E2E-X3D1N 2M

Inductive Proximity Sensor, Cylindrical, E2E Series, M12, 3 mm, NO, 10 V to 30 V, Connector

⚠️ Reference pricing provided. In case of supply shortages, we will connect you with our trusted procurement partners to ensure your project's continuity.
Manufacturer: OMRON INDUSTRIAL AUTOMATION
Product type: Inductive Proximity Sensors
Sensing Range Max:3mm; Thread Size - Metric:M12; Sensor Output:SPST-NO; Supply Voltage DC Min:10V; Supply Voltage DC Max:30V; Product; Available until stocks are exhausted Alternative available
SVHC: No SVHC (17-Dec-2014)
IP Rating: IP67
Sensor Type: Inductive Proximity Sensor
Product Range: E2E Series
Sensor Terminals: Cable
Sensing Range Max: 3mm
Sensor Output Type: 2-Wire, NO
Supply Voltage Max: 24VDC
Supply Voltage Min: 12VDC
Sensing Distance Max: -
Sensing Distance Min: -
Sensing Distance Nom: 3mm
Sensor Body Material: 303 Stainless Steel
Thread Size - Metric: M12
Sensor Case / Package: Cylindrical M12 Thread
Supply Voltage DC Max: 30V
Supply Voltage DC Min: 10V
Operating Temperature Max: 70°C
Operating Temperature Min: -25°C
Delivery and price
Units per pack	5
Price	73.01 €
Current stock	10+
Lead time	30 days
Datasheet
ee **Cylindrical Proximity Sensor** eee **E2E/E2E2** 

## **A New Series of Easy-to-use and Tough E2E/E2E2 Models** 

## **Long-size E2E2 Proximity Sensor Conforms to CENELEC** 

Ideal for a variety of applications. 

   - With a metal connector that can be tightened securely and a cord protector. 

   - With an easy-to-see indicator, deeper mounting holes, and tightening flats for wrenches. 

   - The new series of E2E models includes M8 plug-in connector models. 

- **Note:** Detailed information is available for the replacement of conventional E2E models with new E2E models. Ask your OMRON representative for a copy of OMRON’s E2E/E2E2 Conversion Guide. 

## ~~Ordering Information~~ 

**E2E** 

**DC 2-wire/Pre-wired Models Self-diagnostic Type Size Sensing Part number output function distance NO NC** ~~a~~ Yes Shielded M12 3 mm E2E-X3D1S (see note 1) --M18 7 mm E2E-X7D1S (see note 1) --M30 10 mm E2E-X10D1S (see note 1) --Unshielded M12 8 mm E2E-X8MD1S (see note 1) --M18 14 mm E2E-X14MD1S (see note 1) --- ~~===~~ M30 20 mm E2E-X20MD1S (see note 1) --No ~~———————~~ Shielded M8 2 mm E2E-X2D1-N (see notes 1 and 2) E2E-X2D2-N M12 3 mm E2E-X3D1-N (see notes 1 and 2) E2E-X3D2-N M18 7 mm E2E-X7D1-N (see notes 1 and 2) E2E-X7D2-N M30 10 mm E2E-X10D1-N (see notes 1 and 2) E2E-X10D2-N Unshielded M8 4 mm E2E-X4MD1 (see notes 1 and 2) E2E-X4MD2 M12 8 mm E2E-X8MD1 (see notes 1 and 2) E2E-X8MD2 M18 14 mm E2E-X14MD1 (see notes 1 and 2) E2E-X14MD2 ~~po~~ M30 20 mm E2E-X20MD1 (see notes 1 and 2) E2E-X20MD2 **Note:** 1. In addition to the above models, E2E-X ~~SSS~~ 15 models (e.g., E2E-X3D15-N), which are different in frequency from the above models, are available. 2. E2E models with a robotics cable are available as well. The model number of a model with a robotics cable has the suffix “-R” (e.g., E2E-X3D1-R). 

1 

~~**E2E/E2E2**~~ 

~~**E2E/E2E2**~~ 

## **DC 2-wire/Plug-in Models** 

|**Connector**|**Self-diagnostic**<br>**t**<br>**t f**<br>**ti**<br>**ou pu**<br>**unc on**|**Type**|**Size**|**Sensing**<br>**di t**<br>**s ance**|**Part number**|**Part number**|
|---|---|---|---|---|---|---|
||||||**NO**|**NC**|
|M12|Yes|Shielded|M12|3 mm|E2E-X3D1S-M1|---|
||||M18|7 mm|E2E-X7D1S-M1|---|
||||M30|10 mm|E2E-X10D1S-M1|---|
|||Unshielded|M12|8 mm|E2E-X8MD1S-M1|---|
||||M18|14 mm|E2E-X14MD1S-M1|---|
||||M30|20 mm|E2E-X20MD1S-M1|---|
||No|Shielded|M8|2 mm|E2E-X2D1-M1G|E2E-X2D2-M1G|
||||M12|3 mm|E2E-X3D1-M1G(see note)|E2E-X3D2-M1G|
||||M18|7 mm|E2E-X7D1-M1G(see note)|E2E-X7D2-M1G|
||||M30|10 mm|E2E-X10D1-M1G(see note)|E2E-X10D2-M1G|
|||Unshielded|M8|4 mm|E2E-X4MD1-M1G|E2E-X4MD2-M1G|
||||M12|8 mm|E2E-X8MD1-M1G(see note)|E2E-X8MD2-M1G|
||||M18|14 mm|E2E-X14MD1-M1G(see note)|E2E-X14MD2-M1G|
||||M30|20 mm|E2E-X20MD1-M1G(see note)|E2E-X20MD2-M1G|
|M8||Shielded|M8|2 mm|E2E-X2D1-M3G|E2E-X2D2-M3G|
|||Unshielded||4 mm|E2E-X3D1-M3G|E2E-X3D2-M3G|
|**Note:**<br>In addition to the above models, E2E-X�D15��-M1G models (<br>abovemodels, are available|||||e.g., E2E-X3D15-M1G), which are different in frequency from the||



## **DC 2-wire/Connector Extension Models** 

|**Type**|**Size**|**Sensing distance**|**Output configuration**|**Polarity**|**Part number**|
|---|---|---|---|---|---|
|**S**hi**e**l**ded**|M12|3 mm|NO|Yes|E2E-X3D1-M1GJ|
|||||No|E2E-X3D1-M1J-T|
||M18|7 mm||Yes|E2E-X7D1-M1GJ|
|||||No|E2E-X7D1-M1J-T|
||M30|10 mm||Yes|E2E-X10D1-M1GJ|
|||||No|E2E-X10D1-M1J-T|
|**U**n**s**hi**e**l**ded**|M12|8 mm||Yes|E2E-X8MD1-M1GJ|
||M18|14 mm|||E2E-X14MD1-M1GJ|
||M30|20 mm|||E2E-X20MD1-M1GJ|



**Note:** 1. A model with no polarity has a residual voltage of 5 V, which must be taken into consideration together with the interface condition (the PC’s ON voltage, for example) when connecting the Proximity Sensor to a load. 

2. The standard cord length is 30 cm. 50-cm and 1-m models are also available. 

## **Connector Pin Assignments of DC 2-wire Model** 

The connector pin assignments of each new E2E DC 2-wire conforms to IEC947-5-2 Table III. 

The following E2E models with conventional connector pin assignments are available as well. 

|**Type**|**Size**|**Output**<br>**configuration**|**Part number**|**Sensing head**|**Sensing head**|**Output**<br>**configuration**|**Part number**|
|---|---|---|---|---|---|---|---|
|Shielded|M8|NO|E2E-X2D1-M1|Unshielded|M8|NO|E2E-X4MD1-M1|
|||NC|E2E-X2D2-M1|||NC|E2E-X4MD2-M1|
||M12|NO|E2E-X3D1-M1||M12|NO|E2E-X8MD1-M1|
|||NC|E2E-X3D2-M1|||NC|E2E-X8MD2-M1|
||M18|NO|E2E-X7D1-M1||M18|NO|E2E-X14MD1-M1|
|||NC|E2E-X7D2-M1|||NC|E2E-X14MD2-M1|
||M30|NO|E2E-X10D1-M1||M30|NO|E2E-X20MD1-M1|
|||NC|E2E-X10D2-M1|||NC|E2E-X20MD2-M1|



2 

~~**E2E/E2E2**~~ 

~~**E2E/E2E2**~~ 

## **DC 3-wire/Pre-wired Models** 

|**Type**|**Size**|**Sensing**<br>**distance**|**Output**<br>**configuration**|**Part number**||**Type**|**Size**|**Sensing**<br>**distance**|**Output**<br>**configuration**|**Part number**|
|---|---|---|---|---|---|---|---|---|---|---|
|Shielded|4 dia.*|0.8 mm|NPN NO|E2E-CR8C1<br>(see note 2)||Un-<br>shielded|M30|18 mm|NPN NO|E2E-X18ME1<br>(see notes 1 and 2)|
||||NPN NC|E2E-CR8C2|||||NPN NC|E2E-X18ME2|
||||PNP NO|E2E-CR8B1|||||PNP NO|E2E-X18MF1<br>(see note 2)|
||M5*|1 mm|NPN NO|E2E-X1C1<br>(see note 2)|||||||
||||||||||PNP NC|E2E-X18MF2|
||||NPN NC|E2E-X1C2||**Note:**<br>1. In addition to the above models, E2E-X�E15 models<br>(e.g.,E2E-X5E15), which are different in frequency from<br>theabove models, are available.<br>2. E2E DC 3-wire with a robotics cable are available as<br>well.The model number of a model with a robotics cable<br>hasthe suffix “-R” (e.g., E2E-X5E1-R).<br>3. Those marked with “*” are not subject to any design<br>changeand are the same as the conventional models.<br>**AC 2-wire/Pre-wired Models**|||||
||||PNP NO|E2E-X1B1|||||||
||5.4 dia.<br>*|1 mm|NPN NO|E2E-C1C1<br>(see note 2)|||||||
||||NPN NC|E2E-C1C2|||||||
||||PNP NO|E2E-C1B1|||||||
||M8|1.5 mm|NPN NO|E2E-X1R5E1<br>(see note 2)|||||||
||||NPN NC|E2E-X1R5E2|||||||
||||PNP NO|E2E-X1R5F1<br>(see note 2)||**Type**|**Size**|**Sensing**<br>**distance**|**Output**<br>**configuration**|**Part number**|
||||PNP NC|E2E-X1R5F2||Shielded|M8|1.5 mm|NO|E2E-X1R5Y1|
||M12|2 mm|NPN NO|E2E-X2E1<br>(see notes 1 and 2)|||||NC|E2E-X1R5Y2|
||||||||M12|2 mm|NO|E2E-X2Y1<br>(see note)|
||||NPN NC|E2E-X2E2|||||||
||||PNP NO|E2E-X2F1<br>(see note 2)|||||NC|E2E-X2Y2<br>(see note)|
||||PNP NC|E2E-X2F2|||M18|5 mm|NO|E2E-X5Y1<br>(see note)|
||M18|5 mm|NPN NO|E2E-X5E1<br>(see notes 1 and 2)|||||||
||||||||||NC|E2E-X5Y2<br>(see note)|
||||NPN NC|E2E-X5E2|||||||
||||||||M30|10 mm|NO|E2E-X10Y1<br>(see note)|
||||PNP NO|E2E-X5F1<br>(see note 2)|||||||
||||||||||NC|E2E-X10Y2<br>(see note)|
||||PNP NC|E2E-X5F2|||||||
||M30|10 mm|NPN NO|E2E-X10E1<br>(see notes 1 and 2)||**U**n-<br>**hi** **ld** **d**<br>s e e|M8|2 mm|NO|E2E-X2MY1|
||||||||||NC|E2E-X2MY2|
||||NPN NC|E2E-X10E2|||||||
||||||||M12|5 mm|NO|E2E-X5MY1<br>(see note)|
||||PNP NO|E2E-X10F1<br>(see note 2)|||||||
||||||||||NC|E2E-X5MY2<br>(see note)|
||||PNP NC|E2E-X10F2|||||||
|Un-<br>shielded|M8|2 mm|NPN NO|E2E-X2ME1<br>(see note 2)|||M18|10 mm|NO|E2E-X10MY1<br>(see note)|
||||NPN NC|E2E-X2ME2|||||NC|E2E-X10MY2<br>(see note)|
||||PNP NO|E2E-X2MF1<br>(see note 2)|||||||
||||||||M30|18 mm|NO|E2E-X18MY1<br>(see note)|
||||PNP NC|E2E-X2MF2|||||||
||M12|5 mm|NPN NO|E2E-X5ME1<br>(see notes 1 and 2)|||||NC|E2E-X18MY2<br>(see note)|
||||NPN NC|<br>E2E-X5ME2||**Note:**<br>Inaddition to the above models,E2E-X�Y15 models (e.g.,<br>E2E-X5Y15), which are different in frequency from the<br>abovemodels, are available.|||||
||||PNP NO|E2E-X5MF1<br>(see note 2)|||||||
||||PNP NC|E2E-X5MF2|||||||
||M18|10 mm|NPN NO|E2E-X10ME1<br>(see notes 1 and 2)|||||||
||||NPN NC|E2E-X10ME2|||||||
||||PNP NO|E2E-X10MF1<br>(see note 2)|||||||
||||PNP NC|E2E-X10MF2|||||||



3 

~~**E2E/E2E2**~~ 

~~**E2E/E2E2**~~ 

## **DC 3-wire/Plug-in Models** 

|**Connector**|**Type**|**Size**|**Sensing**<br>**distance**|**Output**<br>**configuration**|**Part number**|
|---|---|---|---|---|---|
|M12|Shielded|M8|1.5 mm|NPN NO|E2E-X1R5E1-M1|
|||||NPN NC|E2E-X1R5E2-M1|
|||||PNP NO|E2E-X1R5F1-M1|
|||||PNP NC|E2E-X1R5F2-M1|
|||M12|2 mm|NPN NO|E2E-X2E1-M1|
|||||NPN NC|E2E-X2E2-M1|
|||||PNP NO|E2E-X2F1-M1|
|||||PNP NC|E2E-X2F2-M1|
|||M18|5 mm|NPN NO|E2E-X5E1-M1|
|||||NPN NC|E2E-X5E2-M1|
|||||PNP NO|E2E-X5F1-M1|
|||||PNP NC|E2E-X5F2-M1|
|||M30|10 mm|NPN NO|E2E-X10E1-M1|
|||||NPN NC|E2E-X10E2-M1|
|||||PNP NO|E2E-X10F1-M1|
|||||PNP NC|E2E-X10F2-M1|
||**Un**-<br>**hi** **ld** **d**<br>s e e|M8|2 mm|NPN NO|E2E-X2ME1-M1|
|||||NPN NC|E2E-X2ME2-M1|
|||||PNP NO|E2E-X2MF1-M1|
|||||PNP NC|E2E-X2MF2-M1|
|||M12|5 mm|NPN NO|E2E-X5ME1-M1|
|||||NPN NC|E2E-X5ME2-M1|
|||||PNP NO|E2E-X5MF1-M1|
|||||PNP NC|E2E-X5MF2-M1|
|||M18|10 mm|NPN NO|E2E-X10ME1-M1|
|||||NPN NC|E2E-X10ME2-M1|
|||||PNP NO|E2E-X10MF1-M1|
|||||PNP NC|E2E-X10MF2-M1|
|||M30|18 mm|NPN NO|E2E-X18ME1-M1|
|||||NPN NC|E2E-X18ME2-M1|
|||||PNP NO|E2E-X18MF1-M1|
|||||PNP NC|E2E-X18MF2-M1|
|**M8 (see**<br>**t**<br>**2)**<br>no e|Shielded|M8|1.5 mm|NPN NO|E2E-X1R5E1-M3|
|||||NPN NC|E2E-X1R5E2-M3|
|||||PNP NO|E2E-X1R5F1-M3|
|||||PNP NC|E2E-X1R5F2-M3|
||**Un**-<br>**hi** **ld** **d**<br>s e e|M8|2 mm|NPN NO|E2E-X2ME1-M3|
|||||NPN NC|E2E-X2ME2-M3|
|||||PNP NO|E2E-X2MF1-M3|
|||||PNP NC|E2E-X2MF2-M3|



## **AC 2-wire/Plug-in Models** 

|**Type**|**Size**|**Sensing**<br>**distance**|**Output**<br>**configuration**|**Part number**|
|---|---|---|---|---|
|Shielded|M12|2 mm|NO|E2E-X2Y1-M1|
||||NC|E2E-X2Y2-M1|
||M18|5 mm|NO|E2E-X5Y1-M1|
||||NC|E2E-X5Y2-M1|
||M30|10 mm|NO|E2E-X10Y1-M1|
||||NC|E2E-X10Y2-M1|
|**U**n-<br>**hi** **ld** **d**<br>s e e|M12|5 mm|NO|E2E-X5MY1-M1|
||||NC|E2E-X5MY2-M1|
||M18|10 mm|NO|E2E-X10MY1-M1|
||||NC|E2E-X10MY2-M1|
||M30|18 mm|NO|E2E-X18MY1-M1|
||||NC|E2E-X18MY2-M1|



**Note:** The material has been changed from plastic, “-P1,” to metal, “-M1.” **AC/DC 2-wire Models** 

|**Type**|**Size**|**Sensing**<br>**distance**|**Output**<br>**configuration**|**Part number**|
|---|---|---|---|---|
|Shielded|M12|3 mm|NO|E2E-X3T1|
||M18|7 mm||E2E-X7T1|
||M30|10 mm||E2E-X10T1|



**Note:** The last two characters, “-1,” are omitted from the model names. 

**Note:** 1. The material has been changed from plastic, “-P1,” to metal, “-M1.” 

2. New addition to the product line-up. 

4 

~~**E2E/E2E2**~~ 

~~**E2E/E2E2**~~ 

## **E2E2** 

## **DC 2-wire Models** 

|**E2E2**<br>**DC 2-wire Models**|||||
|---|---|---|---|---|
|**Type**|**Size**|**Sensing distance**|**Output configuration**|**Part number**|
|**S**hi**e**l**ded**|M12|3 mm|NO(see note)|E2E2-X3D1|
||||NC|E2E2-X3D2|
||M18|7 mm|NO(see note)|E2E2-X7D1|
||||NC|E2E2-X7D2|
||M30|10 mm|NO(see note)|E2E2-X10D1|
||||NC|E2E2-X10D2|
|**U**n**s**hi**e**l**ded**|M12|8 mm|NO(see note)|E2E2-X8MD1|
||||NC|E2E2-X8MD2|
||M18|14 mm|NO(see note)|E2E2-X14MD1|
||||NC|E2E2-X14MD2|
||M30|20 mm|NO(see note)|E2E2-X20MD1|
||||NC|E2E2-X20MD2|



**Note:** In addition to the above models, E2E-X � D15 models (e.g., E2E-X3D15), which are different in frequency from the above models, are available. 

## **DC 3-wire/Pre-wired Models** 

|**Type**|**Size**|**Sensing distance**|**Output configuration**|**Part number**|
|---|---|---|---|---|
|**S**hi**e**l**ded**|M12|2 mm|NPN NO|E2E2-X2C1|
||||NPN NC|E2E2-X2C2|
||||PNP NO|E2E2-X2B1|
||||PNP NC|E2E2-X2B2|
||M18|5 mm|NPN NO|E2E2-X5C1|
||||NPN NC|E2E2-X5C2|
||||PNP NO|E2E2-X5B1|
||||PNP NC|E2E2-X5B2|
||M30|10 mm|NPN NO|E2E2-X10C1|
||||NPN NC|E2E2-X10C2|
||||PNP NO|E2E2-X10B1|
||||PNP NC|E2E2-X10B2|
|**U**n**s**hi**e**l**ded**|M12|5 mm|NPN NO|E2E2-X5MC1|
||||NPN NC|E2E2-X5MC2|
||||PNP NO|E2E2-X5MB1|
||||PNP NC|E2E2-X5MB2|
||M18|10 mm|NPN NO|E2E2-X10MC1|
||||NPN NC|E2E2-X10MC2|
||||PNP NO|E2E2-X10MB1|
||||PNP NC|E2E2-X10MB2|
||M30|18 mm|NPN NO|E2E2-X18MC1|
||||NPN NC|E2E2-X18MC2|
||||PNP NO|E2E2-X18MB1|
||||PNP NC|E2E2-X18MB2|



5 

~~**E2E/E2E2**~~ 

~~**E2E/E2E2**~~ 

## **DC 3-wire/Connector Models** 

|**Type**|**Size**|**Sensing distance**|**Output configuration**|**Part number**|
|---|---|---|---|---|
|**S**hi**e**l**ded**|M12|2 mm|NPN NO|E2E2-X2C1-M1|
||||NPN NC|E2E2-X2C2-M1|
||||PNP NO|E2E2-X2B1-M1|
||||PNP NC|E2E2-X2B2-M1|
||M18|5 mm|NPN NO|E2E2-X5C1-M1|
||||NPN NC|E2E2-X5C2-M1|
||||PNP NO|E2E2-X5B1-M1|
||||PNP NC|E2E2-X5B2-M1|
||M30|10 mm|NPN NO|E2E2-X10C1-M1|
||||NPN NC|E2E2-X10C2-M1|
||||PNP NO|E2E2-X10B1-M1|
||||PNP NC|E2E2-X10B2-M1|
|**U**n**s**hi**e**l**ded**|M12|5 mm|NPN NO|E2E2-X5MC1-M1|
||||NPN NC|E2E2-X5MC2-M1|
||||PNP NO|E2E2-X5MB1-M1|
||||PNP NC|E2E2-X5MB2-M1|
||M18|10 mm|NPN NO|E2E2-X10MC1-M1|
||||NPN NC|E2E2-X10MC2-M1|
||||PNP NO|E2E2-X10MB1-M1|
||||PNP NC|E2E2-X10MB2-M1|
||M30|18 mm|NPN NO|E2E2-X18MC1-M1|
||||NPN NC|E2E2-X18MC2-M1|
||||PNP NO|E2E2-X18MB1-M1|
||||PNP NC|E2E2-X18MB2-M1|



## **AC 2-wire/Pre-wired Models** 

|**Type**|**Size**|**Sensing distance**|**Output configuration**|**Part number**|
|---|---|---|---|---|
|**S**hi**e**l**ded**|M12|2 mm|NO|E2E2-X2Y1|
||||NC|E2E2-X2Y2|
||M18|5 mm|NO|E2E2-X5Y1|
||||NC|E2E2-X5Y2|
||M30|10 mm|NO|E2E2-X10Y1|
||||NC|E2E2-X10Y2|
|**U**n**s**hi**e**l**ded**|M12|5 mm|NO|E2E2-X5MY1|
||||NC|E2E2-X5MY2|
||M18|10 mm|NO|E2E2-X10MY1|
||||NC|E2E2-X10MY2|
||M30|18 mm|NO|E2E2-X18MY1|
||||NC|E2E2-X18MY2|



6 

~~**E2E/E2E2**~~ 

~~**E2E/E2E2**~~ 

## **AC 2-wire/Connector Models** 

|**Type**|**Size**|**Sensing distance**|**Output configuration**|**Part number**|
|---|---|---|---|---|
|**S**hi**e**l**ded**|M12|2 mm|NO|E2E2-X2Y1-M4|
||||NC|E2E2-X2Y2-M4|
||M18|5 mm|NO|E2E2-X5Y1-M4|
||||NC|E2E2-X5Y2-M4|
||M30|10 mm|NO|E2E2-X10Y1-M4|
||||NC|E2E2-X10Y2-M4|
|**U**n**s**hi**e**l**ded**|M12|5 mm|NO|E2E2-X5MY1-M4|
||||NC|E2E2-X5MY2-M4|
||M18|10 mm|NO|E2E2-X10MY1-M4|
||||NC|E2E2-X10MY2-M4|
||M30|18 mm|NO|E2E2-X18MY1-M4|
||||NC|E2E2-X18MY2-M4|



7 

~~**E2E/E2E2**~~ 

~~**E2E/E2E2**~~ 

## ~~Specifications~~ 

## **Ratings/Characteristics** 

## **E2E** 

## **E2E-X** � **D** � **DC 2-wire Models** 

|**Item**|**Item**|**E2E-X2D**�|**E2E-X4MD**�|**E2E-X3D**�|**E2E-X8MD**�|**E2E-X7D**�|**E2E-X14MD**�|**E2E-X10D**�|**E2E-X20MD**�|
|---|---|---|---|---|---|---|---|---|---|
|**Size**||M8||M12||M18||M30||
|**Type**||Shielded|Unshielded|Shielded|Unshielded|Shielded|Unshielded|Shielded|Unshielded|
|**Sensing distance**||2 mm±10%|4 mm±10%|3 mm±10%|8 mm±10%|7 mm±10%|14 mm±10%|10 mm±10%|20 mm±10%|
|**Supply voltage**<br>**(operating voltage**<br>**range)**||12 to 24 VDC, ripple (p-p): 10% max., (10 to 30 VDC)||||||||
|**Leakage current**||0.8 mA max.||||||||
|**Sensing object**||Ferrous metal (refer toEngineering Datafor non-ferrous metal)||||||||
|**Setting distance**||0 to 1.6 mm|0 to 3.2 mm|0 to 2.4 mm|0 to 6.4 mm|0 to 5.6 mm|0 to 11.2 mm|0 to 8.0 mm|0 to 16.0 mm|
|**Standard object**<br>**(mild steel)**||8 x 8 x 1 mm|20 x 20 x<br>1 mm|12 x 12 x<br>1 mm|30 x 30 x<br>1 mm|18 x 18 x<br>1 mm|30 x 30 x<br>1 mm|30 x 30 x<br>1 mm|54 x 54 x<br>1 mm|
|**Differential travel**||15% max. of sensing distance||10% max. of sensing distance||||||
|**Response frequency**||1.5 kHz|1.0 kHz|1.0 kHz|0.8 kHz|0.5 kHz|0.4 kHz|0.4 kHz|0.1 kHz|
|**Operation (with**<br>**sensing object**<br>**approaching)**||D1 models:<br>Load ON<br>D2 models:<br>Load OFF||||||||
|**Control output**<br>**(switching capacity)**||3 to 100 mA (5 to 100 mA for -M1J-T models)<br>Diagnostic output: 50 mA for -D1S models||||||||
|**Diagnostic output**<br>**delay**||0.3 to 1 s||||||||
|**Circuit protection**||Surge absorber, load short-circuit protection (for control and diagnostic output)||||||||
|**Indicator**||D1 models:<br>Operation indicator (red LED), operation set indicator (green LED)<br>D2 models:<br>Operation indicator (red LED)||||||||
|**Ambient temperature**||Operating: –25°C to 70°C (with no icing)||||||||
|**Ambient humidity**||Operating: 35% to 95%||||||||
|**Temperature influence**||±15% max. of sensing<br>distance at 23°C in<br>temperature range of –25°C<br>to 70°C||±10% max. of sensing distance at 23°C in temperature range of –25°C to 70°C||||||
|**Voltage influence**||±1% max. of sensing distance in rated voltage range±15%||||||||
|**Residual voltage**<br>**(see note)**||3.0 V max. (under load current of 100 mA with cable length of 2 m)<br>5.0 V min. for -M1J-T models||||||||
|**Insulation resistance**||50 MΩmin. (at 500 VDC) between current carry parts and case||||||||
|**Dielectric strength**||1,000 VAC for 1 min between current carry parts and case||||||||
|**Vibration resistance**||Destruction: 10 to 55 Hz, 1.5-mm double amplitude for 10 times each in X, Y, and Z directions||||||||
|**Shock resistance**||Destruction: 500 m/s2for 10<br>times each in X, Y, and Z<br>directions||Destruction: 1,000 m/s2for 10 times each in X, Y, and Z directions||||||
|**Degree of protection**||IEC60529 IP67||||||||
|**Weight**||Approx. 45 g||Approx. 120 g||Approx. 160 g||Approx. 220 g||
|**Material**|**Case**|Stainless steel||Brass||||||
||**Sensing**<br>**surface**|PBT||||||||



**Note:** The residual voltage of each E2E model with the model number suffix “-M1J-T” is 5 V. When connecting an E2E model with the suffix “-M1J-T” to a device, make sure that the device can withstand the residual voltage. 

8 

~~**E2E/E2E2**~~ 

~~**E2E/E2E2**~~ 

## **E2E-X** � **E** � **/F** � **DC 3-wire Models** 

|**Item**|**Item**|**E2E-X1R5E**�**/**<br>**F**�|**E2E-X2ME**�<br>**/ F**�|**E2E-X2E**�**/**<br>**F**�|**E2E-X5ME**�<br>**/F**�|**E2E-X5E**�**/**<br>**F**�|**E2E-X10ME**�**/**<br>**F**�|**E2E-X10E**�**/**<br>**F**�|**E2E-X18ME**�**/**<br>**F**�|
|---|---|---|---|---|---|---|---|---|---|
|**Size**||M8||M12||M18||M30||
|**Type**||Shielded|Unshielded|Shielded|Unshielded|Shielded|Unshielded|Shielded|Unshielded|
|**Sensing distance**||1.5 mm<br>±10%|2 mm±10%|2 mm±10%|5 mm±10%|5 mm±10%|10 mm±10%|10 mm±10%|18 mm±10%|
|**Supply voltage**<br>**(operating voltage**<br>**range) (see note 1)**||12 to 24 VDC, ripple (p-p): 10% max., (10 to 40 VDC)||||||||
|**Current consumption**||13 mA max.||||||||
|**Sensing object**||Ferrous metal (refer toEngineering Datafor non-ferrous metal)||||||||
|**Setting distance**||0 to 1.2 mm|0 to 1.6 mm|0 to 1.6 mm|0 to 4.0 mm|0 to 4.0 mm|0 to 8.0 mm|0 to 8.0 mm|0 to 14.0 mm|
|**Standard object**<br>**(mild steel)**||8 x 8 x 1 mm|12 x 12 x<br>1 mm|12 x 12 x<br>1 mm|15 x 15 x<br>1 mm|18 x 18 x<br>1 mm|30 x 30 x<br>1 mm|30 x 30 x<br>1 mm|54 x 54 x<br>1 mm|
|**Differential travel**||10% max. of sensing distance||||||||
|**Response frequency**||2.0 kHz|0.8 kHz|1.5 kHz|0.4 kHz|0.6 kHz|0.2 kHz|0.4 kHz|0.1 kHz|
|**Operation (with**<br>**sensing object**<br>**approaching)**||E1 models:<br>Load ON<br>E2 models:<br>Load OFF||||||||
|**Control output**<br>**(switching capacity)**||200 mA max.||||||||
|**Circuit protection**||Reverse connection protection, surge absorber, load short-circuit protection||||||||
|**Indicator**||Operation indicator (red LED)||||||||
|**Ambient temperature**<br>**(see note 2)**||Operating: –40°C to 85°C (with no icing)||||||||
|**Ambient humidity**||Operating: 35% to 95%||||||||
|**Temperature influence**||±15% max. of sensing distance at 23°C in temperature range of –40°C to 85°C<br>±10% max. of sensing distance at 23°C in temperature range of –25°C to 70°C||||||||
|**Voltage influence**||±1% max. of sensing distance in rated voltage range±15%||||||||
|**Residual voltage**||2.0 V max. (under load current of 200 mA with cable length of 2 m)||||||||
|**Insulation resistance**||50 MΩmin. (at 500 VDC) between current carry parts and case||||||||
|**Dielectric strength**||1,000 VAC for 1 min between current carry parts and case||||||||
|**Vibration resistance**||Destruction: 10 to 55 Hz, 1.5-mm double amplitude for 2 hrs each in X, Y, and Z directions||||||||
|**Shock resistance**||Destruction: 500 m/s2for 10<br>times each in X, Y, and Z<br>directions||Destruction:<br>1,000 m/s2for 10 times each in X, Y, and Z directions<br>500 m/s2for E2E-X5M||||||
|**Degree of protection**||IEC60529 IP67||||||||
|**Weight**|**Pre-wired**|Approx. 45 g||Approx. 120 g||Approx. 160 g||Approx. 270 g||
||**Connector**|---|Approx. 25 g|||Approx. 45 g||Approx. 125 g|Approx. 124 g|
|**Material**|**Case**|Stainlesssteel||Brass||||||
||**Sensing**<br>**surface**|PBT||||||||



**Note:** 1. E2E models with an M18 or M30 connector operate at a non-smoothed, all-wave rectified, mean voltage range of 24 VDC ±20%. 

2. When using an E2E with an M8 connector at an ambient temperature range between 70°C and 85°C, supply 10 to 30 VDC to the E2E and make sure that the E2E has a control output of 100 mA maximum. 

9 

~~**E2E/E2E2**~~ 

~~**E2E/E2E2**~~ 

## **E2E-C** � **C** � **/B** � **, E2E-X1C** � **/B** � **DC 3-wire Models** 

|**E2E-C**�**C**�**/B**�**, E2E-X1C**�**/B**|**E2E-C**�**C**�**/B**�**, E2E-X1C**�**/B**|�**DC 3-wire Models**|||
|---|---|---|---|---|
|**Item**||**E2E-CR8C**�**/B**�|**E2E-X1C**�**/B**�|**E2E-C1C**�**/B**�|
|**Size**||4dia.|M5|5.4 dia.|
|**Type**||Shielded|||
|**Sensing distance**||0.8 mm±10%|1 mm±15%||
|**Supply voltage (operating voltage**<br>**range)**||12 to 24 VDC, ripple (p-p): 10% max., (10 to 30 VDC)|||
|**Current consumption**||17 mA max.|||
|**Sensing object**||Ferrous metal(refer toEngineeringDatafor non-ferrous metal)|||
|**Setting distance**||0 to 0.5 mm|0 to 0.7 mm||
|**Standard object (mild steel)**||5 x 5 x 1 mm|||
|**Differential travel**||15% max. of sensingdistance|||
|**Response frequency**||3 kHz|||
|**Operation (with sensing object**<br>**approaching)**||C1/-B1 models: Load ON<br>C2/-B2 models: Load OFF|||
|**Control output (switching capacity)**||100 mA max. at 30 VDC, open collector|||
|**Circuitprotection**||Reverse connectionprotection, surge absorber|||
|**Indicator**||Operation indicator(red LED)|||
|**Ambient temperature**||Operating: –25°C to 70°C(with no icing)|||
|**Ambient humidity**||Operating: 35% to 95%|||
|**Temperature influence**||±15% max. of sensingdistance at 23°C in temperature range of –25°C to 70°C|||
|**Voltage influence**||±2.5% max. of sensingdistance in rated voltage range±15%|||
|**Residual voltage**||2.0 V max.(under load current of 100 mA with cable length of 2 m)|||
|**Insulation resistance**||50 MΩmin.(at 500 VDC)between current carry parts and case|||
|**Dielectric strength**||500 VAC for 1 min between current carry parts and case|||
|**Vibration resistance**||Destruction: 10 to 55 Hz, 1.5-mm double amplitude for 2 hrs each in X, Y, and Z directions|||
|**Shock resistance**||Destruction: 500 m/s2for 10 times each in X, Y, and Z directions|||
|**Degree ofprotection**||IEC60529 IP67|||
|**Weight**||Approx. 30g|||
|**Material**|**Case**|Stainless steel|Brass||
||**Sensing**<br>**surface**|ABS|||



10 

~~**E2E/E2E2**~~ 

~~**E2E/E2E2**~~ 

## **E2E-X** � **Y** � **AC 2-wire Models** 

|**Item**|**Item**|**E2E-X1R5Y**�|**E2E-X2MY**�|**E2E-X2Y**�|**E2E-X5MY**�|**E2E-X5Y**�|**E2E-X10MY**�|**E2E-X10Y**�|**E2E-X18MY**�|
|---|---|---|---|---|---|---|---|---|---|
|**Size**||M8||M12||M18||M30||
|**Type**||Shielded|Unshielded|Shielded|Unshielded|Shielded|Unshielded|Shielded|Unshielded|
|**Sensing distance**||1.5 mm<br>±10%|2 mm±10%|2 mm±10%|5 mm±10%|5 mm±10%|10 mm±10%|10 mm±10%|18 mm±10%|
|**Supply voltage**<br>**(operating voltage**<br>**range) (see note 2)**||24 to 240 VAC, 50/60 Hz (20 to 264 VAC)||||||||
|**Current consumption**||1.7 mA max.||||||||
|**Sensing object**||Ferrous metal (refer toEngineering Datafor non-ferrous metal)||||||||
|**Setting distance**||0 to 1.2 mm|0 to 1.6 mm|0 to 1.6 mm|0 to 4.0 mm|0 to 4.0 mm|0 to 8.0 mm|0 to 8.0 mm|0 to 14.0 mm|
|**Standard object**<br>**(mild steel)**||8 x 8 x 1 mm|12 x 12 x<br>1 mm|12 x 12 x<br>1 mm|15 x 15 x<br>1 mm|18 x 18 x<br>1 mm|30 x 30 x<br>1 mm|30 x 30 x<br>1 mm|54 x 54 x<br>1 mm|
|**Differential travel**||10% max. of sensing distance||||||||
|**Response frequency**||25 Hz||||||||
|**Operation (with**<br>**sensing object**<br>**approaching)**||Y1 models:<br>Load ON<br>Y2 models:<br>Load OFF||||||||
|**Control output**<br>**(switching capacity)**||5 to 100 mA max.||5 to 200 mA max.||5 to 300 mA max. (see note 1)||||
|**Indicator**||Operation indicator (red LED)||||||||
|**Ambient temperature**<br>**(see note 2)**||Operating: –25°C to 70°C<br>(with no icing)||Operating: –40°C to 85°C (with no icing) (see note 1)||||||
|**Ambient humidity**||Operating: 35% to 95%||||||||
|**Temperature influence**||±15% max. of sensing distance at 23°C in temperature range of –40°C to 85°C<br>±10% max. of sensing distance at 23°C in temperature range of –25°C to 70°C||||||||
|**Voltage influence**||±1% max. of sensing distance in rated voltage range±15%||||||||
|**Residual voltage**||Refer toEngineering Data.||||||||
|**Insulation resistance**||50 MΩmin. (at 500 VDC) between current carry parts and case||||||||
|**Dielectric strength**||4,000 VAC for 1 min between current carry parts and case (2,000 VAC for M8 types)||||||||
|**Vibration resistance**||Destruction: 10 to 55 Hz, 1.5-mm double amplitude for 2 hrs each in X, Y, and Z directions||||||||
|**Shock resistance**||Destruction: 500 m/s2for 10<br>times each in X, Y, and Z<br>directions||Destruction:<br>1,000 m/s2for 10 times each in X, Y, and Z directions<br>500 m/s2for E2E-X5M||||||
|**Degree of protection**||IEC60529 IP67||||||||
|**Weight**|**Pre-wired**|Approx. 45 g||Approx. 120 g||Approx. 160 g||Approx. 270 g||
||**Connector**|---|Approx. 25 g|||Approx. 45 g||Approx. 125 g|Approx. 124 g|
|**Material**|**Case**|Stainlesssteel||Brass||||||
||**Sensing**<br>**surface**|PBT||||||||



- **Note:** 1. When using an M18-or M30-sized E2E within an ambient temperature of 70°C to 85°C, make sure that the E2E has a control output of 200 mA maximum. 

2. When supplying 24 VAC to any of the above models, make sure that the operating ambient temperature range is over –25°C. 

11 

~~**E2E/E2E2**~~ 

~~**E2E/E2E2**~~ 

## **AC/DC 2-wire Models** 

|**AC/DC 2-wire Models**|**AC/DC 2-wire Models**||||
|---|---|---|---|---|
|**Item**||**E2E-X3T1**|**E2E-X7T1**|**E2E-X10T1**|
|**Size**||M12|M18|M30|
|**Type**||Shielded|||
|**Sensing distance**||3 mm±10%|7 mm±10%|10 mm±10%|
|**Supply voltage (operating voltage**<br>**range)**||24 to 240 VDC (20 to 264 VDC)/48 to 240 VAC (40 to 264 VAC)|||
|**Current consumption**||1.0 mA DC|2.0 mA DC||
|**Sensing object**||Ferrous metal(refer toEngineeringDatafor non-ferrous metal)|||
|**Setting distance**||0 to 2.4 mm|0 to 5.6 mm|0 to 8.0 mm|
|**Standard object (mild steel)**||12 x 12 x 1 mm|18 x 18 x 1 mm|30 x 30 x 1 mm|
|**Differential travel**||10% max. of sensingdistance|||
|**Response frequency**||1.0 kHz|0.5 kHz|0.4 kHz|
|**Operation (with sensing object**<br>**approaching)**||Load ON|||
|**Control output (switching capacity)**||5 to 100 mA|||
|**Circuitprotection**||Load short-circuitprotection(at 20 to 40 VDC)|||
|**Indicator**||Operation indicator(red LED), operation set indicator(green LED)|||
|**Ambient temperature**||Operating: –25°C to 70°C(with no icing)|||
|**Ambient humidity**||Operating: 35% to 95%|||
|**Temperature influence**||±10% max. of sensingdistance at 23°C in temperature range of –25°C to 70°C|||
|**Voltage influence**||±1% max. of sensingdistance in rated voltage range±15%|||
|**Residual voltage**||6.0 VDC max. (under load current of 100 mA with cable length of 2 m)<br>10 VAC max. (under load current of 5 mA with cable length of 2 m)|||
|**Insulation resistance**||50 MΩmin.(at 500 VDC)between current carry parts and case|||
|**Dielectric strength**||4,000 VAC for 1 min between current carry parts and case|||
|**Vibration resistance**||Destruction: 10 to 55 Hz, 1.5-mm double amplitude for 2 hrs each in X, Y, and Z directions|||
|**Shock resistance**||Destruction: 1,000 m/s2for 10 times each in X, Y, and Z directions|||
|**Degree ofprotection**||IEC60529 IP67|||
|**Weight**||Approx. 55g|Approx. 160g|Approx. 220g|
|**Material**|**Case**|Brass|||
||**Sensing**<br>**surface**|PBT|||



12 

~~**E2E/E2E2**~~ 

~~**E2E/E2E2**~~ 

## **E2E2** 

## **E2E2-X** � **D** � **DC 2-wire Models** 

|**Item**|**Item**|**E2E2-X3D**�|**E2E2-X8MD**�|**E2E2-X7D**�|**E2E2-X14MD**�|**E2E2-X10D**�|**E2E2-X20MD**�|
|---|---|---|---|---|---|---|---|
|**Size**||M12||M18||M30||
|**Type**||Shielded|Unshielded|Shielded|Unshielded|Shielded|Unshielded|
|**Sensing distance**||3 mm±10%|8 mm±10%|7 mm±10%|14 mm±10%|10 mm±10%|20 mm±10%|
|**Supply voltage**<br>**(operating voltage**<br>**range)**||12 to 24 VDC, ripple (p-p): 10% max., (10 to 30 VDC)||||||
|**Leakage current**||0.8 mA max.||||||
|**Sensing object**||Ferrous metal (refer toEngineering Datafor non-ferrous metal)||||||
|**Setting distance**||0 to 2.4 mm|0 to 6.4 mm|0 to 5.6 mm|0 to 11.2 mm|0 to 8.0 mm|0 to 16.0 mm|
|**Standard object**<br>**(mild steel)**||12 x 12 x 1 mm|30 x 30 x 1 mm|18 x 18 x 1 mm|30 x 30 x 1 mm|30 x 30 x 1 mm|54 x 54 x 1 mm|
|**Differential travel**||10% max. of sensing distance||||||
|**Response frequency**||1.0 kHz|0.8 kHz|0.5 kHz|0.4 kHz|0.4 kHz|0.1 kHz|
|**Operation (with**<br>**sensing object**<br>**approaching)**||D1 models:<br>Load ON<br>D2 models:<br>Load OFF||||||
|**Control output**<br>**(switching capacity)**||3 to 100 mA||||||
|**Circuit protection**||Surge absorber, load short-circuit protection||||||
|**Indicator**||D1 models:<br>Operation indicator (red LED), operation set indicator (green LED)<br>D2 models:<br>Operation indicator (red LED)||||||
|**Ambient temperature**||Operating: –25°C to 70°C (with no icing)||||||
|**Ambient humidity**||Operating: 35% to 95%||||||
|**Temperature influence**||±10% max. of sensing distance at 23°C in temperature range of –25°C to 70°C||||||
|**Voltage influence**||±1% max. of sensing distance in rated voltage range±15%||||||
|**Residual voltage**||3.0 V max. (under load current of 100 mA with cable length of 2 m)||||||
|**Insulation resistance**||50 MΩmin. (at 500 VDC) between current carry parts and case||||||
|**Dielectric strength**||1,000 VAC for 1 min between current carry parts and case||||||
|**Vibration resistance**||Destruction: 10 to 55 Hz, 1.5-mm double amplitude for 10 times each in X, Y, and Z directions||||||
|**Shock resistance**||Destruction: 1,000 m/s2for 10 times each in X, Y, and Z directions||||||
|**Degree of protection**||IEC60529 IP67||||||
|**Weight**||65 g||150 g||220 g||
|**Material**|**Case**|Brass||||||
||**Sensing**<br>**surface**|PBT||||||



13 

~~**E2E/E2E2**~~ 

~~**E2E/E2E2**~~ 

## **E2E2-X** � **C** � **/B** � **DC 3-wire Models** 

|**Item**|**Item**|**E2E2-X2C**�**/**<br>**B**�|**E2E2-X5MC**�**/**<br>**B**�|**E2E2-X5C**�**/**<br>**B**�|**E2E2-X10MC**�**/**<br>**B**�|**E2E2-X10C**�**/**<br>**B**�|**E2E2-X18MC**�**/**<br>**B**�|
|---|---|---|---|---|---|---|---|
|**Size**||M12||M18||M30||
|**Type**||Shielded|Unshielded|Shielded|Unshielded|Shielded|Unshielded|
|**Sensing distance**||2 mm±10%|5 mm±10%|5 mm±10%|10 mm±10%|10 mm±10%|18 mm±10%|
|**Supply voltage**<br>**(operating voltage**<br>**range)**||12 to 24 VDC, ripple (p-p): 10% max., (10 to 55 VDC)||||||
|**Current consumption**||13 mA max.||||||
|**Sensing object**||Ferrous metal (refer toEngineering Datafor non-ferrous metal)||||||
|**Setting distance**||0 to 1.6 mm|0 to 4.0 mm|0 to 4.0 mm|0 to 8.0 mm|0 to 8.0 mm|0 to 14.0 mm|
|**Standard object**<br>**(mild steel)**||12 x 12 x 1 mm|15 x 15 x 1 mm|18 x 18 x 1 mm|30 x 30 x 1 mm|30 x 30 x 1 mm|54 x 54 x 1 mm|
|**Differential travel**||10% max. of sensing distance||||||
|**Response frequency**||1.5 kHz|0.4 kHz|0.6 kHz|0.2 kHz|0.4 kHz|0.1 kHz|
|**Operation (with**<br>**sensing object**<br>**approaching)**||B1/C1 models:<br>Load ON<br>B2/C2 models:<br>Load OFF||||||
|**Control output**<br>**(switching capacity)**||200 mA max., open collector||||||
|**Circuit protection**||Reverse connection protection, surge absorber, load short-circuit protection||||||
|**Indicator**||Operation indicator (red LED)||||||
|**Ambient temperature**||Operating: –40°C to 85°C (with no icing)||||||
|**Ambient humidity**||Operating: 35% to 95%||||||
|**Temperature influence**||±15% max. of sensing distance at 23°C in temperature range of –40°C to 85°C<br>±10% max. of sensing distance at 23°C in temperature range of –25°C to 70°C||||||
|**Voltage influence**||±1% max. of sensing distance in rated voltage range±15%||||||
|**Residual voltage**||2.0 V max. (under load current of 200 mA with cable length of 2 m)||||||
|**Insulation resistance**||50 MΩmin. (at 500 VDC) between current carry parts and case||||||
|**Dielectric strength**||1,000 VAC for 1 min between current carry parts and case||||||
|**Vibration resistance**||Destruction: 10 to 55 Hz, 1.5-mm double amplitude for 10 times each in X, Y, and Z directions||||||
|**Shock resistance**||Destruction: 1,000 m/s2for 10 times each in X, Y, and Z directions||||||
|**Degree of protection**||IEC60529 IP67||||||
|**Weight**||65 g||150 g||220 g||
|**Material**|**Case**|Brass||||||
||**Sensing**<br>**surface**|PBT||||||



14 

~~**E2E/E2E2**~~ 

~~**E2E/E2E2**~~ 

## **E2E2-X** � **Y** � **AC 2-wire Models** 

|**Item**|**Item**|**E2E2-X2Y**�|**E2E2-X5MY**�|**E2E2-X5Y**�|**E2E2-X10MY**�|**E2E2-X10Y**�|**E2E2-X18MY**�|
|---|---|---|---|---|---|---|---|
|**Size**||M12||M18||M30||
|**Type**||Shielded|Unshielded|Shielded|Unshielded|Shielded|Unshielded|
|**Sensing distance**||2 mm±10%|5 mm±10%|5 mm±10%|10 mm±10%|10 mm±10%|18 mm±10%|
|**Supply voltage**<br>**(operating voltage**<br>**range) (see note 2)**||24 to 240 VAC, 50/60 Hz (20 to 264 VAC)||||||
|**Leakage current**||1.7 mA max.||||||
|**Sensing object**||Ferrous metal||||||
|**Setting distance**||0 to 1.6 mm|0 to 4.0 mm|0 to 4.0 mm|0 to 8.0 mm|0 to 8.0 mm|0 to 14.0 mm|
|**Standard object**<br>**(mild steel)**||12 x 12 x 1 mm|15 x 15 x 1 mm|18 x 18 x 1 mm|30 x 30 x 1 mm|30 x 30 x 1 mm|54 x 54 x 1 mm|
|**Differential travel**||10% max. of sensing distance||||||
|**Response frequency**||25 Hz||||||
|**Operation (with**<br>**sensing object**<br>**approaching)**||Y1 models:<br>Load ON<br>Y2 models:<br>Load OFF||||||
|**Control output**<br>**(switching capacity)**||5 to 200 mA||5 to 300 mA (see note 1)||||
|**Indicator**||Operation indicator (red LED)||||||
|**Ambient temperature**||Operating: –40°C to 85°C (with no icing) (see notes 1 and 2)||||||
|**Ambient humidity**||Operating: 35% to 95%||||||
|**Temperature influence**||±15% max. of sensing distance at 23°C in temperature range of –40°C to 85°C<br>±10% max. of sensing distance at 23°C in temperature range of –25°C to 70°C||||||
|**Voltage influence**||±1% max. of sensing distance in rated voltage range±15%||||||
|**Residual voltage**||Refer toEngineering Data.||||||
|**Insulation resistance**||50 MΩmin. (at 500 VDC) between current carry parts and case||||||
|**Dielectric strength**||4,000 VAC for 1 min between current carry parts and case||||||
|**Vibration resistance**||Destruction: 10 to 55 Hz, 1.5-mm double amplitude for 10 times each in X, Y, and Z directions||||||
|**Shock resistance**||Destruction: 1,000 m/s2for 10 times each in X, Y, and Z directions||||||
|**Degree of protection**||IEC60529 IP67||||||
|**Weight**||65 g||150 g||220 g||
|**Material**|**Case**|Brass||||||
||**Sensing**<br>**surface**|PBT||||||



**Note:** 1. When using an M18-or M30-sized E2E2 within an ambient temperature of 70°C to 85°C, make sure that the E2E2 has a control output of 200 mA maximum. 

2. When supplying 24 VAC to any of the above models, make sure that the operating ambient temperature range is over –25°C. 

15 

~~**E2E/E2E2**~~ 

~~**E2E/E2E2**~~ 

## ~~Engineering Data~~ 

## **E2E** 

## **Operating Range (Typical)** 

## **Shielded Models** 

**==> picture [481 x 594] intentionally omitted <==**

**----- Start of picture text -----**<br>
E2E-X D E2E-X E /F<br>E2E-X T1 E2E-X Y<br>E2E-X10<br>TW Eo Ey ee<br>E2E -X10D/T E2E -X10<br>T N ANT<br>E2E -X7D/T<br>R e | be OAT<br>PREPARE a AA<br>E2E -X3D/T E2E-X5<br>E2E-X2D E2E -X5<br>E2E -X2<br>E2E<br>wk UN DI -X1R5<br>B PR — LRApeg I™.PN.1<br>Y (mm) Y (mm) Y (mm)<br>E2E-C C /B<br>E2E-X coo C /B<br>hag t = 1 mm ta<br>Sensing object:<br>mild steel, 5 x 5 x<br>1 mm<br>E2E-X1/E2E-C1<br>OS oT<br>E2E-CR8<br>ra nk<br>TOMA TO<br>E2E-CR8 Sensing head Y (mm)<br>E2E-X1 Sensing head<br>j e E2E-C1 Sensing head S y<br>Unshielded Models<br>E2E-X MD E2E-X ME /F<br>O O E2E-X 5 MY 5 O<br>E2E -X5M<br>E2E -X20MD E2E -X18M<br>So MA R E<br>E2E -X14MD<br>Lond | ~f. Ne E2E -X2M | _ E2E -X10M<br>Sr E2E -X8MD K .aj Ese p=a<br>E2E -<br>X4MD<br>SN P x T R<br>Y (mm) Y (mm) Y (mm)<br>Sensing distance X (mm)<br>Sensing distance X (mm) Sensing distance X (mm)<br>Sensing distance X (mm)<br>Sensing distance X (mm)<br>Sensing distance X (mm) Sensing distance X (mm)<br>**----- End of picture text -----**<br>


16 

~~**E2E/E2E2**~~ 

~~**E2E/E2E2**~~ 

## **Leakage Current (Typical)** 

**==> picture [336 x 370] intentionally omitted <==**

**----- Start of picture text -----**<br>
E2E-X Oo D E2E-X OO Y<br>|<br>E2E-X10D1-NM<br>Spe er) Re<br>E2E-X3D1-NM<br>OT JET<br>Proximity Protective<br>04 E2E-X2D1-NM ee = so E2E-X7D1-NM 0.6 Sensor(when resistance<br>OFF)<br>0.2 Pp “ @<br>AC power<br>supply<br>P t d ‘L: Le<br>0 5 10 15 20. ~«25~C*«S 0 60. 100 150 200 250<br>Supply voltage (V) Supply voltage (V)<br>E2E-X O T1<br>DC/AC<br>AC power supply<br>1.0<br>0.8 > aT\ DC power supply<br>0 50. 100 150 200 250 300<br>Supply voltage (V)<br>Leakage current  (mA) Leakage current  (mA)<br>Leakage current  (mA)<br>**----- End of picture text -----**<br>


## **Residual Output Voltage (Typical)** 

**==> picture [171 x 180] intentionally omitted <==**

**----- Start of picture text -----**<br>
E2E-X Oo D<br>E2E-X10D1-N<br>E2E-X3D1-N<br>04aa<br>E2E-X2D1-N<br>E2E-X7D1-N<br>0 5 10 15 20 25.<br>Load current (mA)<br>Residual output voltage  (V)<br>**----- End of picture text -----**<br>


17 

~~**E2E/E2E2**~~ 

~~**E2E/E2E2**~~ 

**==> picture [44 x 8] intentionally omitted <==**

**----- Start of picture text -----**<br>
E2E-X Oo Y<br>**----- End of picture text -----**<br>


**==> picture [476 x 156] intentionally omitted <==**

**----- Start of picture text -----**<br>
Residual output voltage Residual output voltage<br>C;TUicerE IT)T leLL Pat Hetal . tiep e<br>Residual output voltage<br>Proximity Proximity<br>ee =o Sensor meoy || . Sensor meoy ||<br>100 VAC 200 VAC<br>Proximity<br>Sensor<br>Residual an f° @ 24 VAC a Residual il Residual | |<br>load load load<br>LAOS voltage WT voltage “AKO voltage<br>1 3 5 10 30 50 100 300 500 1 3.5 10 30 50 100 300 500 1 3.5 10 30 50 100 300<br>Load current (mA) Load current (mA) Load current (mA)<br>Load voltage V (V) Load voltage V (V) Load voltage V (V)<br>**----- End of picture text -----**<br>


**==> picture [151 x 172] intentionally omitted <==**

**----- Start of picture text -----**<br>
E2E-X oO T1<br>200 VAC<br>LO<br>5 100 VAC CET nt<br>24 VDC<br>a 7<br>C TH<br>i<br>LT il<br>1 3 5 10 30 50 100<br>Load current (mA)<br>Residual output voltage  (V)<br>**----- End of picture text -----**<br>


18 

~~**E2E/E2E2**~~ 

~~**E2E/E2E2**~~ 

## **Sensing Distance vs. Sensing Object (Typical)** 

**==> picture [479 x 585] intentionally omitted <==**

**----- Start of picture text -----**<br>
E2E-X2D LJ E2E-X3D oO E2E-X7D LJ<br>E2E-X3T1 E2E-X7T1<br>3.0 t = 1 mm 4.0 t = 1 mm 8 Mild steel<br>2} . - d<br>E ry] SEE ei o e<br>Mild Stainless steel<br> ES — EE pis} steel |A T (SUS304)<br>a Mild steel TAL TPR<br>1s|[. | wa Stainless steel Tf<br> | Stainless steel oo {-—-— (SUS304) if<br>p e (SUS304) e Copper | LE R AluminumBrass<br>Ys BrassAluminum ho i) — BrassAluminum 5 t = 1 mm — Copper<br>Copper<br>| —= Vv LLL Tet |<br>Ft | 0.5PEELE 1 -eTOd ft<br>0 5 10 15 20 25 0 5 10 15 20 25 30 35 «40 0 10 20 30 40 50<br>Side length of sensing Side length of sensing Side length of sensing<br>object d (mm) object d (mm) object d (mm)<br>E2E-X10D oO E2E-X4MD LJ E2E-X8MD oO<br>E2E-X10T1<br>12 6 12<br>t = 1 mm t = 1 mm<br>Pt til Mild , | | | | | |||<br>steel<br>iene8 V4 pate~T Mild marl“TL Mild<br>steel steel<br><= Stainless 4 8 1<br>Lyme steel(SUS304) || ifa—H Stainlesssteel - 4ryt ill Stainlesssteel(SUS304)<br>Brass (SUS304)<br>Tl /7=an Copper Aluminumt = 1 mm ann BrassAluminum fi CopperBrass<br>Wf — — Copper ——= Aluminum<br>0ae10 20 30 a840 50 - 60Od 70 ie}PEL10 20 30tt40 E50 60EL]70 0ELL10 15 20 30 LI40 50 60 70<br>Side length of sensing Side length of sensing Side length of sensing<br>object d (mm) object d (mm) object d (mm)<br>E2E-X14MD LJ E2E-X20MD oO E2E-X1R5E | /F<br>E2E-X1R5Y oO<br>25 t = 1 mm 25 2.5 t = 1 mm<br>tte |] CELL ELLE) Mild eet<br>steel<br>Mild steel<br>PP) Mild TAT Stainless 4 y e<br>steel steel Stainless steel<br>(SUS304) (SUS304)<br>TL Stainlesssteel [| Copper f F<br>(SUS304) Brass<br>Aluminum Brass<br>Brass<br>Zee Aluminum | Be e t = 1 mm TS S Aluminum<br>Copper<br>5 a ; Yo r Os |<br>Mana fo ees)- Od<br>0 10 620030 4050s 0 10 20 30 40 50 60 70 80 90100 0 5 10 15 20 25<br>Side length of sensing Side length of sensing Side length of sensing<br>object d (mm) object d (mm) object d (mm)<br>Sensing distance  (mm) Sensing distance  (mm) Sensing distance  (mm)<br>Sensing distance  (mm) Sensing distance  (mm) Sensing distance  (mm)<br>Sensing distance  (mm) Sensing distance  (mm) Sensing distance  (mm)<br>**----- End of picture text -----**<br>


19 

~~**E2E/E2E2**~~ 

~~**E2E/E2E2**~~ 

**==> picture [483 x 595] intentionally omitted <==**

**----- Start of picture text -----**<br>
E2E-X2E OO /F E2E-X5E OO /F E2E-X10E Oo F<br>E2E-X2Y O E2E-X5Y O E2E-X10Y O<br>25 7 12<br>t = 1 mm<br>Mild steel Mild steel<br>Mild steel<br>Stainless steel Stainless steel<br>,Vi ae (SUS304) x t = 1 mm 4| | Stainless steel(SUS304) fo Tt (SUS304)<br>Brass<br>Haat}‘ |fprF Brass ; _ j==5nn{ “— |__|<br>Brass<br>Aluminum Aluminum t = 1 mm Aluminum<br>TC E —|<br>0 5 10 15 20 25| 0 FRR10 20 30 SS 40 50 ie}ete10 20 30 40 50 60<br>Side length of sensing Side length of sensing Side length of sensing<br>object d (mm) object d (mm) object d (mm)<br>E2E-X2ME OO /F E2E-X5ME OO /F E2E-X10ME OO /F<br>E2E-X2MY O E2E-X5MY O E2E-X10MY<br>25 7 12<br>t = 1 mm<br>Mild steel<br>Mild steel<br>° ath — fF L E<br>Mild steel<br>Stainless steel pee iiean ne<br>(SUS304)<br>Stainless steel Stainless steel<br>{$= (SUS304) 6 yp ee (SUS304)  ee<br>Brass a Tf<br>. Alumi- A Brass Brass<br>num<br>t = 1 mm Copper t = 1 mm<br>Aluminum<br>Aluminum<br>~|<br>0 5~at10 —_15 20 25 30 fA0fT10  [20 30 40 || 50 =0 10 &20 30 = 40 50 60<br>Side length of sensing Side length of sensing Side length of sensing<br>object d (mm) object d (mm) object d (mm)<br>E2E-X18ME OO /F E2E-CR8 OO E2E-X1 OO<br>E2E-X18MY O E2E-C1 OO<br>25 t = 1 mm 12 t = 1 mm 1.2<br>aL) telco Mild<br>[vis Mild steel [ness steel<br>0.8 i Mild 08 Stainless steel<br>AL | fet steel (SUS304)<br>Stainless steel<br>ee (SUS304) Vann Stainless<br>F S Yee: steel<br>(SUS304)<br>Brass Brass<br>J ad i a Brass o4 Aluminum<br>8tf[j| Aluminum wo ——(eTpe  : AluminumCopper 02 E S x t = 1 mm<br>0 20 40 60 80 100 0 5 10 15 20 25 30 0 5 10 15 20 25<br>Side length of sensing Side length of sensing Side length of sensing<br>object d (mm) object d (mm) object d (mm)<br>Sensing distance  (mm) Sensing distance  (mm) Sensing distance  (mm)<br>Sensing distance  (mm) Sensing distance  (mm) Sensing distance  (mm)<br>Sensing distance  (mm) Sensing distance  (mm) Sensing distance  (mm)<br>**----- End of picture text -----**<br>


20 

~~**E2E/E2E2**~~ 

~~**E2E/E2E2**~~ 

**E2E2** 

## **Operating Range (Typical)** 

**Shielded Models E2E2-X** OU **D** 

**==> picture [457 x 566] intentionally omitted <==**

**----- Start of picture text -----**<br>
E2E2-X OU D E2E2-X OO C /B Oa<br>E2E2-X OO Y<br>Sensing distance Sensing distance Sensing distance<br>X (mm) X (mm) X (mm)<br>E2E -X10D<br>iy bh) feet Ty] LLY<br>E2E -X10<br>CENNATL) E2E -X7D ETT E2E -X2<br>V o] [B ZN E2E -X5<br>e t | [SRS GA<br>E2E -X3D<br>a Y X) ALL L RG<br>e/P ey | | LAAN<br>Y (min) Y (mim) Y (mm)<br>Unshielded Models<br>E2E2-X O MD O E2E2-X O MC OF /B 0<br>E2E2-X O MY OU<br>Sensing distance Sensing distance<br>X (mm) X (mm)<br>TT AR E2E -X5M ie ~<br>E2E -X18M<br>on E2E -X20MD aoe eo B EC<br>E2E -X14MD<br>T r FEA G S<br>E2E -X10M<br>E2E -X8MD<br>E2E -X4MD<br>pfe O A<br>Y (mm) Y (mm) Y (mm)<br>Leakage Current (Typical)<br>E2E2-X OU D E2E2-X OO Y<br>.; J t tey<br>a=<br>se werett<br>; OL ProximitySensor Protective<br>(when resistance<br>OFF)<br>AC<br>power<br>supply<br>ie) 5 10 15 20 25 30 150 50 700 3150 200 250 300<br>Supply voltage (V) Supply voltage (V)<br>Sensing distanceX (mm)<br>Leakage current  (mA) Leakage current  (mA)<br>**----- End of picture text -----**<br>


## **Leakage Current (Typical)** 

21 

~~**E2E/E2E2**~~ 

~~**E2E/E2E2**~~ 

## **Residual Output Voltage (Typical)** 

> **E2E2-X** Oo **D** 

**==> picture [477 x 322] intentionally omitted <==**

**----- Start of picture text -----**<br>
a sniiamnaniii<br>1 3 5 10 30 50 100<br>Load current (mA)<br>E2E2-X OO Y<br>Residual output voltage Residual output voltage<br>Cnca le at Hetal - fi mania<br>. Residual output voltage H . ME TL ill<br>Proximity Proximity<br>ee Sensor meell . Sensor meoy |||<br>100 VAC 200 VAC<br>Proximity ¥) ll im i 2 cm f 2)<br>Sensor<br>Residual oJ 24 VAC Residual Residual<br>load load load<br>LAOS voltage 9 OITAa voltage il voltage | |<br>1 3 5 10 30 50 100 300 500 1 3°05 10 30 50 100 300 500 1 3.5 10 30 50 100 300<br>Load current (mA) Load current (mA) Load current (mA)<br>Residual output voltage  (V)<br>L<br>Residual load voltage V   (V) Residual load voltage V   (V) Residual load voltage V   (V)<br>**----- End of picture text -----**<br>


## **Sensing Distance vs. Sensing Object (Typical)** 

**==> picture [479 x 172] intentionally omitted <==**

**----- Start of picture text -----**<br>
E2E2-X3D O E2E2-X7D im E2E2-X10D O<br>40 8 12<br>PT] Ty TT yd Mildsteel PTT]yy Mild fy<br>steel<br>Mild<br>steel<br>TILL.25 | oO Stainless steel Pie|<br>Stainless steel (SUS304)<br>ool| ftWA (SUS304) 5ffiJ~ || of| 8 lf Stainless steel<br>HE LE Lf. (SUS304)<br>Brass<br>TJ te Brass i) TRFReEE Aluminum TAL Brass<br>Aluminum<br>a0 e e Aluminum lan Copper t5L LA Copper<br>“CEE7)  ELE| | Copper [cal catet P+| | q)).COEELLT “a=<br>0 5 10 15 20 2 30 35 40 0 10 20 30 40 50 0 10 20 30 40 50 60 70<br>Side length of sensing Side length of sensing Side length of sensing<br>object d (mm) object d (mm) object d (mm)<br>Sensing distance  (mm) Sensing distance  (mm) Sensing distance  (mm)<br>**----- End of picture text -----**<br>


22 

~~**E2E/E2E2**~~ 

~~**E2E/E2E2**~~ 

**==> picture [478 x 567] intentionally omitted <==**

**----- Start of picture text -----**<br>
E2E2-X8MD O E2E2-X14MD O E2E2-X20MD O<br>12 watts | 25 eet LTT ys)TLL Mild<br>steel<br>8 —_ Mild<br>ee steel Peo Te<br>Mild Stainless<br>steel steel<br>et , Stainless steel HE HA (SUS304)<br>(SUS304)<br>Stainless steel Brass<br>4Al Brass ” ~—-~— (SUS304)Brass 10 = AluminumCopper<br>AluminumCopper AluminumCopper<br>ie)GinnnPTE10 15 20 TE30 40 ee50 60 70 0(10 20 30 | 40 50 60 70 W0 10 20 30 40 50at60 70 =e80 90100<br>Side length of sensing Side length of sensing Side length of sensing<br>object d (mm) object d (mm) object d (mm)<br>E2E2-X2C O /B oO E2E2-X5C O /B oO E2E2-X10C Oo /B Oo<br>E2E2-X2Y O E2E2-X5Y O E2E2-X10Y O<br>Mild steel<br>Mild steel Mild steel<br>fit t i} Pp p p} p_p e t<br>To Stainless steel (SUS304) mv15 Stainless steel (SUS304) L ig Stainless steel (SUS304)<br>15 A LT] P ACT eS<br>' ; Lf |<br>Brass<br>; Eb], ae) TI<br>vo 7 TT 7 an —<br>Brass Brass<br>we e ee e a Aluminum<br>L r Aluminum LL Aluminum x a<br>Pee ] LE ) Oe Bore<br>0 5 10 15 20 yas) i} 5 10 15 20 25 0 10 20 30 40 50 60<br>Side length of sensing Side length of sensing Side length of sensing<br>object d (mm) object d (mm) object d (mm)<br>E2E2-X5MC O /B oO E2E2-X10MC O /B oO E2E2-X18MC O /B oO<br>E2E2-X5MY O E2E2-X10MY O E2E2-X18MY O<br>7 12 25<br>Mild steel<br>me | | | J |] Tt ty of<br>Mild steel Mild steel<br>5peYYR TT P8 Ao e op e<br>Stainless steel (SUS304) Stainless steel (SUS304) Stainless steel (SUS304)<br>6 Rs ee —<br>KK pA Snee eyA aa<br>Brass Brass Brass<br>| AE Taann n | fm<br>2 to —— ee<br>Aluminum Aluminum Aluminum<br>( | ee<br>Se TT<br>(0) 10 20 30 40 50 ie) 10 20 30 40 50 60tl 0Lt20 49 60 80 100<br>Side length of sensing Side length of sensing Side length of sensing<br>object d (mm) object d (mm) object d (mm)<br>Sensing distance  (mm) Sensing distance  (mm) Sensing distance  (mm)<br>Sensing distance  (mm) Sensing distance  (mm) Sensing distance  (mm)<br>Sensing distance  (mm) Sensing distance  (mm) Sensing distance  (mm)<br>**----- End of picture text -----**<br>


23 

~~OIRO~~ ~~**E2E/E2E2** ——~~ ~~**E2E/E2E2**~~ 

## ~~Operation~~ 

## **Output Circuits** 

## **E2E** ~~o~~ **E2E-X** o **D DC 2-wire Models** 

## **E2E-X** O **D1S** 

## **E2E-X** O **D1** 

## **E2E-X** O **D1-M1J-T** 

## **Without Diagnostic Output Diagnostic Output** 

**==> picture [147 x 88] intentionally omitted <==**

**----- Start of picture text -----**<br>
With Diagnostic Output 4<br>Brown<br>Load<br>Load<br>Maincircuit Orange (diagnosticoutput)<br>2<br>Blue 3<br>0 V<br>**----- End of picture text -----**<br>


**==> picture [337 x 106] intentionally omitted <==**

**----- Start of picture text -----**<br>
Without Diagnostic Output Diagnostic Output No Polarity<br>1 4<br>Load Load<br>Brown (0 V)<br>Main Main<br>circuit circuit<br>4 3<br>Blue 0 V 0 V<br>Le COMLL... >t<br>E2E-X O D2<br>Note: 1. The load can be connected to<br>Without Diagnostic Output either the +V or 0-V side.<br>**----- End of picture text -----**<br>


**==> picture [41 x 59] intentionally omitted <==**

**----- Start of picture text -----**<br>
1<br>Load<br>Brown<br>2<br>Blue 0 V<br>**----- End of picture text -----**<br>


2. The E2E-X D1-M1J-T has no polarity. Therefore, terminals 3 and 4 have no polarity. 

**==> picture [17 x 12] intentionally omitted <==**

**----- Start of picture text -----**<br>
Main<br>circuit<br>**----- End of picture text -----**<br>


## **DC 3-wire Models** 

## **E2E-X** OO **E NPN Output** 

**==> picture [137 x 78] intentionally omitted <==**

**----- Start of picture text -----**<br>
Brown 1<br>100 Ω<br>Constant Load<br>current<br>Main (see note) Black 4<br>circuit<br>0 V<br>Blue 3<br>**----- End of picture text -----**<br>


## **E2E-X** OO **F PNP Output** 

**==> picture [135 x 85] intentionally omitted <==**

**----- Start of picture text -----**<br>
Brown 1<br>**<br>Main Black 4 (or 2)<br>circuit<br>Load<br>*<br>150 Ω<br>0 V<br>Blue 3<br>**----- End of picture text -----**<br>


- Constant current output is 1.5 to 3 mA. 

**Note:** Constant current output is 1.5 to 3 mA. **E2E-C/X** OO **C NPN Open Collector Output** 

**==> picture [137 x 81] intentionally omitted <==**

**----- Start of picture text -----**<br>
Brown<br>100 Ω<br>Load<br>Black<br>Main<br>circuit Output<br>Blue<br>0 V<br>**----- End of picture text -----**<br>


**==> picture [141 x 9] intentionally omitted <==**

**----- Start of picture text -----**<br>
E2E-X oo Y  AC 2-wire Models<br>**----- End of picture text -----**<br>


**==> picture [138 x 76] intentionally omitted <==**

**----- Start of picture text -----**<br>
Brown 3 (or 1)<br>Load<br>Main<br>circuit<br>Blue 4 (or 2)<br>aie<br>**----- End of picture text -----**<br>


- ** When connecting to a Tr circuit. 

## **E2E-C/X** OO **B PNP Open Collector Output** 

**==> picture [137 x 80] intentionally omitted <==**

**----- Start of picture text -----**<br>
Brown<br>Main Black<br>circuit<br>:<br>Load<br>100 Ω Blue<br>0 V<br>**----- End of picture text -----**<br>


## **E2E-X** O **T1 AC/DC 2-wire Models** 

**==> picture [151 x 43] intentionally omitted <==**

**----- Start of picture text -----**<br>
Brown<br>Load 24 to 240 VDC<br>48 to 240 VAC<br>Main<br>cir- Power<br>cuit supply<br>Blue<br>**----- End of picture text -----**<br>


**Note:** The load can be connected as shown above regardless of the polarity of the E2E. There is no need to be concerned about the polarity (Brown/Blue) of the Proximity Sensor. 

24 

~~**E2E/E2E2**~~ 

~~**E2E/E2E2**~~ 

## **E2E2** 

**E2E2-X D DC 2-wire Models** 

**==> picture [145 x 60] intentionally omitted <==**

**----- Start of picture text -----**<br>
1<br>Load<br>Brown<br>Main<br>circuit<br>4 (or 2)<br>ree | Blue Ly 0 V<br>**----- End of picture text -----**<br>


**E2E2-X C DC 3-wire Models** 

**E2E2-X B DC 3-wire Models** 

**==> picture [374 x 90] intentionally omitted <==**

**----- Start of picture text -----**<br>
Brown 1 Brown 1<br>+ V + V<br>100 Ω<br>Load<br>Main Black Main Black 4 (or 2)<br>circuit 4 (or 2) circuit<br>Load<br>Blue 3 100 Ω Blue 3<br>0 V 0 V<br>ig ? E R<br>**----- End of picture text -----**<br>


## **E2E2-X Y DC 2-wire Models** 

**==> picture [145 x 78] intentionally omitted <==**

**----- Start of picture text -----**<br>
Brown 1 (or 3)<br>Load<br>Main<br>circuit<br>Blue 2 (or 4)<br>micuer<br>ie<br>**----- End of picture text -----**<br>


25 

~~**E2E/E2E2**~~ 

~~**E2E/E2E2**~~ 

## **Operating Chart** 

## **E2E** 

## **E2E-X** Oo **D DC 2-wire Models E2E-X** O **T1 AC/DC 2-wire Models** 

|**E2E-X**|**E2E-X**<br>**T1 AC/DC 2-wire Models**<br>O|**E2E-X**<br>**T1 AC/DC 2-wire Models**<br>O|**T1 AC/DC 2-wire Models**|**T1 AC/DC 2-wire Models**|**T1 AC/DC 2-wire Models**|**T1 AC/DC 2-wire Models**|**T1 AC/DC 2-wire Models**|**T1 AC/DC 2-wire Models**|**T1 AC/DC 2-wire Models**|**T1 AC/DC 2-wire Models**||||||||||||
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
|**E2E-X**|**D1**<br>O||||||||||**E2E-X**|O|**D2**|||||||||
|**E2E-X**|O|**T1**|||||||||**NC Type**|||||||||||
|**NO Type**<br>Non-sensing<br>zone|||Unstable<br>sensing zone<br>Setting<br>position<br>**Stable sensing**<br>**zone**<br>4|||||||Proximity<br>Sensor||||Non-sensing zone|||Sensing zone|Proximity<br>Sensor||||
|Sensing<br>object||||||||||||||Sensing<br>object||||||||
||||||to||||'||||||:||1|||||
|(%)|||Rated sensing||distance<br>100||80||0|Lit<br>Not lit|Green<br>indicator|||(%)|Rated sensing<br>distance<br>100||0|||||
|||||||||||Lit|Red|||||||Lit|||Red|
|||||||||||Not lit|indicator|||||||Not lit|||indicator|
|||||||||||ON|Control|||||||ON|||Control|
|||||||||||OFF|output|||||||OFF|||output|
|**E2E-X**|O|**D1S**||||||||||||||||||||
|Non-sensing<br>zone|||Unstable<br>sensing zone<br>Setting<br>position<br>Stable sensing<br>zone<br>4|||||||||||||||||||
|||||||||||Proximity||||||||||||
|||||||||||Sensor||||||||||||
|Sensing||||||||||||||||||||||
|object||||||||||||||||||||||
|%)|||Rated sensing|distance<br>10080<br>0<br>es||||||Lit<br>Not lit<br>Lit|Green<br>indicator<br>Red<br>indicator|**Note:**||The diagnostic output of the E2E-X<br>D1S is ON when<br>thereis a coil burnout or the sensing object is located in the<br>unstablesensing range for 0.3 s or more.<br>Oo||||||||
|||||||||||Not lit||||||||||||
|||||||||||ON|Control|||||||||||
|||||||||||OFF|output|||||||||||
|||||||||||ON|Diagnostic|||||||||||
|||||||||||OFF|output|||||||||||



## **DC 3-wire Models** 

|**DC 3-wire Models**||||||
|---|---|---|---|---|---|
|**E2E-X**<br>**E**<br>OO||||**E2E-X**<br>**F**<br>oo||
|**NPN Output**||||**PNP Output**||
|||NO|NC|||
|Sensing|Yes|||||
|object|No|||Sensing|Yes|
|Control output<br>between brown and black lines<br>Output voltage<br>between black and blue lines<br>Red<br>indicator|Lit<br>Not lit<br>ON<br>OFF<br>H<br>L|||object<br>Control output<br>between black and blue lines<br>Red indicator<br>between brown and black lines<br>Operating|No<br>Lit<br>Not lit<br>ON<br>OFF<br>ON|
|||||indicator|OFF|



> **E2E-C/X** OOO **C /B** 

## **NPN/PNP Open Collector Output** 

|Sensing|Yes|
|---|---|
|object|No|
|Red|Lit|
|indicator|Not lit|
|Control|ON|
|output|OFF|



26 

~~**E2E/E2E2**~~ 

~~**E2E/E2E2**~~ 

## **E2E-X** OO **Y AC 2-wire Models** 

**==> picture [53 x 48] intentionally omitted <==**

**----- Start of picture text -----**<br>
Sensing Yes<br>object No<br>Red Lit<br>indicator Not lit<br>Control ON<br>output OFF<br>**----- End of picture text -----**<br>


## **E2E2** 

## **E2E2-X** | **D DC 2-wire Models** 

**NO Type** 

**==> picture [176 x 149] intentionally omitted <==**

**----- Start of picture text -----**<br>
Setting<br>Non-sensingzone Unstablesensing zone $ position Stable sensingzone<br>Proximity<br>iH ts ts g Sensor<br>Sensing<br>object<br>H : 1<br>(%) 10080 0<br>Lit Green<br>Not lit indicator<br>Lit Red<br>Not lit indicator<br>ON Control<br>OFF output<br>Rated sensing distance<br>**----- End of picture text -----**<br>


## **NC Type** 

**==> picture [176 x 129] intentionally omitted <==**

**----- Start of picture text -----**<br>
Non-sensing zone Sensing zone<br>Proximity<br>"1 Fa g Sensor<br>Sensing<br>object<br>H 1<br>%) v60 0<br>Lit Red<br>Not lit indicator<br>ON Control<br>OFF output<br>Rated sensing distance<br>**----- End of picture text -----**<br>


## **E2E2-X** OO **C /B** oO **DC 3-wire Models** 

## **NPN/PNP Open Collector Output** 

**==> picture [62 x 47] intentionally omitted <==**

**----- Start of picture text -----**<br>
Sensing object Yes<br>No<br>ON<br>Control output<br>OFF<br>Red indicator Lit<br>Not lit<br>**----- End of picture text -----**<br>


## **E2E2-X** OO **Y AC 2-wire Models** 

**==> picture [70 x 49] intentionally omitted <==**

**----- Start of picture text -----**<br>
Yes<br>Sensing object No<br>ON<br>Control output OFF<br>Lit<br>Red indicator Not lit<br>**----- End of picture text -----**<br>


27 

~~**E2E/E2E2**~~ 

~~**E2E/E2E2**~~ 

## ~~Dimensions~~ 

**Note:** All units are in millimeters unless otherwise indicated. **E2E** 

|**Note:**<br>Allu<br>**E2E**|nits are in|millimete|rs unless otherwise indicate|rs unless otherwise indicate|d.|d.|||||
|---|---|---|---|---|---|---|---|---|---|---|
||**Type**||**DC 2-wire**||**DC 3-wire**||**AC 2-wire**||**AC/DC 2-wire**||
||||**Part number**|**Figure**<br>**no.**|**Part number**|**Figure**<br>**no.**|**Part number**|**Figure**<br>**no.**|**Part number**|**Figure**<br>**no.**|
|Pre-wired|Shielded|4 dia.|---|---|E2E-CR8��|1|---|---|---|---|
|||M5|||E2E-X1��|3|||||
|||5.4 dia.|||E2E-C1��|2|||||
|||M8|E2E-X2D�-N|4|E2E-X1R5E�/F�|4|E2E-X1R5Y�|6|||
|||M12|E2E-X3D�-N|8|E2E-X2E�/F�|8|E2E-X2Y�|10|E2E-X3T1|12|
|||M18|E2E-X7D�-N|13|E2E-X5E�/F�|13|E2E-X5Y�|13|E2E-X7T1|13|
|||M30|E2E-X10D�-N|15|E2E-X10E�/F�|15|E2E-X10Y12|15|E2E-X10T1|15|
||**U**n-<br>**hi** **ld** **d**<br>s e e|M8|E2E-X4MD�|5|E2E-X2ME�/F�|5|E2E-X2MY�|7|---|---|
|||M12|E2E-X8MD�|9|E2E-X5ME�/F�|9|E2E-X5MY�|11|||
|||M18|E2E-X14MD�|14|E2E-X10ME�/F�|14|E2E-X10MY�|14|||
|||M30|E2E-X20MD�|16|E2E-X18ME�/F�|16|E2E-X18MY�|16|||
|Connector<br>**(M12)**|Shielded|M8|E2E-X2D�-M1G|17|E2E-X1R5E�-M1<br>/F�-M1|17|---|---|---|---|
|||M12|E2E-X3D�-M1G|19|E2E-X2E�-M1<br>/F�-M1|19|E2E-X2Y1-M1|21|||
|||M18|E2E-X7D�-M1G|23|E2E-X5E�-M1<br>/F�-M1|23|E2E-X5Y1-M1|23|||
|||M30|E2E-X10D�-M1G|25|E2E-X10E�-M1<br>/F�-M1|25|E2E-X10Y1-M1|25|||
||Un-<br>**shielded**|M8|E2E-X4MD�-M1G|18|E2E-X2ME�-M1<br>/F�-M1|18|---|---|---|---|
|||M12|E2E-X8MD�-M1G|20|E2E-X5ME�-M1<br>/F�-M1|20|E2E-X5MY�-M1|22|||
|||M18|E2E-X14MD�-M1G|24|E2E-X10ME�-M1<br>/F�-M1|24|E2E-X10MY�-M1|24|||
|||M30|E2E-X20MD�-M1G|26|E2E-X18ME�-M1<br>/F�-M1|26|E2E-X18MY�-M1|26|||
|Connector<br>**(M8)**|Shielded|M8|E2E-X2D�-M3G|27|E2E-X1R5E�-M3<br>/F�-M3|27|---|---|---|---|
||Un-<br>shielded||E2E-X4MD�-M3G|28|E2E-X2ME�-M3<br>/F�-M3|28|||||
|**Co**nn**ecto**r<br>**t**<br>**i**<br>ex ens on|Shielded|M12|E2E-X3D1-M1GJ|29|---|---|---|---|---|---|
|||M18|E2E-X7D1-M1GJ|31|||||||
|||M30|E2E-X10D1-M1GJ|33|||||||
||**U**n-<br>**hi** **ld** **d**<br>s e e|M12|E2E-X8MD1-M1GJ|30|---|---|---|---|---|---|
|||M18|E2E-X14MD1-M1GJ|32|||||||
|||M30|E2E-X20MD1-M1GJ|34|||||||
|**Co**nn**ecto**r<br>**t**<br>**i**<br>ex ens on<br>**(no**<br>polarity)|Shielded|M12|E2E-X3D1-M1J-T|29|---|---|---|---|---|---|
|||M18|E2E-X7D1-M1J-T|31|||||||
|||M30|E2E-X10D1-M1J-T|33|||||||



28 

~~**E2E/E2E2**~~ 

~~**E2E/E2E2**~~ 

## **Pre-wired Models (Shielded)** 

**==> picture [199 x 207] intentionally omitted <==**

**----- Start of picture text -----**<br>
Fig. 1 : E2E-CR8 oo<br>4 dia.<br>Indicator<br>Round vinyl-insulated cable<br>(oil- and vibration-resistive),<br>0.14 mm [2] , 3 cores<br>2.9 dia.<br>Standard length: 2 m,<br>The cable can be extended<br>up to 100 m<br>Fig. 3 : E2E-C1 oo<br>5.4 dia.<br>Indicator Round vinyl-insulated cable<br>(oil- and vibration-resistive),<br>0.14 mm [2] , 3 cores<br>2.9 dia.<br>Standard length: 2 m,<br>The cable can be extended<br>up to 100 m<br>**----- End of picture text -----**<br>


**==> picture [220 x 261] intentionally omitted <==**

**----- Start of picture text -----**<br>
Pre-wired Models<br>(Shielded)<br>Fig. 4 : E2E-X2D Oo -N<br>E2E-X1R5E oo /F<br>15 dia.<br>a=] bert<br>M8 x 1 Operationindicator Round vinyl-insulated cable4 dia. (0.08 dia. x 60),<br> a Two clamping nut = 2/3 cores<br>Toothed washer 4 dia. (0.08 dia. x 6/10) for<br>robotics cable models<br>Standard length: 2 m<br>Fig. 6 : E2E-X1R5Y Oo<br>6 15 dia. a Spe Operation —=K<br>M8 x 1 indicator<br>x Two clamping nut Round vinyl-insulated cable |<br>Toothed washer 4 dia. (0.08 dia. x 60), 2 cores<br>Standard length: 2 m<br>**----- End of picture text -----**<br>


**==> picture [221 x 120] intentionally omitted <==**

**----- Start of picture text -----**<br>
Fig. 8 : E2E-X3D O -N<br>E2E-X2E oo /F<br>21 dia.<br>ZN! on<br>PaaN a ie10 [ 2<br>M12 x 1 Operation Round vinyl-insulated cable<br>indicator 4 dia. (0.08 dia. x 60),<br>Two clamping nut 2/3 cores<br>Toothed washer 4 dia. (0.08 dia. x 6/10) for<br>robotics cable models<br>Standard length: 2 m<br>**----- End of picture text -----**<br>


**==> picture [213 x 110] intentionally omitted <==**

**----- Start of picture text -----**<br>
Fig. 2 : E2E-X1 oo<br>Indicator f<br>M5 x 0.5 Two clamping Round vinyl-insulated cable<br>nut (oil- and vibration-resistive),<br>0.14 mm [2] , 3 cores<br>Two toothed 2.9 dia.<br>washer Standard length: 2 m,<br>The cable can be extended<br>up to 100 m<br>**----- End of picture text -----**<br>


## **Pre-wired Models (Unshielded)** 

**==> picture [208 x 114] intentionally omitted <==**

**----- Start of picture text -----**<br>
Fig. 5 : E2E-X4MD<br>E2E-X2ME oo /F<br>15 dia.<br>= ee|<br>6.1 dia. M8 x 1 Operationindicator Round vinyl-insulated cable4 dia. (0.08 dia. x 60),<br>Oo) ef Ate Two clamping nut 2/3 cores<br>Toothed washer 4 dia. (0.08 dia. x 6/10) for<br>robotics cable models<br>Standard length: 2 m<br>**----- End of picture text -----**<br>


**==> picture [211 x 132] intentionally omitted <==**

**----- Start of picture text -----**<br>
Fig. 7 : E2E-X2MY<br>{O} 15 dia.  eth Seoe<br>6.1 dia. M8 x 1 Operationindicator<br>rv Two clamping nut Round vinyl-insulated cable<br>Toothed washer 4 dia. (0.08 dia. x 60), 2 cores<br>Standard length: 2 m<br>Fig. 9 : E2E-X8MD O<br>E2E-X5ME oo /F<br>**----- End of picture text -----**<br>


**==> picture [207 x 103] intentionally omitted <==**

**----- Start of picture text -----**<br>
21 dia.<br>i LA<br>PalHAN - Iiacl<br>9 dia. M12 x 1 P\ Operationindicator Round vinyl-insulated cable4 dia. (0.08 dia. x 60),<br>Two clamping 2/3 cores<br>nut 4 dia. (0.08 dia. x 6/10) for<br>Toothed washer robotics cable models<br>Standard length: 2 m<br>**----- End of picture text -----**<br>


29 

~~**E2E/E2E2**~~ 

## ~~OTRO~~ ~~**E2E/E2E2** ——~~ ~~**E2E/E2E2**~~ **Pre-wired Models Pre-wired Models (Shielded) (Unshielded)** 

## **Fig. 10 : E2E-X2Y** 

**==> picture [197 x 87] intentionally omitted <==**

**----- Start of picture text -----**<br>
21 dia.<br>Operation indicator<br>M12 x 1 Two clamping nut<br>Toothed washer Round vinyl-insulated cable<br>4 dia. (0.08 dia. x 60), 2 cores<br>Standard length: 2 m<br>**----- End of picture text -----**<br>


## **Fig. 11 : E2E-X5MY** 

**==> picture [202 x 93] intentionally omitted <==**

**----- Start of picture text -----**<br>
21 dia.<br>9 dia. Operation indicator<br>M12 x 1<br>Two clamping nut<br>Toothed washer Round vinyl-insulated cable<br>4 dia. (0.08 dia. x 60),<br>2 cores<br>Standard length: 2 m<br>**----- End of picture text -----**<br>


## **Fig. 12 : E2E-X3T1** 

**==> picture [210 x 87] intentionally omitted <==**

**----- Start of picture text -----**<br>
21 dia.<br>M12 x 1 Operation indicator<br>Two clamping nut<br>Toothed washer Round vinyl-insulated cable<br>4 dia. (0.08 dia. x 60), 2 cores<br>Standard length: 2 m<br>**----- End of picture text -----**<br>


**Fig. 13 : E2E-X7D** C **-N/E2E-X5E** OO **/F Fig. 14 : E2E-X14MD** C **/E2E-X10ME** OO **/F E2E-X5Y** O **/E2E-X7T1 E2E-X10MY** O 

**==> picture [458 x 108] intentionally omitted <==**

**----- Start of picture text -----**<br>
29 dia.<br>29 dia.<br>ect“= :| r A 24 Tr= 10 .<br>14.8 dia.<br>M18 x 1 Sten Operationindicator Round vinyl-insulated cable6 dia. (0.12 dia. x 45), x L M18 x 1 Bate Operationindicator a Round vinyl-insulated c6 dia. (0.12 dia. x 45),2/3 cores =x<br>Toothed washerTwo clamping nut 2/3 cores6 dia. (0.08 dia. x 6/17) forrobotics cable models Toothed washerTwo clamping nut 6 dia. (0.08 dia. x 6/17) robotics cable models<br>Standard length: 2 m<br>Standard length: 2 m<br>**----- End of picture text -----**<br>


**Fig. 15 : E2E-X10D** O] **-N/E2E-X10E** OO **/F E2E-X10Y** O **/E2E-X10T1** 

**Fig. 16 : E2E-X20MD** C **/E2E-X18ME** OO **/F E2E-X18MY** O 

**==> picture [239 x 132] intentionally omitted <==**

**----- Start of picture text -----**<br>
42 dia.<br>aA Sf all<br>EN 7 |<br>Operation indicator<br>CAT M30 x 1.5 YH Round vinyl-insulated cable |<br>Toothed washerTwo clamping nut 6 dia. (0.12 dia. x 45),2/3 cores<br>6 dia. (0.08 dia. x 6/17) for<br>robotics cable models<br>Standard length: 2 m<br>**----- End of picture text -----**<br>


**==> picture [233 x 120] intentionally omitted <==**

**----- Start of picture text -----**<br>
42 dia.<br>=~ =i 10<br>tr<br>Round vinyl-insulated<br>26.8 dia. Operationindicator cable 6 dia. (0.12 dia.<br>M30 x 1.5 us x 45), 2/3 cores<br>Toothed washer Two clampingnut 6 dia. (0.08 dia. x6/17) for robotics<br>cable models<br>Standard length: 2 m<br>**----- End of picture text -----**<br>


30 

~~OTRO~~ ~~**E2E/E2E2** ———e~~ ~~**E2E/E2E2**~~ **Connector Models Connector Models (Shielded) (Unshielded)** 

**==> picture [200 x 469] intentionally omitted <==**

**----- Start of picture text -----**<br>
Fig. 17 : E2E-X2D O] -M1G<br>E2E-X1R5E O -M1/F O -M1<br>15 dia.<br>M12 x 1<br>a of sc="<br>M8 x 1 Operation indicator<br>Two clamping nut<br>Toothed washer<br>Fig. 19 : E2E-X3D C] -M1G<br>E2E-X2E O] -M1/F O] -M1<br>21 dia.<br>M12 x 1<br>Operation indicator<br>M12 x 1 Two clamping nut<br>Toothed washer<br>Fig. 21 : E2E-X2Y1-M1<br>21 dia.<br>M12 x 1<br>WY tap Ska<br>Operation indicator<br>M12 x 1 Two clamping nut<br>Toothed washer<br>Fig. 23 : E2E-X7D -M1G/E2E-X5E -M1/F -M1<br>E2E-X5Y1-M1 O] O O<br>29 dia.<br>M12 x 1<br>a<br>Operation indicator<br>oe<br>M18 x 1 Two clamping nut<br>Toothed washer<br>**----- End of picture text -----**<br>


**Fig. 25 : E2E-X10D -M1G/E2E-X10E -M1/F -M1 E2E-X10Y1-M1** O O O 

**==> picture [192 x 97] intentionally omitted <==**

**----- Start of picture text -----**<br>
42 dia.<br>AX<br>Ht Een M12 x 1<br>ia<br>Operation indicator<br>M30 x 1.5<br>Two clamping nut<br>Toothed washer<br>**----- End of picture text -----**<br>


**==> picture [174 x 106] intentionally omitted <==**

**----- Start of picture text -----**<br>
Fig. 18 : E2E-X4MD O -M1G<br>E2E-X2ME O -M1/F O] -M1<br>15 dia.<br>6S 6.1 dia.  pe fhScy Operation indicatorM12 x 1<br>M8 x 1 Two clamping nut<br>Toothed washer<br>**----- End of picture text -----**<br>


**==> picture [178 x 102] intentionally omitted <==**

**----- Start of picture text -----**<br>
Fig. 20 : E2E-X8MD O -M1G<br>E2E-X5ME O -M1/F O] -M1<br>21 dia.<br>M12 x 1<br>9 dia. Operation indicator<br>M12 x 1 Two clamping nut<br>Toothed washer<br>**----- End of picture text -----**<br>


**Fig. 22 : E2E-X5MY** O **-M1** 

**==> picture [216 x 351] intentionally omitted <==**

**----- Start of picture text -----**<br>
21 dia.<br>M12 x 1<br>(Op FEAR<br>9 dia. Operation indicator<br>M12 x 1 Two clamping nut<br>Toothed washer<br>Fig. 24 : E2E-X14MD -M1GE2E-X10ME -M1/F -M1<br>E2E-X10MY 5 -M1 O O<br>29 dia.<br>M12 x 1<br>Noch<br>Sey) OSs 14.8 dia. Operation indicator<br>M18 x 1 Two clamping nut<br>Toothed washer<br>Fig. 26 : E2E-X20MD -M1G/E2E-X18ME -M1/F -M1<br>E2E-X18MY 5 -M1 O O<br>42 dia.<br>26.8 dia.<br>AN<br>a M12 x 1<br>Nag Operation indicator<br>M30 x 1.5<br>Two clamping nut<br>Toothed washer<br>**----- End of picture text -----**<br>


31 

~~OTRO~~ ~~**E2E/E2E2 E2E/E2E2**~~ 

~~**E2E/E2E2**~~ 

**==> picture [321 x 274] intentionally omitted <==**

**----- Start of picture text -----**<br>
M8 Connector Models M8 Connector Models<br>(Shielded) (Unshielded)<br>Fig. 27 : E2E-X2D O -M3G/E2E-X1R5E O -M3/F O -M3 Fig. 28 : 28 : E2E-X4MD<br>15 dia. 15 dia.<br>M8 x 1<br>a eG<br>M8 x 1 Two clamping nutOperation indicator 6.1 dia.<br>Toothed washer<br>Connector Extension Models<br>Fig. 29 : E2E-X3D1-M1GJ<br>E2E-X3D1-M1J-T<br>21 dia.<br>M12 x 1<br>a Ro<br>M12 x 1 Two clamping nutOperation indicator Round vinyl-insulated cable<br>Toothed washer 4 dia. (0.08 dia. x 60)<br>Standard length: 0.3 m<br>**----- End of picture text -----**<br>


## **M8 Connector Models (Unshielded)** 

**==> picture [195 x 96] intentionally omitted <==**

**----- Start of picture text -----**<br>
Fig. 28 : 28 : E2E-X4MD O -M3G/E2E-X2ME O -M3/F O -M3<br>15 dia.<br>M8 x 1<br>tea<br>6.1 dia. M8 x 1 Operation indicator<br>Two clamping nut<br>Toothed washer<br>**----- End of picture text -----**<br>


## **Fig. 30 : E2E-X8MD1-M1GJ** 

**==> picture [325 x 95] intentionally omitted <==**

**----- Start of picture text -----**<br>
21 dia.<br>9 dia. M12 x 1<br>A tact<br>Taw’ Coit tom— anf! |<br>(O) Ae M12 x 1 Operation indicator =a<br>Two clamping nut Round vinyl-insulated cable<br>Toothed washer 4 dia. (0.08 dia. x 60)<br>Fig. 31 : E2E-X7D1-M1GJ Standard length: 0.3 m<br>E2E-X7D1-M1J-T<br>**----- End of picture text -----**<br>


**==> picture [261 x 86] intentionally omitted <==**

**----- Start of picture text -----**<br>
29 dia.<br>(aaN\ bt — er Trl p= M12 x 1<br>Operation indicator<br>SD M18 x 1 ot \<br>Two clamping nut Round vinyl-insulated cable<br>Toothed washer 6 dia. (0.12 dia. x 45)<br>Standard length: 0.3 m<br>**----- End of picture text -----**<br>


32 

~~——>—S——S-_~~ ~~**E2E/E2E2 E2E/E2E2**~~ 

## **Connector Extension Models** 

**Fig. 32 : E2E-X14MD1-M1GJ** 

**==> picture [348 x 397] intentionally omitted <==**

**----- Start of picture text -----**<br>
29 dia.<br>M12 x 1<br>14.8 dia.<br>Oia: M18 x 1 Operation indicator<br>Two clamping nut Round vinyl-insulated cable<br>Toothed washer 6 dia. (0.12 dia. x 45)<br>Standard length: 0.3 m<br>Fig. 33 : E2E-X10D1-M1GJ<br>E2E-X10D1-M1J-T<br>42 dia.<br>M12 x 1<br>Operation indicator<br>Round vinyl-insulated cable<br>oO zi M30 x 1.5 Two clamping nut Ec 6 dia. (0.12 dia. x 45)<br>Standard length: 0.3 m<br>Toothed washer<br>Fig. 34 : E2E-X20MD1-M1GJ<br>42 dia.<br>M12 x 1<br>26.8 dia. Operation indicator<br>Hie M30 x 1.5 Two clamping nut Ea Round vinyl-insulated cable6 dia. (0.12 dia. x 45)<br>Toothed washer Standard length: 0.3 m<br>**----- End of picture text -----**<br>


## **Mounting Holes** 

F 

**Dimensions** 4 dia. M5 5.4 dia. M8 M12 M18 M30 ~~ee~~ **F (mm)** 4.2[+0.5] /0 dia. 5.5[+0.5] /0 dia. 5.7[+0.5] /0 dia. 8.5[+0.5] /0 dia. 12.5[+0.5] /0 dia. 18.5[+0.5] /0 dia. 30.5[+0.5] /0 dia. 

33 

~~OTRO~~ ~~**E2E/E2E2 E2E/E2E2**~~ 

## **E2E2** 

## **Pre-wired Models** 

**==> picture [286 x 16] intentionally omitted <==**

**----- Start of picture text -----**<br>
E2E2-X3D E2E2-X8MD<br>E2E2-X2 E2E2-X5M<br>**----- End of picture text -----**<br>


**==> picture [480 x 536] intentionally omitted <==**

**----- Start of picture text -----**<br>
21 dia. 21 dia.<br>9 dia.<br>M12 × 1 Two clamping nutOperation indicatorRound vinyl-insulated cable M12 × 1 Two clamping nutOperation indicatorRound vinyl-insulated cable<br>Toothed washer 4 dia. (0.08 dia. x 60) Toothed washer 4 dia. (0.08 dia. x 60)<br>2/3 cores 2/3 cores<br>Standard length: 2 m Standard length: 2 m<br>E2E2-X7D E2E2-X14MD<br>E2E2-X5 E2E2-X10M<br>29 dia. 29 dia.<br>_ ip | ; | 14.8 dia. “ip |<br>M18 × 1 Two clamping nut Operation indicatorRound vinyl-insulated cable M18 × 1 Two clamping nutOperation indicator<br>Toothed washer 6 dia. (0.12 dia. x 45) Toothed washer Round vinyl-insulated cable<br>2/3 cores 6 dia. (0.12 dia. x 45)<br>Standard length: 2 m 2/3 cores<br>Standard length: 2 m<br>E2E2-X10D<br>42 dia.<br>=i<br>Operation indicator Round vinyl-insulated cable<br>6 dia. (0.12 dia. x 45)<br>M30 × 1.5 Two clamping nut 2/3 cores<br>Toothed washer Standard length: 2 m<br>E2E2-X20MD<br>E2E2-X18M<br>42 dia.<br>AA pa|<br>26.8 dia.<br>(Q a Operation indicator s< Round vinyl-insulated cable<br>6 dia. (0.12 dia. x 45)<br>M30 × 1.5 Two clamping nut 2/3 cores<br>Toothed washer Standard length: 2 m<br>**----- End of picture text -----**<br>


34 

**==> picture [487 x 403] intentionally omitted <==**

**----- Start of picture text -----**<br>
OTRO E2E/E2E2 ——— E2E/E2E2<br>Connector Models Connector Models<br>(Shielded) (Unshielded)<br>E2E2-X2C O -M1/B O -M1 E2E2-X5MC -M1/B -M1<br>70<br>21 dia. 70 21 dia. 55<br>A 55 M12 x 1 M12 x 1<br>OY 9 dia. HRS Operation indicator<br>YQ [ESR] REL Operation indicator a oe M12 x 1<br>M12 x 1 Two clamping nut<br>Two clamping nut Toothed washer<br>Toothed washer<br>E2E2-X2Y OO -M4 E2E2-X5MY -M4<br>21 dia. 21 dia.<br>1/2-20unf 1/2-20unf<br>Operation indicator 9 dia. Operation indicator<br>M12 x 1 Two clamping nut M12 x 1 Two clamping nut<br>Toothed washer Toothed washer<br>E2E2-X5C O -M1/B OO -M1 E2E2-X10MC -M1/B -M1<br>29 dia. 75 29 dia. 75<br>60 60<br>M12 x 1<br>M12 x 1<br>i<br>(ES eas<br>M18 x 1 Two clamping nutOperation indicator 14.8 dia. Operation indicator<br>Toothed washer M18 x 1 Two clamping nut<br>Toothed washer<br>**----- End of picture text -----**<br>


**==> picture [341 x 241] intentionally omitted <==**

**----- Start of picture text -----**<br>
E2E2-X5C O -M1/B -M1 E2E2-X10MC -M1/B -M1<br>29 dia. 75 29 dia.<br>60<br>M12 x 1<br>i<br>Operation indicator 14.8 dia.<br>M18 x 1 Two clamping nutOperation indicator<br>Toothed washer<br>E2E2-X5Y -M4 E2E2-X10MY -M4<br>29 dia. 75 29 dia.<br>60<br>1/2-20unf<br>i<br>(ES<br>Operation indicator 14.8 dia.<br>M18 x 1 Two clamping nut<br>Toothed washer<br>**----- End of picture text -----**<br>


**==> picture [170 x 93] intentionally omitted <==**

**----- Start of picture text -----**<br>
75<br>29 dia.<br>60<br>1/2-20unf<br> as<br>14.8 dia. Operation indicator<br>M18 x 1 Two clamping nut<br>Toothed washer<br>**----- End of picture text -----**<br>


35 

~~**E2E/E2E2** oc~~ 

~~**E2E/E2E2** ———~~ 

**==> picture [206 x 307] intentionally omitted <==**

**----- Start of picture text -----**<br>
Connector Models<br>(Shielded)<br>E2E2-X10C -M1/B -M1<br>80<br>S 42 dia. 65<br>M12 x 1<br>qe<br>Operation indicator<br>M30 x 1.5 Two clamping nut<br>Toothed washer<br>E2E2-X10Y -M4<br>80<br>A 42 dia. 65<br>1/2-20unf<br>oe<br>Operation indicator<br>M30 x 1.5 Two clamping nut<br>Toothed washer<br>Mounting Holes<br>**----- End of picture text -----**<br>


## **Connector Models (Unshielded)** 

**==> picture [207 x 263] intentionally omitted <==**

**----- Start of picture text -----**<br>
E2E2-X18MC -M1/B -M1<br>80<br>42 dia. 65<br>26.8 dia.<br>A<br>M12 x 1<br>LUBE Operation indicator<br>M30 x 1.5<br>Two clamping nut<br>Toothed washer<br>E2E2-X18MY -M4<br>80<br>42 dia. 65<br>26.8 dia.<br>A<br>1/2-20unf<br>LUBE Operation indicator<br>M30 x 1.5<br>Two clamping nut<br>Toothed washer<br>**----- End of picture text -----**<br>


F 

**Dimensions** M12 M18 M30 ~~a~~ **F (mm)** 12.5 dia. 18.5 dia. 30.5 dia. 

36 

~~ee~~ ~~**E2E/E2E2 E2E/E2E2**~~ 

## ~~Installation~~ 

## **Connection** 

## **E2E** 

> **E2E-X** Oo **D E2E-X** im **D1S E2E-X** im **D1-M1J-1 DC 2-wire Models DC 3-wire Models DC 2-wire Models (Without Diagnostic Output) (With Diagnostic Output) (No Polarity)** 

> **E2E-X** OO **Y E2E-X** OO **Y AC 2-wire Models AC 2-wire Models** Brown **E2E-X T1** Load **E2E-X T1 AC/DC 2-wire Models** Orange **AC/DC 2-wire Models** Load Brown Load Blue Brown Load Power supply Power Blue **Note:** The control output and diagsupply ~~a~~ a tivenostic common terminal. output share the nega ~~e~~ There-aee Blue ~~m~~ fore, the loads must be con- 

> Brown nected to the positive sides of the control output and diag- **Note:** There is no need to be conPower nostic output. cerned about the polarity Blue supply (Brown/Blue) of the Proximity Load Sensor. **Note:** The load can be connected as shown above. 

## **Connected to PC** 

**==> picture [303 x 89] intentionally omitted <==**

**----- Start of picture text -----**<br>
E2E-X Oo D E2E-X OO E<br>DC 2-wire Models DC 3-wire Models<br>Brown<br>Brown nN! O<br>O—d : Black<br>Blue Blue<br>o 24 VDC ie 5 — Oo" 24 VDC<br>**----- End of picture text -----**<br>


**Connected to Relay Load E2E-X** Oo **D E2E-X** OO **E DC 2-wire Models DC 3-wire Models** 

> **E2E-X** Oo **F DC 3-wire Models** 

**==> picture [358 x 46] intentionally omitted <==**

**----- Start of picture text -----**<br>
Brown Brown Brown<br>Black Black<br>24 VDC<br>Blue Blue Blue<br>**----- End of picture text -----**<br>


37 

~~ee~~ ~~**E2E/E2E2 E2E/E2E2**~~ 

## **E2E2** 

> **E2E2-X** Oo **D DC 2-wire Models** 

> **E2E2-X** OO **Y AC 2-wire Models** 

**==> picture [263 x 70] intentionally omitted <==**

**----- Start of picture text -----**<br>
Brown Brown<br>Load<br>Power Power<br>supply supply<br>Blue Blue<br>Load<br>Note: The load can be connected as shown in the above diagrams.<br>**----- End of picture text -----**<br>


**==> picture [283 x 111] intentionally omitted <==**

**----- Start of picture text -----**<br>
Connected to PC<br>E2E2-X Oo D E2E2-X Oo C<br>DC 2-wire Models DC 3-wire Models<br>Brown In!<br>O—d :<br>a Blue COM ASL<br>Oo 24 VDC x<br>**----- End of picture text -----**<br>


**==> picture [33 x 57] intentionally omitted <==**

**----- Start of picture text -----**<br>
Brown<br>O<br>Black<br>Blue<br>Oo" 24 VDC<br>**----- End of picture text -----**<br>


38 

~~**E2E/E2E2**~~ 

~~**E2E/E2E2**~~ 

> a **Pin Arrangement** 

> **E2E-X** OOo **D -M** Oo **DC 2-wire Models** 

|**Connector**|**Self-**<br>**diag-**<br>**nostic**<br>**output**|**Output**<br>**config-**<br>**uration**|**Applicable**<br>**models**|**Pin arrangement**|
|---|---|---|---|---|
|M12|No|NO|E2E-X<br>D1-M1G<br>(seenote)|**Note:**<br>Terminals 2 and 3 are not used.<br>Load<br>Load<br>Lf<br>5 0)<br>De<br>6 (1)<br>DC|
||||E2E-X<br>D1-M1J-T|**Note:**<br>1. Terminals1 and 2 are not used.<br>2. Terminals3and 4 has nopolarity.<br>Load<br>Load<br>or<br>or<br>os)<br>oO)<br>—<br>bc<br>‘d,<br>DC<br>‘Ly|
||||E2E-X<br>D1-M1|**Note:**<br>Terminals1 and 2 are not used.<br>Load<br>Load<br>O CQ)<br>oOQ)<br>~~—~~<br>i.<br>bc<br>~~—~~~|
|||NC|E2E-X<br>D2-M1G<br>(seenote)|**Note:**<br>Terminals3 and 4 are not used.<br>Load<br>Load<br>|<br>oY)<br><M)<br>©<br>+ @®<br>+<br>Ld|
||||E2E-X<br>D2-M1|Load<br>Load<br>**Note:**<br>Terminal 1 is not used.<br>{|<br>©a)<br>})<br>@®<br>blo<br>|<br>|||
||Yes|NO|E2E-X<br>D1S-M1|**Note:**<br>Terminals 1 and 4 are not used.<br>Load<br>Load<br>(Controloutput)<br>—~~—~~<br>EeE0) [f<br>.|
|M8|No|NO|E2E-X<br>D1-M3G|**Note:**<br>Terminals2 and 3 are not used.<br>Load<br>Load<br>1,<br>nc<br>e~~o~~|
|||NC|E2E-X<br>D2-M3G|**Note:**<br>Terminals 3 and 4 are not used.<br>Load<br>Load<br>{<br>t<br>@<br>+l<br>|<br>{f|



**Note:** The above pin arrangements conform to IEC standards. 

39 

~~**E2E/E2E2**~~ 

~~**E2E/E2E2**~~ 

## **E2E-X** fl **E** oO **-M1 DC 3-wire Models** 

|**Connector**|**Output configuration**|**Applicable**<br>**models**|**Pin arrangement**|
|---|---|---|---|
|M12|NO|E2E-X<br>E1-M1|**Note:**<br>Terminal 2 is not used.<br>Load|
|||E2E-X<br>F1-M1|**Note:**<br>Terminal2 is notused.<br>Load|
||NC|E2E-X<br>E2-M1|**Note:**<br>Terminal4 is not used.<br>Load<br>[|~~©~~<br>exo<br>-|
|||E2E-X<br>F2-M1<br>~~_ &~~|**Note:**<br>Terminal4 is not used.<br>Load<br>~~&~~<br>||
|M8|NO|E2E-X<br>E1-M3<br>~~_ &~~|**Note:**<br>Terminal2 is not used.<br>Load<br>~~&~~<br>|<br>de<br>[||
|||E2E-X<br>F1-M3<br>~~eee~~|**Note:**<br>Terminal2 is not used.<br>Load<br>®<br>DC<br>ae<br>[|<br>~~eee~~|
||NC|E2E-X<br>E2-M3<br>~~eee~~<br>~~ee~~|**Note:**<br>Terminal4 is not used.<br>Load<br>~~eee~~<br>S—<br>:<br>~~ee~~|
|||E2E-X<br>F2-M3<br>~~eee~~<br>~~ee~~|**Note:**<br>Terminal4 is not used.<br>Load<br>~~eee~~<br>~~ee~~<br>S><br>{||



40 

**==> picture [487 x 201] intentionally omitted <==**

**----- Start of picture text -----**<br>
OTRO E2E/E2E2 ———e E2E/E2E2<br>E2E-X oo Y -M1 AC 2-wire Models<br>| Output configuration Ge Applicable models Pin arrangement<br>NO E2E-X Y1-M1<br>Load<br>Load<br>Note: Terminals 1 and 2 are not used.<br>NC E2E-X Y2-M1 [| Load<br>{| Load<br>Note: Terminals 3 and 4 are not used.<br>**----- End of picture text -----**<br>


## ~~Precautions~~ 

## **Mounting** 

Do not tighten the nut with excessive force. A washer must be used with the nut. 

Refer to the following to mount the E2E-CR8 and E2E-C1 nonscrew models. 

**==> picture [93 x 37] intentionally omitted <==**

**----- Start of picture text -----**<br>
8 to 21 mm<br>M3 hole<br>No screw is provided<br>with the E2E-CR8 or<br>E2E-C1.<br>**----- End of picture text -----**<br>


**E2E** Tighten the screw to a torque of 0.20 N m (2 kgf cm) maximum to secure the E2E-CR8 and a torque of 0.39 N m (4 kgf cm) maxi- **Shielded Model Unshielded Model** mum to secure the E2E-C1. **E2E2 Type Torque** Part B Part A Part B Part A ~~a~~ M12 30 N m (310 kgf cm) 2 ~~—~~ M18 70 N m (710 kgf cm) **Note:** Thepart table below shows the tightening torques for part A B nuts. In the previous examples, the nut is on the sen and- ~~—=——~~ M30 180 N m (1,800 kgf cm) sor head side (part B) and hence the tightening torque for part B applies. If this nut is in part A, the tightening torque for part A applies instead. 

|~~__~~|~~__~~||||
|---|---|---|---|---|
|**Type**<br>~~__~~||**Part A**||**Part B**|
|||**Length**|**Torque**|**Torque**|
|M8<br>~~__~~|Shielded<br>~~__~~|9 mm|**9**Nm<br>**(90 k** **f**<br>**)**<br>gcm|12 Nm<br>**(120 k** **f**<br>**)**<br>gcm|
||Unshielded<br>~~__~~|3 mm|||
|M12<br>~~[~~||29 Nm(300 kgfcm)<br>~~ee~~<br>|||
|M18<br>~~ee~~||69 Nm(700 kgfcm)<br>~~ee~~|||
|M30<br>~~ee~~||176 Nm(1,800 kgfcm)<br>~~ee~~|||



41 

~~**E2E/E2E2**~~ 

~~**E2E/E2E2**~~ 

## **Effects of Surrounding Metal** 

When mounting the E2E within a metal panel, ensure that the clearances given in the following table are maintained. Failure to maintain these distances may cause deterioration in the performance of the sensor. 

d dia. 

## **E2E** 

**==> picture [487 x 539] intentionally omitted <==**

**----- Start of picture text -----**<br>
|||||||||
|---|---|---|---|---|---|---|---|
|Type|Item|M8|M12|M18|M30|
|E2E-X|Shielded|0 mm|0 mm|0 mm|0 mm|
|DC 2|-w re|i|d|8 mm|12 mm|18 mm|30 mm|
|E2E-X|T1|
|D|0 mm|0 mm|0 mm|0 mm|
|AC/DC 2-wire|
|m|4.5 mm|8 mm|20 mm|40 mm|
|n|12 mm|18 mm|27 mm|45 mm|
|===|
|Unshielded|12 mm|15 mm|22 mm|30 mm|
|d|24 mm|40 mm|70 mm|90 mm|
|D|12 mm|15 mm|22 mm|30 mm|
|m|8 mm|20 mm|40 mm|70 mm|
|n|24 mm|40 mm|70 mm|90 mm|
|SSS|—|
|E2E-X|oO|Shielded|Ce|0 mm|0 mm|0 mm|0 mm|
|E2E|-|X|F|
|d|8 mm|12 mm|18 mm|30 mm|
|DC 3-wire|a8|eG|
|D|0 mm|0 mm|0 mm|0 mm|
|E2E-X|Y|
|AC 2-wire|_|eG|m|4.5 mm|8 mm|20 mm|40 mm|
|n|12 mm|18 mm|27 mm|45 mm|
|Unshielded|6 mm|15 mm|22 mm|30 mm|
|d|24 mm|40 mm|55 mm|90 mm|
|D|6 mm|15 mm|22 mm|30 mm|
|m|8 mm|20 mm|40 mm|70 mm|
|n|24 mm|36 mm|54 mm|90 mm|
|=S=S=S|
|ee|
|E2E2|
|Type|Item|M12|M18|M30|
|E2E2-X|Shielded|0 mm|0 mm|0 mm|
|DC 2|-w re|i|d|12 mm|18 mm|30 mm|
|D|0 mm|0 mm|0 mm|
|m|8 mm|20 mm|40 mm|
|n|18 mm|27 mm|45 mm|
|SSS|
|Unshielded|15 mm|22 mm|30 mm|
|d|40 mm|70 mm|90 mm|
|D|15 mm|22 mm|30 mm|
|m|20 mm|40 mm|70 mm|
|n|40 mm|70 mm|90 mm|
|SS|
|E2E2-X|og|Shielded|a|0 mm|0 mm|0 mm|
|E2E2|-|X|C|
|d|12 mm|18 mm|30 mm|
|DC 3-wire|a8|es|
|D|0 mm|0 mm|0 mm|
|E2E2-X|Y|
|AC 2-wire|_|a|m|8 mm|20 mm|40 mm|
|n|18 mm|27 mm|45 mm|
|Unshielded|15 mm|22 mm|30 mm|
|d|40 mm|55 mm|90 mm|
|D|15 mm|22 mm|30 mm|
|m|20 mm|40 mm|70 mm|
|SSa|n|36 mm|54 mm|90 mm|

**----- End of picture text -----**<br>


42 

~~**E2E/E2E2**~~ 

~~**E2E/E2E2**~~ 

## **Relationship between Screw Sizes and Models E2E** 

|<br>**E2E**|||
|---|---|---|
||**Type**|**Part number**|
|M8|Shielded|E2E-X2D�<br>E2E-X1R5E�/F�<br>E2E-X1R5Y�|
||Unshielded|E2E-X4MD�<br>E2E-X2ME�/F�<br>E2E-X2MY�|
|M12|Shielded|E2E-X3D�<br>E2E-X2E�/F�<br>E2E-X2Y�<br>E2E-X3T1|
||Unshielded|E2E-X8MD�<br>E2E-X5ME�/F�<br>E2E-X3T1|
|M18|Shielded|E2E-X7D�<br>E2E-X5E�/F�<br>E2E-X5Y�<br>E2E-X7T1|
||Unshielded|E2E-X14MD�<br>E2E-X10ME�/F�<br>E2E-X10MY�|
|M30|Shielded|E2E-X10D�<br>E2E-X10E�/F�<br>E2E-X10Y�<br>E2E-X10T1|
||Unshielded|E2E-X20MD�<br>E2E-X18ME�/F�<br>E2E-X18MY�|



|**E2E2**|||
|---|---|---|
||**Type**|**Part number**|
|M12|Shielded|E2E2-X3D�<br>E2E2-X2C�/B�<br>E2E2-X2Y�|
||Unshielded|E2E2-X8MD�<br>E2E2-X5MC�/B�<br>E2E2-X5MY�|
|M18|Shielded|E2E2-X7D�<br>E2E2-X5C�/B�<br>E2E2-X5Y�|
||Unshielded|E2E2-X14MD�<br>E2E2-X10MC�/B�<br>E2E2-X10MY�|
|M30|Shielded|E2E2-X10D�<br>E2E2-X10C�/B�<br>E2E2-X10Y�|
||Unshielded|E2E2-X20MD�<br>E2E2-X18MC�/B�<br>E2E2-X18MY�|



43 

~~**E2E/E2E2**~~ 

~~**E2E/E2E2**~~ 

## **Mutual Interference** 

When installing two or more Sensors face to face or side by side, ensure that the minimum distances given in the following table are maintained. 

|**E2E**||||||||||||||||||
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
|||||||||||||||||||
||||||A|||||||||||||
||**Type**|||||||||**Item**||||**M8**|**M12**|**M18**|**M30**|
|E2E-X**�**D**�**<br>**DC 2**<br>**i**<br>-w re<br>E2E-X�T1<br>**AC/DC 2-wire**|||||Shielded|||||A||||20 mm|30(20)mm|50(30)mm|100(50)mm|
|||||||||||B||||15 mm|20(12)mm|35(18)mm|70(35)mm|
||||||Unshielded|||||A||||80 mm|120(60)mm|200(100)mm|300(100)mm|
|||||||||||B||||60 mm|100(50)mm|110(60)mm|200(100)mm|
|E2E-X�E�<br>**E2E** **X�F�**<br>-<br>**DC 3-wire**<br>**E2E-X�Y�**<br>AC 2-wire|||||Shielded|||||A||||20 mm|30 (20) mm|50 (30) mm|100 (50) mm|
|||||||||||B||||15 mm|20 (12) mm|35 (18) mm|70 (35) mm|
||||||Unshielded|||||A||||80 mm|120 (60) mm|200 (100) mm|300 (100) mm|
|||||||||||B||||60 mm|100(50)mm|110(60)mm|200(100)mm|



**Note:** The figures in parentheses refer to Sensors operating at different frequencies. 

## **E2E2** 

|**Note:**<br>The figures in parentheses refer to Se<br>**E2E2**|**Note:**<br>The figures in parentheses refer to Se<br>**E2E2**|nsors operating at diffe|rent frequencies.|||
|---|---|---|---|---|---|
|**Type**||**Item**|**M12**|**M18**|**M30**|
|E2E2-X**�**D**�**<br>**DC 2**<br>**i**<br>-w re|Shielded|A|30(20)mm|50(30)mm|100(50)mm|
|||B|20(12)mm|35(18)mm|70(35)mm|
||Unshielded|A|120(60)mm|200(100)mm|300(100)mm|
|||B|100(50)mm|110(60)mm|200(100)mm|
|E2E2-X�B�<br>**E2E2** **X�C�**<br>-<br>**DC 3-wire**<br>**E2E2-X�Y�**<br>AC 2-wire|Shielded|A|30 mm|50 mm|100 mm|
|||B|20 mm|35 mm|70 mm|
||Unshielded|A|120 mm|200 mm|300 mm|
|||B|100 mm|110 mm|200 mm|



**Note:** The figures in parentheses refer to Sensors operating at different frequencies. 

44 

~~——>—S——S-_~~ ~~**E2E/E2E2** OMRON. ————————~~ ~~**E2E/E2E2**~~ **Caution** L\ **!** The colors in parentheses are previous wire colors. ~~ee~~ **Item Examples Power supply** DC 3-wire models DC 2-wire models Load Do not impose an excessive voltage on the Brown Brown E2E, otherwise it may explode or burn. Do (red) Load (white) not impose 100 VAC on any E2E DC model, otherwise it may explode or burn. Sensor **Incorrect** Sensor **Incorrect** Black (white) Blue Blue (black) (black) **Load short-circuit** DC 3-wire models DC 2-wire models Do not short-circuit the load, or the E2E The following diagram shows that the load may explode or burn.The E2E’s short-circuit protection function Brown(red) Load is short-circuited while the polarity of thesupply voltage imposed on the E2E is is valid if the polarity of the supply voltage Sensor Black (white) **Incorrect** wrong, in which case the E2E may explodeor burn. imposed is correct and within the rated Blue voltage range. (black) Load Brown (white) Sensor **Incorrect** Blue (black) meee ~~SP ay~~ **Wiring** DC 3-wire models Load Be sure to wire the E2E and load correctly, Brown Brown otherwise it may explode or burn. (red) (red) Load Sensor **Incorrect** Sensor **Incorrect** Black (white) Blue (black) Blue Black (black) (white) ~~| ok oF}~~ **Connection with no load** DC 3-wire models DC 2-wire models Load Make sure to connect a proper load to the Load Brown E2E in operation, otherwise it may explode Brown(white) (white) or burn. Sensor Sensor Blue Blue (black) (black) **Incorrect Incorrect** ~~| oS} ot~~ **Correct In Use Installation Wiring** 

## **Power Reset Time** 

The Proximity Sensor is ready to operate within 100 ms after power is supplied. If power supplies are connected to the Proximity Sensor and load respectively, be sure to supply power to the Proximity Sensor before supplying power to the load. 

## **Power OFF** 

The Proximity Sensor may output a pulse signal when it is turned off. Therefore, it is recommended to turn off the load before turning off the Proximity Sensor. 

## **Power Supply Transformer** 

When using a DC power supply, make sure that the DC power supply has an insulated transformer. Do not use a DC power supply with an auto-transformer. 

## **Sensing Object** 

Metal Coating: 

The sensing distances of the Proximity Sensor vary with the metal coating on sensing objects. 

## **High-tension Lines** 

## **Wiring through Metal Conduit** 

If there is a power or high-tension line near the cord of the Proximity Sensor, wire the cord through an independent metal conduit to prevent against Proximity Sensor damage or malfunctioning. 

## **Cord Tractive Force** 

Do not pull cords with the tractive forces exceeding the following. 

|**Diameter**|**Tractive force**|
|---|---|
|4 dia. max.|30 N max.|
|4 dia. min.|50 N max.|



## **Mounting** 

The Proximity Sensor must not be subjected to excessive shock with a hammer when it is installed, otherwise the Proximity Sensor may be damaged or lose its water-resistivity. 

45 

~~**E2E/E2E2**~~ 

~~**E2E/E2E2**~~ 

## **Environment** 

## **Water Resistivity** 

Do not use the Proximity Sensor underwater, outdoors, or in the rain. 

## **Operating Environment** 

Be sure to use the Proximity Sensor within its operating ambient temperature range and do not use the Proximity Sensor outdoors so that its reliability and life expectancy can be maintained. Although the Proximity Sensor is water resistive, a cover to protect the Proximity Sensor from water or water soluble machining oil is recommended so that its reliability and life expectancy can be maintained. Do not use the Proximity Sensor in an environment with chemical gas (e.g., strong alkaline or acid gasses including nitric, chromic, and concentrated sulfuric acid gases). 

## **Connecting Load to AC/DC 2-wire Sensor** 

Refer to the following before using AC or DC 2-wire Proximity Sensors. 

## **Surge Protection** 

Although the Proximity Sensor has a surge absorption circuit, if there is any machine that has a large surge current (e.g., a motor or welding machine) near the Proximity Sensor, connect a surge absorber to the machine. 

## **Leakage Current** 

When the Proximity Sensor is OFF, the Proximity Sensor has leakage current. Refer to pages 17 and 21 Leakage Current Characteristics. In this case, the load is imposed with a small voltage and the load may not be reset. Before using the Proximity Sensor, make sure that this voltage is less than the load reset voltage. The AC 2-wire Proximity Sensor cannot be connected to any card-lift-off relay (e.g., the G2A) because contact vibration of the relay will be caused by the leakage current and the life of the relay will be shortened. 

## **Countermeasures Against Leakage Current** 

## **AC 2-wire Models** 

Connect a bleeder resistor as the bypass for the leakage current so that the current flowing into the load will be less than the load reset current. 

As shown in the following diagram, connect the bleeder resistor so that the current flowing into the Proximity Sensor will be 10 mA minimum and the residual voltage imposed on the load will be less than the load reset voltage. 

**==> picture [105 x 29] intentionally omitted <==**

Refer to the following to calculate the bleeder resistance and the allowable power of the bleeder resistor. 

- R VS/(10 – I) (kΩ) 

- P > VS[2] /R (mW) 

- P: The allowable power of the bleeder resistor. (The actual power capacity of the bleeder resistor must be at least a few times as large as the allowable power of the bleeder resistor.) 

I: Load current (mA) 

The following resistors are recommended. 

100 VAC (supply voltage): A resistor with a resistance of 10 kΩ maximum and an allowable power of 3 W minimum 

200 VAC (supply voltage): A resistor with a resistance of 20 kΩ maximum and an allowable power of 10 W minimum 

If these resistors generate excessive heat, use a resistor with a resistance of 10 kΩ maximum and an allowable power of 5 W minimum at 100 VAC and a resistor with a resistance of 20 kΩ maximum and an allowable power of 10 W minimum at 200 VAC instead. 

## **DC 2-wire Models** 

Connect a bleeder resistor as the bypass for the leakage current so that the current flowing into the load will be less than the load reset current. 

Load Bleeder resistor R | wea! r 

Refer to the following to calculate the bleeder resistance and the allowable power of the bleeder resistor. 

- R VS/(iR – iOFF) (kΩ) 

- P > VS[2] /R (mW) 

- P: The allowable power of the bleeder resistor. (The actual power capacity of the bleeder resistor must be at least a few times as large as the allowable power of the bleeder resistor.) 

- iR: Leakage current of Sensors (mA) 

- iOFF: Release current of load (mA) 

The following resistors are recommended. 

12 VDC (supply voltage): A resistor with a resistance of 15 kΩ maximum and an allowable power of 450 mW minimum 

24 VDC (supply voltage): A resistor with a resistance of 30 kΩ maximum and an allowable power of 0.1 W minimum 

## **Inrush Current** 

A load that has a large inrush current (e.g., a lamp or motor) will damage the Proximity Sensor, in which case connect the load to the Proximity Sensor through a relay. 

## **Connection to a PLC** 

## **Required Conditions** 

Connection to a PLC is possible if the specifications of the PLC and the Proximity Sensor satisfy the following conditions. (The meanings of the symbols are given below.) 

1. The ON voltage of the PLC and the the residual voltage of the Proximity Sensor must satisfy the following. VON VCC – VR 

2. The OFF current of the PLC and the the leakage current of the Proximity Sensor must satisfy the following. 

   - IOFF Ileak 

   - (If th FF current is not listed in the specifications, take it to be 1.3 mA.) 

3. The ON current of the PLC and the the control output (IOUT) of the Proximity Sensor must satisfy the following. 

   - IOUT(min) ION IOUT(max) The ON current of the PLC will vary, however, with the power supply voltage and the input impedance used as shown in the following equation. ION = VCC – VR – VPC)/RIN 

46 

~~OMRON~~ ~~**E2E/E2E2 E2E/E2E2**~~ 

## **Example** 

In this example, the above conditions are checked for when the PLC model is the C00H-ID212, the Proximity Sensor model is the E2E-X7D1-N, and the power supply voltage is 24 V. 

1. VON (14.4) VCC (20.4 V) – VR (3 V) = 17.4 V : OK 2. IOFF (1.3 mA) Ileak (0.8 mA) : OK 3. ION = [VCC (20.4 V) – VR (3 V) – VPC (4 V)]/RIN (3 kΩ) 4.5 mA Therefore, IOUT(min) (3 mA) ION (4.5 mA) : OK 

IOFF: OFF current of PLC (1.3 mA) 

RIN: Input impedance of PLC (3 kΩ) 

VPC: Internal residual voltage of PLC (4 V) 

VR: Output residual voltage of Proximity Sensor (3 V) Ileak: Leakage current of Proximity Sensor (0.8 mA) IOUT: Control output of Proximity Sensor (3 to 100 mA) VCC: Power supply voltage (PLC: 20.4 to 26.4 V) The values in parentheses are for the following PLC model and Proximity Sensor model. PLC: C200H-ID212 Proximity Sensor: E2E-X7D1-N 

VON: ON voltage of PLC (14.4 V) 

ION: ON current of PLC (typ. 7 mA) 

## **Precautions for AC/DC 2-wire Proximity Sensors in Operation** 

## **Connection** 

|**Model**|**Connection type**|**Method**<br>~~a~~|**Description**|
|---|---|---|---|
|DC<br>2-wire|AND<br>(serial connection)|Load<br>**Correct**<br>,<br>an|The Sensors connected together must satisfy the<br>following conditions.<br>VS– N x VR<br>Load operating voltage<br>N:<br>No. of Sensors<br>VR: Residual voltage of each Sensor<br>VS: Supply voltage<br>If each Proximity Sensor is not supplied with the<br>rated voltage and current, the indicator will not<br>be lit properly or unnecessary pulses may be<br>output for approximately1 ms.<br>=>|
||OR<br>(parallel connection)|Load<br>**Correct**<br>/<br>we|The Sensors connected together must satisfy the<br>following conditions.<br>N x i<br>Load operating voltage<br>N:<br>No. of Sensors<br>i:<br>Leakage current of each Sensor<br>If the MY Relay, which operates at 24 VDC, is<br>used as a load for example, a maximum of four<br>Proximity Sensors can be connected to the load.<br><|
|AC<br>2-wire|AND<br>(serial connection)|Load<br>Load<br>Load<br>Vs<br>100 V<br>**Incorrect**<br>**Correct**<br>.<br>O<br>T<br>coK<br>cin<br>Q<br>1<br>o<br>Td]<br>tL<br>:,<br>Ovs_<br>Bina<br>.|If100 or 200 VAC is imposed on the Proximity<br>Sensors, VL(i.e., the voltage imposed on the<br>load) will be obtained from the following.<br>VL= VS– (residual voltage x no. of Proximity<br>Sensors) (V)<br>Therefore, if VLis lower than the load operating<br>voltage, the load will not operate.<br>A maximum of three Proximity Sensors can be<br>connected in series provided that the supply<br>voltage is 100 V minimum.|



47 

~~**E2E/E2E2**~~ 

~~**E2E/E2E2**~~ 

|~~LR~~||||
|---|---|---|---|
|**Model**<br>~~LR~~|**Connection type**|**Method**|**Description**|
|AC<br>2-wire<br>~~LR~~|OR<br>(parallel connection)|Load<br>Load<br>VAC power<br>supply VS<br>A<br>B<br>A<br>B<br>**Incorrect**<br>**Correct**<br>Cs)<br>&)<br>L-|Inprinciple, more than two Proximity Sensors<br>cannot be connected in parallel.<br>Provided that Proximity Sensor A does not<br>operate with Proximity Sensor B simultaneously<br>and there is no need to keep the load operating<br>continuously, the Proximity Sensors can be<br>connected in parallel. In this case, however, due<br>to the total leakage current of the Proximity<br>Sensors, the load may not reset properly.<br>It is not possible to keep the load operating<br>continuously with Proximity Sensors A and B in<br>simultaneous operation to sense sensing objects<br>due to the following reason.<br>When Proximity Sensor A is ON, the voltage<br>imposed on Proximity Sensor A will drop to<br>approximately 10 V and the load current flows<br>into Proximity Sensor A, and when one of the<br>sensing objects is close to Proximity Sensor B,<br>Proximity Sensor B will not operate because the<br>voltage imposed on Proximity Sensor B is 10 V,<br>which is too low. When Proximity Sensor A is<br>OFF, the voltage imposed on Proximity Sensor B<br>will reach the supply voltage and Proximity<br>Sensor B will be ON. Then, Proximity Sensor A<br>as well as Proximity Sensor B will be OFF for<br>approximately 10 ms, which resets the load for<br>an instant. To prevent the instantaneous<br>resetting of the load, use a relay as shown on the<br>left.|
|DC<br>3-wire|AND<br>(serial connection)|Load<br>**Correct**<br>+p<br>aa<br>aimeane ie<br>+o<br>Vs<br>mineeeue|The Sensors connected together must satisfy the<br>following conditions.<br>iL+ (N –1 ) x i<br>Upper-limit of control output of<br>each Sensor<br>VS– N x VR<br>Load operating voltage<br>N:<br>No. of Sensors<br>VR: Residual voltage of each Sensor<br>VS: Supply voltage<br>i:<br>Current consumption of the Sensor<br>iL:<br>Load current<br>If the MY Relay, which operates at 24 VDC, is<br>used as a load for example, a maximum of two<br>ProximitySensors can be connected to the load.<br><<br>:<br>~|



## **ALL DIMENSIONS SHOWN ARE IN MILLIMETERS.** 

To convert millimeters into inches, multiply by 0.03937. To convert grams into ounces, multiply by 0.03527. 

Cat. No. D058-E1-1D **In the interest of product improvement, specifications are subject to change without notice.** 

**OMRON Corporation** Industrial Automation Company 

Industrial Sensors Division Sensing Devices and Components Division H.Q. 28th Fl., Crystal Tower Bldg., 1-2-27, Shiromi, Chuo-ku, Osaka 540-6028 Japan Tel: (81)6-6949-6012/Fax: (81)6-6949-6021 

Printed in Japan 0300-0.5M (0296) 

48
Updated at June 8, 2026
With a legacy spanning over 80 years, Omron Industrial Automation is a globally recognized leader in the manufacture of advanced industrial control and automation components. Renowned for their reliability and engineering excellence, Omron delivers comprehensive solutions that enhance efficiency, machine safety, and precision across a wide range of manufacturing environments. Our extensive portfolio of Omron products is heavily focused on their industry-leading sensing and switching technologies. We offer a vast selection of sensors, excelling specifically in high-performance proximity sensors, light sensors, and temperature sensors. Complementing this range are robust switching solutions, featuring a deep inventory of power relays, solid-state relays, safety relays, and essential relay accessories designed for demanding operational requirements. Beyond sensing and switching, Omron is highly regarded for its precision automation and process control equipment. Our selection features highly accurate temperature controllers, versatile process controllers, and sophisticated panel displays and instrumentation. To support these fundamental systems, we also supply dependable Omron power supplies, notably AC/DC converters, alongside vital connectivity components like DIN rail terminal blocks to ensure secure, efficient, and complete industrial setups.
About Novapart

Novapart is a B2B electronic component broker specialising in stock shortages and cost reduction. We source hard-to-find parts and identify compliant alternatives across a catalogue of 410,000+ components from 500+ manufacturers.
Learn more →
Stock Shortage Specialist

When a component is unavailable, discontinued or has an unacceptable lead time, we tap into our network of vetted European and Asian distributors to source what you need — without compromising on quality or traceability.
Request a quote →
Compliant Alternatives

We identify pin-to-pin, electrically equivalent substitutes that meet the same certifications (RoHS, AEC-Q100, REACH) as your original specification — validated against datasheets, not just part numbers. Often at a lower cost.
BOM Analysis service →