180
Operation
Indicator LED
MQ-W3 type
MW-W20 type
Distance adjustment dial Adjustment
indicator LED
Adjustment
indicator LED
Operation
Indicator LED
MQ-W70 type
Distance adjustment dial
Very accurate detection by triple beam triangulation sensing method in a compact package.
FEATURES
Accurate detection regardless of
color, material, or shape of objects
Area reflective type sensor can detect
white or black object at the same dis-
tance. In case of diffuse reflective type,
it is difficult to detect objects of various
color with the same sensitivity setting.
MQ-W area reflective type sensor is
useful for such a case.
No-miss operation regardless of
back-grounds
Area reflective type sensor does not
detect objects beyond the set range.
Resistant to lens surface soiling
Area reflective type sensor detects the
distance by the angle, not the intensity
of received light. Even if the lens sur-
face is soiled by dust or any powdery
material, there is a little variation of
sensing range.
Environmental resistance
Immersion protected construction
(equivalent to IEC IP67)
High speed detection: Max. 2 ms
Light-ON/Dark-ON output is wire
selectable.
Operating voltage of 12 to 24 V DC
Adjuster and Indicators
(Comply with EMC directive MQ-W-EM type only)
SENSING RANGES
PRODUCT TYPE
Sensing range (m ft.)
0.03 .098 0.2 .656 0.7 2.297
MQ-W3 types
Detection method
Triple beam area
reflective type
Range
0.03 m .098 ft.
12 to 24 V DC
NPN Infrared LED MQ-W3A-DC12-24V
MQ-W3AR-DC12-24V
MQ-W3C-DC12-24V
MQ-W3CR-DC12-24V
MQ-W20A-DC12-24V
MQ-W20AR-DC12-24V
MQ-W20C-DC12-24V
MQ-W20CR-DC12-24V
MQ-W70A-DC12-24V
MQ-W70C-DC12-24V
MQ-W3A-DC12-24VEM
MQ-W3AR-DC12-24VEM
MQ-W3C-DC12-24VEM
MQ-W3CR-DC12-24VEM
MQ-W20A-DC12-24VEM
MQ-W20AR-DC12-24VEM
MQ-W20C-DC12-24VEM
MQ-W20CR-DC12-24VEM
MQ-W70A-DC12-24VEM
MQ-W70C-DC12-24VEM
Red LED
Infrared LED
Red LED
Infrared LED
Red LED
Infrared LED
Red LED
Infrared LED
PNP
NPN
PNP
NPN
PNP
0.2 m .656 ft.
0.7 m 2.297 ft.
Rated operating voltage
Control output Light source Part number *1 CE types
MQ-W20 types
MQ-W70 types
*1These suffix EM types conform to CE. These types have the grounding connection inside of housing
MQ-W
Triple Beam Trigonometric
Area Reflective Photoelectric Sensors
SERIES
* Original Sensor
03/2003
181
MQ-W
SPECIFICATIONS
1) Ratings
2) Performance
3) Output circuit diagram
NPN Output type PNP Output type
Operating side Rated operating voltage
Detection principle Triple beam triangulation sensing method
Detection method Area reflective type
Type Amplifier selfcontained DC type
Part number
MQ-W3A-DC12-24V
MQ-W3AR-DC12-24V
MQ-W3C-DC12-24V
MQ-W3CR-DC12-24V
MQ-W20A-DC12-24V
MQ-W20AR-DC12-24V
MQ-W20C-DC12-24V
MQ-W20CR-DC12-24V
MQ-W70A-DC12-24V
MQ-W70C-DC12-24V
Sensing range 0.03 m .098 ft. 0.2 m .656 ft. 0.7 m 2.297 ft.
Detectable distance 0.02 to 0.04 m .066 to .131 ft. 0.04 to 0.2 m .131 to .656 ft. 0.2 to 0.7 m .656 to 2.297 ft.
Standard target White drawing paper
11 cm .394.394 inch
White drawing paper
22 cm .787.787 inch
White drawing paper
7.57.5 cm 2.9532.953 inch
Detectable target Opaque, translucent
Operating voltage range 9.6 to 30 V DC ripple (P-P) included
Response time (freq.) 2 ms or less (250 times per second or less)
Initial insulation resistance Min. 20 Mbetween a lead wire and external housing (at 500 V DC)
Initial breakdown voltage Between a lead wire and external housing: 500 Vrms for 1 min
Vibration resistance 10 to 55 Hz (1 cycle/min), double amplitude 1.5 mm .059 inch (2 h each on 3 axes)
Shock resistance 980 m/s2{approx. 100 G} (6 times each on 3 axes)
Protective construction Diecast case immersion protected (equivalent to IEC IP67)
Incandescent lamp
Usable ambient
light level
10,000 lux or less
Sunlight 30,000 lux or less
Ambient temperature –25 to 55°C –13 to +131°F (non-icing condition)
Ambient humidity Max. 85% RH (non-condensing condition)
Storage temperature –25 to 55°C –13 to +131°F
Indicator
Light source
Operation indicator: Red LED ON with light entry
Adjustment indicator: Red LED ON with sufficient volume of lights
Infrared LED/Red LED (R is added to the suffix of W3(20)A(C) in the part No.)
Hysteresis 10% or less the set range 20% or less of the set range
12 to 24 V DC
30 mA or less (excluding load)
100 mA or less
Rated current consumption
Output current capacityLoad side
Note: Unless otherwise specified, the measurement conditions comprise rated operating voltage, power supply by battery, 20°C 68°F ambient
temperature, standard target and 200 lux or less illuminance on the receiver surface.
03/2003
MQ-W
182
DATA
1. Operating range characteristics
MQ-W3 types MQ-W20 types MQ-W70 types
40
.131
For 40 mm .131 ft.
For 30 mm .098 ft.
For 20 mm .066 ft.
Operating range (mm)
(inch)
Moving direction
Standard target
(white drawing paper
10×10 mm .394×.394 inch)
(mm)
(ft.)
Operating
distance
30
.098
20
.066
10
.394
10
.394
5
.197 5
.197
0
200
.656
150
.492
100
.328
50
.164
For 150 mm .492 ft.
For 200 mm .656 ft.
For 100 mm .328 ft.
For 50 mm .164 ft.
Operating range (mm)
(inch)
Moving direction
Standard target
(white drawing paper 20×
20 mm .787×.787 inch)
(mm)
(ft.)
Operating
distance
10
.394
10
.394
5
.197 5
.197
0
200
.656
600
1.969
400
1.312
For 500 mm 1.641 ft.
For 700 mm 2.297 ft.
For 300 mm .984 ft.
Operating range (mm)
(inch)
Moving direction
Standard target
(white drawing paper 75×
75 mm 2.953×2.953 inch)
(mm)
(ft.)
Operating
distance
10
.394
10
.394
5
.197 5
.197
0
2. Projector beam diameter characteristics
Light beam diameter is determined as the region where the amount of light is decreased to 1/e2(e]2.72) when the largest amount of light is
assumed as 1.
MQ-W3 types MQ-W20 types MQ-W70 types
(mm
inch)
2.5 dia.
.098
2.3 dia.
.091
4.0 dia.
.157
(mm ft.)20
.066
30
.098
40
.131
0
(mm
inch)
6.9 dia.
.272
6.7 dia.
.264
7.4 dia.
.291
8.3 dia.
.327
(mm ft.)100
.328
50
.164
150
.492
200
.656
0
(mm
inch)
23.0 dia.
.906
33.0 dia.
1.299
39.0 dia.
1.535
(mm ft.)300
.989
500
1.641
700
2.287
0
3 Detectable target characteristics
MQ-W3 types MQ-W20 types MQ-W70 types
4. Material characteristics
Comparision between MQ-W20A and former product
Condition: Target (4060 mm 1.5752.362 inch),
target assumed as natural shape
For the former product (diffuse reflective type),
depending upon the object material, the operating
range varied greatly, but for the triple beam type
there a little variation.
10
0.015
20
.066
30
.098
40
.131
0100
0.155
Distance setting 40 mm
.131 ft.
Distance setting 30 mm
.098 ft.
Distance setting 20 mm
.066 ft.
Target size (mm2 inch2)
Distance range (mm ft.)
Standard target
(white drawing paper 10×10 mm
.394×.394 inch)
100
.328 200
.656 300
.984 400
1.132 500
1.641 600
1.969
Distance range (mm ft.) × : Impossible
Former pruduct
White drawing
paper
Corrugated
carton
Veneer panel
Black rubber
Black frosted
finish
Aluminum
panel
Mirror
Copper clad
printed circuit
board
×
×
Triple beam type (MQ-W20A)
10
.033 20
.066 30
.098 40
.131
Distance range (mm ft.)
White
drawing
paper
Black
drawing
paper
Corrugated
paper
Veneer panel
Black rubber
Non-glossy targetSemi-glossy targetGlossy target
Mirror
Blue acrylic
White acrylic
Copper clad
printed circuit
board
1000
1.55
100
.328
200
.656
0100
0.155
Distance setting 200 mm
.656 ft.
Distance setting 100 mm
.328 ft.
Distance setting 40 mm
.131 ft.
Target size (mm2 inch2)
Distance range (mm ft.)
Standard target
(white drawing paper 20×20 mm
.787×.787 inch)
1,000
1.55
100
.328
200
.656
300
.984
400
1.312
500
1.641
600
1.969
700
2.297
010,000
15.5
Distance setting 700 mm
2.297 ft.
Distance setting 400 mm
1.312 ft.
Distance setting 200 mm
.656 ft.
Target size (mm2 inch2)
Distance range (mm ft.)
Standard target
(white drawing paper 75×75 mm
2.953×2.953 inch)
MQ-W3 types
Condition: Target (4060 mm 1.5752.362
inch), natural shape
MQ-W20 types
Condition: Target (4060 mm 1.5752.362
inch), natural shape
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183
MQ-W
DIMENSIONS mm inch
1. MQ-W3 types
2. MQ-W20 types
3. MQ-W70 types
CONNECTING DIAGRAM Make connection to Bside with pink wire for
Light ON
Make connection to vside with pink wire for
Dark ON
Note: When switching a power source, make
ground connection to the frame ground termi-
nal or to the ground terminal. This will assure
more stable operation.
Output tran-
sistor
Operation
indicator LED
Operating condition
With light
intercepted ON
With light
entering ON
Common use
Lights with light entering
12.2
.480
11.7
.461 3.3
.130
2,000
78.74
3.3
.130 3.3
.130
4.4
.173
4.4
.173
44.8
1.764
24
.945
10.9
.429
1.4
.055
4
.157
16.6
.654
25.4
1 inch
4
.157
2.2
.087
10.7
.421
6.3
.248
7.3
.287
24.4
(1 inch)
(17)
(.669)
25.4±0.2
1 inch
25.4±0.2
1 inch
6.3
.248
32
1.260
6.3
.248
1
.039
4.2 DIA.
.165
12.6
.496
Distance adjustment dial Operation indicator LED
2-M4 (P = 0.6) tapped
M.S.:* M4 or #6
Adjustment indicator LED
Dimensions with the mounting bracket**
attached
Outline dimensions
12.2
.480
3.3
.130
2,000
78.74
3.3
.130 3.3
.130
4.4
.173
4.4
.173
44.8
1.764
24
.945
10.9
.429
1.4
.055
4
.157
16.6
.654
25.4
1 inch
4
.157
2.2
.087
10.7
.421
6.3
.248
7.3
.287
24.4
(1 inch)
(17)
(.669)
25.4±0.2
1 inch
25.4±0.2
1 inch
7.5
.295
7.5
.295
10.5
.413
32
1.260
1
.039
4.2 DIA.
.165
12.6
.496
Distance adjustment dial Operation indicator LED
2-M4 (P = 0.6) tapped
M.S.:* M4 or #6
Adjustment indicator LED
Dimensions with the mounting bracket**
attached
Outline dimensions
18.2
.717
2,000
78.74
3.5
.138
3.5
.138
3.5
.138
4.4
.173
4.4
.173
4
.157
68.2
2.685
12.5
.492
12.5
.492
24
.945
12.4
.488
1.6
.063
17.4
.685
36.6
1.441
45
1-49/64
45.0
1.772
12.7
.500
4.5 DIA.
.177
9.1
.358
8.1
.319
44
(1-3/4 inch)
(22)
(.866)
45±0.2
1-49/64
45±0.2
1-49/64
13
.512
13
.512
15.5
.610
52
2.047
1
.039
4.2 DIA.
.165
18.6
.732
Distance adjustment dial Operation indicator LED
2-M4 (P = 0.6) tapped
M.S.:* M4 or #6
Adjustment indicator LED Dimensions with the mounting bracket**
attached
Outline dimensions
General tolerance:
±0.5 .020
General tolerance:
±0.5 .020
General tolerance:
±0.5 .020
*M.S.: mounting screw
**The mounting bracket is enclosed in the inner carton.
03/2003
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184
OPERATING PRINCIPLES
Detection principle of new triple beam area reflective series
$Optical triangulation sensing method
The light beam projected by the LED,
passing through the condensing lens of
the light projector, is applied to the sur-
face of the target to be detected. One
part of the diffused reflected light rays
passes through the light receiver lens
producing a spot on the position sensi-
tive device. When the detectable target
is at a position A that is at a compara-
tively near distance as shown in Fig. 1,
a spot is produced at (a). When the tar-
get is at a position B that is far, a spot
is produced at (b). Accordingly, if any
spot position on the position sensitive
device is detected, the distance to the
target can be determined. This is the
principle of optical triangulation range
measurement.
$Triple beam type range sensing principle
$Optical system of the triple beam photoelectric sensor
The MQ photoelectric sensor area
reflective type has adapted this optical
triangulation range measurement prin-
ciple, but in order to improve the relia-
bility of the detection of the sensor, a
more elaborate method has been
devised. First, light receivers are posi-
tioned symmetrically on either side of
the axis of the light projector, compos-
ing a triple beam arrangement. As
shown in Fig. 2, when the moving
detectable target is at the edge of the
projected light beam, the spot reflected
from the target is at a location different
from the point where the spot is pro-
duced when the beam is completely
intercepted, generating a range mea-
surement difference of +
X, but with
the triple beam composition, the sym-
metrically arranged position sensitive
device (2) has a spot produced con-
versely at a
X difference position,
and by means of averaging both range
measurement signals, the correct range
measurement can be made. This
results in significantly improved
repeatability and background suppres-
sion.
Fig. 1 Optical triangulation range
measurement method
Other examples of this method are
the automatic focusing and camera
range measurement systems.
Fig. 2 Triple beam range measure-
ment method
By averaging the range measure-
ment signals of the 2 light receiving
systems, the range measurement
difference is cancelled.
Fig. 4 PSD (position sensitive
device) construction
By making a calculation of the ratio
of I1and I2, the light spot position
can be detected.
Fig. 3 Light beam trace of the lens
(a) is a spherical lens, and (b) is the
aspherical lens. Because there is no
aberration in (b), range measure-
ment precision is high.
In the MQ photoelectric sensor area
reflective type, it is necessary to give
special consideration to the lens. In
order to improve the precision, an
aspherical lens, having limited spherical
and coma aberration, is used.
In addition, as shown in Fig. 4, a photo
diode having 2 output terminals is used.
By comparing the output currents from
the 2 PSDs, there is no relationship to
the level of the incident light. Thus, the
ratio of reflection from the detectable
target exerts no influence and the
range measurement and detection can
be interpreted accuracy.
$Operating principle of area reflective method
The operation of the MQ photoelectric
sensor area reflective type is explained
in Fig. 5. After the output from the 2
PSD elements is added, the I/V value is
converted and the logarithm deter-
mined. By subtraction, the distance sig-
nal in (I1/I2) is obtained. This can be
optionally set, and with the distance
adjustment control, comparison with the
produced value can be made to detect
whether the target is or is not within the
distance range.
Fig. 5 Signal processing circuit block diagram
03/2003
185
MQ-W
CAUTIONS
1. Ambient environment
1) Use within the range of ambient
temperature of 25 to +55°C 13 to
+131°F.
2) Use within a range of 9.6 V to 30 V
DC (ripple P-P included) for operating
voltage.
3) Use with an ambient light level at the
light receiving surface of less than
10,000 lux for incandescent lamp and
less than 30,000 lux for sunlight.
4) Use a surge absorber as the internal
circuit may be damaged if external
surge voltage exceeds 500 V
[±(1.250) µs of single polarity full-
wave voltage].
5) Avoid using in a location with high
concentrations of steam, dust, or corro-
sive gas.
6) The sensor is of immersion protected
type, but this does not mean that it can
be used in water or where there is
direct impingement of rain for detecting
objects.
2. Connections
1) Check all wiring before applying
power since incorrect wiring may dam-
age the internal circuit.
2) Use a load relay with a rated operat-
ing voltage of 12 V DC or 24 V DC. The
voltage applied to the load relay is the
operating voltage of the photoelectric
sensor minus the internal voltage drop
(1.2 V). Voltage fluctuations should be
taken into account.
3) If a load greater than 100 mA is con-
nected, the output section will be
damaged, so sufficient care should be
taken.
4) If the wiring to the photoelectric sen-
sors run parallel to high voltage or
power lines, due to inductive noise,
mis-operation or damage can occur.
Wiring should be run in separate.
5) Wire 0.3 mm2.0005 inch2AWG22 or
larger should be used for wiring up to a
length of 100 m 328 ft..
6) When the photoelectric sensors
being mounted, if the unit is struck by a
hammer or other heavy tool, the func-
tion can be impaired. Sufficient care
should be taken.
7) The changeover from Light-ON (light
entry ON) to Dark-ON (light intercepted
OFF) can be carried out with the pink
lead wire. For Light-ON, connect the
pink wire to the Bside, and for Dark-
ON, connect the pink wire to the v
side.
3. Distance adjustment
1) Set the detecting surface of the pho-
toelectric sensor in the detecting direc-
tion and temporarily fasten it.
2) While no target in the detection
region, set the distance adjustment dial
to maximum (FAR) and slowly turn it
counterclockwise.
Continue turning the control counter-
clockwise until the operation indicator
LED (OPE.) is extinguished. This is the
adjustment position. If the indicator
LED is extinguished at the maximum
position, that is the adjustment position.
3) With target in the detection area, set
the dial in the minimum position
(NEAR) and turn the control clockwise
to locate the position where the indica-
tor LED turns ON. If the indicator LED
goes ON at the minimum position, then
NEAR is the adjustment position.
4) Set the control to a point midway
between the locations found in 2) and
3) above.
5) Securely fasten the photoelectric
sensor. When fastening, the sensor
should be sufficiently secure so that it
will not shift under vibration of shock.
Notes:
1. If the adjustment indicator LED does
not light in the adjustment of 3) as pre-
scribed, or if the position between 2)
and 3) is less than 2 graduations,
change the position of the detection
surface and repeat the procedure of 1)
to 4), or try to determine the source of
external factors such as variation in
ambient temperature, variation in target
position, etc., that creating the problem.
2. The difference in detection distance
due to the colors of the target is virtual-
ly non-existent, but if the actual target is
one where the reflectivity is extremely
low (target which have a frosted finish
produced by black rubber), or where
the reflectivity is extremely high (mirror,
glass, or truly reflectting target), confir-
mation should be done with the actual
target.
4. Detector
1) Keep the detector surface clean as
excessive dust or dirt on the detector
surface will decrease the margin of the
distance range.
2) The front surface of the lens is made
of polycarbonate. This material is resis-
tant to water, weak acids and alkalis,
aliphatic hydrocarbons, oils, etc., but it
is not resistant to ketones, esters, halo-
genated hydrocarbons, or aromatic
hydrocarbons.
Operation
Indicator LED
MQ-W3 type
MW-W20 type
Distance adjustment dial Adjustment
indicator LED
Adjustment
indicator LED
Operation
Indicator LED
MQ-W70 type
Distance adjustment dial
These products are not
safety sensors and are
not designed or intended
to be used to protect life
and prevent bodily injury
or property damage.
03/2003