OMRON E2E-[]-IL[]Sensors/ Proximity Sensors/Cylindrical
OMRON E2E-[]-IL[] Sensors
OMRON E2E-[]-IL[] Dimensions
/Images/l_3543-25-262129-198x198.jpglast 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.
Standard Sensor for detecting ferrous metals.
[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
![E2E-[]-IL[] Features 5](/Images/3543_fe_125-263746.jpg)
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.
![E2E-[]-IL[] Features 6](/Images/3543_fe_225-263745.jpg)
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.
![E2E-[]-IL[] Features 8](/Images/3543_fe_3-25-263744-332x334.jpg)
[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...
![E2E-[]-IL[] Features 10](/Images/3543_fe_425-263743.jpg)
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.
![E2E-[]-IL[] Features 12](/Images/3543_fe_5-25-263742-332x312.jpg)
[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...
![E2E-[]-IL[] Features 14](/Images/3543_fe_625-263740.jpg)
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.
![E2E-[]-IL[] Features 16](/Images/3543_fe_7-25-263739-332x262.jpg)
[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
![E2E-[]-IL[] Features 17](/Images/3543_fe_825-263738.jpg)
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...
![E2E-[]-IL[] Features 18](/Images/3543_fe_925-263737.jpg)
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.
![E2E-[]-IL[] Features 20](/Images/3543_fe_10-25-263736-332x159.jpg)
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.
![E2E-[]-IL[] Features 21](/Images/3543_fe_1125-263735.jpg)
[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
![E2E-[]-IL[] Features 22](/Images/3543_fe_1625-285171.jpg)
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...
![E2E-[]-IL[] Features 23](/Images/3543_fe_1225-263734.jpg)
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.
![E2E-[]-IL[] Features 25](/Images/3543_fe_13-25-263747-332x260.jpg)
[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.
![E2E-[]-IL[] Features 26](/Images/3543_fe_14-25-285156-332x376.jpg)
![E2E-[]-IL[] Features 27](/Images/3543_fe_15-25-285157-332x367.jpg)
last update: July 17, 2018
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OMRON E2E-[]-IL[] dimension
E2E-[]-IL[] IO-Link Proximity Sensor (Standard Models)/Dimensionslast update: October 2, 2017
(Unit: mm)
Pre-wired Models
E2E-X3B4-IL[]
![E2E-[]-IL[] Dimensions 2](/images/8767/3543_dm_125-261951.gif)
*1. 4-dia. vinyl-insulated round cable with 3 conductors
(Conductor cross section: 0.3 mm2, Insulator diameter: 1.3 mm), Standard length: 2 m
*2. Operation indicator (orange), stability indicator/communication indicator (green)
E2E-X7B4-IL[]
![E2E-[]-IL[] Dimensions 3](/images/8767/3543_dm_225-261952.gif)
*1. 6-dia. vinyl-insulated round cable with 3 conductors
(Conductor cross section: 0.5 mm2, Insulator diameter: 1.9 mm), Standard length: 2 m
*2. Operation indicator (orange), stability indicator/communication indicator (green)
E2E-X10B4-IL[]
![E2E-[]-IL[] Dimensions 4](/images/8767/3543_dm_325-261953.gif)
*1. 6-dia. vinyl-insulated round cable with 3 conductors
(Conductor cross section: 0.5 mm2, Insulator diameter: 1.9 mm), Standard length: 2 m
*2. Operation indicator (orange), stability indicator/communication indicator (green)
Pre-wired Connector Models
E2E-X3B4-M1TJ-IL[]
![E2E-[]-IL[] Dimensions 6](/images/8767/3543_dm_425-261954.gif)
*1. 4-dia. vinyl-insulated round cable Standard length: 0.3 m
*2. Operation indicator (orange), stability indicator/communication indicator (green)
E2E-X7B4-M1TJ-IL[]
![E2E-[]-IL[] Dimensions 7](/images/8767/3543_dm_525-261955.gif)
*1. 6-dia. vinyl-insulated round cable Standard length: 0.3 m
*2. Operation indicator (orange), stability indicator/communication indicator (green)
E2E-X10B4-M1TJ-IL[]
![E2E-[]-IL[] Dimensions 8](/images/8767/3543_dm_625-261943.gif)
*1. 6-dia. vinyl-insulated round cable Standard length: 0.3 m
*2. Operation indicator (orange), stability indicator/communication indicator (green)
Mounting Hole Dimensions
![E2E-[]-IL[] Dimensions 9](/images/8767/3543_dm_725-261944.gif)
last update: October 2, 2017
OMRON E2E-[]-IL[] lineup
E2E-[]-IL[] IO-Link Proximity Sensor (Standard Models)/Lineuplast update: September 12, 2016
Sensors
DC 3-wire IO-Link Models
| Appearance | Sensing distance | Connection method | Pin arrangement | IO-Link baud rate | Model | |
|---|---|---|---|---|---|---|
| PNP | ||||||
Shielded | M12 | 3 mm | Pre-wired Models (2 m) | -- | COM2 (38.4 kbps) | E2E-X3B4-IL2 2M |
| COM3 (230.4 kbps) | E2E-X3B4-IL3 2M | |||||
| M12 Pre-wired Smartclick Connector Models (0.3 m) | 1: +V 3: 0 V 4: C/Q output | COM2 (38.4 kbps) | E2E-X3B4-M1TJ-IL2 0.3M | |||
| COM3 (230.4 kbps) | E2E-X3B4-M1TJ-IL3 0.3M | |||||
| M18 | 7 mm | Pre-wired Models (2 m) | -- | COM2 (38.4 kbps) | E2E-X7B4-IL2 2M | |
| COM3 (230.4 kbps) | E2E-X7B4-IL3 2M | |||||
| M12 Pre-wired Smartclick Connector Models (0.3 m) | 1: +V 3: 0 V 4: C/Q output | COM2 (38.4 kbps) | E2E-X7B4-M1TJ-IL2 0.3M | |||
| COM3 (230.4 kbps) | E2E-X7B4-M1TJ-IL3 0.3M | |||||
| M30 | 10 mm | Pre-wired Models (2 m) | -- | COM2 (38.4 kbps) | E2E-X10B4-IL2 2M | |
| COM3 (230.4 kbps) | E2E-X10B4-IL3 2M | |||||
| M12 Pre-wired Smartclick Connector Models (0.3 m) | 1: +V 3: 0 V 4: C/Q output | COM2 (38.4 kbps) | E2E-X10B4-M1TJ-IL2 0.3M | |||
| COM3 (230.4 kbps) | E2E-X10B4-M1TJ-IL3 0.3M | |||||
Note: Please contact your OMRON sales representative regarding the IO-Link setup file (IODD file).
Accessories (Sold Separately)
Sensor I/O Connectors
(Models with Pre-wired Connectors: A Connector is not provided with the Sensor. Be sure to order a Connector separately.)
| Type | Appearance | Cable length | Sensor I/O Connector model number | Applicable Proximity Sensor model number |
|---|---|---|---|---|
| Socket on one cable end | Straight | 2 m | XS5F-D421-D80-F | E2E-X[]B4-M1TJ-IL[] |
| 5 m | XS5F-D421-G80-F | |||
L-shape | 2 m | XS5F-D422-D80-F | ||
| 5 m | XS5F-D422-G80-F | |||
| Socket and plug on cable ends * | Straight/straight | 2 m | XS5W-D421-D81-F | |
| 5 m | XS5W-D421-G81-F | |||
L-shape/L-shape | 2 m | XS5W-D422-D81-F | ||
| 5 m | XS5W-D422-G81-F |
Note: Refer to Sensor I/O Connector/Sensor Controller for details.
* There are also straight type/L-shape type combinations available.
last update: September 12, 2016
OMRON E2E-[]-IL[] catalog
E2E-[]-IL[] IO-Link Proximity Sensor (Standard Models)/Catalog- Catalog
- Manual
- CAD
English
Global Edition
| Catalog Name | Catalog Number [size] | Last Update | |
|---|---|---|---|
 IO-Link Series Catalog | Y229-E1-02 [28505KB] | Jul 17, 201820180717 | IO-Link Series Catalog |
OMRON E2E-[]-IL[] specification
E2E-[]-IL[] IO-Link Proximity Sensor (Standard Models)/Specificationslast update: September 12, 2016
DC 3-wire IO-Link Models (E2E-X[]B4-IL[])
| Item | Size | M12 | M18 | M30 |
|---|---|---|---|---|
| Shielded | Shielded | |||
| Model | E2E-X3B4-IL[] | E2E-X7B4-IL[] | E2E-X10B4-IL[] | |
| Sensing distance | 3 mm ±10% | 7 mm ±10% | 10 mm ±10% | |
| Set distance *1 | 0 to 2.4 mm | 0 to 5.6 mm | 0 to 8 mm | |
| Differential travel | 10% max. of sensing distance | |||
| Detectable object | Ferrous metal (The sensing distance decreases with non-ferrous metal. Refer to Engineering Data on Catalog.) | |||
| Standard sensing object | Iron, 12 × 12 × 1 mm | Iron, 18 × 18 × 1 mm | Iron, 30 × 30 × 1 mm | |
| Response frequency *2 | 1 kHz | 0.5 kHz | 0.4 kHz | |
| Power supply voltage | 10 to 30 VDC (including 10% ripple (p-p)) | |||
| Current consumption | 20 mA max. | |||
| Control output | Load current | 100 mA max. | ||
| Residual voltage | 2 V max. (Load current: 100 mA, Cable length: 2 m) | |||
| Indicators *1 | 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) | |||
| Operation mode | PNP NO/NC switching type (Factory setting: NO) Refer to the timing charts under I/O Circuit Diagrams on Catalog for details. | |||
| Protection circuits | Power supply reverse polarity protection, output reverse polarity protection, surge suppressor, and output short-circuit protection | |||
| Ambient temperature range | Operating/Storage: -25 to 70°C (with no icing or condensation) | |||
| Ambient humidity range | Operating/Storage: 35% to 95% (with no condensation) | |||
| Temperature influence | ±10% max. of sensing distance at 23°C in the temperature range of -25 to 70°C | |||
| Voltage influence | ±1% max. of sensing distance at rated voltage in the rated voltage ±15% range | |||
| Insulation resistance | 50 MΩ min. (at 500 VDC) between current-carrying parts and case | |||
| Dielectric strength | 1,000 VAC, 50/60 Hz for 1 minute between current-carrying parts and case | |||
| 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: 1,000 m/s2 10 times each in X, Y, and Z directions | |||
| Degree of protection | IEC 60529 IP67, in-house standards: oil-resistant *3 | |||
| Connection method | Pre-wired Models (Standard cable length: 2 m), Pre-wired Connector Models (Standard cable length: 0.3 m) | |||
| Materials | Case | Nickel-plated brass | ||
| Sensing surface | PBT | |||
| Clamping nuts | Nickel-plated brass | |||
| Toothed washer | Zinc-plated iron | |||
| Main IO-Link functions | Operation mode switching between NO and NC, self diagnosis enabling, excessive proximity judgment distance selecting, timer function of the control output and timer time selecting, instability output (IO-Link mode) ON delay timer time selecting function, 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 | |||
Note: Please contact your OMRON sales representative regarding the IO-Link setup file (IODD file).
*1. In the Standard I/O mode (SIO mode), use the product in a range that the green stability indication lamp is lit. (Although the lamp is turned off when the object detected has approached excessively, the detection performance is stable.)
In the IO-Link mode, use the product in a range that the Byte1_bit4 for instability detection is zero. (Although the Byte1_bit5 for excessive proximity detection is one if the object detected has approached excessively, the detection performance is stable.) Please contact your OMRON sales representative regarding assignment of data.
*2. The response frequency is an average value. Measurement conditions are as follows: standard sensing object, a distance of twice the standard sensing object, and a set distance of half the sensing distance.
*3. Oil resistance in-house standard: Performance with respect to water insoluble oil.
(Test at below)
Oil resistance test
After the test time elapses, the characteristics below are checked for problems.
(1) Visual appearance (no damage that affects product characteristics)
(2) Operation check (ON/OFF) (3) Insulation resistance (50 MΩ min. at 500 VDC)
(4) Dielectric strength (500 VAC, 1 min.)
(5) Water resistance (IP67)
![E2E-[]-IL[] Specifications 3](/images/8767/3543_sp_225-261950.gif)
last update: September 12, 2016
- NO. E2E-[]-IL[]
- TYPE:Proximity Sensors Cylindrical
Copyright Statement - DATE:2021-06-09
- Associated products:
E2ER / E2ERZ Oil-resistant Proximity Sensors/Features E2EQ-[]-IL[] IO-Link Proximity Sensor (Spatter-resistant Models)/Features