OMRON E3Z-[]-IL[]Sensors/ Photoelectric Sensors/Built-in Amplifier

OMRON E3Z-[]-IL[] Sensors

E3Z-[]-IL[] IO-Link Photoelectric Sensor/Dimensions
E3Z-[]-IL[] IO-Link Photoelectric Sensor/Lineup
E3Z-[]-IL[] IO-Link Photoelectric Sensor/Specifications
E3Z-[]-IL[] IO-Link Photoelectric Sensor/Catalog
Purchase the OMRON E3Z-[]-IL[] Built-in Amplifier

OMRON E3Z-[]-IL[] Dimensions

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last update: July 17, 2018

Downtime can be reduced.

Notifies you of faulty parts and such phenomena in the Sensor in real time.

The frequency of sudden failure can be decreased.

Condition monitoring of sensors and equipment to prevent troubles.

The efficiency of changeover can be improved.

The batch check for individual sensor IDs significantly decreases commissioning time.

Three types of sensing methods and three types of connection methods are available.

[To those in charge of maintenance “Condition monitoring” for predictive maintenance (1)] Reduction of Sudden Stops by Grasping the Flow Rate Simultaneously with the Temperature of Cooling Water and Hydraulic Oil Circulating in Equipment

Existing problems

While the presence or absence of cooling water is checked by means of the ON/OFF-based pressure sensor, it is unable to detect any drop in the flow rate of the cooling water or any rise in the cooling water temperature. For that reason,

∙ The transformer is not cooled, and gets overheated, potentially leading to sudden stops of the equipment and the entire line.

∙ The tip may be deformed, causing defective products.

With an IO-Link IoT Flow Sensor

The flow rate and simultaneously the temperature of the circulation system are measured, substantially reducing sudden error.

Simultaneous monitoring of the flow rate and temperature changes, and informing of those changes, enable you to carry out predictive maintenance and reduce defective products.

[To those in charge of maintenance “Condition monitoring” for predictive maintenance (2)] The Proximity Sensor Indicates an Excessive Proximity to the Sensing Object. Understand the Changes in Equipment Condition in Advance and Reduce Sudden Stops

Existing problems

The detection position changes due to wear and vibration in the equipment’s mechanical parts and as a result, false detection and collision with the sensor have a negative impact on the equipment...

With an IO-Link Proximity Sensor

You are notified of excessive remoteness or proximity, and the occurrence of sudden defects is greatly reduced

Constantly monitoring the position of the sensing object and notifying of excessive remoteness or proximity can be used for predictive maintenance of the equipment.

[To those in charge of maintenance “Condition monitoring” for predictive maintenance (3)] Understand Unstable Situations in the Incident Level of the Photoelectric Sensor in Advance and Reduce Sudden Stops

Existing problems

∙ In a conveyance process operating for 24 hours, dust or dirt accumulated on the detection surface of the photoelectric sensor, leading to a decline in the light incident level that causes the sensor to make false detection and the equipment to stop...

∙ Water drops stick to the sensing surface of the reflective sensor causing reflected light to enter...

With an IO-Link Photoelectric Sensor

A light incident level monitor prevents false detection

With a response time of 1 ms, Photoelectric Sensor’s light incident level is output for monitoring. It is output when the light incident level exceeds the instability detection threshold, so you can check the site before false detection occurs and perform predictive maintenance.

[To those in charge of maintenance “Abnormality detection” for the shortest recovery] Detects Wiring Cable Disconnections and Errors and Improves Equipment Operation Rate Through Quick Maintenance

Existing problems

∙ An abnormality was displayed on the abnormality display screen, but upon going to look at the equipment, no external error was detected and the cause of the stop was not understood...

∙ Those responsible for maintenance investigated the cause of the abnormality from the activity of the stopped equipment, but because the maintenance person relied on the skill he or she has to identify the abnormality and replace the failed sensor, stoppages from 2 hours to several days occur...

With an IO-Link Sensor

Abnormal area and phenomenon of sensors are reported in real time

When an abnormality occurs in a sensor, because you can see where the abnormality occurred and the factors estimated for it, you can go to where the abnormality occurred and recover the equipment in the shortest amount of time.
Also with wire disconnection detection, not only output wires, but also power lines can be detected unconditionally.

Easy replacement of IO-Link sensors with Non-IO-Link sensors

You need a quick recovery but you have only Non-IO-Link sensors with no IO-Link sensors in stock. You probably think in such a case, the control program needs modifications, and requires additional time for the recovery.
With IO-Link Master, since the IO-Link ON/OFF data and the data for Non-IO-Link sensors are located in the same memory, replacement with Non-IO-Link sensors can be carried out without any modification of the control program, resulting in a reduction of the equipment downtime.

[To those in charge of production engineering “Individual identification” for the reduction of man-hours] Improving System Commissioning and Changeover Efficiency by Checking Identifications in Batches

Existing problems

∙ During system start-up or changeover, operators had to perform the I/O check for each of the thousands of sensors installed on the line, and it took an enormous amount of time...

∙ When a sensor is installed wrong or an error occurs, wasteful work occurred that would normally be unnecessary...

With an IO-Link Sensor

Without going to the site, you can check individual sensor identifications in batches, resulting in a sharp reduction of commissioning time

By checking the sensor identification (manufacturer/sensor type/model number), you can easily check mistakes such as misconnected or unconnected sensors and installation mistakes.
Also, because it is possible to program multiple sensors at once using the command language used only for the controller, it is also possible to reduce commissioning time sharply.

[Omron’s IO-Link Compliant Equipment] Masters and Sensors Can Be Chosen to Match Your Situation

For the connection of IO-Link Sensors and IO-Link Masters, two types are available: a screw-less clamp terminal block and an M12 connector.
In addition, NX-ILM400 IO-Link Master with screw-less clamp terminal block is connectable not only to EtherCAT, but also to EtherNet/IP communication coupler units, and you can choose between them according to the system configuration.

last update: July 17, 2018

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If you have just landed here, this product OMRON E3Z-[]-IL[] Sensors,Sensors is offered online by Tianin FLD Technical Co.,Ltd. This is an online store providing Sensors at wholesale prices for consumers. You can call us or send enquiry, we would give you the prices, packing,deliverty and more detailed information on the E3Z-[]-IL[] We cooperate with DHL,TNT,FEDEX,UPS,EMS,etc.They guarantee to meet your needs in terms of time and money,even if you need your OMRON E3Z-[]-IL[]Sensors tomorrow morning (aka overnight or next day air) on your desk, 2, 3 days or more.Note to international customers, YES, we ship worldwide.

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OMRON E3Z-[]-IL[] dimension
E3Z-[]-IL[] IO-Link Photoelectric Sensor/Dimensions
last update: July 01, 2016
Sensors
Through-beam Models *
Pre-wired Models

E3Z-T81-IL[]

Connector Models

E3Z-T86-IL[]

* Models numbers for Through-beam Sensors (E3Z-T[][]) are for sets that include both the Emitter and Receiver.
   The model number of the Emitter is expressed by adding "-L" to the set model number (example: E3Z-T81-IL[]-L 2M),
   the model number of the Receiver, by adding "-D" (example: E3Z-T81-IL[]-D 2M.) Refer to Ordering Information to
   confirm model numbers for Emitter and Receivers.

Retro-reflective Models
Pre-wired Models

E3Z-R81-IL[]
E3Z-D82-IL[]
E3Z-L81-IL[]

Connector Models

E3Z-R86-IL[]
E3Z-D87-IL[]
E3Z-L86-IL[]

Note: The lens for the E3Z-D[]2/D[]7 is black.

Accessories (Order Separately)
Slits

E39-S65A
E39-S65B
E39-S65C

E39-S65D
E39-S65E
E39-S65F

Mounting Bracket

E39-L44

E39-L104

Reflectors

Refer to E39-R on your OMRON website for details.

Sensor I/O Connectors

Refer to XS3 or XS5 on your OMRON website for details.

last update: July 01, 2016

OMRON E3Z-[]-IL[] lineup
E3Z-[]-IL[] IO-Link Photoelectric Sensor/Lineup
last update: September 12, 2016
IO-Link Model / Sensors

Sensing
method Appearance Connection
method Sensing
distance IO-Link
baud rate Model
PNP
Through-
beam
(Emitter +
Receiver)
*3 Pre-wired (2 m) 15 m
(Infrared light) COM2
(38.4 kbps) E3Z-T81-IL2 2M
Emitter E3Z-T81-L-IL2 2M
Receiver E3Z-T81-D-IL2 2M
Pre-wired
M12 connector E3Z-T81-M1TJ-IL2 0.3M
Emitter E3Z-T81-L-M1TJ-IL2 0.3M
Receiver E3Z-T81-D-M1TJ-IL2 0.3M
Standard
M8 connector E3Z-T86-IL2
Emitter E3Z-T86-L-IL2
Receiver E3Z-T86-D-IL2
Pre-wired (2 m) COM3
(230.4 kbps) E3Z-T81-IL3 2M
Emitter E3Z-T81-L-IL3 2M
Receiver E3Z-T81-D-IL3 2M
Pre-wired
M12 connector E3Z-T81-M1TJ-IL3 0.3M
Emitter E3Z-T81-L-M1TJ-IL3 0.3M
Receiver E3Z-T81-D-M1TJ-IL3 0.3M
Standard
M8 connector E3Z-T86-IL3
Emitter E3Z-T86-L-IL3
Receiver E3Z-T86-D-IL3
Retro-
reflective
with MSR
function Pre-wired (2 m) 4 m (100 mm) *2
(When using
E39-R1S)
(Red light) COM2
(38.4 kbps) E3Z-R81-IL2 2M
Pre-wired
M12 connector E3Z-R81-M1TJ-IL2 0.3M
Standard
M8 connector E3Z-R86-IL2
Pre-wired (2 m) COM3
(230.4 kbps) E3Z-R81-IL3 2M
Pre-wired
M12 connector E3Z-R81-M1TJ-IL3 0.3M
Standard M8
connector E3Z-R86-IL3
Diffuse-
reflective Pre-wired (2 m) 1 m
(Infrared light) COM2
(38.4 kbps) E3Z-D82-IL2 2M
Pre-wired
M12 connector E3Z-D82-M1TJ-IL2 0.3M
Standard
M8 connector E3Z-D87-IL2
Pre-wired (2 m) COM3
(230.4 kbps) E3Z-D82-IL3 2M
Pre-wired
M12 connector E3Z-D82-M1TJ-IL3 0.3M
Standard
M8 connector E3Z-D87-IL3
Pre-wired (2 m) 90 mm
(narrow beam)
(Red light) COM2
(38.4 kbps) E3Z-L81-IL2 2M
Pre-wired
M12 connector E3Z-L81-M1TJ-IL2 0.3M
Standard
M8 connector E3Z-L86-IL2
Pre-wired (2 m) COM3
(230.4 kbps) E3Z-L81-IL3 2M
Pre-wired
M12 connector E3Z-L81-M1TJ-IL3 0.3M
Standard
M8 connector E3Z-L86-IL3

Note: Please contact your OMRON sales representative regarding the IO-Link setup file (IODD file).
*1. The Reflector is sold separately. Select the Reflector model most suited to the application.
*2. The sensing distance specified is possible when the E39-R1S is used. Values in parentheses indicate the minimum
       required distance between the Sensor and Reflector.
*3. Through-beam Sensors are normally sold in sets that include both the Emitter and Receiver.

Accessories (Sold Separately)
Slit

(A Slit is not provided with Through-beam Sensors) Order a Slit separately if required.

Slit width Sensing distance Minimum detectable object
(Reference value) Model Contents
E3Z-T[][]
0.5-mm dia. 50 mm 0.2-mm dia. E39-S65A One set
(contains Slits for both the
Emitter and Receiver)
1-mm dia. 200 mm 0.4-mm dia. E39-S65B
2-mm dia. 800 mm 0.7-mm dia. E39-S65C
0.5 × 10 mm 1 m 0.2-mm dia. E39-S65D
1 × 10 mm 2.2 m 0.5-mm dia. E39-S65E
2 × 10 mm 5 m 0.8-mm dia. E39-S65F

Reflectors

(Reflector required for Retroreflective Sensors) A Reflector is not provided with the Sensor. Be sure to order a Reflector separately.

Name Sensing distance * Model Quantity Remarks
E3Z-R
Rated value Reference value
Reflector 3 m (100 mm) --- E39-R1 1 • Reflectors are not provided with
Retro-reflective models.
• The MSR function of the
E3Z-R[] is enabled.
4 m (100 mm) --- E39-R1S 1
--- 5 m (100 mm) E39-R2 1
--- 2.5 m (100 mm) E39-R9 1
--- 3.5 m(100 mm) E39-R10 1
Fog Preventive Coating --- 3 m (100 mm) E39-R1K 1
Small Reflector --- 1.5 m (50 mm) E39-R3 1
Tape Reflector --- 700 mm (150 mm) E39-RS1 1
--- 1.1 m (150 mm) E39-RS2 1
--- 1.4 m (150 mm) E39-RS3 1

Note:1. If you use the Reflector at any distance other than the rated distance, make sure that the stability indicator lights
              properly when you install the Sensor.
          2. Refer to Reflectors on E39-L/E39-S/E39-R on your OMRON website for details.
* Values in parenthese indicate the minimum required distance between the Sensor and Reflector.

Mounting Brackets

A Mounting Bracket is not enclosed with the Sensor. Order a Mounting Bracket separately if required.

Appearance Model (material) Quantity Remarks
E39-L153
(SUS304) *1 1 Mounting Brackets
E39-L104
(SUS304) *1 1
E39-L43
(SUS304) *2 1 Horizontal Mounting Brackets
E39-L142
(SUS304) *2 1 Horizontal Protective Cover Bracket
E39-L44
(SUS304) 1 Rear Mounting Bracket
E39-L98
(SUS304) *2 1 Metal Protective Cover Bracket
E39-L150
(SUS304) 1 (Sensor adjuster)
Easily mounted to the aluminum frame rails of conveyors
and easily adjusted.
For left to right adjustment
E39-L151
(SUS304) 1
E39-L144
(SUS304) *2 1 Compact Protective
Cover Bracket (For E3Z only)

Note:1. When using Through-beam models, order one bracket for the Receiver and one for the Emitter.
          2. Refer to Mounting Brackets on E39-L/E39-S/E39-R on your OMRON website for details.
*1. Cannot be used for Standard Connector models with mounting surface on the bottom. In that case, use Pre-wired
      Connector models.
*2. Cannot be used for Standard Connector models.

Sensor I/O Connectors

(Models for Connectors and Pre-wired Connectors: A Connector is not provided with the Sensor. Be sure to order a Connector separately.)

Size Type Appearance Cable length Model
M12 Socket on one cable
end Smartclick connector
Straight *2 2 m XS5F-D421-D80-F
5 m XS5F-D421-G80-F
Smartclick connector
L-shape *2 *3 2 m XS5F-D422-D80-F
5 m XS5F-D422-G80-F
Socket and plug on
cable ends *1 Smartclick connector
Straight/
Straight *2 2 m XS5W-D421-D81-F
5 m XS5W-D421-G81-F
Smartclick connector
L-shape/L-shape *2 *3 2 m XS5W-D422-D81-F
5 m XS5W-D422-G81-F
M8 Socket on one cable
end Straight *3 2 m XS3F-M421-402-A
5 m XS3F-M421-405-A
L-shape *3 *4 2 m XS3F-M422-402-A
5 m XS3F-M422-405-A
M8 socket/
M12 plug Socket and plug on
cable ends M8-M12 (Smartclick)
conversion cable *2 0.2 m XS3W-M42C-4C2-A

Note:1. When using Through-beam models, order one connector for the Receiver and one for the Emitter.
          2. Refer to Sensor I/O Connectors/Sensor Controllers on your OMRON website for details.
*1. Straight type/L-shape type combinations are also available.
*2. The connectors will not rotate after they are connected.
*3. The cable is fixed at an angle of 180° from the sensor emitter/receiver surface.

last update: September 12, 2016

OMRON E3Z-[]-IL[] specification
E3Z-[]-IL[] IO-Link Photoelectric Sensor/Specifications
last update: September 12, 2016
IO-Link Model

Sensing method Through-beam Retro-reflective
with MSR function Diffuse-
reflective Narrow-beam
Models
Model PNP
output Pre-wired E3Z-T81-IL[] E3Z-R81-IL[] E3Z-D82-IL[] E3Z-L81-IL[]
Pre-wired
connector
(M12) E3Z-T81-
M1TJ-IL[] E3Z-R81-
M1TJ-IL[] E3Z-D82-
M1TJ-IL[] E3Z-L81-
M1TJ-IL[]
Connector
(M8) E3Z-T86-IL[] E3Z-R86-IL[] E3Z-D87-IL[] E3Z-L86-IL[]
Sensing distance 15 m 4 m (100 mm) *
(when using E39-R1S)
3 m (100 mm) *
(when using E39-R1) 1 m
(white paper:
300 × 300 mm) 90 + 30 mm
(white paper:
100 × 100 mm)
Spot diameter
(reference value) --- 2.5 dia. and sensing
distance of 90 mm
Standard sensing object Opaque: 12-mm
dia. min. Opaque: 75-mm
dia. min. ---
Minimum detectable
object (reference value) --- 0.1 mm
(copper wire)
Differential travel
(representative example) --- --- 20% max. of
setting distance Refer to
Engineering data
on Catalog.
Directional angle Both emitter and
receiver: 3 to 15° 2 to 10° ---
Light source (wavelength) Infrared LED
(870 nm) Red LED (660 nm) Infrared LED
(860 nm) Red LED (650 nm)
Power supply voltage 10 to 30 VDC (including 10% ripple (p-p))
Current consumption 50 mA max.
(Emitter:
25 mA max.,
Receiver:
25 mA max.) 30 mA max.
Control output Load power supply voltage: 30 VDC max., Load current: 100 mA max.
Residual voltage:
Load current of less than 10 mA: 1 V max.
Load current of 10 to 100 mA: 2 V max.
PNP open collector output
Light-ON/Dark-ON selectable
Indicators In the Standard I/O mode (SIO mode): Operation indicator (orange, lit) and stability indicator (green, lit)
In the IO-Link Mode: Operation indicator (orange, lit) and communication indicator (green, blinking at 1 s intervals)
Protection circuits Reversed power
supply polarity
protection, output
short-circuit
protection, and
reversed output
polarity protection Reversed power supply polarity protection, output short-circuit
protection, reversed output polarity protection, and mutual
interference prevention
Response time Operate or reset: 1 ms max.
Sensitivity adjustment Sensitivity adjuster / IO-Link communications
Ambient illumination
(Receiver side) Incandescent lamp: 3,000 lx max.
Sunlight: 10,000 lx max.
Ambient temperature range Operating: -25 to 55°C (with no icing or condensation)
Storage: -40 to 70°C (with no icing or condensation)
Ambient humidity range Operating: 35% to 85%, Storage: 35% to 95% (with no condensation)
Insulation resistance 20 MΩ min. at 500 VDC
Dielectric strength 1,000 VAC, 50/60 Hz for 1 min
Vibration resistance Destruction: 10 to 55 Hz, 1.5 mm double amplitude for 2 hours each in X, Y, and Z directions
Shock resistance Destruction: 500 m/s² 3 times each in X, Y, and Z directions
Degree of protection IEC 60529 IP67
Connection method Pre-wired cable (standard cable length 2 m), M12 pre-wired connector (standard cable length 0.3 m), M8 connector
Weight
(packed
state) Pre-wired cable (2 m) Approx. 120 g Approx. 65 g
Pre-wired connector
(M12) Approx. 60 g Approx. 30 g
Connector (M8) Approx. 30 g Approx. 20 g
Material Case Polybutylene terephthalate (PBT)
Display Modified polyarylate
Lens Modified polyarylate Methacrylate resin
(PMMA) Modified polyarylate
Main IO-Link functions Operation mode switching between Light ON and Dark ON, setup of the instability detection level for light receiving and non-light receiving, timer function of the control output and timer time selecting, instability output (IO-Link mode) ON delay timer time selecting, setup of a teaching level and execution of teaching, setup of light receiving sensitivity level, monitor output, operating hours read-out, and initial reset
Communication
specifications IO-Link
specification Ver 1.1
Baud rate IL3: COM3 (230.4 kbps), -IL2: COM2 (38.4 kbps)
Data length PD size: 2 bytes, OD size: 1 byte (M-sequence type: TYPE_2_2)
Minimum
cycle time IL3 (COM3): 1 ms, -IL2 (COM2): 2.3 ms
Accessories Instruction manual (Neither Reflectors nor Mounting Brackets are provided with any of the above models.)

* Values in parentheses indicate the minimum required distance between the Sensor and Reflector.

last update: September 12, 2016

OMRON E3Z-[]-IL[] catalog
E3Z-[]-IL[] IO-Link Photoelectric Sensor/Catalog

Catalog

Manual

CAD

English
Global Edition

For ordering in Singapore, please note some product models not sold in Singapore may be included in the following catalog(s) for our global customers.
*It is recommended to select “Save” from the right-click due to large size of catalog PDF data.

Catalog Name Catalog Number
[size] Last Update

IO-Link Series Catalog Y229-E1-02
[28505KB] Jul 17, 201820180717 IO-Link Series Catalog

NO. E3Z-[]-IL[]

TYPE:Photoelectric Sensors Built-in Amplifier Copyright Statement

DATE:2021-06-10

Associated products:
E3ZR-C Oil-resistant Photoelectric Sensors/Features E3S-DC Color Mark Photoelectric Sensor/Features

Sensing method	Appearance	Connection method	Sensing distance	IO-Link baud rate	Model
PNP
Through- beam (Emitter + Receiver) *3		Pre-wired (2 m)	15 m (Infrared light)	COM2 (38.4 kbps)	E3Z-T81-IL2 2M Emitter E3Z-T81-L-IL2 2M Receiver E3Z-T81-D-IL2 2M
Pre-wired M12 connector	E3Z-T81-M1TJ-IL2 0.3M Emitter E3Z-T81-L-M1TJ-IL2 0.3M Receiver E3Z-T81-D-M1TJ-IL2 0.3M
Standard M8 connector	E3Z-T86-IL2 Emitter E3Z-T86-L-IL2 Receiver E3Z-T86-D-IL2
Pre-wired (2 m)	COM3 (230.4 kbps)	E3Z-T81-IL3 2M Emitter E3Z-T81-L-IL3 2M Receiver E3Z-T81-D-IL3 2M
Pre-wired M12 connector	E3Z-T81-M1TJ-IL3 0.3M Emitter E3Z-T81-L-M1TJ-IL3 0.3M Receiver E3Z-T81-D-M1TJ-IL3 0.3M
Standard M8 connector	E3Z-T86-IL3 Emitter E3Z-T86-L-IL3 Receiver E3Z-T86-D-IL3
Retro- reflective with MSR function		Pre-wired (2 m)	4 m (100 mm) *2 (When using E39-R1S) (Red light)	COM2 (38.4 kbps)	E3Z-R81-IL2 2M
Pre-wired M12 connector	E3Z-R81-M1TJ-IL2 0.3M
Standard M8 connector	E3Z-R86-IL2
Pre-wired (2 m)	COM3 (230.4 kbps)	E3Z-R81-IL3 2M
Pre-wired M12 connector	E3Z-R81-M1TJ-IL3 0.3M
Standard M8 connector	E3Z-R86-IL3
Diffuse- reflective		Pre-wired (2 m)	1 m (Infrared light)	COM2 (38.4 kbps)	E3Z-D82-IL2 2M
Pre-wired M12 connector	E3Z-D82-M1TJ-IL2 0.3M
Standard M8 connector	E3Z-D87-IL2
Pre-wired (2 m)	COM3 (230.4 kbps)	E3Z-D82-IL3 2M
Pre-wired M12 connector	E3Z-D82-M1TJ-IL3 0.3M
Standard M8 connector	E3Z-D87-IL3
Pre-wired (2 m)	90 mm (narrow beam) (Red light)	COM2 (38.4 kbps)	E3Z-L81-IL2 2M
Pre-wired M12 connector	E3Z-L81-M1TJ-IL2 0.3M
Standard M8 connector	E3Z-L86-IL2
Pre-wired (2 m)	COM3 (230.4 kbps)	E3Z-L81-IL3 2M
Pre-wired M12 connector	E3Z-L81-M1TJ-IL3 0.3M
Standard M8 connector	E3Z-L86-IL3

Slit width	Sensing distance	Minimum detectable object (Reference value)	Model	Contents
E3Z-T[][]
0.5-mm dia.	50 mm	0.2-mm dia.	E39-S65A	One set (contains Slits for both the Emitter and Receiver)
1-mm dia.	200 mm	0.4-mm dia.	E39-S65B
2-mm dia.	800 mm	0.7-mm dia.	E39-S65C
0.5 × 10 mm	1 m	0.2-mm dia.	E39-S65D
1 × 10 mm	2.2 m	0.5-mm dia.	E39-S65E
2 × 10 mm	5 m	0.8-mm dia.	E39-S65F

Name	Sensing distance *	Model	Quantity	Remarks
E3Z-R
Rated value	Reference value
Reflector	3 m (100 mm)	---	E39-R1	1	• Reflectors are not provided with Retro-reflective models. • The MSR function of the E3Z-R[] is enabled.
4 m (100 mm)	---	E39-R1S	1
---	5 m (100 mm)	E39-R2	1
---	2.5 m (100 mm)	E39-R9	1
---	3.5 m(100 mm)	E39-R10	1
Fog Preventive Coating	---	3 m (100 mm)	E39-R1K	1
Small Reflector	---	1.5 m (50 mm)	E39-R3	1
Tape Reflector	---	700 mm (150 mm)	E39-RS1	1
---	1.1 m (150 mm)	E39-RS2	1
---	1.4 m (150 mm)	E39-RS3	1

Model (material)	Quantity	Remarks
E39-L153 (SUS304) *1	1	Mounting Brackets
E39-L104 (SUS304) *1	1
E39-L43 (SUS304) *2	1	Horizontal Mounting Brackets
E39-L142 (SUS304) *2	1	Horizontal Protective Cover Bracket
E39-L44 (SUS304)	1	Rear Mounting Bracket
E39-L98 (SUS304) *2	1	Metal Protective Cover Bracket
E39-L150 (SUS304)	1	(Sensor adjuster) Easily mounted to the aluminum frame rails of conveyors and easily adjusted. For left to right adjustment
E39-L151 (SUS304)	1
E39-L144 (SUS304) *2	1	Compact Protective Cover Bracket (For E3Z only)

Size	Type	Appearance	Cable length	Model
M12	Socket on one cable end	Smartclick connector Straight *2		2 m	XS5F-D421-D80-F
5 m	XS5F-D421-G80-F
Smartclick connector L-shape 2 3		2 m	XS5F-D422-D80-F
5 m	XS5F-D422-G80-F
Socket and plug on cable ends *1	Smartclick connector Straight/ Straight *2		2 m	XS5W-D421-D81-F
5 m	XS5W-D421-G81-F
Smartclick connector L-shape/L-shape 2 3		2 m	XS5W-D422-D81-F
5 m	XS5W-D422-G81-F
M8	Socket on one cable end	Straight *3		2 m	XS3F-M421-402-A
5 m	XS3F-M421-405-A
L-shape 3 4		2 m	XS3F-M422-402-A
5 m	XS3F-M422-405-A
M8 socket/ M12 plug	Socket and plug on cable ends	M8-M12 (Smartclick) conversion cable *2		0.2 m	XS3W-M42C-4C2-A

Sensing method	Through-beam	Retro-reflective with MSR function	Diffuse- reflective	Narrow-beam Models
Model	PNP output	Pre-wired	E3Z-T81-IL[]	E3Z-R81-IL[]	E3Z-D82-IL[]	E3Z-L81-IL[]
Pre-wired connector (M12)	E3Z-T81- M1TJ-IL[]	E3Z-R81- M1TJ-IL[]	E3Z-D82- M1TJ-IL[]	E3Z-L81- M1TJ-IL[]
Connector (M8)	E3Z-T86-IL[]	E3Z-R86-IL[]	E3Z-D87-IL[]	E3Z-L86-IL[]
Sensing distance	15 m	4 m (100 mm) * (when using E39-R1S) 3 m (100 mm) * (when using E39-R1)	1 m (white paper: 300 × 300 mm)	90 + 30 mm (white paper: 100 × 100 mm)
Spot diameter (reference value)	---	2.5 dia. and sensing distance of 90 mm
Standard sensing object	Opaque: 12-mm dia. min.	Opaque: 75-mm dia. min.	---
Minimum detectable object (reference value)	---	0.1 mm (copper wire)
Differential travel (representative example)	---	---	20% max. of setting distance	Refer to Engineering data on Catalog.
Directional angle	Both emitter and receiver: 3 to 15°	2 to 10°	---
Light source (wavelength)	Infrared LED (870 nm)	Red LED (660 nm)	Infrared LED (860 nm)	Red LED (650 nm)
Power supply voltage	10 to 30 VDC (including 10% ripple (p-p))
Current consumption	50 mA max. (Emitter: 25 mA max., Receiver: 25 mA max.)	30 mA max.
Control output	Load power supply voltage: 30 VDC max., Load current: 100 mA max. Residual voltage: Load current of less than 10 mA: 1 V max. Load current of 10 to 100 mA: 2 V max. PNP open collector output Light-ON/Dark-ON selectable
Indicators	In the Standard I/O mode (SIO mode): Operation indicator (orange, lit) and stability indicator (green, lit) In the IO-Link Mode: Operation indicator (orange, lit) and communication indicator (green, blinking at 1 s intervals)
Protection circuits	Reversed power supply polarity protection, output short-circuit protection, and reversed output polarity protection	Reversed power supply polarity protection, output short-circuit protection, reversed output polarity protection, and mutual interference prevention
Response time	Operate or reset: 1 ms max.
Sensitivity adjustment	Sensitivity adjuster / IO-Link communications
Ambient illumination (Receiver side)	Incandescent lamp: 3,000 lx max. Sunlight: 10,000 lx max.
Ambient temperature range	Operating: -25 to 55°C (with no icing or condensation) Storage: -40 to 70°C (with no icing or condensation)
Ambient humidity range	Operating: 35% to 85%, Storage: 35% to 95% (with no condensation)
Insulation resistance	20 MΩ min. at 500 VDC
Dielectric strength	1,000 VAC, 50/60 Hz for 1 min
Vibration resistance	Destruction: 10 to 55 Hz, 1.5 mm double amplitude for 2 hours each in X, Y, and Z directions
Shock resistance	Destruction: 500 m/s² 3 times each in X, Y, and Z directions
Degree of protection	IEC 60529 IP67
Connection method	Pre-wired cable (standard cable length 2 m), M12 pre-wired connector (standard cable length 0.3 m), M8 connector
Weight (packed state)	Pre-wired cable (2 m)	Approx. 120 g	Approx. 65 g
Pre-wired connector (M12)	Approx. 60 g	Approx. 30 g
Connector (M8)	Approx. 30 g	Approx. 20 g
Material	Case	Polybutylene terephthalate (PBT)
Display	Modified polyarylate
Lens	Modified polyarylate	Methacrylate resin (PMMA)	Modified polyarylate
Main IO-Link functions	Operation mode switching between Light ON and Dark ON, setup of the instability detection level for light receiving and non-light receiving, timer function of the control output and timer time selecting, instability output (IO-Link mode) ON delay timer time selecting, setup of a teaching level and execution of teaching, setup of light receiving sensitivity level, monitor output, operating hours read-out, and initial reset
Communication specifications	IO-Link specification	Ver 1.1
Baud rate	IL3: COM3 (230.4 kbps), -IL2: COM2 (38.4 kbps)
Data length	PD size: 2 bytes, OD size: 1 byte (M-sequence type: TYPE_2_2)
Minimum cycle time	IL3 (COM3): 1 ms, -IL2 (COM2): 2.3 ms
Accessories	Instruction manual (Neither Reflectors nor Mounting Brackets are provided with any of the above models.)

For ordering in Singapore, please note some product models not sold in Singapore may be included in the following catalog(s) for our global customers.
*It is recommended to select “Save” from the right-click due to large size of catalog PDF data.
Catalog Name	Catalog Number [size]	Last Update
IO-Link Series Catalog	Y229-E1-02 [28505KB]	Jul 17, 201820180717	IO-Link Series Catalog

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