OMRON E3S-CD11-M1J

Oil-resistive, long-distance photoelectric sensor (metal case)
E3S-C
Achieves excellent water/oil-resistance
and long-distance detection.
Features
Meets IP67 tough standard water/oil resistance
Lineup of M12 metal connector joint type models
E3S-C meets the IP67 requirements of the IEC standards and
6P of the NEMA standards. E3S-C can be used worry-free in
automotive assembly lines and other production lines where
oil vapor exists. It can also be applied to food processing lines
because it resists hydrogen peroxide, detergent and potassium hydroxide.
Lineup of water/oil/shock-resistant M12 metal connector joint
type models are available. This series ensures ease of sensor
replacement during maintenance.
Sensing distance is six times longer than that of
conventional OMRON photoelectric sensor
The sensing distance of the E3S-C is six times longer than
that of the conventional, metal case type OMRON photoelectric sensor. The through-beam, retrorefletive (with M.S.R.
function) and diffuse reflective models have sensing distances of 30, 3 and 2 meters, respectively.
Through-beam
Model
5m
E3S-5E4
Retroreflective
Model
2 m (non-polarized) E3S-R2E4
Diffuse
Reflective
Model
300mm
E3S-DS30E4
30m
3 m (polarized)
2m
Excellent shock resistance of 1,000 m/s2
The industry's top-class photoelectric sensor features shock resistance of 1,000 m/s2, which is as high as that of a proximity sensor at rated values, and vibration resistance of as high as 10 to
2,000 Hz. The E3S-C can be used worry-free in metal processing, conveyor and other lines.
A-146
NPN/PNP output selector
The operation panel has the NPN/PNP output selector. You need not prepare two
NPN and PNP models for export. You need
not worry about malfunctions due to noise,
either.
Mutual interference
PAT
in the
First stry
Pending
Indu
prevention enhanced
(Retroreflective, diffuse reflective models)
Fuzzy inference is introduced into the mutual interference prevention for the first time in the industry. This prevents a malfunction due to mutual interference, enabling two sensors to
be mounted closely side by side.
Easy optical axis alignment
OMRON's original "automatic position compensation system"
minimizes misalignment of mechanical and optical axes to
merely ±2°. The optical axis is aligned perfectly by only installing the sensor.
Photoelectric Sensors
Application
Detection of engine block
E3S-C
Drill breakage detection
IP67 ensures a worry-free use in oil
mist environment.
Ordering Information
Sensors
Red light
Infrared light
Sensor type
Shape
Connection method
Sensing distance
Model
Pre-wired
E3S-CT11
Junction connector
E3S-CT11-M1J
Horizontal Model
Through-beam
30m
Vertical Model
Horizontal Model
Pre-wired
E3S-CT61
Junction connector
E3S-CT61-M1J
Pre-wired
E3S-CR11
Junction connector
E3S-CR11-M1J
Retroreflective Models
3m
Vertical Model
Pre-wired
E3S-CR61
Junction connector
E3S-CR61-M1J
Pre-wired
Horizontal Model
Junction connector
Diffuse-reflective
Vertical Model
Pre-wired
Junction connector
700mm
E3S-CD11
2m
E3S-CD12
700mm
E3S-CD11-M1J
2m
E3S-CD12-M1J
700mm
E3S-CD61
2m
E3S-CD62
700mm
E3S-CD61-M1J
2m
E3S-CD62-M1J
Accessories (Order Separately)
Slits
Slit width
Sensing
distance
Minimum sensing
object (typical)
Width 0.5 mmx11 mm
1.8 m
0.5 mm dia.
Width 1 mmx11 mm
3.5 m
1 mm dia.
Width 2 mmx11 mm
7m
2 mm dia.
Width 4 mmx11 mm
15 m
2.6 mm dia.
E3S-C
Model
Quantity
Remarks
E39-S61
1 each for emitter
and receiver
(total of 8 pcs.)
(Plug-in type long slit) Can be used
with through-beam E3S-CT#1
(-M1J).
A-147
Reflectors
Name
Sensing distance (typical)
3 m (rated value)
Reflectors
Small reflector
Tape Reflector
Model
Quantity
Remarks
1
Attached to the Retroreflective E3S-CR#1 (-M1J).
E39-R1
4m
E39-R2
1
---
1.5 m
E39-R3
1
---
750 mm
E39-R4
1
---
700 mm (50 mm) *
E39-RS1
1 pc.
1,100 mm (100 mm) *
E39-RS2
1 pc.
1,400 mm (100 mm) *
E39-RS3
1 pc.
The M.S.R. function is available.
* Values in parentheses indicate the minimum required distance between the sensor and reflector.
Note: 1 . When the reflector used is other than the supplied one, set the sensing distance to about 0.7 times of the typical example as a guideline.
Mounting Brackets
Shape
Model
Quantity
Remarks
E39-L102
1
Attached to the horizontal model.
E39-L103
1
Attached to the vertical model.
E39-L85
1
Mounting bracket designed to switch from
E3S-#####42, 44 to the vertical model of
E3S-C.
E39-L86
1
Mounting bracket designed to switch from
E3S-#####43 to the vertical model of E3SC.
E39-L87
1
---
Note: If a through-beam model is used, order two Mounting Brackets for the emitter and receiver respectively.
Sensor I/O Connectors
Cable
Shape
Straight
L-shaped
Model
XS2F-D421-DC0-A
2m
5m
Standard cable
A-148
Cable length
XS2F-D421-GC0-A
3-wire type
2m
XS2F-D422-DC0-A
5m
XS2F-D422-GC0-A
Photoelectric Sensors
Through-beam
Retroreflective model
(with M.S.R. function)
Diffuse-reflective
Horizontal E3S-CT11 (-M1J)
Horizontal E3S-CR11 (-M1J)
Horizontal E3S-CD11 (-M1J) Horizontal E3S-CD12 (-M1J)
Sensor type
Model
Item
Vertical E3S-CT61 (-M1J)
Vertical E3S-CR61 (-M1J)
Sensing distance
30 m
3 m (When using the
E39-R1)
Standard sensing
object
Opaque, 15dia. min.
Opaque: 75 mm dia. min.
Differential distance
---
Vertical E3S-CD61 (-M1J)
700 mm (White paper 300 x
300 mm)
Vertical E3S-CD62 (-M1J)
2 m (White paper 300 x
300 mm)
---
20% max. of sensing distance
Directional angle
Both emitter and receiver:
3° to 15°
3° to 10°
Light source
(wave length)
Infrared LED (880 nm)
Red LED (700 nm)
Supply
voltage
10 to 30 VDC [ripple (p-p) 10% included]
Current
consumption
Both emitter and receiver:
25 mA max.
Control output
Load supply voltage 30 VDC max., load current 100 mA max. (residual voltage NPN output: 1.2 V max., PNP output: 2.0 V max.) Open collector output type (NPN/PNP switch selectable) Light-ON/Dark-ON switch selectable
Protective circuits
Reverse polarity protection,
Reverse polarity protection, output short-circuit protection, mutual interference preoutput short-circuit protecvention
tion
Response time
Operation or reset: 1 ms max.
Sensitivity
adjustment
Single-turn adjustment
---
Infrared LED (880 nm)
40 mA max.
Operation/reset: 2 ms
max. each
2-turn endless adjuster (with indicator)
Ambient illuminance (on Receiver lens) Incandescent lamp: 5,000 lux max. Sunlight: 10,000 lux max.
Ambient
temperature
Operating: -25°C to 55°C, Storage: -40°C to 70°C (with no icing or condensation)
Ambient humidity
Operating: 35% to 85%RH, Storage: 35% to 95%RH (with no condensation)
Insulation
resistance
20 M W min. at 500 VDC
Dielectric strength
1,000 VAC at 50/60 Hz 1 minute
Vibration resistance 10 to 2,000 Hz double amplitude 1.5 mm or 300 m/s2 for 0.5 h in each of X, Y, Z directions
Shock resistance
1000 m/s2 (approx.- l00G) 3 times each in X, Y, and Z directions
Protective structure
IEC Standard IP67, NEMA 6P (limited to indoors use) *
Connection method
Pre-wired (standard length: 2 m), Junction connector (standard length: 300 mm)
Weight
(Packed state)
About 270 g (pre-wired
type) About 230 g (M12
connector joint type)
Case
About 160 g (pre-wired
type) About 130 g (M12
connector joint type)
About 150 g (pre-wired type) About 110 g (M12 connector joint type)
Zinc diecast
Operation
Ma- panel cover
teriLens
al
Mounting
Brackets
Acrylics
Accessories
Mounting bracket (with screws), adjusting screwdriver, instruction manual, reflector (Retroreflective model only)
Polyethyl sulfon
Stainless steel (SUS304)
* NEMA (National Electrical Manufacturers Association) Standards
E3S-C
A-149
E3S-C
Rating/performance
Output Circuit Diagram
NPN output
Operating status of
output transistor
Model
Mode selection switch
Timing chart
Incident
Interrupted
Light ON
Light
indicator
(red)
Output
transistor
Load
(Relay)
E3S-CT11(-M1J)
E3S-CT61(-M1J)
Output circuit
Receiver (Through-beam Models)
Retroreflective, Diffuse Reflective, and Limited Reflective Models
ON
OFF
L∑ON
(LIGHT ON)
ON
OFF
Operate
Light
indicator
Stability
indicator
(red)
(green)
Reset
(Between brown and black)
Dark ON
E3S-CD11(-M1J)
E3S-CD12(-M1J)
E3S-CD61(-M1J)
E3S-CD62(-M1J)
Light
indicator
(red)
Output
transistor
Load
(Relay)
Main
circuit
Brown 10 to 30 VDC
ZD
Load Load current
NPN and PNP
output selector
NPN
output transistor
4
Black
Control output
*
ZD
3
Incident
Interrupted
E3S-CR11(-M1J)
E3S-CR61(-M1J)
1
PNP
output transistor
0V
Blue
* Note: Set the NPN and PNP output selector to NPN.
ON
OFF
D∑ON
(DARK ON)
ON
OFF
Operate
Connector Pin Arrangement
1
2
4
3
Reset
(Between brown and black)
Note: Terminal 2 is not used.
Emitter (Through-beam Models)
Emitter
indicator
(red)
1
Brown
Connector Pin Arrangement
Main
circuit
1
10 to 30 VDC
2
4
3
3
Blue
Note: Terminal 2 and 4 are not used.
PNP output
Model
Mode selection switch
Operating status of
output transistor
Timing chart
Light ON
Incident
Interrupted
Light
ON
indicator
OFF
(red)
ON
Output
transistor OFF
Operate
Load
(Relay)
Reset
(Between blue and black)
E3S-CT11(-M1J)
E3S-CT61(-M1J)
E3S-CR11(-M1J)
E3S-CR61(-M1J)
E3S-CD11(-M1J)
E3S-CD12(-M1J)
E3S-CD61(-M1J)
E3S-CD62(-M1J)
Dark ON
Output circuit
Receiver (Through-beam Models)
Retroreflective, Diffuse Reflective, and Limited Reflective Models
L∑ON
(LIGHT ON)
Light
indicator
Stability
indicator
1
PNP
output transistor
(red)
(green)
Main
circuit
NPN and PNP
output selector
NPN
output transistor
4
Black
Load current
*
Load
ZD
3
Incident
Interrupted
Light
ON
indicator
OFF
(red)
Brown 10 to 30 VDC
ZD
Blue
Control output
0V
* Note: Set the NPN and PNP output selector to PNP.
D∑ON
(DARK ON)
ON
OFF
Operate
Load
(Relay)
Reset
(Between blue and black)
Output
transistor
Connector Pin Arrangement
1
2
4
3
Note: Terminal 2 is not used.
Emitter (Through-beam Models)
Brown
Emitter
indicator
(red)
1
Connector Pin Arrangement
Main
circuit
1
10 to 30 VDC
2
4
3
Blue
Note: Terminal 2 and 4 are not used.
3
Connectors (Sensor I/O connectors)
Pin No.
Classifi-
Class
cation
2
1
3
4
1
2
3
4
Brown
Blue
Black
XS2F-D421-DC0-A
DC
For DC
Connector
Wire,
outer
Use
Wire
colorsConnector
pin No. Application
jacket color
pin No.
Brown
(1)
Brown
A
+V+V
-----B (2)
---
Blue
Blue
Black
Black
C (3)
D (4)
0V0V
Output
Output
2 is not used.
Note: Terminal
Pin 2 is open.
A-150
Photoelectric Sensors
Characteristic data (typical)
Retroreflective Models
E3S-CR#1 (-M1J) + E39-R1 (supplied reflector)
300
100
50
500 Reflector: E39-R1
300
Excess gain ratio
Excess gain ratio
Excess gain ratio
500
Diffuse-reflective
E3S-CD##(-M1J)
100
50
500 Sensing object: White paper
300
E3S-CD#1
100
50
30
30
30
10
10
10
5
5
5
3
3
3
Operation
1
level
0
10
20
30
40
Operation
1
level
0
1
2
3
Distance (m)
4
E3S-C
Operating Range
Through-beam
E3S-CT#1(-M1J)
E3S-CD#2
Operation
1
level
0
1
2
3
Distance (m)
Distance (m)
Nomenclature:
(Horizontal type)
(Vertical type)
Control unit cover
Control unit cover
Stability
indicator (green)
Light indicator (red)
S
Stability indicator
(green)
NPN and PNP
output selector * 1
L
Min
Max
NPN and PNP
output selector * 1
D·ON
NPN
L·ON
E3S-CD12
PNP
D
ON
NPN
L
ON
L
Min
Light indicator
(red)
SENS
Max
Sensitivity adjuster
Sensitivity adjuster
L-ON and
D-ON selector * 2
SENS
PNP
S
L-ON and D-ON
selector * 2
*1. The output transistor can be selected with the NPN/PNP output selector.
*2. The operation mode can be selected with the L/OND/ON selector.
Note: The through-beam and retroreflective models are different in sensitivity
adjuster shape.
Model
Operation
Sensitivity adjustment (diffuse reflective model, light-ON)
Photoelectric
Sensor
Sensing object
Photoelectric Sensor
B Point B
Sensitivity adjuster
Sensing object
A Point A
Detection state
Background
Sequence
Indicator state
ONÆOFF
Stability indicator Light indicator
(green)
(red)
ONÆOFF
ONÆOFF
Stability indicator Light indicator
(green)
(red)
ON
C Setting
OFFÆON
ON´OFF
--Stability indicator Light indicator
(green)
(red)
Adjustment procedure
Place a sensing object in the predetermined position, turn the
sensitivity adjuster clockwise (increase sensitivity) until the
incident indicator (red) is turned ON, and define this position
as (A).
Remove the sensing object, turn the sensitivity adjuster further clockwise until the incident indicator (red) is turned ON
by a background object, and define this position as (B). Turn
the sensitivity adjuster counterclockwise (decrease sensitivity) from (B) until the incident indicator (red) is turned OFF,
and define this position as (C). When there is no background
object, define the maximum adjuster position (Max) as (C).
Set the adjuster in the middle of positions (A) and (C) (optimum sensitivity setting). Also make sure that the stability indicator (green) is turned ON when there is an object and
when there is no object.
When the indicator is not turned ON, recheck the detection
method since there is a little allowance.
Unlike the conventional models, the E3S-C scarcely has sensitivity variations between products. Therefore, you need to make the
above adjustment on only one diffuse reflective model of E3S-CD that will be used for detection under the same conditions, and
match the indicator points of the other diffuse reflective models of E3S-CD with the above adjusted one. (You need not match the
sensitivity of each sensor.)
E3S-C
A-151
Precautions
Correct Use
Design
Fuzzy mutual interference prevention
When reflective photoelectric sensors are installed side by
side, one sensor may receive the light from the other sensor,
which may disturb the incident signal, causing a malfunction.
The fuzzy mutual interference prevention monitors interfering
light for a predetermined period of time before light is emitted,
and imports the interfering light level and incident frequencies
as data. Using these values, fuzzy inference is made to find
the risk of malfunction to control the light emitting timing, reducing the risk.
(Direct installation)
Install the E3S-C as shown below.
[M4 screwing]
Two, 4.5 dia.
through holes
M4
M4 hole
M4 hole
[M3 screwing]
(When risk is low)
Light is emitted after interfering light is gone.
2-M3
Light
interference
M4 hole
Emission
pattern
(When risk is high)
Light is emitted after shifting to a gap of interfering light.
Light
interference
Emission
pattern
Wiring Considerations
Cable
• An oil-resistance cable is used to ensure oil resistance.
• The bending radius should be 25 mm or more.
Installation
Sensor installation
• Note that during the E35-C installation, hammering it will
damage the water resistance function.
• Use an M4 screw, tightened to a torque of no more than
1.18 Nm.
M4 hole
M3
Optical axis adjustment
(Optical axis locking holes)
By fitting screws into the optical axis locking holes, the mounting bracket is set onto the mounting shaft of the mounting
bracket.
For adjustment
Optical
axis
Four M4 optical axis lock holes
Mounting axis
(When using the mounting bracket)
• To set the sensor on the mechanical axis, use the optical
axis locking holes.
• When the sensor cannot be set on the mechanical axis,
move the E3S-C vertically and/or horizontally and set it in
the center of the area where the incident indicator is turned
ON. Make sure that the stability indicator is ON.
A-152
Photoelectric Sensors
Lens in use.
The slit must be on this side.
Lens in use.
Miscellaneous
Oil resistance/chemical resistance
• Though E3S-C has a high oil resistance, it may not be able
to exhibit its performance depending on the oil type. Use oil
in compliance with the following table.
• Regarding the oil resistance of E3S-C, it has passed tests
on the oils given in the following table. Refer to the table for
examining the oil to be used.
Testing
JIS classioil classification
fication
Lubricant
Lens not in use.
---
Product name
Velocity No. 3
Water Resistance
To ensure water resistance, tighten the operation panel cover
screws to 0.34 Nm to 0.54 Nm torque.
Watersoluble
coolant
Not less than
10 to less than
50
Class 2
No. 5
Daphne Cut
Class 2
No. 11
Yushiron Oil No. 2ac
Class W1
No. 1
PH
2.02
Lens not in use.
Water-insoluble
coolant
Dynamic viscosity (mm2/s)
at 40°C
Less than 10
Yushiroken EC50T-3
7 to 9.5
Yushiron Lubic HWC68
Class W1
No. 2
Gryton 1700D
Class W2
No. 1
Yushiroken S50N
---
7 to 9.9
---
7 to 9.2
7 to 9.8
Note: 1 . The E3S-C was immersed in the oils in the above table at 50°C for 240
hours, and passed the test of 100-MW or more insulation resistance.
2 . For use in the environment where the E3S-C is exposed to the oil other
than those in the above table, use the dynamic viscosity and PH in the
above table. Pre-examine the oils since the sensor may be affected by
additives and like in the oils.
Dimensions (Unit: mm)
Sensors
Through-beam model (horizontal model)
E3S-CT11(-M1J)
Junction connector models (-M1J)
Vinyl-insulated round cable with
three conductors, 4 dia.
(18 x 0.12 dia.); standard length: 0.3 m
With mounting bracket
M12 x 1
16 dia.
M3 x 5
50
*2
Light indicator (red)
18.5
Vinyl-insulated round cable with
three conductors, 4 dia.
(18 x 0.12 dia.); standard length: 2 m * 3
20 20.4
Mounting holes
22.2 Stability
Emitter: E3S-CT##-L
Receiver: E3S-CT##-D
indicator
(green)
2-M4
20
4.2
9.2
25.4
4.2
Lens (17 x 11)
6.2
Optical axis
8.3
Stainless steel
(SUS304)
38.2
2.2
4
23
29.5
18
17.3
9.3
(A)*1
2-M4
1.5
20.8
25.4
* Note: 1. Mounting bracket can be attached to side A.
2. The emitter for through-beam sensors have only the power supply indicator.
3. The cable for emitters for through-beam sensors is two-conductor, 4 dia. (27 x 12 dia.).
E3S-C
Model
E3S-CT11 (Emitter)
E3S-CT11 (Receiver)
E3S-CT11-M1J
CAD file
E3S_08
E3S_05
E3S_10
A-153
E3S-C
Optical axis position of through-beam model
Unlike the conventional product, the through-beam model has
two lenses, but the one actually used is as shown below.
When fitting the slit, use it after matching the slit hole with the
used lens.
(Horizontal model) (Vertical model)
Through-beam model (vertical model)
E3S-CT61(-M1J)
Junction connector models (-M1J)
Vinyl-insulated round cable with three
conductors, 4 dia. (18¥0.12 dia.);
standard length: 0.3 m
With mounting bracket
M12¥1
16 dia.
57
Vinyl-insulated round cable
with three conductors, 4 dia. (18¥0.12 dia.);
standard length: 2 m * 3
Optical axis
15.8
7.4
20
Optical
axis
20.4
Mounting holes
22.2
2-M4
Lens (17¥11)
4.2
9.2
20
25.4
4.2
4.2
Stainless steel
(SUS304)
12.9
12.9
25.4
31
Stability indicator (green)
7.2
Light indicator (red) * 2
43.8
2.2
5.8
20.2
23
32.2
(A) * 1
12
2-M4
M3¥5
23.2
Model
E3S-CT61 (Emitter)
E3S-CT61 (Receiver)
E3S-CT61-M1J
1.5
* 1. Mounting bracket can be attached to side A.
* 2. The emitter for through-beam sensors have only the power supply indicator.
* 3. The cable for emitters for through-beam sensors is two-conductor, 4 dia. (27¥12 dia.).
Retro/diffuse reflective model (horizontal model)
E3S-CR11(-M1J)
E3S-CD11(-M1J)
E3S-CD12(-M1J)
CAD file
E3S_06
E3S_07
E3S_09
Junction connector models (-M1J)
Vinyl-insulated round cable
with three conductors, 4 dia.
(18 x 0.12 dia.); standard length: 0.3 m
M12 x 1
With mounting bracket
16 dia.
M3 x 5
50
Light indicator
(red)
18.5
Vinyl-insulated round cable with three conductors, 4 dia.
(18 x 0.12 dia.); standard length: 2 m * 3
20 20.4
Mounting holes
22.2 Stability
indicator
(green)
2-M4
20
4.2
9.2
25.4
4.2
Lens (17 x 11)
6.2
Receiver
8.3
Stainless steel (SUS304)
38.2
2.2
23
4
9
29.5
1
18
9.3
(A)*1
Optical
axis
17.3
Emitter
2-M4
1.5
20.8
25.4
Model
E3S-CR11
E3S-CD11
E3S-CD12
E3S-CR11-M1J
E3S-CD11-M1J
E3S-CD12-M1J
CAD file
E3S_01
E3S_03
* Note: Mounting bracket can be attached to side A.
A-154
Photoelectric Sensors
Vinyl-insulated round cable with
three conductors, 4 dia.
(18 x 0.12 dia.); standard length: 0.3 m
Junction connector models (-M1J)
M12 x 1
E3S-C
Retro/diffuse reflective model (vertical model)
E3S-CR61(-M1J)
E3S-CD61(-M1J)
E3S-CD62(-M1J)
With mounting bracket
16 dia.
57
Receiver
5
9
2.4
20.8
Vinyl-insulated round cable with three conductors,
4 dia. (18 x 0.12 dia.); standard length: 2 m * 3
Emitter
20
Optical axis
20.4
Mounting holes
22.2
2-M4
Lens (17 x 11)
4.2
9.2
20
25.4
4.2
4.2
12.9
12.9
Stainless steel (SUS304)
25.4
31
Stability indicator (green)
7.2
Light indicator (red)
43.8
2.2
5.8
Model
E3S-CR61
E3S-CD61
E3S-CD62
20.2
23
32.2
(A) * 1
M3 x 5
12
2-M4
23.2
E3S-CR61-M1J
E3S-CD61-M1J
E3S-CD62-M1J
1.5
* Note: Mounting bracket can be attached to side A.
CAD file
E3S_02
E3S_04
Accessories (Order Separately)
Plug-in type long slit (for through-beam model )
E39-S61
1
A
0.2
11
6.2 11.8
20
Dimension A
(mm)
Material
Quantity
0.5
3.8
6.5
20.1
1
2
Stainless
steel
(SUS 304)
1 each for emitter
and receiver
(total of 8 pcs.)
4
E3S-C
A-155