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E2EX7D1M1GJ
INDUCTIVE PROXIMITY
⚠️ 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 / PARTNER STOCK
- Product type: Inductive Proximity Sensors
- SVHC: No SVHC (25-Jun-2025)
| Delivery and price | |
|---|---|
| Units per pack | 3 |
| Price | 286.31 € |
| Current stock | 10+ |
| Lead time | 30 days |
Datasheet
## **Cylindrical Proximity Sensor 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 cable protector.
- With an easy-to-see indicator, deeper mounting holes, and tightening flats for wrenches.
- New 3-dia. size (sensing distance: 0.6 mm) added to the lineup.
## **<READ AND UNDERSTAND THIS CATALOG>**
Please read and understand this catalog before purchasing the products. Please consult your OMRON representative if you have any questions or comments.
## **Orderin Information g**
## **E2E**
## **DC 2-wire/Pre-wired Models**
|**Self-diagnostic**<br>**output function**<br>~~-~~|**Size**<br>~~**e**~~|**Size**<br>~~**e**~~|**Sensing distance**<br>~~Ce~~<br>~~**e**ee~~|**Model**<br>~~Ce~~|**Model**<br>~~Ce~~|
|---|---|---|---|---|---|
|||||**NO**<br>~~Ce~~<br>~~ee~~|**NC**<br>~~ee~~|
|Yes<br>~~-~~|Shielded<br>~~**e**~~<br>~~ia~~<br>~~e~~|M12<br>~~**e**~~|3 mm<br>~~**e**ee~~|E2E-X3D1S (See note 1.)<br>~~ee~~|---<br>~~ee~~|
|||M18<br>~~**e**~~<br>~~a~~|7 mm<br>~~**e**ee~~|E2E-X7D1S (See note 1.)<br>~~ee~~|---<br>~~ee~~|
|||M30<br>~~**e**~~<br>~~a~~|10 mm<br>~~**e**ee~~|E2E-X10D1S (See note 1.)<br>~~ee~~|---<br>~~ee~~|
||Unshielded<br>~~**e**~~<br>~~ia ~~<br>~~e~~<br>~~cae~~<br>~~Lt~~|M12<br>~~**e**~~<br> ~~a~~|8 mm<br>~~**e**ee~~|E2E-X8MD1S (See note 1.)<br>~~ee~~|---<br>~~ee~~|
|||M18<br>~~**e**~~<br>~~a~~|14 mm<br>~~**e**ee~~|E2E-X14MD1S (See note 1.)<br>~~ee~~|---<br>~~ee~~|
|||M30<br>~~**e**~~<br>~~a~~<br>~~ee~~<br>|20 mm<br>~~**e**ee~~<br>|E2E-X20MD1S (See note 1.)<br>~~ee~~|---<br>~~ee~~|
|No|Shielded<br>~~e~~<br>~~cae ~~<br>~~Lt ~~|M8<br> ~~a~~<br>~~ee~~<br>|2 mm<br>|E2E-X2D1-N (See notes 2 and 3.)|E2E-X2D2-N (See note 3.)|
|||M12<br>~~ee~~<br>~~a~~|3 mm<br>~~a~~<br>~~a~~|E2E-X3D1-N (See notes 1, 2 and 3.)<br>~~a~~|E2E-X3D2-N (See note 3.)|
|||M18<br>~~ee~~<br> ~~a~~|7 mm<br>~~a~~<br>~~a~~|E2E-X7D1-N (See notes 1, 2 and 3.)<br>~~a~~|E2E-X7D2-N (See note 3.)|
|||M30<br>~~ee~~<br> <br>~~a~~|10 mm<br><br>~~a~~|E2E-X10D1-N (See notes 1, 2 and 3.)<br>|E2E-X10D2-N<br>|
||Unshielded<br>ril~~e~~|M8<br>~~ot~~|4 mm<br>~~ot~~|E2E-X4MD1 (See notes 2 and 3.)<br>~~ot~~|E2E-X4MD2<br>~~ot~~|
|||M12<br>~~ot~~<br>~~a~~|8 mm<br>~~ot~~<br>~~a~~|E2E-X8MD1 (See notes 1, 2 and 3.)<br>~~ot~~|E2E-X8MD2<br>~~ot~~|
|||M18<br>~~ot~~<br>~~a ~~|14 mm<br>~~ot~~<br> ~~a~~|E2E-X14MD1 (See notes 1, 2 and 3.)<br>~~ot~~|E2E-X14MD2<br>~~ot~~|
|||M30<br>~~ot~~<br>~~Ge~~|20 mm<br>~~ot~~<br>~~Ge~~|E2E-X20MD1 (See notes 1, 2 and 3.<br>~~ot~~<br>~~Ge~~|E2E-X20MD2<br>~~ot~~<br>~~Ge~~|
- **Note 1.** In addition to the above models, E2E-X@@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).
**3.** Cables with a length of 5 m are also available. Specify the cable length at the end of the model number (e.g., E2E-X3D1-N 5M).
**E2E/E2E2** Cylindrical Proximity Sensor
1
## **- DC 2 wire/Connector Models**
|**Connector**|**Self-diagnostic**<br>**output function**|**Size**||**Sensing**<br>**distance**|**Model**|**Model**|
|---|---|---|---|---|---|---|
||||||**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-X4MD1-M3G|E2E-X4MD2-M3G|
**Note:** In addition to the above models, E2E-X@D15-M1G models (e.g., E2E-X3D15-M1G), which are different in frequency from the above models, are available.
## **- - DC 2 wire/Pre wired Connector Models**
|**Size**||**Sensing distance**|**Operation mode**|**Polarity**|**Model**|
|---|---|---|---|---|---|
|Shielded|M12<br>|3 mm|NO|Yes|E2E-X3D1-M1GJ|
|||||No|E2E-X3D1-M1J-T|
||M18<br>|7 mm||Yes|E2E-X7D1-M1GJ|
|||||No|E2E-X7D1-M1J-T|
||M30<br>|10 mm||Yes|E2E-X10D1-M1GJ|
|||||No|E2E-X10D1-M1J-T|
|Unshielded|M12<br>|8 mm||Yes|E2E-X8MD1-M1GJ|
||M18<br>|14 mm|||E2E-X14MD1-M1GJ|
||M30<br>|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 PLC’s ON voltage, for example) when connecting the Proximity Sensor to a load.
**2.** The standard cable length is 300 mm. Models are also available with 500 mm and 1 m cables.
## **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.
|**Size**|**Size**|**Size**|**Size**||**Operation mode**|**Model**|**Size**|**Size**|**Size**|**Size**|**Size**||**Operation mode**|**Model**|
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
|Shielded||||M8|NO|E2E-X2D1-M1|Unshielded|||||M8|NO|E2E-X4MD1-M1|
||||||NC|E2E-X2D2-M1|||||||NC|E2E-X4MD2-M1|
|||||||||||||M12|NO|E2E-X8MD1-M1|
|||||M12|NO|E2E-X3D1-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|
**E2E/E2E2** Cylindrical Proximity Sensor
2
## **DC 3-wire/Pre-wired Models**
|**Size**|**Size**|**Sensing**<br>**distance**|<br>**Output**<br>**configuration**|**Model**|
|---|---|---|---|---|
|Shielded|3 dia.|0.6 mm|NPN NO<br>NPN NC|E2E-CR6C1<br>E2E-CR6C2|
||||PNP NO|E2E-CR6B1|
||||PNP NC|E2E-CR6B2|
||4 dia.|0.8 mm|NPN NO|E2E-CR8C1<br>(See notes 1 and 2.)|
||||NPN NC|E2E-CR8C2|
||||PNP NO|E2E-CR8B1|
||||PNP NC|E2E-CR8B2|
||M5|1 mm|NPN NO|E2E-X1C1<br>(See notes 1 and 2.)|
||||NPN NC|E2E-X1C2|
||||PNP NO|E2E-X1B1|
||||PNP NC|E2E-X1B2|
||5.4<br>dia.|1 mm|NPN NO|E2E-C1C1<br>(See notes 1 and 2.)|
||||NPN NC|E2E-C1C2|
||||PNP NO|E2E-C1B1|
||||PNP NC|E2E-C1B2|
||M8|1.5 mm|NPN NO|E2E-X1R5E1<br>(See notes 1 and 2.)|
||||NPN NC|E2E-X1R5E2|
||||PNP NO|E2E-X1R5F1|
||||PNP NC|E2E-X1R5F2|
||M12|2 mm|NPN NO|E2E-X2E1 (See notes 1,<br>2, 3, and 4.)|
||||NPN NC|E2E-X2E2<br>(See notes 3 and 4.)|
||||PNP NO|E2E-X2F1|
||||PNP NC|E2E-X2F2|
||M18|5 mm|NPN NO|E2E-X5E1 (See notes 1,<br>2, 3, and 4.)|
||||NPN NC|E2E-X5E2<br>(See notes 3 and 4.)|
||||PNP NO|E2E-X5F1|
||||PNP NC|E2E-X5F2|
||M30|10 mm|NPN NO|E2E-X10E1 (See notes<br>1, 2, 3, and 4.)|
||||NPN NC|E2E-X10E2<br>(See notes 3 and 4.)|
||||PNP NO|E2E-X10F1|
||||PNP NC|E2E-X10F2|
|**Size**|**Size**|**Sensing**<br>**distance**|<br>**Output**<br>**configuration**|**Model**|
|---|---|---|---|---|
|Un-<br>shielded|M8|2 mm|NPN NO|E2E-X2ME1<br>(See note 2.)|
||||NPN NC<br>PNP NO|E2E-X2ME2<br>E2E-X2MF1|
||||<br>PNP NC|E2E-X2MF2|
||M12|5 mm|NPN NO|E2E-X5ME1 (See notes<br>1, 2, 3, and 4.)|
||||NPN NC|E2E-X5ME2 (See notes<br>3 and 4.)|
||||PNP NO|E2E-X5MF1|
||||PNP NC|E2E-X5MF2|
||M18|10 mm|NPN NO|E2E-X10ME1 (See notes<br>1, 2, 3, and 4.)|
||||NPN NC|E2E-X10ME2<br>(See notes 3 and 4.)|
||||PNP NO|E2E-X10MF1|
||||PNP NC|E2E-X10MF2|
||M30|18 mm|NPN NO|E2E-X18ME1 (See notes<br>1, 2, 3, and 4.)|
||||NPN NC|E2E-X18ME2<br>(See notes 3 and 4.)|
||||PNP NO|E2E-X18MF1|
||||PNP NC|E2E-X18MF2|
- **Note 1.** Cables with a length of 5 m are also available. Specify the cable length at the end of the model number (e.g., E2E-X2E1 5M).
**2.** Models with a robotics cable are also available. These models are E2E-X@E1-R (e.g., E2E-X5E1-R).
**3.** Models with a different frequency are also available. These models are E2E-X@E@5 (e.g., E2E-X5E15).
**4.** These models have e-CON connectors (0.3 m cable length), which is indicated by the suffix “-ECON” (e.g., E2E-X2E1ECON).
## **AC 2-wire/Pre-wired Models**
|**Size**|**Size**|**Sensing**<br>**distance**|<br>**Operation**<br>**mode**|**Model**|
|---|---|---|---|---|
|Shielded|M8|1.5 mm|NO<br>NC|E2E-X1R5Y1<br>E2E-X1R5Y2|
||M12|2 mm|NO|E2E-X2Y1<br>(See notes 1 and 2.)|
||||NC|E2E-X2Y2|
||M18|5 mm|NO|E2E-X5Y1<br>(See notes 1 and 2.)|
||||NC|E2E-X5Y2|
||M30|10 mm|NO|E2E-X10Y1<br>(See notes 1 and 2.)|
||||NC|E2E-X10Y2|
|Un-<br>shielded|M8|2 mm|NO|E2E-X2MY1|
||||NC|E2E-X2MY2|
||M12|5 mm|NO|E2E-X5MY1<br>(See notes 1 and 2.)|
||||NC|E2E-X5MY2|
||M18|10 mm|NO|E2E-X10MY1<br>(See note 1.)|
||||NC|E2E-X10MY2|
||M30|18 mm|NO|E2E-X18MY1<br>(See note 1.)|
||||NC|E2E-X18MY2|
- **Note 1.** Models with a different frequency are also available. These models are E2E-X@Y@5 (e.g., E2E-X5Y15).
**2.** Cables with a length of 5 m are also available. Specify the cable length at the end of the model number (e.g., E2E-X2Y1 5M).
**E2E/E2E2** Cylindrical Proximity Sensor
3
## **DC 3-wire/Connector Models**
|**Connector**|**Size**|**Size**|**Sensing**<br>**distance**|<br>**Output**<br>**configuration**|**Model**|
|---|---|---|---|---|---|
|M12|Shielded|M8|1.5 mm|NPN NO<br>NPN NC|E2E-X1R5E1-M1<br>E2E-X1R5E2-M1|
|||||PNP NO<br>PNP NC|E2E-X1R5F1-M1<br>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>shielded|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|
|M8-3 pin|Shielded|4 dia.|0.8 mm|NPN NO|E2E-CR8C1-M5|
|||||NPN NC|E2E-CR8C2-M5|
|||||PNP NO|E2E-CR8B1-M5|
|||||PNP NC|E2E-CR8B2-M5|
|||M5|1 mm|NPN NO|E2E-X1C1-M5|
|||||NPN NC|E2E-X1C2-M5|
|||||PNP NO|E2E-X1B1-M5|
|||||PNP NC|E2E-X1B2-M5|
|M8|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>shielded|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/Connector Models**
|**Size**|**Size**|**Sensing**<br>**distance**|<br>**Operation**<br>**mode**|**Model**|
|---|---|---|---|---|
|Shielded|M12|2 mm|NO<br>NC|E2E-X2Y1-M1<br>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|
|Un-<br>shielded|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|
## **AC/DC 2-wire/Pre-wired Models**
|**Size**|**Size**|**Sensing**<br>**distance**|<br>**Operation**<br>**mode**|**Model**|
|---|---|---|---|---|
|Shielded|M12|3 mm|NO|E2E-X3T1|
||M18|7 mm||E2E-X7T1<br>(See note 2.)|
||M30|10 mm||E2E-X10T1|
**Note 1.** These models do not conform to CE standards.
**2.** Cables with a length of 5 m are also available as standard models. Specify the cable length at the end of the model number (e.g., E2E-X7T1 5M).
**E2E/E2E2** Cylindrical Proximity Sensor
4
**E2E2**
## **DC 2-wire/Pre-wired Models**
|**Size**||**Sensing distance**|**Operation mode**|**Model**|
|---|---|---|---|---|
|Shielded|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|
|Unshielded|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**
|**Size**||**Sensing distance**|**Output configuration**|**Model**|
|---|---|---|---|---|
|Shielded|M12|2 mm|NPN NO<br>|E2E2-X2C1<br>|
||||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|
|Unshielded|M12|5 mm|NPN NO<br>|E2E2-X5MC1<br>|
||||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|
**E2E/E2E2** Cylindrical Proximity Sensor
5
## **DC 3-wire/Connector Models**
|**Size**||**Sensing distance**|**Output configuration**|**Model**|
|---|---|---|---|---|
|Shielded|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|
|Unshielded|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**
|**Size**||**Sensing distance**|**Operation mode**|**Model**|
|---|---|---|---|---|
|Shielded|M12|2 mm|NO<br>|E2E2-X2Y1|
||||NC|E2E2-X2Y2|
||M18|5 mm|NO|E2E2-X5Y1|
||||NC|E2E2-X5Y2|
||M30|10 mm|NO|E2E2-X10Y1|
||||NC|E2E2-X10Y2|
|Unshielded|M12|5 mm|NO<br>|E2E2-X5MY1|
||||NC|E2E2-X5MY2|
||M18|10 mm|NO|E2E2-X10MY1|
||||NC|E2E2-X10MY2|
||M30|18 mm|NO|E2E2-X18MY1|
||||NC|E2E2-X18MY2|
**E2E/E2E2** Cylindrical Proximity Sensor
6
## **AC 2-wire/Connector Models**
|**Size**||**Sensing distance**|**Operation mode**|**Model**|
|---|---|---|---|---|
|Shielded|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|
|Unshielded|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|
**E2E/E2E2** Cylindrical Proximity Sensor
7
**S ecifications p**
## ■ **Ratings/Characteristics**
## **E2E**
## **E2E-X@D@ DC 2-wire Models**
|**Size**|**Size**|**M8**|**M8**|**M12**|**M12**|**M18**|**M18**|**M30**|**M30**|
|---|---|---|---|---|---|---|---|---|---|
|**Type**||**Shielded**|**Unshielded**|**Shielded**|**Unshielded**|**Shielded**|**Unshielded**|**Shielded**|**Unshielded**|
|**Item**||**E2E-X2D@**|**E2E-X4MD@**|**E2E-X3D@**|**E2E-X8MD@**|**E2E-X7D@**|**E2E-X14MD@**|**E2E-X10D@**|**E2E-X20MD@**|
|**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%|
|**Set distance (See note 1.)**||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|
|**Differential travel**||15% max. of sensingdistance||10% max. of sensingdistance||||||
|**Sensing object**||Ferrous metal (The sensingdistance decreases with non-ferrous metal, refer to_Engineering Data_.)||||||||
|**Standard sensing object**||Iron, 8 x 8 x<br>1 mm|Iron, 20 x 20 x<br>1 mm|Iron,12 x 12 x<br>1 mm|Iron,30 x 30 x<br>1 mm|Iron, 18 x 18 x<br>1 mm|Iron, 30 x 30 x<br>1 mm|Iron,30 x 30 x<br>1 mm|Iron, 54 x 54 x<br>1 mm|
|**Response speed (See**<br>**note 2.)**||1.5 kHz|1.0 kHz|1.0 kHz|0.8 kHz|0.5 kHz|0.4 kHz|0.4 kHz|0.1 kHz|
|**Power supply voltage**<br>**(operating voltage range)**||12 to 24 VDC (10 to 30 VDC), ripple (p-p): 10% max.||||||||
|**Leakage current**||0.8 mA max.||||||||
|**Control**<br>**output**|**Load**<br>**current**|3 to 100 mA<br>Diagnostic output: 50 mA for -D1(5)S models||||||||
||**Residual**<br>**voltage**<br>**(See note 3.)**|3 V max. (Load current: 100 mA, Cable length: 2 m. M1J-T models only: 5 V max.)||||||||
|**Indicator**||D1 Models: Operation indicator (red LED), setting indicator (green LED)<br>D2 Models: Operation indicator (red LED)||||||||
|**Operation mode**<br>**(with sensing object**<br>**approaching)**||D1 Models:<br>NO<br>D2 Models:<br>NC<br>For details, refer to_Timing Charts_.||||||||
|**Diagnostic output delay**||0.3 to 1 s||||||||
|**Protection circuits**||Surge suppressor, output load short-circuit protection (for control and diagnostic output)||||||||
|**Ambient temperature**||Operating: –25°C to 70°C, Storage: –40°C to 85°C (with no icing or condensation)||||||||
|**Ambient humidity**||Operating/Storage: 35% to 95% (with no condensation)||||||||
|**Temperature influence**||±15% max. of sensing<br>distance at 23°C in the<br>temperature range of –25°C to<br>70°C||±10% max. of sensing distance at 23°C in the temperature range of –25°C to 70°C||||||
|**Voltage influence**||±1% max. of sensing distance in the rated voltage range±15%||||||||
|**Insulation resistance**||50 MΩmin. (at 500 VDC) between current-carryingparts and case||||||||
|**Dielectric strength**||1,000 VAC at 50/60 Hz for 1 min between current-carryingparts and case||||||||
|**Vibration resistance**||10 to 55 Hz, 1.5-mm double amplitude for 2 hours each in X, Y, and Z directions||||||||
|**Shock resistance**||500 m/s210 times each in X,<br>Y, and Z directions||1,000 m/s210 times each in X, Y, and Z directions||||||
|**Degree of protection**||IEC 60529 IP67 (Pre-wired models, pre-wired connector models: in-house standard for oil resistance (former JEM standard<br>equivalent to IP67g)) (See note 4.)||||||||
|**Connection method**||Pre-wired models (standard length: 2 m), connector models, pre-wired connector models (standard length: 0.3 m)||||||||
|**Weight**<br>**(packed**<br>**state)**|**Pre-wired**<br>**models**|Approx. 60 g||Approx. 70 g||Approx. 130 g||Approx. 175 g||
||**Pre-wired**<br>**connector**<br>**models**|---||Approx. 40 g||Approx. 70 g||Approx. 110 g||
||**Connector**<br>**models**|Approx. 15 g||Approx. 25 g||Approx. 40 g||Approx. 90 g||
|**Material**|**Case**|Stainless steel (SUS303)||Brass-nickel plated||||||
||**Sensing**<br>**surface**|PBT (polybutylene terephthalate)||||||||
||**Clamping**<br>**nuts**|Brass-nickel plated||||||||
||**Toothed**<br>**washer**|Iron-zinc plated||||||||
|**Accessories**||Instruction manual||||||||
- **Note 1.** Use the E2E within the range in which the setting indicator (green LED) is ON (except D2 models).
**2.** The response speed is an average value. Measurement conditions are as follows: standard sensing object, a distance of twice the standard sensing object, and a set distance of half the sensing distance.
**3.** 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.
**4.** This OMRON in-house standard confirms resistance to cutting and other oils. It is equivalent to the former JEM standard.
**E2E/E2E2** Cylindrical Proximity Sensor
8
## **E2E-X@E@/F@ DC 3-wire Models**
|**Size**|**Size**|**M8**|**M8**|**M12**|**M12**|**M18**|**M18**|**M30**|**M30**|
|---|---|---|---|---|---|---|---|---|---|
|**Type**||**Shielded**|**Unshielded**|**Shielded**|**Unshielded**|**Shielded**|**Unshielded**|**Shielded**|**Unshielded**|
|**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@**|
|**Sensing distance**||1.5 mm±10%|2 mm±10%|2 mm±10%|5 mm±10%|5 mm±10%|10 mm±10%|10 mm±10%|18 mm±10%|
|**Set 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|
|**Differential travel**||10% max. of sensingdistance||||||||
|**Sensing object**||Ferrous metal (The sensing distance decreases with non-ferrous metal, refer to_Engineering Data_.)||||||||
|**Standard sensing**<br>**object**||Iron, 8 x 8 x<br>1 mm|Iron, 12 x 12 x<br>1 mm|Iron, 12 x 12 x<br>1 mm|Iron, 15 x 15 x<br>1 mm|Iron, 18 x 18 x<br>1 mm|Iron, 30 x 30 x<br>1 mm|Iron, 30 x 30 x<br>1 mm|Iron, 54 x 54 x<br>1 mm|
|**Response speed (See**<br>**note 1.)**||2.0 kHz|0.8 kHz|1.5 kHz|0.4 kHz|0.6 kHz|0.2 kHz|0.4 kHz|0.1 kHz|
|**Power supply voltage**<br>**(operating voltage**<br>**range) (See note 2.)**||12 to 24 VDC (10 to 40 VDC), ripple (p-p): 10% max.||||||||
|**Current consumption**||13 mA max.||||||||
|**Control**<br>**output**|**Load current**<br>**(See note 2.)**|200 mA max.||||||||
||**Residual**<br>**voltage**|2 V max. (Load current: 200 mA, Cable length: 2 m)||||||||
|**Indicator**||Operation indicator (red LED)||||||||
|**Operation mode**<br>**(with sensing object**<br>**approaching)**||E1 F1 Models: NO<br>E2 F2 Models: NC<br>For details, refer to_Timing Charts_.||||||||
|**Protection circuits**||Power supply reverse polarity protection, surge suppressor, output load short-circuit protection||||||||
|**Ambient temperature**<br>**(See note 2)**||Operating/Storage: –40°C to 85°C (with no icing or condensation)||||||||
|**Ambient humidity**||Operating/Storage: 35% to 95% (with no icing)||||||||
|**Temperature influence**||±15% max. of sensing distance at 23°C in the temperature range of –40°C to 85°C<br>±10% max. of sensing distance at 23°C in the temperature range of –25°C to 70°C||||||||
|**Voltage influence**||±1% max. of sensingdistance in the rated voltage range±15%||||||||
|**Insulation resistance**||50 MΩmin. (at 500 VDC) between current-carryingparts and case||||||||
|**Dielectric strength**||1,000 VAC at 50/60 Hz for 1 min between current-carryingparts and case||||||||
|**Vibration resistance**||10 to 55 Hz, 1.5-mm double amplitude for 2 hours each in X, Y, and Z directions||||||||
|**Shock resistance**||500 m/s210 times each in X, Y,<br>and Z directions||1,000 m/s210 times each in X, Y, and Z directions||||||
|**Degree of protection**||IEC 60529 IP67 (Pre-wired models: in-house standard for oil resistance (former JEM standard equivalent to IP67g)) (See note<br>3.)||||||||
|**Connection method**||Pre-wired models (standard length 2 m), connector models||||||||
|**Weight**<br>**(packed**<br>**state)**|**Pre-wired**<br>**models**|Approx. 65 g||Approx. 75 g||Approx. 150 g||Approx. 195 g||
||**Connector**<br>**models**|Approx. 15 g||Approx. 25 g||Approx. 40 g||Approx. 90 g||
|**Material**|**Case**|Stainless steel (SUS303)||Brass-nickel plated||||||
||**Sensing**<br>**surface**|PBT (polybutylene terephthalate)||||||||
||**Clamping**<br>**nuts**|Brass-nickel plated||||||||
||**Toothed**<br>**washer**|Iron-zinc plated||||||||
|**Accessories**||Instruction manual||||||||
**Note 1.** The response speed is an average value. Measurement conditions are as follows: standard sensing object, a distance of twice the standard sensing object, and a set distance of half the sensing distance.
**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.
**3.** This OMRON in-house standard confirms resistance to cutting and other oils. It is equivalent to the former JEM standard.
**E2E/E2E2** Cylindrical Proximity Sensor
9
## **E2E-C@C@/B@, E2E-X1C@/B@ DC 3-wire Models**
|**Size**|**Size**|**3 dia.**|**4 dia.**|**M5**|**5.4 dia.**|
|---|---|---|---|---|---|
|**Type**||**Shielded**||||
|**Item**||**E2E-CR6C@/B@**|**E2E-CR8C@/B@**|**E2E-X1C@/B@**|**E2E-C1C@/B@**|
|**Sensing distance**||0.6 mm±15%|0.8 mm±15%|1 mm±15%||
|**Set distance**||0 to 0.4 mm|0 to 0.5 mm|0 to 0.7 mm||
|**Differential travel**||15% max. of sensingdistance||||
|**Sensing object**||Ferrous metal(The sensingdistance decreases with non-ferrous metal, refer to_Engineering Data_.)||||
|**Standard sensing object**||Iron: 3 x 3 x 1 mm|Iron: 5 x 5 x 1 mm|||
|**Response speed(See note.)**||2 kHz|3 kHz|||
|**Power supply voltage**<br>**(operating voltage range)**||12 to 24 VDC (10 to 30 VDC), ripple (p-p): 10% max.||||
|**Current consumption**||10 mA max.|17 mA max.|||
|**Control output**|**Load current**|Open-collector output<br>80 mA max. (at 30 VDC<br>max.)|Open-collector output 100 mA max. (at 30 VDC max.)|||
||**Residual**<br>**voltage**|1 V max. (Load current:<br>80 mA, Cable length:<br>2 m)|2 V max. (Load current: 100 mA, Cable length: 2 m)|||
|**Indicator**||Operation indicator (red LED)||||
|**Operation mode (with sensing object**<br>**approaching)**||C1/-B1 Models:NO<br>C2/-B2 Models:NC<br>For details, refer to_Timing Charts_.||||
|**Protection circuits**||Power supply reverse polarity protection, surge suppressor||||
|**Ambient temperature**||Operating/Storage: –25°C to 70°C (with no icingor condensation)||||
|**Ambient humidity**||Operating/Storage: 35% to 95%||||
|**Temperature influence**||±15% max. of sensingdistance at 23°C in the temperature range of –25°C to 70°C||||
|**Voltage influence**||±5% max. of sensing<br>distance in the rated<br>voltage range±10%|±2.5% max. of sensing distance in the rated voltage range±15%|||
|**Insulation resistance**||50 MΩmin.(at 500 VDC)between current-carrying parts and case||||
|**Dielectric strength**||500 VAC at 50/60 Hz for 1 min between current-carrying parts and case||||
|**Vibration resistance**||10 to 55 Hz, 1.5-mm double amplitude for 2 hours each in X, Y, and Z directions||||
|**Shock resistance**||500 m/s210 times each in X, Y, and Z directions||||
|**Degree of protection**||IEC 60529 IP66|IEC 60529 IP67 (Pre-wired models:in-house standard for oil resistance (former<br>JEM standard equivalent to IP67g)) (See note 2.)|||
|**Connection method**||Pre-wired models<br>(Standard length 2 m)|Pre-wired models (Standard length 2 m), connector models|||
|**Weight**<br>**(packed state)**|**Pre-wired**<br>**models**|Approx. 60 g||||
||**Connector**<br>**models**|---|Approx. 12 g|Approx. 15 g|---|
|**Material**|**Case**|Stainless steel(SUS303)||Brass-nickelplated||
||**Sensing surface**|Heat-resistant ABS||||
||**Clamping nuts**|---||Brass-nickelplated||
||**Toothed washer**|---||Iron-zincplated||
|**Accessories**||Instruction manual||||
- **Note 1.** The response speed is an average value. Measurement conditions are as follows: standard sensing object, a distance of twice the standard sensing object, and a set distance of half the sensing distance.
**2.** This OMRON in-house standard confirms resistance to cutting and other oils. It is equivalent to the former JEM standard.
**E2E/E2E2** Cylindrical Proximity Sensor
10
## **E2E-X@Y@ AC 2-wire Models**
|**Size**|**Size**|**M8**|**M8**|**M12**|**M12**|**M18**|**M18**|**M30**|**M30**|
|---|---|---|---|---|---|---|---|---|---|
|**Type**||**Shielded**|**Unshielded**|**Shielded**|**Unshielded**|**Shielded**|**Unshielded**|**Shielded**|**Unshielded**|
|**Item**||**E2E-X1R5Y@**|**E2E-X2MY@**|**E2E-X2Y@**|**E2E-X5MY@**|**E2E-X5Y@**|**E2E-X10MY@**|**E2E-X10Y@**|**E2E-X18MY@**|
|**Sensing distance**||1.5 mm±10%|2 mm±10%|2 mm±10%|5 mm±10%|5 mm±10%|10 mm±10%|10 mm±10%|18 mm±10%|
|**Set 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|
|**Differential travel**||10% max. of sensingdistance||||||||
|**Sensing object**||Ferrous metal(The sensingdistance decreases with non-ferrous metal, refer to_Engineering Data_.)||||||||
|**Standard sensing**<br>**object**||Iron, 8 x 8 x<br>1 mm|Iron,12 x 12 x<br>1 mm|Iron, 12 x 12 x<br>1 mm|Iron, 15 x 15 x<br>1 mm|Iron, 18 x 18 x<br>1 mm|Iron, 30 x 30 x<br>1 mm|Iron, 30 x 30 x<br>1 mm|Iron, 54 x 54 x<br>1 mm|
|**Response speed**||25 Hz||||||||
|**Power supply**<br>**voltage (operating**<br>**voltage range)**<br>**(See note 1.)**||24 to 240 VAC, 50/60 Hz (20 to 264 VAC)||||||||
|**Leakage current**||1.7 mA max.||||||||
|**Control**<br>**output**|**Load**<br>**current**<br>**(See note**<br>**2.)**|5 to 100 mA||5 to 200 mA||5 to 300 mA||||
||**Residual**<br>**voltage**|Refer to_Engineering Data_.||||||||
|**Indicator**||Operation indicator (red LED)||||||||
|**Operation mode**<br>**(with sensing object**<br>**approaching)**||Y1 Models: NO<br>Y2 Models: NC<br>For details, refer to_Timing Charts_.||||||||
|**Protection circuit**||Surge suppressor||||||||
|**Ambient temperature**<br>**(See notes 1 and 2.)**||<br>Operating/Storage: –25°C to<br>70°C (with no icing or<br>condensation)||Operating/Storage: –40°C to 85°C (with no icing or condensation)||||||
|**Ambient humidity**||Operating/Storage: 35% to 95%(with no condensation)||||||||
|**Temperature**<br>**influence**||±10% max. of sensing<br>distance at 23°C in the<br>temperature range of –25°C<br>to 70°C||±15% max. of sensing distance at 23°C in the temperature range of –40°C to 85°C<br>±10% max. of sensing distance at 23°C in the temperature range of –25°C to 70°C||||||
|**Voltage influence**||±1% max. of sensingdistance in the rated voltage range±15%||||||||
|**Insulation resistance**||50 MΩmin.(at 500 VDC)between current-carrying parts and case||||||||
|**Dielectric strength**||4,000 VAC at 50/60 Hz for 1 min between current-carrying parts and case(2,000 VAC for M8 Models)||||||||
|**Vibration resistance**||10 to 55 Hz, 1.5-mm double amplitude for 2 hours each in X, Y, and Z directions||||||||
|**Shock resistance**||500 m/s210 times each in X,<br>Y, and Z directions||1,000 m/s210 times each in X, Y, and Z directions||||||
|**Degree of protection**||IEC 60529 IP67 (Pre-wired models: in-house standard for oil resistance (former JEM standard equivalent to IP67g))(See<br>note 3.)||||||||
|**Connection method**||Pre-wired models(standard length 2 m), connector models||||||||
|**Weight**<br>**(packed**<br>**state)**|<br>**Pre-wired**<br>**models**|Approx. 60 g||Approx. 70 g||Approx. 130 g||Approx. 175 g||
||**Connector**<br>**models**|Approx. 15 g||Approx. 25 g||Approx. 40 g||Approx. 90 g||
|**Material**|**Case**|Stainless steel(SUS303)||Brass-nickelplated||||||
||**Sensing**<br>**surface**|PBT (polybutylene terephthalate)||||||||
||**Clamping**<br>**nuts**|Brass-nickel plated||||||||
||**Toothed**<br>**washer**|Iron-zinc plated||||||||
|**Accessories**||Instruction manual||||||||
- **Note 1.** When supplying 24 VAC to any of the above models, make sure that the operating ambient temperature range is over –25°C.
**2.** 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 5 to 200 mA max.
**3.** This OMRON in-house standard confirms resistance to cutting and other oils. It is equivalent to the former JEM standard.
**E2E/E2E2** Cylindrical Proximity Sensor
11
## **AC/DC 2-wire Models**
|**Size**|**Size**|**M12**|**M18**|**M30**|
|---|---|---|---|---|
|**Type**||**Shielded**|||
|**Item**||**E2E-X3T1**|**E2E-X7T1**|**E2E-X10T1**|
|**Sensing distance**||3 mm±10%|7 mm±10%|10 mm±10%|
|**Set distance**||0 to 2.4 mm|0 to 5.6 mm|0 to 8.0 mm|
|**Differential travel**||10% max. of sensingdistance|||
|**Sensing object**||Ferrous metal(The sensingdistance decreases with non-ferrous metal, refer to_Engineering Data_.)|||
|**Standard sensing object**||Iron, 12 x 12 x 1 mm|Iron, 18 x 18 x 1 mm|Iron, 30 x 30 x 1 mm|
|**Response speed**<br>**(See note 1.)**|**DC**|1.0 kHz|0.5 kHz|0.4 kHz|
||**AC**|25 Hz|||
|**Power supply voltage**<br>**(operating voltage range) (See note 2.)**||24 to 240 VDC (20 to 264 VDC)/48 to 240 VAC (40 to 264 VAC)|||
|**Leakage current**||1 mA DC max., 2 mA AC max.|||
|**Control output**|**Load current**|5 to 100 mA|||
||**Residual**<br>**voltage**|6.0 VDC max. (Load current: 100 mA, Cable length: 2 m)<br>10 VAC max. (Load current: 5 mA, Cable length: 2 m)|||
|**Indicator**||Operation indicator (red LED), settingindicator (green LED)|||
|**Operation mode**<br>**(with sensing object approaching)**||NO<br>For details, refer to_Timing Charts_.|||
|**Protection circuits**||Output load short-circuitprotection(at 20 to 40 VDC), Surge suppressor|||
|**Ambient temperature**||Operating: –25°C to 70°C, Storage: –40°C to 85°C(with no icingor condensation)|||
|**Ambient humidity**||Operating/Storage: 35% to 95%(with no condensation)|||
|**Temperature influence**||±10% max. of sensingdistance at 23°C in the temperature range of –25°C to 70°C|||
|**Voltage influence**||±1% max. of sensingdistance in the rated voltage range±15%|||
|**Insulation resistance**||50 MΩmin.(at 500 VDC)between current-carrying parts and case|||
|**Dielectric strength**||4,000 VAC at 50/60 Hz for 1 min between current-carrying parts and case|||
|**Vibration resistance**||10 to 55 Hz, 1.5-mm double amplitude for 2 hours each in X, Y, and Z directions|||
|**Shock resistance**||1,000 m/s210 times each in X, Y, and Z directions|||
|**Degree of protection**||IEC 60529 IP67<br>In-house standard for oil resistance(former JEM standard equivalent to IP67g) (See note 3.)|||
|**Connection method**||Pre-wired Models(standard length 2 m)|||
|**Weight(packed state)**||Approx. 80g|Approx. 140g|Approx. 190g|
|**Material**|**Case**|Brass-nickelplated|||
||**Sensing surface**|PBT(polybutylene terephthalate)|||
||**Clamping nuts**|Brass-nickelplated|||
||**Toothed washer**|Iron-zincplated|||
|**Accessories**||Instruction manual|||
- **Note 1.** The response speed is an average value. Measurement conditions are as follows: standard sensing object, a distance of twice the standard sensing object, and a set distance of half the sensing distance.
**2.** Power supply voltage waveform: Use a sine wave for the power supply. Using a rectangular AC power supply may result in faulty reset.
**3.** This OMRON in-house standard confirms resistance to cutting and other oils. It is equivalent to the former JEM standard.
**E2E/E2E2** Cylindrical Proximity Sensor
12
**E2E2**
## **E2E2-X@D@ DC 2-wire Models**
|**Size**|**Size**|**M12**|**M12**|**M18**|**M18**|**M30**|**M30**|
|---|---|---|---|---|---|---|---|
|**Type**||**Shielded**|**Unshielded**|**Shielded**|**Unshielded**|**Shielded**|**Unshielded**|
|**Item**||**E2E2-X3D@**|**E2E2-X8MD@**|**E2E2-X7D@**|**E2E2-X14MD@**|**E2E2-X10D@**|**E2E2-X20MD@**|
|**Sensing distance**||3 mm±10%|8 mm±10%|7 mm±10%|14 mm±10%|10 mm±10%|20 mm±10%|
|**Set distance**<br>**(See note 1.)**||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|
|**Differential travel**||10% max. of sensingdistance||||||
|**Sensing object**||Ferrous metal (The sensingdistance decreases with non-ferrous metal, refer to_Engineering Data_.)||||||
|**Standard sensing**<br>**object**||Iron, 12 x 12 x<br>1 mm|Iron, 30 x 30 x<br>1 mm|Iron, 18 x 18 x<br>1 mm|Iron, 30 x 30 x<br>1 mm|Iron, 30 x 30 x<br>1 mm|Iron, 54 x 54 x<br>1 mm|
|**Response speed (See**<br>**note 2.)**||1.0 kHz|0.8 kHz|0.5 kHz|0.4 kHz|0.4 kHz|0.1 kHz|
|**Power supply voltage**<br>**(operating voltage**<br>**range)**||12 to 24 VDC (10 to 30 VDC), ripple (p-p): 10% max.||||||
|**Leakage current**||0.8 mA max.||||||
|**Control**<br>**output**|**Load**<br>**current**|3 to 100 mA||||||
||**Residual**<br>**voltage**|3.0 V max. (Load current: 100 mA, Cable length: 2 m)||||||
|**Indicator**||D1 Models: Operation indicator (red LED), setting indicator (green LED)<br>D2 Models: Operation indicator(red LED)||||||
|**Operation mode**<br>**(with sensing object**<br>**approaching)**||D1 Models: NO<br>D2 Models: NC<br>For details, refer to_Timing charts_.||||||
|**Protection circuits**||Surge suppressor, output load short-circuit protection||||||
|**Ambient temperature**||Operating/Storage: –25°C to 70°C (with no icingor condensation)||||||
|**Ambient humidity**||Operating/Storage: 35% to 95% (with no condensation)||||||
|**Temperature influence**||±10% max. of sensingdistance at 23°C in the temperature range of –25°C to 70°C||||||
|**Voltage influence**||±1% max. of sensingdistance in the rated voltage range±15%||||||
|**Insulation resistance**||50 MΩmin. (at 500 VDC) between current-carryingparts and case||||||
|**Dielectric strength**||1,000 VAC at 50/60 Hz for 1 min between current-carryingparts and case||||||
|**Vibration resistance**||10 to 55 Hz, 1.5-mm double amplitude for 2 hours each in X, Y, and Z directions||||||
|**Shock resistance**||1,000 m/s210 times each in X, Y, and Z directions||||||
|**Degree of protection**||IEC 60529 IP67<br>In-house standard for oil resistance (former JEM standard equivalent to IP67g)(See note 3.)||||||
|**Connection method**||Pre-wired models (standard length 2 m)||||||
|**Weight (packed state)**||Approx. 65g||Approx. 150g||Approx. 210g||
|**Material**|**Case**|Brass||||||
||**Sensing**<br>**surface**|PBT (polybutylene terephthalate)||||||
||**Clamping**<br>**nuts**|<br>Brass-nickel plated||||||
||**Toothed**<br>**washer**|Iron-zinc plated||||||
|**Accessories**||Instruction manual||||||
- **Note 1.** Use the E2E2 within the range in which the setting indicator (green LED) is lit (except D2 models).
**2.** The response speed is an average value. Measurement conditions are as follows: standard sensing object, a distance of twice the standard sensing object, and a set distance of half the sensing distance.
**3.** This OMRON in-house standard confirms resistance to cutting and other oils. It is equivalent to the former JEM standard.
**E2E/E2E2** Cylindrical Proximity Sensor
13
## **E2E2-X@C@/B@ DC 3-wire Models**
|**Size**|**Size**|**M12**|**M12**|**M18**|**M18**|**M30**|**M30**|
|---|---|---|---|---|---|---|---|
|**Type**||**Shielded**|**Unshielded**|**Shielded**|**Unshielded**|**Shielded**|**Unshielded**|
|**Item**||**E2E2-X2C@/**<br>**B@**|**E2E2-X5MC@/B@**|**E2E2-X5C@/**<br>**B@**|**E2E2-X10MC@/**<br>**B@**|**E2E2-X10C@/**<br>**B@**|**E2E2-X18MC@/**<br>**B@**|
|**Sensing distance**||2 mm±10%|5 mm±10%|5 mm±10%|10 mm±10%|10 mm±10%|18 mm±10%|
|**Set 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|
|**Differential travel**||10% max. of sensingdistance||||||
|**Sensing object**||Ferrous metal (The sensingdistance decreases with non-ferrous metal, refer to_Engineering Data_.)||||||
|**Standard sensing**<br>**object**||Iron, 12 x 12 x<br>1 mm|Iron, 15 x 15 x<br>1 mm|Iron, 18 x 18 x<br>1 mm|Iron, 30 x 30 x<br>1 mm|Iron, 30 x 30 x<br>1 mm|Iron, 54 x 54 x<br>1 mm|
|**Response speed (See**<br>**note 1.)**||1.5 kHz|0.4 kHz|0.6 kHz|0.2 kHz|0.4 kHz|0.1 kHz|
|**Power supply voltage**<br>**(operating voltage**<br>**range) (See note.)**||12 to 24 VDC (10 to 55 VDC), ripple (p-p): 10% max.||||||
|**Current consumption**||13 mA max.||||||
|**Control**<br>**output**|**Load**<br>**current**|200 mA max., open collector (55 VDC max.)||||||
||**Residual**<br>**voltage**|2 V max. (Load current: 200 mA, Cable length: 2 m)||||||
|**Indicator**||Operation indicator (red LED)||||||
|**Operation mode (with**<br>**sensing object**<br>**approaching)**||B1/C1 Models: NO<br>B2/C2 Models: NC<br>For details, refer to_Timing Charts_.||||||
|**Protection circuits**||Surge suppressor, output load short-circuitprotection,power supplyreversepolarity protection||||||
|**Ambient temperature**||Operating/Storage: –40°C to 85°C(with no icingor condensation)||||||
|**Ambient humidity**||Operating/Storage: 35% to 95%(with no condensation)||||||
|**Temperature influence**||±15% max. of sensing distance at 23°C in the temperature range of –40°C to 85°C<br>±10% max. of sensingdistance at 23°C in the temperature range of –25°C to 70°C||||||
|**Voltage influence**||±1% max. of sensingdistance in the rated voltage range±15%||||||
|**Insulation resistance**||50 MΩmin. (at 500 VDC) between current-carryingparts and case||||||
|**Dielectric strength**||1,000 VAC at 50/60 Hz for 1 min between current-carryingparts and case||||||
|**Vibration resistance**||10 to 55 Hz, 1.5-mm double amplitude for 2 hours each in X, Y, and Z directions||||||
|**Shock resistance**||1,000 m/s210 times each in X, Y, and Z directions||||||
|**Degree of protection**||IEC 60529 IP67<br>In-house standard for oil resistance(former JEM standard equivalent to IP67g) (See note 3.)||||||
|**Connection method**||Pre-wired models(standard length: 2 m)||||||
|**Weight(packed state)**||Approx. 75g||Approx. 160g||Approx. 220g||
|**Material**|**Case**|Brass||||||
||**Sensing**<br>**surface**|PBT (polybutylene terephthalate)||||||
||**Clamping**<br>**nuts**|Brass-nickel plated||||||
||**Toothed**<br>**washer**|Iron-zinc plated||||||
|**Accessories**||Instruction manual||||||
**Note 1.** The response speed is an average value. Measurement conditions are as follows: standard sensing object, a distance of twice the standard sensing object, and a set distance of half the sensing distance.
**2.** An unsmoothed full-wave rectification power supply of 24 VDC ±20% (average value) can be used.
**3.** This OMRON in-house standard confirms resistance to cutting and other oils. It is equivalent to the former JEM standard.
**E2E/E2E2** Cylindrical Proximity Sensor
14
## **E2E2-X@Y@ AC 2-wire Models**
|**Size**|**Size**|**M12**|**M12**|**M18**|**M18**|**M30**|**M30**|
|---|---|---|---|---|---|---|---|
|**Type**||**Shielded**|**Unshielded**|**Shielded**|**Unshielded**|**Shielded**|**Unshielded**|
|**Item**||**E2E2-X2Y@**|**E2E2-X5MY@**|**E2E2-X5Y@**|**E2E2-X10MY@**|**E2E2-X10Y@**|**E2E2-X18MY@**|
|**Sensing distance**||2 mm±10%|5 mm±10%|5 mm±10%|10 mm±10%|10 mm±10%|18 mm±10%|
|**Set 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|
|**Differential travel**||10% max. of sensingdistance||||||
|**Sensing object**||Ferrous metal (The sensingdistance decreases with non-ferrous metal, refer to_Engineering Data_.)||||||
|**Standard sensing object**||Iron, 12 x 12 x<br>1 mm|Iron, 15 x 15 x<br>1 mm|Iron, 18 x 18 x<br>1 mm|Iron, 30 x 30 x<br>1 mm|Iron, 30 x 30 x<br>1 mm|Iron, 54 x 54 x<br>1 mm|
|**Response speed**||25 Hz||||||
|**Power supply voltage**<br>**(operating voltage**<br>**range) (See note 1.)**||24 to 240 VAC, 50/60 Hz (20 to 264 VAC)||||||
|**Leakage current**||1.7 mA max.||||||
|**Control**<br>**output**|**Load**<br>**current**<br>**(See note**<br>**2.)**|5 to 200 mA||5 to 300 mA||||
||**Residual**<br>**voltage**|Refer to_Engineering Data_.||||||
|**Indicator**||Operation indicator(red LED)||||||
|**Operation mode (with**<br>**sensing object**<br>**approaching)**||Y1 Models:<br>NO<br>Y2 Models:<br>NC<br>For details, refer to_Timing Charts_.||||||
|**Ambient temperature**||Operating/Storage: –40°C to 85°C (with no icingor condensation) (See notes 1 and 2.)||||||
|**Ambient humidity**||Operating/Storage: 35% to 95% (with no condensation)||||||
|**Temperature influence**||±15% max. of sensing distance at 23°C in the temperature range of –40°C to 85°C<br>±10% max. of sensingdistance at 23°C in the temperature range of –25°C to 70°C||||||
|**Voltage influence**||±1% max. of sensingdistance in the rated voltage range±15%||||||
|**Insulation resistance**||50 MΩmin.(at 500 VDC)between current-carrying parts and case||||||
|**Dielectric strength**||4,000 VAC at 50/60 Hz for 1 min between current-carrying parts and case||||||
|**Vibration resistance**||10 to 55 Hz, 1.5-mm double amplitude for 2 hours each in X, Y, and Z directions||||||
|**Shock resistance**||1,000 m/s2, 10 times each in X, Y, and Z directions||||||
|**Degree of protection**||IEC 60529 IP67<br>In-house standard for oil resistance (former JEM standard equivalent to IP67g)(See note 3.)||||||
|**Connection method**||Pre-wired models (standard length: 2 m)||||||
|**Weight (packed state)**||Approx. 65g||Approx. 150g||Approx. 210g||
|**Material**|**Case**|Brass||||||
||**Sensing**<br>**surface**|PBT (polybutylene terephthalate)||||||
||**Clamping**<br>**nuts**|Brass-nickel plated||||||
||**Toothed**<br>**washer**|Iron-zinc plated||||||
|**Accessories**||Instruction manual||||||
**Note 1.** When supplying 24 VAC to any of the above models, make sure that the operating ambient temperature range is –25°C to 85°C.
**2.** 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 5 to 200 mA maximum.
**3.** This OMRON in-house standard confirms resistance to cutting and other oils. It is equivalent to the former JEM standard.
**E2E/E2E2** Cylindrical Proximity Sensor
15
**En ineerin Data g g**
## **E2E**
## **Operating Range (Typical)**
**==> picture [506 x 380] intentionally omitted <==**
**----- Start of picture text -----**<br>
Shielded Models<br>E2E-X @ D @<br>E2E-X @ E @ /F @ E2E-C @ C @ /B @<br>E2E-X @ T1<br>E2E-X @ Y @ E2E-X @ C @ /B @<br>12 12 1.6<br>E2E-X10 E2E-X10 1.4<br>10 10<br>1.2<br>8 8 E2E-X1/E2E-C1<br>E2E-X7 1.0<br>6 6 0.8<br>E2E-X3 E2E-X5 E2E-CR8<br>E2E-X2 E2E-X2 0.6<br>4 4<br>E2E-CR6<br>0.4<br>E2E<br>2 2 -X1R5<br>0.2<br>0−20 −15 −10 −5 0 5 10 15 20 0−15 −10 −5 0 5 10 15 −03.0 −2.0 −1.0 0 1.0 2.0 3.0<br>Distance Y (mm) Distance Y (mm) Distance Y (mm)<br>Unshielded Models<br>E2E-X @ MD @ E2E-X @ ME @ /F @<br>E2E-X @ MY @<br>30 30<br>25 25<br>20 20<br>E2E-X20M E2E-X18M<br>15 15<br>E2E-X14M<br>E2E-X10M<br>10 10<br>E2E-X8M E2E-X5M<br>E2E-X2M<br>5 5<br>E2E-X4M<br>0−30 −20 −10 0 10 20 30 0−30 −20 −10 0 10 20 30<br>Distance Y (mm) Distance Y (mm)<br>Sensing distance X (mm) Sensing distance X (mm) Sensing distance X (mm)<br>Sensing distance X (mm) Sensing distance X (mm)<br>Y<br>X<br>Y<br>X<br>Y<br>X<br>Y<br>X<br>Y<br>X<br>**----- End of picture text -----**<br>
**E2E/E2E2** Cylindrical Proximity Sensor
16
## **Leakage Current (Typical)**
**==> picture [500 x 583] intentionally omitted <==**
**----- Start of picture text -----**<br>
E2E-X @ D @ E2E-X @ Y @ E2E-X @ T1<br>DC/AC<br>: oe ee<br>AC power supply<br>~ a 1.0<br>. 1.0pu |eePp<br>E2E-X10D1-N<br>ee<br>E2E-X3D1-N<br>ee e e<br>DC power supply<br>a e horde) | Proximity | | Protective | | | | yfLe er<br>E2E-X2D1-N Sensor resistance<br>E2E-X7D1-N " (when @ ™<br>: 4 ; OFF) | ee ay<br>: AC power pt<br>supply<br>0 5 10 16 20 25 30 0 50 100 150 200 250 300 0 50 100 150 200 250 300<br>Supply voltage (V) Supply voltage (V) Supply voltage (V)<br>Residual Output Voltage (Typical)<br>E2E-X @ D @ E2E-X @ T1<br>5<br>200 VAC<br>AN<br>pak<br>4 100 VAC<br>E2E-X@D1-M1J-T<br>24 VDC<br>3<br>E2E-X@D@<br>2 AM<br>1<br>0<br>1 3 5 10 30 50 100<br>Load current (mA) Load current (mA)<br>E2E-X @ Y @<br>24 VAC 100 VAC 200 VAC<br>Residual output voltage Residual output voltage<br>Re) a ty ; —<br>Residual output voltage<br>Proximity Proximity<br>Sensor Sensor<br>er lie {it i :tt<br>100 VAC 200 VAC<br>10al Proximity Sensor retBanal m6 ~e 9 il HH 6oy |<br>{| A 40 @) 80 ®<br>Residual 24 VAC Residual Residual<br>load load load<br>LC voltage ME OFF ; om voltage i OFF ne voltage PL L OFF<br>1 3.5 10 30 50 100 300 500 1 3°05 10 30 50 100 300 500 | 3°05 10 30 50 100 | 300<br>Load current (mA) Load current (mA) Load current (mA)<br>Leakage current (mA) Leakage current (mA)<br>Leakage current (mA)<br>Residual output voltage (V)<br>Residual output voltage (V)<br> (V)Load voltage VL (V)Load voltage VL (V)Load voltage VL<br>**----- End of picture text -----**<br>
## **Residual Output Voltage (Typical)**
**E2E/E2E2** Cylindrical Proximity Sensor
17
**Sensing Distance vs. Sensing Object (Typical)**
**==> picture [480 x 583] intentionally omitted <==**
**----- Start of picture text -----**<br>
E2E-X2D @ E2E-X3D @ E2E-X7D @<br>E2E-X3T1 E2E-X7T1<br>3.0 4.0 8<br>t = 1 mm t = 1 mm Iron<br>ee eee eee att Joi pF<br>Iron Stainless steel<br>(SUS304)<br>— £ 1 Pl aT |,<br>Iron<br>15Tan I7.222) Stainless steel |fretsaa<br>Po Stainless steel 2.0 f (SUS304) 4 Va<br>(SUS304) Brass Brass<br>aRee)——| BrassAluminum hoee| xa AluminumCopper |2 |[/F ~~ t = 1 mm R AluminumCopper<br>Copper<br>>| 7) | | | |/“ato Fe | |<br>| | 05PCE | :TtOd<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 @ E2E-X4MD @ E2E-X8MD @<br>E2E-X10T1<br>12 6 12<br>t = 1 mm t = 1 mm<br>Pi | Iron t | ||| cm | | | |<br>| ALI [see Iron ane Iron<br>w2cenne Stainlesssteel a“TL Stainless [7]“TL | Stainless<br>Brass(SUS304) steel (SUS304) steel (SUS304)<br>7 yr Copper Aluminumt = 1 mm aan BrassAluminum fo BrassAluminum<br>Copper Copper<br>2 ta A KS<br>0aan10 20 30 40 50 -560Od 70 0PT]10 20 30ty40 50 60ty70 0EEL10 15 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>E2E-X14MD @ E2E-X20MD @ E2E-X1R5E @ /F @<br>E2E-X1R5Y @<br>25 25 2.5<br>t = 1 mm t = 1 mm<br>_< d EL} LEER Iron att |<br>Iron<br>Iron Stainless<br>steel Stainless steel<br>(SUS304) (SUS304)<br>Stainless Brass<br>steel<br>(SUS304) Aluminum<br>Copper Brass<br>Brass<br>P Y E Aluminum C-= = t = 1 mm | T t Aluminum<br>Copper<br>tt Od<br>0 10 6.20—:—«8si(itisC“‘<‘z;W:*C*KSt«CO| 0|10 20 30 40 50ase60 70 80 90100 0TL5 10 L 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>
**E2E/E2E2** Cylindrical Proximity Sensor
18
**==> picture [486 x 705] intentionally omitted <==**
**----- Start of picture text -----**<br>
E2E-X2E @ /F @ E2E-X5E @ /F @ E2E-X10E @ F @<br>E2E-X2Y @ E2E-X5Y @ E2E-X10Y @<br>25 7 12<br>t = 1 mm<br>Iron Iron<br>Ze rt Iron ft t j] [p] [T]<br>iar Stainless steel a a Stainless steel<br>(SUS304) (SUS304)<br>TA T 5Ge Stainless steel e ee<br>Xx t = 1 mm (SUS304)<br>Brass<br>Brass<br>1.0 el ie Brass —!<br>ost| Y F Aluminum ee Aluminum Th t = 1 mm rd Aluminum<br>4} TT T CO mm) ft<br>~~|<br>pt Ce e pe e<br>0 5 10 15 20 25 0 10 20 30 40 50 0 10 20 30 49 50 60<br>Side length of sensing object d (mm) Side length of sensing object d (mm) Side length of sensing object d (mm)<br>E2E-X2ME @ /F @ E2E-X5ME @ /F @ E2E-X10ME @ /F @<br>E2E-X2MY @ E2E-X5MY @ E2E-X10MY<br>25 7 12<br>t = 1 mm<br>Iron<br>Iron<br>° athe | L E<br>Iron<br>Stainless steel pe e LiK E<br>(SUS304)<br>Stainless steel Stainless steel<br>(SUS304) (SUS304)<br>wa f o<br>Brass Lilyo e| mA<br>Alumi- Brass Brass<br>" num |foeLS —}1<br>t = 1 mm Copper t = 1 mm<br>Aluminum<br>Aluminum<br>TI 8<br>0 5at10 15 [Ft] 20 25 30 0 10 26 30 40 50 |0 y10 20 30 a 40 50 60<br>Side length of sensing object d (mm) Side length of sensing object d (mm) Side length of sensing object d (mm)<br>E2E-X18ME @ /F @ E2E-CR6 @@ E2E-CR8 @@<br>E2E-X18MY @<br>25 0.7 1.2<br>t = 1 mm t = 1 mm<br>0.6 Iron<br>mem | | EA 4 |<br>Iron Stainless<br>0.5 steel<br>(SUS304) 0.8 i Iron<br>{aetlt 1—| 0.4 | : Brass aka—<br>Stainless steel Aluminum<br>(SUS304) Stainless<br>i 5 | 0.3 Io r e steel<br>(SUS304)<br>10 Brass (a<br>0.2 @d Brass<br>t = 1 mm<br>4 S Aluminum { com _ X t Aluminum<br>0.1 Copper<br>o Pa ;SS<br>0 20 40 60 80 100 0 5 10 15 20 0 5 10 15 20 25 30<br>Side length of sensing object d (mm) Side length of sensing object d (mm) Side length of sensing object d (mm)<br>E2E-X1 @@<br>E2E-C1 @@<br>1.2<br>1.0 Iron<br>08 Stainless steel<br>(SUS304)<br>0.6<br>0.4 Brass<br>!<br>Aluminum<br>0.2 x| t = 1 mm<br>0 5 10 15 20 25<br>Side length of sensing object d (mm)<br>Sensing distance X (mm) Sensing distance X (mm) Sensing distance X (mm)<br>Sensing distance X (mm) Sensing distance X (mm) Sensing distance X (mm)<br>Sensing distance X (mm) Sensing distance X (mm) Sensing distance X (mm)<br>Sensing distance X (mm)<br>**----- End of picture text -----**<br>
**E2E/E2E2** Cylindrical Proximity Sensor
19
**E2E2**
## **Operating Range (Typical)**
## **Shielded Models**
**==> picture [487 x 561] intentionally omitted <==**
**----- Start of picture text -----**<br>
E2E2-X @ D @ E2E2-X @ C @ /B @<br>E2E2-X @ Y @<br>12 3.0 12<br>E2E2-X10 E2E2-X10<br>10 2.5 10<br>PTET E TE) LT tT te<br>Y Y<br>8 PE PNITATEE 2.0 f X ieyer 8 LEN TaT Ee<br>E2E2-X7 E2E2-X2<br>X<br>6 1.5 6<br>OT ] 4 Ne E2E2-X5<br>4 SK, 1.0 (i 4 A A<br>E2E2-X3<br>2 0.5 2<br>a LY N A I<br>0 − oP 20 −15 ANG −10 −5 0 5 10 ee 15 20 0 -15 ee [oy] -10 -5 0 5 10 15 0 −15 −10 a −5 0 5 cr 10 15<br>Distance Y (mm) Distance Y (mm)<br>Distance Y (mm)<br>Unshielded Models<br>E2E2-X @ MD @ E2E2-X @ MC @ /B @<br>E2E2-X @ MY @<br>30 6 30<br>25 5 25<br>Pt [ETT]<br>Y E2E2-X5M<br>20 pt Ey 4 LEE X TE EE 20 j e | |tT<br>| ty E2E2-X20M SN it E2E2-X18M<br>15 3 15<br>PP S E2E2-X14M<br>10 2 f\ 10 E2E2-X10M<br>BR | oP eexU P R<br>E2E2-X8M<br>5 1 5<br>Ti of NE LLK X<br>0 − T 30 −20 \\\K −10 0 10 20 | 30 0 -8 OLE -6 -4 -2 0 2 4 6 |} 8 0 − A | 30 −20 A −10 0 a 10 20 30<br>Distance Y (mm) Distance Y (mm) Distance Y (mm)<br>Leakage Current (Typical)<br>E2E2-X @ D @ E2E2-X @ Y @<br>" Jitt yy<br>” Xe<br>1 aor| |<br>. tt<br>Proximity Sensor Protective<br>(when resistance<br>OFF)<br>AC<br>power<br>supply<br>Supply voltage (V) Supply voltage (V)<br>Sensing Distance X (mm) Sensing Distance X (mm) Sensing Distance X (mm)<br>Sensing Distance X (mm) Sensing Distance X (mm) Sensing Distance X (mm)<br>Leakage current (mA) Leakage current (mA)<br>Y<br>X<br>Y<br>X<br>Y<br>X<br>**----- End of picture text -----**<br>
## **Leakage Current (Typical)**
**E2E/E2E2** Cylindrical Proximity Sensor
20
## **Residual Output Voltage (Typical)**
**E2E2-X** @ **D** @
**==> picture [480 x 326] intentionally omitted <==**
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Lact<br>1 3 5 10 30 50 100<br>Load current (mA)<br>E2E2-X @ Y @<br>24 VAC 100 VAC 200 VAC<br>Residual output voltage Residual output voltage<br>Aa | le at| aaa sob aiz {<br>. Residual output voltage ty 21Oe |<br>Proximity Proximity<br>L hWwe J 0 Sensor [ © || on Sensor ~eoy ||<br>100 VAC 200 VAC<br>Proximity<br>| Residual Sensor om i } 24 VAC a Residual il Residual | |<br>load load load<br>voltage @M x OFF I 20| voltage a eat OFF 40 voltage eeNI e OFF<br>1 3 5 10 30 50 100 300 500 1 3.5 10 30 50 100 300 500 1 3°05 10 30 50 100 300<br>Load current (mA) Load current (mA) Load current (mA)<br>Residual output voltage (V)<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 [483 x 170] intentionally omitted <==**
**----- Start of picture text -----**<br>
E2E2-X3D @ E2E2-X7D @ E2E2-X10D @<br>40 t= 1 mm 8 12<br>TT ; TT. Iron TT Tt<br>Iron<br>set Iron ee ea<br>TT7 LLL. TTj~ .aZennne<br>Stainless steel<br>Stainless steel (SUS304)<br>wale (SUS304) Tf v2acen Stainless steel<br>ool A Lp sf |-—— (SUS304)<br>Brass<br>TL LLL Brass Re Aluminum AL Brass<br>Aluminum<br>s/o Aluminum e [7 Copper 1 i —— Copper<br>°OEEPTs ee Copper H eae tates.s: t= 1 mm —].COSEELLLL t mat’e t= 1 mm<br>ie} 5 10 15 20 25 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>
**E2E/E2E2** Cylindrical Proximity Sensor
21
**==> picture [481 x 571] intentionally omitted <==**
**----- Start of picture text -----**<br>
E2E2-X8MD @ E2E2-X14MD @ E2E2-X20MD @<br>12 25 PA}<br>t=1 mm t=1 mm<br>opts tL) ete EEL) LETT Iron<br>8 —_ Iron<br>re er PSP) tr<br>Iron Stainless<br>steel<br>tetra Stainless steel HEH LAR (SUS304)<br>(SUS304)<br>4Alan Brass 0 {7ZL—— | Stainless steel (SUS304)Brass ft[AS| BrassAluminumCopper<br>AluminumCopper AluminumCopper t=1 mm<br>fir e) 2es=<br>0Fett10 15 20 [Et] 30 40 50 60 70 ML0 10 20 30 40 ) 50 60 70 We0 10 20 30 40 50 60 e 70 80 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 @ /B @ E2E2-X5C @ /B @ E2E2-X10C @ /B @<br>E2E2-X2Y @ E2E2-X5Y @ E2E2-X10Y @<br>2.5 7 12<br>t = 1 mm<br>Iron<br>Iron<br>|TTT T T) tae D e<br>Iron<br>5<br>15 og Stainless steel (SUS304) limes a PL ATT Stainless steel (SUS304)<br>t=1 mm Stainless steel<br>(SUS304)<br>Brass<br>. ape | |fT =n<br>= Brass a. Brass<br>[o t NY y t=1 mm r Aluminum<br>| L s Aluminum 2 SS Aluminum , Cc<br>ett ) R S ee e<br>0 10 20 30 40 50<br>Side length of sensing Side length of sensing<br>object d (mm) Side length of sensing object d (mm)<br>object d (mm)<br>E2E2-X5MC @ /B @ E2E2-X10MC @ /B @ E2E2-X18MC @ /B @<br>E2E2-X5MY @ E2E2-X10MY @ E2E2-X18MY @<br>7 t = 1 mm 12 25 t-=1 mm<br>Iron<br>moo TO O wer<br>Iron Iron<br>. t |<br>cee Stainless steel al {He —<br>| (SUS304) Stainless steel (SUS304) | | Stainless steel (SUS304)<br>-— f o |A hosna Fooe<br>a Brass 4fti- eS ESr ] Brass f+ Brass<br>t-=1 mm<br>Aluminum Aluminum<br>Aluminum<br>a C o eS<br>aa BOTT] ET<br>0 10 20 30 40 50 ie) 10 20 30 40 50 60 0 20 40 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)<br>Sensing distance (mm)<br>Sensing distance (mm) Sensing distance (mm)<br>Sensing distance (mm)<br>**----- End of picture text -----**<br>
**E2E/E2E2** Cylindrical Proximity Sensor
22
**Out ut Circuits and Timin Charts p g**
## ■ **Output Circuits**
## **E2E**
## **E2E-X@D@ DC 2-wire Models**
**==> picture [106 x 17] intentionally omitted <==**
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E2E-X @ D1<br>Without Diagnostic Output<br>**----- End of picture text -----**<br>
**==> picture [321 x 102] intentionally omitted <==**
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E2E-X @ D1-M1J-T E2E-X @ D1S<br>No Polarity With Diagnostic Output<br>4 Brown<br>4<br>Load Load<br>Proximity sensor sensor (0 V) Proximity Load<br>main circuitcircuit 3 sensor main circuit 2Orange (diagnostic output)<br>0 V<br> Ee... at Blue 3<br>Note: 1. The load can be connected to 0 V<br>either the +V or 0 V side.<br>**----- End of picture text -----**<br>
**==> picture [304 x 64] intentionally omitted <==**
**----- Start of picture text -----**<br>
1 4<br>Load Load<br>Proximity sensor Brown Proximity sensor sensor (0 V)<br>main circuit main circuitcircuit<br>4 3<br>os Blue 0 V ”COL Ee... 0 V<br>**----- End of picture text -----**<br>
- **Note: 1.** The load can be connected to either the +V or 0 V side.
**==> picture [145 x 25] intentionally omitted <==**
**----- Start of picture text -----**<br>
Note: Connect both the loads to the +V<br>side of the control output and<br>diagnostic output.<br>**----- End of picture text -----**<br>
**2.** The pin numbers in the above diagram are for the -M@G(J). For the -M1, pin 4 is +V and pin 3 is 0 V.
**2.** The E2E-X@D1-M1J-T has no polarity. Therefore, terminals 3 and 4 have no polarity.
## **E2E-X** @ **D2 Without Diagnostic Output**
**==> picture [138 x 60] intentionally omitted <==**
**----- Start of picture text -----**<br>
1<br>Load<br>Proximity Brown<br>sensor<br>main<br>circuit<br>2<br>LAT Blue 0 V<br>**----- End of picture text -----**<br>
- **Note: 1.** The load can be connected to either the +V or 0 V side.
**2.** The pin numbers in the above diagram are for the -M@G. For -M1 models, pin 2 is +V and pin 3 is 0 V.
## **DC 3-wire Models**
## **E2E-X** @ **E** @ **NPN Output**
**E2E-X** @ **F** @ **PNP Output**
**==> picture [376 x 91] intentionally omitted <==**
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Brown 1<br>Brown 1<br>100 Ω **<br>Constant Load Proximity<br>Proximity sensor current* sensor main circuit Black 4<br>main circuit Black 4 (or 2)***Load<br>(or 2)** *<br>100 Ω<br>0 V<br>Blue 3 Blue 3<br>0 V<br>**----- End of picture text -----**<br>
- Constant current output is 1.5 to 3 mA.
- Constant current output is 1.5 to 3 mA.
- ** When connecting to a Tr circuit.
- ** Pin 4 is an NO contact, and pin 2 is an NC contact.
- *** Pin 4 is an NO contact, and pin 2 is an NC contact.
## **E2E-C/X** @ **C** @ **NPN Open-collector Output**
## **E2E-C/X** @ **B** @
**PNP Open-collector Output**
**==> picture [140 x 81] intentionally omitted <==**
**----- Start of picture text -----**<br>
Brown 1<br>100 Ω<br>Load<br>Proximity sensor Black 4<br>main circuit Output<br>Blue 3<br>0 V<br>**----- End of picture text -----**<br>
**==> picture [140 x 80] intentionally omitted <==**
**----- Start of picture text -----**<br>
Brown 1<br>Proximity<br>sensor Black 4<br>main<br>circuit |<br>Load<br>100 Ω Blue 3<br>0 V<br>**----- End of picture text -----**<br>
- E2E-CR6@ has no 100-Ω resistance.
- E2E-CR6@ has no 100-Ω resistance.
**E2E/E2E2** Cylindrical Proximity Sensor
23
## **E2E-X@Y@ AC 2-wire Models**
**==> picture [135 x 62] intentionally omitted <==**
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Brown 3 (or 1)<br>Load<br>Proximity<br>sensor<br>main<br>circuit<br>Blue 4 (or 2)<br>**----- End of picture text -----**<br>
**Note:** For connector models, the connection between pins 3 and 4 uses an NO contact, and the connection between pins 1 and 2 uses an NC contact.
## **E2E-X@T1 AC/DC 2-wire Models**
**==> picture [156 x 43] intentionally omitted <==**
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Brown<br>Load 24 to 240 VDC<br>48 to 240 VAC<br>Proximity<br>sensor Power<br>main supply<br>circuit Blue<br>**----- End of picture text -----**<br>
**Note:** The load can be connected to either the +V or 0 V side. There is no need to be concerned about the polarity (Brown/Blue) of the Proximity Sensor.
## **E2E2**
## **E2E2-X@D@ DC 2-wire Models**
**==> picture [139 x 54] intentionally omitted <==**
**----- Start of picture text -----**<br>
Load<br>Proximity Brown<br>sensor<br>main<br>circuit<br>Blue 0 V<br>**----- End of picture text -----**<br>
**Note:** The load can be connected to either the +V or 0 V side.
## **E2E2-X** @ **C** @ **DC 3-wire Models**
**==> picture [144 x 83] intentionally omitted <==**
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Brown 1<br>+ V<br>100 Ω<br>Load<br>Proximity<br>sensor Black<br>main<br>circuit 4 (or 2)*<br>Blue 3<br>0 V<br>**----- End of picture text -----**<br>
* Pin 4 is an NO contact, and pin 2 is an NC contact.
## **E2E2-X** @ **B** @ **DC 3-wire Models**
**==> picture [153 x 85] intentionally omitted <==**
**----- Start of picture text -----**<br>
Brown 1<br>+ V<br>Proximity<br>sensor Black 4 (or 2)*<br>main<br>circuit<br>Load<br>100 Ω<br>Blue 3<br>0 V<br>**----- End of picture text -----**<br>
* Pin 4 is an NO contact, and pin 2 is an NC contact.
## **E2E2-X@Y@ DC 2-wire Models**
**==> picture [130 x 64] intentionally omitted <==**
**----- Start of picture text -----**<br>
Brown 2<br>Load<br>Proximity<br>sensor<br>main<br>circuit<br>Blue 3<br>**----- End of picture text -----**<br>
**E2E/E2E2** Cylindrical Proximity Sensor
24
## ■ **Timing Charts**
## **E2E**
## **E2E-X@D@ DC 2-wire Models E2E-X@T1 AC/DC 2-wire Models**
## **E2E-X** @ **D1 E2E-X** @ **D2 E2E-X** @ **T1 NC Models NO Models**
**==> picture [413 x 337] intentionally omitted <==**
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Set<br>Non-sensing area Unstable sensing area 4 position Stable sensing area Non-sensing area Sensing area<br>Proximity Proximity<br>Sensor Sensor<br>Sensing Sensing<br>object object<br>(%) 100 80 0 %) 100 0<br>ON Setting<br>indicator (green)<br>OFF<br>ON Operation ON Operation<br>OFF indicator (red) OFF indicator (red)<br>ON Control ON Control<br>OFF output OFF output<br>E2E-X @ D1S<br>Set<br>+ position<br>Non-sensing Unstable Stable sensing<br>op area sensing area area Proximity<br>Sensor<br>Sensing<br>object<br>1 t 1<br>(%) 100 80 0<br>ON Setting<br>OFF indicator (green) Note: The diagnostic output of the E2E-X@D1S is<br>ON when there is a coil burnout or the<br>ON Operationindicator (red) sensing object is located in the unstable<br>OFF sensing range for 0.3 s or more.<br>ON Control<br>output<br>OFF<br>i 1<br>ON Diagnostic<br>output (see note)<br>OFF<br>Rated sensing distance<br>Rated sensing distance<br>Rated sensing distance<br>**----- End of picture text -----**<br>
## **E2E-X** @ **D1S**
## **DC 3-wire Models**
**E2E-X** @ **E** @ **NPN Output**
**==> picture [344 x 100] intentionally omitted <==**
**----- Start of picture text -----**<br>
E2E-X @ F @<br>NPN Output PNP Output<br>NO NG<br>Sensing object YesNo ee Sensing Yes<br>Operation ON object No<br>indicator (red) OFF Operation ON<br>Control output ON indicator (red) OFF<br>between brown and black lines OFF Control output ON<br>Output voltagebetween black and blue lines HL Output voltage between black and blue lines OFFON<br>between black and blue lines OFF<br>**----- End of picture text -----**<br>
**E2E-C/X** @ **C** @ **/B** @ **NPN/PNP Open-collector Output**
|Sensing|Yes|
|---|---|
|object|No|
|Operation|ON|
|indicator (red)|OFF|
|Control|ON|
|output|OFF|
**E2E/E2E2** Cylindrical Proximity Sensor
25
## **E2E-X@Y@ AC 2-wire Models**
Sensing Yes object No Operation ON indicator (red) OFF Control ON output OFF
## **E2E2**
## **E2E2-X@D@ DC 2-wire Models**
**NO Models**
## **NC Models**
**==> picture [511 x 151] intentionally omitted <==**
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Set<br>position<br>i Non-sensing area Unstable sensing area Stable sensing area Proximity Non-sensing area es) Sensing area Proximity<br>Sensor Sensor<br>Sensing Sensing<br>object ttua tousio j4 ' object tia iu f2 '<br>—(%) 100 80 01 ————(%) 1001 0)'<br>ON Setting<br>OFF indicator (green)<br>ON Operation ON Operation<br>OFF indicator (red) OFF indicator (red)<br>a<br>ON Control ON Control<br>OFF output OFF output<br>Rated sensing distance<br>Rated sensing distance<br>**----- End of picture text -----**<br>
## **E2E2-X@C@/B@ DC 3-wire Models**
## **NPN/PNP Open-collector Output**
**==> picture [66 x 47] intentionally omitted <==**
**----- Start of picture text -----**<br>
Sensing object Yes<br>No<br>Operation ON<br>indicator (red) OFF<br>ON<br>Control output OFF<br>**----- End of picture text -----**<br>
## **E2E2-X@Y@ AC 2-wire Models**
**==> picture [67 x 47] intentionally omitted <==**
**----- Start of picture text -----**<br>
Sensing object Yes<br>No<br>Operation ON<br>indicator (red) OFF<br>ON<br>Control output OFF<br>**----- End of picture text -----**<br>
**E2E/E2E2** Cylindrical Proximity Sensor
26
## **Installation**
## ■ **Connection**
## **E2E**
**==> picture [477 x 209] intentionally omitted <==**
**----- Start of picture text -----**<br>
E2E-X @ D @ E2E-X @ D1S E2E-X @ D1-M1J-T<br>DC 2-wire Models DC 3-wire Models DC 2-wire Models<br>(Without Diagnostic Output) (With Diagnostic Output) (No Polarity)<br>E2E-X @ Y @ E2E-X @ Y @<br>AC 2-wire Models AC 2-wire Models<br>Brown<br>E2E-X @ T1 Load E2E-X @ T1<br>AC/DC 2-wire Models AC/DC 2-wire Models<br>Orange<br>Load<br>Brown Load Blue Brown<br>Load<br>Power<br>supply Note: The control output and Power<br>supply<br>Blue diagnostic output share the Blue<br>negative common terminal.<br>Therefore, the loads must be<br>Note: There is no need to be<br>Brown connected to the positive<br>concerned about the polarity<br>sides of the control output<br>(Brown/Blue) of the<br>Power and diagnostic output.<br>supply Proximity Sensor.<br>Blue<br>Load<br>Note: The load can be connected<br>as shown above.<br>**----- End of picture text -----**<br>
**==> picture [303 x 103] intentionally omitted <==**
**----- Start of picture text -----**<br>
Connected to PC<br>E2E-X @ D @ E2E-X @ E @<br>DC 2-wire Models DC 3-wire Models<br>Brown<br>Brown<br>Black<br>Blue Blue<br>24 VDC 24 VDC<br>**----- End of picture text -----**<br>
**==> picture [482 x 96] intentionally omitted <==**
**----- Start of picture text -----**<br>
Connected to Relay Load<br>E2E-X @ D @ E2E-X @ E @ E2E-X @ F @<br>DC 2-wire Models DC 3-wire Models DC 3-wire Models<br>Brown Brown Brown<br>Black Black<br>24 VDC<br>Blue Blue Blue<br>am} an6Fp| Imo,om,||<br>**----- End of picture text -----**<br>
**E2E/E2E2** Cylindrical Proximity Sensor
27
**E2E2**
**==> picture [313 x 119] intentionally omitted <==**
**----- Start of picture text -----**<br>
E2E2-X @ D @<br>DC 2-wire Models<br>E2E2-X @ Y @<br>AC 2-wire Models<br>Brown Brown<br>Load<br>Power Power<br>supply supply<br>Blue Blue<br>Load<br>cK a n<br>Note: The load can be connected as shown in the above diagrams.<br>**----- End of picture text -----**<br>
**==> picture [304 x 110] intentionally omitted <==**
**----- Start of picture text -----**<br>
Connected to PC<br>E2E2-X @ D @<br>E2E2-X @ C @<br>DC 2-wire Models<br>DC 3-wire Models<br>Brown<br>Brown<br>Black<br>Blue —_ Blue<br>o 24 VDC x Oo" 24 VDC<br>**----- End of picture text -----**<br>
**E2E/E2E2** Cylindrical Proximity Sensor
28
## ■ **Pin Arrangement**
## **E2E-X@D@-M@ DC 2-wire Models**
|**Connector**|**Self-**<br>**diagnostic**<br>**output**|**Opera-**<br>**tion**<br>**mode**|**Applicable**<br>**models**|**Pin arrangement**|
|---|---|---|---|---|
|M12|No|NO|E2E-X@D1-M1G@<br>(See note.)|**Note:**Terminals 2 and 3 are not used.<br>Load<br>Load<br>~~|~~<br>b (1)<br>DG<br>O ()<br>DC|
||||E2E-X@D1-M1J-T|Load<br>or<br>Load<br>or<br>**Note: 1.**Terminals 1 and 2 are not used.<br>**2.**Terminals 3 and 4 has no<br>polarity.<br><0)<br>oO)<br>—<br>DC<br>‘ly<br>oc<br>le|
||||E2E-X@D1-M1|**Note:**Terminals 1 and 2 are not used.<br>Load<br>Load<br>&® ~~7~~<br>@<br>©<br>—<br>DC<br>DC<br>{||
|||NC|E2E-X@D2-M1G<br>(See note.)|**Note:**Terminals 3 and 4 are not used.<br>Load<br>Load<br>{|<br>QO (1)<br>O C1)<br>©<br>+@<br>+<br>{||
||||E2E-X@D2-M1|Load<br>Load<br>**Note:**Terminal 1 is not used.<br>{|<br>O))<br>O@<br>©<br>}'®<br>+<br>{||
||Yes|NO|E2E-X@D1S-M1|**Note:**Terminals 1 is not used.<br>Load<br>Load<br>(Self-diagnostic output)<br>o~~—~~<br>9) [<br>.|
|M8|No|NO|E2E-X@D1-M3G|**Note:**Terminals 2 and 3 are not used.<br>Load<br>Load<br>1.<br>7<br>e~~y~~|
|||NC|E2E-X@D2-M3G|**Note:**Terminals 3 and 4 are not used.<br>Load<br>Load<br>{|<br>@<br>+e<br>|.<br>[||
**Note:** The above pin arrangements conform to IEC standards.
**E2E/E2E2** Cylindrical Proximity Sensor
29
## **E2E-X@E/F@-M@ DC 3-wire Models**
|**Connector**<br>~~a~~|**Operation mode**|**Applicable models**<br>~~e~~|**Pin arrangement**<br>~~eet~~|
|---|---|---|---|
|M12|NO|E2E-X@E1-M1<br>~~e~~<br>~~S~~|**Note:**Terminal 2 is not used.<br>Load<br>~~eet~~<br>~~See~~|
|||E2E-X@F1-M1<br>~~e~~<br>~~S~~<br>~~Oe~~|**Note:**Terminal 2 is not used.<br>Load<br>~~eet~~<br>~~See~~<br>~~Oe~~|
||NC<br>7|E2E-X@E2-M1<br>~~S~~<br>~~Oe~~<br>~~Of~~|**Note:**Terminal 4 is not used.<br>Load<br>~~See~~<br>~~|~~<br>~~Oe~~<br>~~Of~~<br>~~|~~|
|||E2E-X@F2-M1<br>~~Oe~~<br>~~Of~~<br>~~**f**er~~|**Note:**Terminal 4 is not used.<br>Load<br>~~Oe~~<br>~~Of~~<br>~~|~~<br>O<br>~~er~~|
|M8|NO<br>7|E2E-X@E1-M3<br>~~Of~~<br>~~**f**er~~<br>~~est~~|**Note:**Terminal 2 is not used.<br>Load<br>~~Of~~<br>~~|~~<br>~~er~~<br>:<br>~~est~~|
|||E2E-X@F1-M3<br>~~**f**er~~<br>~~est~~<br>~~eee~~|**Note:**Terminal 2 is not used.<br>Load<br>~~er~~<br>ae<br>be<br>~~est~~<br>~~eee~~|
||NC|E2E-X@E2-M3<br>~~est~~<br>~~eee~~<br>~~fest~~|**Note:**Terminal 4 is not used.<br>Load<br>~~est~~<br>~~eee~~<br>~~—_~~<br>~~fest~~|
|||E2E-X@F2-M3<br>~~eee~~<br>~~fest~~|**Note:**Terminal 4 is not used.<br>Load<br>~~eee~~<br>~~fest~~<br>~~—_~~|
**E2E/E2E2** Cylindrical Proximity Sensor
30
**E2E-CR8C@/CR8B@/X1C@/X1B@-M5 DC 3-wire Models**
**==> picture [511 x 345] intentionally omitted <==**
**----- Start of picture text -----**<br>
||||||
|---|---|---|---|---|
|a|Connector|Operation mode|Applicable models|Pin arrangement|
|M8-3pin|NO/NC|E2E-CR8C@-M5|
|E2E-X1C@-M5|
|4|DC|
|1|3|
|Load|
|NO/NC|E2E-CR8B@-M5|
|E2E-X1B@-M5|4|DC|
|1|3|
|Load|
|E2E-X@Y@-M1 AC 2-wire Models|
|sO|Operation mode|Applicable models|Pin arrangement|
|NO|E2E-X@Y1-M1|
|Load|
|Load|
|Note:|Terminals 1 and 2 are not used.|
|NC|E2E-X@Y2-M1|
|—|Load|
|Load|
|Note:|Terminals 3 and 4 are not used.|
|pf|C4|
**----- End of picture text -----**<br>
## **Precautions**
## **Mounting**
Do not tighten the nut with excessive force. A washer must be used with the nut.
**==> picture [179 x 55] intentionally omitted <==**
**----- Start of picture text -----**<br>
Shielded Model Unshielded Model<br>Part B Part A Part B Part A<br>**----- End of picture text -----**<br>
Refer to the following to mount the E2E-CR6, -CR8 and E2E-C1 non-screw models.
**==> picture [144 x 50] intentionally omitted <==**
**----- Start of picture text -----**<br>
E2E-CR6: 9 to 21 mm<br>E2E-CR8, -C1: 8 to 21 mm<br>M3 hole<br>No screw is provided<br>with the E2E-CR6,<br>-CR8 or E2E-C1.<br>**----- End of picture text -----**<br>
Tighten the screw to a torque of 0.2 N·m maximum to secure the E2E-CR6, -CR8 and a torque of 0.4 N·m maximum to secure the E2E-C1.
**Note:** The table below shows the tightening torques for part A and part B nuts. In the previous examples, the nut is on the sensor 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.
**==> picture [222 x 83] intentionally omitted <==**
**----- Start of picture text -----**<br>
||||||
|---|---|---|---|---|
|Model|Part A|Part B|
|Length|Torque|Torque|
|M5|1 N·m|
|M8|Shielded|9 mm|9 N·m|12 N·m|
|Unshielded|3 mm|
|M12|30 N·m|
|M18|70 N·m|
|M30|180 N·m|
**----- End of picture text -----**<br>
**E2E/E2E2** Cylindrical Proximity Sensor
31
## **Influence 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.
|**Model**<br>~~poes~~|**Model**<br>~~poes~~|**Item**<br>~~es~~|**M8**|**M12**|**M18**|**M30**|
|---|---|---|---|---|---|---|
|E2E-X@D@<br>DC 2-wire<br>E2E-X@T1<br>AC/DC 2-wire<br>E2E2-X@D@<br>DC 2-wire<br>~~po~~|Shielded<br>~~po es~~<br>~~a~~<br>~~ee~~<br>~~es~~<br>~~a~~<br>~~en~~|l<br>~~es~~<br>~~a~~|0 mm<br>~~es~~||||
|||d<br>~~es~~<br>~~a~~<br>~~ee~~|8 mm<br>~~es~~|12 mm|18 mm|30 mm|
|||D<br>~~a ~~<br>~~ee~~<br>~~es~~|0 mm<br> ~~es~~<br>~~ed~~||||
|||m<br>~~ee~~<br>~~es~~|4.5 mm<br>~~ed~~|8 mm|20 mm|40 mm|
|||n<br>~~es~~<br>~~a~~<br>~~en~~|12 mm<br>~~ed~~<br>~~es~~|18 mm|27 mm|45 mm|
||Unshielded<br>~~en~~<br>~~a~~<br>~~a~~<br>~~a~~<br>~~a~~|l<br>~~en~~<br>~~a~~|12 mm<br>~~es~~<br>~~es~~|15 mm|22 mm|30 mm|
|||d<br>~~en~~<br>~~a~~<br>~~a~~|24 mm<br>~~es~~<br>~~es~~<br>~~es~~|40 mm|70 mm|90 mm|
|||D<br>~~a ~~<br>~~a~~<br>~~a~~|12 mm<br> ~~es~~<br>~~es~~<br>~~es~~|15 mm|22 mm|30 mm|
|||m<br>~~a ~~<br>~~a~~|8 mm<br> ~~es~~<br>~~es~~|20 mm|40 mm|70 mm|
|||n<br>~~a ~~<br>~~a~~|24 mm<br> ~~es~~|40 mm|70 mm|90 mm|
|E2E-X@E@<br>E2E-X@F@<br>DC 3-wire<br>E2E-X@Y@<br>AC 2-wire<br>E2E2-X@B@<br>E2E2-X@C@<br>DC 3-wire<br>E2E2-X@Y@<br>AC 2-wire|Shielded<br>~~a~~<br>~~es~~<br>~~ee~~<br>~~es~~<br>~~a~~<br>~~en~~|l<br>~~a~~<br>~~es~~|0 mm<br>~~es~~||||
|||d<br>~~es~~<br>~~ee~~|8 mm<br>~~es~~|12 mm|18 mm|30 mm|
|||D<br>~~es~~<br>~~ee~~<br>~~es~~|0 mm<br>~~es~~<br>~~ed~~||||
|||m<br>~~ee~~<br>~~es~~|4.5 mm<br>~~ed~~|8 mm|20 mm|40 mm|
|||n<br>~~es~~<br>~~a~~<br>~~en~~|12 mm<br>~~ed~~<br>~~es~~|18 mm|27 mm|45 mm|
||Unshielded<br>~~en~~<br>~~a~~<br>~~a~~<br>~~a~~<br>~~es~~|l<br>~~en~~<br>~~a~~|6 mm<br>~~es~~<br>~~es~~|15 mm|22 mm|30 mm|
|||d<br>~~en~~<br>~~a~~<br>~~a~~|24 mm<br>~~es~~<br>~~es~~<br>~~es~~|40 mm|55 mm|90 mm|
|||D<br>~~a ~~<br>~~a~~<br>~~a~~|6 mm<br> ~~es~~<br>~~es~~<br>~~es~~|15 mm|22 mm|30 mm|
|||m<br>~~a ~~<br>~~a~~<br>~~es~~|8 mm<br> ~~es~~<br>~~es~~|20 mm|40 mm|70 mm|
|||n<br>~~a ~~<br>~~es~~|24 mm<br> ~~es~~|36 mm|54 mm|90 mm|
**E2E/E2E2** Cylindrical Proximity Sensor
32
## **Relationship between Sizes and Models**
## **E2E**
||**Model**|**Model No.**|
|---|---|---|
|3 dia.|Shielded|E2E-CR6C@<br>E2E-CR6B@|
|4 dia.||E2E-CR8C@<br>E2E-CR8B@|
|M5||E2E-X1C@<br>E2E-X1B@|
|5.4 dia.||E2E-C1C@<br>E2E-C1B@|
|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-X5MY@|
|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**
||**Model**|**Model No.**|
|---|---|---|
|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@|
**E2E/E2E2** Cylindrical Proximity Sensor
33
## **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.
|||||A<br>B|A<br>B|||||
|---|---|---|---|---|---|---|---|---|---|
|**Model**|||**Item**||**M8**||**M12**|**M18**|**M30**|
|E2E-X@D@<br>DC 2-wire<br>E2E-X@T1<br>AC/DC 2-wire<br>E2E2-X@D@<br>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>DC 3-wire<br>E2E-X@Y@<br>AC 2-wire<br>E2E2-X@B@<br>E2E2-X@C@<br>DC 3-wire<br>E2E2-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|
|||||||||||
|**Model**|||**Item**||**3 dia.**||**4 dia.**|**M5**|**5.4 dia.**|
|E2E-X@B@<br>E2E-X@C@<br>E2E-C@B@<br>E2E-C@C@<br>DC 3-wire|Shielded|A|||20 mm|||||
|||B|||15 mm|||||
**Note:** Values in parentheses apply to Sensors operating at different frequencies.
**E2E/E2E2** Cylindrical Proximity Sensor
34
## **WARNING**
This product is not designed or rated for ensuring safety of persons.
Do not use it for such purposes.
## ■ **Precautions for Safe Use**
The colors in parentheses are previous wire colors.
**==> picture [505 x 379] intentionally omitted <==**
**----- Start of picture text -----**<br>
a Item Examples<br>Power supply DC 3-wire Models DC 2-wire Models<br>Do not impose an excessive voltage on the Load<br>E2E/E2E2, otherwise it may explode or burn. Brown Brown<br>Do not impose 100 VAC on any E2E/E2E2 Load<br>DC Model, otherwise it may explode or burn. Sensor Black Incorrect Sensor Incorrect<br>Blue Blue<br>Load short-circuit<br>DC 3-wire Models (NPN output) DC 2-wire Models<br>Do not short-circuit the load, or the E2E/E2E2 The following diagram shows that the load is<br>may explode or burn. Brown short-circuited while the polarity of the supply<br>The E2E/E2E2’s short-circuit protection Load voltage imposed on the E2E/E2E2 is wrong,<br>function is valid if the polarity of the supply voltage imposed is correct and within the Sensor Black (Load short- Incorrect in which case the E2E/E2E2 may explode or burn. Load<br>rated voltage range. circuit) Brown<br>Blue (Load short-circuit)<br>Sensor Incorrect<br>Blue<br>Wiring<br>DC 3-wire Models (NPN output)<br>Be sure to wire the E2E/E2E2 and load Load<br>correctly, otherwise it may explode or burn. Brown Brown<br>Load<br>Sensor Incorrect Sensor Blue Incorrect<br>Black<br>Blue Black<br>| Dek oy<br>Connection with no load<br>DC 3-wire Models AC 2-wire Models<br>Make sure to connect a proper load to the E2E/E2E2 in operation, otherwise it may Brown Load Brown Load<br>explode or burn.<br>Sensor<br>Sensor<br>Blue<br>Blue<br>Incorrect Incorrect<br>**----- End of picture text -----**<br>
## ■ **Precautions for Correct Use**
## **Installation**
## **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.
## **Sensing Object**
Metal Coating:
The sensing distances of the Proximity Sensor vary with the metal coating on sensing objects.
## **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.
**E2E/E2E2** Cylindrical Proximity Sensor
35
## **Wiring**
## **High-tension Lines**
## **Wiring through Metal Conduit**
If there is a power or high-tension line near the cable of the Proximity Sensor, wire the cable through an independent metal conduit to prevent against Proximity Sensor damage or malfunctioning.
## **Cable Tractive Force**
Do not pull on cables with tractive forces exceeding the following.
|**Diameter**|**Tractive force**|
|---|---|
|4 dia. max.|30 N max.|
|4 dia. min.|50 N max.|
## **Mounting**
## **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).
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.
## **- 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 page 17 and page 20 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.
## **Loads with Large Inrush Currents (E2E-X@T@)**
Connecting a load that has a large inrush current (e.g., a lamp or motor) may result in a malfunction due to the inrush current causing a load short-circuit.
## **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.
_ Load VAC power Bleeder resistor R supply VS
- 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.
**==> picture [51 x 35] intentionally omitted <==**
Refer to the following to calculate the bleeder resistance and the allowable power of the bleeder resistor.
R ≤ VS/(iR – iOFF) (kΩ)
P > VS2/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
Refer to the following to calculate the bleeder resistance and the allowable power of the bleeder resistor. R ≤ VS/(10 – I) (kΩ)
- P > VS2/R (mW)
**E2E/E2E2** Cylindrical Proximity Sensor
36
## **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 residual voltage of the Proximity Sensor must satisfy the following. VON ≤ VCC – VR
**2.** The OFF current of the PLC and the leakage current of the Proximity Sensor must satisfy the following. IOFF ≥ Ileak
- (If the OFF current is not listed in the specifications, take it to be 1.3 mA.)
**3.** The ON current of the PLC and 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
## **Example**
In this example, the above conditions are checked for when the PLC model is the C200H-ID212, the Proximity Sensor model is the E2EX7D1-N, and the power supply voltage is 24 V.
**1.** VON (14.4 V) ≤ 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
- VON: ON voltage of PLC (14.4 V)
- ION: ON current of PLC (typ. 7 mA)
- 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)
Values in parentheses are for the following PLC model and Proximity Sensor model.
PLC: C200H-ID212
Proximity Sensor: E2E-X7D1-N
## ■ **Precautions for AC/DC 2-wire Proximity Sensors in Operation**
## **Connection**
|**Model**<br>~~a~~|**Connection type**|**Method**|**Description**|
|---|---|---|---|
|DC 2-wire|AND (serial connection)|Load<br>**Correct**|The Sensors connected together must satisfy the<br>following conditions.<br>VS– N x VR ≥Load operating voltage<br>N: 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 be lit<br>properly or unnecessary pulses may be output for<br>approximately1 ms.|
||OR<br>(parallel connection)|Load<br>**Correct**|The Sensors connected together must satisfy the<br>following conditions.<br>N x i≤Load reset current<br>N: No. of Sensors<br>i: Leakage current of each Sensor<br>If the MY Relay, which operates at 24 VDC, is used<br>as a load for example, a maximum of four Proximity<br>Sensors can be connected to the load.|
|AC 2-wire|AND (serial connection)|Load<br>Load<br>Load<br>Vs ×100 V<br>**Incorrect**<br>**Correct**<br>Oo<br>©<br>ctoK ct<br>°<br>ite<br>—<br>I<br>we<br>C2 Vs<br>oK|If 100 or 200 VAC is imposed on the Proximity<br>Sensors, VL(i.e., the voltage imposed on the load)<br>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 voltage<br>is 100 V minimum.|
**E2E/E2E2** Cylindrical Proximity Sensor
37
|**Model**<br>~~a sO~~|**Connection type**<br>~~sO~~|**Method**<br>~~sO~~|**Description**<br>~~sO~~|
|---|---|---|---|
|AC 2-wire|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>(x)<br>|<br>@)<br>C4|In principle, more than two Proximity Sensors cannot<br>be connected in parallel.<br>Provided that Proximity Sensor A does not operate<br>with Proximity Sensor B simultaneously and there is<br>no need to keep the load operating continuously, the<br>Proximity Sensors can be connected in parallel. In<br>this case, however, due to the total leakage current<br>of the Proximity Sensors, the load may not reset<br>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 into<br>Proximity Sensor A, and when one of the sensing<br>objects is close to Proximity Sensor B, Proximity<br>Sensor B will not operate because the voltage<br>imposed on Proximity Sensor B is 10 V, which is too<br>low. When Proximity Sensor A is OFF, the voltage<br>imposed on Proximity Sensor B will reach the supply<br>voltage and Proximity Sensor B will be ON. Then,<br>Proximity Sensor A as well as Proximity Sensor B<br>will be OFF for approximately 10 ms, which resets<br>the load for an instant. To prevent the instantaneous<br>resettingof the load, use a relayas shown on the left.|
|DC 3-wire|AND (serial connection)|Load<br>**Correct**<br>annin<br>nian|The Sensors connected together must satisfy the<br>following conditions.<br>iL+ (N –1) x i≤Upper-limit of control output of each<br>Sensor<br>VS– N x VR ≥Load operating voltage<br>N: No. of Sensors<br>VR: Residual voltage of each Sensor<br>VS: Supply voltage<br>i: Current consumption of the Sensor<br>iL: Load current<br>If the MY Relay, which operates at 24 VDC, is used<br>as a load for example, a maximum of two Proximity<br>Sensors can be connected to the load.|
**E2E/E2E2** Cylindrical Proximity Sensor
38
## **Dimensions**
**Note:** All units are in millimeters unless otherwise indicated.
## **E2E**
||**Model**||**DC 2-wire**|**DC 2-wire**|**DC 3-wire**|**DC 3-wire**|**AC 2-wire**|**AC 2-wire**|**AC/DC 2-wire**|**AC/DC 2-wire**|
|---|---|---|---|---|---|---|---|---|---|---|
||||**Model No.**|**Figure**<br>**No.**|**Model No.**|**Figure**<br>**No.**|**Model No.**|**Figure**<br>**No.**|**Model No.**|**Figure**<br>**No.**|
|**Pre-wired**|**Shielded**|**3 dia.**|---|---|E2E-CR6@|1|---|---|---|---|
|||**4 dia.**|||E2E-CR8@@|2|||||
|||**M5**|||E2E-X1@@|4|||||
|||**5.4 dia.**|||E2E-C1@@|3|||||
|||**M8**|E2E-X2D@-N|5|E2E-X1R5E@/F@|5|E2E-X1R5Y@|7|||
|||**M12**|E2E-X3D@-N|9|E2E-X2E@/F@|9|E2E-X2Y@|11|E2E-X3T1|12|
|||**M18**|E2E-X7D@-N|14|E2E-X5E@/F@|14|E2E-X5Y@|12|E2E-X7T1|13|
|||**M30**|E2E-X10D@-N|16|E2E-X10E@/F@|16|E2E-X10Y@|16|E2E-X10T1|15|
||**Unshield-**<br>**ed**|**M8**|E2E-X4MD@|6|E2E-X2ME@/F@|6|E2E-X2MY@|8|---|---|
|||**M12**|E2E-X8MD@|10|E2E-X5ME@/F@|10|E2E-X5MY@|12|||
|||**M18**|E2E-X14MD@|15|E2E-X10ME@/F@|15|E2E-X10MY@|15|||
|||**M30**|E2E-X20MD@|17|E2E-X18ME@/F@|17|E2E-X18MY@|17|||
|**Connector**<br>**(M12)**|**Shielded**|**M8**|E2E-X2D@-M1(G)|18|E2E-X1R5E@-M1/<br>F@-M1|18|---|---|---|---|
|||**M12**|E2E-X3D@-M1(G)|20|E2E-X2E@-M1<br>/F@-M1|20|E2E-X2Y@-M1|22|||
|||**M18**|E2E-X7D@-M1(G)|24|E2E-X5E@-M1<br>/F@-M1|24|E2E-X5Y@-M1|24|||
|||**M30**|E2E-X10D@-M1(G)|26|E2E-X10E@-M1<br>/F@-M1|26|E2E-X10Y@-M1|26|||
||**Unshield-**<br>**ed**|**M8**|E2E-X4MD@-M1(G)|19|E2E-X2ME@-M1<br>/F@-M1|19|---|---|---|---|
|||**M12**|E2E-X8MD@-M1(G)|21|E2E-X5ME@-M1<br>/F@-M1|21|E2E-X5MY@-M1|23|||
|||**M18**|E2E-X14MD@-<br>M1(G)|25|E2E-X10ME@-M1/<br>F@-M1|25|E2E-X10MY@-M1|25|||
|||**M30**|E2E-X20MD@-<br>M1(G)|27|E2E-X18ME@-M1/<br>F@-M1|27|E2E-X18MY@-M1|27|||
|**Connec-**<br>**tor (M8-3**<br>**pin)**|**Shielded**|**4 dia.**|---|---|E2E-CR8@@-M5|36|---|---|---||
|||**M5**|---|---|E2E-X1@@-M5|37|---|---|---||
|**Connector**<br>**(M8)**|**Shielded**|**M8**|E2E-X2D@-M3G|28|E2E-X1R5E@-M3/<br>F@-M3|28|---|---|---|---|
||**Unshield-**<br>**ed**||E2E-X4MD@-M3G|29|E2E-X2ME@-M3<br>/F@-M3|29|||||
|**Pre-wired**<br>**connector**|**Shielded**|**M12**|E2E-X3D1-M1GJ|30|---|---|---|---|---|---|
|||**M18**|E2E-X7D1-M1GJ|32|||||||
|||**M30**|E2E-X10D1-M1GJ|34|||||||
||**Unshield-**<br>**ed**|**M12**|E2E-X8MD1-M1GJ|31|---|---|---|---|---|---|
|||**M18**|E2E-X14MD1-M1GJ|33|||||||
|||**M30**|E2E-X20MD1-M1GJ|35|||||||
|**Pre-wired**<br>**connector**<br>**(no polari-**<br>**ty)**|**Shielded**|**M12**|E2E-X3D1-M1J-T|30|---|---|---|---|---|---|
|||**M18**|E2E-X7D1-M1J-T|32|||||||
|||**M30**|E2E-X10D1-M1J-T|34|||||||
**Note 1.** Two clamping nuts and one toothed washer are provided with M8 to M30 Models.
**2.** The model numbers of Pre-wired M8 to M30 Models are laser-marked on the milled section and cable section.
**E2E/E2E2** Cylindrical Proximity Sensor
39
## **Pre-wired Models (Shielded)**
**==> picture [513 x 686] intentionally omitted <==**
**----- Start of picture text -----**<br>
Fig. 1: E2E-CR6 @@ Fig. 3: E2E-C1 @@<br>3±0.1 dia. 27 5.4 dia. 25<br>17 17.5<br>Operation indicator (red) 2.4-dia. (7/0.127-dia.) vinyl-insulated round cable with 3 conductors, Operation indicator(red) 2.9-dia. vinyl-insulated round cable with 3 conductors (Conductor cross section: 0.14 mm2, Insulator diameter: 0.9 mm),<br>Standard length: 2 m Standard length: 2 m<br>Robotics cable Models: 2.9-dia. vinyl-insulated round cable with 2<br>3 conductors (Conductor cross section: 0.15 mm ,<br>Insulator diameter: 1.05 mm), Standard length: 2 m<br>Fig. 2: E2E-CR8 @@ The cable can be extended up to 100 m (separate metal conduit).<br>25<br>4 dia. 17.5 Fig. 4: E2E-X1 @@<br>9.7 dia. 25<br>17.5 2.9-dia. vinyl-insulated round cable<br>Operation 8 15 with 3 conductors (Conductor cross section: 0.14 mm2,<br>indicator 2.9-dia. vinyl-insulated round cable with 2 Insulator diameter: 0.9 mm),<br>(red) 3 conductors (Conductor cross section: 0.14 mm , Standard length: 2 m<br>Insulator diameter: 0.9 mm), Operation Robotics cable Models: 2.9-dia.<br>Standard length: 2 m Robotics cable Models: 2.9-dia. vinyl-insulated round cable with 3 conductors (Conductor cross section: 0.15 mm2, Insulator diameter: 1.05 mm), M5 × 0.5 4 Toothed washerTwo clamping nutsindicator (red) vinyl-insulated round cable with 3 conductors (Conductor cross section: 0.15 mmdiameter: 1.05 mm), 2, Insulator<br>Standard length: 2 m<br>Standard length: 2 m<br>The cable can be extended up to 100 m (separate<br>The cable can be extended up to<br>metal conduit).<br>100 m (separate metal conduit).<br>Pre-wired Models Pre-wired Models<br>(Shielded) (Unshielded)<br>Fig. 5: E2E-X2D @ -N Fig. 6: E2E-X4MD @<br> E2E-X1R5E @ /F @ E2E-X2ME @ /F @<br>30 7 30 7<br>15 dia. 26 15 dia. 26<br>13 3 8 13 6 3 8<br>6.1 dia.<br>M8 × 1Toothedwasher Two clamping nutsIndicator (See note.) Standard length: 2 m 4-dia. vinyl-insulated round cable with 2 conductors (D Models)/3 conductors (E, F Models)(Conductor cross section: 0.3 mm2, Insulator diameter: 1.3 mm), M8 Toothedwasher× 1 Two clamping nutsIndicator (See note.) Insulator diameter: 1.3 mm), Standard length: 2 m 4-dia. vinyl-insulated round cable with 2 conductors (D Models)/3 conductors (E, F Models)(Conductor cross section: 0.3 mm2,<br>Note: D Models: Operation indicator (red), setting indicator (green); E, F Models: Operation indicator (red) Robotics cable Models: 4-dia. vinyl-insulated round cable with 2 conductors (D Models)/3 conductors Note: D Models: Operation indicator (red), setting indicator (green); E, F Models: Operation indicator (red) Robotics cable models: 4-dia. vinyl-insulated round cable with 2 conductors (D Models)/3 conductors (E<br>(E Models)(Conductor cross section: 0.3 mm2, Insulator diameter: 1.27 mm), Models)(Conductor cross section: 0.3 mm2, Insulator diameter: 1.27 mm),<br>Standard length: 2 m Standard length: 2 m<br>The cable can be extended up to 200 m The cable can be extended up to 200 m<br>(separate metal conduit). (separate metal conduit).<br>Fig. 7: E2E-X1R5Y @ Fig. 8: E2E-X2MY @<br>40 7 40 7<br>15 dia. 36 15 dia. 36<br>13 3 8 13 6 3 8<br>6.1 dia.<br>M8 × 1 Toothed washerTwo clamping nutsOperation Indicator (red)Standard length: 2 m 4-dia. vinyl-insulated round cable with 2 conductors (Conductor cross section: 0.3 mm2, Insulator diameter: 1.3 mm), M8 × 1Toothed washer Two clamping nutsOperation indicator (red) 4-dia. vinyl-insulated round cable with 2 conductors (Conductor cross section: 0.3 mmStandard length: 2 m The cable can be extended up to 200 m 2, Insulator diameter: 1.3 mm),<br>The cable can be extended up to 200 m (separate metal conduit).<br>(separate metal conduit).<br>Fig. 9: E2E-X3D E2E-X2E @@ /F-N @ Pre-wired e-CON connector Model5.9 Fig. 10: E2E-X8MD E2E-X5ME @@ /F @ Pre-wired e-CON connector Model5.9<br>1 1<br>2 2<br>21 dia.17 4 3338 1 0 9 Connector: 1 5.6 34 15 21 dia.17 7 43338 10 9 Connector: 1 5.6 34 15<br>Product code 37104-3163-000FL Product code 37104-3163-000FL<br>(Sumitomo 3M) (Sumitomo 3M)<br>9 dia.<br>M12 × 1 Toothed washerTwo clamping nutsIndicator (See note.) 4-dia. vinyl-insulated round cable with 2 conductors (D Models)/3 conductors (D0.3 mmStandard length: 2 m Robotics cable Models: 4-dia. @S,E, F Models) (Conductor cross section: 2,Insulator diameter: 1.3 mm), M12 × 1 Toothed washerTwo clamping nutsIndicator (See note.) Standard length: 2 m Robotics cable models: 4-dia. 4-dia. vinyl-insulated round cable with 2 conductors (D Models)/3 conductors (D0.3 mm@S, E, F Models) (Conductor cross section: [2] , Insulator diameter: 1.3 mm),<br>Note: D Models: vinyl-insulated round cable with 2 conductors Note: D Models: vinyl-insulated round cable with 2 conductors<br>Operation indicator (red), setting indicator (green); (D Models)/3 conductors (E Models) (Conductor cross section: 0.3 mm2, Insulator Operation indicator (red), setting indicator (green); (D Models)/3 conductors (E Models) (Conductor cross section: 0.3 mm [2] , Insulator<br>E, F Models: diameter: 1.27 mm), E, F Models: diameter: 1.27 mm),<br>Operation indicator (red) Standard length: 2 m Operation indicator (red) Standard length: 2 m<br>The cable can be extended (separate metal conduit) The cable can be extended (separate metal<br>up to 200 m (control output) or up to 100 m conduit) up to 200 m (control output) or up to<br>(diagnostic output). 100 m (diagnostic output).<br>**----- End of picture text -----**<br>
**E2E/E2E2** Cylindrical Proximity Sensor
40
**==> picture [78 x 19] intentionally omitted <==**
**----- Start of picture text -----**<br>
Pre-wired Models<br>(Shielded)<br>**----- End of picture text -----**<br>
**Fig. 11: E2E-X2Y** @
**Pre-wired Models (Unshielded) Fig. 12: E2E-X5MY** @
**==> picture [509 x 663] intentionally omitted <==**
**----- Start of picture text -----**<br>
43 9 43 9<br>21 dia. 38 21 dia. 38<br>17 4 1 0 17 7 4 10<br>9 dia.<br>M12 × 1 Toothed washerTwo clamping nutsOperation indicator (red)4-dia. vinyl-insulated round cable with 2 conductors (Conductors cross section: 0.3 mm2, Insulator diameter: 1.3 mm), M12 × 1 Toothed washerTwo clamping nutsOperation indicator (red)4-dia. vinyl-insulated round cable with 2 conductors (Conductors cross section: 0.3 mm2,<br>Standard length: 2 m Insulator diameter: 1.3 mm),<br>The cable can be extended up to 200 m Standard length: 2 m<br>(separate metal conduit). The cable can be extended up to<br>Fig. 13: E2E-X3T1 200 m (separate metal conduit).<br>60 9<br>21 dia. 55<br>17 4 1 0<br>M12 × 1 Two<br>clamping nuts 4-dia. vinyl-insulated round cable with 2 conductors 2<br>Toothed washer (Conductors cross section: 0.3 mm ,<br>Insulator diameter: 1.3 mm),<br>Note: Operation indicator (red), setting indicator Standard length: 2 m<br>(green) The cable can be extended up to 200 m (separate metal conduit).<br>Fig. 14: E2E-X7D @ -N/ Pre-wired e-CON connector Model Fig. 15: E2E-X14MD @ / Pre-wired e-CON connector Model<br>E2E-X5E @ /F @ 5.9 E2E-X10ME @ /F @ 5.9<br>E2E-X5Y @ /E2E-X7T1 1 E2E-X10MY @ 1<br>2 2<br>15 43 1 2 15<br>43 1 2 3 29 dia. 38 3<br>29 dia. 38 Connector: 1 5.6 4 24 10 4 10 Connector: 1 5.6 4<br>24 4 1 0 Product code 37104-2206-000FL Product code 37104-2206-000FL<br>(Sumitomo 3M) (Sumitomo 3M)<br>14.8 dia. Indicator 6-dia. vinyl-insulated round cable with<br>M18 × 1 Two clamping nutsIndicator (See note.) 6-dia. vinyl-insulated round cable with 2 conductors (D, Y, T Models)/3 conductors (D0.5 mm@S, E, F Models) (Conductor cross section: 2, Insulator diameter: 1.9 mm) M18 × 1 Toothed washerTwo clamping nuts(See note.) Insulator diameter: 1.9 mm) 2 conductors (D, Y, T Models)/3 conductors (D(Conductor cross section: 0.5 mm@S, E, F Models) 2,<br>Toothed washer Standard length: 2 m Standard length: 2 m<br>Robotics cable models: 6-dia. vinyl-insulated Robotics cable Models: 6-dia. vinyl-<br>round cable with 2 conductors (D Models)/ Note: D Models: Operation indicator (red), insulated round cable with 2 conductors<br>Note: D, T Models: Operation indicator (red), setting indicator (green); 3 conductors (E Models) (Conductor cross section: 0.5 mm2, Insulator diameter: 1.74 mm) setting indicator (green); E, F, Y Models: (D Models)/3 conductors (E Models) (Conductor cross section: 0.5 mm2,<br>E, F, Y Models: Operation indicator (red) Standard length: 2 m Operation indicator (red) Insulator diameter: 1.74 mm)<br>The cable can be extended (separate metal Standard length: 2 m<br>conduit) up to 200 m (control output) or up to The cable can be extended (separate<br>100 m (diagnostic output). metal conduit) up to 200 m (control<br>output) or up to 100 m (diagnostic<br>output).<br>Fig. 16: E2E-X10D @ -N/ Pre-wired e-CON connector Model Fig. 17: E2E-X20MD @ / Pre-wired e-CON connector Model<br>E2E-X10EE2E-X10YE2E-X10T1 @@ /F/ @ 48 1 2 1 5.6 1234 5.9 15 42 dia. E2E-X18MEE2E-X18MY @@ /F @4348 1 2 1 5.6 1234 5.9 15<br>42 dia. 43 Connector: Product code 36 13 5 1 0 Connector: Product code<br>36 5 10 37104-2206-000FL 37104-2206-000FL<br>(Sumitomo 3M) (Sumitomo 3M)<br>26.8 dia.<br>6-dia. vinyl-insulated round cable<br>M30 × 1.5 Indicator (See note.) 6-dia. vinyl-insulated round cable with 2 conductors (D, Y, T Models)/3 conductors (D@S, E, F M30 × 1.5 Two Indicator (See note.)with 2 conductors (D, Y, T Models)/3 conductors (D(Conductor cross section: 0.5 mm@S, E, F Models) 2,<br>Toothed washerTwo clamping nuts Models) (Conductor cross section: 0.5 mm2, Insulator diameter: 1.9 mm), Toothed washerclamping nuts Insulator diameter: 1.9 mm), Standard length: 2 m<br>Standard length: 2 m Note: D Models: Robotics cable Models: 6-dia. vinyl-<br>Robotics cable Models: 6-dia. vinyl- Operation indicator (red), insulated round cable with<br>Note: D, T Models: Operation indicator (red), insulated round cable with setting indicator (green); 2 conductors (D Models)/<br>setting indicator (green); E,F,Y Models: Operation indicator (red) 2 conductors (D Models)/3 conductors (E Models) (Conductor cross section: 0.5 mm2, E, F, Y Models: Operation indicator (red) Insulator diameter: 1.74 mm), 3 conductors (E Models) (Conductor cross section: 0.5 mm2,<br>Insulator diameter: 1.74 mm), Standard length: 2 m<br>Standard length: 2 m The cable can be extended<br>The cable can be extended (separate metal conduit) up to 200 m<br>(separate metal conduit) up to 200 m (control output) or up to 100 m<br>(control output) or up to 100 m (diagnostic output).<br>(diagnostic output).<br>Indicator (See note.)<br>**----- End of picture text -----**<br>
**E2E/E2E2** Cylindrical Proximity Sensor
41
## **M12 Connector Models (Shielded)**
## **Fig. 18: E2E-X2D** @ **-M1(G)**
## **E2E-X1R5E** @ **-M1/F** @ **-M1**
**==> picture [141 x 83] intentionally omitted <==**
**----- Start of picture text -----**<br>
43<br>30<br>15 dia.<br>26<br>13 3 8 M12 × 1<br>M8 × 1 Indicator (See note.)<br>Two clamping nuts<br>Toothed washer<br>Toothed washer<br>**----- End of picture text -----**<br>
**Note:** D Models: Operation indicator (red), setting indicator (green) E, F Model: Operation indicator (red)
## **Fig. 20: E2E-X3D** @ **-M1(G)**
## **E2E-X2E** @ **-M1/F** @ **-M1**
**==> picture [155 x 75] intentionally omitted <==**
**----- Start of picture text -----**<br>
48<br>21 dia. 33<br>17 4 10<br>M12 × 1<br>M12 × 1 Two clamping nutsIndicator (See note.)<br>Toothed washer<br>**----- End of picture text -----**<br>
**Note:** D Models: Operation indicator (red), setting indicator (green) E, F Model: Operation indicator (red)
## **Fig. 22: E2E-X2Y** @ **-M1**
**==> picture [171 x 75] intentionally omitted <==**
**----- Start of picture text -----**<br>
53<br>21 dia. 38<br>17 4 10<br>M12 × 1<br>M12 × 1 Two clamping nutsOperating indicator (red)<br>Toothed washer<br>**----- End of picture text -----**<br>
**==> picture [189 x 15] intentionally omitted <==**
**----- Start of picture text -----**<br>
Fig. 24: E2E-X7D @ -M1(G)/E2E-X5E @ -M1/F @ -M1<br> E2E-X5Y @ -M1<br>**----- End of picture text -----**<br>
**==> picture [178 x 85] intentionally omitted <==**
**----- Start of picture text -----**<br>
53<br>29 dia. 38<br>24 4 10<br>M12 × 1<br>Indicator (See note.)<br>M18 × 1<br>Two clamping nuts<br>Toothed washer<br>**----- End of picture text -----**<br>
**Note:** D Models: Operation indicator (red), setting indicator (green) E, F, Y Model: Operation indicator (red)
## **Fig. 26: E2E-X10D** @ **-M1(G)/E2E-X10E** @ **-M1/F** @ **-M1 E2E-X10Y** @ **-M1**
**==> picture [208 x 103] intentionally omitted <==**
**----- Start of picture text -----**<br>
58<br>42 dia. 43<br>36 5 10<br>M12 × 1<br>Indicator (See note.)<br>M30 × 1.5<br>Two clamping nuts<br>Toothed washer<br>**----- End of picture text -----**<br>
**Note:** D Models: Operation indicator (red), setting indicator (green) E, F, Y Model: Operation indicator (red)
## **M12 Connector Models (Unshielded)**
## **Fig. 19: E2E-X4MD** @ **-M1(G) E2E-X2ME** @ **-M1/F** @ **-M1**
**==> picture [141 x 79] intentionally omitted <==**
**----- Start of picture text -----**<br>
43<br>30<br>15 dia.<br>26<br>M12 × 1<br>13 6 3 8<br>6.1 dia.<br>M8 × 1 Indicator (See note.)<br>Two clamping nuts<br>Toothed washer<br>**----- End of picture text -----**<br>
**Note:** D Models: Operation indicator (red), setting indicator (green) E, F Model: Operation indicator (red)
## **Fig. 21: E2E-X8MD** @ **-M1(G)**
## **E2E-X5ME** @ **-M1/F** @ **-M1**
**==> picture [159 x 75] intentionally omitted <==**
**----- Start of picture text -----**<br>
48<br>2 1 dia. 33<br>17 7 4 10 M12 × 1<br>9 dia.<br>Indicator (See note.)<br>M12 × 1<br>Two clamping nuts<br>Toothed washer<br>**----- End of picture text -----**<br>
**Note:** D Models: Operation indicator (red), setting indicator (green) E, F Model: Operation indicator (red)
## **Fig. 23: E2E-X5MY** @ **-M1**
**==> picture [175 x 75] intentionally omitted <==**
**----- Start of picture text -----**<br>
53<br>21 dia. 38<br>17 7 4 10 M12 × 1<br>9 dia.<br>Operation indicator (red)<br>M12 × 1<br>Two clamping nuts<br>Toothed washer<br>**----- End of picture text -----**<br>
## **Fig. 25: E2E-X14MD** @ **-M1(G)/E2E-X10ME** @ **-M1/F** @ **-M1 E2E-X10MY** @ **-M1**
**==> picture [183 x 90] intentionally omitted <==**
**----- Start of picture text -----**<br>
53<br>38<br>29 dia.<br>4 10<br>24 10<br>M12 × 1<br>14.8 dia.<br>Indicator (See note.)<br>M18 × 1<br>Two clamping nuts<br>Toothed washer<br>**----- End of picture text -----**<br>
**Note:** D Models: Operation indicator (red), setting indicator (green) E, F, Y Model: Operation indicator (red)
## **Fig. 27: E2E-X20MD** @ **-M1(G)/E2E-X18ME** @ **-M1/F** @ **-M1 E2E-X18MY** @ **-M1**
**==> picture [207 x 104] intentionally omitted <==**
**----- Start of picture text -----**<br>
58<br>42 dia. 43<br>36 1 3 5 10<br>M12 × 1<br>26.8 dia. Indicator (See note).<br>M30 × 1.5<br>Two clamping nuts<br>Toothed washer<br>**----- End of picture text -----**<br>
**Note:** D Models: Operation indicator (red), setting indicator (green) E, F, Y Model: Operation indicator (red)
**E2E/E2E2** Cylindrical Proximity Sensor
42
## **M8 (3 pin) Connector Models (Shielded)**
**Fig. 36: E2E-CR8** @@ **-M5**
## **Fig. 37: E2E-X1** @@ **-M5**
**==> picture [462 x 93] intentionally omitted <==**
**----- Start of picture text -----**<br>
10 dia. 35<br>25<br>35 8 20<br>4 dia. 2025 M8, 3-pin connector 19.0 M8, 3-pin connector<br>M8 × 1 Two clamping M8 × 1<br>nuts<br>Operating indicator Two toothed washers Operating indicator<br>M5 × 0.5<br>**----- End of picture text -----**<br>
## **M8 Connector Models (Shielded)**
**Fig. 28: E2E-X2D** @ **-M3G/E2E-X1R5E** @ **-M3/F** @ **-M3**
## **M8 Connector Models (Unshielded)**
## **Fig. 29: E2E-X4MD** @ **-M3G/E2E-X2ME** @ **-M3/F** @ **-M3**
**==> picture [432 x 97] intentionally omitted <==**
**----- Start of picture text -----**<br>
39 39<br>31 31<br>15 dia. 15 dia.<br>26 26<br>13 3 8 M8 × 1 13 6 3 8 M8 × 1<br>6.1 dia.<br>M8 × 1 Indicator (See note.) M8 × 1 Indicator (See note.)<br>Toothed washerTwo clamping nuts Two clamping nuts<br>Toothed washer<br>Note: D Models: Operation indicator (red), setting indicator (green) Note: D Models: Operation indicator (red), setting indicator (green)<br>E, F Model: Operation indicator (red) E, F Model: Operation indicator (red)<br>**----- End of picture text -----**<br>
## **Pre-wired M12 Connector Models**
**Fig. 30: E2E-X3D1-M1GJ E2E-X3D1-M1J-T**
**==> picture [335 x 325] intentionally omitted <==**
**----- Start of picture text -----**<br>
38 9<br>21 dia. 33<br>17 4 10<br>M12 × 1<br>M12 × 1 Operation Indicator (red),setting indicator (green) 4-dia. vinyl-insulated round cable,<br>Standard length: 0.3 m<br>Two clamping nuts<br>Toothed washer<br>38 9<br>21 dia. 33<br>17 7 4 10<br>M12 × 1<br>9 dia.<br>Operation indicator (red),<br>M12 × 1 setting indicator (green) 4-dia. vinyl-insulated round cable,<br>Two clamping nuts Standard length: 0.3 m<br>Toothed washer<br>43 12<br>29 dia. 38<br>24 4 10<br>M12 × 1<br>Operation indicator (red), 6-dia. vinyl-insulated round cable,<br>M18 × 1 setting indicator (green) Standard length: 0.3 m<br>Two clamping nuts<br>Toothed washer<br>**----- End of picture text -----**<br>
## **Fig. 31: E2E-X8MD1-M1GJ**
**Fig. 32: E2E-X7D1-M1GJ E2E-X7D1-M1J-T**
**E2E/E2E2** Cylindrical Proximity Sensor
43
## **Pre-wired M12 Connector Models**
**Fig. 33: E2E-X14MD1-M1GJ**
**==> picture [357 x 404] intentionally omitted <==**
**----- Start of picture text -----**<br>
43 12<br>38<br>29 dia. 10 4 10<br>24<br>M12 × 1<br>14.8 dia.<br>Operation indicator (red), 6-dia. vinyl-insulated round cable,<br>M18 × 1 setting indicator (green) Standard length: 0.3 m<br>Two clamping nuts<br>Toothed washer<br>48 12<br>42 dia. 43<br>36 5 10<br>M12 × 1<br>Operation indicator (red),<br>6-dia. vinyl-insulated round cable,<br>M30 × 1.5 setting indicator (green) Standard length: 0.3 m<br>Two clamping nuts<br>Toothed washer<br>48 12<br>42 dia. 43<br>36 1 3 5 10<br>M12 × 1<br>26.8 dia.<br>Operation indicator (red), 6-dia. vinyl-insulated round cable,<br>M30 × 1.5 setting indicator (green) Standard length: 0.3 m<br>Two clamping nuts<br>Toothed washer<br>**----- End of picture text -----**<br>
**==> picture [107 x 16] intentionally omitted <==**
**----- Start of picture text -----**<br>
Fig. 34: E2E-X10D1-M1GJ<br> E2E-X10D1-M1J-T<br>**----- End of picture text -----**<br>
**==> picture [112 x 9] intentionally omitted <==**
**----- Start of picture text -----**<br>
Fig. 35: E2E-X20MD1-M1GJ<br>**----- End of picture text -----**<br>
## **Mounting Holes**
|F|F|F|F|F|F|F|F|F|
|---|---|---|---|---|---|---|---|---|
|**Dimensions**|**3 dia.**|**4 dia.**|**M5**<br>|**5.4 dia.**|**M8**|**M12**|**M18**|**M30**|
|**F (mm)**|3.3+0.3/0dia.|4.2+0.5/0dia.|5.5+0.5/0dia.<br>5.7+|0.5/0dia.|8.5+0.5/0dia.|12.5+0.5/0dia.|18.5+0.5/0dia.|30.5+0.5/0dia.|
**E2E/E2E2** Cylindrical Proximity Sensor
44
**E2E2**
## **Pre-wired Models**
**==> picture [507 x 313] intentionally omitted <==**
**----- Start of picture text -----**<br>
E2E2-X3D @ E2E2-X8MD @<br>E2E2-X2 @@ E2E2-X5M @@<br>60 9 60 9<br>21 dia. 55 21 dia. 55<br>17 4 10 17 7 4 10<br>9 dia.<br>Two Indicator (See note.) Indicator (See note.)<br>M12 × 1 clamping nuts 4-dia. vinyl-insulated round cable with M12 × 1 Two clamping nuts<br>Toothed washer 2 conductors (D, Y Models)/3 conductors Toothed washer 4-dia. vinyl-insulated round cable with 2<br>Note: D Models: Operation indicator (red), setting indicator (green) (B, C Models) (Conductor cross section: 0.3 mm [2] , Insulator diameter: 1.3 mm), Note: D Models: Operation indicator (red), conductors (D, Y Models)/3 conductors (B, C Models) (Conductor cross section:<br>B, C, Y Model: Operation indicator (red) Standard length: 2 m setting indicator (green) B, C, Y Model: Operation indicator (red) 0.3 mm [2] , Insulator diameter: 1.3 mm),<br>The cable can be extended up to 200 m Standard length: 2 m<br>(separate metal conduit). The cable can be extended up to 200 m<br>E2E2-X7D @ E2E2-X14MD @ (separate metal conduit).<br>E2E2-X5 @@ E2E2-X10M @@<br>65 12 65 12<br>29 dia. 60 29 dia. 60<br>24 4 10 24 10 4 10<br>14.8 dia.<br>Indicator (See note.) Indicator (See note.)<br>M18 × 1 Two clamping nuts M18 × 1 Two clamping nuts<br>Toothed washer 6-dia. vinyl-insulated round cable with Toothed washer<br>2 conductors (D, Y Models)/3 conductors 6-dia. vinyl-insulated round cable with<br>Note: D Models: Operation indicator (red), setting indicator (green) (B, C Models) (Conductor cross section: 0.5 mm [2] , Insulator diameter: 1.9 mm), Note: D Models: Operation indicator (red), 2 conductors (D, Y Models)/3 conductors (B, C Models) (Conductor cross section:<br>B, C, Y Model: Operation indicator (red) Standard length: 2 m setting indicator (green) 0.5 mm [2] , Insulator diameter: 1.9 mm),<br>B, C, Y Model: Operation indicator (red)<br>The cable can be extended up to 200 m Standard length: 2 m<br>(separate metal conduit). The cable can be extended up to 200 m<br>E2E2-X10D @@ (separate metal conduit).<br>**----- End of picture text -----**<br>
**E2E2-X10D** @@ **E2E2-X10** @@
**==> picture [351 x 256] intentionally omitted <==**
**----- Start of picture text -----**<br>
70 12<br>42 dia. 65<br>36 5 10<br>Indicator (See note.)<br>M30 × 1.5 Two clamping nuts<br>Toothed washer 6-dia. vinyl-insulated round cable with<br>2 conductors (D, Y Models)/3 conductors<br>(B, C Models) (Conductor cross section:<br>Note: D Models: Operation indicator (red), 0.5 mm [2] , Insulator diameter: 1.9 mm),<br>setting indicator (green) Standard length: 2 m<br>B, C, Y Model: Operation indicator (red) The cable can be extended up to 200 m<br>(separate metal conduit).<br>E2E2-X20MD @<br>E2E2-X18M @@<br>70 12<br>42 dia. 65<br>36 1 3 5 10<br>26.8 dia.<br>Indicator<br>M30 × 1.5 Two clamping nuts (See note.)<br>Toothed washer 6-dia. vinyl-insulated round cable with<br>**----- End of picture text -----**<br>
**E2E2-X20MD** @ **E2E2-X18M** @@
- 2 conductors (D, Y Models)/3 conductors
- (B, C Models) (Conductor cross section:
**Note:** D Models: Operation indicator (red), setting indicator (green) B, C, Y Model: Operation indicator (red)
0.5 mm[2] , Insulator diameter: 1.9 mm), Standard length: 2 m The cable can be extended up to 200 m (separate metal conduit).
**E2E/E2E2** Cylindrical Proximity Sensor
45
## **Connector Models (Shielded)**
## E2E2-X2C@-M1/B@-M1
## **Connector Models (Unshielded)**
**==> picture [97 x 8] intentionally omitted <==**
**----- Start of picture text -----**<br>
E2E2-X5MC@-M1/B@-M1<br>**----- End of picture text -----**<br>
**==> picture [475 x 189] intentionally omitted <==**
**----- Start of picture text -----**<br>
70<br>70<br>21.dia 55 21 dia. 55<br>17 4 10 17 4<br>M12 x 1 M12 x 1<br>7 10<br>9 dia.<br>M12 x 1 Two clamping nutsOperation indicator (red) M12 x 1 Two clamping nutsOperation indicator (red)<br>Toothed washer Toothed washer<br>E2E2-X2Y@-M4 E2E2-X5MY@-M4<br>70<br>70<br>21.dia 55 21 dia. 55<br>17 4 10 1/2-20unf 17 7 4 10 1/2-20unf<br>9 dia.<br>M12 x 1 Operation indicator (red) M12 x 1 Two clamping nutsOperation indicator (red)<br>Two clamping nuts Toothed washer<br>Toothed washer<br>**----- End of picture text -----**<br>
E2E2-X5C@-M1/B@-M1
**==> picture [102 x 7] intentionally omitted <==**
**----- Start of picture text -----**<br>
E2E2-X10MC@-M1/B@-M1<br>**----- End of picture text -----**<br>
**==> picture [481 x 218] intentionally omitted <==**
**----- Start of picture text -----**<br>
75 75<br>29 dia. 60 29 dia 60<br>24 4 10 24 10 4 10<br>M12 x 1 M12 x 1<br>14.8 dia.<br>Operation indicator (red) Operation indicator (red)<br>M18 x 1 Two clamping nuts M18 x 1 Two clamping nuts<br>Toothed washer Toothed washer<br>E2E2-X10MY@-M4<br>75 75<br>29 dia. 60 29 dia 60<br>24 4 10 24 10 4 10<br>1/2-20unf 1/2-20unf<br>14.8 dia.<br>Operation indicator (red) Operation indicator (red)<br>M18 x 1 Two clamping nuts M18 x 1 Two clamping nuts<br>Toothed washer Toothed washer<br>**----- End of picture text -----**<br>
**==> picture [61 x 7] intentionally omitted <==**
**----- Start of picture text -----**<br>
E2E2-X5Y@-M4<br>**----- End of picture text -----**<br>
**E2E/E2E2** Cylindrical Proximity Sensor
46
## **Connector Models (Shielded)**
## **E2E2-X10C** @ **-M1/B** @ **-M1**
**==> picture [212 x 100] intentionally omitted <==**
**----- Start of picture text -----**<br>
80<br>42 dia. 65<br>36 5 10<br>M12 x 1<br>Operation indicator (red)<br>M30 x 1.5<br>Two clamping nuts<br>Toothed washer<br>**----- End of picture text -----**<br>
## **Connector Models (Unshielded)**
**==> picture [102 x 7] intentionally omitted <==**
**----- Start of picture text -----**<br>
E2E2-X18MC @ -M1/B @ -M1<br>**----- End of picture text -----**<br>
**==> picture [237 x 100] intentionally omitted <==**
**----- Start of picture text -----**<br>
80<br>42 dia. 65<br>36 13 5 10<br>M12 x 1<br>26.8 dia.<br>Operation indicator (red)<br>M30 x 1.5<br>Two clamping nuts<br>Toothed washer<br>**----- End of picture text -----**<br>
**==> picture [65 x 7] intentionally omitted <==**
**----- Start of picture text -----**<br>
E2E2-X10Y @ -M4<br>**----- End of picture text -----**<br>
**==> picture [72 x 7] intentionally omitted <==**
**----- Start of picture text -----**<br>
E2E2-X18MY @ -M4<br>**----- End of picture text -----**<br>
**==> picture [476 x 100] intentionally omitted <==**
**----- Start of picture text -----**<br>
80 80<br>42 dia. 65 42 dia. 65<br>36 5 10 36 13 5 10<br>1/2-20unf 1/2-20unf<br>26.8 dia.<br>Operation indicator (red) Operation indicator (red)<br>M30 x 1.5 M30 x 1.5<br>Two clamping nuts Two clamping nuts<br>Toothed washer Toothed washer<br>**----- End of picture text -----**<br>
**==> picture [76 x 53] intentionally omitted <==**
**----- Start of picture text -----**<br>
Mounting Holes<br>F<br>**----- End of picture text -----**<br>
|**Dimensions**|**M12**|**M18**|**M30**|
|---|---|---|---|
|F (mm)|12.5<br>dia.<br>+ 0.5<br>0|18.5<br>dia.<br>+ 0.5<br>0|30.5<br>dia.<br>+ 0.5<br>0|
**E2E/E2E2** Cylindrical Proximity Sensor
47
## **Read and Understand This Catalog**
Please read and understand this catalog before purchasing the products. Please consult your OMRON representative if you have any questions or comments.
## **Warranty and Limitations of Liability**
## **WARRANTY**
OMRON's exclusive warranty is that the products are free from defects in materials and workmanship for a period of one year (or other period if specifi ed) from date of sale by OMRON.
OMRON MAKES NO WARRANTY OR REPRESENTATION, EXPRESS OR IMPLIED, REGARDING NON-INFRINGEMENT, MERCHANTABILITY, OR FITNESS FOR PARTICULAR PURPOSE OF THE PRODUCTS. ANY BUYER OR USER ACKNOWLEDGES THAT THE BUYER OR USER ALONE HAS DETERMINED THAT THE PRODUCTS WILL SUITABLY MEET THE REQUIREMENTS OF THEIR INTENDED USE. OMRON DISCLAIMS ALL OTHER WARRANTIES, EXPRESS OR IMPLIED.
## **LIMITATIONS OF LIABILITY**
OMRON SHALL NOT BE RESPONSIBLE FOR SPECIAL, INDIRECT, OR CONSEQUENTIAL DAMAGES, LOSS OF PROFITS, OR COMMERCIAL LOSS IN ANY WAY CONNECTED WITH THE PRODUCTS, WHETHER SUCH CLAIM IS BASED ON CONTRACT, WARRANTY, NEGLIGENCE, OR STRICT LIABILITY.
In no event shall responsibility of OMRON for any act exceed the individual price of the product on which liability is asserted.
IN NO EVENT SHALL OMRON BE RESPONSIBLE FOR WARRANTY, REPAIR, OR OTHER CLAIMS REGARDING THE PRODUCTS UNLESS OMRON'S ANALYSIS CONFIRMS THAT THE PRODUCTS WERE PROPERLY HANDLED, STORED, INSTALLED, AND MAINTAINED AND NOT SUBJECT TO CONTAMINATION, ABUSE, MISUSE, OR INAPPROPRIATE MODIFICATION OR REPAIR.
## **Application Considerations**
## **SUITABILITY FOR USE**
OMRON shall not be responsible for conformity with any standards, codes, or regulations that apply to the combination of products in the customer's application or use of the product.
At the customer's request, OMRON will provide applicable third party certifi cation documents identifying ratings and limitations of use that apply to the products. This information by itself is not suffi cient for a complete determination of the suitability of the products in combination with the end product, machine, system, or other application or use.
The following are some examples of applications for which particular attention must be given. This is not intended to be an exhaustive list of all possible uses of the products, nor is it intended to imply that the uses listed may be suitable for the products:
- Outdoor use, uses involving potential chemical contamination or electrical interference, or conditions or uses not described in this catalog.
- Nuclear energy control systems, combustion systems, railroad systems, aviation systems, medical equipment, amusement machines, vehicles, safety equipment, and installations subject to separate industry or government regulations.
- Systems, machines, and equipment that could present a risk to life or property.
Please know and observe all prohibitions of use applicable to the products.
NEVER USE THE PRODUCTS FOR AN APPLICATION INVOLVING SERIOUS RISK TO LIFE OR PROPERTY WITHOUT ENSURING THAT THE SYSTEM AS A WHOLE HAS BEEN DESIGNED TO ADDRESS THE RISKS, AND THAT THE OMRON PRODUCT IS PROPERLY RATED AND INSTALLED FOR THE INTENDED USE WITHIN THE OVERALL EQUIPMENT OR SYSTEM.
## **Disclaimers**
## **CHANGE IN SPECIFICATIONS**
Product specifi cations and accessories may be changed at any time based on improvements and other reasons.
It is our practice to change model numbers when published ratings or features are changed, or when signifi cant construction changes are made. However, some specifi cations of the product may be changed without any notice. When in doubt, special model numbers may be assigned to fi x or establish key specifi cations for your application on your request. Please consult with your OMRON representative at any time to confi rm actual specifi cations of purchased product.
## **DIMENSIONS AND WEIGHTS**
Dimensions and weights are nominal and are not to be used for manufacturing purposes, even when tolerances are shown.
**ERRORS AND OMISSIONS** The information in this catalog has been carefully checked and is believed to be accurate; however, no responsibility is assumed for clerical, typographical, or proofreading errors, or omissions.
## **PERFORMANCE DATA**
Performance data given in this catalog is provided as a guide for the user in determining suitability and does not constitute a warranty. It may represent the result of OMRON’s test conditions, and the users must correlate it to actual application requirements. Actual performance is subject to the OMRON Warranty and Limitations of Liability.
## **PROGRAMMABLE PRODUCTS**
OMRON shall not be responsible for the user's programming of a programmable product, or any consequence thereof.
## **COPYRIGHT AND COPY PERMISSION**
This catalog shall not be copied for sales or promotions without permission.
This catalog is protected by copyright and is intended solely for use in conjunction with the product. Please notify us before copying or reproducing this catalog in any manner, for any other purpose. If copying or transmitting this catalog to another, please copy or transmit it in its entirety.
## Cat. No. D058-E1-04
## OMRON Corporation
In the interest of product improvement, specifications are subject to change without notice.
2007.7
Industrial Automation Company
http://www.ia.omron.com/
(c)Copyright OMRON Corporation 2007 All Rights Reserved.
Updated at June 9, 2026
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