED
9-6
* Only installed on the receiver
LIGHT SENSITIVITY SIGNAL FUNCTION
9-7
FUNCTION SETTING CHECK
9-8
ALIGNMENT WIRELESS CHECKER CONNECTION FUNCTION
9-9
This lights when there is an insufcient level of infrared light received by the
receiver, and it is judged that there is insufcient margin of sensitivity, and to
inform you that adjustments are required.
: Light on
: Off
: Light on
: Off
* Installed on the transmitter and the receiver
* Alignment wireless checker : ER-02
LED is on according to signal output (Both AT output, HF output)
Alarm LED
Response time
(AT output)
Signal output
Environmental output
Beam power
Modulation frequency
Synchronized timing
Setting
Sound check
Master or slave
Whether to set on
transmitter or receiver
Both transmitter
and receiver
Transmitter only
Receiver only
0.1
s 0.2s 0.3s 0.5s
N.O. N.C.
N.O. N.C.
Master
Slave
Check the various functions according to the table as below
<<Caution>>
Sensitivity attenuation LED
Setting details
Even if the beam power recover immediately, an environmental output is issued for at least 5sec.
1CH 2CH 3CH 4CH
HL
AB
ON OFF
When the beam power decreases in harsh environment by dense fog, heavy rain. This is a function to increase the receiving
sensitivity temporarily and to stabilize operation. The receiver adjusts this function to start or to stop automatically
depending on beam power from transmitter.
When the Programmable AGC works, the beam power level which already decreased recovers to certain power level and is
maintained.
When the Programmable AGC works, the environmental signal is issued, and it is continuing to monitoring the beam power
level while the environmental signal is issued.
When either upper beam or lower beam power decrease, the Programmable AGC works and the environmental signal is
issued.
When both upper beam and lower beam power recover to stable level, the Programmable AGC function and the
environmental output stop automatically.
In order to operate the Programmable AGC function correctly, it is necessary to set up
"Auto Gain Lock" function correctly.
The margin of sensitivity is maintained even if there is a sudden worsening in weather conditions.
This function outputs a notication before a warning is output as an environmental output when such impairments as fog or
heavy rain occur.
If such impairments continues for 20sec, an environmental output is issued.
Self checking
Light on Light on
Flashing
Off
By connecting an alignment
wireless checker (sold separately),
it is possible to transmit data
bidirectionally, check the monitor
output voltage of the receiver from
the transmitter, and simultaneously
switch the optical axis light
obstruction.
Bidirectional communication
Manual checking
Flashing
Off
Bidirectional communication
When using the wireless checker, please set
Auto Gain Lock switch "OFF" certainly.
21
TROUBLESHOOTING
10
SPECIFICATIONS
11
(If the device does not operate properly)
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.
Alarm LED does not go out
(Alarm output does not stop)
(1) Power is not on
(2) Poor wiring or breaking of wire,short
(3) Auto Gain Lock switch is ON
(4) Set Auto Gain Lock switch to OFF
(1) Connect the power source
(2) Check again
(3) LED light turn-off switch is [OFF]
(4) Change over to [ON]
(1) The synchronized wire is not correctly connected.
(2) The master is not set.
(1) Connect the synchronized wire correctly.
(2) Set only one unit as a master.
(1) Power is not on
(2) Poor wiring or breaking of wire, short
(3) Transmitter is set to [Do not transmit]
(4) LED light turn-off switch is [OFF]
(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
(4) The sensor beams are not obstructed
(5) Sensor beam is obstructed for less time than the detection
response time setting in the receiver
(1) Alignment (optical axis) is not aligned correctly
(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
(5)
The synchronized timing does not match on the transmitter and receiver.
(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 (optical axis)
(8) A large bird or cat may obstruct the beams
(9) Beam power switch is set to L, which does not keep enough
margin of sensitivity
(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 beam power switch to H, remove the receiver
cover and set the gain lock again
(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
(5) Match the synchronized timing.
(1) Connect the power source
(2) Check again
(3) Remove the reflecting object, or change the
installation location or optical axis direction
(4) Shield the light
(5) Shorten the detection response time
(1) Connect the power source
(2) Check again
(3) Press the upper/lower changeover switch
(4) Change over to [ON]
Transmitter LED does not light
(cover is open)
Reception authorization LED
does not light on
(when the cover is open)
Continually activated
Alarm LED does not light even
if the infrared beam is
obstructed
Transmitter LED and Reception
authorization LED on the upper
and lower sections blink alternately.
(The alarm output does not stop.)
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.
Status Cause Remedy
DAILY INSPECTIONS
Model
Detection system
Infrared beam
Protection distance
Alarm output
Current consumption
Power supply
Transmitter : 12.6oz (360g) Receiver : 15.8oz (450g)
Double modulation pulsed beam by LED
Outdoor 330' (100m) or less
Near infrared pulsed beam interruption system
(Anti-crawling, Anti-corrosion)
Attenuation LED
Environmental output
Alarm LED
Ambient temperature range
Beam adjustment
Functions
Wiring
Weight
Mounting positions
12 to 30V DC (Non-polarity)
Transmitter : 27mA Receiver : 48mA
Dry contact relay output N.O./N.C. selectable
Contact action : Interruption time (Min.2sec.)
Contact capacity : 30V (AC/DC) 0.25A (resistive load)
Protective resistor
Dry contact relay output N.O./N.C. selectable
Action : Activated when weather condition gets worse (Min.5sec.)
Contact capacity : 30V (AC/DC) 0.25A (resistive load)
Protective resistor
Red LED (Receiver) ON : when beam is attenuated
Red LED (Receiver) ON : when an alarm is initiated
-31°F to +151°F (-35°C to +66°C)
Horizontal: ±90°, Vertical: ±20°
Terminals
Inside the housing
Modulated beam frequency selection,Tone indicator, Environmental
module, Beam power selection,Transmitting power adjutment,
Programmed AGC, Auto-gain lock function, Monitor Jack,
Tamper, Response time adjustment, Upper/lower beam switch
Wireless checker, LED light turn-off function
PXB-100ATC-KH
Response time
AT output : 0.05sec by upper/lower level simultaneous interruption
0.1/0.2/0.3/0.5sec by either level interruption
HF output : 0.05sec by upper/lower level simultaneous interruption
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Options : Alignment wireless checker : ER-02
EXTERNAL DIMENSIONS
12
Unit: inch (mm)
Reference installation drawing
(4-Ø3 mm)
4-Ø0.12"
Panhead screws
5.91"(150 mm)
2.91"(74 mm)
2.83"(72 mm)
3.31"(84 mm) 3.31"(84 mm)
16.38"(416 mm)
16.38"(416 mm)
ReceiverTransmitter
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No.05-699
In Japan
Takex America Inc.Takenaka Engineering Co., Ltd.
http : // www. takex-eng. co. jp /
Takex America Inc.
http : // www. takex. com
Takex Europe Ltd.
http : // www. takex. com
In the U.S. In the U.K.
In Australia
1801
Aviary Court, Wade Road,
Basingstoke, Hampshire. RG24 8PE, U.K.
Tel : (+44) 01256-475555
Fax : (+44) 01256-466268
4/15 Howleys Road, Notting Hill,
VIC, 3168
Tel : +61 (03) 9544-2477
Fax : +61 (03) 9543-2342
83-1, Gojo-sotokan, Higashino,
Yamashina-ku, Kyoto 607-8156, Japan
Tel : 81-75-501-6651
Fax : 81-75-593-3816
151, San Zeno WAY
Sunnyvale, CA 94086, USA
Tel : 408-747-0100
Fax : 408-734-1100
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 tness, 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 difculty being experienced. There will be
charges rendered for product repairs made after our Warranty Period has expired.
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