N
E
W
Proximity Sensors
DC 3-Wire Models
E2E NEXT
Series
[Quadruple distance m
e model of M12 sized]
9
mm
Exceptional
sensing
range
*
Enables easier and
standardized design
* Based on December 2018 OMRON investigation.
2
Proximity Sensors E2E NEXT Series
Enables easier and standardi
previously not possible
PREMIUM Model
Easy design
Standardized design
Exceptional
sensing range
*1
The PREMIUM Model, which has a longer detection range compared to
previous models, allows for more spacious designs with less risk of
contact. It also enables you to standardize your designs by letting you
adopt a single one-size model instead of multiple models of different
sizes.
*1. Based on December 2018 OMRON investigation.
*2. Quadruple distance models of M12 sized
9
mm
[M12]
*2
Quadruple distance model
9 mm [M12]
P.4-7
Triple distance model
6 mm [M12]
BASIC Model
Double distance model
In addition to our HIGH SPEC Models, we also offer
mid/short-distance BASIC Models, to meet various facility
design requirement specifications.
4 mm [M12]
Single distance model
2 mm [M12]
3
zed designs
New standards for usability
1
Early error detection
location,
all new E2E Sensors can be monitored
with IO-Link
P.8
Quick recovery
10
360
Strong resistance to
cutting oil
second
replaceable
with e-jig
(adaptor)
P.10
degree
view
P.10
with high visibility LED indicator
Less unexpected facility stoppages
*3. Pre-wired models and pre-wired connector models.
2
-year
oil resistance
*3
P.12
4
Proximity Sensors E2E NEXT Series
PREMIUM Model
Equipped with exceptional sensing range*
Easy design
to enable collision-free
sensor installation
Enables designs with more distance between the sensor and the sensing object, thereby reducing unexpected
facility stoppages due to collision and false detection, which occurred with previous proximity sensors.
Previous models
E2E NEXT
Exceptional
sensing range*
* Based on Decem
ber
2018 OMRON investigation.
ased
d
December
Decemb
O
MRON investiga
O
nvestigatio
nvestigation.
9
mm
[
[Qu
[Q
adruple distanc
[Quadruple distance
ce
models of
M1
2
s
ize
d]
sized]
mod
l
mo
dels
f
M12
size
]
iz
e
Stable detection without collision
5
Allows for more spacious design with
less risk of contact
With previous models, to avoid false detections, you were forced to adopt sensor
installation designs that risked contact. The E2E NEXT PREMIUM Proximity Sensor can
detect accurately from a greater distance, which means you can adopt designs with
more space and less risk of contact.
■
Approximately double
the sensing distance of previous models
Sensing distance comparisons
Shielded
(Quadruple distance models)
Previous
models
M8
M12
2
M18
8
E2E NEXT
Previous
models
2 mm
4 mm
4 mm
9 mm
8 mm
14 mm
15 mm
23 mm
Exceptional sensing range*
* Based on December 2018 OMRON investigation.
E2E NEXT
Previous models
E2E NEXT
Previous models
M30
0
lded
Unshielded
E2E NEXT
Longest in the series
Previous models
E2E NEXT
30 mm
50 mm
M30
0
Less false detection even when a stationary gets away from the sensor due to
equipment vibration
Previous models
The equipment vibration widens the
distance between a stationary and a sensor
to cause false detection and facility stoppages.
E2E NEXT
Long-distance detection enhances the degree
of the detection margin.
Stable detection
e e when a stat o a y ge away.
e stationary gets
even
4 mm
False
detection
9 mm
Stable
detection
Spindle presence detection
* Quadruple distance models of M12 sized
PROX3 hybrid circuitry with Thermal Distance Control 2 eliminates ambient temperature influence to enable extended sensing ranges.
Proximity sensors with longer sensing distance require increased sensitivity. However, with the increased
sensitivity, temperature changes will have bigger influence in sensing distance, and differences between
individual sensors will be bigger. E2E NEXT Proximity Sensors (3-wire models) solve these issues by newly
implementing Thermal Distance Control 2, a technology to enable extended sensing ranges. It enables
in-line measurements of each sensor’s temperature characteristics, using multiple temperature points, in
IoT-enabled production processes. The optimal correction values are then calculated based on our unique
algorithm. The values are written into the
analog digital hybrid IC (PROX3) for shipping
to minimize differences between sensors
and the influence of temperature changes
that may occur in the customer’s environ-
ments.
After correction
Sensing object
Before correction
Sensing object
Sensing distance fluctuation due to ambient temperature
Before correction
Error
Corrected with high precision
using measurement data from
multiple temperature points
-25
℃
+25
℃
Ambient temperature
After correction
+70
℃
Patent Pending
Thermal Distance Control 2 technology reduces the extent of error
