E3F2R4B4 2M

## **Photoelectric Sensors E3F2** 

## **Threaded Cylindrical Photoelectric Sensors with Built-in Amplifier for Use as an Optical Proximity Switch** 

- M18 DIN-sized cylindrical housing 

- Housing materials: plastic, nickel plated brass and stainless steel 

- Axial and radial types (with integrated 90°-optics) 

- Enclosure rating IP67 

- DC switching types with connectors for easy maintenance 

- Full metal plug-in type 

- Sensing distance separate types: 7 m, 10 m 

- Retroreflective polarizing types: 2 m, 4 m 

- Background suppression type: 10 cm 

- Long detection distance (0.3 m, 1 m) with sensitivity adjuster for diffuse type 

- Wide-beam characteristics (10 cm) for diffuse type 

- Wide operating voltage range (10 to 30 VDC or 24 to 240 VAC) 

- Short-circuit and reverse connection protection (DC switching type) 

- UL and CSA approved (AC switching types) 

- UL listed (DC switching types) 

Photoelectric Sensors **E3F2** 

1 

## **Orderin Information g** 

## ■ **DC-Switching Models** 

## **Housing Material: Plastic** 

**Note:** Shaded models are normally stocked. 

|**Sensing method**<br>~~ee~~<br>~~SSS~~|**Sensing method**<br>~~ee~~<br>~~SSS~~|**Sensing method**<br>~~ee~~<br>~~SSS~~|**Appearance**<br>~~ee~~<br>~~SSS~~|**Connection**<br>**method**<br>~~ee~~<br>~~ee~~|**Sensing**<br>**distance**<br>~~ee~~|**Model**<br>~~PC~~<br>~~ee~~<br>~~es~~|**Model**<br>~~PC~~<br>~~ee~~<br>~~es~~|
|---|---|---|---|---|---|---|---|
|||||||**PNP output**<br>~~ee~~<br>~~es~~|**NPN output**<br>~~ee~~|
|Through-beam<br>~~SSS~~<br>~~Fs~~<br>~~fs~~|Multi purpose<br>~~SSS~~||axial<br>~~SSS~~<br>~~——~~|pre-wired<br>~~ee~~|7 m|**E3F2-7B4**<br>~~es~~|**E3F2-7C4**|
|||||M12 connector<br>~~ee~~||**E3F2-7B4-P1**<br>~~es~~|**E3F2-7C4-P1**|
||- precision detection(*1)<br>- test input<br>~~SSS~~<br>~~Fs~~<br>~~fs~~|||M12 connector<br>pre-wired<br>~~ee~~<br>~~—~~|10 m|**E3F2-7B4-P1**<br>**E3F2-10B4**<br>~~es~~|**E3F2-7C4-P1**<br>**E3F2-10C4**|
|||||M12 connector<br>~~ee~~<br>~~—~~<br>~~——~~||**E3F2-10B4-P1**<br>~~es~~|**E3F2-10C4-P1**|
|Retro-<br>reflective<br>(incl. reflector<br>E39-R1 or<br>E39-R1S)<br>~~Fs~~<br>~~fs~~<br>~~f~~|Non-polarizing<br>(without MSR function)<br>~~Fs~~<br>~~fs~~||axial<br>~~——~~<br>~~eee~~|pre-wired<br>~~—~~<br>~~——~~|0.1 - 2 m(*2)|**E3F2-R2B4**|**E3F2-R2C4**|
|||||M12 connector<br>~~——~~||**E3F2-R2B4-P1**|**E3F2-R2C4-P1**|
||Polarizing<br>(with MSR<br>function)<br>~~fs~~<br>~~ee~~|Fixed<br>sensitivity<br>~~fs~~||pre-wired<br>~~——~~|0.1 - 4 m(*3) <br>~~e~~|**E3F2-R4B4F**|**E3F2-R4C4F**|
|||||p<br>M12 connector||**E3F2-R4B4F-P1**|**E3F2-R4C4F-P1**|
|||Adjustable<br>sensitivity<br>~~|~~<br>~~ee~~||pre-wired<br>~~ee~~||**E3F2-R4B4**|**E3F2-R4C4**|
|||||M12 connector<br>~~ee~~<br>~~e~~||**E3F2-R4B4-P1**<br>~~one~~|**E3F2-R4C4-P1**<br>~~one~~|
||Polarizing<br>(with MSR function)<br>~~ee~~<br>~~f~~||radial<br>~~eee~~|pre-wired<br>M12 connector<br>~~e~~<br>~~|~~|0.1 - 2 m(*2)<br>~~e~~|**E3F2-R2RB41**<br>**E3F2-R2RB41-P1**<br>~~one~~|**E3F2-R2RC41**<br>**E3F2-R2RC41-P1**<br>~~one~~|
|||||M12 connector<br>~~e~~<br>~~|~~||**E3F2-R2RB41-P1**<br>~~one~~|**E3F2-R2RC41-P1**<br>~~one~~|
|Diffuse<br>reflective<br>~~f~~<br>~~ee~~<br>|Fixed sensitivity<br>Wide-beam characteristics<br>~~ee~~<br>~~f~~||axial<br>~~eee~~|pre-wired<br>~~e~~<br>~~|~~|0.1 m<br>~~e~~|**E3F2-DS10B4-N**<br>~~one~~|**E3F2-DS10C4-N**<br>~~one~~|
|||||M12 connector<br>~~|~~<br>~~—~~||**E3F2-DS10B4-P1**|**E3F2-DS10C4-P1**|
||Adjustable sensitivity<br>~~f~~<br>~~ee~~|||pre-wired<br>~~|~~|0.3 m|**E3F2-DS30B4**|**E3F2-DS30C4**|
|||||p<br>M12 connector<br>~~e~~~~**e**~~||**E3F2-DS30B4-P1**|**E3F2-DS30C4-P1**|
|||||pre-wired<br>~~e~~~~**e**~~|1 m<br>~~l~~|**E3F2-D1B4**|**E3F2-D1C4**|
|||||M12 connector<br>~~e~~~~**e**~~||**E3F2-D1B4-P1**<br>~~enum~~|**E3F2-D1C4-P1**<br>~~enum~~|
||Adjustable sensitivity<br>~~ee~~<br>||radial<br>~~mt~~|pre-wired<br>M12 connector<br>~~e~~~~**e**~~<br>~~|~~|0.3 m<br>~~l~~<br>~~OE~~|**E3F2-DS30B41**<br>**E3F2-DS30B41-P1**<br>~~enum~~|**E3F2-DS30C41**<br>**E3F2-DS30C41-P1**<br>~~enum~~|
|||||M12 connector<br>~~e~~~~**e**~~<br>~~|~~<br>~~mt~~||**E3F2-DS30B41-P1**<br>~~enum~~<br>~~OE~~|**E3F2-DS30C41-P1**<br>~~enum~~|
|Background<br>suppression<br>~~ee~~<br>~~|~~|Fixed sensing distance<br>~~ee~~<br>~~|~~||axial<br>~~a}~~<br>~~mt~~|pre-wired<br>~~e~~~~**e**~~<br>~~a}~~<br>~~mt~~|10 cm<br>~~l ~~<br>~~OE~~|**E3F2-LS10B4**<br> ~~enum~~<br>~~OE~~|**E3F2-LS10C4**<br>~~enum~~|
|||||M12 connector<br>~~a}~~<br>~~mt~~||**E3F2-LS10B4-P1**<br>~~OE~~|**E3F2-LS10C4-P1**|



- *2) with reflector E39-R1 

- *3) with reflector E39-R1S 

**Note:** Standard cable length is 2 m. Models provided with a 5 m long cable are available. When ordering, specify the cable length by adding the length of the cable (e.g. E3F2-R2RB4 2M or E3F2-R2RB4 5M). For other cable length please contact your OMRON sales representative. 

Photoelectric Sensors **E3F2** 

2 

## ■ **Housing material: Metal (Nickel plated brass)** 

**Note:** Shaded models are normally stocked. 

|**Note:**Shaded models are normally stocked.|**Note:**Shaded models are normally stocked.|**Note:**Shaded models are normally stocked.||||||
|---|---|---|---|---|---|---|---|
|**Sensing method**|||**Appearance**|**Connection**<br>**method**|**Sensing**<br>**distance**|**Model**<br>~~PO~~||
|||||||**PNP output**<br>~~PO~~|**NPN output**<br>~~PO~~|
|Through-beam <br>~~===~~|Multi purpose<br>~~===~~||axial<br>~~===~~|pre-wired|7 m<br>~~===~~|**E3F2-7B4-M**|**E3F2-7C4-M**|
|||||M12 connector<br>~~===~~||**E3F2-7B4-M1-M**<br>~~===~~|**E3F2-7C4-M1-M**<br>~~===~~|
||- precision detection<br>- test input<br>~~===~~|||pre-wired<br>~~===~~|10 m<br><br>~~===~~|**E3F2-10B4-M**<br>~~===~~|**E3F2-10C4-M**<br>~~===~~|
|||||M12 connector<br>~~|~~<br>~~===~~||**E3F2-10B4-M**1-M<br>~~|~~<br>~~===~~|**E3F2-10C4-M**1-M<br>~~|~~<br>~~===~~|
|Retro-<br>reflective<br>(incl. reflector<br>E39-R1)<br>~~===~~|Polarizing<br>(with MSR<br>function)<br>~~===~~|Fixed<br>sensitivity<br>~~===~~|axial<br>~~===~~|pre-wired<br>~~===~~|0.1 - 2 m(*1)<br>~~===~~|**E3F2-R2RB4-M**<br>~~===~~|**E3F2-R2RC4-M**<br>~~===~~|
|||||M12 connector<br>~~===~~||**E3F2-R2RB4-M1-M**<br>~~===~~|**E3F2-R2RC4-M1-M**<br>~~===~~|
|||||pre-wired<br>~~===~~|0.1 - 4 m(*2)<br>~~===~~<br>~~|~~|**E3F2-R4B4F-M**<br>~~===~~|**E3F2-R4C4F-M**<br>~~===~~|
|||||p<br>M12 connector<br>~~===~~||**E3F2-R4B4F-M1-M**<br>~~===~~|**E3F2-R4C4F-M1-M**<br>~~===~~|
|||Adjustable<br>sensitivity<br>~~===~~||pre-wired<br>~~===~~||**E3F2-R4B4-M**<br>~~===~~|**E3F2-R4C4-M**<br>~~===~~|
|||||M12 connector<br>~~===~~<br>~~|~~||**E3F2-R4B4-M1-M**<br>~~===~~<br>~~oe~~|**E3F2-R4C4-M1-M**<br>~~===~~<br>~~oe~~|
||Polarizing<br>(with MSR function)<br>~~===~~<br>~~iF)~~||radial<br>~~===~~<br>~~iF)~~|pre-wired<br>~~===~~<br>~~iF)~~<br>~~|~~|0.1 - 2 m(*1)<br>~~===~~<br>~~iF)~~<br>~~|~~|**E3F2-R2RB41-M**<br>~~===~~<br>~~iF)~~<br>~~oe~~|**E3F2-R2RC41-M**<br>~~===~~<br>~~iF)~~<br>~~oe~~|
|Diffuse<br>reflective<br>~~|_|~~|Fixed sensing distance<br>Wide-beam characteristics||axial<br> <br>~~|_|~~|pre-wired<br>~~|~~|0.1 m<br>~~| ~~|**E3F2-DS10B4-M**<br> ~~oe~~|**E3F2-DS10C4-M**<br>~~oe~~|
|||||M12 connector||**E3F2-DS10B4-M1-M**|**E3F2-DS10C4-M1-M**|
||Adjustable sensing<br>distance<br>~~a ~~<br>~~|_|~~|||pre-wired<br>~~A~~|0.3 m<br>~~A~~|**E3F2-DS30B4-M**|**E3F2-DS30C4-M**|
|||||p<br>M12 connector<br>~~A~~||**E3F2-DS30B4-M**<br>**E3F2-DS30B4-M1-M**|**E3F2-DS30C4-M**<br>**E3F2-DS30C4-M1-M**|
|||||pre-wired<br>~~A~~|1 m<br>~~A~~|**E3F2-D1B4-M**|**E3F2-D1C4-M**|
|||||M12 connector<br> ~~A~~<br>~~|~~||**E3F2-D1B4-M1-M**|**E3F2-D1C4-M1-M**|
||Adjustable sensing<br>distance<br>~~||~~<br>~~|_|~~||radial<br>~~|| ~~<br>~~|_|~~|pre-wired<br>M12 connector<br><br>~~|~~|0.3 m<br> ~~as~~|**E3F2-DS30B41-M**<br>**E3F2-DS30B41-M1-M**<br>~~as~~|**E3F2-DS30C41-M**<br>**E3F2-DS30C41-M1-M**<br>~~as~~|
|||||M12 connector<br> <br>~~|~~||**E3F2-DS30B41-M1-M**<br>~~as~~|**E3F2-DS30C41-M1-M**<br>~~as~~|
|Background<br>suppression<br>~~|_|~~|Fixed sensing<br>distance<br>~~|_|~~||axial<br>~~|_|~~|pre-wired<br>~~|~~|10 cm|**E3F2-LS10B4-M**|**E3F2-LS10C4-M**|
|||||M12 connector<br>~~|~~||**E3F2-LS10B4-M1-M**|**E3F2-LS10C4-M1-M**|



**Note:** Standard cable length is 2 m. Models provided with a 5 m long cable are available. When ordering, specify the cable length by adding the length of the cable (e.g. E3F2-R2RB4 2M or E3F2-R2RB4 5M). For other cable length please contact your OMRON sales representative. 

Photoelectric Sensors **E3F2** 

3 

## ■ **Housing material: Metal (Stainless steel)** 

**Note:** Shaded models are normally stocked. 

|**Sensing method**<br>~~a~~|**Sensing method**<br>~~a~~|**Appearance**<br>~~ee~~|**Connection**<br>**method**<br>~~ee~~|**Sensing**<br>**distance**<br>~~PC~~<br>~~eee~~|**Model**<br>~~PC~~<br>~~eee~~|**Model**<br>~~PC~~<br>~~eee~~|
|---|---|---|---|---|---|---|
||||||**PNP output**<br>~~PC~~<br>~~eee~~|**NPN output**<br>~~eee~~|
|Through-beam<br>~~a~~<br>~~EES~~|~~a~~<br>~~EES~~|axial<br>~~ee~~<br>~~EES~~<br>~~|~~<br>~~|~~<br>~~a~~|pre-wired<br>~~ee~~<br>~~EES~~<br>~~|~~|7 m<br>~~PC~~<br>~~eee~~<br>~~EES~~<br>~~ssid~~<br>~~ee~~|**E3F2-7B4-S**<br>~~PC~~<br>~~eee~~<br>~~EES~~<br>~~ee~~|**E3F2-7C4-S**<br>~~eee~~<br>~~EES~~<br>~~eee~~|
||||M12 connector<br>~~EES~~<br>~~|~~<br>~~|~~<br>~~ssid~~<br>~~ee~~||**E3F2-7B4-M1-S**<br>~~EES~~<br>~~ee~~<br>~~ee~~<br>~~ee~~|**E3F2-7C4-M1-S**<br>~~EES~~<br>~~eee~~<br>~~ee~~|
|Retro-<br>reflective<br>(incl. reflector<br>E39-R1)<br>~~ee~~|Polarizing<br>(with MSR function)<br>~~ee~~|axial<br>~~|~~<br>~~|~~<br>~~ee~~<br>~~a~~|pre-wired<br>~~|~~<br>~~|~~<br>~~ssid~~<br>~~ee~~<br>~~ee~~|0.1 - 2 m<br>(with<br>reflector<br>E39-R1)<br>~~ssid ~~<br>~~ee~~<br>~~ee~~|**E3F2-R2RB4-S**<br>~~ee ~~<br>~~ee~~<br>~~ee~~<br>~~ee~~|**E3F2-R2RC4-S**<br> ~~eee~~<br>~~ee~~<br>~~ee~~|
||||M12 connector<br>~~|~~<br>~~ssid~~<br>~~ee~~<br>~~ee~~||**E3F2-R2RB4-M1-S**<br> ~~ee~~<br>~~ee~~<br>~~ee~~|**E3F2-R2RC4-M1-S**<br>~~ee~~<br>~~ee~~|
|Diffuse<br>reflective<br>~~SSS~~|Fixed sensitivity<br>Wide-beam characteristics<br>~~SSS~~|axial<br>~~a ~~<br>~~SSS~~|pre-wired<br> ~~ee~~<br>~~SSS~~|0.1 m<br>~~ee~~<br>~~SS~~<br>~~Sj~~|**E3F2-DS10B4-S**<br>~~ee~~<br>~~SS~~|**E3F2-DS10C4-S**<br>~~SS~~|
||||M12 connector<br>~~SSS~~<br>~~Sj~~||**E3F2-DS10B4-M1-S**<br>~~SS~~|**E3F2-DS10C4-M1-S**<br>~~SS~~|
||Adjustable sensitivity<br>~~SSS~~<br>~~|~~||pre-wired<br>~~SSS~~<br>~~Sj~~|0.3 m<br>~~SS~~<br>~~Sj~~|**E3F2-DS30B4-S**<br>~~SS~~<br>~~ee~~|**E3F2-DS30C4-S**<br>~~SS~~<br>~~ee~~|
||||M12 connector<br>~~SSS~~<br>~~Sj~~||**E3F2-DS30B4-M1-S**<br>~~SS~~<br>~~ee~~|**E3F2-DS30C4-M1-S**<br>~~SS~~<br>~~ee~~|



## ■ **AC-Switching Models** 

## **Housing material: Plastic** 

|**Sensing method**<br>~~a~~<br>~~_I~~|**Sensing method**<br>~~a~~<br>~~_I~~|**Appearance**<br>~~ee~~<br>~~=_~~|**Connection**<br>**method**<br>~~ee~~<br>~~__|~~|**Sensing**<br>**distance**<br>PC<br>~~ee~~<br>~~|~~|**Model**<br>PC<br>~~ee~~<br>|**Model**<br>PC<br>~~ee~~<br>|
|---|---|---|---|---|---|---|
||||||**Light-ON**<br>PC<br>~~ee~~<br>|**Dark-ON**<br>~~ee~~<br>|
|Through-beam<br>~~_ I~~|~~I~~|axial<br>~~ee~~<br>~~=_~~|pre-wired<br>~~ee~~<br>~~__|~~|3 m<br>~~ee~~<br>~~|in~~|**E3F2-3Z1**<br>~~ee~~<br>~~in~~|**E3F2-3Z2**<br>~~ee~~<br>~~in~~|
|Retro-<br>reflective<br>(incl. reflector<br>E39-R1)<br> ~~I~~<br>~~ae~~|Non-polarizing<br>(without MSR function)<br>~~I~~<br>~~ae~~|axial<br>~~=_~~<br>~~ae~~|pre-wired<br>~~__ |~~<br>~~ae~~|0.1 - 2 m<br>(with<br>reflector<br>E39-R1)<br>~~|~~<br>~~ae~~|**E3F2-R2Z1**<br><br>~~ae~~|**E3F2-R2Z2**<br><br>~~ae~~|
|Diffuse<br>reflective<br>~~tt~~|Fixed sensing distance<br>Wide-beam characteristics<br>~~tt~~|axial<br>~~tt~~|pre-wired<br>~~tt~~|0.1 m<br>~~tt~~|**E3F2-DS10Z1-N**<br>~~tt~~|**E3F2-DS10Z2-N**<br>~~tt~~|



Photoelectric Sensors **E3F2** 

4 

## ■ **Accessories (Order Separately)** 

**Note:** Shaded models are normally stocked. 

|**Name**|**Sensing distance(typical) [1.]**|**Model**|**Remark**|
|---|---|---|---|
|Reflectors|0.1 - 3.7 m (axial)<br>0.1 - 2.4 m(radial)|**E39-R1**|60 x 40 mm (included in<br>some models)|
||0.1 - 4.3 m(axial)|**E39-R1S**|for E3F2-R4|
||0.1 - 4.2 m (axial)<br>0.1 - 2.7 m(radial)|**E39-R7**|84 mm|
||0.1 - 5.3 m (axial)<br>0.1 - 3.1 m (radial)|**E39-R8**|100 x 100 mm|
||0.1 - 4.3 m (axial)|**E39-R40**|80 x 80 mm|
|Tape Reflectors||**E39-RSA**|35 x 10 mm|
|||**E39-RSB**|35 x 40 mm|
|||**E39-RS3**|80 x 70 mm|
|Lens Cap||**E39-F31**||
|Mounting Bracket||**Y92E-B18**|screw mount|
|||**Y92E-G18**|quick access mounting|
|Slit||**E39-ES18**|for E3F2-10@- precision<br>detection|



For detailed information about Accessories, refer to the main chapter “Accessories” at the end of the document. 

**Note: 1.** Typical sensing distance corresponds to 80% of the max. sensing distance. For details, please refer to “Engineering Data”. 

## ■ **Sensor I/O Connectors** 

**Note:** Shaded models are normally stocked. 

> **Cord** ~~RG~~ **Shape Cable type Model** Standard 2 m Four-wire type **XS2F-D421-D80-A** Straight 5 m **XS2F-D421-G80-A** ~~i | Ae~~ 2 m **XS2F-D422-D80-A** L-shaped 5 m **XS2F-D422-G80-A** ~~= —~~ Vibration-proof 2 m **XS2F-D421-D80-R** robot cable Straight 5 m **XS2F-D421-G80-R** 

> 2 m ~~—~~ **XS2F-D422-D80-R** L-shaped 5 m **XS2F-D422-G80-R** ~~oea=arT pPp~~ 

Photoelectric Sensors **E3F2** 

5 

## **S ecifications p** 

## ■ **Ratings / Characteristics of DC Switching Models** 

|**Item**<br>~~Pe~~|**Item**<br>~~Pe~~|**E3F2-7**@|**E3F2-10**@<br>~~De~~|**E3F2-R2**@**4-**@ <br>~~De~~|**E3F2-R2R**@ <br>~~De~~|**E3F2-R4**@**-**@|**E3F2-DS10**@|**E3F2-DS30**@|**E3F2-**<br>**D1**@**4-**@|**E3F2-**<br>**LS10**@**4-**@|
|---|---|---|---|---|---|---|---|---|---|---|
|Sensing method<br>~~Pe~~||Through-beam<br>~~De~~||Retroreflective<br>~~De~~|||Diffuse reflective||||
|||- multi<br>purpose|- Precision<br>detection [6.]<br>- test input|Non-<br>polarizing|Polarizing||Wide beam<br>characteristic|Adjustable sensing distance||Background<br>suppression|
|Power supplyvoltage<br>~~a~~||10 to 30 V DC|12 to 24 V DC|10 to 30 V DC|||||||
|Current consumption||50 mA max.||25 mA max.|30 mA max.||25 mA max.|30 mA max.|||
|Rated sensing distance<br>[1.]||7 m|10 m|0.1 - 2 m<br>(with reflector E39-R1)||0.1 - 4 m<br>(with reflector<br>E39-R1S)|0.1 m<br>(5 x 5 cm white<br>mat paper)|0.3 m<br>(10 x 10 cm<br>white<br>matpaper)|1 m<br>(30 x 30 cm<br>white<br>matpaper)|0.1 m<br>(10 x 10 cm<br>white<br>matpaper)|
|Typical sensing distance<br>for different reflector<br>types (ref. to accesso-<br>ries) [2.]||–||E39-R1:<br>4.0 m<br>E39-R7:<br>4.5 m<br>E39-R8:<br>5.3 m|E39-R1:<br>axial<br>3.7 m<br>radial<br>2.4 m<br>E39-R7:<br>axial<br>4.2 m<br>radial<br>2.7 m<br>E39-R8:<br>axial<br>5.3 m<br>radial<br>3.1 m|E39-R1S:4.3 m<br>E39-R7: 4.8 m<br>E39-R8: 5.6 m<br>E39-R40: 4.3 m<br>E39-RS3:<br>2 m|–||||
|Standard object<br>~~pt~~||Opaque: 11 mm dia. min.<br>~~pt~~||Opaque: 56 mm dia. min.<br>~~pt~~|||–<br>~~pt~~||||
|Directional angle<br>~~pt~~||3° to 20°<br>~~pt~~|||||–<br>~~pt~~||||
|Differential travel<br>(hysteresis)<br>~~ee~~||–<br>~~ee~~|||||20% max.<br>~~ee~~|||5% max<br>~~ee~~|
|Black/white error<br>~~a~~||–||||||||3%|
|Response time<br>~~a~~<br>~~ee~~||Operation and Reset: 2.5 ms max.||||1 ms max|2.5 ms max.||1 ms max.||
|Control output<br>~~a~~<br>~~ee~~||Transistor(open collector), load current: 100 mA max.(residual voltage: 2 V max.)|||||||||
|Power reset time<br>~~ee~~<br>~~a~~<br>~~ee~~||50 ms||||100 ms max.|50 ms||100 ms||
|Ambient illumination<br>~~ee~~||Incandescent lamp: 3000 lx max. / Sunlight: 10000 lx max.|||||||||
|Ambient temperature<br>~~ee~~<br>~~a~~||Operating: -25 to 55 °C / Storage: -30 to 70 °C(with no icingor condensation)|||||||||
|Ambient humidity<br>~~a~~||Operating: 35% to 85% / Storage: 35% to 95%(without condensation)|||||||||
|Insulation resistance<br>~~a~~||20 MΩmin. at 500 V DC between energizedparts and case|||||||||
|Dielectric strength<br>~~a~~<br>~~a~~||1000 VAC max., 50 / 60 Hz for 1 min between energizedparts and case|||||||||
|Vibration resistance<br>~~a~~||10 to 55 Hz, 1.5 mm double amplitude for 2 hrs each direction(X, Y, Z)|||||||||
|Shock resistance<br>~~a~~||Destruction: 500 m/s2each direction(X, Y, Z)|||||||||
|Enclosure ratings<br>~~a~~||IP67[3.]; NEMA 1, 2, 4|||||||||
|Light source||Infrared LED (880 nm/850 nm)|||Red LED (660 nm)||Infrared LED (880 nm)|||Red LED<br>(660 nm)|
|Indicators<br>~~PR~~||Light  incident<br>/ power indi-<br>cator for light<br>source(red)|Output<br>(orange) /<br>light  emission<br>(red)|Light incident / power<br>indicator for light source (red)||Light incident<br>(red) /<br>stability (green)|Light incident / power indicator<br>for light source (red)||Light incident<br>(red) /<br>stability<br>(green)|Output<br>indicator<br>(orange) / sta-<br>bility (green)|
|Sensitivity adjustment<br>~~PR~~||Fixed||||Fixed /<br>Adjustable|Fixed|Adjustable||Fixed|
|Connection method<br>~~PR~~<br>~~a~~||2 m, 5 mpre-wired cable(PVC, dia. 4 mm(18 / 0.12)[4.])or M12-connector|||||||||
|Test Input<br>~~a~~||–|[7.]|–|||||||
|Operation mode<br>~~a~~<br>~~a~~<br>~~_——————~~||Light-ON or Dark-ON selectable bywiring<br>~~——————~~|||||||||
|Weight(approx.)<br>~~a~~<br>~~_——————~~||~~——————~~|||||||||
|Plastic<br>case<br>~~_——————~~<br>~~ee~~|pre-wired(2 m)<br>~~——————~~|120g<br>~~——————~~||60g|||||||
||connector<br>~~——————~~<br>~~a~~<br>~~ee ee~~|40g<br>~~——————~~<br>~~**a**~~<br>~~ee~~||20g|||||||
|Metal<br>case<br>~~_——————~~<br>~~ee~~|pre-wired(2 m)<br>~~——————~~<br>~~a~~<br>~~ee ee~~|180g<br>~~——————~~<br>~~**a**~~<br>~~ee~~||90g|||||||
||connector<br>~~a~~<br>~~ee ee~~|120g<br>~~**a**~~<br>~~ee~~||50g|||||||
|Circuitprotection<br>~~a~~<br>~~ee~~<br>~~ee ee~~<br>~~a~~ ~~—_————~~||Output short-circuit andpower supplyreversepolarity<br>~~**a**~~<br>~~ee~~<br>~~—_————~~|||||||||
|Housing materials<br> ~~—_————~~<br>~~a~~||Plastic(case: ABS; lens: PMMA)<br>~~—_————~~<br>~~a~~|||||||||
|||Nickel brass<br>~~—_————~~<br>~~a~~<br>~~Ps~~|Nickel brass<br>~~—_————~~<br>~~a~~<br>~~Ps es~~|–<br>~~a~~<br>~~es~~|Nickel brass|Nickel brass|Nickel brass|Nickel brass|Nickel brass|Nickel brass|
|||Stainless<br>steel[5.]<br>~~a~~<br>~~Ps~~|–<br>~~a~~<br>~~Ps es~~|–<br>~~a~~<br>~~es~~|Stainless<br>steel[5.]|–|Stainless<br>steel[5.]|Stainless<br>steel[5.]|–|–|



**2.** Typical sensing distance corresponds to 80% of the max. sensing distance. 

**3.** The enclosure rating IP67 of OMRON internal standards correspond to stricter test requirements than the standard IEC 60529 (refer to chapter “Precautions”) 

**4.** For other cable materials (e.g. PUR) please contact your OMRON sales representative. 

**5.** Material-specification for stainless steel housing case: 1.4305 (W.-No.), 303 (AISI), 2346 (SS). For other stainless steel materials please contact your OMRON sales representative. 

**6.** with slit E39-ES18 

**7.** PNP models -B4: VCC to VCC -2.5 V: Emitting OFF (Source current: 3 mA max.) / Open or 0 to 2.5 V: Emitting ON (Leakage current: 0.1 mA max.) 

   - NPN models -C4: 0 to 2.5 V: Emitting OFF (Source current: 3 mA max.) / Open or Vcc to Vcc -2.5 V: Emitting ON (Leakage current: 0.1 mA max.) 

Photoelectric Sensors **E3F2** 

6 

## ■ **Ratings / Characteristics of AC Switching Models** 

|Item|**E3F2-3Z1**<br>**E3F2-3Z2**|**E3F2-R2Z1**<br>**E3F2-R2Z2**|**E3F2-DS10Z1**<br>**E3F2-DS10Z2**|
|---|---|---|---|
|Sensing method<br>~~es~~|Through-beam<br>~~es~~|Non-polarizing Retroreflective<br>~~es~~|Diffuse reflective<br>(wide-beam characteristic)|
|Power supplyvoltage|24 to 240 VAC ±10%, 50 / 60 Hz|||
|Current consumption|10 mA max.|5 mA max.||
|Rated sensing distance[1.]|3 m<br>~~a~~|0.1 - 2 m<br>(with reflector E39-R1)<br>~~a~~|0.1 m<br>(5 x 5 cm white matpaper)<br>~~a~~|
|Typical sensing distance for dif-<br>ferent reflector types [2.]<br>~~**e**e~~|–|E39-R1: 3,4 m<br>E39-R7: 3,9 m<br>E39-R8: 5,2 m|–|
|Detectable object<br>~~**e**e~~|Opaque object: 11 mm min.|Opaque object: 56 mm min.|Opaque objects|
|Directional angle<br>~~**e**e~~|3° to 20°<br>~~G~~||–<br>~~G~~|
|Differential travel<br>~~eG~~|–<br>~~eG~~||20% max.<br>~~eG~~|
|Response time<br>~~pf~~|30 ms max.<br>~~pf~~|||
|Control output<br>~~pf~~|AC solid state(SCR)200 mA max.; residual voltage: 5 V max. at 200 mA<br>~~pf~~|||
|Power reset time<br>~~pf~~|100 ms<br>~~pf~~|||
|Ambient illumination<br>~~pf~~<br>~~pe~~|Incandescent lamp: 3000 lx max. Sunlight: 10000 lx max.<br>~~pf~~|||
|Ambient temperature<br>~~pe~~<br>~~**p**e~~|Operating: -25 to 55 °C / Storage: -30 to 70 °C(with no icingor condensation)|||
|Ambient humidity<br>~~pe~~<br>~~**p**e~~|Operating: 35% to 85% / Storage: 35% to 95%(without condensation)|||
|Insulation resistance<br>~~**p**e~~|20 MΩmin. at 500 V DC between energizedparts and case<br>~~f~~|||
|Dielectric strength<br>~~pf~~|1500 VAC, 50 / 60 Hz for 1 min between energizedparts and case<br>~~pf~~|||
|Vibration resistance<br>~~pf~~|10 to 55 Hz, 1.5 mm double amplitude for 2 hrs each direction(X, Y, Z)<br>~~pf~~|||
|Shock resistance<br>~~pf~~|500 m/sqr(approx. 50g)for each direction(X, Y, Z)<br>~~pf~~|||
|Enclosure rating<br>~~pf~~|IP67 [3.];   NEMA 1, 2, 4<br>~~pf~~|||
|Light source<br>~~pf~~|Infrared LED(880 nm)<br>~~pf~~|||
|Indicators<br>~~pf~~|Light incident/power indicator for light source(red)<br>~~pf~~|||
|Sensitivityadjustment<br>~~pf~~|Fixed<br>~~pf~~|||
|Connection method<br>~~pf~~|2 m, 5 mpre-wired cable(PVC dia. 4 mm(14 / 0.15))<br>~~pf~~|||
|Operation mode<br>~~pf~~|Light-ON or Dark-ON(fixed)<br>~~pf~~|||
|Circuitprotection<br>~~pf~~|None<br>~~pf~~|||
|Weight(approx.)<br>~~pf~~|110g (pre-wired 2 m cable)<br>~~pf~~|||
|Housingmaterials<br>~~Ge~~|Plastic(case: ABS; lens: PMMA)<br>~~Ge~~|||



- **Note: 1.** For stable sensing distance in detail, please refer to “Engineering Data” 

   **2.** Typical sensing distance corresponds to 80% of the max. sensing distance. 

   **3.** The enclosure rating IP67 of OMRON internal standards correspond to stricter test requirements than the standard IEC 60529 (refer to chapter “Precautions”) 

Photoelectric Sensors **E3F2** 

7 

## **Engineering Data (Typical)** 

## ■ **Operating Range (typical)** 

**Through-beam Models (axial) E3F2-7** @ **4-** @ 

**Through-beam Models (axial) E3F2-3Z** @ 

**Through-beam Models (axial) E3F2-10** @ 

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300 500<br>typical sensing distance: 3.8 m<br>400<br>“~ T T-T TT ] 200 300 ooo<br>200<br>7S 100 S e CHE<br>7/1 1X) — 100 5p GUERRSSSEERNE<br>S77 TIN 0 Zee 0 ATLL<br>-100<br>i SoeyY –100 Roa -200 Re<br>-300<br>–200<br>Y -400 Y<br>S ENS –300 Fc) X -500 X<br>: fee} | 0 | 1 | 2 3 Fe 4 te 5 0 PEELE 1 2 3 4 5 6 7 8 9 10 11 1213 1415 16 17 Este<br>Distance X (m) Distance X (m) Distance X (m)<br>Retroreflective Models (axial) Retroreflective Models (axial) Retroreflective Models (axial)<br>E3F2-R2 @ 4- @  (non polarizing) E3F2-R2Z @  (non polarizing) E3F2-R2R @ 4- @  (polarizing)<br>and reflectors and reflectors and reflectors<br>Distance Y (mm)<br>Distance Y (mm)<br>**----- End of picture text -----**<br>


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300 typical sensing distances:E39-R1:  4.0 m 300 typical sensing distances:E39-R1:  3.4 m 200 typical sensing distances:E39-R1:  3.7 m<br>E39-R7:  4.5 m E39-R7:  3.9 m 150 E39-R7:  4.2 m<br>200 E39-R8:  5.3 m 200 E39-R8:  5.2 m E39-R8:  5.3 m<br>100<br>100 caper ae 100 He HEE<br>LAN ape=., 50 See<br>0 0 0<br>4A =A ete y<br>–50<br>–100 SEL –100 SAAT) PSP<br>–100<br>–200 –200<br>Y Reflector Y Reflector –150 Y Reflector<br>–300 p S X –300 can en X e –200 | 7 X<br>0 Cor 1 2 3 4 s 5 6 e 7 8 = Oo 0 1 2 3 4 o} 5 6 7 8 0 E 1 2 se 3 4 5 6 7<br>Distance X (m) Distance X (m) Distance X (m)<br>Distance Y (mm) Distance Y (mm) Distance Y (mm)<br>**----- End of picture text -----**<br>


**Retro-reflective Models (axial) E3F2-R4** @ **4** @ **-** @ **(polarizing)** 

**Retroreflective Models (radial) E3F2-R2R** @ **41-** @ **(polarizing) and reflectors** 

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250 Typical sensing distance 100 typical sensing distances:<br>200 E39-RS3E39-R1S CCooo E39-R1:  2.4 mE39-R7:  2.7 m<br>E39-R40 E39-R8:  3.1 m<br>150 E39-R7<br>E39-R8 50<br>100<br>gee |e<br>50<br>0 PELE 0 LEEES<br>- 50<br>- 100 Ky<br>–50<br>- 150<br>Reflector<br>- 200 Y Reflector Y<br>X<br>- 250 0 RCo 1 2 3 4 5 6 te 7 X 8 9 –100 0 ELL 0.5 1 1.5 2 2.5 tes 3 3.5 4<br>Distance X (m) Distance X (m)<br>Distance Y (mm) Distance Y (mm)<br>**----- End of picture text -----**<br>


Photoelectric Sensors **E3F2** 

8 

## **Diffuse reflective Models (axial) E3F2-DS10** @ **4-** @ **(wide-beam type)** 

## **Diffuse reflective Models (axial) E3F2-DS10Z-** @ **(wide-beam type)** 

## **Diffuse reflective Models (axial) E3F2-DS30** @ **4-** @ 

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15 30 40 Sensitivity adjusted to maximum<br>30 sas Sensitivity adjusted to 400 mm<br>10 20<br>20<br>5 10<br>10<br>PBunl E TEE TA<br>0 (50 x 50 mm)white paper 0 (50 x 50 mm)white paper 0 (100 x 100 mm)white paper<br>Yt | tN oY –10 — S E<br>–5 –10<br>NERA! TT IN –20 O Sensing distance adjustable N<br>between  0 and 550 mm<br>–10 –20<br>Y Object Y Object –30 Y Object<br>X X X<br>–15 –30 –40<br>0 20 Fu-| 40 60 | 80 100 | \ 120 140 0 20 Ea-| 40 60 | 80 100 | 120 bE 140 0 100 Ea- 200 300 1 1 400 TN 500 600<br>Distance X (mm) Distance X (mm) Distance X (mm)<br>Distance Y (mm) Distance Y (mm) Distance Y (mm)<br>**----- End of picture text -----**<br>


**Diffuse reflective Models (radial) E3F2-DS30** @ **41-** @ 

**Diffuse reflective Models (axial) E3F2-D1** @ **4-** @ 

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40 Sensitivity adjusted to 390 mm 100<br>80<br>30 White paper (90% reflectivity)<br>60<br>20 Te a<br>40<br>10<br>| | | sot/te 20  EEEEEeZEHOE<br>0 Sensing object:100 x 100 mm 0  Sensing object:300 x 300 mm<br>–10 eeNeAN a -20  conesNN<br>-40<br>–20 rT] TX aaeeNee<br>-60<br>–30 Y Object -80  Y Object<br>–40 m e X eee]ry TT | SE SEEERS= X y<br>0 100 200 300 400 500 -100 0  200  400  600  800  1000  1200  1400  1600<br>Distance X (mm) Distance X (mm)<br>Distance Y (mm) Distance Y (mm)<br>**----- End of picture text -----**<br>


## ■ **Excess Gain Ratio vs. Distance (typical)** 

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Through-beam Models (axial) Through-beam Models (axial) Through-beam Models (axial)<br>E3F2-7 @ 4- @ E3F2-3Z @ E3F2-10 @<br>100 100<br>100<br>10 PN 10 ELE<br>EN EN ii<br>10<br>1 TPN 1 LENE<br>0.1 PELLET 0.1 LLLLLEE 1 LN<br>0 2 4 6 8 10 12 0 1 2 3 4 5 6 7 0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18<br>Distance X (m) Distance X (m) Distance [m]<br>Excess gain Excess gain relative Gain<br>**----- End of picture text -----**<br>


Photoelectric Sensors **E3F2** 

9 

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Retroreflective Models (axial)<br>E3F2-R2 @ 4- @  (non polarizing)<br>and reflectors<br>**----- End of picture text -----**<br>


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Retroreflective Models (axial) Retroreflective Models (axial) Retroreflective Models (axial)<br>E3F2-R2 @ 4- @  (non polarizing) E3F2-R2Z @  (non polarizing) E3F2-R2R @ 4- @  (polarizing)<br>and reflectors and reflectors and reflectors<br>100 |_| | 100 100 [|<br>10 me) 10 ET) 10 FT<br>reflector E39-R1 reflector E39-R1 reflector E39-R1<br>1 1 reflector E39-R7 1 reflector E39-R7<br>reflector E39-R7<br>reflector E39-R8<br>reflector E39-R8<br>reflector E39-R8<br>0.1 CPS ) 0.1 CO LD S 0.1 COL<br>0 1 2 3 4 5 6 7 8 0 1 2 3 4 5 6 7 0 1 2 3 4 5 6 7<br>Distance X (m) Distance X (m) Distance X (m)<br>Retroreflective Models (axial) Retroreflective Models (radial)<br>E3F2-R4 @ 4 @ - @ E3F2-R2R @ 41- @  (polarizing)<br>and reflectors<br>100<br>100<br>Reflectors:<br>E39-RS3<br>E39-R1S<br>E39-R40<br>E39-R7<br>E39-R8<br>10 10<br>1 nas] 1 M reflector E39-R1 E<br>reflector E39-R7<br>RY S Q<br>reflector E39-R8<br>0.1 RD 0.1 La te<br>0 2 4 6 8 10 0 1 2 3 4 5<br>Distance X (m) Distance X (m)<br>Diffuse reflective Models (axial) Diffuse reflective Models (axial) Diffuse reflective Models (axial)<br>E3F2-DS10 @ 4- @  (wide-beam type) E3F2-DS10Z- @  (wide-beam type) E3F2-DS30 @ 4- @<br>100 100 100 Sensitivity adjusted to maximum<br>Sensing object:<br>Sensing object: Sensing object: 100 x 100 mm<br>50 x 50 mm 50 x 50 mm<br>10 10 10<br>White paper<br>(90% reflectivity)<br>A T) E T] White paper Re<br>(90% reflectivity) White paper<br>(90% reflectivity)<br>1 Grey paper(18% reflectivity) 1 1<br>Grey paper<br>(18% reflectivity) Grey paper<br>(18% reflectivity)<br>0.1 Ss Ty 0.1 Sa LEER 0.1 Lecce<br>0 20 40 60 80 100 120 140 0 50 100 150 200 0 200 400 600 800 1000<br>Distance X (mm) Distance X (mm) Distance X (mm)<br>Excess gain Excess gain Excess gain<br>Excess Gain Excess gain<br>Excess gain Excess gain Excess gain<br>**----- End of picture text -----**<br>


## **Retroreflective Models (axial) E3F2-R4** @ **4** @ **-** @ 

Photoelectric Sensors **E3F2** 

10 

## **Diffuse reflective Models (radial) E3F2-DS30** @ **41-** @ 

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100<br>Sensing object:<br>100 x 100 mm<br>Sensitivity adjusted to 390 mm<br>10<br>White paper<br>(90% reflectivity)<br>1<br>Grey paper<br>(18% reflectivity)<br>0.1 idan<br>0 100 200 300 400 500<br>Distance X (mm)<br>Excess gain<br>**----- End of picture text -----**<br>


## **Diffuse reflective Models (axial) E3F2-D1** @ **4-** @ 

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100<br>10<br>1<br>0,1<br>0  0.5  1  1.5  2<br>Distance(m)<br>Excess gain<br>**----- End of picture text -----**<br>


## ■ **Incline (left and right)** ■ **Incline (up and down)** 

## ■ **Light spot vs. sensing distance** 

**Background suppression Models E3F2-LS** @ 

**Background suppression Models Background suppression Models E3F2-LS** @ **E3F2-LS** @ 

**==> picture [163 x 149] intentionally omitted <==**

**----- Start of picture text -----**<br>
20,00%<br>10,00%<br>0,00%<br>-10,00%<br>-20,00%<br>-40 -30 -20 -10 0 10 20 30 40<br>Incline Angle (˚)<br>Sensing Distence movement (%)<br>**----- End of picture text -----**<br>


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6 PTTPETTETTTTETT 20,00%<br>BESNERRE 10,00%<br>4 PTT ITN EEE ALE<br>FLTTENETETT<br>PCNAPETE 0,00%<br>2 PTETTEEE EE<br>PTTTEEE -10,00%<br>PETTETEE<br>PEEPETE E<br>0 PEE TEEPE TET ETEEET Ty -20,00%<br>0 50 100 150 -40 -30 -20 -10 0 10 20 30 40<br>Distance(mm) Incline Angle (˚)<br>Spot diameter(mm)<br>Sensing Distence movement (%)<br>**----- End of picture text -----**<br>


## ■ **Object material vs. sensing distance** 

**Background suppression Models E3F2-LS** @ 

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**----- Start of picture text -----**<br>
120,0<br>100,0<br>80,0<br>60,0<br>40,0<br>20,0<br>0,0<br>white corrugated  black SUS mirror<br>paper<br>Sensing Distance(mm)<br>**----- End of picture text -----**<br>


Photoelectric Sensors **E3F2** 

11 

## **O eration p** 

## ■ **Output Circuits** 

## **Structure of Sensor I/O Connector** 

**Classification Wire color Connector Use pin No.** ~~ee~~ DC Brown ~~ee~~ 1 Power supply ~~ee~~ (+V) ~~—~~ White ~~fo |~~ Mode selection ~~|~~ 2 Lon/Don ~~— fo | |~~ Blue 3 Power supply (0 V) ~~ee Oe eee~~ Black 4 Output ~~— Pe~~ 

**==> picture [240 x 96] intentionally omitted <==**

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1 Brown<br>2 2 White<br>3 Blue<br>8 4 Black<br>XS2F-D42#-D80-#<br>XS2F-G42#-G80-#<br>**----- End of picture text -----**<br>


## ■ **PNP Output** 

**==> picture [501 x 354] intentionally omitted <==**

**----- Start of picture text -----**<br>
Model Output transistor  Timing chart Connection  Output circuit<br>status method<br>ee E3F2-@B4-@ – – – Through-beam emitter<br>Brown 10 to 30 VDC<br>(except for E3F2-10B4-@ and  Powerindicator(red) 1<br>E3F2-LS10B4-@)<br>Main<br>circuit<br>Blue<br>3 0 V<br>Connector Pin Arrangement<br>1<br>2 4<br>3<br>ON when light is  Connect the<br>incident. (Light-ON) IncidentInterruptedOutputindicator OFFON To pink (Pin and brown (Pin  1 ) cords or 2 )  [ LightindicatorRed 44fi GreenStability indicator* ? ZD 1BrownBlack 10 to 30 VDC<br>(red) 4<br>Outputtransistor OFFON = open the pink cord (Pin  2 ). | Maincircuit ZD: VZ = 36 V 3Blue 100 mAmax. Load 0 V<br>Load Operate Pink<br>(relay) Release 2 Mode selection<br>Connector Pin Arrangement<br>* E3F2-R4B4-E3F2-D1B4-Only on models@@ and 2 13 4<br>ON when light is  Connect the<br>interrupted. (Dark-ON) IncidentInterruptedOutputindicator(red) OFFON pink (Pinand blue (Pin  3 ) cords.2 )  LightindicatorRed GreenStability indicator* 41 BrownBlack 10 to 30 VDC<br>Outputtransistor OFFON Maincircuit ZD: VZ = 36 V 3 Blue 100 mAmax. Load 0 V<br>Load Operate Pink<br>(relay) Release 2 Mode selection<br>Bl |i n ee<br>Connector Pin Arrangement<br>* E3F2-D1B4-E3F2-R4B4-Only on models@@ and 2 13 4<br>**----- End of picture text -----**<br>


Photoelectric Sensors **E3F2** 

12 

**==> picture [501 x 550] intentionally omitted <==**

**----- Start of picture text -----**<br>
Model Output transistor  Timing chart Connection  Output circuit<br>status method<br>es E3F2-10B4-@ – ee es es – Through-beam emitter<br>Test ON<br>input OFF<br>Light  ON<br>emission OFF Red<br>Indicator ON .<br>OFF =<br>ON when light is  Connect the<br>incident. (Light-ON) IncidentInterruptedOutputindicator(orange) OFFON pink (Pin and brown (Pin  1 ) cords or 2 )  OutputindicatorOrange ZD 41 BrownBlack 10 to 30 VDC<br>Outputtransistor OFFON = open the pink cord (Pin  2 ). Pf Maincircuit |arc ZD: VZ = 36 V 3 Blue 100 mAmax. Load 0 V<br>Load(relay) ReleaseOperate 2 Pink Mode selection<br>Connector Pin Arrangement<br>1<br>2 4<br>3<br>ON when light is  Connect the<br>interrupted. (Dark-ON) IncidentInterruptedOutputindicator(orange) OFFON pink (Pinand blue (Pin  3 ) cords.2 )  H OutputindicatorOrange 41 H BrownBlack 10 to 30 VDC<br>Outputtransistor OFFON Maincircuit ZD: VZ = 36 V Blue 100 mAmax. Load<br>= | 3 0 V<br>Load(relay) ReleaseOperate 2 Pink Mode selection<br>Connector Pin Arrangement<br>1<br>2 4<br>3<br>E3F2-LS10B4-@ ON when light is  Connect the<br>incident. (Light-ON) IncidentInterruptedOutputindicator(orange)Outputtransistor OFFOFFONON =].= pink (Pin and brown (Pin open the pink cord (Pin 1 ) cords or 22 ) ). |eP L OutputindicatorOrange GreenStabilityindicator* rs Maincircuit ZD: VZ = 36 VZD 413BrownBlackBlue 100 mAmax. 10 to 30 VDCLoad 0 V<br>Load(relay) ReleaseOperate 2Pink Mode selection<br>Connector Pin Arrangement<br>1<br>2 4<br>3<br>ON when light is  Connect the<br>interrupted. (Dark-ON) IncidentInterruptedOutputindicator(orange) OFFON pink (Pinand blue (Pin  3 ) cords.2 )  H OutputindicatorOrange GreenStabilityindicator* 41 ' BrownBlack 10 to 30 VDC<br>Outputtransistor OFFON Maincircuit ZD: VZ = 36 V Blue 100 mAmax. Load<br>= | 3 0 V<br>Load(relay) ReleaseOperate 2Pink Mode selection<br>Connector Pin Arrangement<br>1<br>2 4<br>3<br>**----- End of picture text -----**<br>


**Note:** Terminal numbers for connector type. 

Photoelectric Sensors **E3F2** 

13 

## ■ **NPN Output** 

|**Model**|**Output transistor**<br>**status**|**Timing chart**|**Connection**<br>**method**|**Output circuit**|
|---|---|---|---|---|
|E3F2-@C4-@<br>(except for<br>E3F2-10C4-@and<br>E3F2-LS10C4-@)|–||–|Through-beam emitter<br>Main<br>circuit<br>1<br>2<br>3<br>4<br>1<br>3<br>**Connector Pin Arrangement**<br>10 to 30 VDC<br>0 V<br>Brown<br>Blue<br>Power<br>indicator<br>(red)|
||ON when light is<br>incident.<br>(Light-ON)|Incident<br>Interrupted<br>ON<br>OFF<br>ON<br>OFF<br>Operate<br>Release<br>Output<br>indicator<br>(red)<br>Output<br>transistor<br>Load<br>(relay)<br>~~=~~|Connect the<br>pink (Pin<br>)<br>and brown<br>(Pin<br>) cords or<br>open the pink<br>cord (Pin<br>).<br>2<br>1<br>2|Output<br>indicator<br>Red<br>Main<br>circuit<br>1<br>2<br>3<br>4<br>1<br>2<br>3<br>4<br>**Connector Pin Arrangement**<br>10 to 30 VDC<br>100 mA<br>max.<br>Load<br>0 V<br>Mode selection<br>Brown<br>Black<br>Blue<br>Pink<br>ZD: VZ= 36 V<br>Stability<br>indicator*<br>Green<br>* Only on models<br>E3F2-R4C4-@and<br>E3F2-D1C4-@<br>n~~e~~|
||ON when light is<br>interrupted. (Dark-<br>ON)|Incident<br>Interrupted<br>ON<br>OFF<br>ON<br>OFF<br>Operate<br>Release<br>Output<br>indicator<br>(red)<br>Output<br>transistor<br>Load<br>(relay)<br>~~=~~|Connect the<br>pink (Pin<br>)<br>and blue<br>(Pin<br>) cords.<br>2<br>3|Output<br>indicator<br>Red<br>Main<br>circuit<br>1<br>2<br>3<br>4<br>1<br>2<br>3<br>4<br>**Connector Pin Arrangement**<br>10 to 30 VDC<br>100 mA<br>max.<br>Load<br>0 V<br>Mode selection<br>Brown<br>Black<br>Blue<br>Pink<br>ZD: VZ= 36 V<br>Stability<br>indicator*<br>Green<br>* Only on models<br>E3F2-R4C4-@and<br>E3F2-D1C4-@<br>Pane|
|E3F2-10C4-@|–|ON<br>OFF<br>ON<br>OFF<br>ON<br>OFF<br>Test<br>input<br>Light<br>emission<br>Indicator|–|Through-beam emitter<br>Red<br>eo|
||ON when light is<br>incident.<br>(Light-ON)|Incident<br>Interrupted<br>ON<br>OFF<br>ON<br>OFF<br>Operate<br>Release<br>Output<br>indicator<br>(red)<br>Output<br>transistor<br>Load<br>(relay)<br>~~—~~<br>~~=~~|Connect the<br>pink (Pin<br>)<br>and brown<br>(Pin<br>) cords or<br>open the pink<br>cord (Pin<br>).<br>2<br>1<br>2|Light<br>indicator<br>Orange<br>Main<br>circuit<br>1<br>2<br>3<br>4<br>1<br>2<br>3<br>4<br>**Connector Pin Arrangement**<br>10 to 30 VDC<br>100 mA<br>max.<br>Load<br>0 V<br>Mode selection<br>Brown<br>Black<br>Blue<br>Pink<br>ZD: VZ= 36 V<br>eo<br>|<br>L~~E~~T<br>en~~e~~|
||ON when light is<br>interrupted. (Dark-<br>ON)|Incident<br>Interrupted<br>ON<br>OFF<br>ON<br>OFF<br>Operate<br>Release<br>Output<br>indicator<br>(orange)<br>Output<br>transistor<br>Load<br>(relay)<br>~~a~~<br>~~=~~|Connect the<br>pink (Pin<br>)<br>and blue<br>(Pin<br>) cords.<br>2<br>3|Light<br>indicator<br>Orange<br>Main<br>circuit<br>1<br>2<br>3<br>4<br>1<br>2<br>3<br>4<br>**Connector Pin Arrangement**<br>10 to 30 VDC<br>100 mA<br>max.<br>Load<br>0 V<br>Mode selection<br>Brown<br>Black<br>Blue<br>Pink<br>ZD: VZ= 36 V<br>|<br>|LE~~T~~<br>n~~e~~|



Photoelectric Sensors **E3F2** 

14 

**==> picture [498 x 220] intentionally omitted <==**

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Model Output transistor  Timing chart Connection  Output circuit<br>status method<br>Sa E3F2-LS10C4-@ ON when light is incident. (Light-ON) IncidentInterruptedOutputindicator OFFON Connect the pink (Pin and brown (Pin  1 ) cords or 2 )  OutputindicatorOrange GreenStabilityindicator*Main 41 BrownBlack 100 mAmax. 10 to 30 VDCLoad<br>(red)Outputtransistor OFFON a= open the pink cord (Pin  2 ). | Ph circuit ZD o : VZ = 36 V t 3 BluePink 0 V<br>Load Operate - 2 Mode selection<br>(relay) Release Connector Pin Arrangement<br>1<br>2 4<br>3<br>ON when light is interrupted. (Dark-ON) IncidentInterruptedOutputindicator OFFON Connect the pink (Pinand blue (Pin  3 ) cords.2 )  OutputindicatorOrange GreenStabilityindicator*Main 41 BrownBlack 100 mAmax. 10 to 30 VDCLoad<br>(orange)Outputtransistor OFFON 1 circuit ZD: VZ = 36 V 3 Blue 0 V<br>Pink<br>Load Operate i Bes2 2 6 Mode selection<br>(relay) Release<br>Connector Pin Arrangement<br>1<br>2 4<br>3<br>**----- End of picture text -----**<br>


**Note:** Terminal numbers for connector type. 

## ■ **AC Output** 

**==> picture [500 x 254] intentionally omitted <==**

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Model Output transistor  Timing chart Connection  Output circuit<br>status method<br>es ee<br>E3F2-3LZ – – – Through-beam emitter<br>Brown<br>Power<br>indicator<br>(red)<br>Main 24 to 240 VAC<br>circuit<br>O o] Blue<br>E3F2-3Z1 ON when light is  –<br>E3F2-R2Z1 incident.  IncidentInterrupted _c7<br>E3F2-DS10Z1-N (Light-ON) Outputindicator OFFON _T<br>(red)<br>Output ON<br>transistor OFF Light Brown<br>indicator<br>Load(relay) ReleaseOperate = Red “UL O Black200 mAmax. Load<br>E3F2-3Z2 ON when light is  – Maincircuit Blue 24 to 240 VAC<br>E3F2-R2Z2 interrupted. (Dark- IncidentInterrupted — ea | | [Hi] [re]<br>E3F2-DS10Z2-N ON) Outputindicator OFFON<br>(red)<br>Output ON<br>transistor OFF _oT<br>Load(relay) ReleaseOperate _oT<br>**----- End of picture text -----**<br>


Photoelectric Sensors **E3F2** 

15 

**Dimensions Note: All units are in millimeters unless otherwise indicated** 

## ■ **DC-Switching Models, plastic, axial type** 

**==> picture [511 x 404] intentionally omitted <==**

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eG Cable type Connector type<br>Rs Without potentiometer<br>E3F2-7 @ E3F2-7 @ -P1<br>E3F2-10 @ E3F2-10 @  –P1<br>E3F2-R2 @ 4 E3F2-R2 @ 4-P1<br>E3F2-DS10 @ 4-N E3F2-DS10 @ 4-P1<br>E3F2-LS10 @ 4 E3F2-LS10 @ 4-P1<br>E3F2-R4 @ 4F E3F2-R4 @ 4F-P1<br>73 4.7 dia<br>64.9 4.8 dia 62<br>42.3 opticalarea 42.337 opticalarea 24<br>— 37 7 24<br>5 Light indicator<br>5 : Light indicator 4 M18x1 6g<br>4 il M18x1 6g Hl<br>8<br>8 rh |<br>Re With potentiometer<br>E3F2-DS30 @ 4 E3F2-DS30 @ 4-P1<br>E3F2-D1 @ 4 E3F2-D1 @ 4-P1<br>i+ 18<br>73<br>64.9<br>49.3 4.8 dia 62 4.7 dia<br>49.3<br>42.3 opticalarea 42.3 optical<br>37 24 37 area 24<br>5 JUL 5 Sensitivity adjustor<br>4 iil Sensitivity adjustor 4 ll Light indicator<br>8 | Light indicator 8 "| M18x1 6g<br>M18x1 6g<br>M12x1 6g 16.6 dia<br>4 dia 16.4 dia<br>22 6.2 22 6.2<br>4 dia 16.4 dia M12x1 6g 16.6 dia<br>22 6.2 22 6.2<br>**----- End of picture text -----**<br>


Photoelectric Sensors **E3F2** 

16 

■ **DC-Switching Models, plastic, radial type** 

**==> picture [511 x 385] intentionally omitted <==**

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ee Cable type Connector type<br>OO Without potentiometer<br>E3F2-R2R @ 41 E3F2-R2R @ 41-P1<br>73 4.7 dia<br>4.8 dia 62<br>64.9 optical<br>42.3 opticalarea 42.3 area 24<br>37 24 37<br>1 oe aon 5 aT} Light indicator a ii | [OF] 3.45<br>5 Light indicator 3.45 6.9 4 M18x1 6g<br>6.9 mi 4 M18x1 6g ui |<br>8<br>8<br>iu iu<br>| With potentiometer<br>E3F2-DS30 @ 41 E3F2-DS30 @ 41-P1<br>73<br>64.9<br>49.3 4.8 dia 62 4.7 dia<br>optical 49.3<br>42.337 area 24 42.337 opticalarea 24<br>5 3.45 5 Sensitivity adjustor 3.45<br>6.9 ant 4 6.9 mull 4 Light indicator<br>Sensitivity adjustor<br>8 al 8 rl M18x1 6g<br>Light indicator<br>M18x1 6g<br>13.2<br>M12x1 6g 16.6 dia<br>4 dia 16.4 dia 13.2<br>22<br>22<br>dia<br>4 dia 16.4  13.2 M12x1 6g 16.6 dia 13.2<br>22 22<br>**----- End of picture text -----**<br>


Photoelectric Sensors **E3F2** 

17 

■ **DC-Switching Models, metal (brass and stainless steel), axial type** 

**==> picture [511 x 443] intentionally omitted <==**

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GR Cable type Connector type<br>| Without potentiometer<br>E3F2-7 @ -M E3F2-7 @ -S E3F2-7 @ -M1-M E3F2-7 @ -M1-S<br>E3F2-10 @ -M E3F2-10 @ -M1-M<br>E3F2-R2R @ 4-M E3F2-R2R @ 4-S E3F2-R2R @ 4-M1-M E3F2-R2R @ 4-M1-S<br>E3F2-DS10 @ 4-M E3F2-DS10 @ 4-S E3F2-DS10 @ 4-M1-M E3F2-DS10 @ 4-M1-S<br>E3F2-LS10 @ 4-M E3F2-LS10 @ 4-M1-M<br>E3F2-R4 @ 4F-M E3F2-R4 @ 4F-M1-M<br>=FET =48<br>76<br>64.9 4.8 dia 65.5 4.8 dia<br>42.3 optical 42.3 optical<br>37 area 24 37 area 24<br>1/ ~ || ||<br>ease 4 Light indicator ates 4 Light indicator<br>M18x1 6g M18x1 6g<br>| With potentiometer<br>E3F2-DS30 @ 4-M E3F2-DS30 @ 4-S E3F2-DS30 @ 4-M1-M E3F2-DS30 @ 4-M1-S<br>E3F2-R4 @ 4-M E3F2-R4 @ 4-M1-M<br>E3F2-D1 @ 4-M E3F2-D1 @ 4-M1-M<br>FF EWE 30<br>76<br>64.9<br>65.5<br>49.3 4.8 dia<br>4.8 dia<br>49.3<br>42.3 optical<br>37 area 24 42.3 optical<br>37 area 24<br>1 “E on |] ——<br>pee 4 Sensitivity adjustor 6) Aide : |S<br>Light indicator 4 | Sensitivity adjustor<br>M18x1 6g<br>Light indicator<br>M18x1 6g<br>4 dia 16.4 dia M12x1 6g 16.4 dia<br>27.7 6.2 27.7 6.2<br>4 dia 16.4 dia<br>M12x1 6g 16.4 dia<br>27.7 6.2<br>27.7 6.2<br>**----- End of picture text -----**<br>


Photoelectric Sensors **E3F2** 

18 

## ■ **DC-Switching Models, metal (brass and stainless steel), radial type** 

**==> picture [511 x 624] intentionally omitted <==**

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ee Cable type f Connector type<br>Ce Without potentiometer<br>E3F2-R2R @ 41-M E3F2-R2R @ 41-S E3F2-R2R @ 41-M E3F2-R2R @ 41-M1-S<br>A+ Ht late—{i} :<br>76<br>64.9 4.8 dia 4.8 dia<br>42.3 optical a, 42.365.5 optical<br>37 area 24 37 area 24<br>4 tT Light indicator 6.9 ai 4 Light indicator i 3.45<br>M18x1 6g M18x1.6g<br>Re With potentiometer<br>E3F2-DS30 @ 41-M E3F2-DS30 @ 41-S E3F2-DS30 @ 41-M1-M E3F2-DS30 @ 41-M1-S<br>—i}— —ifi— —<br>b= ‘Ap<br>76<br>64.9<br>65.5<br>49.3 4.8 dia optical 49.3 4.8 dia<br>42.3 area 42.3 opticalarea<br>37 24 37 24<br>6.9 4 I Sensitivity adjustor i 3.45 6.9 4 I Sensitivity adjustor 3.45<br>Light indicator<br>Light indicator<br>M18x1 6g<br>M18x1 6g<br>■ AC-Switching Models, plastic, axial type<br>Cable type<br>Ce Without potentiometer<br>E3F2-3Z @<br>E3F2-R2Z @<br>E3F2-DS10Z @ -N<br>90<br>67.3<br>62<br>8 5 dia.<br>M18 x 1 6g<br>24<br>3.1<br> Light indicator 16.8 dia.<br>22<br>3.1 optical zone<br>4 dia 16.4 dia M12x1.6g 16.4 dia 13.2<br>27.7 6.2 27.7<br>4 dia 16.4 dia 13.2 M12x1 6g 16.4 dia 13.2<br>27.7 27.7<br>**----- End of picture text -----**<br>


Photoelectric Sensors **E3F2** 

19 

**==> picture [504 x 659] intentionally omitted <==**

**----- Start of picture text -----**<br>
■ Accessories (Order Separately)<br>Reflectors<br>E39-R1 E39-R3<br>E39-R1S 4.5 6 29 3.4<br>40.3 3.4<br>= Two, 3.5 dia. 34 7.5 7 SS(Lf R20 a 14˚ | 13.7 t<br>7 18.45<br>0.2<br>—s A +t a 22.9 pi — 20<br>0.2<br>e e r=, Fohowl Rn esoee S edoa | |<br>Saaeeantnapawha!oeas l Se 3eesesee¢ ¢ 4 11 |IN—— Adhesive tape side<br>a hee$ sa 7 L— 22.5<br>Saasmpehereneq el en wtea e d 59.9 52 ‘ SooEeo 0salll (4 le— 19.3 a Le 16 Two, 3.2 dia.<br>a Cs al a<br>Material, reflective  8 41.8 25.4 2-M3 34.8 38 R25.4 3.4 34<br>—- ro : |<br>surface: acrylicRear surface: ABS 1.6 9) Le 2.7 Material, reflective surface: acrylic 10.1 || 1.2 ==;: | UyOr| eet<br>Rear surface: ABS 2.6 mi 1.2 Cr 10˚ Stainless steel (SUS304)<br>E39-R8<br>E39-R7<br>9 100<br>litheebdleeSarddedededededededededwadviedededededededepsCdddedefoPa e trtteray 7.4 84 Wasestirie.aestaetieDERRY seeENTEyoty Tytls, cee _ OO; 92<br>bebeCRPvivisdodelbedededafedsibbebladot-lndedeleledadadvleiedafefafajsWe,Ibdebededeiadefede{edefald dltedededdededndedededhhl bleindedeleladttee tes A AESESESERESESERENESESESESESESESNLASISESISESESISESISESESENESENZASESISESESESESENESENESINZAI NINININESISESINESASS REAPERREELNeseLNAMOROUSAMORREARTereietREAELELETeiROARERAreset LEAR EAEede ELE ae tetOkRnRERoatte.Pi aeieae|eal OTEROFREEReesqatzataqatzgctaqatageteqatagctegatascteyctactege)|eostcstcastcostzstaasEontzonFOROpetzozzontcos ROOcostzoas [RORORORO] cescontext ycdnqaayctsRORORO RORcostestenstcoszoneconycnyctsscberctaqwia|RORctsctnqctayclayctayal|ORO ainratsORD ciaraOH]<br>Sea ts tedadededa [a4 NONINONONINENENENENONENENENENENN IIS TOSI TET E NY ET Sezsagatagatzyetzyetzgetayetayetzyatzyatzpetzgetzgs!<br>FOSSEESEED“hb“obbleiedbb bbdei R NARSREPbb Pbdine tbbodaaiiVewwareare,tn eeebbebadeded beledaladeeee) lodeheyae) e.,| . _- 4.5 [SSSSSSSSuS)saaaaaaesINANONONENBNENASONDSES<NANBNANENANENENANG|ASKeacerererireeiraa[SERESESESENESESESESESESEESESESESENENDYI ASANENESENESESENENESENESESENESESENESES[SASESESANEESCNENESCNENESENENESENENC|ESESENASESESESESESENESESENESENESENESENCO)pert | SARARADEEELEELEOLEELELELLAGBEEITIVISSITITINTALES PEEPLP EERELLAEPAAEE EAEEEAEPRSRR!AGRRSea4 pSqzoxtzoxszosezostconscozscézecdneciayctascbsccdqceay|PHOEastPEDOegstzestagatagatagREEepatsyatnqatsqadssadayats¢cts,ctyctnytesstasa0ssat5coat oatDOROcontcossconscesycinqataraMnretaratsecttagsOROOEEcostagstans EROROcostaetansOKOROI costal a rH [(|] } 92 100<br>hibiilPREI-I-tsbnlslvle n bodobeleer) ASSAN ENASENESENESENESIS—cNENENENENENENENES SNANTSESENESENANT NESENENESERENENESESY NEARERARAL CLAraeE RE PSquessSer SteEastSteZoStzedsete StcaS osscosqceascoaycasi cast castcostcont cos c hangezqeea costcos s<br>PbAsbedsbbewae)’beled bebeded SSSSSSSOSSSSSSSSSSSSESCSESASENENENASASENENENENESENENESEYESE ERE ERE SassERENZRERESENESENESLY SSeS essoeaaT eee st thEDéAK)a aS ELASayPreWaveY pezoS¢ZossZozycozecos,cdsqcdsqatnyctsypstostzos(otcos(oecossconecossconecésscdnecsscéay|petostzostZoztzos(Zosecos(zonecossconecésscdnecsscéay|psezostzoxtcentcozecezscossconscinycdzectsscéssctsscta}|cts ciaqatsyetsy|<br>Z NSESSSSESOSCSASSESSSSSSSSO ENESASS SOSENE ERE SSS NESER SSS SLY NOSES eeFEREE“ As)ifiM)bt_ f or M3 peezostonscosycozecescosscenscisycissctsscssc(sscts|EROxtzqezgatzgetzystzgetzyetzgstzyetzgstzpstzgsaeaoeaeateatanceeatetannteatencaeatestere) KO ORO RRO ROROORTzyet ee<br>E39-R40<br>8.7 84.5<br>TyareRaatDORONSOSAaeitiereerete))edSelte seteedee gotty Rr. teresire ii,am imtyaeYa — ereERO ROSTSROOeT 77 eT eTRO erateROOeter<br>1 CAEAEEEPEEPEtePAEELLegTMPDAEAEEEPAPALELEALE S PEEELEEEEELJORIORRBEAEPEEPEPLEAEALELELSteadEALireEORRERGAtessep D ieEEPTET EPPAGEIR ORDERORRTeteiesrLEEPER APP LEPOPTeiIGEEEPRPAEPROReTEEIORLPRLEERAhaTEeye.RPhee!Ne ROAR Te.RISA:LTE.PiORREAeeee"IRe EER)||a psqzostZostNepatzyaFROegatzyntzantzontzgntzgnpspzostZontzozscosscontceneconycsscéssctsizgatayetayatayntayntaynlayntaynlsyatayntayntayntayntsy|EostZostZostZostcosteoxtcoxtcastcostcosscestaestasstapeekozezostzoxezostzoxszonecosscozeconscescenyctsscéay| Eostcontconrcosscosscostcés;IStzesPeaEtcastostostZostcostcostenstcasicantcos‘cenpepzostZoxtzoxscozscontcenecosycsscosscossERRORFOIEostzaxteoxtontcontcontconscossctssctssctsscéectaealostzoxtoxscontcontconrcnscésscésscésizyalzyatayntaynlsyalayatayntsynlayntayntayntaynts tga tgaIRROAROozsEO cosscontceneconycisscossctss tga tageEOE tag OROtonIOItzgatagetagstaystzgstzgstsy| OOOOzantzontzntzgntzgntconts)|cts cdsecenectnycinycisyc)ROR OROEEROctsctscts ctscts IOcéseceseal cts(cta)cts(cts) OYOL(cts)| 77 84.5<br>WitsORARABEEoneSURE,tbhhe fyéi See ~fa OEReaNi eaeBaty)Pare;; teeheepipe iiatyneba4)oheecei| - for M3 pstcostZontpsqzossZossZossEostzox¢ostzos(oztcostcozsconecesscenecéssciycinqa)|)eqaeqaessxtzqstzgstzyatzystzpstzgstzyatzgatzystzyatz,atzyetsys'|Peqaesqeesseos*ossZozezozszosscenyctyc0satasatnyctgclsqcdnqalPSqeesecossEDENeecleateateatePEOFOROostzoxedoxsROOK coz osscesscoz zonOROcozscontcenrcosrcstconscessctsscts(cts) cos¢coaqcoaqciayataqstas Zos¢Zonsconqcosqaisqsesxos¢Zosqcoaqcesqatpsts,ozs zontzontcon consctascensctzcdsgceneal cosyEEERRO coneconyconyctaqctaqcbaqatsnet RO ROEREeircae RORORRORO EEEcea,cts,cess en ctsqctaqctayl ctsqctaqctaylctsqctaqctay|eeeEYER cts)Gs(@,<br>Tape Reflectors<br>E39-RS3 E39-RSA<br>80 0.6 35 0.7<br>OL ~ ON<br>ryUi Se + — —--+——— 4-<br>ESOSMANCYRAOCYPAOANAVYoyLWAAYR VAGoeCoeAOG a4 4 x R1 Reflectingsurface Adhesive tape<br>OVAOLDeVoLORAAVNEVA OSesiVVAR AVALOSRYTCVifeesUR ryYSAYeeAr.XY)§g 70 z E39-RSB > ———————————— 40 0.7<br>AY MOOS \ \ SOO po<br>CoeA 4-R1 Adhesive tape side boosoD iI<br>er<br>a eu<br>oiReAy,SeaBY ||<br>é Reflecting NN Adhesive<br>4 x R1 surface tape<br>10<br>35<br>**----- End of picture text -----**<br>


20 Photoelectric Sensors **E3F2** 

**==> picture [417 x 433] intentionally omitted <==**

**----- Start of picture text -----**<br>
Installation<br>Mounting Bracket Lens Cap<br>Y92E-B18 E39-F31<br>Glass plate<br>Metal rim Gasket E3F2<br>4 max.<br>20 dia.<br>Note: Hexagon bolt: M5 x 32<br>Material: plastic<br>Mounting Bracket<br>Y92E-G18<br>Approx. 35<br>23.5<br>20.5<br>30 M24x1.5 5<br>G9s5 |) Sensor tightening nut<br>Two tightening nuts 30<br>30 30<br>Slit (for precision detection with E3F2-10 @ )<br>E39-ES18<br>16<br>1<br>21 4<br>**----- End of picture text -----**<br>


Photoelectric Sensors **E3F2** 

21 

## **Precautions** 

The E3F2 Photoelectric Sensor is not a safety component for ensuring the safety of people which is defined in EC directive (91/368/ EEC) and covered by separate European standards or by any other regulations or standards. 

## ■ **Degree of protection** 

The E3F2 photoelectric sensors have a degree of protection rated with IP67. In this case, the sensors have passed the OMRON heat shock test before the IP67-test of IEC 60529 (submersion at 1m water depth for 30 min). Afterwards the sensors have been tested according to the OMRON waterproof test. 

- **Heat shock:** The Alternating, fast temperature changes between -25°C and +55°C are executed for 5 cycles and 1 hour for each temperature. Function and isolation are checked. 

- **Water proof:** The sensors are submerged alternating in water of +2°C and +55°C. 20 cycles with 1 hour for each temperature are executed. Function, water tightness and electrical isolation are checked. 

Do not expose the photoelectric sensor to excessive shock during installation, keeping within IP 67 standards. 

## ■ **Wiring** 

If the input/output lines of the photoelectric sensor are placed in the same conduit or duct as power lines or high-voltage lines, the photoelectric sensor could be induced to malfunction, or even be damaged by electrical noise. Separate the wiring, or use shielded lines as input/output lines to the photoelectric sensor. 

When using the photoelectric sensor in the vicinity of an inverter motor, ensure to connect the protective earth ground wire of the motor to earth. Failure to ground the motor may result in malfunction of the sensor. 

When you use the photoelectric sensor at temperatures exceeding 45°C, the load current must be within the described values as shown in the figure below. 

**==> picture [148 x 111] intentionally omitted <==**

**----- Start of picture text -----**<br>
200<br>130<br>0<br>45 55<br>Operating temperature (˚C)<br>Load current  (mA)<br>**----- End of picture text -----**<br>


## ■ **Installation** 

Do not exceed a torque of 

- 2.0 Nm (20 kgf cm) when tightening mounting nuts for plastic models 

- 20.0 Nm (200 kgf cm) when tightening mounting nuts for metal models 

Do not connect the black wire to the brown wire without a load. Direct connection of these wires may damage the photoelectric sensor (AC switching type). 

**==> picture [177 x 83] intentionally omitted <==**

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Brown<br>Load<br>Sensor 24 to 240 VAC<br>Black<br>Blue<br>**----- End of picture text -----**<br>


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## **Certain Terms and Conditions of Sale** 

1. Offer; Acceptance. These terms and conditions (these "Terms") are deemed part of all catalogs, manuals or other documents, whether electronic or in writing, relating to the sale of goods or services (collectively, the "Goods") by Omron Electronics LLC and its subsidiary companies ("Seller").  Seller hereby objects to any terms or conditions proposed in Buyer's purchase order or other documents which are inconsistent with, or in addition to, these Terms.  Please contact your Omron representative to confirm any additional terms for sales from your Omron company. 

2. Prices. All prices stated are current, subject to change without notice by Seller.  Buyer agrees to pay the price in effect at time of shipment. 

3. Discounts. Cash discounts, if any, will apply only on the net amount of invoices sent to Buyer after deducting transportation charges, taxes and duties, and will be allowed only if (i) the invoice is paid according to Seller's payment terms and (ii) Buyer has no past due amounts owing to Seller. 

4. Orders. Seller will accept no order less than $200 net billing. 

5. Governmental Approvals. Buyer shall be responsible for, and shall bear all costs involved in, obtaining any government approvals required for the importation or sale of the Goods. 

6. Taxes. All taxes, duties and other governmental charges (other than general real property and income taxes), including any interest or penalties thereon, imposed directly or indirectly on Seller or required to be collected directly or indirectly by Seller for the manufacture, production, sale, delivery, importation, consumption or use of the Goods sold hereunder (including customs duties and sales, excise, use, turnover and license taxes) shall be charged to and remitted by Buyer to Seller. 

7. Financial. If the financial position of Buyer at any time becomes unsatisfactory to Seller, Seller reserves the right to stop shipments or require satisfactory security or payment in advance.  If Buyer fails to make payment or otherwise comply with these Terms or any related agreement, Seller may (without liability and in addition to other remedies) cancel any unshipped portion of Goods sold hereunder and stop any Goods in transit until Buyer pays all amounts, including amounts payable hereunder, whether or not then due, which are owing to it by Buyer.  Buyer shall in any event remain liable for all unpaid accounts. 

8. Cancellation; Etc. Orders are not subject to rescheduling or cancellation unless Buyer indemnifies Seller fully against all costs or expenses arising in connection therewith. 

9. Force Majeure. Seller shall not be liable for any delay or failure in delivery resulting from causes beyond its control, including earthquakes, fires, floods, strikes or other labor disputes, shortage of labor or materials, accidents to machinery, acts of sabotage, riots, delay in or lack of transportation or the requirements of any government authority. 

10. Shipping; Delivery. Unless otherwise expressly agreed in writing by Seller: a. Shipments shall be by a carrier selected by Seller; 

   - b. Such carrier shall act as the agent of Buyer and delivery to such carrier shall constitute delivery to Buyer; 

   - c. All sales and shipments of Goods shall be FOB shipping point (unless otherwise stated in writing by Seller), at which point title to and all risk of loss of the Goods shall pass from Seller to Buyer, provided that Seller shall retain a security interest in the Goods until the full purchase price is paid by Buyer; 

   - d. Delivery and shipping dates are estimates only. 

   - e. Seller will package Goods as it deems proper for protection against normal handling and extra charges apply to special conditions. 

11. Claims. Any claim by Buyer against Seller for shortage or damage to the Goods occurring before delivery to the carrier must be presented in writing to Seller within 30 days of receipt of shipment and include the original transportation bill signed by the carrier noting that the carrier received the Goods from Seller in the condition claimed. 

12. Warranties. (a) Exclusive Warranty. Seller's exclusive warranty is that the Goods will be free from defects in materials and workmanship for a period of twelve months from the date of sale by Seller (or such other period expressed in writing by Seller).  Seller disclaims all other warranties, express or implied. (b) Limitations. SELLER MAKES NO WARRANTY OR REPRESENTATION, EXPRESS OR IMPLIED, ABOUT NON-INFRINGEMENT, MERCHANTABILITY OR FITNESS FOR A PARTICULAR PURPOSE OF THE GOODS. BUYER ACKNOWLEDGES THAT IT ALONE HAS DETERMINED THAT THE GOODS WILL SUITABLY MEET THE REQUIREMENTS OF THEIR INTENDED USE.  Seller further disclaims all warranties and responsibility of any type for claims or expenses based on infringement by the Goods or otherwise of any intellectual property right.  (c) Buyer Remedy. Seller's sole obligation hereunder shall be to replace (in the form originally shipped with Buyer responsible for labor charges for removal or replacement thereof) the noncomplying Good or, at Seller's election, to repay or credit Buyer an amount equal to the purchase price of the Good; provided that in no event shall Seller be responsible for warranty, repair, indemnity or any other claims or expenses regarding the Goods unless Seller's analysis confirms that the Goods were properly handled, stored, installed and maintained and not subject to contamination, abuse, misuse or inappropriate modification.  Return of any goods by Buyer must be approved in writing by Seller before shipment.  Seller shall not be liable for the suitability or unsuitability or the results from the use of Goods in combination with any electrical or electronic components, circuits, system assemblies or any other materials or substances or environments.  Any advice, recommendations or information given orally or in writing, are not to be construed as an amendment or addition to the above warranty. 

13. Damage Limits; Etc. SELLER SHALL NOT BE LIABLE FOR SPECIAL, INDIRECT OR CONSEQUENTIAL DAMAGES, LOSS OF PROFITS OR PRODUCTION OR COMMERCIAL LOSS IN ANY WAY CONNECTED WITH THE GOODS, WHETHER SUCH CLAIM IS BASED IN CONTRACT, WARRANTY, NEGLIGENCE OR STRICT LIABILITY.  Further, in no event shall liability of Seller exceed the individual price of the Good on which liability is asserted. 

14. Indemnities. Buyer shall indemnify and hold harmless Seller, its affiliates and its employees from and against all liabilities, losses, claims, costs and expenses (including attorney's fees and expenses) related to any claim, investigation, litigation or proceeding (whether or not Seller is a party) which arises or is alleged to arise from Buyer's acts or omissions under these Terms or in any way with respect to the Goods.   Without limiting the foregoing, Buyer (at its own expense) shall indemnify and hold harmless Seller and defend or settle any action brought against Seller to the extent that it is based on a claim that any Good made to Buyer specifications infringed intellectual property rights of another party. 

15. Property; Confidentiality. The intellectual property embodied in the Goods is the exclusive property of Seller and its affiliates and Buyer shall not attempt to duplicate it in any way without the written permission of Seller.  Notwithstanding any charges to Buyer for engineering or tooling, all engineering and tooling shall remain the exclusive property of Seller.  All information and materials supplied by Seller to Buyer relating to the Goods are confidential and proprietary, and Buyer shall limit distribution thereof to its trusted employees and strictly prevent disclosure to any third party. 

16. Miscellaneous. (a) Waiver. No failure or delay by Seller in exercising any right and no course of dealing between Buyer and Seller shall operate as a waiver of rights by Seller. (b) Assignment. Buyer may not assign its rights hereunder without Seller's written consent.  (c) Amendment. These Terms constitute the entire agreement between Buyer and Seller relating to the Goods, and no provision may be changed or waived unless in writing signed by the parties. (d) Severability. If any provision hereof is rendered ineffective or invalid, such provision shall not invalidate any other provision. (e) Setoff. Buyer shall have no right to set off any amounts against the amount owing in respect of this invoice.  (f) As used herein, "including" means "including without limitation". 

## **Certain Precautions on S ecifications and Use p** 

1. Suitability of Use. Seller shall not be responsible for conformity with any standards, codes or regulations which apply to the combination of the Good in the Buyer's application or use of the Good.  At Buyer's request, Seller will provide applicable third party certification documents identifying ratings and limitations of use which apply to the Good.  This information by itself is not sufficient for a complete determination of the suitability of the Good 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 this Good, nor is it intended to imply that the uses listed may be suitable for this Good: 

   - (i) Outdoor use, uses involving potential chemical contamination or electrical interference, or conditions or uses not described in this document. 

   - (ii) 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. 

   - (iii) Systems, machines and equipment that could present a risk to life or property. Please know and observe all prohibitions of use applicable to this Good. 

2. Programmable Products. Seller shall not be responsible for the user's pro gramming of a programmable Good, or any consequence thereof. 

3. 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 Seller's test conditions, and the user must corre late it to actual application requirements.  Actual performance is subject to the Seller's Warranty and Limitations of Liability. 

4. Change in Specifications. Product specifications and accessories may be changed at any time based on improvements and other reasons.  It is our prac tice to change part numbers when published ratings or features are changed or when significant construction changes are made.  However, some specifica tions of the Good may be changed without any notice.  When in doubt, specia part numbers may be assigned to fix or establish key specifications for you application.  Please consult with your Seller's representative at any time to con firm actual specifications of purchased Good. 

5. 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. 

NEVER USE THE PRODUCT 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 SELLER'S PRODUCT IS PROPERLY RATED AND INSTALLED FOR THE INTENDED USE WITHIN THE OVERALL EQUIPMENT OR SYSTEM. 

Photoelectric Sensors **E3F2** 

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**Complete “Terms and Conditions of Sale” for product purchase and use are on Omron’s website at www.omron.com/oei** – **under the “About Us” tab, in the Legal Matters section.** ~~|~~ **ALL DIMENSIONS SHOWN ARE IN MILLIMETERS.** To convert millimeters into inches, multiply by 0.03937. To convert grams into ounces, multiply by 0.03527. ~~pt~~ 

**OMRON ELECTRONICS LLC** One Commerce Drive Schaumburg, IL 60173 

**847-843-7900** For US technical support or other inquiries: 

**OMRON CANADA, INC.** 885 Milner Avenue Toronto, Ontario M1B 5V8 

**416-286-6465** 

**OMRON ON-LINE** Global - http://www.omron.com USA - http://www.omron.com/oei Canada - http://www.omron.ca 

**800-556-6766** 

Cat. No. E224-E3-04 

04/05            Specifications subject to change without notice 

Printed in USA 

Photoelectric Sensors **E3F2** 

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