E39-F18

## yf;N-Smart Presence Detection fy, Measurement ¥¢ 

## **Best Selection** 

# **Easily select the most reliable Fiber Unit for your detection conditions.** 

- 

## **New Product Information** 

Oil-resistant Fiber Unit **NEW** Smart Fiber Amplifier Units 

**E32-T11NFS** 

→ 38 Page New release of the long-awaited M4 model 

**E3NX-FA Series** 

→ 62 Page Addition of Infrared models, Analog output models and Communications models with wired outputs. \ 

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**Selection Guide** 

**04** _ **Threaded Cylindrical** ~~——~~ **Flat** ~~—~~ **Sleeved** ~~a~~ **Small Spot High Power Narrow view BGS Retroreflective Limitedreflective Chemicalresistant, Oil-resistant Bending Heatresistant Area Detection Liquid-level Vacuum FPD, Semi, Solar Installation Information** _ 

STEP **Select a Fiber Unit.** 1 sTEeP **Select a Fiber** 2 STEP **Select Accessories** 3 **Amplifier Unit and of Fiber Amplifier Select a category. Select a model. Communications Unit Fiber Unit Index 05 Category Pages 06 to61 Unit. 62 65,81 Page Page Page Page** 

**Before Selecting Fiber Units** ~~——~~ LS 

**<Specifications on Each Fiber Unit Category Page>** 

The Fiber Units specifications give the sensing distance when the Fiber Unit and Fiber Amplifier Unit is combined. Check the Fiber Amplifier Unit series for easier selection. 

## **Fiber Amplifier Unit Series** 

|||**E3X-HD Series**|**E3NX-FA Series**|
|---|---|---|---|
||Output|1 output|1 or 2 outputs (depending on the model)|
|Fiber<br>Amplifier<br>Unit<br>specifications<br>Page<br>listings<br>Sensor<br>Communications<br>Unit<br>application|External input<br>Response time<br>Ordering Information<br>Ratings and Specifications<br>Dimensions<br>Sensing distance<br>(Giga-power mode)<br>E32-D11R<br>E32-T11R<br>Minimum sensing<br>object<br>Communications method<br>(Sensor Communications Unit model)<br>Applicable Sensors<br>E32-T11R|Not supported<br>50 μs (55 μs)/250 μs/1 ms/16 ms<br>(Default: 250 μs)<br>2,000 mm<br>840 mm<br>5 μm dia.<br>EtherCAT (E3X-ECT)<br>CompoNet (E3X-CRT)<br>82 Page<br>82 Page<br>80 Page<br>Fiber Sensor (E3X-HD0)<br>Laser Photoelectric Sensor (E3C-LDA0)<br>Proximity Sensor (E2C-EDA0)|Supported or not supported (depending on the model)<br>30 μs (32 μs)/250 μs/1 ms/16 ms<br>(Default: 250 μs)<br>3,000 mm<br>1,260 mm<br>2 μm dia.<br>EtherCAT (E3NW-ECT)<br>CompoNet (E3NW-CRT)<br>CC-Link (E3NW-CCL)<br>70 Page<br>66 Page<br>64 Page<br>Fiber Sensor (E3NX-FA0/FA10/FA40/FAH0)<br>Laser Sensors (E3NC-LA0, E3NC-SA0)<br>Contact-Type Sensor (E9NC-TA0)*|



* E3NW-CRT Sensor Communications Units (CompoNet) cannot be used. 

## **Selection by Model** STEP 1 

**Search for the page in the model index.** 

**Search for the model on the corresponding pages. 100 Each Page Page** 

**04** 

**Selection Guide** 

**05** 

## **Fiber Unit Index** 

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Threaded Models Cylindrical Models Flat Models Sleeve Models<br>(Close-range Detection)<br>Standard screw-type installation. Ideal for installation in narrow  Mount directly in limited  Suitable for close-range<br>The Fiber Units is mounted  06 spaces. 10 spaces without using special  14 detection. 16<br>into a drilled hole and secured  Page The Fiber Unit is secured with  Page mounting brackets. Page Ideal for detecting minute objects  Page Threaded<br>with nuts. a set screw. in areas with limited space.<br>Beam Improvements Cylindrical<br>Small-Spot, Reflective High-power Beam Narrow View Detection without<br>Flat<br> (Minute Object Detection) (Long-distance Installation, Dust-resistant) (Detection Across Clearance) Background Interference<br>Sleeved<br>Small Spot<br>Small-spot to accurately detect  Suitable for detection on large  The Fiber Unit emit a  Detect only objects in the  High Power<br>small objects. 20 equipment, of large objects,  24 non-spreading beam to prevent  30 sensing range, and not in the  32<br>Page and in environments with  Page false detection of light reflected  Page background. Page<br>C)Mea airborne particles. off surrounding objects. C)| Narrow<br>view<br>Transparent Object Detection<br>BGS<br>Retro-reflective Limited-reflective<br>(Glass Detection) Retro-<br>reflective<br>Limited-<br>reflective<br>7<br>Chemical-<br>resistant,<br>Oil-resistant<br>Detect transparent objects reliably  The limited-reflective optical<br>because the beam passes  34 system provides stable  36<br>through the object twice, resulting  Page detection of specular reflective  Page Bending<br>in greater light interruption. glass.<br>C)<br>Heat-<br>Environmental Immunity resistant<br>Chemical-resistant, Bending-resistant,  Heat-resistant Area<br>Oil-resistant Disconnection-resistant Detection<br>Liquid-level<br>’ bg —<br>Vacuum<br>a 7 7 = _ FPD,<br>Semi,<br>Made from materials that are resistant to various oils and  38 Resistant to repeated bending on moving parts and breaking  40 Can be used in high-temperature  44 Solar<br>chemicals. Page from snagging or shock. Page environments at up to 400°C. Page<br>Installation<br>Information<br>omuseme _<br>Special Applications<br>Area Beam Liquid-level Detection Vacuum-resistant FPD, Semiconductors,<br>(Area Detection) and Solar Cells<br>Oe a te “om<br>Detect across areas for  Detect only liquid when being  Can be used under high  Designed specifically to<br>meandering materials or falling  48 mounted on tubes or in liquid. 50 vacuums of up to 10 [-5]  Pa. 52 reliably detect glass substrates  54<br>workpieces whose position  Page Page Page and wafers. Page<br>vary.<br>C) C) C) C) a<br>05<br>omron a<br>Selection  Guide<br>Fiber Units<br>Standard Installation<br>Saving Space<br>Beam Improvements<br>Transparent Objects<br>Environmental Immunity<br>Applications<br>Fiber Amplifiers,  Communications  Unit, and  Accessories<br>Technical  Guide and  Precautions<br>Model Index<br>**----- End of picture text -----**<br>


**Standard Installation** 

**06** 

> **Through-beam** → This Page **Reflective** → 08 Page 

**Threaded Cylindrical** ~~[=~~ **Flat Sleeved** : **Small Spot High Power Narrow view BGS Retroreflective** ~~ee~~ **Limitedreflective Chemicalresistant, Oil-resistant Bending Heatresistant Area Detection Liquid-level Vacuum** 

**Vacuum FPD, Semi, Solar Installation Information** 

- Standard configuration. These Fiber Units are mounted into a hole drilled in a bracket and secured with nuts. 

- The Right-angle Model prevents snagging on the cable because the cable runs along the mounting surface. 

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Hex-shaped Fiber Units with Build-in Lenses have been added to the series. (They have a right-angle shape like that of the E32-T11N shown below.) → 98 Page 

## **Specifications** 

## **Through-beam Fiber Units** 

|**Sensing**<br>**direction**<br>**(Aperture**<br>**angle)**|**Size**|**Appearance (mm)**|**Appearance (mm)**|**Bending**<br>**radius**<br>**of cable**<br>~~je~~|**Sensing distance (mm)**<br>~~PO~~|**Sensing distance (mm)**<br>~~PO~~|**Sensing distance (mm)**<br>~~PO~~|**Sensing distance (mm)**<br>~~PO~~|**Other modes**<br>**Optical axis**<br>**diameter**<br>**(minimum**<br>**sensing**<br>**object)**<br>~~PO~~<br>~~fT~~|**Optical axis**<br>**Models**|**07 Page**<br>**Dimensions**<br>**No.**|
|---|---|---|---|---|---|---|---|---|---|---|---|
||||||**E3X**~~**-**~~**HD**<br>~~PO~~<br>~~jeo=|~~<br>~~je~~||**E3NX**~~**-**~~**FA**<br>~~PO~~<br>~~je=fT~~|||||
||||||**HS**<br>**GIGA**<br>~~jeo=|~~|**Other modes**<br>~~|~~<br>~~je~~|**HS**<br>**GIGA**<br>~~je=fT~~|**Other modes**<br>~~fT~~||||
|**Right-**<br>**angle**<br>**(Approx. 60°)**|**M4**|14.7<br>M4<br>IP67<br>=a<br>~~[|~~||Flexible,<br>R1<br>~~je~~|2,000<br>700<br>~~je o= |~~|1,000<br>280<br>ST  :<br>SHS:<br>~~|~~<br>~~je~~|3,000<br>1,050<br>~~je = fT~~|1,500<br>280<br>ST  :<br>SHS:<br>~~fT~~|1 dia.<br>(5 µm dia./<br>2 µm dia.)<br>1,500<br>280<br>~~fT~~|**E32**~~**-**~~**T11N 2M**|**07-A**<br>—|
||||IP67<br>~~[|~~|||||||||
|**Top-view**<br>**(Approx. 60°)**||14<br>M4<br>IP67<br>~~[|~~<br>~~til~~<br>~~7~~||||||||**E32**~~**-**~~**T11R 2M**|**07-B**<br>_|
||||IP67<br>~~7~~|||||||||
|**Top-view**<br>**(Approx. 15°)**||IP50<br>M4<br>15<br>~~til~~<br>~~7~~<br>a||R25|4,000*<br>2,700|4,000<br>1,080<br>ST  :<br>SHS:<br>*|4,000*<br>*<br>4,000|4,000<br>1,080<br>ST  :<br>SHS:<br>*|2.3 dia.<br>(0.1 dia./<br>0.03 dia.)<br>4,000<br>1,080<br>4,000<br>920<br>*<br>*|**E32**~~**-**~~**LT11 2M**<br>22~~-~~LT11 2M<br>~~—|~~|**07-C**<br> ©|
|||||Flexible,<br>R1|*<br>4,000<br>2,300|3,500<br>920<br>ST  :<br>SHS:|*<br>4,000<br>3,450|4,000<br>920<br>ST  :<br>SHS:<br>*||**E32**~~**-**~~**LT11R 2M**<br>~~—| ~~||



- The optical fiber is 2 m long on each side, so the sensing distance is 4,000 mm. 

- **Note 1.** The following mode names and response times apply to the modes given in the Sensing distance column. 

   - [E3X-HD] GIGA: Giga-power mode (16 ms), HS: High-speed mode (250 µs), ST: Standard mode (1 ms), and SHS: Super-high-speed mode (NPN output: 50 µs, PNP output: 55 µs) [E3NX-FA] GIGA: Giga-power mode (16 ms), HS: High-speed mode (250 µs), ST: Standard mode (1 ms), and SHS: Super-high-speed mode (30 µs) 

   **2.** The values for the minimum sensing object are reference values that indicate values obtained in standard mode with the sensing distance and sensitivity set to the optimum values. The first value is for the E3X-HD and the second value is for the E3NX-FA. 

   **3.** The sensing distances for E3NX-FA are values for E3NX-FA @ models. The distances for E3NX-FAH @ infrared models are different. 

**06** 

**Standard Installation** 

**07** 

**Threaded Flat Sleeved** . **Narrow view** 

## **Dimensions** 

Installation Information → 59, 60 Page 

## **Through-beam Fiber Units (Set of 2)** 

> **07-A E32-T11N 2M** (Free Cutting) **8.4 dia.** Model display tube 2.2 dia. 5.5 2,000 4.7 **14.7** 10 (45) 

> 3 **M4×0.7** (Trivalent chrome-plated zinc alloy) Sensing surface M2.6×0.45 M4 nuts (Nickel-plated brass) and washers 1 dia. (Nickel-plated iron) provided (4 of each). ~~i~~ 

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07-B E32-T11R 2M  (Free Cutting)<br>M2.6×0.45 M4×0.7  (Nickel-plated brass)<br>Sensing surface Opposite side: 7, Thickness: 2.4 (Nickel-plated brass)<br>1 dia. Washers (Nickel-plated iron)<br>2.2 dia.<br>3<br>3.2 14 2,000<br>ot ; 07-C E32-LT11 2M  (Free Cutting)<br>E32-LT11R 2M  (Free Cutting)<br>M4×0.7 (Trivalent chrome-plated zinc alloy)<br>Lens (PMMA) Opposite side: 7, Thickness: 2.4 (Nickel-plated brass)Washers (Nickel-plated iron)<br>2.2 dia.<br>Sensing surface<br>2.3 dia. 10<br>3.2 15 2,000<br>**----- End of picture text -----**<br>


## **- Reference Information for Model Selection -** 

## **What Are Fiber Units with Build-in Lenses?** 

## **Features of the Right-angle Type** 

- Cable is less prone to snagging. 

These Fiber Units have built-in lenses. They feature high-power beams. 

- Cable runs along the mounting surface for less space compared with Top-view Fiber Units. 

You don’t have to worry about the lens falling off and getting lost. 

• The nut is attached to the Fiber Unit to reduce installation work. **What Is “Flexible” Fiber?** The flexible fiber has a small bending radius for easy routing without easily breaking. It is easy to use because the cable can be bent without significantly reducing light intensity. Cores wmCladding MMe 

Structure which has a cladding around a large number of ultrafine cores. 

**And** I **Long-distance Sensing Applications** A separate Lens Unit can be attached to extend the sensing distance. 

## **Breaking Due to Snagging or Shock** 

The Fiber Unit can be protected from breaking with stainless steel spiral tube. 

→ 26 Page 

→ 40 Page (Excluding the E32-T11N 2M.) 

**Threaded** 

**Cylindrical** 

**Small Spot** 

**High Power** 

**BGS Retroreflective Limitedreflective Chemicalresistant, Oil-resistant Bending Heatresistant** i **Area Detection Liquid-level Vacuum** 

**Liquid-level** 

**Vacuum FPD, Semi, Solar Installation Information** - 

**07** 

**Standard Installation** 

**08** 

**Through-beam** → 06 Page **Reflective** → This Page 

Top-view Type 

- Standard configuration. These Fiber Units are mounted into a hole drilled in a bracket and secured with nuts. 

- The Right-angle Model prevents snagging on the cable because the cable runs along the mounting surface. 

**Threaded** Right-angle Type Hex-shaped Fiber Units have been added to the series. (They have a right-angle shape like that of the E32-C31N shown below.) **Cylindrical** → ~~i~~ 98 Page **Flat Specifications Sleeved** ~~/~~ **Reflective Fiber Units Small Spot Sensing** ~~po~~ **Sensing distance (mm) Optical axis direction Bending diameter 09 Page (Aperture Size Appearance (mm) radius E3X-HD E3NX-FA (minimum Models Dimensions High Power angle) of cable sensing No.** ~~—~~ **GIGA HS Other modes GIGA HS Other modes object) Narrow** ~~—~~ **Coaxial** 20.5 ~~| je = | TT~~ **view M3** 110 ~~Bae~~ ST  : 50 160 ST  : 75 **E32** ~~**-**~~ **C31N 2M 09-A** M3 46 SHS: 14 69 SHS: 14 **BGS (Approx. 60°)Right-angle Coaxial** 24 IP67 Flexible,R4 1,170 ~~—~~ =m ~~2~~ 780 ST  : 350 ST  : 520 **RetroM6 E32** ~~**-**~~ **C91N 2M 09-B reflective** M6 220 SHS: 100 340 SHS: 100 ~~-=| Saaee~~ IP67 : **Limited-** ~~P~~ **reflective** ~~orro.~~ 11 Flexible, 140 ST  : 60 210 ST  : 90 **E32** ~~**-**~~ **D21R 2M 09-C** R1 40 SHS: 16 60 SHS: 16 **Chemical-** M3 ~~=|~~ **resistant,** ~~EASmEeE~~ a [| IP67 E ~~S~~ C **Oil-resistant Coaxial** 25 **M3** R25 **E32** ~~**-**~~ **C31 2M 09-D Bending** ~~OO~~ **HeatCoaxial** M3 ~~[|~~ IP67 100330 ST  :SHS: 15044 150490 ST  :SHS: 22044 (5 µm dia./2 µm dia.) **resistant** 11 ~~l=~~ R10 ~~=~~ **E32** ~~**-**~~ **C31M 1M** ~~Ie~~ **09-E Area Top-view** M3 ~~e~~ **Detection (Approx. 60°)** ~~ae~~ a [| IP67 ~~=e~~ 15 140 ST  : 60 210 ST  : 90 **Liquid-level M4** 40 SHS: 16 60 SHS: 16 **E32** ~~**-**~~ **D211R 2M 09-F** M4 ~~| EAég~~ IP67 Flexible, ~~mEeEE=Cc~~ **Vacuum** R1 1,260 17 840 ST  : 350 ST  : 520 **E32** ~~**-**~~ **D11R 2M 09-G FPD,Semi,** M6 240 SHS: 100 360 SHS: 100 | ~~ee~~ **Solar M6** ~~ae~~ A — IP67 **Coaxial** 1,400 2,100 ~~——~~ Za 23 [| ST  : 600 ST  : 900 **Installation** R25 **E32** ~~**-**~~ **CC200 2M 09-H Information** 400 SHS: 180 600 SHS: 180 ~~|~~ GE M6 IP67 1,290 860 ST  : 360 ST  : 540 R25 **E32** ~~**-**~~ **LD11 2M** 23 250 SHS: 110 370 SHS: 110 ~~|~~ **Top-view(Approx. 15°) M6** ~~24a~~ M6 1,260 0.03 dia.)(1 dia./ **09-I** Flexible, 840 ST  : 350 ST  : 520 **E32** ~~**-**~~ **LD11R 2M** R1 240 SHS: 100 360 SHS: 100 ~~meee~~ IP50 ___ **Note 1.** The following mode names and response times apply to the modes given in the Sensing distance column. ~~Bae~~ [E3X-HD] GIGA: Giga-power mode (16 ms), HS: High-speed mode (250 µs), ST: Standard mode (1 ms), and SHS: Super-high-speed mode (NPN output: 50 µs, PNP output: 55 µs) [E3NX-FA] GIGA: Giga-power mode (16 ms), HS: High-speed mode (250 µs), ST: Standard mode (1 ms), and SHS: Super-high-speed mode (30 µs) **2.** The values for the minimum sensing object are reference values that indicate values obtained in standard mode with the sensing distance and sensitivity set to the optimum values. The first value is for the E3X-HD and the second value is for the E3NX-FA. **3.** The sensing distances for Reflective Fiber Units are for white paper. (The sensing distance for the E32-LD11 2M / E32-LD11R 2M are for glossy white paper.) **4.** @ models. The distances for E3NX-FAH @ infrared models are different. 

**4.** The sensing distances for E3NX-FA are values for E3NX-FA @ models. The distances for E3NX-FAH @ infrared models are different. 

**08** 

**Standard Installation** 

**09** 

Installation Information → 58, 59 Page 

## **Dimensions** 

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Reflective Fiber Units<br>= 09-A E32-C31N 2M  (Free Cutting) . 09-E E32-C31M 1M  (Free Cutting)<br>0.5 dia. emitter fiber Model display tube Two, 1 dia. Sensing head Opposite side 5.5, thickness 1.8 (Nickel-plated brass) M3×0.5  (SUS303)<br>Four, 0.25 dia. receiver fibers (45) 0.5 dia.  Washer (Nickel-plated brass) 1 dia. emission fibers1.25 dia. reception fibers<br>2,000 emitter fiber Model display tube<br>20.5 13.5 M3×0.5  (Nickel-plated brass) ProvidedE39-F9:  Nine, 0.25 dia. receiver fibers 2.5 (45) Fiber attachment *<br>7 11 1,000<br>6.5 dia. Note: There is a white line on the emitter fiber.<br>< 5 * The Fiber Attachments that are provided were specially<br>Note: There is a white line on the emitter fiber.  designed for this Fiber Unit.<br>M3 nuts (Nickel-plated brass)  E39-F9 cannot be attached.<br>Washers (Nickel-plated brass) provided (2 of each)<br>09-F E32-D211R 2M  (Free Cutting) Threaded<br>09-B E32-C91N 2M  (Free Cutting)<br>9.75 M4×0.7  (SUS303)<br>(5.6) Sensing surfaceTwo, 0.5 dia. Opposite side 7, thickness 2.4 (Nickel-plated brass)Washer (Nickel-plated iron) Two, 1 dia. Cylindrical<br>9.75<br>9.75 2,000 (standard length) 3 E39-F9: Provided Flat<br>(45) 3.2 15 2,000<br>6<br>24 Toothed washer (nickel-plated iron) 09-G E32-D11R 2M  (Free Cutting) Sleeved<br>18 3 Hexagonal nut, Opposite side:10, Thickness: 2.4 (Nickel-plated brass)<br>2.5 dia.Sensing head,  M6 × 0.75  (Nickel-plated brass) Sensing surface Two, 1 dia.4 dia. M6×0.75 Opposite side 10, thickness 2.4 (Nickel-plated brass)Washer (Nickel-plated iron) (ZDC) Two, 2.2 dia. Small Spot<br>Si 1 dia. emitter fiber  Model display  f= ee<br>(PMMA) tube Optical fibers: Two, 2.2 dia.<br>High Power<br>Sixteen 0.265-dia. receiver fibers 4.8  3   17 2,000<br>Narrow<br>Note:  There is a white line on the emitter fiber.<br>09-H E32-CC200 2M  (Free Cutting) view<br>7 09-C E32-D21R 2M  (Free Cutting) M6×0.75  (Nickel-plated brass)<br>M3×0.5 Opposite side 5.5, thickness 1.8 (Nickel-plated brass) (SUS304) 1 dia.emitter fiber Opposite side 10, thickness 2.4 (Nickel-plated brass)Washer (Nickel-plated iron) BGS<br>Sensing surface  Washer (Nickel-plated brass) 2.5 dia. Two, 2.2 dia.<br>Two, 0.5 dia. Two, 1 dia. Retro-<br>3 reflective<br>23 2,000<br>2.5 E39-F9: Provided 5.2 Sixteen, 0.265 dia. receiver fibers Limited-<br>11 2,000 Note:  There is a white line on the emitter fiber. reflective<br>= 09-D E32-C31 2M  (Free Cutting) = 09-I E32-LD11 2M  (Free Cutting) _ Chemical-<br>M3×0.5   (SUS303) E32-LD11R 2M  (Free Cutting) Oil-resistantresistant,resistant,<br>Opposite side 5.5, thickness 1.8 (Nickel-plated brass)<br>0.5 dia. emitter fiber Washer (Nickel-plated brass)Heat-shrinkable tube Two, 1 dia. Sensing surfaceTwo, 1.5 dia. M6×0.75  Opposite side 10, thickness 2.4 (Nickel-plated brass)Washer (Nickel-plated iron)(Trivalent chrome-plated zinc alloy) Bending<br>Two, 2.2 dia.<br>Four, 0.25 dia. Heat-<br>receiver fibers 20 1 2 E39-F9: Provided resistant<br>25 2,000<br>2.5<br>Note:  There is a white line on the emitter fiber.  5   15   23 2,000 Area<br>Detection<br>- Reference Information for Model Selection - Liquid-level<br>Po Features of Coaxial Reflective Type And _<br>Vacuum<br>These Fiber Units offer better detection of small objects at close distances Breaking Due to Snagging or Shock<br> (of 2 mm or less) than Standard Reflective Fiber Units. FPD,<br>The Fiber Unit can be protected from breaking  Semi,<br>—___ They also detect glossy surfaces more reliably than Standard Reflective Fiber Units, even if the surface is tilted. _ with stainless steel spiral tube. Solar<br>The receiver fibers are arranged around  Emitter  Fiber Receiver Fibers → 42 Page<br>the emitter fiber as shown below.<br>“<br>5.5<br>Selection  Guide<br>Fiber Units<br>**----- End of picture text -----**<br>


**Sleeved Small Spot** ee **High Power Narrow view BGS Retroreflective Limitedreflective** _ **ChemicalOil-resistantresistant,resistant, Bending Heatresistant Area Detection Liquid-level** _ **Vacuum FPD, Semi, Solar** . **Installation Information** ~~=~~ 

## **What Is “Flexible” Fiber?** 

## **Features of the Right-angle Type** 

- Cable is less prone to snagging. 

Cable is less prone to snagging. The flexible fiber has a small bending radius for easy routing without easily breaking. • Cable runs along the mounting surface for It is easy to use because the cable can be bent without significantly reducing light intensity. less space compared with Top-view Fiber Units. • The nut is attached to the Fiber Unit to reduce Structure which has a Cores installation work. cladding around a large Cladding number of ultrafine cores. WN **What Are Fiber Units with Build-in Lenses?** 6 

## **What Are Fiber Units with Build-in Lenses?** 

These Fiber Units have built-in lenses. They feature high-power beams. 

You don’t have to worry about the lens falling off and getting lost. 

**09** 

**Standard Installation** 

**10** 

**Through-beam** → This Page **Reflective** → 12 Page 

**Threaded Cylindrical** 

**Flat Sleeved** 

**Small Spot High Power** ~~—~~ **Narrow view BGS Retroreflective** ~~a=a)~~ **Limitedreflective** ~~—_—_~~ **Chemicalresistant, Oil-resistant Bending Heatresistant Area Detection** 

**Liquid-level** 

**Vacuum** 

**FPD, Semi, Solar Installation Information** 

- Inserted where space is limited. (Secured using a set screw.) 

•  Ultramate space-saving by micro-fiber head. (1 dia. × 10  mm) 

secured with a set screw 

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1 dia.<br>E32-T223R 10<br>7,<br>**----- End of picture text -----**<br>


•  Side-view models can be mounted where there is limited depth. 

## **Specifications** 

## **Through-beam Fiber Units** 

|**Size**|**Sensing**<br>**direction**|**Appearance (mm)**<br>~~a~~|**Appearance (mm)**<br>~~a~~|**Bending**<br>**radius**<br>**of cable**<br>~~PO~~|**Sensing distance(mm)**<br>~~PO~~|**Sensing distance(mm)**<br>~~PO~~|**Sensing distance(mm)**<br>~~PO~~|**Sensing distance(mm)**<br>~~PO~~|**Optical axis**<br>**diameter**<br>**(minimum**<br>**sensing**<br>**object)**|**Optical axis**<br>**Models**|**11 Page**<br>**Dimensions**<br>**No.**|
|---|---|---|---|---|---|---|---|---|---|---|---|
||||||**E3X**~~**-**~~**HD**<br>~~PO~~<br>ie||**E3NX**~~**-**~~**FA**<br>~~PO~~<br>ie~~=||~~|||||
||||||**HS**<br>**GIGA**|**Other modes**<br>ie|**HS**<br>**GIGA**<br>ie~~=|~~|**Other modes**<br>~~||~~||||
|**1 dia.**|**Top-view**<br>|1 dia.<br>10<br>IP67<br>~~a~~<br>a||Flexible,<br>R1|450<br>150|250<br>60<br>ST  :<br>SHS:<br>ie|670<br>220<br>ie ~~= |~~|370<br>60<br>ST  :<br>SHS:<br>~~| |~~|0.5 dia.<br>(5 µm dia./<br>2 µm dia.)<br>~~ee~~|**E32**~~**-**~~**T223R 2M**|**11-A**|
||||IP67|||||||||
|**1.5 dia.**<br>||10<br>1.5 dia.<br>IP67<br>~~ee~~<br>a<br>_||Bendresistant,<br>R4<br>~~ee~~|680<br>220<br>~~ee~~|400<br>90<br>ST  :<br>SHS:<br>~~ee~~|1,020<br>330<br>~~ee~~|600<br>90<br>ST  :<br>SHS:<br>~~ee~~||**E32**~~**-**~~**T22B 2M**<br>~~ee~~|**11-B**<br>~~ee~~|
||||IP67<br>~~ee~~<br>_|||||||||
|**3 dia.**<br>||3 dia.<br>14<br>IP67<br> ~~ee~~<br>a<br>_<br>ae<br>~~>~~<br>~~a~~||Flexible,<br>R1<br>~~ee~~|2,000<br>700<br>~~ee~~|1,000<br>280<br>ST  :<br>SHS:<br>~~ee~~|3,000<br>1,050<br>~~ee~~|1,500<br>280<br>ST  :<br>SHS:<br>~~ee~~|1 dia.<br>(5 µm dia./<br>2 µm dia.)<br>~~ee~~|**E32**~~**-**~~**T12R 2M**<br>~~ee~~<br>E32-T12R2M|**11-C**<br>~~ee~~<br>>|
||||IP67<br>~~a~~|||||||||
||**Side-view**|IP67<br>3 dia.<br>35<br>~~>~~<br>~~a~~|||750<br>260|450<br>100<br>ST  :<br>SHS:|1,120<br>390|670<br>100<br>ST  :<br>SHS:||**E32**~~**-**~~**T14LR 2M**|**11-D**|
||||IP67|||||||||



- **Note 1.** The following mode names and response times apply to the modes given in the Sensing distance column. 

   - [E3X-HD] GIGA: Giga-power mode (16 ms), HS: High-speed mode (250 µs), ST: Standard mode (1 ms), and SHS: Super-high-speed mode (NPN output: 50 µs, PNP output: 55 µs) [E3NX-FA] GIGA: Giga-power mode (16 ms), HS: High-speed mode (250 µs), ST: Standard mode (1 ms), and SHS: Super-high-speed mode (30 µs) 

   - **2.** The values for the minimum sensing object are reference values that indicate values obtained in standard mode with the sensing distance and sensitivity set to the optimum values. The first value is for the E3X-HD and the second value is for the E3NX-FA. 

   **3.** The sensing distances for E3NX-FA are values for E3NX-FA @ models. The distances for E3NX-FAH @ infrared models are different. 

**10** 

**Standard Installation** 

**11** 

**FPD, Semi, Solar Installation Information** L ~~a~~ 

## **Dimensions** 

Installation Information → 60 Page 

## **Through-beam Fiber Units (Set of 2)** 

**==> picture [192 x 212] intentionally omitted <==**

**----- Start of picture text -----**<br>
CD) 11-A E32-T223R 2M  (Free Cutting)<br>Sensing surface 0.5 dia. 1 dia. (Stainless steel) 1 dia.<br>E39-F9: Provided<br>10 2,000<br>> 11-B E32-T22B 2M  (Free Cutting)<br>Sensing surface 4-0.25 dia. 1.5 dia.  (Nickel-plated brass) 1 dia.<br>E39-F9: Provided<br>10 2,000<br>= 11-C E32-T12R 2M  (Free Cutting)<br>Sensing surface 1 dia. 2.4 dia. 3 dia. (Nickel-plated brass) 2.2 dia.<br>><br>3 1 1<br>— 14 aa 2,000<br>**----- End of picture text -----**<br>


**==> picture [204 x 127] intentionally omitted <==**

**----- Start of picture text -----**<br>
7 11-D E32-T14LR 2M  (Free Cutting)<br>3 dia. (SUS303) Heat-shrinkable tube 2.2 dia.<br>2.8<br>—<br>3 dia. 2<br>30 12<br>et 35 2,000 |<br>Sensing surface<br>_ 7<br>**----- End of picture text -----**<br>


**==> picture [7 x 40] intentionally omitted <==**

**----- Start of picture text -----**<br>
Fiber Units<br>**----- End of picture text -----**<br>


**Threaded Cylindrical** LT **Flat** 

**Flat Sleeved** — **Small Spot** _ **High Power** oe **Narrow view BGS** _ **Retroreflective Limitedreflective** : **Chemicalresistant, Oil-resistant Bending Heatresistant** 

**Heatresistant Area Detection Liquid-level Vacuum** 

## **- Reference Information for Model Selection -** _ 

## **Recommended Mounting Hole Dimensions** 

The recommended mounting-hole dimensions for Cylindrical Fiber Units are given below. F (Unit: mm) **Outer diameter of Fiber Unit** 1 dia. 1.5 dia. 3 dia. ~~ST~~ **Dimension F** 1.2 +0.5 0 dia. 1.7 +0.5 0 dia. 3.2 +0.5 0 dia. 

**11** 

**Standard Installation** 

**12** 

**Through-beam** → 10 Page **Reflective** → This Page 

_ **Threaded Cylindrical** 

- Inserted where space is limited. 

(Secured using a set screw.) 

**==> picture [36 x 10] intentionally omitted <==**

**----- Start of picture text -----**<br>
secured with a<br>set screw<br>**----- End of picture text -----**<br>


**==> picture [551 x 557] intentionally omitted <==**

**----- Start of picture text -----**<br>
|||||||||||||||||||
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
|Flat|
|Specifications|
|Sleeved|
|;|Reflective Fiber Units|
|Small Spot|[|Sensing distance (mm)|Optical axis|
|Bending|diameter|13 Page|
|Size|directionSensing|Appearance (mm)|radius|E3X|-|HD|E3NX|-|FA|(minimum|Models|Dimensions|
|High Power|of cable|sensing|No.|
|GIGA|HS|Other modes|GIGA|HS|Other modes|object)|
|_|-|[=]]|
|Narrow|
|view|1.5 dia.|15|resistant, Bend-|140|ST  :|60|210|ST  :|90|E32|-|D22B 2M|13|-|A|
|R4|40|SHS:|16|60|SHS:|16|
|1.5 dia.|
|BGS|a|i|IP67|
|The sleeve|
|cannot|
|1.5 dia.|be bent.|15|28|ST  :|12|42|ST  :|18|
|Retro-reflective|0.5 dia.+|;|3|0.5 dia.1.5 dia.|R4|8|SHS:|4|12|SHS:|4|E32|-|D43M 1M|13|-|B|
|a=|a|:|IP67|aa|
|Limited-|
|reflective|15|Flexible,|140|ST  :|60|210|ST  :|90|E32|-|D22R 2M|13|-|C|
|R1|40|SHS:|16|60|SHS:|16|
|Chemical-|3 dia.|
|resistant,|Top-view|7|[||IP67|(5 µm dia./|
|Oil-resistant|2 µm dia.)|
|Bend-|300|ST  :|140|450|ST  :|210|
|3 dia.|15|resistant,|E32|-|D221B 2M|13|-|D|
|Bending|3 dia.|R4|90|SHS:|40|130|SHS:|40|
|a|;|:|IP67|
|Heat-|Ga|Coaxial|700|1,050|
|resistant|15|ST  :|300|ST  :|450|E32|-|D32L 2M|13|-|E|
|3 dia.|200|SHS:|90|300|SHS:|90|
|Area|
|Detection|The sleeve|ia|[||IP67|R25|
|3 dia.|cannot be bent.|20|70|ST  :|30|100|ST  :|45|
|Liquid-level|0.8 dia.+|15|3 dia.|20|SHS:|8|30|SHS:|8|E32|-|D33 2M|13|-|F|
|a|;|0.8 dia.|:|IP67|
|Vacuum|Note 1.|The following mode names and response times apply to the modes given in the Sensing distance column.|
|[E3X-HD] GIGA: Giga-power mode (16 ms), HS: High-speed mode (250 µs), ST: Standard mode (1 ms), and SHS: Super-high-speed mode (NPN output: 50 µs, PNP output: 55 µs)|
|FPD,|[E3NX-FA] GIGA: Giga-power mode (16 ms), HS: High-speed mode (250 µs), ST: Standard mode (1 ms), and SHS: Super-high-speed mode (30 µs)|
|Semi,|2.|The values for the minimum sensing object are reference values that indicate values obtained in standard mode with the sensing distance and sensitivity set to the optimum values.|
|Solar|The first value is for the E3X-HD and the second value is for the E3NX-FA.|
|3.|The sensing distances for Reflective Fiber Units are for white paper.|
|Installation|4.|The sensing distances for E3NX-FA are values for E3NX-FA|@|models. The distances for E3NX-FAH|@|infrared models are different.|
|Information|

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


**12** 

**Standard Installation** 

**13** 

Installation Information → 58, 59 Page 

— **Threaded Cylindrical** al **Flat Sleeved** — **Small Spot High Power Narrow view BGS Retroreflective Limitedreflective** 

## **Dimensions** 

## **Reflective Fiber Units** 

**==> picture [201 x 199] intentionally omitted <==**

**----- Start of picture text -----**<br>
~ 13-A E32-D22B 2M  (No Cutting)<br>Sensing surface  1.5 dia.  (SUS304) Brancher (ABS): 3.5 dia.<br>Four, 0.25 dia. 1 dia.<br>15 Fiber Attachment*<br>15 2,000 100<br>*Attached with adhesive and cannot be removed.<br>Enlarged View of Sensing Surface<br>Emitter fiber:<br>two, 0.25 dia.<br>Receiber fibers:<br>two, 0.25 dia.<br>ff<br>13-B E32-D43M 1M  (No Cutting)<br>Stainless-steel tube 0.5 dia.<br>1.5 dia.  (SUS303) 0.9 dia.<br>Sensing surface  : Protective tube Brancher 3.5: dia.<br>Four, 0.125 dia. 2.1 dia.<br>Model display tube<br>5 15 15 Fiber Attachment*<br>3 15 1,000 125<br>* Attached with adhesive and cannot be removed.<br>**----- End of picture text -----**<br>


**==> picture [169 x 59] intentionally omitted <==**

**----- Start of picture text -----**<br>
oO 13-D E32-D221B 2M  (Free Cutting)<br>Sensing surfaceTwo, four, 0.25 dia. 3 dia.  (Nickel-plated brass) Two, 1 dia.<br>E39-F9: Provided<br>15 2,000<br>**----- End of picture text -----**<br>


**==> picture [446 x 172] intentionally omitted <==**

**----- Start of picture text -----**<br>
two, 0.25 dia.<br>13-B E32-D43M 1M  (No Cutting) 13-E E32-D32L 2M  (Free Cutting)<br>Brancher (heat-resistant,<br>Stainless-steel tube 0.5 dia. ABS, black): 6 dia.<br>1.5 dia.  (SUS303) 0.9 dia. Emitter fiber:1 dia.  3 dia.  (SUS304) Two, 2.2 dia.<br>Sensing surface  : Protective tube Brancher 3.5: dia. 7<br>Four, 0.125 dia. 2.1 dia.<br>Receiver fibers:<br>Model display tube Sixteen, 0.265 dia.<br>1 5 400 15 1,570<br>5 15 15 Fiber Attachment* 2,000<br>3 15 1,000 125 Note:  There is a yellow dotted line on the Emitter fiber.<br>* Attached with adhesive and cannot be removed.<br>13-C E32-D22R 2M  (Free Cutting) 13-F E32-D33 2M  (Free Cutting)<br>CO = Stainless-steel tube<br>Sensing surface Two, 0.5 dia. 2.7 dia. 3 dia.  (Nickel-plated brass) Two, 1 dia. Sensing surfaceTwo, 0.25 dia. 0.8 dia. 3 dia.  (SUS303) Heat-shrinkable tubeTwo, 1 dia.<br>3 E39-F9: Provided 1 5 1 5 1 2 E39-F9: Provided<br>15 2,000<br>35 2,000<br>**----- End of picture text -----**<br>


**Retroreflective Limitedreflective Chemicalresistant, Oil-resistant** 

**Bending** 

**Heatresistant** 

## **- Reference Information for Model Selection -** 

## **ype** 

These Fiber Units offer better detection of small objects at close distances (of 2 mm or less) than Standard Reflective Fiber Units. They also detect glossy surfaces more reliably than Standard Reflective Fiber Units, even if the surface is tilted. The receiver fibers are arranged around the emitter fiber as shown below. Emitter fiber Receiver fibers ~~®~~ 

## **Recommended Mounting Hole Dimensions** 

The recommended mounting-hole dimensions for Cylindrical Fiber Units are given below. F Q (Unit: mm) **Outer diameter of Fiber Unit** 1.5 dia. 3 dia. ~~Se~~ **Dimension F** 1.7 +0.5 0 dia. 3.2 +0.5 0 dia. 

**Area Detection Liquid-level Vacuum FPD, Semi, Solar Installation Information** ~~=~~ 

**13** 

**Saving Space** 

**14** = **Threaded Cylindrical** ~~:~~ **Flat Sleeved** 

- Thin profile for mounting in limited spaces. 

• Mounts directly without using special mounting brackets. 

Flat-View Type 

Top-View Type 

Side-View Type 

## **Specifications** 

## **Through-beam Fiber Units** 

**Small Spot Sensing distance (mm) Optical axis Bending** ~~PO~~ **diameter 15 Page Sensing direction Appearance (mm) radius E3X** ~~**-**~~ **HD E3NX** ~~**-**~~ **FA (minimum Models Dimensions High Power of cable sensing No. GIGA HS Other modes GIGA HS Other modes object) Narrow** 2,000 3,000 ~~oe)~~ **view Top-view** ~~ee~~ 8 ST  : 1,000 1,050 ST  : 1,500 **E32** ~~**-**~~ **T15XR 2M 15-A** 3 700 SHS: 280 SHS: 280 **BGS** 15 IP67 15 ~~=— =~~ 1 dia. ~~2~~ **RetroSide-view** 3 8 1,120 (5 µm dia./2 µm dia.) **E32** ~~**-**~~ **T15YR 2M 15-B reflective** 750 ST  : 450 ST  : 670 IP67 Flexible, **Limited-** 15 R1 260 SHS: 100 390 SHS: 100 **reflective** 8 **E32** ~~**-**~~ **T15ZR 2M 15-C** 3 **Chemical-** ~~-~~ **resistant, Flat-view** IP67 ~~=|~~ **Oil-resistant** 12 2,400 3,600 **Bending** 8.53 800 ST  :SHS: 1,200300 1,200 ST  :SHS: 1,800300 0.03 dia.)(0.1 dia./3 dia. **E32** ~~**-**~~ **LT35Z 2M 15-D** IP40 ~~=e~~ **Heatresistant** 

**==> picture [562 x 267] intentionally omitted <==**

**----- Start of picture text -----**<br>
Area<br>Detection Reflective Fiber Units<br>_<br>Liquid-level PO Sensing distance (mm) Optical axis<br>Bending diameter 15 Page<br>Sensing direction Appearance (mm) radius E3X - HD E3NX - FA (minimum  Models Dimensions<br>of cable sensing  No.<br>Vacuum Ce GIGA HS Other modes GIGA HS Other modes object)<br>oe FPD,Semi,Solar Top-view 3 15 a 240 840 ST  :SHS: 350100 360 1,260 ST  :SHS: 520100 E32 - D15XR 2M 15-E<br>10<br>IP67<br>Installation<br>Information<br>= Side-view 3 15 Flexible, R1 (5 µm dia./2 µm dia.) E32 - D15YR 2M 15-F<br>— 10 IP67 200 ST  : 100 300 ST  : 150 =I<br>52 SHS: 24 78 SHS: 24<br>15<br>= Flat-view 10 E32 - D15ZR 2M 15-G<br>3 _ IP67<br>Note 1. The following mode names and response times apply to the modes given in the Sensing distance column.<br>[E3X-HD] GIGA: Giga-power mode (16 ms), HS: High-speed mode (250 µs), ST: Standard mode (1 ms), and SHS: Super-high-speed mode (NPN output: 50 µs, PNP output: 55 µs)<br>[E3NX-FA] GIGA: Giga-power mode (16 ms), HS: High-speed mode (250 µs), ST: Standard mode (1 ms), and SHS: Super-high-speed mode (30 µs)<br>_ 2. The values for the minimum sensing object are reference values that indicate values obtained in standard mode with the sensing distance and sensitivity set to the optimum values. [| =I<br>The first value is for the E3X-HD and the second value is for the E3NX-FA.<br>3. The sensing distances for Reflective Fiber Units are for white paper.<br>4. The sensing distances for E3NX-FA are values for E3NX-FA @  models. The distances for E3NX-FAH @  infrared models are different.<br>Applications<br>Fiber Amplifiers,  Communications  Unit, and  Accessories<br>Technical  Guide and  Precautions<br>Model Index<br>**----- End of picture text -----**<br>


**14** 

**Saving Space** 

**15** 

Installation Information → 58 Page 

## **Dimensions** 

Installation Information → 60 Page 

**==> picture [201 x 221] intentionally omitted <==**

**----- Start of picture text -----**<br>
Through-beam Fiber Units (Set of 2)<br>15-A E32-T15XR 2M  (Free Cutting)<br>OD<br>Two, 2.2 dia. mounting holes with<br>Sensing surface two, 4.4 dia. countersinks on both sides<br>1 dia. (Aluminum) Model display tube 2.2 dia.<br>8 1.5 5.5<br>(45)<br>2.5 7.5<br>Tee 3 15 2,000<br>Note: 1.  Set of two symmetrically shaped Fiber Units.<br>2.  Four, M2 × 8 stainless steel countersunk mounting screws are provided.<br>15-B E32-T15YR 2M  (Free Cutting)<br>Oo<br>4 (Aluminum)<br>3<br>Sensing surface Two, 2.2 dia. mounting holes with<br>two, 4.4 dia. countersinks on both sides<br>Model display tube 2.2 dia.<br>8 5.5<br>i ———<—— (45)<br>2.5 7.5<br>15 2,000<br>Note: 1.2.  Set of two symmetrically shaped Fiber Units. Four, M2 × 8 stainless steel countersunk mounting screws are provided.<br>2.  Four, M2 × 8 stainless steel countersunk mounting screws are provided.<br>**----- End of picture text -----**<br>


**==> picture [209 x 94] intentionally omitted <==**

**----- Start of picture text -----**<br>
Reflective Fiber Units<br>15-E E32-D15XR 2M  (Free Cutting)<br>Oo<br>Sensing surface (Aluminum) Two, 2.2 dia. mounting holes withtwo, 4.4 dia. countersinks on both sides Two, 2.2 dia.<br>Two, 1 dia.<br>10 2.5 7.5 Model display tube<br>7.5<br>3 2.5 (45)<br>15 2,000<br>**----- End of picture text -----**<br>


**==> picture [513 x 382] intentionally omitted <==**

**----- Start of picture text -----**<br>
3 15 2,000 3 2.5 7.5 (45)<br>15 2,000<br>Note: 1.  Set of two symmetrically shaped Fiber Units.<br>2.  Four, M2 × 8 stainless steel countersunk mounting screws are provided. Note:  Two, M2 × 8 stainless steel countersunk mounting screws are provided.<br>15-B E32-T15YR 2M  (Free Cutting)<br>Oo 15-F E32-D15YR 2M  (Free Cutting) —<br>4 (Aluminum) 2.8 2.4 Threaded<br>3<br>3<br>Sensing surface Two, 2.2 dia. mounting holes with (Aluminum)<br>two, 4.4 dia. countersinks on both sides Sensing surface Cylindrical<br>Model display tube 2.2 dia. — Two, 2.2 dia. mounting holes withtwo, 4.4 dia. countersinks on both sides Two, 2.2 dia. ;<br>8 5.5<br>i 2.5 7.5 ———<—— (45) 10 7.5 , Model display tube — — Flat<br>15 2,000<br>Note: 1.2.  Set of two symmetrically shaped Fiber Units. Four, M2 × 8 stainless steel countersunk mounting screws are provided. 2.5 7.5 (45) Sleeved<br>15 2,000<br>15-C E32-T15ZR 2M  (Free Cutting) Note:  Two, M2 × 8 stainless steel countersunk mounting screws are provided. | ** —<br>Small Spot<br>Sensing surface<br>Two, 2.2 dia. mounting holes with 15-G E32-D15ZR 2M  (Free Cutting)<br>two, 4.4 dia. countersinks on both sides<br>3 1.5 4 (Aluminum) Model display tube 2.2 dia. (Aluminum) Two, 2.2 dia. mounting holes with High Power<br>8 5.5 Sensing surface two, 4.4 dia. countersinks on both sides Two, 2.2 dia.<br>oF 2.5 L— 7.5 15 (45) 2,000 7 10 3 7.52.21.4 4 Model display tube _ Narrowview<br>Note: 1.2.  Set of two symmetrically shaped Fiber Units. Four, M2 × 8 stainless steel countersunk mounting screws are provided. 2.5 7.5 (45) BGS<br>i. a <—_—_du 15 2,000 —_<br>_ 15-D E32-LT35Z 2M  (Free Cutting) Note:  Two, M2 × 8 stainless steel countersunk mounting screws are provided. — Retro-<br> 12   2,000 reflective<br> 11<br> 3   1.75  Two, 2.2-dia. mounting holesTwo, 3.7-dia., countersinks on one side Limited-<br> 1.5  7.5±0.1 Fiber Attachment reflective<br> 2.4  Model display tube E39-F9W13<br> 8.5   6.3  Chemical-<br>Sensingsurface:  5.5  (45) Oil-resistantresistant,<br>3 dia.<br>(Polycarbonate) 1.3 dia.<br>Bending<br>(SUS303)<br>Note: 1.  Set of two symmetrically shaped Fiber Units. Heat-<br>2.  Four, M2 x 8 stainless-steel, pan-head mounting screws,  resistant<br>four spring washers, four flat washers, and four nuts are provided.<br>Fiber Units<br>Standard Installation<br>Saving Space<br>Beam Improvements<br>Transparent Objects<br>Environmental Immunity<br>**----- End of picture text -----**<br>


**==> picture [118 x 12] intentionally omitted <==**

**----- Start of picture text -----**<br>
_ 15-D E32-LT35Z 2M  (Free Cutting)<br>**----- End of picture text -----**<br>


**Area Detection** 

**Liquid-level** 

**Vacuum** 

**FPD, Semi, Solar Installation Information** ia 

**15** 

**Saving Space** 

**16** 

**Reflective** → 18 Page 

**Through-beam** → This Page 

**Vacuum FPD, Semi, Solar Installation Information** 

- Sleeve Fiber Units allow detection away from the point of installation for stable close-range detection of small objects. 

- The shape of sleeve can be changed freely. (Refer to the sleeve bending specifications in the Appearance column of the specifications table.) 

**Threaded** 

**Cylindrical** 

**Flat** 

## **Sleeved** 

**Small Spot** 

**High Power Narrow view BGS** ~~=~~ **Retro-** ~~_~~ **reflective** ~~a~~ **Limitedreflective Chemicalresistant, Oil-resistant** ~~—_—~~ **Bending Heatresistant Area Detection Liquid-level Vacuum** 

## **Specifications** 

## **Through-beam Fiber Units** 

|**Top-view**<br>**Side-view**<br>**Sensing direction**|M3<br>0.82 dia.<br>15<br>15<br>2.5dia.<br>0.81dia.<br>15<br>15<br>2dia.<br>1dia.<br>15<br>20<br>0.5 dia.<br>3 dia.<br>40<br>15<br>**Appearance (mm)**<br>IP67<br>IP67<br>IP67<br>IP67<br>M4<br>1.2 dia.<br>90<br>11<br>IP67<br>Sleeve bending radius:<br>5 mm<br>The sleeve cannot<br>be bent.<br>The sleeve cannot<br>be bent.<br>The sleeve cannot<br>be bent.<br>The sleeve cannot<br>be bent.<br>Se<br>[<br>7a<br>a <br>a~~PA~~|M3<br>0.82 dia.<br>15<br>15<br>2.5dia.<br>0.81dia.<br>15<br>15<br>2dia.<br>1dia.<br>15<br>20<br>0.5 dia.<br>3 dia.<br>40<br>15<br>**Appearance (mm)**<br>IP67<br>IP67<br>IP67<br>IP67<br>M4<br>1.2 dia.<br>90<br>11<br>IP67<br>Sleeve bending radius:<br>5 mm<br>The sleeve cannot<br>be bent.<br>The sleeve cannot<br>be bent.<br>The sleeve cannot<br>be bent.<br>The sleeve cannot<br>be bent.<br>Se<br>[<br>7a<br>a <br>a~~PA~~|Flexible,<br>R1<br>R10<br>**Bending**<br>**radius**<br>**of cable**<br>Flexible,<br>R1<br>~~po~~<br>~~a~~<br>Se ~~F~~<br>~~2~~<br> ~~Ee~~<br>~~PA~~|**Sensing distance (mm)**<br>~~po~~|**Sensing distance (mm)**<br>~~po~~|**Sensing distance (mm)**<br>~~po~~|**Sensing distance (mm)**<br>~~po~~|0.5 dia.<br>(5 µm dia./<br>2 µm dia.)<br>0.25 dia.<br>(5 µm dia./<br>2 µm dia.)<br>0.5 dia.<br>(5 µm dia./<br>2 µm dia.)<br>**Optical axis**<br>**diameter**<br>**(minimum**<br>**sensing**<br>**object)**<br>1 dia.<br>(5 µm dia./<br>2 µm dia.)<br> ~~e~~<br>~~Ee~~<br>~~PA~~<br>e|**E32**~~**-**~~**T24R 2M**<br>**E32**~~**-**~~**T24E 2M**<br>**E32**~~**-**~~**T33 1M**<br>**E32**~~**-**~~**T21**~~**-**~~**S1 2M**<br>**Optical axis**<br>**Models**<br>**E32**~~**-**~~**TC200BR 2M**<br>~~e~~e<br>~~Ee~~<br>~~PA~~<br>e~~e~~|**17-A**<br>**17-B**<br>**17-C**<br>**17-D**<br>**17 Page**<br>**Dimensions**<br>**No.**<br>**17-E**<br>-<br>e|
|---|---|---|---|---|---|---|---|---|---|---|
|||||**E3X**~~**-**~~**HD**<br>~~po~~<br>~~a~~o~~=|~~||**E3NX**~~**-**~~**FA**<br>~~po~~<br>|||||
|||||510<br>170<br>450<br>150<br>170<br>50<br>150<br>50<br>2,000<br>700<br>**HS**<br>**GIGA**<br>~~a~~ o~~=~~ <br>~~F~~P<br>~~2~~<br>~~Ee~~<br>~~PA~~<br>—i|100<br>20<br>ST  :<br>SHS:<br>250<br>60<br>ST  :<br>SHS:<br>90<br>20<br>ST  :<br>SHS:<br>300<br>68<br>ST  :<br>SHS:<br>1,000<br>280<br>ST  :<br>SHS:<br>**Other modes**<br> ~~|jee~~<br>P<br>~~2~~<br>~~Ee~~<br>~~PA~~<br>i—|760<br>250<br>670<br>220<br>250<br>75<br>220<br>75<br>3,000<br>1,050<br>**HS**<br>**GIGA**<br>~~jee~~<br>~~2~~<br>~~Ee~~<br>~~PA~~<br>—|150<br>20<br>ST  :<br>SHS:<br>370<br>60<br>ST  :<br>SHS:<br>130<br>20<br>ST  :<br>SHS:<br>450<br>68<br>ST  :<br>SHS:<br>1,500<br>280<br>ST  :<br>SHS:<br>**Other modes**<br>~~jee~~<br>~~2~~ <br>~~Ee~~<br>~~PA~~<br>e||||
|||IP67<br>~~PA~~|||||||||



**2.** The values for the minimum sensing object are reference values that indicate values obtained in standard mode with the sensing distance and sensitivity set to the optimum values. The first value is for the E3X-HD and the second value is for the E3NX-FA. 

**3.** The sensing distances for E3NX-FA are values for E3NX-FA @ models. The distances for E3NX-FAH @ infrared models are different. 

**16** 

**Saving Space** 

**17** 

## **Dimensions** 

Installation Information → 60, 61 Page 

## **Through-beam Fiber Units (Set of 2)** 

**==> picture [168 x 74] intentionally omitted <==**

**----- Start of picture text -----**<br>
17-A E32-T24R 2M  (Free Cutting)<br>Stainless-steel tube<br>1 dia.<br>2 dia.  (SUS304) Heat-shrinkable tube<br>1.4 dia. 1 dia.<br>Sensing<br>surface E39-F9: Provided<br>1.25<br>15 15 1 2<br>35 2,000<br>**----- End of picture text -----**<br>


## 

~~~~~ **17-B E32-T24E 2M** (Free Cutting) 

**==> picture [159 x 51] intentionally omitted <==**

**----- Start of picture text -----**<br>
Stainless-steel tube<br>0.81 dia.<br>Model display tube<br>2.5 dia.  (SUS304)<br>2.3 1 dia.<br>2.5 dia Sensing<br>surface (45) E39-F9: Provided<br>0.6<br>15 15 2,000<br>**----- End of picture text -----**<br>


**Threaded Cylindrical** 

**Flat** 

> **17-C E32-T33 1M** (Free Cutting) 

**Sleeved** 

**==> picture [135 x 52] intentionally omitted <==**

**----- Start of picture text -----**<br>
Sensing surface  3 dia.  (SUS303)<br>0.25 dia. Heat-shrinkable tube<br>0.5 dia. 1 dia.<br>40 10 12 E39-F9: Provided<br>55 1,000<br>**----- End of picture text -----**<br>


**Small Spot** 

**High Power** 

> **17-D E32-T21-S1 2M** (Free Cutting) 

**==> picture [158 x 54] intentionally omitted <==**

**----- Start of picture text -----**<br>
M3×0.5  (Nickel-plated brass)<br>Sensing surface Stainless-steel tube 0.82 dia. Opposite side 5.5, thickness 1.8 (Nickel-plated brass)<br>0.5 dia. Washer (Nickel-plated iron)<br>1 dia. E39-F9: Provided<br>2.5 15 15 2,000<br>**----- End of picture text -----**<br>


> **17-E E32-TC200BR 2M** (Free Cutting) CO 

**==> picture [169 x 61] intentionally omitted <==**

**----- Start of picture text -----**<br>
M4×0.7  (coarse thread)<br>Sensing surface  (Nickel-plated brass)<br>1 dia. Opposite side 7,<br>Stainless-steel tube1.2 dia. max. thickness 2.4 (Nickel-plated brass)Washer (Nickel-plated iron)<br>(SUS304) 2.2 dia.<br> 90 11 2,000<br>3.2<br>**----- End of picture text -----**<br>


**Narrow view** 

**BGS** 

**Retroreflective** 

**Limitedreflective Chemical-** —— **resistant, Oil-resistant** 

**Bending** 

**Heatresistant** 

**Area Detection** 

**Liquid-level** 

**Vacuum** 

**- Reference Information for Model Selection -** LT ~~eo~~ **In case of bending sleeve** The E32-TC200BR has a bendable sleeve. Use the Sleeve Bender to bend them. 

**Sleeve Bender (sold separately)** 

**Appearance Applicable Fiber Units Model** Uses for the bending E32-TC200BR **E39-F11** of the sleeve. ~~oo~~ 

**FPD, Semi, Solar Installation Information** La 

**17** 

**Saving Space** 

**18** 

**Through-beam** → 16 Page **Reflective** → This Page 

**Threaded Cylindrical** 

- Sleeve Fiber Units allow detection away from the point of installation for stable close-range detection of small objects. 

- The shape of sleeve can be changed freely. (Refer to the sleeve bending specifications in the Appearance column of the specifications table.) 

|**Sensing direction**|**Appearance (mm)**|**Appearance (mm)**|**Bending**<br>**radius**<br>**of cable**<br>~~P~~<br>~~eo=~~|**Sensing distance(mm)**<br>~~PO~~|**Sensing distance(mm)**<br>~~PO~~|**Sensing distance(mm)**<br>~~PO~~|**Sensing distance(mm)**<br>~~PO~~|**Optical axis**<br>**diameter**<br>**(minimum**<br>**sensing**<br>**object)**|**Optical axis**<br>**Models**|**19 Page**<br>**Dimensions**<br>**No.**|
|---|---|---|---|---|---|---|---|---|---|---|
|||||**E3X**~~**-**~~**HD**<br>**Other modes**<br>**HS**<br>**GIGA**<br>~~PO~~<br>~~eo=|~~<br>~~je~~||**Other modes**<br>**HS**<br>**GIGA**<br>**E3NX**~~**-**~~**FA**<br>~~O~~<br>~~je~~<br>~~=fC~~|||||
|**Side-view**|3 dia.<br>2 dia.<br>15<br>20<br>IP67<br>The sleeve<br>cannot<br>be bent.<br>~~Eng~~<br>[|||Flexible,<br>R1<br>~~eo=~~<br>~~Eng~~|70<br>20<br>~~eo= ~~<br>~~Eng~~|30<br>8<br>ST  :<br>SHS:<br> ~~|~~<br>~~je~~<br>~~Eng~~|100<br>30<br>~~je~~<br>~~= fC~~<br>~~Eng~~|45<br>8<br>ST  :<br>SHS:<br>~~fC~~<br>~~Eng~~|(5 µm dia./<br>2 µm dia.)<br>~~Eng~~<br>~~| ~~<br>~~|~~<br>~~ece~~<br>~~-~~<br>~~a~~<br>~~Bac~~|**E32**~~**-**~~**D24R 2M**<br>~~Eng~~|**19-A**<br>~~Eng~~|
|||IP67<br>~~Eng~~<br>[||||||||||
||4.8 dia.<br>2.1 dia.<br>65<br>15<br>IP67<br>Sleeve bending<br>radius:<br>25 mm<br>~~Eng~~<br>[|<br>E<br>~~\~~<br>~~[|~~<br>~~ea~~||R25<br>~~Eng~~<br>E~~éa~~<br>~~[|~~<br>|120<br>45<br>~~Eng~~<br>~~éa~~<br>|53<br>14<br>ST  :<br>SHS:<br>~~Eng~~<br>~~éa~~<br>|180<br>67<br>~~Eng~~<br>~~éa~~<br>|79<br>14<br>ST  :<br>SHS:<br>~~Eng~~<br>~~éa~~<br>~~|~~||**E32**~~**-**~~**D24**~~**-**~~**S2 2M**<br>~~Eng~~<br>~~NEW~~<br>~~=~~|**19-B**<br>~~Eng~~<br>~~ec~~<br>~~Je~~|
|||IP67<br>E<br>~~[|~~|||||||||
|**Top-view**<br>i~~e?~~<br>~~-~~<br>~~a~~|IP67<br>The sleeve cannot<br>be bent.<br>1.5 dia.<br>0.5 dia.<br>15<br>3<br>E<br>~~\~~<br>~~[|~~<br>~~ea~~<br>~~=~~<br>~~e?~~||R4<br>E~~éa~~<br>~~[|~~<br>~~For~~<br> ~~Pt~~<br>~~24g~~|28<br>8<br>~~éa~~<br>~~For~~<br>|12<br>4<br>ST  :<br>SHS:<br>~~éa~~<br>~~For~~<br>|42<br>12<br>~~éa~~<br>~~For~~<br>|18<br>4<br>ST  :<br>SHS:<br>~~éa~~<br>~~For|~~<br>~~|~~||**E32**~~**-**~~**D43M 1M**<br>~~NEW~~<br>~~=~~|**19-C**<br>~~ec~~<br>~~Je~~<br>~~Te~~|
|||IP67<br>~~[|~~<br>~~=~~<br>~~e?~~|||||||||
||2 dia.<br>0.5 dia.<br>15<br>15<br>IP67<br>The sleeve cannot<br>be bent.<br>~~\~~<br>~~[|~~<br>~~ea~~<br>~~= ~~<br>~~e?~~<br>~~24g~~|||14<br>4<br>~~For~~<br>~~Pt~~<br>~~e8~~|6<br>2<br>ST  :<br>SHS:<br>~~For~~<br>~~Pt~~<br>~~e8~~|21<br>6<br>~~For~~<br>~~Pt~~<br>~~e8~~|9<br>2<br>ST  :<br>SHS:<br>~~For|~~<br>~~Pt|~~<br>~~e8e~~||**E32**~~**-**~~**D331 2M**<br>~~NEW~~<br> ~~=~~<br>~~ce~~|**19-D**<br>~~Je~~<br>~~Te~~<br>~~ce~~|
|||IP67<br> <br>~~e?~~<br>~~24g~~|||||||||
||3 dia.<br>0.8 dia.<br>20<br>15<br>IP67<br>The sleeve<br>cannot<br>be bent.<br> <br>~~e?~~<br>~~24g~~<br>a<br>_||R25<br> ~~Pt~~<br>~~24g~~|70<br>20<br>~~Pt~~<br>~~e8~~|30<br>8<br>ST  :<br>SHS:<br>~~Pt~~<br>~~e8~~|100<br>30<br>~~Pt~~<br>~~e8~~|45<br>8<br>ST  :<br>SHS:<br>~~Pt|~~<br>~~e8e~~||**E32**~~**-**~~**D33 2M**<br>~~ce~~|**19-E**<br>~~Te~~<br>~~ce~~|
|||IP67<br>~~24g~~<br>_|||||||||
||IP67<br>The sleeve<br>cannot<br>be bent.<br>3 dia.<br>0.82 dia.<br>5<br>15<br>~~24g~~<br>a<br>_<br>~~-~~<br>~~a~~<br>~~<~~<br>~~[J~~||R4<br>~~24g ~~<br>~~-~~<br>~~a~~|63<br>18<br> ~~e8~~<br>~~-~~<br>~~a~~|27<br>7<br>ST  :<br>SHS:<br>~~e8~~<br>~~-~~<br>~~a~~|94<br>27<br>~~e8~~<br>~~-~~<br>~~a~~|40<br>7<br>ST  :<br>SHS:<br>~~e8e~~<br>~~-~~<br>~~a~~||**E32**~~**-**~~**D32**~~**-**~~**S1 0**~~**.**~~**5M**<br>~~ce~~<br>~~-~~<br>~~a~~<br>~~NEW~~|**19-F**<br>~~ce~~<br>~~-:~~<br>~~a~~|
|||IP67<br>~~a~~<br>~~[J~~|||||||||
||IP67<br>The sleeve<br>cannot<br>be bent.<br>M3<br>0.82 dia.<br>15<br>15<br>~~a~~<br>~~<~~<br>~~[J~~||||||||**E32**~~**-**~~**D31**~~**-**~~**S1 0**~~**.**~~**5M**<br>~~a~~<br>~~NEW~~|**19-G**<br>~~a~~<br>:|
|||IP67|||||||||
||M3<br>1.2 dia.<br>40<br>11<br>IP67<br>Sleeve bending<br>radius:<br>5 mm<br>~~én~~<br>~~a~~<br>~~[_]~~||Flexible,<br>R1<br>~~én~~<br>~~[_]~~|140<br>40<br>~~én~~|60<br>16<br>ST  :<br>SHS:<br>~~én~~|210<br>60<br>~~én~~|210<br>90<br>16<br>ST  :<br>SHS:<br>~~én~~||**E32**~~**-**~~**DC200F4R 2M**|**19-H**<br>~~:~~<br>~~oe~~|
|||IP67<br>~~én~~<br>~~[_]~~|||||||||
||IP67<br>The sleeve<br>cannot<br>be bent.<br>1.65dia.<br>22<br>15<br>4dia.<br>~~én~~<br>~~a~~<br>~~[_]~~<br>~~a~~<br>~~_~~||R10<br>~~én~~<br>~~[_]~~<br>~~[|~~|250<br>72<br>~~én~~|110<br>30<br>ST  :<br>SHS:<br>~~én~~|370<br>100<br>~~én~~|160<br>30<br>ST  :<br>SHS:<br>~~én~~||**E32**~~**-**~~**D22**~~**-**~~**S1 2M**<br>~~eve~~|**19-I**<br>~~:~~<br>~~oe~~<br>~~-~~<br>~~eve~~|
|||IP67<br>~~_~~|||||||||
||IP67<br>Sleeve bending<br>radius:<br>10 mm<br>1.65dia.<br>67<br>16<br>M4<br>~~a~~<br>~~_~~<br>~~a~~<br>~~[|~~||||||||**E32**~~**-**~~**D21**~~**-**~~**S3 2M**<br>~~eve~~<br>~~=~~|**19-J**<br>~~-~~<br>~~eve~~<br>~~:~~|
|||IP67<br>~~[|~~|||||||||
||IP67<br>2.5dia.<br>M6<br>90<br>17<br>The sleeve<br>cannot<br>be bent.<br>~~a~~<br>~~[|~~<br>~~eo~~||Flexible,<br>R1<br>~~[|~~<br>~~eo~~|840<br>240|350<br>100<br>ST  :<br>SHS:<br>~~=~~|1,260<br>360<br>~~=~~|1,260<br>520<br>100<br>ST  :<br>SHS:||**E32**~~**-**~~**DC200BR 2M**<br>~~=~~|**19-K**<br>~~:~~<br>~~:~~|
|||IP67<br>~~eo~~|||||||||
||IP67<br>Sleeve bending<br>radius:<br>10 mm<br>1.65dia.<br>67<br>15<br>10<br>3<br>~~eo~~<br>~~Bac~~||R10<br>~~eo~~<br>~~Bac~~|250<br>72<br>~~Bac~~|110<br>30<br>ST  :<br>SHS:<br>~~=~~<br>~~Bac~~|370<br>100<br>~~=~~<br>~~Bac~~|160<br>30<br>ST  :<br>SHS:<br>~~Bac~~||**E32**~~**-**~~**D25**~~**-**~~**S3 2M**<br>~~Bac~~|**19-L**<br>~~:~~<br>~~Bac~~|
|||IP67<br>~~eo~~<br>~~Bac~~|||||||||



**3.** The sensing distances for Reflective Fiber Units are for white paper. **4.** The sensing distances for E3NX-FA are values for E3NX-FA @ models. The distances for E3NX-FAH @ infrared models are different. 

**18** 

**19** 

**Threaded Cylindrical Flat Sleeved** LT **Small Spot High Power** ee **Narrowview view BGS** ee **Retroreflective Limitedreflective Chemical-resistant, resistant, Oil-resistantChemical-resistant, Bending Heatresistant Area Detection Liquid-level** a **Vacuum FPD, Semi, Solar Installation Information** ~~a~~ 

## **Saving Space** 

## **Dimensions** 

**==> picture [143 x 9] intentionally omitted <==**

**----- Start of picture text -----**<br>
Installation Information  → 58, 59 Page<br>**----- End of picture text -----**<br>


## **Reflective Fiber Units** 

**==> picture [540 x 528] intentionally omitted <==**

**----- Start of picture text -----**<br>
= 19-A E32-D24R 2M  (Free Cutting) Oo 19-G E32-D31-S1 0.5M  (No Cutting)<br>Stainless-steel tube 2 dia.<br>Heat-shrinkable tube Stainless-steel tube 0.82 dia.<br>3 dia.  (SUS304) Two, 1 dia. M3×0.5  (Nickel-plated brass)<br>Sensing surface Opposite side 5.5, thickness 1.8 (Nickel-plated brass) Brancher: 3.5 dia.<br>1.25 Two, 0.265 dia. Washer (Nickel-plated iron) Fiber Attachment *<br>E39-F9: Provided Optical fiber 1.2 dia.<br>15 1 5 12<br>35 2,000<br>Light baffle Sensing surface 2.5 15 15 15500 100<br>*Attached with adhesive and cannot be removed.<br><> 19-B E32-D24-S2 2M  (Free Cutting) aS 19-H E32-DC200F4R 2M  (Free Cutting) ——<br>Threaded<br>Stainless-steel tube 2.1 dia. 4.8 dia. (SUS304) Two, 2.2 dia. Stainless-steel tube1.2 dia. max. (SUS304) Opposite side 5.5, thickness 1.8 (Nickel-plated brass) M3×0.5  (SUS304)<br>Sensing surface Washer (Nickel-plated brass)<br>Two, 0.5 dia. Two, 1 dia. Cylindrical<br>3.55 Sensing surface<br>65 15 2,000<br>E39-F9: Provided<br>2.5 40 11 2,000 Flat<br>a 19-C E32-D43M 1M  (No Cutting) T ee<br>Stainless-steel tube 0.5 dia. 19-I E32-D22-S1 2M  (Free Cutting) Sleeved<br>1.5 dia.  (SUS303) 0.9 dia.<br>Sensing surface Four, 0.125 dia. Protective tube2.1 dia. Brancher: 3.5 dia. ~ Stainless-steel tube 1.65 dia. 4 dia.  (SUS303) Optical fiber Two, 1 dia. E39-F9: Provided LT<br>Model display tube<br>2 Small Spot<br>5 15 15 Fiber Attachment * 22 15 2000<br>3 15 1,000 125 Sensing surface Two, 0.5 dia.<br>*Attached with adhesive and cannot be removed. High Power<br>ee<br>CD) 19-D Sensing surface Two, 0.125 dia. E32-D331 2M  (No Cutting)Stainless-steel tube0.5 dia. 2 dia.  (SUS303) 1.2  dia. Irrax tubeBrancher: 3.5 dia. O Sensing surface Two, 0.5 dia. 19-J E32-D21-S3 2M  (Free Cutting) M4×0.7  Opposite side 7, thickness 2.4 (Nickel-plated brass) (Nickel-plated brass) E39-F9: Provided Narrowview<br>Washer (Nickel-plated iron) BGS<br>ay Aer  7 A oe Stainless-steel tube 1.65 dia. Optical fiber Two, 1 dia. ee<br>15<br>15 15 2,000 100 2 Retro-<br>TESS Fiber Attachment * het 3.2 67 15 2000 reflective<br>*Attached with adhesive and cannot be removed.<br>Limited-<br>reflective<br>- 19-E E32-D33 2M  (Free Cutting) 19-K E32-DC200BR 2M  (Free Cutting)<br>Stainless-steel tube<br>Sensing surface Two, 0.25 dia. 0.8 dia. 3 dia.  (SUS303) Heat-shrinkable tubeTwo, 1 dia. Sensing surface Stainless-steel tube2.5 dia. max.(SUS304) M6×0.75 (Nickel-plated brass) (fine thread)Opposite side 10,thickness 2.4 (Nickel-plated brass) Oil-resistantChemical-resistant,<br>Two, 1 dia. Washer (Nickel-plated iron)<br>1 5 1 5 1 2 E39-F9: Provided Two, 2.2 dia. Bending<br>35 2,000<br>Heat-<br>2 19-F E32-D32-S1 0.5M  (No Cutting) i= 5.2 90 17 2,000 resistant<br>Stainless-steel tube 0.82 dia.<br>3 dia. (SUS303) 1.2 dia. Brancher: 3.5 dia.Fiber Attachment * Area<br>19-L E32-D25-S3 2M  (Free Cutting) Detection<br>(Nickel-plated brass)<br>a 5 15 15500 100 - 3 Stainless-steel tube 1.65 dia. Two, 1 dia. 10 E39-F9: Provided a Liquid-level<br>Sensing surface<br>Two, 0.265 dia. *Attached with adhesive and cannot be removed.<br>2 2.75 9.5 3 Vacuum<br>67 15 2000 FPD,<br>Sensing surface Two, 0.5 dia.<br>1.3 dia.<br>1.3 dia.<br>1.3 dia. Two, 3.4 dia.<br> mounting holes<br>Selection  Guide<br>Fiber Units<br>Standard Installation<br>Saving Space<br>Beam Improvements<br>Transparent Objects<br>Environmental Immunity<br>3<br>Applications<br>**----- End of picture text -----**<br>


## **- Reference Information for Model Selection -** [Si 

## **In case of bending sleeve** 

The E32-DC200F4R , E32-D21-S3 and E32-D25-S3 have bendable sleeves. Use the Sleeve Bender to bend them. 

**Sleeve Bender (sold separately) Appearance Applicable Fiber Units Model** E32-DC200F4R Uses for the bending E32-D21-S3 **E39-F11** ~~oo.~~ of the sleeve. E32-D25-S3 ~~|~~ 

**19** 

**Beam Improvements** 

**20** 

**Small-Spot, Reflective (Minute Object Detection)** 

**Variable-spot, Parallel-light-spot, Integrated lens** → This Page 

**Small-spot Lens Unit** → 22 Page 

**==> picture [558 x 759] intentionally omitted <==**

**----- Start of picture text -----**<br>
|||||||||||||||||||||||||||||
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
|•  Small-spot is ideal for detecting minute objects.|
|Select the Fiber Unit that is best suited for the workpiece size and installation|
|distance.|
|(Refer to Reference Information for Model Selection)|
|•  Available with a variable-spot Lens Unit to change the spot diameter without  Available with a variable-spot Lens Unit to change the spot diameter without|
|replacing the fiber. The spot diameter can be adjusted according to the size of|
|the workpiece by changing the withdrew length and sensing distance.|
|Refer to the following graph, which shows the relation between the withdrew|
|length, focal distance, and spot diameter.|
|E39-F3A +|16|: Spot diameter (mm)|E39-F17 +|40|: Spot diameter (mm)|
|E32-C42|141212|E32-C42|3530|1.6|0.9|
|——|Threaded|ow|Withdrew length: Longlength: Long|zz|Withdrew length: Shortlength: Short|10864864644|PFRPRPP|0.220.170.17||PYPY|0.13ll|0.10|||d0.08|O|tt|||fy|Withdrew length: Longlength: Long|as|Withdrew length: Shortlength: Short|25201510|1|on|||on||on||||||l|d||Ml\iMl\i\ico|4|0.6|co|4|0.3|
|Focal distance:|2|Fiber|I: Withdrew length|Focal distance:|5|Fiber|[[I: Withdrew length]]|
|Cylindrical|Focal distance:ShortSpot: SmallShortSpot: SmallSpot: Small|LongSpot: LargeSpot: Large|0|4|Withdrew length I  (mm)d: Focal distance8|12|16|20|Focal distance:ShortSpot: SmallShortSpot: SmallSpot: Small|LongSpot: LargeSpot: Large|000|Withdrew length I  (mm)2d: Focal distance4|6|
|* Withdrew length: Approx. 1.3 to 5.8 mm|
|Flat|
|Specifications|
|Sleeved|
|Reflective Fiber Units|
|Small Spot|Variable-spot types|
|Lens Units + Fiber Unit|
|High Power|Center|Lens Units|Lens Units + Fiber Units|Fiber Unit|21 Page|
|Narrow|Type|diameterSpot|distance (mm)|Models|Appearance (mm)|radius of cableBending|Model|DimensionsNo.|
|view|
|0.1 to|23|
|BGS|0.6 dia.|6 to 15|E39|-|F3A|2 dia.|21-A|
|||—|——_——|l(‘(r;é‘|6 dia.|(‘;ié‘t;~:S|
|Variable spot|R25|E32|-|C42 1M|
|Retro-|
|reflective|0.3 to|22.2|
|1.6 dia.|10 to 30|E39|-|F17|2 dia.|21-B|
|Limited-|6 dia.|
|reflective|
|:|haemeae|=|
|Chemical-|
|resistant,Oil-resistant|Parallel-light-spot types|
|Lens Units + Fiber Unit|
|Bending|
|Center|Lens Units|Lens Units + Fiber Units|Fiber Unit|21 Page|
|Heat-resistant|Type|diameterSpot|distance (mm)|Model|Appearance (mm)|radius of cableBending|Models|DimensionsNo.|
|—_——|lc|ehllttt—s|
|AreaDetection|10.9|M3|R25|E32|-|C31 2M|21-C|
|5 dia.|
|-|Parallel light|4 dia.|0 to 20|E39|-|F|3|C|P4nmc|
|Liquid-level|10.9|
|M3|Flexible, R2|E32|-|C21N 2M|21-D|
|Vacuum|5 dia.|
|FPD,|
|Semi,|
|Solar|
|Small-spot types|
|Installation|Integrated Lens|
|Information|
|Center|21 Page|
|Type|diameterSpot|distance|Appearance (mm)|radius of cableBending|Models|Dimensions|
|(mm)|No.|
|Short-distance, Small-spot|0.1 dia.|5|18|3 dia.|E32|-|C42S 1M|21|-|E|
|=|CL|Lens: unnecessary|IP50|R25|
|Long-distance,Small-spot|6 dia.|50|11.6|29|E32|-|L15 2M|21|-|F|
|_|{See|Lens: unnecessary|25.6|IP50|
|* The spot diameter and the center distance are the same when using with E3X-HD series or E3NX-FA|@|series. The distance for E3NX-FAH|@|infrared models varies.|
|_|:|

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


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**----- Start of picture text -----**<br>
•  Available with a variable-spot Lens Unit to change the spot diameter without  Available with a variable-spot Lens Unit to change the spot diameter without<br> replacing the fiber. The spot diameter can be adjusted according to the size of<br> the workpiece by changing the withdrew length and sensing distance.<br> Refer to the following graph, which shows the relation between the withdrew<br> length, focal distance, and spot diameter.<br>E39-F3A +  16 : Spot diameter (mm) E39-F17 +  40 : Spot diameter (mm)<br>E32-C42 141212 E32-C42 303530 1.6 0.9<br>0.220.170.17 0.6<br>zz Withdrew length: Shortlength: Short PFRPRPP |PYPY 0.10 | 0.08 O tt|| fy as Withdrew length: Shortlength: Short 1|on|||on||on||||| |Ml\iMl\i\ico|4<br>Withdrew length: Longlength: Long 10864864644 0.13ll d0.08 Withdrew length: Longlength: Long 10151020151025201510 l d 0.3<br>Focal distance:  2 Fiber I: Withdrew length Focal distance: 5 Fiber [[I: Withdrew length]]<br>0  4  d: Focal distance8 8  12  16  20 000 2d: Focal distance4d: Focal distance44 6 8<br>Focal distance:ShortSpot: SmallShortSpot: SmallSpot: Small LongSpot: LargeSpot: Large Withdrew length I  (mm)d: Focal distance8  Focal distance:ShortSpot: SmallShortSpot: SmallSpot: Small LongSpot: LargeSpot: Large Withdrew length I  (mm)2d: Focal distance4<br>* Withdrew length: Approx. 1.3 to 5.8 mm<br>Focal distance d (mm) Focal distance d (mm)<br>**----- End of picture text -----**<br>


**20** 

**Beam Improvements** 

**21** 

**Installation Information** 

## **Dimensions** 

**==> picture [171 x 9] intentionally omitted <==**

**----- Start of picture text -----**<br>
Installation Information  → 58, 59 and 61 Page<br>**----- End of picture text -----**<br>


## **Reflective Fiber Units** 

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**----- Start of picture text -----**<br>
> 21-A E32-C42 1M  (No Cutting) + E39-F3A E39-F3A<br>2 dia.  (SUS303) Two, 1.2 dia. M2×2 Allen-head set screw<br>2.6 dia. (for securing the fiber)<br>; 6 dia. 6 dia. 4 dia.<br>13<br>23 0 to 9 1,000 Fiber Attachment* (lens diameter: 3.7 dia.)Lens surface 13 3 2.1 dia.<br>B EER 23 @<br>* Attached with adhesive and cannot be removed. Material:<br>Note:  There is a white tube on the emitter fiber. Aluminum for body and<br>optical glass for lens. Note:  This is the Lens Unit for the E32-C42.<br>21-B E32-C42 1M  (No Cutting) + E39-F17 E39-F17<br>a 9.5 to 14 2 dia.  (SUS303) Two, 1.2 dia. 6 dia. 5 dia. Threaded<br>2.6 dia.<br>Lens surface<br>6 dia. (lens diameter: 5.4 dia.) 14 7.3<br>14 22.2 Cylindrical<br>22.2 Fiber Attachment* Material:<br>1,000 Aluminum for body and<br>* Attached with adhesive and cannot be removed. optical glass for lens. Flat<br>Note:  There is a white tube on the emitter fiber.<br>21-C E32-C31 2M  (Free Cutting) + E39-F3C E39-F3C Sleeved<br>ces M3×0.5  (SUS303) Straight knurling :<br>Two, 1 dia.<br>5 dia. 10.9 5.8 E39-F9: Provided (lens diameter: 3.7 dia.)Lens surface4.3 dia. 10.9 5.8 5 dia. M3×0.5Effective screwlength: 3 Small Spot<br>27.5 32.5 2,000 Material: High Power<br>Aluminum for body and Note:  This is the Lens Unit for the<br>Note:  There is a white line on the emitter fiber. optical glass for lens. E32-C31 and E32-C31N.<br>Narrow<br>= 21-D E32-C21N 2M  (Free Cutting) + E39-F3C _— view<br>2,000<br>Two, 1.3 dia. BGS<br>6<br>1 ||| en an ee<br>M3×0.5 Fiber Attachment<br>20 (Trivalent chrome-plated zinc alloy) (E39-F9W13) provided Retro-<br>10.9 [5.8] reflective<br>—— 5 dia. a Limited-<br>Note:  There is a white line on the emitter fiber. reflective<br>21-E E32-C42S 1M  (No Cutting) 21-F E32-L15 2M   (Free Cutting) Chemical-<br>ce I resistant,<br>Sensing surfaceLens: 2.4 dia. 3 dia. (Aluminum)1.5 dia. Brancher(ABS resin): 3.5 dia.Two, 1.2 dia. White marks:Emitter side(heat-shrinkable tube) Mounting hole dimensions 11.5±0.1 Two, M3 Oil-resistantBending<br>15 S (100) O Fiber Attachment* Sensing surface(10×24.5) 11.6 Emitter 14 29 11.5 Model display tube a resistantHeat-<br>18 1,000 Optic  13.6<br>* Attached with adhesive and cannot be removed. 10.9 6.9 axis 25.6 Two, 2.2 dia. Area<br>Note:  There is a white tube on the emitter fiber. Detection<br>Sensing surfaceTwo, 9 dia.lenses. is 5.6 Receiver Two, 3.2 dia.,mounting holes a a Liquid-level<br>Sensing head (Polyarylate)<br>Note:  There is a white tube on the emitter fiber.<br>Vacuum<br>- Reference Information for Model Selection - <Map of Spot Diameters and Center Distances> (Unit: mm) Semi,FPD,<br>Ss Solar<br>Model Selection Tips *<br>Installation<br>Select the best model by following these steps. Optical axis  Information<br>1. Select the model based on the spot diameter  diameter<br>suitable for the workpiece size. Center<br>* The Variable-spot Type is useful if there are  distance<br>   different sensing object sizes. Spot diameter * *<br>2. Select the model based on the allowable<br>installation distance and center distance. * *<br>a Spot diameter 0.1 dia. 0.1 dia. 0.2 dia. 0.5 dia. 0.5 dia. 3 dia. 4 dia. 6 dia.<br>Center distance 5 7 17 7 17 50 0 to 20 50<br>> Optical axis diameter 2.4 3.7 4.8 3.7 4.8 9.4 3.7 10<br>E32-C42S E39-F3A-5 E39-F3B E39-F3A-5 E39-F3B E39-F18 E39-F3C E32-L15<br>Models E32-C41 + E32-C41 + E32-C31+ E32-C31+ E32-CC200+ E32-C31+<br>E32-C21N  E32-C21N  E32-C91N E32-C21N<br>PE TE Te<br>* Refer to page 22 for details.<br>Selection  Guide<br>Fiber Units<br>Standard Installation<br>Saving Space<br>Beam Improvements<br>Transparent Objects<br>Environmental Immunity<br>Applications<br>Fiber Amplifiers,  Communications  Unit, and  Accessories<br>Technical  Guide and  Precautions<br>Model Index<br>**----- End of picture text -----**<br>


**21** 

**Beam Improvements** 

**22** 

**Small-Spot, Reflective (Minute Object Detection)** 

**Variable-spot, Parallel-light-spot, Integrated lens** → 20 Page 

**Small-spot Lens Unit** → This Page 

- Small-spot is ideal for detecting minute objects. 

Select the Fiber Unit that is best suited for the workpiece size and installation distance. 

(Refer to Reference Information for Model Selection) 

|**Threaded**<br>**Cylindrical**<br>**Standard Installation**<br>:||||||||
|---|---|---|---|---|---|---|
|**Flat**<br>**Sleeved**<br>**Saving Space**|**Specifications**<br>**Reflective Fiber Units**||**Reflective Fiber Units**|**Reflective Fiber Units**|||
|**Small Spot**|**Small-spot Models**||||||
|**High Power**<br>**Retro-**<br>**reflective**<br>**Limited-**<br>**reflective**<br>**Narrow**<br>**view**<br>**BGS**<br>**Chemical-**<br>**resistant,**<br>**Oil-resistant**<br>**Bending**<br>**Heat-**<br>**resistant**<br>**Transparent Objects**<br>**Beam Improvements**<br>**Environmental Immunity**<br>**E32**~~**-**~~**C31 2M**<br>**E32**~~**-**~~**C41 1M**<br>**E32**~~**-**~~**C21N 2M**<br>**E32**~~**-**~~**C41 1M**<br>**Short-**<br>**distance,**<br>**small-spot**<br>**0.5 dia.**<br>**0.1 dia.**<br>**0.2 dia.**<br>**7**<br>R25<br>R25<br>Flexible, R2<br>**E39**~~**-**~~**F3A**~~**-**~~**5**<br>**Spot**<br>**diameter**<br>**Center**<br>**distance**<br>**(mm)**<br>**Type**<br>**Models**<br>**Models**<br>**Appearance(mm)**<br>**Fiber Units**<br>**Lens Units + Fiber Units**<br>**Lens Units**<br>**Bending**<br>**radius of cable**<br>**Lens Units + Fiber Units**<br>M3<br>16.5<br>5 dia.<br>M3<br>16.5<br>5 dia.<br>M3<br>25.2<br>6 dia.<br>M3<br>16.5<br>5 dia.<br>~~ee~~<br>es<br>ny<br>~~_~~<br>~~|Cee~~<br>~~_~~<br>~~vy~~<br>~~a~~<br>~~Fl ~~<br>~~ee~~||||||**23-A**<br>**23-B**<br>**23-C**<br>**23-D**<br>**23 Page**<br>**Dimensions**<br>**No.**<br>~~=~~<br> ~~alo~~<br>~~;~~|
||**Medium-**||||||
|**Area**<br>**Detection**|**distance,**<br>**small-spot**||**17**||**E32**~~**-**~~**C31 2M**<br>**E39**~~**-**~~**F3B**<br>M3<br>25.2|**23-E**|
||||||6 dia.||
|**Liquid-level**<br>**Vacuum**<br>**FPD,**<br>**Semi,**<br>**Solar**<br>**Installation**<br>**Information**<br>**Applications**<br>~~_~~<br>~~=~~|**Long-**<br>**distance,**<br>**small-spot**<br>**0.5 dia.**<br>**3 dia.**||**50**||**E32**~~**-**~~**C21N 2M**<br>**E32**~~**-**~~**CC200 2M**<br>R25<br>Flexible, R2<br>**E39**~~**-**~~**F18**<br>**23-F**<br>**23-G**<br>30<br>M6<br>10 dia.<br>30<br>M3<br>6 dia.<br>25.2<br>~~Fl alo~~<br>~~(oO~~<br>| |~~-~~-le||
|**Fiber Amplifiers,**<br>**Communications**<br>**Unit, and**<br>**Accessories**|**E32**~~**-**~~**C91N 2M**<br>Flexible, R4<br>M6<br>10 dia.<br>* The spot diameter and the center distance are the same when using with E3X-HD series or E3NX-FA@series. The distance for E3NX-FAH@infrared models varies.|||||**23-H**|
|**Technical**<br>**Guide and**<br>**Precautions**|||||||
|**Model Index**|||||||



**22** 

**Beam Improvements** 

**23** 

**Dimensions** 

—_ **Threaded Cylindrical Flat Sleeved Small Spot** ~~=~~ **High Power** ee **Narrowview view BGS Retroreflective Limitedreflective** a **Chemicalresistant, Oil-resistant Bending** _ **Heatresistant Area Detection Liquid-level Vacuum FPD, Semi, Solar** . **Installation Information** ~~=~~ 

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Installation Information  → 58, 61 Page<br>**----- End of picture text -----**<br>


**==> picture [551 x 436] intentionally omitted <==**

**----- Start of picture text -----**<br>
Reflective Fiber Units<br>23-A E32-C41 1M  (No Cutting) +  E39-F3A-5 E39-F3A-5 Straight knurling<br>M3×0.5  (SUS303) Brancher  2.1 dia.<br>Opposite side 5.5, (ABS resin): 3.5 dia.<br>thickness 1.8 (Nickel-plated brass) White marks: 4 dia. 5 dia. M3×0.5<br>—— 5 dia. Washer (Nickel-plated brass)Irrax tube: 2.6 dia. Two, 1.2 dia. Emitter side Lens surface(lens diameter: 3.7 dia.) s et 6.5  e Effective screwlength: 3<br>Material: 1 6.5<br>6.5 Aluminum for body and optical<br>16.5 Fiber Attachment* glass for lens<br>29 34 1,000 Note:  This is a Lens Unit for the E32-C41, E32-C31 and E32-C31N.<br>* Attached with adhesive and cannot be removed.<br>Note:  There is a white tube on the emitter fiber. 23-C E32-C21N 2M  (Free Cutting) + E39-F3A-5<br>23-B E32-C31 2M  (Free Cutting) + E39-F3A-5 Two, 1.3 dia. 2,000<br>= a —_<br>5 dia. M3×0.5  (SUS303) Two, 1 dia. 6<br>M3×0.5 Fiber Attachment (E39-F9W13) provided Threaded<br>6.5 24.5 6.5 (Trivalent chrome-plated zinc alloy)<br>16.5 E39-F9: Provided 16.5<br>32 37 2,000 Cylindrical<br>Note:  There is a white line on the emitter fiber. 5 dia. Note:  There is a white line on the emitter fiber.<br>Flat<br>23-D E32-C41 1M  (No Cutting) +  E39-F3B E39-F3B<br>a M3×0.5  (SUS303) Brancher (ABS resin):  6 dia. 5.5 dia.<br>6 dia. Opposite side 5.5,thickness 1.8 (Nickel-plated brass)Washer (Nickel-plated brass)Irrax tube: 2.6 dia. Two, 1.2 dia.3.5 dia. White marks:Emitter side Lens surface(lens diameter: 4.8 dia.) 25.2 24.1 M3×0.5Depth: 4.4 Sleeved<br>Material:<br>25.2 Aluminum for body and opticalglass for lens Small Spot<br>ne 37.8 42.8 1,000 Fiber Attachment* Note:  This is a Lens Unit for the E32-C41, E32-C31 and E32-C31N. =<br>* Attached with adhesive and cannot be removed. High Power<br>Note:  There is a white tube on the emitter fiber. 23-F E32-C21N 2M  (Free Cutting) + E39-F3B<br>23-E E32-C31 2M  (Free Cutting) + E39-F3B CD) Two, 1.3 dia. 2,000 ee Narrowview<br>M3×0.5  (SUS303) 6<br>6 dia. Two, 1 dia. (Trivalent chrome-plated zinc alloy) M3×0.5 Fiber Attachment (E39-F9W13) provided BGS<br>25.2 33.3<br>40.8 E39-F9: Provided 25.2<br>45.8 OO 2,000 Retro-<br>Note:  There is a white line on the emitter fiber. reflective<br>6 dia. Note:  There is a white line on the emitter fiber.<br>Limited-<br>23-G E32-CC200 2M  (Free Cutting) + E39-F18 E39-F18 8 reflective<br>M6×0.75  (Nickel-plated brass) a<br>Two, 2.2 dia. 10 dia. 8 Chemical-<br>10 dia. Lens surface resistant,<br>(lens diameter: 9.4 dia.) M6×0.75 Oil-resistant<br>30 46.1 2,000 Material: Aluminum for body and optical 30 5.5 Depth: 3.9 Bending<br>Note:  There is a white line on the emitter fiber. glass for lens Note:  This is a Lens Unit for the E32-C91N and E32-CC200. _<br>Selection  Guide<br>Fiber Units<br>Standard Installation<br>Saving Space<br>Beam Improvements<br>Transparent Objects<br>**----- End of picture text -----**<br>


**==> picture [206 x 157] intentionally omitted <==**

**----- Start of picture text -----**<br>
M6×0.75  (Nickel-plated brass)<br>Two, 2.2 dia.<br>10 dia.<br>30<br>46.1 2,000<br>Note:  There is a white line on the emitter fiber.<br>E32-C91N 2M  (Free Cutting) + E39-F18 E39-F18<br>Two, 2.2 dia.<br>6<br>M6×0.75  (Nickel-plated brass)<br>41.1<br>30<br>2,000<br>10 dia.<br>Note:  There is a white line on the emitter fiber.<br>**----- End of picture text -----**<br>


7 **23-H E32-C91N 2M** (Free Cutting) **+ E39-F18 E39-F18** 

**==> picture [55 x 108] intentionally omitted <==**

**----- Start of picture text -----**<br>
6<br>41.1<br>30<br>Mi<br>**----- End of picture text -----**<br>


## **- Reference Information for Model Selection -** ~~Ds~~ 

**==> picture [452 x 180] intentionally omitted <==**

**----- Start of picture text -----**<br>
<Map of Spot Diameters and Center Distances> (Unit: mm)<br>*<br>Model Selection Tipspss<br>Optical<br>axis<br>Select the best model by following these steps. diameter<br>1. Select the model based on the spot diameter  Center<br>suitable for the workpiece size. distance<br>* The Variable-spot Type is useful if there are  Spot diameter *<br>   different sensing object sizes.<br>2. Select the model based on the allowable  *<br>installation distance and center distance.<br>Spot diameter 0.1 dia. 0.1 dia. 0.2 dia. 0.5 dia. 0.5 dia. 3 dia. 4 dia. 6 dia.<br>Center distance 5 7 17 7 17 50 0 to 20 50<br>Optical axis diameter 2.4 3.7 4.8 3.7 4.8 9.4 3.7 10<br>E32-C42S E39-F3A-5 E39-F3B E39-F3A-5 E39-F3B E39-F18 E39-F3C E32-L15<br>Models E32-C41 + E32-C41 + E32-C31+ E32-C31+ E32-CC200+ E32-C31+<br>aa E32-C21N   E32-C21N  E32-C91N E32-C21N<br>**----- End of picture text -----**<br>


## **Model Selection Tipspss** 

* Refer to page 20 for details. 

**23** 

**Beam Improvements** 

**24** 

**High-power Beam (Long-distance Installation, Dust-resistant)** 

> **Fiber only** → This Page **Lens** ( to 70°C) → 26 Page 

**Threaded Cylindrical Flat Sleeved** ; **Small Spot High Power Narrow view view BGS Retro-reflective reflective** ~~a~~ **Limitedreflective Chemical-resistant, resistant,** ~~a~~ **Oil-resistant Bending Heat-resistant resistant Area Detection Liquid-level Vacuum** ~~a~~ **FPD, Semi, Solar Installation Information Information** 

- Maximum sensing distance without attaching a Lens: 20 m (E32-T17L) Suitable for detection of large objects and for use in large-scale installations. 

- Powerful enough to resist the influences of dust and dirt. (Refer to the comparisons of incident level on the Reference Information for Model Selection.) 

- In addition to the products listed on this page, Lenses are available to extend the sensing distance. (→ 26 to 29 pages) 

## **Specifications** 

## **Through-beam Fiber Units** 

**==> picture [531 x 238] intentionally omitted <==**

**----- Start of picture text -----**<br>
||||||||||||||||||
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
|Small Spot|Po|Sensing distance (mm)|Optical axis|
|Bending|diameter|25 Page|
|High Power|directionSensing|Aperture angle|Appearance (mm)|of cableradius|E3X|-|HD|E3NX|-|FA|(minimum sensing|Models|DimensionsNo.|
|ee|GIGA|HS|Other modes|GIGA|HS|Other modes|object)|
|_|ie|o=|||oie|[eT]|
|Narrow view|Right-angle|15°|14.4|M4|Flexible,R2|2,3004,000 *1|ST  :SHS:|3,500920|4,000 *13,450|ST  :SHS:|4,000920*1|0.03 dia.)(0.1 dia./2.3 dia.|E32|-|LT11N 2M|25-A|
|BGS|IP50|
|20,000 *2|*2|20,000 *2|*2|
|42|ST  :|20,000|ST  :|20,000|
|Retro-reflective|10°|20,000 *2|SHS:|8,000|20,000 *2|SHS:|8,000|10 dia.|E32|-|T17L 10M|25-B|
|a|a|M14|[||IP67|R25|
|Limited-|4,000 *1|*1|4,000 *1|*1|
|reflective|ST  :|4,000|ST  :|4,000|
|Top-view|SHS:|1,080|4,000 *1|SHS:|1,080|E32|-|LT11 2M|
|Chemical-resistant,|15°|a|15|2,700|(0.1 dia./2.3 dia.|—|25-C|
|a|Oil-resistant|=|M4|Flexible,|4,000 *1|ST  :|3,500|4,000 *1|ST  :|4,000*1|0.03 dia.)|CO)|
|R1|E32|-|LT11R 2M|
|Bending|SHS:|920|SHS:|920|
|2,300|3,450|
|Heat-resistant|Building|10.5|a|[||IP50|4,000 *1|ST  :|4,000*1|4,000 *1|ST  :|4,000*1|4 dia.|:|:|ew|
|Side-view|30°|36.4|R25|4,000 *1|SHS:|1,800|4,000 *1|SHS:|1,800|0.03 dia.)(0.1 dia./|E32|-|T14 2M|25-D|
|Area|8|_|IP67|

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


- *1 The optical fiber is 2 m long on each side, so the sensing distance is 4,000 mm. 

- *2 The optical fiber is 10 m long on each side, so the sensing distance is 20,000 mm. **Note.** The sensing distances for the E3NX-FA are values for E3NX-FA@ devices. The distance for E3NX-FAH@ infrared models varies. 

**==> picture [548 x 119] intentionally omitted <==**

**----- Start of picture text -----**<br>
|||||||||||||||
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
|a|
|Reflective Fiber Units|
|FPD,|
|Semi,|
|Solar|Po|Sensing distance (mm)|Optical axis|
|Bending|diameter|25 Page|
|Installation Information|directionSensing|Aperture angle|Appearance (mm)|of cableradius|E3X|-|HD|E3NX|-|FA|(minimum sensing|Model|DimensionsNo.|
|a|GIGA|HS|Other modes|GIGA|HS|Other modes|object)|
|jeoo=|||oie|=|TT|
|22|40 to 2,800|40 to 4,200|
|ST  :|40 to  1,400|ST  :|40 to  2,100|
|Top-view|4°|9|−|E32|-|D16 2M|25-E|
|40 to 900|SHS:|40 to  480|40 to 1,350|SHS:|40 to  720|
|—|17.5|ro|IP40|
|Note 1.|The following mode names and response times apply to the modes given in the Sensing distance column.|
|[E3X-HD] GIGA: Giga-power mode (16 ms), HS: High-speed mode (250 μs), ST: Standard mode (1 ms), and SHS: Super-high-speed mode (NPN output: 50 μs, PNP output: 55 μs)|
|Bendresistant,|
|R4|

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


- [E3NX-FA] GIGA: Giga-power mode (16 ms), HS: High-speed mode (250 μs), ST: Standard mode (1 ms), and SHS: Super-high-speed mode (30 μs) 

**2.** The values for the minimum sensing object are reference values that indicate values obtained in standard mode with the sensing distance and sensitivity set to the optimum values. The first value is for the E3X-HD and the second value is for the E3NX-FA. 

**3.** The sensing distances for Reflective Fiber Units are for white paper. 

**4.** The sensing distances for the E3NX-FA are values for E3NX-FA@ devices. The distance for E3NX-FAH@ infrared models varies. 

**24** 

**25** 

**Lens** ( to 200°C) → 28 Page 

## **Beam Improvements** 

## **Dimensions** 

**==> picture [143 x 9] intentionally omitted <==**

**----- Start of picture text -----**<br>
Installation Information → 59, 60 Page<br>**----- End of picture text -----**<br>


## **Through-beam Fiber Units (Set of 2)** 

**==> picture [515 x 440] intentionally omitted <==**

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25-A E32-LT11N 2M  (Free Cutting) 25-C E32-LT11 2M  (Free Cutting)<br>Cc) Cc)<br>(8.1) 2,000 E32-LT11R 2M  (Free Cutting)<br>(45) M4×0.7  (Trivalent chrome-plated zinc alloy)<br>14.4 = 4.4 Toothed washer (Nickel-plated iron) = Lens (PMMA) Opposite side: 7, Thickness: 2.4 (Nickel-plated brass)Washers (Nickel-plated iron)<br>10<br>Hexagonal nut Opposite side: 7, Thickness: 2.4 (Nickel-plated brass) 2.2 dia.<br>SS M4×0.7  (Trivalent chrome-plated zinc alloy) Sensing surface 2.3 dia. OTE 10<br>——S 3.2 | Sensing surface 2.3 dia.(Methacrylate resin) Model display tube 2.2 dia. i 3.2 15 2,000 —<br>Threaded<br>25-B E32-T17L 10M  (Free Cutting) 25-D E32-T14 2M  (Free Cutting)<br>Cc) Sensing surfacelens diameter: M14×1 Opposite side 19, Thickness 5 (Aluminum) (ABS) Cc) Sensing surfaceLens (PMMA)4.4 dia. 8.2 Heat-resistant ABSNitrile rubber Cylindrical<br>10 dia. (PMMA) a —<br>8 Flat<br>2.2 dia.<br>R3.5 Two, 3.2 dia.<br>mounting holes 2.2 dia.<br>y Sleeved<br>\ \ = 10.5 8 7<br>: 23 C C ewe —S +=<br>10 [±0.2]<br>42 10,000 2.5 9.2 16 11.2 2,000 Small Spot<br>| ee 25.2 a<br>High Power<br>Installation Information → 58 Page<br>Reflective Fiber Units Narrowviewview<br>ee [[=]]<br>= 25-E E32-D16 2M  (Free Cutting) —_ BGS<br>Sensing surface Lens  Two, 3.2 dia. mounting holes —_<br>Two, 5.8 dia lenses 9 ; (Aluminum) Two, 6 dia. countersinks on both sidesTwo, 2.2 dia. reflectiveRetro-Retro-<br>8.5 17.5 Limited-<br>reflective<br>11 6.5 Chemical-<br>22 2,000 resistant,<br>Oil-resistant<br>Bending<br>Heat-<br>resistant<br>oO Lae<br>7<br>Selection<br>Fiber Units<br>**----- End of picture text -----**<br>


— **Threaded Cylindrical** ; — **Flat Sleeved** : += **Small Spot High Power Narrowviewview**[[=]] —_ **BGS** —_ **reflectiveRetro-RetroLimitedreflective Chemicalresistant, Oil-resistant Bending Heatresistant** | **Area Detection Liquid-level Vacuum FPD, Semi, Solar Installation Information** ~~i~~ 

## **- Reference Information for Model Selection -** 

## **Comparisons of incident level** 

Select the model based on the comparisons of incident level against Standard Fiber Units. 

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Comparisons of incident level (Through-beam) Comparisons of incident level (Reflective)<br>E32-T17L 10M ×1700<br>→  24 page<br>E32-T11R + E39-F16 ×160<br>→  26 page<br>E32-T11NF 2M ×60 E32-D16 2M ×17<br>→  38 page<br>E32-T11R + E39-F1 ×50<br>→  26 page<br>E32-T14 2M ×40<br>→  24 page<br>E32-LT11N 2M ×10<br>→  24 page<br>E32-LT11R 2M ×10<br>→  24 page E32-D11R 2M Reference (×1)<br>E32-T11R + E39-F2 ×0.8 (Reference)<br>→  26 page<br>E32-T11R 2M Reference (×1)<br>(Reference)<br>**----- End of picture text -----**<br>


**25** 

**Beam Improvements** 

**26** 

**High-power Beam (Long-distance Installation, Dust-resistant)** 

**Lens** ( to 70°C) → This Page 

**Fiber only** → 24 Page 

~~_~~ **Threaded Cylindrical Flat Sleeved Small Spot High Power Narrow view BGS Retroreflective Limitedreflective** ~~—~~ **Chemicalresistant, Oil-resistant Bending Heatresistant Area Detection Liquid-level Vacuum FPD, Semi,** | **Solar Installation Information** 

**==> picture [475 x 277] intentionally omitted <==**

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Specifications<br>Through-beam Fiber Units<br>Lens Units Type High-power (incident level: 50 times) Ultra-high-power (incident level: 160 times) Side-View (incident level: 0.8 times)<br>a ee<br>Models E39 - F1 E39 - F16 E39 - F2<br>es eS ESe-F2<br>Appearance<br>26-A 26-B 26-C<br>| YA @. OP Y ao<br>es Aperture angle Approx. 12° Approx. 6° Approx. 60°<br>Optical axis diameter<br>Fiber Units (minimum sensing object) 4 dia. (0.1 dia.) 7.2 dia. 3 dia. (0.1 dia.)<br>Sensing distance (mm)<br>Models Appearance (mm) E3X - HD E3NX - FA E3X - HD E3NX - FA E3X - HD E3NX - FA<br>GIGA HS modesOther  GIGA HS modesOther  GIGA HS modesOther  GIGA HS modesOther  GIGA HS modesOther  GIGA HS modesOther<br>14.7 Ca 4,000* ST  : 4,000* 4,000* | ST  : 4,000* 4,000* ST  : 4,000* ee 4,000* ST  : 4,000* |<br>E32 - T11N 2M 4,000* SHS: 2,000 4,000* SHS: 2,000 4,000* SHS: 3,600 4,000* SHS: 3,600<br>M4<br>27-A 27-D<br>14 4,000* ST  : 4,000* 4,000* ST  : 4,000* 4,000* ST  : 4,000* 4,000* ST  : 4,000* 1,450 ST  : 800 2,170 ST  : 1,200<br>E32 - T11R 2M 4,000* SHS: 2,000 4,000* SHS: 2,000 4,000* SHS: 3,600 4,000* SHS: 3,600 500 SHS: 200 750 SHS: 200<br>M4 27-B 27-E 27-G<br>4,000* * 4,000* * 4,000* * 4,000* * 2,300 3,450<br>ST  : 4,000 ST  : 4,000 ST  : 4,000 ST  : 4,000 ST  : 1.320 ST  : 1,980<br>E32 - T11 2M 14 4,000* SHS: 1,860 4,000* SHS: 1,860 4,000* SHS: 4,000* 4,000* SHS: 4,000* 860 SHS: 320 1,290 SHS: 320<br>M4 27-C 27-F 27-H<br>**----- End of picture text -----**<br>


## **Specifications** 

*  The optical fiber is 2 m long on each side, so the sensing distance is 4,000 mm. 

**Note 1.** The following mode names and response times apply to the modes given in the Sensing distance column. [E3X-HD] GIGA: Giga-power mode (16 ms), HS: High-speed mode (250 µs), ST: Standard mode (1 ms), and SHS: Super-high-speed mode (NPN output: 50 µs, PNP output: 55 µs) [E3NX-FA] GIGA: Giga-power mode (16 ms), HS: High-speed mode (250 µs), ST: Standard mode (1 ms), and SHS: Super-high-speed mode (30 µs) 

**2.** The values for the minimum sensing object are reference values that indicate values obtained in standard mode with the sensing distance and sensitivity set to the optimum values. The first value is for the E3X-HD and the second value is for the E3NX-FA. 

**3.** The sensing distances for the E3NX-FA are values for E3NX-FA @ devices. The distance for E3NX-FAH @ infrared models varies. 

## **Dimensions** 

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Installation Information  → 61 Page<br> (Set of 2)<br>26-A E39-F1 26-C E39-F2 M2.6×0.45<br>CO M2.6×0.45 CO) Effective depth: 3.2<br>Effective depth: 3.8 2.8 dia. countersinking depth: 0.9<br>countersinking depth: 0.9 Material: Material:<br>_ ——— Brass for the body and optical  4 dia. 4 y Brass for the body and optical<br>4 dia. glass for the lens itself. 5.7 glass for the lens itself.<br>a 8.9 Note:  Two per set. Sis 9.2 Note:  Two per set.<br>CO 26-B E39-F16<br>7.8 dia. Material:<br>SUS303 for the body and<br>M4×0.7 optical glass for the<br>5 Depth: 6 lens itself.<br>22.5<br>Note:  Two per set.<br>=<br>**----- End of picture text -----**<br>


## **Lens Units (Set of 2)** 

**26** 

**27** 

**Lens** ( to 200°C) → 28 Page 

a - **Threaded Cylindrical Flat Sleeved** ; **Small Spot High Power Narrow view BGS Retro-** = **reflective** ~~|~~ **Limitedreflective** —, **Chemicalresistant, Oil-resistant Bending Heatresistant Area Detection Liquid-level Vacuum FPD, Semi, Solar Installation Information** ~~_~~ a a a 

## **Beam Improvements** 

## **Dimensions** 

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Installation Information  → 60, 61 Page<br>**----- End of picture text -----**<br>


## **Through-beam Fiber Units (Set of 2)** 

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27-A E32-T11N 2M  (Free Cutting)  + E39-F1 27-G E32-T11R 2M  (Free Cutting)  + E39-F2<br>4.7 2.2 dia. M4×0.7  (Nickel-plated brass)<br>4 dia. 2.2 dia.<br>M4×0.7<br>15.9 (Trivalent chrome-plated zinc alloy)<br>8.9<br>4 dia. 2,000 9.25.7<br>— es 20.2 2,000<br>> 27-B E32-T11R 2M  (Free Cutting)  + E39-F1<br>4 dia. M4×0.7  (Nickel-plated brass)2.2 dia. - 27-H E32-T11 2M  (Free Cutting)  + E39-F2<br>. M4×0.7  (Nickel-plated brass)<br>4 dia. 2.2 dia.<br>8.9<br>19.9 2,000<br>5.7<br>27-C E32-T11 2M  (Free Cutting)  + E39-F1 9.2<br>20 2,000<br>M4×0.7  (Nickel-plated brass)<br>4 dia. 2.2 dia.<br>8.9<br>19.6 2,000<br>0  te<br>27-D E32-T11N 2M  (Free Cutting)  + E39-F16<br>4.7 2.2 dia.<br>M4×0.7<br>(Trivalent chrome-plated zinc alloy)<br>26.5<br>22.5<br>7.8 dia.<br>2,000<br>27-E E32-T11R 2M  (Free Cutting)  + E39-F16<br>7.8 dia. M4×0.7  (Nickel-plated brass)<br>2.2 dia.<br>H ea<br>22.5<br>30.5 2,000<br>~ 27-F E32-T11 2M AE  (Free Cutting)  + E39-F16<br>7.8 dia. M4×0.7  (Nickel-plated brass)2.2 dia.<br>22.5<br>30.5 2,000<br>**----- End of picture text -----**<br>


## **- Reference Information for Model Selection -** 

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**----- Start of picture text -----**<br>
Comparisons of incident level<br>Select the model based on the comparisons of incident level against Standard Fiber Units.<br>Comparisons of incident level (Through-beam)<br>E32-T17L 10M ×1700<br>→  24 page<br>E32-T11R + E39-F16 ×160<br>→  26 page<br>E32-T11NF 2M ×60<br>→  38 page<br>E32-T11R + E39-F1 ×50<br>→  26 page<br>E32-T14 2M ×40<br>→  24 page<br>E32-LT11N 2M ×10<br>→  24 page<br>E32-LT11R 2M ×10<br>→  24 page<br>E32-T11R + E39-F2 ×0.8<br>→  26 page<br>E32-T11R 2M Reference (×1)<br>(Reference)<br>**----- End of picture text -----**<br>


**27** 

**Beam Improvements** 

**28** ~~_~~ _ 

**High-power Beam (Long-distance Installation, Dust-resistant) Fiber only** → 24 Page **Lens** ( to 70°C) → 26 Page 

**Threaded Cylindrical E32** ~~_~~ **Flat E32** ~~BB~~ **Sleeved E32** 32- **Small Spot High Power** = **Narrow view** 

**Retroreflective Lens Units Limitedreflective** : ~~—_~~ **Chemicalresistant, Oil-resistant Bending Fiber Units HeatModels resistant** Heat-resistant up to 150°C **Area Detection E32** ~~**-**~~ **T51 2M** 17 : **Liquid-level Note 1. Vacuum FPD, 2. Semi,** . ~~B--|~~ **Solar 3. Dimensions Installation Information Lens Units (Set of 2) (Set of 2)** __ **28-A E39-F1 4 dia.** ~~6~~ **8.9 28-B E39-F16 7.8 dia.** 5 **22.5**  =~~ 

**==> picture [479 x 584] intentionally omitted <==**

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Specifications<br>Through-beam Fiber Units (Heat-resistant)<br>Lens Units ns Type High-power (incident level: 50 times) Ultra-high-power (incident level: 160 times) Side-View (incident level: 0.8 times)<br>Models E39-F1 E39-F16 E39-F2<br>Appearance<br>28-A 28-B 28-C<br>—ns O @. PF @ © @.<br>ns Aperture angle nn Approx. 12° Approx. 6° Approx. 60°<br>Optical axis diameter<br>Fiber Units (minimum sensing object) 4 dia. (0.1 dia.) 7.2 dia. 3 dia. (0.1 dia.)<br>Sensing distance (mm)<br>Models Appearance (mm) E3X - HD E3NX - FA E3X - HD E3NX - FA E3X - HD E3NX - FA<br>GIGA HS modesOther  GIGA HS modesOther  GIGA HS modesOther  GIGA HS modesOther  GIGA HS modesOther  GIGA HS modesOther<br>0 Heat-resistant up to 100°C 4,000* SS ST  : 4,000* 4,000* ST  : 4,000* 4,000* ST  : 4,000* 4,000* ST  : 4,000* S 1,400 ST  : 720 2,100 ST  : 1,080<br>E32 - T51R 2M 14 3,900 SHS: 1,500 4,000* SHS: 1,500 4,000* SHS: 4,000* 4,000* SHS: 4,000* 500 SHS: 200 750 SHS: 200<br>M4 29-A 29-D 29-G<br>Heat-resistant up to 200°C oo FLL] 4,000* * 4,000* * FIP 4,000* * 4,000* Ff *<br>30 ST  : 4,000 ST  : 4,000 ST  : 4,000 ST  : 4,000 1,000 ST  : 550 1,500 ST  : 820<br>E32 - T81R - S 2M 21M 20 2,700 SHS: 1,000 4,000* SHS: 1,000 4,000* SHS: 1,800 4,000* SHS: 1,800 360 SHS: 140 540 SHS: 140<br>M4 29-B 29-E 29-H<br>S- Ferecer<br>Heat-resistant up to 350°C(200°C) (See Note 3)30 4,000* ST  : 4,000* 4,000* ST  : 4,000* 4,000* ST  : 4,000* 4,000* ST  : 4,000* 1,680 ST  : 900 2,520 ST  : 1,350<br>E32 32- T - T61 81R - e S 2M S 20 4,000* SHS: 1,800 4,000* SHS: 1,800 4,000* SHS: 3,100 4,000* SHS: 3,100 eer 600 SHS: 240 900 SHS: 240<br>M4<br>29-C 29-F 29-I<br>—<br>*  The optical fiber is 2 m long on each side, so the sensing distance is 4,000 mm.<br>Note 1. peers The following mode names and response times apply to the modes given in the Sensing distance column.<br>[E3X-HD] GIGA: Giga-power mode (16 ms), HS: High-speed mode (250 µs), ST: Standard mode (1 ms), and SHS: Super-high-speed mode (NPN output: 50 µs, PNP output: 55 µs)<br>[E3NX-FA] GIGA: Giga-power mode (16 ms), HS: High-speed mode (250 µs), ST: Standard mode (1 ms), and SHS: Super-high-speed mode (30 µs)<br>2. The values for the minimum sensing object are reference values that indicate values obtained in standard mode with the sensing distance and sensitivity set to the optimum values.<br>The first value is for the E3X-HD and the second value is for the E3NX-FA.<br>3. The ambient temperature of E32-T61-S must be between −40 to 200°C when using it with E39-F1 or E39-F2 Lens Unit.<br>The ambient temperature of E32-T61-S must be between −40 to 350°C when using it with E39-F16 Lens Unit.<br>4. The sensing distances for the E3NX-FA are values for E3NX-FA @  devices. The distance for E3NX-FAH @  infrared models varies.<br>Lens Units Type High-power (incident level: 50 times) Ultra-high-power (incident level: 160 times)<br>Models E39-F1-33 E39-F16<br>ee Appearance<br>28-D 28-B<br>e e k ee<br>ee Aperture angle Approx. 12° Approx. 6°<br>Optical axis diameter<br>Fiber Units (minimum sensing object) 4 dia. (0.1 dia.) 7.2 dia.<br>Sensing distance (mm)<br>Models Appearance (mm) E3X - HD E3NX - FA E3X - HD E3NX - FA<br>GIGA HS modesOther  GIGA HS modesOther  GIGA HS modesOther  GIGA HS modesOther<br>Heat-resistant up to 150°C 4,000* ST  : 4,000* 4,000* ST  : 4,000* 4,000* ST  : 4,000* 4,000* ST  : 4,000*<br>E32 - T51 2M 17 2,300 SHS: 1,400 3,450 SHS: 1,400 4,000* SHS: 4,000* 4,000* SHS: 4,000*<br>M4 29-J 29-K<br>:<br>*  The optical fiber is 2 m long on each side, so the sensing distance is 4,000 mm.<br>Note 1. The following mode names and response times apply to the modes given in the Sensing distance column.<br>[E3X-HD] GIGA: Giga-power mode (16 ms), HS: High-speed mode (250 µs), ST: Standard mode (1 ms), and SHS: Super-high-speed mode (NPN output: 50 µs, PNP output: 55 µs)<br>[E3NX-FA] GIGA: Giga-power mode (16 ms), HS: High-speed mode (250 µs), ST: Standard mode (1 ms), and SHS: Super-high-speed mode (30 µs)<br>2. The values for the minimum sensing object are reference values that indicate values obtained in standard mode with the sensing distance and sensitivity set to the optimum values.<br>The first value is for the E3X-HD and the second value is for the E3NX-FA.<br>3. The sensing distances for the E3NX-FA are values for E3NX-FA 3s" FL @  devices. The distance for E3NX-FAH FL @  infrared models varies.<br>**----- End of picture text -----**<br>


**BGS** 

**Solar 3.** The sensing distances for the E3NX-FA are values for E3NX-FA @ devices. The distance for E3NX-FAH @ infrared models varies. **Installation Dimensions** Installation Information → 61 Page **Information Lens Units (Set of 2) (Set of 2)** __ Lo 

**==> picture [446 x 133] intentionally omitted <==**

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28-A E39-F1 28-C E39-F2 M2.6×0.45<br>M2.6×0.45 Effective depth: 3.2<br>Effective depth: 3.8 2.8 dia. countersinking depth: 0.9<br>countersinking depth: 0.9 Material: Material:<br>4 dia. Brass for the body and optical glass for the lens itself. 4 dia. 5.7 Brass for the body and optical glass for the lens itself.<br>6 8.9 Note:  Two per set. 4ah 9.2 Ce Note:  Two per set.<br>28-B E39-F16 28-D E39-F1-33<br>7.8 dia. 22.5 5 M4×0.7Depth: 6 Material: SUS303 for the body and optical glass for the lens itself. 4 dia. 11 5 6 dia. M4×0.7Effective screwlength: 3.1 Material: Brass for the body and optical glass for the lens itself.<br>Note:  Two per set. Note 1:Note 2:  Two per set. This is the Lens Unit for the E32-T51.<br>= oo<br>**----- End of picture text -----**<br>


**28** 

**Beam Improvements** 

**29** 

**Lens** ( to 200°C) → This Page 

**Installation Information** __ 

## **Dimensions** 

**==> picture [515 x 573] intentionally omitted <==**

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Installation Information  → 60, 61 Page<br>Through-beam Fiber Units (Set of 2)<br>29-A E32-T51R 2M  (Free Cutting)  + E39-F1 29-G E32-T51R 2M  (Free Cutting)  + E39-F2<br>M4×0.7  (SUS303) 4 dia.<br>4 dia. 2.2 dia. M4×0.7  (SUS303) 2.2 dia.<br>8.9<br>19.9 2,000 5.7<br>9.2<br>a =  — 20.2 2,000<br>29-B E32-T81R-S 2M  (No Cutting) + E39-F1 29-H E32-T81R-S 2M  (No Cutting) + E39-F2<br>4 dia. M4×0.7  (SUS303) 2 dia.<br>4 dia. M4×0.7  (SUS303) 2 dia.<br>8.9 25.9 10 (75) 2,000 5.7 (75) Threaded<br>9.2<br>26.2 10 2,000<br>Cylindrical<br>29-C E32-T61-S 2M  (No Cutting) + E39-F1 29-I E32-T61-S 2M  (No Cutting) + E39-F2<br>M4×0.7  (SUS303) 4 dia.<br>4 dia. 2.8 dia. M4×0.7  (SUS303) 2.8 dia. Flat<br>8.9 5.7 Sleeved<br>25.9 10  2,000 9.2 26.2 10 2,000<br>rT | ‘tT ot<br>Small Spot<br>29-D E32-T51R 2M  (Free Cutting)  + E39-F16 29-J E32-T51 2M  (Free Cutting)  + E39-F1-33<br>7.8 dia. M4×0.7  (SUS303)2.2 dia. 6 dia. M4×0.7  (Nickel-plated brass)2.2 dia. High Power<br>22.5<br>30.5 2,000 5 Narrow<br>11 view<br>22.9 2,000<br>BGS<br>~ ee 29-E E32-T81R-S 2M  (No Cutting) + E39-F16 - 29-K E32-T51 2M es  (Free Cutting)  + E39-F16 = |<br>7.8 dia. M4×0.7  (SUS303) 2 dia. 7.8 dia. M4×0.7  (Nickel-plated brass)2.2 dia. Retro-<br>reflective<br>22.5 (75)<br>6  PES 36.5 10 2,000 22.5 Limited-<br>33.5 2,000 reflective<br>ad ;<br>Chemical-<br>29-F E32-T61-S 2M  (No Cutting) + E39-F16 resistant,<br>7.8 dia. M4×0.7  (SUS303) Oil-resistant<br>2.8 dia.<br>Bending<br>22.5<br>36.5 10 2,000 Heat-<br>resistant<br>8 .<br>Area<br>Detection<br>Liquid-level<br>Vacuum<br>- Reference Information for Model Selection - FPD,<br>Semi,<br>s Solar |<br>Features<br>Selection  Guide<br>Fiber Units<br>Standard Installation<br>Saving Space<br>Beam Improvements<br>Transparent Objects<br>Environmental Immunity<br>Applications<br>**----- End of picture text -----**<br>


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**----- Start of picture text -----**<br>
- Reference Information for Model Selection -<br>e s<br>Comparisons of incident level<br>Select the model based on the comparisons of incident level against Standard Fiber Units.<br>a<br>Comparisons of incident level (Through-beam)<br>E32-T17L 10M ×1700<br>→  24 page<br>E32-T11R + E39-F16 ×160<br>→  26 page<br>E32-T11NF 2M ×60<br>→  38 page<br>E32-T11R + E39-F1 ×50<br>→  26 page<br>E32-T14 2M ×40<br>→  24 page<br>E32-LT11N 2M ×10<br>→  24 page<br>E32-LT11R 2M ×10<br>→  24 page<br>E32-T11R + E39-F2 ×0.8<br>→  26 page<br>E32-T11R 2M Reference (×1)<br>(Reference)<br>**----- End of picture text -----**<br>


**29** 

**Beam Improvements** 

**30** 

**Threaded** 

**High Power Narrow view** 

**Retroreflective** ~~a~~ **Limitedreflective** ; **Chemicalresistant, Oil-resistant Bending Heatresistant Area Detection** ~~_~~ **Liquid-level Vacuum FPD, Semi, Solar Installation Information** 

- The fine beam prevents false detection of light that is reflected off surrounding objects. 

**==> picture [66 x 42] intentionally omitted <==**

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Approx. 4°<br>Approx. 60°<br>     (standard)<br>E32-T24S *<br>**----- End of picture text -----**<br>


**Cylindrical** 

**Flat** 

**Sleeved** 

**Small Spot** 

**BGS** 

**Liquid-level** 

## **Specifications** 

## **Through-beam Fiber Units** 

|**Sensing**<br>**direction**|**Aperture**<br>**angle**|**Appearance (mm)**<br>~~Lai~~|**Appearance (mm)**<br>~~Lai~~|**Bending**<br>**radius**<br>**of cable**<br>~~oe~~<br>~~Lai~~|**Sensing distance(mm)**<br>~~PO~~|**Sensing distance(mm)**<br>~~PO~~|**Sensing distance(mm)**<br>~~PO~~|**Sensing distance(mm)**<br>~~PO~~|**Optical axis**<br>**diameter**<br>**(minimum**<br>**sensing**<br>**object)**|**Models**|**31 Page**<br>**Dimensions**<br>**No.**|
|---|---|---|---|---|---|---|---|---|---|---|---|
||||||**E3X**~~**-**~~**HD**<br>~~PO~~<br>~~oe=|~~<br>~~[e~~||**E3NX**~~**-**~~**FA**<br>~~PO~~<br>~~[e~~|||||
||||||**HS**<br>**GIGA**<br>~~oe=|~~|**Other modes**<br>~~|~~<br>~~[e=~~|**HS**<br>**GIGA**<br>~~[e=]~~|**Other modes**<br>~~]~~||||
|**Side-view**|**1.5°**|20.5<br>IP50<br>Thickness:<br>3 mm<br>~~Lai~~||Flexible,<br>R1<br>~~oe~~<br>~~Lai~~|3,220<br>1,200<br>~~oe = |~~|1,780<br>500<br>ST  :<br>SHS:<br>~~|~~<br>~~[e=~~|4,000*<br>1,800<br>~~[e=]~~|2,670<br>500<br>ST  :<br>SHS:<br>~~]~~|2 dia.<br>(0.1 dia./<br>0.03 dia.)|**E32**~~**-**~~**A03 2M**|**31-A**|
||||IP50<br>~~Lai~~|||||||||
|||24.5<br>10<br>IP50<br>Thickness:<br>3 mm<br>~~Lai~~<br>~~i~~<br>~~[|~~||R10<br>~~Lai~~||||||**E32**~~**-**~~**A03**~~**-**~~**1 2M**|**31-B**<br>~~-~~|
||||IP50<br>~~i~~<br>~~[|~~|||||||||
||**3.4°**|20.5<br>IP50<br>Thickness:<br>2 mm<br>~~i~~<br>~~[|~~<br>—~~——~~|||1,280<br>450|680<br>200<br>ST  :<br>SHS:|1,920<br>670|1,020<br>200<br>ST  :<br>SHS:|1.2 dia.<br>(0.1 dia./<br>0.03 dia.)|**E32**~~**-**~~**A04 2M**|**31-C**<br>~~-~~|
||||IP50|||||||||
||**4°**|3.5 dia.<br>20.5<br>IP50<br>\||Flexible,<br>R1|4,000*<br>1,460|2,200<br>580<br>ST  :<br>SHS:|4,000*<br>2,190|3,300<br>580<br>ST  :<br>SHS:|2 dia.<br>(0.1 dia./<br>0.03 dia.)|**E32**~~**-**~~**T24SR 2M**|**31-D**|
|||||R10|4,000*<br>1,740|2,600<br>700<br>ST  :<br>SHS:|4,000*<br>2,610|3,900<br>700<br>ST  :<br>SHS:||**E32**~~**-**~~**T24S 2M**|**31-E**|
||||IP50|||||||||
|**Top-view**||3 dia.<br>15<br>IP50|||4,000*<br>2,500|3,800<br>1,000<br>ST  :<br>SHS:|4,000*<br>3,750|4,000<br>1,000<br>ST  :<br>SHS:<br>*|1.7 dia.<br>(0.1 dia./<br>0.03 dia.)|**E32**~~**-**~~**T22S 2M**|**31-F**|
||||IP50|||||||||



- The optical fiber is 2 m long on each side, so the sensing distance is 4,000 mm. 

- **Note 1.** The following mode names and response times apply to the modes given in the Sensing distance column. 

   - [E3X-HD] GIGA: Giga-power mode (16 ms), HS: High-speed mode (250 µs), ST: Standard mode (1 ms), and SHS: Super-high-speed mode (NPN output: 50 µs, PNP output: 55 µs) [E3NX-FA] GIGA: Giga-power mode (16 ms), HS: High-speed mode (250 µs), ST: Standard mode (1 ms), and SHS: Super-high-speed mode (30 µs) 

**2.** The values for the minimum sensing object are reference values that indicate values obtained in standard mode with the sensing distance and sensitivity set to the optimum values. The first value is for the E3X-HD and the second value is for the E3NX-FA. 

**3.** The sensing distances for the E3NX-FA are values for E3NX-FA @ devices. The distance for E3NX-FAH @ infrared models varies. 

**30** 

**Beam Improvements** 

**31** 

## **Dimensions** 

**==> picture [143 x 9] intentionally omitted <==**

**----- Start of picture text -----**<br>
Installation Information  → 58, 60 Page<br>**----- End of picture text -----**<br>


## **Through-beam Fiber Units (Set of 2)** 

**==> picture [521 x 715] intentionally omitted <==**

**----- Start of picture text -----**<br>
31-A E32-A03 2M  (Free Cutting) 31-D E32-T24SR 2M  (Free Cutting)<br>Cc) Co<br>0.4 1.8<br>20.5 2,000<br>0.4 1.8 3.5 dia. (SUS303) 2.2 dia.<br>Engraved<br>3.5 dia. 6 +— 3.2 mark:1 dia. E39-F9: Provided 17.6 i 11 3.2 :<br>17.6 4.3 11 2.95 dia. 3.4 3.2 Mounting Brackets: E39-L83 (SUS) / provided<br>(SUS303) 10<br>o f 3.4 a e 3.2 Mounting Brackets: E39-L83 (SUS) / provided 20.5 si — |<br>2 10 1.5<br>2 Sensing surface 1.7 dia.<br>Sensing surface 1.7 dia.<br>Threaded<br>Note:  Use the engraved surface and its opposing surface as<br>installation (reference) surfaces.<br>Cylindrical<br>= 31-B E32-A03-1 2M  (Free Cutting) S 31-E E32-T24S 2M  (Free Cutting) :<br>2.95 dia. 1 dia. 0.4 1.8 Flat<br>3.5 dia. (SUS303) 2.2 dia.<br>4.5 10 Engraved mark: 1 dia.<br>6.5 3 Two, 3.4 dia. E39-F9:  17.6 11 3.2<br>3 3.5 12.5 mounting holes Provided Mounting Brackets: E39-L83 Sleeved<br>A 24.5 o 2,000 , 3.4 3.2 (SUS) / provided<br>Sensing surface  10<br>1.7 dia. 13 (SUS303) 20.5 Small Spot<br>RS Note 1:  Use the engraved surface and its opposing surface as  1.5 a<br>installation (reference) surfaces. e 2 Sensing surface 1.7 dia. o<br>Note 2:  Set of two symmetrically shaped Fiber Units. High Power<br>Narrow<br>31-C E32-A04 2M  (Free Cutting) 31-F E32-T22S 2M  (Free Cutting) view<br>Engraved mark: 1 dia.<br>2 dia. (SUS303) 1 dia. E39-F9: Provided Sensing surface 1.7 dia. 3 dia. (Nickel-plated brass) 2.2 dia. BGS<br>S o = I<br>2 2 4 20.5 2,000 15 2,000 reflectiveRetro-<br>Limited-<br>2 Sensing surface 1.2 dia. reflective<br>i :<br>Note:  Use the engraved surface and its opposing surface as  Chemical-<br>installation (reference) surfaces. resistant,<br>Oil-resistant<br>Bending<br>Heat-<br>resistant<br>Area<br>Detection<br>Liquid-level<br>Vacuum<br>FPD,<br>Semi,<br>Solar<br>- Reference Information for Model Selection - Installation<br>[oo —_ Information<br>Ss<br>perture angle and Optical Axis Diametererture angle and Optical Axis Diametergle and Optical Axis Diameterle and Optical Axis Diameterptical Axis Diametertical Axis Diameter<br>The Aperture angle is the output angle of the emitted beam, and the  Optical axis<br>optical axis diameter is the core diameter of the emitter fiber. < diameter b ) Goa<br>A fiber with a narrow view has a larger optical axis diameter than  Aperture angle<br>standard fibers, but the aperture angle is smaller so it is not<br>influenced by surrounding objects.<br>2,000<br>2,000<br>Selection  Guide<br>Fiber Units<br>Standard Installation<br>Saving Space<br>Beam Improvements<br>Transparent Objects<br>Environmental Immunity<br>Applications<br>Fiber Amplifiers,  Communications  Unit, and  Accessories<br>Technical  Guide and  Precautions<br>Model Index<br>**----- End of picture text -----**<br>


## **- Reference Information for Model Selection -** [oo 

## **Aperture angle and Optical Axis Diametererture angle and Optical Axis Diametergle and Optical Axis Diameterle and Optical Axis Diameterptical Axis Diametertical Axis Diameter** 

**31** 

**Beam Improvements** 

**32** 

~ @ PSSoe Fea ~~—~~ ‘ **Threaded** ~~a~~ **Cylindrical** : **Flat Specifications Sleeved** ; **Small Spot Sensing direction Appearance (mm) High Power Narrow view** 20.5 3.8 **BGS Flat-view** 14 14 **Retro-** 2.5 **reflective** 11 ~~i —_5~~ **Limitedreflective** 18 **Side-view** 4 **Chemical-** 16 **resistant, Oil-resistant Note 1. 2. Bending 3. Heatresistant 4. 5. Area Detection Liquid-level Vacuum** 

**FPD, Semi, Solar Installation Information** 

**==> picture [194 x 183] intentionally omitted <==**

**----- Start of picture text -----**<br>
Stable<br>detection<br>Background is not detected<br>Sensing<br>range<br>=<br>9999 Tot<br>8000 CCAMto<br>6000 FCCCOACEAN EEEEECE E32-L25L + E3NX-FA21<br>White paper<br>4000 CCE Black paper<br>2000 Glass, t = 0.7<br>SUS304<br>ECCURECANCEELPLEA CELL = |<br>0 1 2 3 4 5 6 TT 7 8 9 ERSECE 10 11 12 13 14 15 16 17 18 19 20 PT TT<br>Distance (mm)<br>E<br>Digital incident level<br>**----- End of picture text -----**<br>


•  These Fiber Units detect only objects in the sensing range. Objects in the background that are located beyond a certain point are not detected. They are not easily affected by the material or color of the sensing object. 

## **Limited-reflective Fiber Units** 

|**Sensing**<br>**direction**|**Appearance (mm)**|**Appearance (mm)**|**Bending**<br>**radius**<br>**of cable**|**Sensing distance(mm)**<br>~~ae~~|**Sensing distance(mm)**<br>~~ae~~|**Sensing distance(mm)**<br>~~ae~~|**Sensing distance(mm)**<br>~~ae~~|**Standard**<br>**sensing object**<br>**(minimum**<br>**sensing**<br>**object)**<br>~~ae~~<br>~~ee~~|**Models**|**33 Page**<br>**Dimensions**<br>**No.**|
|---|---|---|---|---|---|---|---|---|---|---|
|||||**E3X**~~**-**~~**HD**<br>~~ae~~||**E3NX**~~**-**~~**FA**<br>~~ae~~|||||
|||||**HS**<br>**GIGA**<br>~~ee~~|**Other modes**<br>~~ee~~|**HS**<br>**GIGA**<br>~~ee~~|**HS**<br>**Other modes**<br>~~ee~~||||
|**Flat-view**|20.5<br>3.8<br>14<br>IP40<br>~~—_5~~||R25<br>|0 to 15<br>0 to 15<br>~~ee~~<br>~~PE~~|0 to 15<br>0 to 15<br>0 to 15<br>0 to 12<br>ST  :<br>SHS:<br>~~ee~~<br>~~PE~~|0 to 15<br>0 to 15<br>~~ee~~<br>~~PE~~|0 to 15<br>0 to 15<br>0 to 15<br>0 to 12<br>ST  :<br>SHS:<br>~~ee~~<br>~~PE~~|Soda glass with<br>reflection factor<br>of 7%<br>**object)**<br>~~ee~~|**E32**~~**-**~~**L16**~~**-**~~**N 2M**|**33**~~**-**~~**A**|
|||IP40<br>~~—_5~~|||||||||
||14<br>2.5<br>11<br>IP50<br>~~—_5~~<br>[|||R10<br>|0 to 4<br>0 to 4<br>~~PE~~|0 to 4<br>0 to 4<br>ST  :<br>SHS:<br>~~PE~~|0 to 4<br>0 to 4<br>~~PE~~|0 to 4<br>0 to 4<br>ST  :<br>SHS:<br>~~PE~~|(5 µm dia./<br>2 µm dia.)|**E32**~~**-**~~**L24S 2M**|**33**~~**-**~~**B**|
|||IP50<br>~~—_5~~<br>[||||||||||
|**Side-view**|18<br>4<br>16<br>IP50<br>~~—_5 ~~<br>[|<br>=|||5.4 to 9<br>5.4 to 9<br>(Center 7.2)<br> ~~PE~~|5.4 to 9<br>5.4 to 9<br>ST  :<br>SHS:<br>(Center 7.2)<br>~~PE~~|5.4 to 9<br>5.4 to 9<br>(Center 7.2)<br>~~PE~~|5.4 to 9<br>5.4 to 9<br>5.4 to 9<br>5.4 to 9<br>ST  :<br>SHS:<br>(Center 7.2)<br>~~PE~~||**E32**~~**-**~~**L25L 2M**|**33**~~**-**~~<br>**C**|
|||IP50<br>=|||||||||



**Note 1.** If operation is affected by the background, perform power tuning or use the ECO Mode to decrease the incident light level. 

**2.** The following mode names and response times apply to the modes given in the Sensing distance column. 

- [E3X-HD] GIGA: Giga-power mode (16 ms), HS: High-speed mode (250 µs), ST: Standard mode (1 ms), and SHS: Super-high-speed mode (NPN output: 50 µs, PNP output: 55 µs) [E3NX-FA] GIGA: Giga-power mode (16 ms), HS: High-speed mode (250 µs), ST: Standard mode (1 ms), and SHS: Super-high-speed mode (30 µs) 

**3.** The values for the minimum sensing object are reference values that indicate values obtained in standard mode with the sensing distance and sensitivity set to the optimum values. The first value is for the E3X-HD and the second value is for the E3NX-FA. 

**4.** The sensing distances for Reflective Fiber Units are for white paper. 

**5.** The sensing distances for the E3NX-FA are values for E3NX-FA @ devices. The distance for E3NX-FAH @ infrared models varies. 

**32** 

**Beam Improvements** 

**33** 

**Installation Information** 

## **Dimensions** 

Installation Information → 59 Page 

## **Limited-reflective Fiber Units** 

CO **33-A E32-L16-N 2M** (Free Cutting) 

**==> picture [432 x 690] intentionally omitted <==**

**----- Start of picture text -----**<br>
14 10.6<br>| [og<br>0.95 7 (45)<br>2.7 on 6.8 e<br>20.5 2,000<br>3.8 ee<br>\ (PVC)<br>— 33-B E32-L24S 2M  (Free Cutting)<br>Two, 3.5 dia. mounting holes<br>with two, 6 dia. countersinks on both sides (ABS)<br>3.5 Two, 1 dia.<br>11<br>2<br>Sensing surface 2<br>3.5 7<br>1 4 2,000<br>E39-F9: Provided<br>2.5<br>CO 33-C E32-L25L 2M  (Free Cutting)<br>Sensing surface Two, 3.2 dia.<br>Sensing distance<br>“ 4 18<br>6<br>16 6.5 E39-F9: Provided<br>Two, 1 dia.<br>(Polycarbonate)<br>Two, 3.2 dia. mounting holes<br>with two, 6 dia. countersinks<br>on both sides 2,000<br>- Reference Information for Model Selection -<br>Sensing Distance vs. Digital Valueg Distance vs. Digital Value Distance vs. Digital Valuegital Valueital Value<br>The following graphs show how the digital value is high within the sensing range and small outside. White paper<br>This explains why false detection does not occur outside the sensing range, even against common metal  Black paperGlass, t = 0.7<br>backgrounds, such as stainless steel. SUS304<br>E32-L16-N E32-L24S E32-L25L<br><> Sensing range  | Sensing range ——| Sensing range —<br>9999 Po 9999 a ee 9999 ee eee<br>8000 | yy tf 8000 P\\\i tf | 8000 ae<br>60004000 PVPVAM\\\V 60004000 yfWV\\\i\\V 60004000 ae)ee)ee<br>2000 NN ee 2000 H \\\G 2000 a)| ee |\\ ae<br>0 0 0<br>0 5 10 15 20 25 30 0 5 10 15 0 5 10 15<br>Distance (mm) Distance (mm) Distance (mm)<br>* E3NX-FA21 used in high-speed (HS) mode<br>surfaceSensing  two, 6 dia. countersinks on both sidesTwo, 3.2 dia.mounting holes with<br>Two, 2.2 dia.<br>Model display tube<br>Digital value Digital value Digital value<br>**----- End of picture text -----**<br>


## **- Reference Information for Model Selection -** 

## **Sensing Distance vs. Digital Valueg Distance vs. Digital Value Distance vs. Digital Valuegital Valueital Value** 

a **Threaded Cylindrical Flat Sleeved** oe **Small Spot High Power Narrow view BGS Retroreflective Limitedreflective Chemicalresistant, Oil-resistant Bending Heatresistant** 

**High Power** 

**Heatresistant Area Detection Liquid-level Vacuum** 

**Vacuum FPD, Semi, Solar** 

**33** 

**Transparent Object Detection** 

**==> picture [560 x 823] intentionally omitted <==**

**----- Start of picture text -----**<br>
||||||||||||||||||||
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
|34|Transparent Object Detection|
|Retro-reflective|Retro-reflective|→|This page|Limited-reflective|→|36 page|
|•  Retro-reflective Fiber Units are ideal for detecting transparent objects. Retro-reflective Fiber Units are ideal for detecting transparent objects.|
|The light beam passes through the object twice, this model interrupts light more|
|than Through-beam model.|
|<Through-beam>|<Retro-reflective>|
|Attenuation 11%|High Attenuation|Attenuation 20%|
|•  Excellent detection performance with transparent films.|
|=|a|>|“=|ba|<-esh|
|(E32-LR11NP + E39-RP1)|
|The specially designed filter eliminates undesirable light, which allows|
|significantly more light to be interrupted for stable detection of films.|
|Before|Low Attenuation|Using E32-LR11NP|High Attenuation|
|Interrupted|Interrupted|Dramatically increases attenuation by cutting|
|Threaded|light level|light level|distorted light caused by double refraction.|
|18%|80%|Fiber|
|Fiber|
|Film|
|Cylindrical|* Installation distance: 200 mm, Sensing Before|Using E32-LR11NP|Film|Reflector|
|object: Multilayered polyolefin film,|Special polarizing|Reflector|
|Sensing object position: Middle|filters|
|Flat|
|Specifications|
|Sleeved|Retro-reflective Fiber Units (With M.S.R. Function)|
|:|
|Type|Sensing distance (mm)|Optical axis|
|Small Spot|Bending|diameter|35 Page|
|Appearance (mm)|radius|E3X-HD|E3NX-FA|(minimum|Models|Dimensions|
|Features|Size|of cable|sensing|No.|
|High Power|||||GIGA|HS|re|Other modes|GIGA|HS|Other modes|object)|
|Narrow|
|view|Film detection|M6|15.8|8.5|44|80|Flexible,R2|1,350|ST  :|1,200|2,020|ST  :|1,800|-|E32|-|LR11NP 2M+|35-A|
|BGS|*|M6|1,000|SHS:|550|1,500|SHS:|550|E39|-|RP1|
|=||ORS|IP50|
|Retro-|40.3|150 to 1,500|150 to 1,500|
|reflectiveLimited-|Square|21.5|42|59.9|R25|150 to 1,500|ST  :SHS:|150 to 1,500150 to 1,500|150 to 1,500|ST  :SHS:|150 to 1,500150 to 1,500|0.07 dia.)(0.2 dia./|E32|-|R16 2M|35-B|
|reflective|10|IP66|
|el|aie|22.5|Oo|
|Chemical-resistant,Oil-resistant|Threaded Models|M6|27.8|M6|38|IP67|R10|10 to 25010 to 250|ST  :SHS:|10 to 25010 to 250|10 to 37010 to 370|ST  :SHS:|10 to 37010 to 250|0.03 dia.)(0.1 dia./|E32|-|R21 2M|35-C|
|Bending|*  This effect may not be as strong for some films. Check suitability beforehand.|PE|[See]|
|Note 1.|Objects with a high reflection factor may cause the Fiber Sensor to detect reflected light as incident light. Also, stable detection may not be possible for transparent objects.|
|Heat-|Check suitability beforehand.|
|resistant|2.|The following mode names and response times apply to the modes given in the Sensing distance column.|
|[E3X-HD] GIGA: Giga-power mode (16 ms), HS: High-speed mode (250 µs), ST: Standard mode (1 ms), and SHS: Super-high-speed mode (NPN output: 50 µs, PNP output: 55 µs)|
|[E3NX-FA] GIGA: Giga-power mode (16 ms), HS: High-speed mode (250 µs), ST: Standard mode (1 ms), and SHS: Super-high-speed mode (30 µs)|
|Area|3.|The values for the minimum sensing object are reference values that indicate values obtained in standard mode with the sensing distance and sensitivity set to the optimum values.|
|Detection|The first value is for the E3X-HD and the second value is for the E3NX-FA.|
|4.|The sensing distances for the E3NX-FA are values for E3NX-FA|@|devices. The distance for E3NX-FAH|@|infrared models varies.|
|Liquid-level|
|Vacuum|
|FPD,|
|Semi,|
|Solar|
|Installation|
|Information|
|=|
|34|

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


•  Retro-reflective Fiber Units are ideal for detecting transparent objects. Retro-reflective Fiber Units are ideal for detecting transparent objects. The light beam passes through the object twice, this model interrupts light more than Through-beam model. 

**==> picture [292 x 62] intentionally omitted <==**

**----- Start of picture text -----**<br>
Before Low Attenuation Using E32-LR11NP High Attenuation<br>Interrupted Interrupted Dramatically increases attenuation by cutting<br>light level light level distorted light caused by double refraction.<br>18% 80% Fiber<br>Fiber<br>Film<br>Before Using E32-LR11NP Film Reflector<br>* Installation distance: 200 mm, Sensing Before<br>  object: Multilayered polyolefin film,  Special polarizing  Reflector<br>  Sensing object position: Middle filters<br>**----- End of picture text -----**<br>


**Transparent Object Detection** 

**35** 

**Threaded Cylindrical Flat Sleeved Small Spot High Power Narrow view BGS Retroreflective Limitedreflective Chemicalresistant, Oil-resistant Bending Heatresistant** 

**Heatresistant** a **Area Detection Liquid-level Vacuum FPD, Semi, Solar** | **Installation Information** ~~a~~ 

## **Dimensions** 

**==> picture [170 x 8] intentionally omitted <==**

**----- Start of picture text -----**<br>
Installation Information  → 58, 59 and 61 Page<br>**----- End of picture text -----**<br>


## **Retro-reflective Fiber Units (With M.S.R. Function)** 

**==> picture [478 x 409] intentionally omitted <==**

**----- Start of picture text -----**<br>
Co 35-A E32-LR11NP 2M  (Free Cutting)  E39-RP1<br>(11.5 ) 2,000 44 8.5<br>3<br>(45)<br>4.8<br>0.2<br>15.8 11 Toothed washer (Nickel-plated iron)<br>Hexagonal nut Opposite side: 10, Thickness: 2.4 (Nickel-plated brass)<br>ve M6×0.75  (Trivalent chrome-plated zinc alloy) 80 72 63.6<br>5 Sensing surface Two, 1.5 dia.<br>2.35 (optical filter) Model display tube<br>10 Material:<br>- il <Reflective surface><br>  Methacrylate resin<br>Two, 2.2 dia. Two, 3.5 dia  <Back> ABS<br><i 35-B E32-R16 2M  (Free Cutting)  E39-R1  (Provided)<br>27 15 40.3<br>7 Two, 3.5 dia. 34 7.5<br>7<br>13<br>==. “|<br>10 Sensing surface (6) 16<br>7.2 Lens (PMMA) (ABS)<br>~ 59.9 Til 52<br>21.5 15.2 8<br>Two, 2.2 dia.<br>Standard length: 2 m Material:<br>17 21 22.5 Two, M3 set screws:(Nickel-plated zinc) (provided) 8 <Reflective surface>   Methacrylate resin<br>bo Mounting bracket (Zinc-plated iron) provided 1.6 S eo i 2.7 <Back> ABS<br>D 35-C  E32-R21 2M  (Free Cutting)  O E39-R3  (Provided)<br>29<br>Sensing surfaceLens (PMMA) M6×0.75 (ABS) Opposite side 10, thickness 3 (Polyacetal)Washer (Nitrile rubber)Silicon tube 7 3.44.5 a 6 R203.4 14° 13.7<br>Two, 1 dia. 18.45 0.2<br>22.9 20<br>5 dia. 0.2<br>2.2<br>2.8 11 14 E39-F9: Provided Two, M3 set screws: 11 Adhesive tape side<br>1 7.8 2,000 (Nickel-plated iron) 22.5<br>27.8  (provided) 1 9.3 16 Two, 3.2 dia.<br>41.8 25.4 34.8 38 R25.4 3.2 34 Material: <Reflective surface><br>  Methacrylate resin<br>10.1 1.2 <Back> ABS<br>2.6 Mounting bracket:<br>1.2 10° Stainless steel (SUS304)<br>**----- End of picture text -----**<br>


**==> picture [395 x 288] intentionally omitted <==**

**----- Start of picture text -----**<br>
- Reference Information for Model Selection -<br>ee<br>Performance Comparison of Transparent Object Detection<br>For detecting transparent objects, consider using following products together: E32-LR11NP 2M + E39-RP1.<br>•  This configuration features a special built-in optical filter that ensures stable detection of double-refractive materials,<br> such as films and PET bottles.<br>•  The retro-reflective model is suitable for detecting glass.<br>Sensing object  Film wrapper on cigarette  PET bottles bottlesGlass  Plate glass, t: 0.7<br>Models packs<br>E32-LR11NP 2M + E39-RP1 tt O<br>E32-R16 2M<br>E32-R21 2M<br>ee oe :<br>E32-LR11NP  Usage in Combination with a Sheet Reflector<br>Reference values of sensing distance are provided in the following table.<br>pO Sensing distance (mm) (reference values)<br>Reflector shape<br>(mm) EW E3X-HD E3NX-FA Models<br>GIGA HS Other modes GIGA HS Other modes<br>Ce | _<br>50 550 ST  : 500 820 ST  : 750<br>E39 - RSP1<br>12 430 SHS: 250 640 SHS: 250<br>13.7<br>210 ST  : 190 310 ST  : 280<br>23 E39 - RP37<br>160 − 240 −<br>**----- End of picture text -----**<br>


**35** 

**Transparent Object Detection** 

**36** 

**Retro-reflective** → 34 page **Limited-reflective** → This page 

**Vacuum FPD, Semi, Solar Installation Information** 

**==> picture [548 x 523] intentionally omitted <==**

**----- Start of picture text -----**<br>
|||||||||||||||||||||
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
|•  These Fiber Units are based on a limited-reflective optical system where|
|the emitting light and receiving light axes intersect at the same angle.|
|This allows for stable detection of glass because the Fiber Units receives|
|the specular reflection of the glass when the glass is in the sensing range.|
|Stable Detection of Glass|
|Background is not detected.|
|Sensing|
|range|
|—|—~|9999|Tot|
|—|8000|PECAN|E32-L25L+E3NX-FA21|
|Ll|6000|PCE|Glass, t = 0.7|
|—|4000|PECHPCECENEEPEERE|SUS304|
|Threaded|
|2000|PSEC|EEEEe)|[|=]|
|0|
|—|0|Saee|1|2|3|[AHAEEEASS]|4|5|6|7|8|9|1011121314151617181920|OE|AEREI|
|Cylindrical|Distance (mm)|
|Flat|
|Specifications|
|Sleeved|
|;|Limited-reflective Fiber Units|
|Small Spot|Type|Bending|Po|Sensing distance (mm)|Standard|37 Page|
|Appearance (mm)|radius|E3X|-|HD|E3NX|-|FA|sensing object|Models|Dimensions|
|High Power|Features|[Detection]|direction|of cable|sensing object)(minimum|No.|
|ee|le=|GIGA|HS|Other modes|GIGA|=|HS|Other modes|
|Narrow|
|view|Small size|2.514|R10|0 to 4|ST  :|0 to 4|0 to 4|ST  :|0 to 4|(5 µm dia./|E32|-|L24S 2M|37|-|A|
|11|0 to 4|SHS:|0 to 4|0 to 4|SHS:|0 to 4|2 µm dia.)|
|[||IP50|
|BGS|
|20.5|0 to 15|ST  :|0 to 15|0 to 15|ST  :|0 to 15|
|Standard|3.8|E32|-|L16|-|N 2M|37|-|B|
|Retro-|14|0 to 15|SHS:|0 to 12|0 to 15|SHS:|0 to 12|
|reflective|Flat-|IP40|
|view|
|:|Limited-reflectiveChemical-reflectiveChemical-Chemical-|Glass-substrate alignment, 70°C|524.514|=|IP40|R25|10 to 2010 to 20|ST  :SHS:|10 to 20−|10 to 2010 to 20|ST  :SHS:|10 to 20−|Soda glass with reflection factor of 7%|E32*|-|A08 2M|37|-|C|
|resistant,Oil-resistantOil-resistant|Standardlong distance|524.5|12 to 3012 to 30|ST  :SHS:|12 to 30−|12 to 3012 to 30|ST  :SHS:|12 to 30−|E32|-|A12 2M|37|-|D|
|Bending|14|[||IP40|
|Heat-resistantresistant|Side Viewform|Side-view|164|18|R10|5.4 to 9 5.4 to 9|ST  :SHS: (Center 7.2)5.4 to 95.4 to 9|5.4 to 9 5.4 to 9|ST  :SHS: (Center 7.2)5.4 to 95.4 to 9|(5 µm dia./2 µm dia.)|E32|-|L25L 2M|37|-|E|
|——|[||IP50|(Center 7.2)|(Center 7.2)|
|AreaDetectionDetection|Glass-substrate Mapping, 70°C|Top-view|92320|[||IP40|R25|15 to 3815 to 38 (Center 25)|ST  :SHS:|(Center 25)15 to 38−|15 to 3815 to 38 (Center 25)|ST  :SHS:|(Center 25)15 to 38−|soda glass with reflection factor rounded edges)End surface of (t = 0.7 mm, of 7%|E32|-|A09 2M|37|-|F|

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


**Retroreflective** : **Limited-reflectiveChemical-reflectiveChemical-Chemicalresistant,Oil-resistantOil-resistant Bending Heat-resistantresistant** ~~——~~ **AreaDetectionDetection Liquid-level Vacuum** 

- If operation is affected by the background, perform power tuning to decrease the incident light level. 

**Note 1.** The following mode names and response times apply to the modes given in the Sensing distance column. [E3X-HD] GIGA: Giga-power mode (16 ms), HS: High-speed mode (250 µs), ST: Standard mode (1 ms), and SHS: Super-high-speed mode (NPN output: 50 µs, PNP output: 55 µs) [E3NX-FA] GIGA: Giga-power mode (16 ms), HS: High-speed mode (250 µs), ST: Standard mode (1 ms), and SHS: Super-high-speed mode (30 µs) 

**2.** The values for the minimum sensing object are reference values that indicate values obtained in standard mode with the sensing distance and sensitivity set to the optimum values. The first value is for the E3X-HD and the second value is for the E3NX-FA. 

**3.** The sensing distances for Reflective Fiber Units are for white paper. 

**4.** The sensing distances for the E3NX-FA are values for E3NX-FA @ devices. The distance for E3NX-FAH @ infrared models varies. 

**36** 

**Transparent Object Detection** 

**37** 

**Threaded Cylindrical Flat Sleeved** 

## **Dimensions** 

**==> picture [143 x 9] intentionally omitted <==**

**----- Start of picture text -----**<br>
Installation Information  → 58, 59 Page<br>**----- End of picture text -----**<br>


## **Limited-reflective Fiber Units** 

**==> picture [520 x 703] intentionally omitted <==**

**----- Start of picture text -----**<br>
37 - A E32-L24S 2M  (Free Cutting) 37 - D E32-A12 2M  (Free Cutting)<br>Two, 3.5 dia. mounting holeswith two, 6 dia. Countersinkson both sides (ABS) 3.8 10.7 [| 6.5 (ABS) Two, 2.2 dia.<br>3.5 Two, 1 dia. 14 12<br>11 2 Sensing surface 1.1 Two, 3.2 dia. mounting holes with two, 6 dia. Countersinks on both sides<br>Sensing surface 2 24.5 2,000<br>7<br>3.5 1 4 2,000<br>E39-F9: Provided 5<br>2.5<br>37 - B E32-L16-N 2M  (Free Cutting)Two, 3.2 dia.mounting holes with 37 - E E32-L25L 2M  (Free Cutting)Sensing surface Two, 3.2 dia. ——<br>two, 6 dia. Countersinks on both sides 4 18 Sensing distance Threaded<br>6<br>14 10.6 16 6.5 E39-F9: Provided<br>a Two, 1 dia. Cylindrical<br>0.95 7 (Polycarbonate)<br>2.7 6.8 20.5 2,000 Two, 3.2 dia. mounting holeswith two, 6 dia. countersinkson both sides 2,000 Flat<br>3.8<br>a (PVC)<br>Sleeved<br>37 - C E32-A08 2M  (Free Cutting) 37 - F E32-A09 2M  (Free Cutting)<br>3.8 10.7 6.5 (ABS) Two, 2.2 dia. Sensing surface (Aluminum)<br>9 5.8 dia. Lenses  Small Spot<br>14 12<br>Sensing surface 1.1 Two, 3.2 dia. mounting holes with  20 8.9 Two, 2.2 dia.<br>24.5 two, 6 dia. Countersinks on both sides 2,000 High Power<br>12 7 Two, 3.2 dia. mounting holes with<br>two, 6 dia. countersinks on one side<br>5 23 2,000 Narrow<br>view<br>BGS<br>Retro-<br>reflective<br>Limited-<br>reflective<br>Chemical-<br>resistant,<br>Oil-resistant<br>- Reference Information for Model Selection -<br>Bending<br>Sensing Distance vs. Digital Valueg Distance vs. Digital Value Distance vs. Digital Valuegital Valueital Value Heat-<br>resistant<br>Limited-reflective Fiber Unit can keep high digital value within the sensing area for glass.<br>The digital value gets lower out of the sensing area for metals, including SUS (common as background). Glass, t = 0.7SUS304 Area<br>Detection<br>E32-L24S E32-A08 E32-L25L<br>Sensing range Sensing range Sensing range Liquid-level<br>—_ —_| —_<br>99998000 aVl 99998000 eo 99998000 Fey — Vacuum<br>6000 Aire ee} 6000 fees 6000 Ff eee — FPD,<br>Semi,<br>4000 Attire =P 4000 tgp ee 4000 ye Solar<br>2000 PY eee 2000  ae 2000 ei —<br>0 0 0<br>0 5 10 15 20 0 10 20 30 40 0 5 10 15 20<br>PS Distance (mm) eS Distance (mm) Ee Distance (mm) a<br>E32-L16-N E32-A12 E32-A09<br>Sensing range Sensing range Sensing range<br>99998000 a aa 99998000 |S 99998000 0<br>6000 6000 6000<br>PAYS SRE) Pe<br>4000 Pee 4000 reorntrer) 4000  etetreiic<br>2000 PE 2000 ASAYS 2000 S|]ie 4<br>00 P 10 20 N 30 40 00 a 10 20 oo 30 40 | 50 60 0 0 20 40 60 80 9 100<br>Distance (mm) Distance (mm) Distance (mm)<br>* E3NX-FA21 used in high-speed (HS) mode.<br>Sensing surface<br>Two, 2.2 dia.<br>Model display tube<br>(45)<br>Selection  Guide<br>Fiber Units<br>Digital value Digital value Digital value<br>Fiber Amplifiers,  Communications  Unit, and<br>Digital value Digital value Digital value Technical  Guide and<br>Model Index<br>**----- End of picture text -----**<br>


**Sleeved Small Spot High Power Narrow view BGS Retroreflective Limitedreflective Chemicalresistant, Oil-resistant Bending Heatresistant** 

## **- Reference Information for Model Selection -** 

## **Sensing Distance vs. Digital Valueg Distance vs. Digital Value Distance vs. Digital Valuegital Valueital Value** 

**Liquid-level** — **Vacuum** — **FPD, Semi, Solar** — **Installation Information** ~~a~~ 

**37** 

**Environmental Immunity** 

**38** 

- These Fiber Units are made from fluororesin for resistance to chemicals. 

**==> picture [292 x 114] intentionally omitted <==**

**----- Start of picture text -----**<br>
||||||||
|---|---|---|---|---|---|---|
|Chemical-resistant Data for Fluororesin (Reference)|
|Material|
|Chemical|Fluororesin|Acryl|ABS|Polycarbonate|Polyethylene|PVC|
|Hydrochloric acid|
|es|=|se|
|Sulfuric acid|
|es|=|
|Sodium hydroxide|
|es|=|eseo|
|=|Methyl alcohol|sO|
|Acetone|
|es|=|
|Toluene|
|ee|os|ee|es|
|Benzene|
|PoC|ws|||we|ex|
|Note:|Results depend on concentration.|

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


**==> picture [550 x 610] intentionally omitted <==**

**----- Start of picture text -----**<br>
|||||||||||||||||||||||||
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
|Threaded|
|Cylindrical|Specifications|
|Through-beam Fiber Units|
|Flat|
|Sensing distance (mm)|Optical axis|
|ee|Bending|Po|diameter|39 Page|
|Sleeved|Type|directionSensing|Appearance (mm)|radius|E3X|-|HD|E3NX|-|FA|(minimum|Models|Dimensions|
|of cable|sensing|No.|
|GIGA|HS|Other modes|GIGA|HS|Other modes|object)|
|———|je|=|||[ew|=]|||
|Small SpotHigh Power|Oil-resistant|Right-angle|Build|19.1|in|<im,|M8|:|CI|*3IP68G|Flexible, R1|4,000 *14,000 *1|ST  :SHS:|4,0002,200*1|4,000 *14,000 *1|ST  :SHS:|4,0002,200*1|0.03 dia.)(0.1 dia./4 dia.|E32|-|T11NF 2M|NEW|39-A|
|Narrow view|16|M4|_|*3|Flexible, R1|730|2,200|ST  :SHS:|1,100270|1,100|3,300|ST  :SHS:|1,600270|0.03 dia.)(0.1 dia./2 dia.|E32|-|T11NFS 2M|39-A2|
|IP68G|
|4,000 *1|*1|4,000 *1|*1|
|BGS|20|R40|4,000 *1|ST  :|4,000|4,000 *1|ST  :|4,000|E32|-|T12F 2M|39-B|
|Retro-|Top-view|5 dia.|IP67|4,000 *1|SHS:|1,600*1|4,000 *1|SHS:|1,600*1|(0.1 dia./4 dia.|
|reflective|Chemical/|35|ST  :|4,000|ST  :|4,000|0.03 dia.)|
|oil|R4|E32|-|T11F 2M|39-C|
|Limited-|resistant|7.2 dia.|2,600|SHS:|1,000|3,900|SHS:|1,000|
|reflective|IP67|
|21|
|1,400|ST  :|800|2,100|ST  :|1,200|3 dia.|
|——_—_|Chemical-|Side-view|—|(0.1 dia./|E32|-|T14F 2M|39-D|
|resistant,|5 dia.|500|SHS:|200|750|SHS:|200|0.03 dia.)|
|mee|Oil-resistant|IP67|R40|OF|les|
|BendingHeat-|Chemical/oil resistant150°C *2|Top-view|Zz|20|5 dia.|[||IP67|1,8004,000 *1|ST  :SHS:|2,800700|4,000 *12,700|ST  :SHS:|4,000*1700|0.03 dia.)(0.1 dia./4 dia.|E32|-|T51F 2M|39-E|
|resistant|*1  The optical fiber is 2 m long on each side, so the sensing distance is 4,000 mm.|
|*2  For continuous operation, use the Fiber Unit between −40 and 130°C.|
|*3. The IP68G is the degree of protection which is defined according to the JIS (Japanese Industrial Standards). The IP68 indicates the same level of protection as defined by the IEC, and the G|
|Area|indicates that a device has resistance to oil. Passed OMRON's Oil-resistant Component Evaluation Standards (OMRON's own durability evaluation standards) (Cutting oil type: specified in JIS K 2241:2000; Temperature: 35°C max.)|
|Detection|Note.|The sensing distances for the E3NX-FA are values for E3NX-FA|@|devices. The distance for E3NX-FAH|@|infrared models varies.|
|—|Reflective Fiber Units|
|Liquid-level|
|PO|Sensing distance (mm)|Standard|
|Vacuum|Type|directionSensing|Appearance (mm)|Bendingradius|E3X|-|HD|E3NX|-|FA|sensing object(minimum|Models|Dimensions39 Page|
|of cable|No.|
|FPD,|GIGA|HS|Other modes|GIGA|HS|Other modes|sensing object)|
|Semi,|
|Installation InformationSolar|Semiconductors: Cleaning, developing, and etching, 60°C|2014|40|;|Mounting holesA|-|IP67|je|19 to 31 mm from center of mounting hole A (Recommended sensing distance: 11 mm)(Recommended sensing distance: 22 mm)|=|8 to 20 mm from tip of lens|||[we|=]|||Glass|E32|-|L11FP 2M|39-F|
|a|Be|(t=0.7 mm)|—|
|Semiconductors:|8 to 20 mm from tip of lens|
|Resist stripping,|Mounting holesA|R40|32 to 44 mm from center of mounting hole A (Recommended sensing distance: 11 mm)|E32|-|L11FS 2M|39-G|
|85°C|Top-view|38.5|A|“Tl|17.5|IP67|Be|(Recommended sensing distance: 35 mm)|—|
|Chemical/|16|GIGA  −|ST  :|190|GIGA  −|ST  :|280|
|oil|E32|-|D12F 2M|39-H|
|resistant|6 dia.|130|SHS:|60|190|SHS:|60|
|a|i|IP67|(5 µm dia./|
|Only cable:|17|840|ST  :|350|1,260|ST  :|520|2 µm dia.)|
|chemical|R4|E32|-|D11U 2M|39-I|
|resistant|M6|240|SHS:|100|360|SHS:|100|
|,|:|IP67|
|Note 1.|The following mode names and response times apply to the modes given in the Sensing distance column.|
|[E3X-HD] GIGA: Giga-power mode (16 ms), HS: High-speed mode (250 µs), ST: Standard mode (1 ms), and SHS: Super-high-speed mode (NPN output: 50 µs, PNP output: 55 µs)|
|[E3NX-FA] GIGA: Giga-power mode (16 ms), HS: High-speed mode (250 µs), ST: Standard mode (1 ms), and SHS: Super-high-speed mode (30 µs)|
|2.|The values for the minimum sensing object are reference values that indicate values obtained in standard mode with the sensing distance and sensitivity set to the optimum values.|
|The first value is for the E3X-HD and the second value is for the E3NX-FA.|
|3.|The sensing distances for Reflective Fiber Units are for white paper.|

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


**4.** The sensing distances for the E3NX-FA are values for E3NX-FA @ devices. The distance for E3NX-FAH @ infrared models varies. 

**38** 

**39** 

## **Environmental Immunity** 

**==> picture [523 x 661] intentionally omitted <==**

**----- Start of picture text -----**<br>
Installation Information  → 60 Page Installation Information  → 58, 59 Page<br>Through-beam Fiber Units (Set of 2) Reflective Fiber Units<br>39-A E32-T11NF 2M  (Free Cutting) = 39-F E32-L11FP 2M  (Free Cutting)<br>Sensing object<br>40 (Glass)<br>Type indicated tube<br>o O 14 —— (PFA) —<br>10 22 (Heat-resistant PVC)<br>2.2 dia.<br>(fluororesin) 27<br>Sensing head 12<br>(SUS303) (23) 2,000<br>(5.4) au<br>_ a) apa<br>19.1 7.5 (PFA) Mounting hole: Two, 4.2 dia.<br>10.7 (45)<br>Opposite side: 13 Thickness: 5 (SUS XM7),  Threaded<br>Washer(SUS304) Two, 4 dia. (t=0.5)<br>Sensing surface  (PTFE)<br>4 dia.(Glass) M8×1 length: 2 m<br>Cylindrical<br>= CD 39-A2 E32-T11NFS 2M  (Free Cutting) Two, 2.2 dia. aw e —_<br>7 6 dia. Type indicated tube Flat<br>7<br>(12) 2,000 39-G E32-L11FS 2M  (Free Cutting) Sleeved<br>Sensing object<br>6 __ - 17.5 38.5 (Glass) :<br>(16) 10 5 Optical fiber 2.2 dia. (Fluororesin) 10<br>Toothed lock washer (SUS) (PFA) Small Spot<br>M4×0.7 2.2 fh Hexagonal nut opposite side 7 thickness 2.4 (SUS304)Sensing head M4×0.7 (SUS303) | avo 35<br>Detecting surface 2 dia. (Glass) SUS316L<br>High Power<br>aa ake 39 _a<br>39-B E32-T12F 2M  (Free Cutting) Narrow<br>Sensing surface 12 view<br>Lens 4 dia. 5 dia.  (Fluororesin) 4 dia. 2.2 dia.<br>(PFA) BGS<br>ee 20 Th Two, 4 dia. (t=0.5)  Mounting hole: Two, 4.2 dia.<br>EEL 2,000 100 (PTFE)  lal<br>length: 2 m Retro-<br>i —_ reflective<br>= 39-C E32-T11F 2M  (Free Cutting)<br>Two, 2.2 dia. Limited-<br>Lens 3.7 dia. 7.2 dia.  (PFA) Nut (PFA) 2.2 dia.(Fluororesin) reflective<br>10 Chemical-<br>R3.6 19.8 3 1 0 39-H E32-D12F 2M  (Free Cutting) = Oil-resistantresistant,<br>35 2,000<br>6 dia.  (Fluororesin) 5 dia. Two, 2.2 dia.<br>Bending<br>39-D E32-T14F 2M  (Free Cutting)<br>16 Heat-<br>D 5 dia.  (Fluororesin) 4 dia. 2.2 dia. (SSS 2,000 100 oe resistant<br>—<br>Area<br>4.5 39-I E32-D11U 2M  (Free Cutting) Detection<br>21 M6×0.75<br>et | 2,000 100 | © (Nickel-plated brass)<br>Sensing surface Opposite side 10, thickness 2.4 (Nickel-plated brass) Liquid-level<br>Two, 1 dia. Washer (Nickel-plated iron)<br>39-E E32-T51F 2M  (Free Cutting) Two, 2.2 dia.<br>Sensing surfaceLens 3.7 dia. 5 dia.  (Fluororesin) 4 dia. 2.2 dia. Vacuum<br>Protective tube<br>5.2 15 FPD,<br>20 17 2,000 Semi,<br>< Se 1,800 200 . | _ Solar<br>Installation<br>Information<br>- Reference Information for Model Selection -<br>LE<br>Oil-resistance performance of the E32-T11NFperformance of the E32-T11NFerformance of the E32-T11NF Mechanical Seal Structure Structure Around Sensing<br>Fluororesin Outer Cable Sheath Aluminum  (2) Sealed with high pressure. Surface Also Resists Cutting Oil and Cutting Chips<br>(10.7)<br>13<br>13<br>Fiber Sensor  Features<br>Selection  Guide<br>Fiber Units<br>Standard Installation<br>Saving Space<br>Beam Improvements<br>Transparent Objects<br>Environmental Immunity<br>Applications<br>Fiber Amplifiers,  Communications  Unit, and  Accessories<br>**----- End of picture text -----**<br>


## **Dimensions** 

## **- Reference Information for Model Selection -** LE 

## **Oil-resistance performance of the E32-T11NFperformance of the E32-T11NFerformance of the E32-T11NF** 

**==> picture [262 x 109] intentionally omitted <==**

**----- Start of picture text -----**<br>
Mechanical Seal Structure Structure Around Sensing<br>Aluminum  (2) Sealed with high pressure. Surface Also Resists Cutting Oil and Cutting Chips<br>ring bushing<br>Blocked.<br>Shape that prevents accumulation<br>= Cutting oil of oil drops and cutting chips<br>Set screw<br>(1) Screw is turned<br>for pressure-fitting.<br>Fluororesin Spherical glass<br>Fiber core lens resists<br>oils adhered<br>**----- End of picture text -----**<br>


## **Fluororesin Outer Cable Sheath** 

The fluororesin that covers the entire surface of the cable sheath (fiber covering) prevents the penetration of cutting oil. 

## **Mechanical Seal Structure** 

An aluminum ring bushing is compressed and deformed by a set screw to seal the structure by pressing against the fluororesin part of the fiber core. This prevents the ingress of cutting oil from the joined surfaces. 

**39** 

**Environmental Immunity** 

**40** 

**Bending-resistant, Disconnection-resistant** 

**Through-beam** → This page **Reflective** → 42 page 

**Threaded Cylindrical** 

**Vacuum FPD, Semi, Solar Installation Information** ~~_~~ 

- Capable of withstanding one million repeated bends. 

Degree of bend: ±180° Bending radius: 4 mm Weight: 50 g Weight Bending rate: 30 times/minute 

- A large number of independent fine fibers 

- ensures good flexibility. Suitable for use on moving parts without easily breaking. 

**Cylindrical** 

**Flat Sleeved** 

**Small Spot** 

**High Power** 

**Narrow view BGS** 

**Retroreflective** ~~—~~ **Limitedreflective** : **Chemicalresistant, Oil-resistant Bending Heatresistant** 

**Heatresistant Area Detection Liquid-level Vacuum** 

- Protective Stainless Spiral Tube is available for covering the fiber cable to protect it from accidental breaking due to snagging or shock. 

## **Specifications** 

## **Through-beam Fiber Units** 

|**Size**|**Appearance (mm)**|**Appearance (mm)**|**Bending**<br>**radius**<br>**of cable**<br>~~je~~|**Sensing distance (mm)**<br>~~Po~~|**Sensing distance (mm)**<br>~~Po~~|**Sensing distance (mm)**<br>~~Po~~|**Sensing distance (mm)**<br>~~Po~~|**Optical axis**<br>**diameter**<br>**(minimum**<br>**sensing**<br>**object)**|**Models**|**41 Page**<br>**Dimensions**<br>**No.**|
|---|---|---|---|---|---|---|---|---|---|---|
|||||**E3X**~~**-**~~**HD**<br>~~Po~~<br>~~je=|~~<br>~~je~~||**E3NX**~~**-**~~**FA**<br>~~o~~<br>~~je=TT~~|||||
|||||**HS**<br>**GIGA**<br>~~je=|~~|**Other modes**<br>~~|~~<br>~~je~~|**HS**<br>**GIGA**<br>~~je=TT~~|**Other modes**<br>~~TT~~||||
|**1.5 dia.**|10<br>1.5 dia.<br>IP67<br>~~aA~~<br>i||Bendresistant,<br>R4<br>~~je~~|Bendresistant,<br>680<br>220<br>~~je = |~~|400<br>90<br>ST  :<br>SHS:<br>~~|~~<br>~~je~~|1,020<br>330<br>~~je = TT~~|600<br>90<br>ST  :<br>SHS:<br>~~TT~~|0.5 dia.<br>(5 µm dia./<br>2 µm dia.)|**E32**~~**-**~~**T22B 2M**|**41-A**<br>~~i~~|
|||IP67<br>i|||||||||
|**M3**|11<br>M3<br>IP67<br>~~aA~~<br>-||||||||**E32**~~**-**~~**T21 2M**|**41-B**<br>~~i~~<br>~~i~~|
|||IP67|||||||||
|**M4**|14<br>M4<br>IP67<br>~~Pl~~|||2,500<br>900<br>500<br>170|1,350<br>360<br>ST  :<br>SHS:<br>300<br>70<br>ST  :<br>SHS:|3,750<br>1,350<br>750<br>250|2,020<br>360<br>ST  :<br>SHS:<br>450<br>70<br>ST  :<br>SHS:|1 dia.<br>(5 µm dia./<br>2 µm dia.)<br>0.5 dia.<br>(5 µm dia./<br>2 µm dia.)|**E32**~~**-**~~**T11 2M**<br>**E32**~~**-**~~**T25XB 2M**<br>co<br>aes|**41-C**<br>**41-D**<br>~~i~~<br>—|
|||IP67|||||||||
|**Square**|12<br>7<br>2<br>IP67<br>~~Pl~~<br>a||||||||||
|||IP67|||||||||



- **Note 1.** The following mode names and response times apply to the modes given in the Sensing distance column. 

   - [E3X-HD] GIGA: Giga-power mode (16 ms), HS: High-speed mode (250 µs), ST: Standard mode (1 ms), and SHS: Super-high-speed mode (NPN output: 50 µs, PNP output: 55 µs) [E3NX-FA] GIGA: Giga-power mode (16 ms), HS: High-speed mode (250 µs), ST: Standard mode (1 ms), and SHS: Super-high-speed mode (30 µs) 

   **2.** The values for the minimum sensing object are reference values that indicate values obtained in standard mode with the sensing distance and sensitivity set to the optimum values. The first value is for the E3X-HD and the second value is for the E3NX-FA. 

   **3.** The sensing distances for the E3NX-FA are values for E3NX-FA @ devices. The distance for E3NX-FAH @ infrared models varies. 

## **Protective Stainless Spiral Tube (Sold separately)** 

Insert the fiber cable into the protective tube to prevent breaking by snagging or shock. 

|**Applicable Fiber Units**|**Model**|**Quantity**|**41 Page**<br>**Dimensions**<br>**No.**|
|---|---|---|---|
|E32-T11R 2M/E32-T11 2M/<br>E32-LT11 2M/E32-LT11R 2M/<br>E32-T51R 2M/E32-T51 2M|**E39**~~**-**~~**F32C 1M**|2 pieces|**41-E**|



* This Tube cannot be used if a Lens Unit is being used. 

**40** 

**Environmental Immunity** 

**41** 

## **Dimensions** 

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Installation Information  → 60, 61 Page<br>**----- End of picture text -----**<br>


## **Through-beam Fiber Units (Set of 2)** 

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41-A E32-T22B 2M  (Free Cutting)<br>CO)<br>Sensing surface: 1.5 dia.  (Nickel-plated brass)<br>4-0.25 dia. 1 dia.<br>E39-F9: Provided<br>10 2,000<br>,[ oo<br>41-B E32-T21 2M  (Free Cutting)<br>CO)<br>M3×0.5 Opposite side 5.5, thickness 1.8 (Nickel-plated brass)<br>(Nickel-plated brass) Washer (Nickel-plated brass)<br>Protective tube 1 dia.<br>E39-F9: Provided<br>15<br>2.5 11 2,000<br>Sensing surface: 0.5 dia.<br>**----- End of picture text -----**<br>


> **41-C E32-T11 2M** (Free Cutting) **M4×0.7** Opposite side 7, thickness 2.4 (Nickel-plated brass)Washer (Nickel-plated iron) (Nickel-plated brass) M2.6×0.45 Protective tube 2.2 dia. 15 3.2 3.3 **14** 2,000 Sensing surface: 1 dia. ~~rs~~ 

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41-D E32-T25XB 2M  (Free Cutting)<br>CO<br>Two, 2.2 dia. mounting holes with<br>Sensing surface two, 4.4 dia. countersinks on one side<br>0.5 dia. (Aluminum) 1 dia.<br>7 1 4.5<br>E39-F9: Provided<br>2.5 5<br>1 2 12 2,000 —"<br>Note 1:  Set of two symmetrically shaped Fiber Units.<br>Note 2:  Four, M2 × 8 stainless steel countersunk mounting screws are provided.<br>41-E E39-F32C 1M<br>CO Head connector<br>(Nickel-plated brass) End cap (Nickel-plated brass)<br>M4×0.7 Depth: 4 4 dia.<br>7 dia. 7 dia.<br>12  Tube 5.6 dia. (SUS304) 12<br>1,000<br>Note:  Saddles (four, trivalent chromate-plated iron) are provided.<br>**----- End of picture text -----**<br>


a **Threaded Cylindrical Flat Sleeved** ; **Small Spot High Power Narrow view BGS** —. **Retroreflective Limitedreflective Chemicalresistant, Oil-resistant Bending Heatresistant** ~~=~~ **Area Detection Liquid-level Vacuum FPD, Semi, Solar Installation Information** —_ 

**41** 

**Environmental Immunity** 

**42** 

**Bending-resistant, Disconnection-resistant** 

**Reflective** → This page 

**Through-beam** → 40 page 

**Threaded Cylindrical** 

**Flat Sleeved** ; **Small Spot High Power Narrow view BGS Retroreflective Limitedreflective** : **Chemical-** ~~ee~~ **resistant, Oil-resistant Bending Heatresistant** ~~im~~ **Area Detection Liquid-level Vacuum FPD, Semi, Solar Installation Information** 

- Capable of withstanding one million repeated bends. 

Degree of bend: ±180° Bending radius: 4 mm Weight: 50 g Weight Bending rate: 30 times/minute 

•  A large number of independent fine fibers 

ensures good flexibility. Suitable for use on moving parts without easily breaking. 

**Cylindrical** 

- Protective Stainless Spiral Tube is available for covering the fiber cable to protect it from accidental breaking due to snagging or shock. 

## **Specifications** 

## **Reflective Fiber Units** 

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**----- Start of picture text -----**<br>
ee Sensing distance (mm) Optical axis<br>Bending diameter 43 Page<br>Size Appearance (mm) radius E3X - HD E3NX - FA (minimum  Models Dimensions<br>of cable sensing  No.<br>GIGA HS Other modes GIGA HS Other modes object)<br>je = | [ew = |<br>1.5 dia. 15 E32 - D22B 2M — 43-A<br>1.5 dia. 140 ST  : 60 210 ST  : 90<br>Z J IP67<br>40 SHS: 16 60 SHS: 16<br>11<br>M3 E32 - D21 2M 43-B<br>— M3<br>Co IP67<br>3 dia. 15 E32 - D221B 2M ~ 43-C<br>3 dia. IP67 Bendresistant,  300 ST  : 140 450 ST  : 210 (5 µm dia./<br>R4 90 SHS: 40 130 SHS: 40 2 µm dia.) a<br>15<br>M4 E32 - D21B 2M 43-D<br>— M4<br>J IP67<br>840 1,260<br>17 ST  : 350 ST  : 520<br>M6 Z J E32 - D11 2M — 43-E<br>240 SHS: 100 360 SHS: 100<br>M6<br>a = IP67<br>12 240 ST  : 100 360 ST  : 150<br>Square E32 - D25XB 2M 43-F<br>2 60 SHS: 30 90 SHS: 30<br>8<br>i IP67<br>Note 1. The following mode names and response times apply to the modes given in the Sensing distance column.<br>[E3X-HD] GIGA: Giga-power mode (16 ms), HS: High-speed mode (250 µs), ST: Standard mode (1 ms), and SHS: Super-high-speed mode (NPN output: 50 µs, PNP output: 55 µs)<br>**----- End of picture text -----**<br>


- [E3NX-FA] GIGA: Giga-power mode (16 ms), HS: High-speed mode (250 µs), ST: Standard mode (1 ms), and SHS: Super-high-speed mode (30 µs) 

**2.** The values for the minimum sensing object are reference values that indicate values obtained in standard mode with the sensing distance and sensitivity set to the optimum values. 

**3.** The first value is for the E3X-HD and the second value is for the E3NX-FA. 

- The sensing distances for Reflective Fiber Units are for white paper. 

**4.** The sensing distances for the E3NX-FA are values for E3NX-FA @ devices. The distance for E3NX-FAH @ infrared models varies. 

## **Protective Stainless Spiral Tube (Sold separately)** 

Insert the fiber cable into the protective tube to prevent breaking by snagging or shock. **43 Page Applicable Fiber Units Models Quantity Dimensions No.** E32-D21R 2M/E32-C31 2M/E32-D21 2M **E39** ~~**-**~~ **F32A 1M** 1 piece E32-D211R 2M/E32-D21B 2M **E39** ~~**-**~~ **F32C 1M** 2 pieces **43-G** E32-D11R 2M/E32-CC200 2M/ E32-D11 2M/E32-D51R 2M/ **E39** ~~**-**~~ **F32D 1M** 1 piece E32-D51 2M ~~== =~~ * This Tube cannot be used if a Lens Unit is being used. 

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**Environmental Immunity** 

**43** 

Installation Information → 58, 59 and 61 Page 

## **Dimensions** 

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Limited-reflective Fiber Units<br>= 43-A E32-D22B 2M  (No Cutting) = 43-E E32-D11 2M  (Free Cutting)<br>M6×0.75<br>Sensing surface 1.5 dia.  (SUS304) Brancher (ABS): 3.5 dia. (Nickel-plated brass)<br>Four, 0.25 dia. 1 dia. Sensing surface Opposite side 10, thickness 2.4 (Nickel-plated brass)<br>Two, 1 dia. Washer (Nickel-plated iron)<br>6ee ee t<br>Two, 2.2 dia.<br>15 Fiber Attachment*<br>ee 1 5 2,000 100<br>* Attached with adhesive and cannot be removed.<br>Protective tube<br>Enlarged View of Sensing Surface 5.2 15<br>Two 0.25 dia. 17 a 2,000<br>emitter fibers<br>Two, 0.25 dia.<br>receiver fibers<br>Sf C 43-F E32-D25XB 2M  (Free Cutting)<br>Two, 2.2 dia. mounting holes with Threaded<br>two, 4.4 dia. countersinks on one side<br>43-B E32-D21 2M  (Free Cutting) Sensing surface(Aluminum) Two, 1 dia.<br>Two, 0.5 dia. Cylindrical<br>M3×0.5<br>Sensing surface (Nickel-plated brass)Opposite side 5.5, thickness 1.8 (Nickel-plated brass) 8 a 1.5 5.5 E39-F9: Provided<br>Four, 0.25 dia. Washer (Nickel-plated brass)<br>Two, 1 dia. 2 2.5 5 Flat<br>12 2,000<br>Protective tube<br>2.5 15 E39-F9: Provided Note:  Two, M2×8 stainless steel countersunk mounting screws are provided. Sleeved<br>1 1 2,000<br>Enlarged View of Sensing Surface - 43-G E39-F32A 1M/E39-F32C 1M/E39-F32D 1M —<br>Two 0.25 dia.emitter fibers Head connector (Nickel-plated brass) End cap (Nickel-plated brass) Small Spot<br>A B<br>Two, 0.25 dia.receiver fibers C C High Power<br>12  Tube D (SUS304) 12<br>1,000 Narrow<br>43-C E32-D221B 2M  (Free Cutting) Models A B C D view<br>Co E39-F32A 1M M3×0.5 Depth: 4 3 dia. 6 dia. (4.6 dia.) ee<br>Sensing surfaceTwo, four, 0.25 dia. 3 dia.  (Nickel-plated brass) Two, 1 dia. E39-F32C 1M M4×0.7 Depth: 4 4 dia. 7 dia. (5.6 dia.) BGS<br>E39-F32D 1M M6×0.75 Depth: 4 5 dia. 8.5 dia. (7 dia.)<br>E39-F9: Provided Note:  Saddles (two (four for the E39-F32C 1M), trivalent chromate-plated iron) are provided. Retro-<br>15 2,000 reflective<br>Limited-<br>reflective<br>7 43-D E32-D21B 2M  (Free Cutting) Chemical-<br>M4×0.7  (SUS303) resistant,<br>Opposite side 7, thickness 2.4 (Nickel-plated brass) Oil-resistant<br>Sensing surface Washer (Nickel-plated iron)<br>Two, 0.5 dia. Two, 1 dia.<br>Bending<br>E39-F9: Provided<br>3 Heat-<br>3.2 15 2,000 resistant<br>Selection  Guide<br>Fiber Units<br>Standard Installation<br>Saving Space<br>Beam Improvements<br>Transparent Objects<br>Environmental Immunity<br>**----- End of picture text -----**<br>


**Area Detection** 

**Liquid-level** 

**Vacuum FPD, Semi, Solar Installation Information** 

**43** 

**Environmental Immunity** 

**44** 

**Reflective** → 46 page 

•  Wide product variety for temperatures from 100 to 350°C. Select the model according to heat-resistant temperature. **Threaded Cylindrical Flat Specifications Sleeved Through-beam Fiber Units Small Spot Sensing distance (mm) Optical axis HeatBending diameter 45 Page resistant Appearance (mm) radius E3X-HD E3NX-FA (minimum Models Dimensions High Power temperature of cable sensing No.** ~~ee~~ **GIGA HS Other modes GIGA HS Other modes object)** ~~ee~~ **Narrow view 100°C *1** 14 M4 ~~S~~ Flexible, R2 560 1,600 ST  :SHS: 800225 840 2,400 ST  :SHS: 1,200225 0.03 dia.)(0.1 dia./1 dia. **E32-T51R 2M 45-A** ~~-~~ **BGS** ~~—f--~~ IP50 ~~-~~ . ~~a | ee~~ 2,800 4,000*5 ~~e~~ **Retro-reflective 150°C *2** 17 M4 R35 1,000 ST  :SHS: 1,500400 1,500 ST  :SHS: 2,250400 0.03 dia.)(0.1 dia./1.5 dia. **E32-T51 2M 45-B** 2: IP67 **Limited-reflective** 30 20 1,000 ST  : 550 1,500 ST  : 820 0.7 dia. | ~~Oe~~ **200°C *3** Bo< R10 (5 μm dia./ **E32-T81R-S 2M** > **45-C** 360 SHS: 140 540 SHS: 140 **Chemical-** M4 2 μm dia.) ~~—~Mso~~ **resistant,** Fi IP67 ~~rF~~ il! fe **Oil-resistant** 2,520 30 20 1,680 ST  : 900 ST  : 1,350 1 dia. **350°C *4** R25 (5 μm dia./ **E32-T61-S 2M 45-D Bending** M4 600 SHS: 240 900 SHS: 240 2 μm dia.) IP67 **Heatresistant** : ~~_~~ **70°C** ~~A-~~ _ Standard Fiber Units --can be used. **Area Detection** *1    For continuous operation, use the Fiber Unit between −40 to 90°C. *2    For continuous operation, use the Fiber Unit between −40 to 130°C. **Liquid-level** *3    The heat-resistant rating is not the same for all parts of the Fiber Unit. Refer to the dimensions diagrams for details. *4    The ambient operating temperature for the E32-T61-S 2M is −60 to 350°C. *5    The optical fiber is 2 m long on each side, so the sensing distance is 4,000 mm. **Vacuum Note 1.** The following mode names and response times apply to the modes given in the Sensing distance column. **FPD,** [E3X-HD] GIGA: Giga-power mode (16 ms), HS: High-speed mode (250 μs), ST: Standard mode (1 ms), and SHS: Super-high-speed mode (NPN output: 50 μs, PNP output: 55 μs) **Semi,** [E3NX-FA] GIGA: Giga-power mode (16 ms), HS: High-speed mode (250 μs), ST: Standard mode (1 ms), and SHS: Super-high-speed mode (30 μs) ~~;~~ **Solar 2.** The values for the minimum sensing object are reference values that indicate values obtained in standard mode with the sensing distance and sensitivity set to the optimum values. ~~[Pe]~~ Pl Fi} | ile The first value is for the E3X-HD and the second value is for the E3NX-FA. **Installation 3.** The sensing distances for the E3NX-FA are values for E3NX-FA @ devices. The distance for E3NX-FAH @ infrared models varies. **Information** _ 

**44** 

**Environmental Immunity** 

**45** 

## **Dimensions** 

**==> picture [129 x 9] intentionally omitted <==**

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Installation Information  → 60 Page<br>**----- End of picture text -----**<br>


**Through-beam Fiber Units (Set of 2) 45-A E32-T51R 2M** (Free Cutting) **45-C E32-T81R-S 2M** (No Cutting) **M4×0.7** (SUS303) **M4×0.7** (SUS303) M2.6×0.45 Opposite side 7, thickness 2.4 (Nickel-plated brass) Opposite side 7, Sensing surface Washer (Nickel-plated iron) thickness 2.4 (SUS304) Protective tube 1 dia. 2.2 dia. M2.6×0.45 Washer (SUS) Fluororesin tube 2 dia. 4 dia. 2.2 dia. ~~——~~ 3.2 3 **14** 2,000 Sensing surface0.7 dia. 3 4 dia.(75) * **20** 10 2,000 A 30 (B) **Note:** The maximum allowable temperatures for sections A and B are 200°C and 110°C, respectively. The section inserted into the Amplifier Unit(indicated by *) must be maintained within the Amplifier Unit's operating temperature range. **Threaded** ~~-~~ **45-B E32-T51 2M** (Free Cutting) **45-D E32-T61-S 2M** (No Cutting) **Cylindrical M4×0.7** (SUS303) Sensing surface1.5 dia. **M4×0.7** Opposite side 7, thickness 2.4 (Nickel-plated brass)Washer (Nickel-plated iron) (Nickel-plated brass) M2.6×0.45Sensingsurface1 dia. Opposite side 7,thickness 2.4 (SUS304)Washer (SUS) Fluororesin tube 2.8 dia. (SUS304)4 dia. 2.2 dia. **Flat** 2.2 dia. 2.85 dia.1 15 3 4 dia. 30 * **Sleeved 17** 2,000 **20** 10 2,000 A 25 (B) ~~¢~~ **Note:** The maximum allowable temperatures for sections A and B are 350°C **Small Spot** and 110°C, respectively. The section inserted into the Amplifier Unit          (indicated by *) must be maintained within the Amplifier Unit's operating temperature range. **High Power Narrow view BGS** ~~sp oe~~ 7 **Retroreflective Limitedreflective Chemicalresistant, Oil-resistant Bending Heatresistant** al **Area Detection Liquid-level Vacuum FPD, Semi, Solar - Reference Information for Model Selection - Installation Information** ~~: a~~ **Long-distance Sensing Applications** A separate Lens Unit can be attached to extend the sensing distance. → 28 page 

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**Environmental Immunity** 

**46** 

**Through-beam** → 44 page **Reflective** → This page 

**Threaded Cylindrical** 

**Area Detection** ~~— ee~~ **Liquid-level Vacuum FPD, Semi, Solar Installation Information** 

- Wide product variety for temperatures from 100 to 400°C. Select the model according to heat-resistant temperature. 

**Cylindrical** 

**Flat** 

**Sleeved** 

## **Specifications** 

## **Reflective Fiber Units** 

**Small Spot** ~~——~~ **High Power Narrow view BGS Retroreflective Limitedreflective** : **Chemicalresistant, Oil-resistant Bending Heatresistant** 

|**Heat-**<br>**resistant**<br>**temperature**|**Appearance (mm)**|**Appearance (mm)**|**Bending**<br>**radius**<br>**of cable**<br>~~Po~~<br>~~io~~|**Sensing distance(mm)**<br>~~Po~~|**Sensing distance(mm)**<br>~~Po~~|**Sensing distance(mm)**<br>~~Po~~|**Sensing distance(mm)**<br>~~Po~~|**Standard**<br>**sensing object**<br>**(minimum**<br>**sensing object)**|**Models**|**47 Page**<br>**Dimensions**<br>**No.**|
|---|---|---|---|---|---|---|---|---|---|---|
|||||**E3X**~~**-**~~**HD**<br>~~Po~~<br>~~io=|~~<br>~~fe~~||**E3NX**~~**-**~~**FA**<br>~~Po~~<br>~~fe=TT~~|||||
|||||**HS**<br>**GIGA**<br>~~io=~~|**Other modes**<br>~~|~~<br>~~fe~~|**HS**<br>**GIGA**<br>~~fe=TT~~|**Other modes**<br>~~TT~~||||
|**100°C *1**<br>**150°C *2**<br>~~ao~~|M6<br>17<br>M6<br>17.5<br>IP50<br>IP67<br>~~ca~~<br>~~=~~<br>~~ao~~||Flexible,<br>R2<br>R35<br>~~io~~<br>~~FTP)~~|670<br>190<br>1,120<br>320<br>~~io = ~~<br>~~FTP)~~|280<br>80<br>ST  :<br>SHS:<br>450<br>144<br>ST  :<br>SHS:<br> ~~|~~<br>~~fe~~<br>~~FTP)~~|1,000<br>280<br>1,680<br>480<br>~~fe = TT~~<br>~~FTP)~~|420<br>80<br>ST  :<br>SHS:<br>670<br>144<br>ST  :<br>SHS:<br>~~TT~~<br>~~FTP)~~|**E32**<br>(5 µm dia./<br>2 µm dia.)<br>**E32**<br>**E32**<br>~~Fete~~|**E32**~~**-**~~**D51R 2M**<br>~~Fete~~|**47-A**<br>~~Fete~~|
||||||||||**E32**~~**-**~~**D51 2M**<br>~~Fete~~|**47-B**<br>~~Fete~~|
|||IP67<br>~~ao~~|||||||||
|**200°C *3**<br>~~ao~~|M6<br>25<br>IP67<br>~~ao ~~<br>~~a~~||R10<br> ~~FTP)~~<br>~~a~~|420<br>120<br>~~FTP)~~<br>~~a~~|180<br>54<br>ST  :<br>SHS:<br>~~FTP)~~<br>~~a~~|630<br>180<br>~~FTP)~~|270<br>54<br>ST  :<br>SHS:<br>~~FTP)~~||**E32**~~**-**~~**D81R**~~**-**~~**S 2M**<br>~~Fete~~|**47-C**<br>~~Fete~~|
|||IP67<br>~~a~~|||||||||
|**300°C**|26<br>5<br>18<br>IP30<br>~~a~~<br>~~ie~~<br>~~=~~||R25<br>~~a~~|10 to 20<br>10 to 20<br>~~a~~|10 to 20<br>−<br>ST  :<br>SHS:<br>~~a~~|10 to 20<br>10 to 20|10 to 20<br>−<br>ST  :<br>SHS:|Soda glass with<br>reflection factor<br>of 7%<br>**E32**|**E32**~~**-**~~**A08H2 2M**|**47-D**|
|||IP30<br>~~=~~|||||||||
||30<br>9<br>24<br>IP40<br>~~ie~~<br>~~=~~<br>[||||20 to 30<br>20 to 30|20 to 30<br>−<br>ST  :<br>SHS:|20 to 30<br>20 to 30|20 to 30<br>−<br>ST  :<br>SHS:|End  surface of<br>soda glass with<br>eflection factor<br>of 7%<br>(t = 0.7 mm,<br>rounded edges)<br>**E32**|**E32**~~**-**~~**A09H2 2M**|**47-E**|
|||IP40<br>[||||||||||
|3500*3|M4<br>28<br>IP67<br>~~a~~<br>~~[|~~|||420<br>120|180<br>54<br>ST  :<br>SHS:|630<br>180|270<br>54<br>ST  :<br>SHS:|(5 µm dia./<br>2 µm dia.)<br>**E32**<br>**E32**<br>**E32**|**E32**~~**-**~~**D611**~~**-**~~**S 2M**|**47-F**<br>—|
|||IP67<br>~~[|~~|||||||||
||M6<br>25<br>~~a~~<br>~~[|~~<br>a||||||||**E32**~~**-**~~**D61**~~**-**~~**S 2M**|**47-G**<br>—|
|**400°C *3**|M4<br>30<br>60<br>Sleeve bending<br>radius<br>: 10 mm|||280<br>80|120<br>36<br>ST  :<br>SHS:|420<br>120|180<br>36<br>ST  :<br>SHS:||**E32**~~**-**~~**D73**~~**-**~~**S 2M**|**47-H**|
||Standard Fiber Units<br>can be used.||||||||Standard Fiber Units<br>can be used.|Standard Fiber Units<br>**−**|



- *1 For continuous operation, use the Fiber Unit between −40 to 90°C. 

- *2 For continuous operation, use the Fiber Unit between −40 to 130°C. 

- *3 The heat-resistant rating is not the same for all parts of the Fiber Unit. Refer to the dimensions diagrams for details. 

- **Note 1.** The following mode names and response times apply to the modes given in the Sensing distance column. 

   - [E3X-HD] GIGA: Giga-power mode (16 ms), HS: High-speed mode (250 µs), ST: Standard mode (1 ms), and SHS: Super-high-speed mode (NPN output: 50 µs, PNP output: 55 µs) [E3NX-FA] GIGA: Giga-power mode (16 ms), HS: High-speed mode (250 µs), ST: Standard mode (1 ms), and SHS: Super-high-speed mode (30 µs) 

   **2.** The values for the minimum sensing object are reference values that indicate values obtained in standard mode with the sensing distance and sensitivity set to the optimum values. The first value is for the E3X-HD and the second value is for the E3NX-FA. 

   **3.** The sensing distances for Reflective Fiber Units are for white paper. **4.** The sensing distances for the E3NX-FA are values for E3NX-FA @ devices. The distance for E3NX-FAH @ infrared models varies. 

**46** 

**Environmental Immunity Heat-resistant** 

**47** 

**Threaded Cylindrical** ; **Flat Sleeved Small Spot High Power Narrow view BGS** . —_—— **Retroreflective Limitedreflective** ; **Chemicalresistant, Oil-resistant Bending Heatresistant** Ey **Area** — **Liquid-levelDetection Vacuum** —— **FPD, Semi, Solar Installation Information** 

## **Dimensions** 

## Installation Information → 58, 59 Page 

## **Reflective Fiber Units** 

**==> picture [445 x 535] intentionally omitted <==**

**----- Start of picture text -----**<br>
47-A E32-D51R 2M  (Free Cutting) 47-E E32-A09H2 2M  (No Cutting)<br>CO CO<br>Sensing surface M6×0.75 Opposite side 10, thickness 2.4 (Nickel-plated brass)Washer (Nickel-plated iron) (SUS303) Sensing surfaceLenses 5.8 dia. 9 (SUS303) Two, 3.2 dia. mounting holeswith two, 6 dia. countersinkson both sides Two, 2.8 dia. flexible tubes(SUS304)<br>Two, 1 dia.<br>4 dia. Two, 2.2 dia. 24 t 8.9 in 4\ Z| a l s Cosewwes ecsswecsenccssecceeres| 4 dia. 2.2 dia. =<br>=<br>(©) *<br>. 5.2 3.5 17.5 2,000 _ 12 30 7 #4 2,000 5 28 (B)<br>Note:  The maximum allowable temperatures for sections A and B<br>are 300°C and 110°C, respectively. The section inserted intothe Amplifier Unit (indicated by *) must be maintained within<br>the Amplifier Unit's operating temperature range.<br>47-B E32-D51 2M  (Free Cutting) 47-F E32-D611-S 2M  (No Cutting)<br>Co M6×0.75  (Nickel-plated brass) CO M4×0.7  (SUS304)<br>Sensing surfaceTwo, 1.5 dia. Opposite side 10, thickness 2.4 (Nickel-plated brass)Washer (Nickel-plated iron) Two, 2.2 dia. Opposite side  7, thickness 2.4 (SUS)Washer (SUS)<br>Sensing surface1 dia. SUS flexible tube 2.9 dia. 2.2 dia.<br>4.9 _ ———— ie a<br>8.5 4.5<br>3.1 3 17 13 2,000 2.4 20 28 4 dia. 2,000 * 5<br>a A JPty 25 (B)<br>Note:  The maximum allowable temperatures for sections<br>A and B are 350°C and 110°C, respectively.<br>The section inserted into the Amplifier Unit (indicatedby *) must be maintained within the Amplifier Unit's<br>operating temperature range.<br>47-C E32-D81R-S 2M  (No Cutting) 47-G E32-D61-S 2M  (No Cutting)<br>M4×0.7 M6×0.75  (SUS303)<br>M6×0.75  (SUS303) Opposite side 10, thickness 2.4 (SUS303)<br>Opposite side 10, thickness 2.4 (SUS303) M4× 0.7 Washer (SUS)<br>CO Sensing surface1.2 dia. Washer (SUS)Protective tube Fluororesin tube CO Sensing surface1.4 dia. 5 dia. *2 SUS flexible tube 3.5 dia.2.2 dia.<br>fo 2.2 dia. — in . _ a 4.5 8.5<br>3 2 20 5 (70)A 2,000 25 (B) * 5 4.5 8.5 *2. The diameter is 6 dia. if the fiber 3 2 20 5 *3 A 2,000 Note:  The maximum allowable temperaturesfor sections A and B are 350°C and25 (B)*1 5<br>Ca Note:  The maximum allowable temperatures for sections A and B are 200°C and r © length exceeds 10 m. =the 110°C, respectively. The section inserted i<br>110°C, respectively. The section inserted into the Amplifier Unit (indicatedby *) must be maintained within the Amplifier Unit's operating temperature *3. The length is 10 if the fiber length exceeds 10 m. into the Amplifier Unit (indicated by*1) must be maintained within the Amplifier<br>range. Unit's operating temperature range.<br>47-D E32-A08H2 2M  (No Cutting) 47-H E32-D73-S 2M  (No Cutting)<br>Two, 3.4 dia. mounting holes  M4×0.7 (SUS303)<br>with two, 6.3 dia. countersinks on one side<br>CO tT 5 Wo 1.5 (5) r 4 dia. 8.6 Sleeve (Aluminum)4 dia. 2.2 dia. Co) Sensing surface1 dia. Stainless-steel tube1.25 dia.1.65 dia. 2.5 dia. Opposite side 7, thickness 2.4 (SUS304)Washer (SUS) M4x0.7 4 dia. SUS flexible tube 2.8 dia.2.2 dia.<br>18 4.5 8.5<br>Flexible tube:<br>Sensing surface 4 10.7 (SUS303) Two, 2.9 dia(Stainless steel) 5 60 5 20 10 2,000 * 5<br>6.5 i l #4 A B 25 (C)<br>26 2,000<br>Note:  The maximum allowable temperatures for sections A, B, and C are<br>A 30 (B) 400°C, 300°C, and 110°C, respectively.The section inserted into the Amplifier Unit (indicated by *) must be<br>Note:  The maximum allowable temperatures for  Two, M3 6.5±0.1 maintained within the Amplifier Unit's operating temperature range.<br>sections A and B are 300°C and 110°C,<br>respectively. aes<br>Mounting holes<br>A<br>**----- End of picture text -----**<br>


**47** 

**Special Applications** 

**48** ~~_~~ **Threaded Cylindrical** , **Flat Sleeved Small Spot High Power Narrow view BGS Retroreflective** ~~—~~ **Limitedreflective Chemicalresistant, Oil-resistant Bending Heatresistant Area Detection** ~~=~~ **Liquid-level Vacuum FPD,** ~~—~~ **Semi, Solar Installation Information** 

**==> picture [159 x 61] intentionally omitted <==**

**----- Start of picture text -----**<br>
Detection of falling workpieces<br>:<br>Meander detection<br>**----- End of picture text -----**<br>


- Area beams are optimum for detecting workpieces presented in inconsistent positions, such as falling workpieces, or for meander detection, or for detecting workpieces with holes. 

**==> picture [303 x 96] intentionally omitted <==**

**----- Start of picture text -----**<br>
Characteristics of Light Interruption (Reference Value)<br>Sensing distance: 300 mm<br>•  This Fiber Unit is ideal for meander  Passing distance of workpiece<br>9999<br> detectin because it outputs the<br>7500 Light interruption<br> digital value in a linear relation to the  distance<br>5000<br> interrupted light distance. 2500 SannePLT [TEL] [RELI]<br>0 PLT 1 2 [T] 3 LT 4 INI 5 6 7 8 9 10 11<br>Light interruption distance (mm)<br>E32-T16PR+E3NX-FA21<br>Digital lincident level<br>**----- End of picture text -----**<br>


**==> picture [109 x 8] intentionally omitted <==**

**----- Start of picture text -----**<br>
Detection of workpieces with holes<br>**----- End of picture text -----**<br>


## **Specifications** 

## **Through-beam Fiber Units** 

**==> picture [478 x 363] intentionally omitted <==**

**----- Start of picture text -----**<br>
||||||||||||||||
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
|PO|Sensing distance (mm)|Optical axis|
|Bending|diameter|49 Page|
|Type|Sensing width|Appearance (mm)|radius|E3X|-|HD|E3NX|-|FA|(minimum|Models|Dimensions|
|of cable|sensing|No.|
|GIGA|HS|Other modes|GIGA|HS|Other modes|object)|
|14.5|je|=|||je|4,000 *1|=|||
|3,100|ST  :|1,700|ST  :|2,550|
|27|E32|-|T16PR 2M|49-A|
|1,120|SHS:|440|1,680|SHS:|440|
|*2|
|11 mm|4|m*|4|[||IP50|ort|2,750|ST  :|1,500|4,000 *1|ST  :|2,250|0.07 dia.)(0.2 dia./|
|Area|27|Flexible, R1|960|SHS:|380|1,440|SHS:|380|E32|-|T16JR 2M|49-B|
|17.8|_|IP50|
|23|4,000 *1|4,000 *1|
|ST  :|2,600|ST  :|3,900|*2|
|30 mm|69|(0.3 dia./|E32|-|T16WR 2M|49-C|
|1,700|SHS:|680|2,550|SHS:|680|0.1 dia.)|
|5|[||IP50|
|32|10|ST  :|10|10|ST  :|10|
|Array|10 mm|7|R5|10|SHS:|10|10|SHS:|10|11 dia.|E32|-|G16 2M|49-D|
|20|
|IP50|
|*1|The optical fiber is 2 m long on each side, so the sensing distance is 4,000 mm.|
|*2|The values for the minimum sensing object were obtained for detection in the sensing area with the sensing distance set to 300 mm.|
|(The values are for a stationary sensing object.)|
|The first value is for the E3X-HD and the second value is for the E3NX-FA.|
|Note.|The sensing distances for the E3NX-FA are values for E3NX-FA|@|devices. The distance for E3NX-FAH|@|infrared models varies.|
|Reflective Fiber Units|
|PO|Sensing distance (mm)|Optical axis|
|Bending|diameter|49 Page|
|Type|Sensing width|Appearance (mm)|radius|E3X|-|HD|E3NX|-|FA|(minimum|Model|Dimensions|
|of cable|sensing|No.|
|||||eet|GIGA|HS|Other modes|GIGA|HS|Other modes|object)|
|ie|=|||[|e|=|||
|15|5|
|Array|11 mm|25|resistant, Bend-|700|ST  :|300|1,050|ST  :|450|(5 µm dia./|E32|-|D36P1 2M|49-E|
|R4|200|SHS:|90|300|SHS:|90|2 µm dia.)|
|[||IP67|
|Note 1.|The following mode names and response times apply to the modes given in the Sensing distance column.|

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


- *1 The optical fiber is 2 m long on each side, so the sensing distance is 4,000 mm. 

- *2 The values for the minimum sensing object were obtained for detection in the sensing area with the sensing distance set to 300 mm. (The values are for a stationary sensing object.) 

The first value is for the E3X-HD and the second value is for the E3NX-FA. **Note.** The sensing distances for the E3NX-FA are values for E3NX-FA @ devices. The distance for E3NX-FAH @ infrared models varies. 

- [E3X-HD] GIGA: Giga-power mode (16 ms), HS: High-speed mode (250 µs), ST: Standard mode (1 ms), and SHS: Super-high-speed mode (NPN output: 50 µs, PNP output: 55 µs) [E3NX-FA] GIGA: Giga-power mode (16 ms), HS: High-speed mode (250 µs), ST: Standard mode (1 ms), and SHS: Super-high-speed mode (30 µs) 

**2.** The values for the minimum sensing object are reference values that indicate values obtained in standard mode with the sensing distance and sensitivity set to the optimum values. The first value is for the E3X-HD and the second value is for the E3NX-FA. 

**3.** The sensing distances for the E3NX-FA are values for E3NX-FA @ devices. The distance for E3NX-FAH @ infrared models varies. 

**48** 

**Special Applications** 

**49** 

## **Dimensions** 

## Installation Information → 60 Page 

## **Through-beam Fiber Units (Set of 2)** 

**==> picture [200 x 608] intentionally omitted <==**

**----- Start of picture text -----**<br>
49-A E32-T16PR 2M  (Free Cutting)<br>Two, 3.2 dia. mounting holes<br>with two, 6 dia. countersinks 14.5<br>on both sides 10.7 4<br>4 7<br>Sensing surface<br>27 : 19 ‘0 Hq (2×11) (PMMA)<br>(Heat-resistant ABS)<br>2,000 2.2 dia.<br>* Stickers with slits of widths 0.5 and<br>L e 1 mm (2 of each) provided.<br>49-B E32-T16JR 2M  (Free Cutting)<br>: Receiver Sensing surface<br>(2×11)<br>(PMMA)<br>Emitter<br>17.8<br>14.5 3.3 4<br>10.7 2<br>4 7<br>en fj<br>27 19<br>(ABS)<br>Two, 3.2 dia. mounting holes<br>with two, 6 dia. countersinks<br>on both sides<br>2.2 dia.<br>[ 1 2,000 1<br>||<br>49-C E32-T16WR 2M  (Free Cutting)<br>oO<br>5 Sensing surface 1 8 23<br>(3×30)<br>(PMMA) 12<br>18.5<br>a —<br>69<br>65<br>45<br>(ABS)<br>Two, 3.2 dia. mounting holes<br>with two, 6 dia. countersinks<br>| i * 2.2 dia. im 2,000 on both sides<br>7 49-D E32-G16<br>10 15.9<br>Sensing surface,<br>Sixteen, 0.265 dia. _ Cross-section A-A<br>32 2,000 (standard length)<br>28.4 8.4 Two, 3.2 dia.<br>10 i 12 Model display tube<br>A A<br>20<br>— （ 45 ）<br>Sensing head (ABS)<br>Protective cover (PVC)<br>Optical fiber: 2.2 dia.<br>7<br>**----- End of picture text -----**<br>


**==> picture [129 x 9] intentionally omitted <==**

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Installation Information  → 59 Page<br>**----- End of picture text -----**<br>


## **Through-beam Fiber Units (Set of 2)** 

**==> picture [116 x 8] intentionally omitted <==**

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49-E E32-D36P1 2M  (Free Cutting)<br>**----- End of picture text -----**<br>


**==> picture [224 x 99] intentionally omitted <==**

**----- Start of picture text -----**<br>
25 2,000<br>5<br>10<br>Two, 2.2 dia.<br>15 _<br>2.5<br>Two, 3.2 dia. mounting holes<br>Sensing surface: 32 × 0.265 dia. array<br>2 10.85 (emitter and receiver fibers<br>in alternating arrangement)<br>5<br>E (Nickel-plated brass) U Threaded<br>Fiber Units<br>**----- End of picture text -----**<br>


**Threaded Cylindrical** / **Flat** = **Sleeved Small Spot High Power** os **Narrow** oe **view BGS** — **Retroreflective Limitedreflective** : **Chemicalresistant, Oil-resistant Bending Heatresistant** 

**Area Detection Liquid-level Vacuum** 

**FPD, Semi, Solar Installation Information** ~~—~~ oe 

**49** 

**Special Applications** 

**50 Special Applications Liquid-level Detection** •  Fiber Units for detecting liquid levels are available in two types: for tube mounting and liquid contact. ~~_~~ | **Tube-mounting Types** Detect the liquid level inside transparent tubes. Strap the Fiber Unit to a tube with band. ~~—~~ a **Liquid-contact Type** Detect the liquid level by direct contact with the liquid. Reflective= This  model has excellent chemical-resistance Light incident Air **Threaded** because the Fiber Unit is covered in fluororesin. Liquid Radiation **Cylindrical** | ~~-~~ ™ me ~~s~~ **Flat Specifications Sleeved Optical axis** . **Detection Tube Bending diameter 51 Page scheme diameter Features Appearance (mm) of cableradius Applicable range (minimum Models DimensionsNo. Small Spot sensing object)** 19.9 **3.2, 6.4** • Resistant to bubbles BendApplicable tube: Transparent **High Power 9.5 dia.and** and droplets• Residual quantity  detection 27 resistant, R4 tube with a diameter of 3.2, 6.4, or  9.5 dia. and a recommended wall  thickness of 1 mm --- **E32** ~~**-**~~ **A01 5M 51-A Narrow** IP50 **view** 18 Applicable tube: Transparent **Tube-mounting 10 dia.8 to** Ideal for mounting at multilevels 10 R10 tube with a diameter of 8 to 10 dia. and a recommended wall --- **E32** ~~**-**~~ **L25T 2M 51-B BGS** 16 thickness of 1 mm po ~~oe~~ IP50 5 • Usable on large **Retro-reflective restrictionsNo** diameter tubes• Resistant to bubbles 23.45 R4 Applicable tube: Transparent tube --- **E32** ~~**-**~~ **D36T 2M 51-C** (no restrictions on diameter) and droplets 15 **Limited-** IP67 **reflective** ~~Ceammec~~ S| ~~=~~ **Liquid contact** ~~Esa~~ R40 **Chemical(heat-resistant** ----6 dia. R25 Liquid-contact Type *1 --- **E32** ~~**-**~~ **D82F1 4M 51-D up to 200°C)** *3 **resistant, Oil-resistant** IP68 *1 If you want to change the amount of received light, please Refer to the Instruction Sheet of the Fiber Amplifier used. **Bending** *2 The applicable range is the same whether an E3X-HD series or E3NX-FA series is used. This does not include E3NX-FAH @ infrared models varies. When using a Fiber Amplifier Unit in giga-power mode, level detection may not work depending on the tube diameter. Make sure to confirm operation with the actual tube. *3 The bending radius of the sensing section (except for the unbendable section) is 40 mm, and the bending radius of the fiber is 25 mm. **Heatresistant** ~~pa~~ **Area Detection - Reference Information for Model Selection - Liquid-level Determining the Best Model for Tube-mounted Types Vacuum FPD, Mounting and conditions Recommended Unit Features Semi,** ~~=~~ **Solar** ~~ss~~ This is a Through-beam Model, so the incident light will differ greatly between with and without of liquid. It also uses an area beam, which is less prone to false detection by bubbles and droplets. **Installation** With liquid Without liquid **Information When bubbles and the water E32-A01 droplets are generated** Light interrupted Light incident ~~7~~ **Multilevel installation in limited space** ~~es~~ **E32-L25T** This model is suitable for mounting at multilevels because of the thin type (height: 10 mm). This model has no restrictions on the tube diameter, so it can be mounted on many different tube sizes. It also uses an area beam, which is less prone to false detection by bubbles and droplets. With liquid Without liquid **Mounting on large diameter tubes E32-D36T** Air Tube Liquid Reflective= Radiation Light incident ~ 7 ~~es~~ » 7_¢ 

**50** 

**Special Applications** 

**51** 

## **Dimensions** 

Installation Information → 58, 59 Page 

**==> picture [515 x 362] intentionally omitted <==**

**----- Start of picture text -----**<br>
CO 51-A E32-A01 5M  (Free Cutting)<br>* (Heat-resistant ABS) Tube-mounting Examples<br>M3×8<br>’ Band holes Model display tube Two, 2.2 dia.<br>1.3 (45)<br>Tube holder  Optical axis 20<br>(PBT) Sensing surface 14<br>A \ (2 × 11) (PMMA) 4.2 i 27 5,000 P)<br>19.9 = — _ |<br>Emitter 3 Receiver * Mount the holder at the appropriate position based on the  actual tube diameter (1/8, 1/4, 3/8 inch).<br>3 Note:  Two nylon bands are provided.<br>in a<br>Threaded<br>S 51-B E32-L25T 2M  (Free Cutting)<br>Cylindrical<br>2.8  Sensing surface Lens two, 3.2 dia. (PC)<br>1.2<br>16 (13) 15.2  E39-F9: Provided Flat<br>Two, 1 dia.<br>Band hole Sleeved<br>6  (PC) 6<br>10 18 2,000<br>Note:  Two nylon bands and one anti-reflector are provided. Small Spot<br>_ 51-C E32-D36T 2M  (Free Cutting) a<br>Two, 2.2 dia. High Power<br>R10 (ABS) Two, Band holes<br>Enlarged View of Sensing Surface Narrow<br>15 4 Emitter: Sixteen, 0.265 dia. view<br>2 5 5 Eight, R0.5<br>11.4 BGS<br>20.4<br>a 23.45 2,000<br>13.25 Receiver: Sixteen, 0.265 dia. Retro-<br>reflective<br>5<br>4.4 Sensing surface Limited-<br>Selection  Guide<br>Fiber Units<br>Standard Installation<br>Saving Space<br>Beam Improvements<br>**----- End of picture text -----**<br>


**Threaded Cylindrical Flat Sleeved Small Spot** a **High Power Narrow view BGS Retroreflective Limitedreflective Chemicalresistant, Oil-resistant Bending** — **Heatresistant Area Detection Liquid-level Vacuum FPD, Semi, Solar** . **Installation Information** 

**==> picture [411 x 238] intentionally omitted <==**

**----- Start of picture text -----**<br>
13.25 Receiver: Sixteen, 0.265 dia.<br>5<br>4.4 Sensing surface<br>E32-D82F1 4M  (Free Cutting)<br>Fiber connector 9 dia.<br>(Nickel-plated brass)<br>6 dia.  (Fluororesin) 8 dia. Two, 2.2 dia. *<br>To the Amplifier Unit<br>27<br>7.2 re Length of unbendablesection:  150 eo 42<br>2,000 2,000<br>A B<br>~~ 1,500 mm from the tip a - Note:  The maximum allowable temperature is 200°C for section A and 85°C for<br>* The 2-m section of optical fiber on the Amplifier unit side is plastic and therefore allows free cutting. section B.<br>And<br>Designed for Safe Residual quantity detection (E32-A01 only)<br>E The E32-A01 Fiber Unit is designed to default to the same output<br>as for liquid absent in the event of a failure, such as when the fiber<br>breaks. This makes it suitable for residual quantity detection.<br>**----- End of picture text -----**<br>


- **51-D E32-D82F1 4M** (Free Cutting) 

Trouble (disconnection) Light interrupted With liquid Light interrupted Without liquid Light incident If the failure goes unnoticed, this failsafe design will prevent false detection of liquid when there is no liquid present. 

**51** 

**Special Applications** 

**52** 

**Threaded Cylindrical** 

- Can be used under high vacuums of up to 10[-5] Pa. 

- Available in models with heat resistant up to 120 or 200°C. 

**==> picture [231 x 65] intentionally omitted <==**

**----- Start of picture text -----**<br>
Configuration Example for using under vacuum<br>(Lens Units) Vacuum chamber Vacuum side Atmospheric pressure side<br>Fiber Units on vacuum side Flange Fiber Units on atmospheric pressure sideFiber Amplifier unit<br>**----- End of picture text -----**<br>


**Cylindrical** 

**Flat** 

**Sleeved** 

## **Specifications** 

## **Through-beam Fiber Units** 

**==> picture [548 x 495] intentionally omitted <==**

**----- Start of picture text -----**<br>
||||||||||||||||
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
|Small Spot|Sensing distance (mm)|Optical axis|
|a|Heat-|Bending|diameter|53 Page|
|Type|resistant|Appearance (mm)|radius|E3X|-|HD|E3NX|-|FA|(minimum|Models|Dimensions|
|High Power|temperature|of cable|sensing|No.|
|a|GIGA|HS|Other modes|GIGA|HS|Other modes|object)|
|je|o=|||je|=|
|Narrow|
|view|30|720|ST  :|400|1,080|ST  :|600|(10 µm dia./1.2 dia.|E32|-|T51V 1M|53-A|
|M4|260|SHS:|100|390|SHS:|100|4 µm dia.)|
|BGS|R30|Pe|
|*|
|Vacuum|2,000*|ST  :|2,000|2,000*|ST  :|2,000|4 dia.|E32|-|T51V 1M|
|Retro-reflective|side|35.9|4 dia.|1,360|SHS:|520|2,000*|SHS:|520|0.03 dia.)(0.1 dia./|E39+|-|F1V|53-B|
|Limited-reflective|30|1,760|ST  :|950|2,000*|ST  :|1,420|2 dia.|
|;|3 dia.|-|Fs|(0.1 dia./|E32|-|T84SV 1M|53-C|
|Chemical-|640|SHS:|260|960|SHS:|260|0.03 dia.)|
|=|resistant,|f|R25|FF|os|
|Oil-resistant|
|Atmospheric|ST  :|−|ST  :|−|
|pressure|E32|-|T10V 2M|53-D|
|Bending|side|SHS:|−|SHS:|−|
|Heat-|* The optical fiber is 2 m long on each side, so the sensing distance is 4,000 mm.|
|resistant|
|P|Note 1.|The following mode names and response times apply to the modes given in the Sensing distance column.|oo|
|[E3X-HD] GIGA: Giga-power mode (16 ms), HS: High-speed mode (250 µs), ST: Standard mode (1 ms), and SHS: Super-high-speed mode (NPN output: 50 µs, PNP output: 55 µs)|
|Area|[E3NX-FA] GIGA: Giga-power mode (16 ms), HS: High-speed mode (250 µs), ST: Standard mode (1 ms), and SHS: Super-high-speed mode (30 µs)|
|Detection|2.|The values for the minimum sensing object are reference values that indicate values obtained in standard mode with the sensing distance and sensitivity set to the optimum values.|
|The first value is for the E3X-HD and the second value is for the E3NX-FA.|
|3.|The sensing distances for the E3NX-FA are values for E3NX-FA|@|devices. The distance for E3NX-FAH|@|infrared models varies.|
|Liquid-level|
|Flange|
|Vacuum|53 Page|
|Appearance|Type|Models|Dimensions|
|FPD,|No.|
|Semi,|
|-|Solar|~T TT|4-channel flange|E32|-|VF4|53-E|
|Installation|
|Information|
|=|oS|1-channel flange|E32|-|VF1|53-F|
|ae|

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


**52** 

**Special Applications** 

**53** 

**Threaded Cylindrical** ; **Flat Sleeved Small Spot High Power** _ **Narrow view BGS** OO **Retroreflective LimitedreflectiveLimited-** : **Chemicalresistant, Oil-resistant Bending** _ —_ **Heatresistant Area Detection Liquid-level Vacuum** 

## **Dimensions** 

**==> picture [143 x 9] intentionally omitted <==**

**----- Start of picture text -----**<br>
Installation Information  → 60, 61 Page<br>**----- End of picture text -----**<br>


## **Through-beam Fiber Units (Set of 2)** 

**==> picture [533 x 702] intentionally omitted <==**

**----- Start of picture text -----**<br>
Co 53-A E32-T51V 1M  (No Cutting)<br>M4×0.7 Opposite side 8 (SUS304)<br>(Aluminum) Washer (SUS304)<br>M2.6×0.45 < 4 dia. —— 3 dia.  oe 4 dia. 2.2 dia.<br>Sensing surface1.15 dia. 3 Connected to flange(vacuum side)<br>20 26<br>aa (30) 1,000<br>53-B E32-T51V 1M  (No Cutting) + E39-F1V E39-F1V<br>SO<br>4 dia. M4×0.7 0.5 dia. hole<br>< 3 dia. 4 dia. ix 8.9 4 M2.6×0.45 Threaded<br>Effective depth: 3.8<br>8.9 6 countersinking depth: 0.9<br>25.9 Cylindrical<br>(35.9) 1,000<br>omy] H e<br>cc 53-C E32-T84SV 1M  (No Cutting) Flat<br>Sensing surface: 2 dia.<br>Sleeved<br>3 dia. (SUS304) 14.2 12 1,000<br>12 3.5 dia. Connected to flange Small Spot<br>4 dia. (vacuum side)<br>max.30 6 3 dia. 90° Flexible tube:(Stainless steel) 2.9 dia. 4 dia. 2.2 dia. High Power<br>R5<br>Wo _<br>26 Narrow<br>view<br>T 53-D E32-T10V 2M  (Free Cutting) S<br>2.2 dia. BGS<br>OO<br>Jo 2,000 Retro-<br>reflective<br>Sn 53-E E32-VF436 dia . 24 498 Four,10 dia. 70 dia. 44 dia.80 reflectiveLimited-<br>Chemical-<br>45° resistant,<br>Oil-resistant<br>80<br>Flange Bending<br>ke) V40 O-ring Flange coos  Note 1.  Mount the Flange so that the V40 O-ring is on the atmospheric-pressure  _<br>(Oh) m t? ) 90 dia.  side of the vacuum chamber wall. —_<br>2.  Mounting-hole dimensions: 38 dia. ±0.5 mm Heat-<br>3.4.  The maximum tightening torque is 9.8 N·m. A V40 O-ring is provided. resistant<br>Area<br>e 53-F E32-VF1 S Detection<br>(96)<br>(63) 10 (23) 30 20 dia. Liquid-level<br>22 5 22 19<br>M14×2<br>Vacuum<br>6 (33.53)<br>" GE 7 AN o<br>FPD,<br>One nut Two, connectors  Note 1.   side of the vacuum chamber wall.Mount the Flange so that the V15 O-ring is on the atmospheric-pressure  Semi,<br>_—/ One spring washerV15 O-ring 2.3.  Mounting-hole dimensions: 14.5 dia. ±0.2 mm The maximum tightening torque is 14.7 N·m for the clamp nut and 1.5 N·m  —_ Solar<br> for the connector.<br>4.  A V15 O-ring, nut, spring washer, two connectors, and four O-rings for<br>                the fibers are provided.<br>- Reference Information for Model Selection -<br>What Is a Vacuum-resistant Fiber Unit?<br>•  The Flange is designed to create an air-tight seal on the vacuum side.<br>•  The fibers and Flange on the vacuum side are made of non-outgassing materials.<br> These parts are inspected, cleaned, and sealed in an air-tight package in a clean room prior to shipment.<br>9 f=<br>Glass Stainles steel Fluoro-resin<br>Gaz» No outgassing<br>Selection<br>Fiber Units<br>Fiber Amplifiers,  Communications<br>Technical  Guide and<br>**----- End of picture text -----**<br>


**Vacuum** o **FPD, Semi, Solar** —_ **Installation Information** 

**53** 

**54** 

> **Limited-reflective** → This page **Through-beam** → 56 page 

## **Special Applications** 

## **FPD, Semiconductors, and Solar Cells** 

## **•  Glass-substrate Alignment Glass-substrate Alignment** sensing distance changes. . 

## ~~_~~ 

**•  Glass-substrate Alignment Glass-substrate Alignment** Detection position Detection position accuracy: 0.2 mm max. accuracy: 0.2 mm max. No variation in detection positions even if the sensing distance changes. 10 to 20mm Tilting workpiece does not affect detection. ~~+~~ **Glass-substrate Mapping** ~~ae~~ Stable detection is possible even for difficult-todetect curved surfaces. E32-A08 E32-A08H2 

## **•  Glass-substrate Mapping** 

Stable detection is possible even for difficult-todetect curved surfaces. E32-A08 E32-A08H2 2500 Ze 2250 ~~A~~ 2000 as P 1750 ~~Pa~~ _— é 150012501000 ~~PEEP~~ Distance Raw glass (t = 0.7 mm, rounded edges) ~— - 750 ~~REPCCCCACCOHEE HELE a~~ pf ~~LE~~ 500 ~~**Stable detection**~~ E32-A09 250 ~~Seines~~ 0 5 10 15 20 25 30 35 40 45 50 55 60 Glass-substrate ners) [| | | get Distance (mm) yy tT tt Alignment **•  Glass Presence Detection in Wet** Spherical heads eliminate liquid build up. Liquid builds up on flat head. **Threaded Processes** Water droplet Stable non-contact detection even with warped glass. **Cylindrical** The spherical heads ensure stable detection without being influenced by liquid. ~~a~~ **Flat Sleeved Limited-reflective Fiber Units Small Spot Sensing distance (mm)** ~~—~~ **High Power Application Ambient Appearance (mm) Bendingradius** ~~_ti~~ **E3X** ~~‘~~ ~~**-**~~ **HD** ~~“CsSS~~ **E3NX** ~~C~~ ~~**-**~~ **FA** ~~‘d’~~ **sensing objectStandard Models Dimensions55 Page temperature of cable sensing object)(minimum No. GIGA HS Other modes GIGA HS Other modes Narrow** ~~@ =| |~~ oo **view** ~~-_=-|~~ **Glass** 0 to 15 ST  : 0 to 15 0 to 15 ST  : 0 to 15 **BGS presence detection** 3.820.5 0 to 15 SHS: 0 to 12 0 to 15 SHS: 0 to 12 **E32** *1 ~~**-**~~ **L16** ~~**-**~~ **N 2M 55-A** ~~_~~ 14 IP40 ~~SF ees —_—~~ 701 ~~= [|~~ **Retroreflective** 24.5 **E32** ~~**-**~~ **A08 2M 55-B** *1 ~~-~~ **Limited-** 5 ~~s~~ 14 ~~[|~~ IP40 10 to 20 ST  : 10 to 20 10 to 20 ST  : 10 to 20 Soda glass ~~=~~ **reflective** 10 to 20 SHS: − 10 to 20 SHS: − with reflection **Glass-** factor of 7% **Chemicalsubstrate** 26 **E32** ~~**-**~~ **A08H2 2M 55-C resistant, Alignment** 5 *1 ~~-~~ **Oil-resistant** ~~-|~~ 18 IP30 ~~=o~~ R25 **Bending** 24.5 12 to 30 ST  : 12 to 30 12 to 30 ST  : 12 to 30 **E32** ~~**-**~~ **A12 2M 55-D** 12 to 30 SHS: − 12 to 30 SHS: − 5 ~~a~~ **Heat-** 701 14 IP40 ~~FF es~~ **resistant** 15 to 38 15 to 38 23 ST  : 15 to 38 ST  : 15 to 38 **Area** 9 SHS: − SHS: − End surface **E32** ~~**-**~~ **A09 2M 55-E Detection Mapping of** 20 IP40 (Center 2515 to 38 ) (Center 25) (Center 2515 to 38 ) (Center 25) with reflection of soda glass ~~—_—_~~ **glass** ~~[| =~~ 20 to 30 ~~FF~~ 20 to 30 factor of 7% ~~es~~ **Liquid-level substrates 300°C** 30 ST  : 20 to 30 ST  : 20 to 30 (t = 0.7 mm, rounded **E32** ~~**-**~~ **A09H2 2M 55-F** ~~MR~~ **Vacuum *2** 9 24 [| IP40 (Center 25)20 to 30 SHS:(Center 25)− (Center 25)20 to 30 SHS:(Center 25)− edges) = **Wet processes** 14 A 8 to 20 mm from tip of lens ~~oe~~ **FPD,Semi,Solar (Cleaning, Resist  developing, and etching)** 20 ie 40 Mountinghole AIP67 R40 ~~See~~ 19 to 31 mm from center of mounting hole A(Recommended sensing distance: 11 mm)(Recommended sensing distance: 22 mm) (t=0.7mm)Glass **E32** ~~**-**~~ **L11FP 2M 55-G Installation Information Wet** 8 to 20 mm from tip of lens a **processes** Mounting [| (Recommended sensing distance: 11 mm) **E32** ~~**-**~~ **L11FS 2M 55-H (Resist** hole A 32 to 44 mm from center of mounting hole A **stripping)** 38.5 17.5 IP67 (Recommended sensing distance: 35 mm) *1 If operation is affected by the background, perform power tuning to decrease the incident light level. *2 The maximum allowable temperature is not the same for all parts of the Fiber Unit. Refer to the dimensions diagrams for details. Must not be repeatedly subject to rapid temperature changes. **Note 1.** The following mode names and response times apply to the modes given in the Sensing distance column. [E3X-HD] GIGA: Giga-power mode (16 ms), HS: High-speed mode (250 µs), ST: Standard mode (1 ms), and SHS: Super-high-speed mode (NPN output: 50 µs, PNP output: 55 µs) [E3NX-FA] GIGA: Giga-power mode (16 ms), HS: High-speed mode (250 µs), ST: Standard mode (1 ms), and SHS: Super-high-speed mode (30 µs) **2.** The sensing distances for the E3NX-FA are values for E3NX-FA @ devices. The distance for E3NX-FAH @ infrared models varies. **Specifications** 

**54** 

**Special Applications** 

**55** 

Installation Information → 58, 59 Page 

**Installation Information** 

## **Dimensions** 

## **Limited-reflective Fiber Units** 

**==> picture [528 x 556] intentionally omitted <==**

**----- Start of picture text -----**<br>
- 55-A E32-L16-N 2M  (Free Cutting) Co) 55-E E32-A09 2M  (Free Cutting)<br>Sensing surface (Aluminum)<br>r 9 e Lenses 5.8 dia.<br>14 10.6 20 8.9 Two, 2.2 dia.<br>. 0.952.7 |o} 6.8 7 ———_ (45) «_ 1 &—4 t y 12 7 Two, 3.2 dia. mounting holes withtwo, 6 dia. countersinks on one side<br>ERE 20.5 2,000 J a 23 2,000<br>3.8 se<br>(PVC) 55-F E32-A09H2 2M  (No Cutting)<br>Sensing surfaceLenses 5.8 dia. 9 (SUS303) Two, 3.2 dia. mounting holeswith two, 6 dia. countersinkson both sides Two, 2.8 dia. flexible tubes(SUS304) Threaded<br>55-B E32-A08 2M  (Free Cutting)<br>24 8.9 4 dia. 2.2 dia.<br>3.8 10.7 6.5 (ABS) Two, 2.2 dia. Cylindrical<br>*<br>14 12 12 7 5<br>7 Sensing surface 7 1.1 Two, 3.2 dia. mounting holes with i 30 2,000 28 (B) Flat<br>two, 6 dia. countersinks on both sides<br>24.5 2,000 Note:  The maximum allowable temperatures for sections A and B<br>tv are 300°C and 110°C, respectively. The section inserted intothe Amplifier Unit (indicated by *) must be maintained within  Sleeved<br>5 the Amplifier Unit's operating temperature range.<br>_—<br>55-G E32-L11FP 2M  (Free Cutting)<br>55-C E32-A08H2 2M  (No Cutting) 40 Sensing object (Glass) Small Spot<br>Two, 3.4 dia. mounting holes  14 (PFA)<br>with two, 6.3 dia. countersinks on  22 (Heat-resistant PVC) High Power<br>one side 5 1.5 (5) 4 dia. 8.6 Sleeve (Aluminum)4 dia. 2.2 dia. al fg ge Th 27 Narrow<br>12 view<br>18<br>i= L A R<br>Sensing surface 4 10.7 (SUS303) Flexible tube: Two, 2.9 dia. BGS<br>6.5 (Stainless steel) ff) ae (PFA) Two, 4.2 dia. mounting holes<br>26 2,000 Retro-<br>A 30 (B) reflective<br>Two, 4 dia, (t=0.5)<br>Two, M3 6.5 [±0.1] fC (PTFE) 2 m ee Limited-<br>Note:  The maximum allowable temperatures is 300°C for sections A and 110°C for section B (section inserted  va reflective<br>into Amplifier Unit). Mounting holes Two, 2.2 dia.<br>Chemical-<br>resistant,<br>55-D E32-A12 2M  (Free Cutting) Oil-resistant<br>CO = 55-H E32-L11FS 2M  (Free Cutting)<br>Two, 3.2 dia. mounting holes<br>Optical axis with four, 6 dia. countersinks on both sidesModel display tube Optical fiberTwo, 2.2 dia. 10 17.5 38.5 a Sensing object (Glass) _ Bending<br>= (PFA) Heat-<br>14 12 Mounting holes 35 resistant<br>: 6.5 [±0.2] SUS316L<br>1 .1 Two, M3 Area<br>3.8 10.7 6.5 39 Detection<br>24.5 2,000<br>12 Liquid-level<br>5 C T S<br>— -__ -_ o e hs e e<br>(PFA)<br>Vacuum<br>Two, 4.2 dia. mounting holes<br>Two, 4 dia, (t=0.5)<br>(PTFE) 2 m FPD,<br>Semi,<br>Solar<br>Two, 2.2 dia.<br>i—-\ Installation<br>Sensing Two, 3.2 dia.mounting holes with<br>surface two, 6 dia. countersinks on both sides<br>Two, 2.2 dia.<br>Model display tube Selection  Guide<br>Fiber Units<br>Standard Installation<br>Saving Space<br>Beam Improvements<br>Transparent Objects<br>Environmental Immunity<br>Applications<br>A<br>**----- End of picture text -----**<br>


**55** 

**56** 

**FPD, Semiconductors, and Solar Cells** 

**Limited-reflective** → 54 page **Through-beam** → This page 

**Flat Sleeved Small Spot High Power** ~~ee~~ **Narrow view BGS Retroreflective** ~~_—_~~ **Limitedreflective Chemicalresistant, Oil-resistant** ~~—)~~ **Bending Heatresistant Area Detection Liquid-level Vacuum FPD, Semi,** . **Solar Installation Information** 

## **Special Applications** 

**Threaded** 

**==> picture [42 x 7] intentionally omitted <==**

**----- Start of picture text -----**<br>
Wafer Mapping<br>**----- End of picture text -----**<br>


## **• Wafer Mapping** 

**==> picture [183 x 109] intentionally omitted <==**

**----- Start of picture text -----**<br>
E32-A04+E3NX-FA21<br>Mapping Characteristics<br>−10<br>(E32-A04, High-speed mode)<br>−5 Detection<br>2 wafers<br>10 mm 0 Ene<br>12-inch silicon wafer<br>5 Detection<br>150 mm<br>=———— —- =| 10 a| | | a |<br>0 2500 5000 7500 9999<br>Digital value<br>Detection positions (mm)<br>**----- End of picture text -----**<br>


Thin-profile design enables easy mounting on robot arms. Easy to adjust optical axis. (Typical alignment error between mechanical and optical axes is only ±0.1°.) Reliably wafer detection, even when stacked closely together. 

**Cylindrical** 

## **Specifications** 

## **Through-beam Fiber Units** 

~~P~~ **Sensing distance** ~~O~~ **(mm) Optical axis Bending diameter 57 Page Application[Ambient] Aperture Appearance (mm) radius E3X** ~~**-**~~ **HD E3NX** ~~**-**~~ **FA (minimum Models Dimensions temperature angle of cable sensing No. GIGA HS Other modes GIGA HS Other modes object)** 20.5 ~~_ee =,~~ Flexible, [ea ~~=~~ | [ew ~~=~~ | ~~|~~ **E32** ~~**-**~~ **A03 2M 57-A** R1 4,000 * **1.5°** ~~a~~ Thickness: 3 mm IP50 3,220 ST  : 1,780 ST  : 2,670 (0.1 dia./2 dia. 24.5 10 1,200 SHS: 500 1,800 SHS: 500 0.03 dia.) **E32** ~~**-**~~ **A03** ~~**-**~~ **1 2M 57-B** Thickness: 3 mm IP50 20.5 [ | R10 ~~=c~~ 1,280 ST  : 680 1,920 ST  : 1,020 1.2 dia. **Wafer 70°C 3.4°** ——— (0.1 dia./ **E32** ~~**-**~~ **A04 2M 57-C Mapping** 450 SHS: 200 670 SHS: 200 0.03 dia.) Thickness: 2 mm IP50 4,000 * 4,000 * i iy ~~FOF~~ ST  : 2,200 ST  : 3,300 Flexible, **E32** ~~**-**~~ **T24SR 2M 57-D** 20.5 R1 1,460 SHS: 580 2,190 SHS: 580 2 dia. **4°** ~~en~~ 3.5 dia. (0.1 dia./ 4,000 * ST  : 2,600 ~~FT~~ 4,000 * ST  : 3,900 0.03 dia.) ~~os~~ R10 **E32** ~~**-**~~ **T24S 2M 57-E** 1,740 SHS: 700 2,610 SHS: 700 = IP50 *  The optical fiber is 2 m long on each side, so the sensing distance is 4,000 mm. **Note 1.** The following mode names and response times apply to the modes given in the Sensing distance column. [E3X-HD] GIGA: Giga-power mode (16 ms), HS: High-speed mode (250 µs), ST: Standard mode (1 ms), and SHS: Super-high-speed mode (NPN output: 50 µs, PNP output: 55 µs) [E3NX-FA] GIGA: Giga-power mode (16 ms), HS: High-speed mode (250 µs), ST: Standard mode (1 ms), and SHS: Super-high-speed mode (30 µs) **2.** The values for the minimum sensing object are reference values that indicate values obtained in standard mode with the sensing distance and sensitivity set to the optimum values. The first value is for the E3X-HD and the second value is for the E3NX-FA. **3.** The sensing distances for the E3NX-FA are values for E3NX-FA @ devices. The distance for E3NX-FAH @ infrared models varies. ~~ett~~ 

*  The optical fiber is 2 m long on each side, so the sensing distance is 4,000 mm. 

**56** 

**Special Applications** 

**57** 

## **Dimensions** 

Installation Information → 58, 60 Page 

## **Through-beam Fiber Units (Set of 2)** 

**==> picture [212 x 600] intentionally omitted <==**

**----- Start of picture text -----**<br>
Cc) 57-A E32-A03 2M  (Free Cutting)<br>20.5 2,000<br>0.4 1.8<br>Engraved mark: E39-F9:<br>6 3.2 1 dia. Provided<br>17.6 3.5 dia. 4.3 11 2.95 dia.<br>(SUS303)<br>E39-L83 Mounting Bracket<br>3.4 3.2 (SUS) (provided)<br>2 10<br>Sensing surface: 1.7 dia.<br>——<br>Note:  Use the engraved surface and its opposing surface as<br>installation (reference) surfaces.<br>57-B E32-A03-1 2M  (Free Cutting)<br>Co) 2.95 dia. 1 dia.<br>4.5 10 Engraved mark:<br>1 dia. E39-F9:<br>3 3.5 12.56.5 3 Mounting holesTwo, 3.4 dia Provided<br>24.5 2,000<br>Sensing surface:<br>1.7 dia.<br>a 13 r (SUS303) e<br> Note1:  Use the engraved surface and its opposing surface as<br> installation (reference) surfaces.<br>2.  Set of two symmetrical parts.<br>7 57-C E32-A04 2M  (Free Cutting)<br>Engraved mark: 1 dia.<br>2 dia. (SUS303) E39-F9: Provided<br>1 dia.<br>2<br>2 4<br>20.5 2,000<br>2 Sensing surface: 1.2 dia.<br>Note:  Use the engraved surface and its opposing surface as<br>e s installation (reference) surfaces. ee<br>57-D E32-T24SR 2M  (Free Cutting)<br>0.4 1.8<br>e a (SUS303) 2.2 dia.<br>17.6 3.5 dia. 11 3.2<br>E39-L83 Mounting Bracket<br>3.4 3.2 (SUS) (provided)<br>10<br>— 20.5 2,000<br>1.5<br>Se 2 Sensing surface: 1.7 dia. —<br>— 57-E E32-T24S 2M  (Free Cutting)<br>0.4 1.8<br>(SUS303) 2.2 dia.<br>17.6 3.5 dia. 11 3.2<br>E39-L83 Mounting Bracket<br>3.4 3.2 (SUS) (provided)<br>10<br>a 20.5 2,000<br>1.5<br>Se 2 Sensing surface: 1.7 dia. en<br>**----- End of picture text -----**<br>


7" **Threaded Cylindrical** ; **Flat Sleeved** _ **Small Spot High Power** e ~~e~~ **Narrow view BGS Retroreflective Limitedreflective** a- **Chemicalresistant, Oil-resistant Bending Heatresistant** - **Area** — **Detection Liquid-level** e ~~e~~ **Vacuum FPD, Semi, Solar Installation Information** al 

**57** 

**Installation Information** 

**58** 

|**Models**|**Installation**<br>~~|~~<br>~~TL~~|**Installation**<br>~~|~~<br>~~TL~~|**Installation**<br>~~|~~<br>~~TL~~|**Cable**<br>~~|~~<br>~~TL~~<br>~~LLLLLL~~|**Cable**<br>~~|~~<br>~~TL~~<br>~~LLLLLL~~|**Cable**<br>~~|~~<br>~~TL~~<br>~~LLLLLL~~|**Cable**<br>~~|~~<br>~~TL~~<br>~~LLLLLL~~|**Cable**<br>~~|~~<br>~~TL~~<br>~~LLLLLL~~|**Cable**<br>~~|~~<br>~~TL~~<br>~~LLLLLL~~|**Weight**<br>**(packed**<br>**state) (g)**<br>**Emitter/receiver**<br>~~TL~~<br>~~LLL~~|**Demensions**<br>**Page**<br>**No.**|
|---|---|---|---|---|---|---|---|---|---|---|---|
||**Ambient**<br>**temperature**<br>~~|~~<br>~~TL~~|**Tightening**<br>**torque**<br>~~|~~<br>~~TL~~|**Mounting**<br>**hole**<br>~~|~~<br>~~TL~~|**Bending**<br>**radius**<br>~~|~~<br>~~TL~~<br>~~LLL~~|**Unbendable**<br>**length*1**<br>~~|~~<br>~~TL~~<br>~~LLL~~|**Tensile**<br>**strength**<br>~~|~~<br>~~TL~~<br>~~LLL~~|**Sheath**<br>**material**<br>~~|~~<br>~~TL~~<br>~~LLL~~|**Core**<br>**material**<br>~~|~~<br>~~TL~~<br>~~LLL~~|**Emitter/receiver**<br>**differentiation**<br>~~|~~<br>~~TL~~<br>~~LLL~~|||
|**E32-A01 5M**<br>c~~o~~mm<br>||−40 to 70°C<br>~~TL~~<br>a<br>|<br>||0.03N · m<br>~~TL~~<br>~~a~~<br>~~|~~|−<br>~~TL~~<br>~~|~~|R4<br>~~TL~~<br>~~LLL~~<br>~~|~~|10<br>~~TL~~<br>~~LLL~~<br>~~|~~|9.8N<br>~~TL~~<br>~~LLL~~<br>~~|~~|Fluororesin<br>~~TL~~<br>~~LLL~~<br>~~|~~|Plastic<br>~~TL~~<br>~~LLL~~<br>~~|~~|None<br>~~TL~~<br>~~LLL~~<br>~~|~~|200<br>~~TL~~<br>~~LLL~~<br>~~|~~|51 Page<br>**51-A**<br>~~&~~|
|**E32**~~**-**~~**A03 2M**<br>c~~o~~mm<br>|<br>c~~om~~m||−40 to 70°C<br>a <br>|<br>|<br>|<br>||0.29N · m<br> ~~a~~<br>~~|~~<br>~~|~~|−<br>~~|~~<br>~~|~~|R1<br>~~|~~<br>~~|~~|0<br>~~|~~<br>~~|~~|9.8N<br>~~|~~<br>~~|~~|Polyethylene<br>~~|~~<br>~~|~~|Plastic<br>~~|~~<br>~~|~~|None<br>~~|~~<br>~~|~~|40<br>~~|~~<br>~~|~~|31 Page<br>**31-A**<br>57 Page<br>**57-A**<br>~~&~~<br>~~&~~|
|**E32**~~**-**~~**A03**~~**-**~~**1 2M**<br>c~~o~~mm<br>|<br>c~~om~~m|<br>c~~o~~mm<br>||−40 to 70°C<br>|<br>|<br>|<br>|<br>|<br>||0.29N · m<br>~~|~~<br>~~|~~<br>~~|~~|−<br>~~|~~<br>~~|~~<br>~~|~~|R10<br>~~|~~<br>~~|~~<br>~~|~~|10<br>~~|~~<br>~~|~~<br>~~|~~|9.8N<br>~~|~~<br>~~|~~<br>~~|~~|Polyethylene<br>~~|~~<br>~~|~~<br>~~|~~|Plastic<br>~~|~~<br>~~|~~<br>~~|~~|None<br>~~|~~<br>~~|~~<br>~~|~~|50<br>~~|~~<br>~~|~~<br>~~|~~|31 Page<br>**31-B**<br>57 Page<br>**57-B**<br>~~&~~<br>~~&~~<br>~~&~~|
|**E32**~~**-**~~**A04 2M**<br>c~~om~~m |<br>c~~o~~mm<br>|<br>c~~o~~mm<br>||−40 to 70°C<br>|<br>|<br>|<br>|<br>|<br>||0.29N · m<br>~~|~~<br>~~|~~<br>~~|~~|2.2+0.5<br> 0 dia.<br>~~|~~<br>~~|~~<br>~~|~~|R10<br>~~|~~<br>~~|~~<br>~~|~~|10<br>~~|~~<br>~~|~~<br>~~|~~|9.8N<br>~~|~~<br>~~|~~<br>~~|~~|Polyethylene<br>~~|~~<br>~~|~~<br>~~|~~|Plastic<br>~~|~~<br>~~|~~<br>~~|~~|None<br>~~|~~<br>~~|~~<br>~~|~~|40<br>~~|~~<br>~~|~~<br>~~|~~|31 Page<br>**31-C**<br>57 Page<br>**57-C**<br>~~&~~<br>~~&~~<br>~~&~~|
|**E32**~~**-**~~**A08 2M**<br>c~~o~~mm<br>|<br>c~~o~~mm<br>||−40 to 70°C<br>|<br>|<br>|<br>||0.53N · m<br>~~|~~<br>~~|~~|−<br>~~|~~<br>~~|~~|R25<br>~~|~~<br>~~|~~|10<br>~~|~~<br>~~|~~|9.8N<br>~~|~~<br>~~|~~|Polyethylene<br>~~|~~<br>~~|~~|Plastic<br>~~|~~<br>~~|~~|None<br>~~|~~<br>~~|~~|60<br>~~|~~<br>~~|~~|37 Page<br>**37-C**<br>55 Page<br>**55-B**<br>~~&~~<br>~~&~~|
|**E32**~~**-**~~**A08H2 2M**<br>c~~o~~mm<br>|<br>~~A~~<br>c~~o~~mm<br>||−40 to 300°C<br>*2<br>|<br>|<br>~~=~~<br>|<br>||0.53N · m<br>~~|~~<br>~~=~~<br>~~|~~|−<br>~~|~~<br>~~=~~<br>~~|~~|R25<br>~~|~~<br>~~=~~<br>~~|~~|10<br>~~|~~<br>~~=~~<br>~~|~~|29.4N<br>~~|~~<br>~~=~~<br>~~|~~|SUS<br>~~|~~<br>~~=~~<br>~~|~~|Glass<br>~~|~~<br>~~=~~<br>~~[|~~|None<br>~~|~~<br>~~=~~<br>~~[|~~<br>~~[|~~|240<br>~~|~~<br>~~=~~<br>~~[|~~<br>~~|~~|47 Page<br>**47-D**<br>55 Page<br>**55-C**<br>~~&~~<br>~~=~~<br>~~&~~|
|**E32**~~**-**~~**A09 2M**<br>~~A~~<br>c~~o~~mm<br>||−40 to 70°C<br>~~=~~<br>|<br>||0.53N · m<br>~~=~~<br>~~|~~|−<br>~~=~~<br>~~|~~|R25<br>~~=~~<br>~~|~~|10<br>~~=~~<br>~~|~~|9.8N<br>~~=~~<br>~~|~~|Polyethylene<br>~~=~~<br>~~|~~|Plastic<br>~~=~~<br>~~[|~~|None<br>~~=~~<br>~~[|~~<br>~~[|~~|60<br>~~=~~<br>~~[|~~<br>~~|~~|37 Page<br>**37-F**<br>55 Page<br>**55-E**<br>~~=~~<br>~~&~~|
|**E32**~~**-**~~**A09H2 2M**<br>~~A~~<br>c~~o~~mm<br>|<br>~~See~~<br>c~~o~~mm<br>|<br>|−40 to 300°C<br>*2, *3<br>~~=~~<br>|<br>|<br>~~Ps~~<br>|<br>|<br>|0.53N · m<br>~~=~~<br>~~|~~<br>~~Ps~~<br>~~|~~|−<br>~~=~~<br>~~|~~<br>~~Ps~~<br>~~|~~|R25<br>~~=~~<br>~~|~~<br>~~Ps~~<br>||10<br>~~=~~<br>~~|~~<br>~~Ps~~<br>||9.8N<br>~~=~~<br>~~|~~<br>~~Ps~~<br>~~|~~|SUS<br>~~=~~<br>~~|~~<br>~~Ps~~<br>~~|~~|Glass<br>~~=~~<br>~~[|~~<br>~~Ps~~<br>~~|~~|None<br>~~=~~<br>~~[|~~<br>~~[|~~<br>~~Ps~~<br>~~|~~|230<br>~~=~~<br>~~[|~~<br>~~|~~<br>~~Ps~~<br>~~|~~|47 Page<br>**47-E**<br>55 Page<br>**55-F**<br>~~=~~<br>~~&~~<br>~~Ps~~<br>~~8~~|
|**E32**~~**-**~~**A12 2M**<br>~~See~~ <br>c~~o~~mm<br>|<br>~~=~~e||−40 to 70°C<br> ~~Ps~~<br>|<br>|<br>|<br>||0.53N · m<br>~~Ps~~<br>~~|~~<br>~~|~~|−<br>~~Ps~~<br>~~|~~<br>~~1.)~~|R25<br>~~Ps~~<br>|<br>~~1.)~~|10<br>~~Ps~~<br>|<br>~~1.)~~|9.8N<br>~~Ps~~<br>~~|~~<br>~~1.)~~|Polyethylene<br>~~Ps~~<br>~~|~~<br>~~1.)~~<br>~~|~~|Plastic<br>~~Ps~~<br>~~|~~<br>~~1.)~~<br>~~||~~|None<br>~~Ps~~<br>~~|~~<br>~~1.)~~<br>~~|~~<br>~~|~~|60<br>~~Ps~~<br>~~|~~<br>~~1.)~~<br>~~|~~|37 Page<br>**37-D**<br>55 Page<br>**55-D**<br>~~Ps~~<br>~~8~~<br>~~Lo~~|
|**E32**~~**-**~~**C21N 2M**<br>c~~o~~mm<br>|<br>~~=~~e|<br>a~~e~~e||−40 to 70°C<br>|<br>|<br>|<br>|<br>|<br>||0.29N · m<br>~~|~~<br>~~|~~<br>~~|1TLLP?~~|3.2+0.5<br> 0 dia.<br>*4<br>~~|~~<br>~~1.)~~<br>~~|1TLLP?~~|R2<br>|<br>~~1.)~~<br>~~|1TLLP?~~|0<br>|<br>~~1.)~~<br>~~|1TLLP?~~|9.8N<br>~~|~~<br>~~1.)~~<br>~~|1TLLP?~~|Polyethylene<br>~~|~~<br>~~1.)~~<br>~~|~~<br>~~|1TLLP?~~<br>~~|.~~|Plastic<br>~~|~~<br>~~1.)~~<br>~~||~~<br>~~|1TLLP?~~<br>~~|.~~<br>~~|.~~|White line on<br>emitter cable<br>~~|~~<br>~~1.)~~<br>~~|~~<br>~~|~~<br>~~|1TLLP?~~<br>~~|.|.~~|30<br>~~|~~<br>~~1.)~~<br>~~|~~<br>~~|1TLLP?~~<br>~~|.~~|99 Page<br>**99-D**<br>~~8~~<br>~~Lo~~<br>~~|.~~<br>~~oe~~|
|**E32**~~**-**~~**C31 2M**<br>~~=~~e |<br>a~~e~~e|<br>m~~e~~wn||−40 to 70°C<br>|<br>|<br>|<br>|<br>|<br>||0.78N · m<br>~~|~~<br>~~|1TLLP?~~<br>~~|~~|3.2+0.5<br> 0 dia.<br>*4<br>~~1.)~~<br>~~|1TLLP?~~<br>~~LLLP?~~|R25<br>~~1.)~~<br>~~|1TLLP?~~<br>~~LLLP?~~|10<br>~~1.)~~<br>~~|1TLLP?~~<br>~~LLLP?~~|9.8N<br>~~1.)~~<br>~~|1TLLP?~~<br>~~LLLP?~~|Polyethylene<br>~~1.)~~<br>~~|~~<br>~~|1TLLP?~~<br>~~|.~~<br>~~LLLP?~~<br>~~tL~~|Plastic<br>~~1.)~~<br>~~| |~~<br>~~|1TLLP?~~<br>~~|.~~<br>~~|.~~<br>~~LLLP?~~<br>~~tL|~~|White line on<br>emitter cable<br>~~1.)~~<br>~~|~~<br>~~|~~<br>~~|1TLLP?~~<br>~~|.|.~~<br>~~LLLP?~~<br>~~|-~~|40<br>~~1.)~~<br>~~|~~<br>~~|1TLLP?~~<br>~~|.~~<br>~~LLLP?~~<br>~~--~~|09 Page<br>**09-D**<br>~~Lo~~<br>~~|.~~<br>~~oe~~<br>~~-~~<br>~~eo~~|
|**E32**~~**-**~~**C31M 1M**<br>a~~e~~e |<br>m~~e~~wn|<br>m~~a~~me|<br>|−40 to 70°C<br>|<br>|<br>|<br>|<br>|<br>|<br>|0.78N · m<br>~~|1TLLP?~~<br>~~|~~<br>~~|~~|3.2+0.5<br> 0 dia.<br>*4<br>~~|1TLLP?~~<br>~~LLLP?~~<br>~~|~~|R10<br>~~|1TLLP?~~<br>~~LLLP?~~<br>~~|~~)|10<br>~~|1TLLP?~~<br>~~LLLP?~~<br>)|9.8N<br>~~|1TLLP?~~<br>~~LLLP?~~<br>|Polyethylene<br>~~|1TLLP?~~<br>~~|.~~<br>~~LLLP?~~<br>~~tL~~<br>|Plastic<br>~~|1TLLP?~~<br>~~|.~~<br>~~|.~~<br>~~LLLP?~~<br>~~tL|~~<br><br>~~|||~~|White line on<br>emitter cable<br>~~|1TLLP?~~<br>~~|. |.~~<br>~~LLLP?~~<br>~~|-~~<br><br>~~|||~~|40<br>~~|1TLLP?~~<br>~~|.~~<br>~~LLLP?~~<br>~~--~~<br><br>~~|||~~|09 Page<br>**09-E**<br>~~|.~~<br>~~oe~~<br>~~-~~<br>~~eo~~<br>~~|||©~~|
|**E32**~~**-**~~**C31N 2M**<br>m~~e~~wn |<br>m~~a~~me|<br>~~=~~e||−40 to 70°C<br>|<br>|<br>|<br>|<br>|<br>||0.29N · m<br>~~|~~<br>~~|~~<br>~~|~~|3.2+0.5<br> 0 dia.<br>*4<br>~~LLLP?~~<br>~~|~~<br>~~|~~|R4<br>~~LLLP?~~<br>~~|~~)<br>~~|~~||0<br>~~LLLP?~~<br>)~~11.)~~<br>|~~.)~~|9.8N<br>~~LLLP?~~<br>~~11.)~~<br>~~.)~~|PVC and<br>Polyethylene<br>~~LLLP?~~<br>~~tL~~<br>~~11.)~~<br>~~.)~~<br>~~|~~|Plastic<br>~~LLLP?~~<br>~~tL |~~<br>~~11.)~~<br>~~|||~~<br>~~~~),~~|White line on<br>emitter cable<br>~~LLLP?~~<br>~~| -~~<br>~~11.)~~<br>~~|||~~<br>~~~~),~~|40<br>~~LLLP?~~<br>~~- -~~<br>~~11.)~~<br>~~|||~~<br>~~~~),~~|09 Page<br>**09-A**<br>~~-~~<br>~~eo~~<br>~~|||©~~<br>~~~~),S~~|
|**E32**~~**-**~~**C41 1M**<br>m~~a~~me |<br>~~=~~e|<br>m~~e~~e||−40 to 70°C<br>|<br>|<br>|<br>|<br>|<br>||0.78N · m<br>~~| ~~<br>~~|~~<br>~~|~~|3.2+0.5<br> 0 dia.<br>*4<br> ~~|~~<br>~~|~~<br>~~|~~|R25<br>~~|~~)<br>~~|~~|<br>~~|~~||10<br>)<br>|~~.)~~<br>|~~.)~~|9.8N<br><br>~~.)~~<br>~~.)~~|Polyethylene<br><br>~~.)~~<br>~~|~~<br>~~.)~~<br>~~|.~~|Plastic<br><br>~~|||~~<br>~~~~),~~<br>~~|.|~~|White tube on<br>emitter cable<br><br>~~|||~~<br>~~~~),~~<br>~~|~~<br>~~|~~|30<br><br>~~|||~~<br>~~~~),~~|23 Page<br>**23-A** ,<br>**23-D**<br>~~||| ©~~<br>~~~~),S~~<br>~~loo~~|
|**E32**~~**-**~~**C42 1M**<br>~~=~~e |<br>m~~e~~e|<br>s~~e~~w||−40 to 70°C<br>|<br>|<br>|<br>|<br>|<br>||0.29N · m<br>~~| ~~<br>~~|~~<br>~~|1LLP?~~|2.2+0.5<br> 0 dia.<br> ~~|~~<br>~~|~~<br>~~|1LLP?~~|R25<br>~~|~~|<br>~~|~~|<br>~~|1LLP?~~|10<br>|~~.)~~<br>|~~.)~~<br>~~|1LLP?~~|9.8N<br>~~.)~~<br>~~.)~~<br>~~|1LLP?~~|Polyethylene<br>~~.)~~<br>~~|~~<br>~~.)~~<br>~~|.~~<br>~~|1LLP?~~<br>~~LL.~~|Plastic<br>~~~~),~~<br>~~|.|~~<br>~~|1LLP?~~<br>~~LL.~~|White tube on<br>emitter cable<br>~~~~),~~<br>~~|~~<br>~~|~~<br>~~|1LLP?~~<br>~~LL.|.~~|30<br>~~~~),~~<br>~~|1LLP?~~<br>~~|.~~|21 Page<br>**21-A** ,<br>**21-B**<br>~~~~), S~~<br>~~loo~~<br>~~|.~~<br>~~oc~~|
|**E32**~~**-**~~**C42S 1M**<br>m~~e~~e |<br>s~~e~~w|<br>=~~o~~me||−40 to 70°C<br>|<br>|<br>|<br>|<br>|<br>||0.29N · m<br>~~| ~~<br>~~|1LLP?~~<br>~~|~~|3.2+0.5<br> 0 dia.<br> ~~|~~<br>~~|1LLP?~~<br>~~|~~|R25<br>~~|~~|<br>~~|1LLP?~~<br>1|10<br>|~~.)~~<br>~~|1LLP?~~<br>1~~1.1.)~~|4N<br>~~.)~~<br>~~|1LLP?~~<br>~~1.1.)~~|Polyolefin<br>~~.)~~<br>~~|.~~<br>~~|1LLP?~~<br>~~LL.~~<br>~~1.1.)~~|Plastic<br>~~|. |~~<br>~~|1LLP?~~<br>~~LL.~~<br>~~1.1.)~~<br>~~|.~~|White tube on<br>emitter cable<br>~~|~~<br>~~|~~<br>~~|1LLP?~~<br>~~LL.|.~~<br>~~1.1.)~~<br>~~|.1~~|30<br>~~|1LLP?~~<br>~~|.~~<br>~~1.1.)~~<br>~~1~~|21 Page<br>**21-E**<br>~~loo~~<br>~~|.~~<br>~~oc~~<br>~~|e~~|
|**E32**~~**-**~~**CC200 2M**<br>s~~e~~w |<br>=~~o~~me|<br>c~~o~~omm||−40 to 70°C<br>|<br>|<br>|<br>|<br>|<br>||0.98N · m<br>~~|1LLP?~~<br>~~|~~<br>~~|~~|6.2+0.5<br> 0 dia.<br>~~|1LLP?~~<br>~~|~~<br>~~|~~|R25<br>~~|1LLP?~~<br>1<br>||10<br>~~|1LLP?~~<br>1~~1.1.)~~<br>||29.4N<br>~~|1LLP?~~<br>~~1.1.)~~<br>~~|~~|Polyethylene<br>~~|1LLP?~~<br>~~LL.~~<br>~~1.1.)~~<br>~~|~~|Plastic<br>~~|1LLP?~~<br>~~LL.~~<br>~~1.1.)~~<br>~~|.~~<br>~~|~~|White line on<br>emitter cable<br>~~|1LLP?~~<br>~~LL. |.~~<br>~~1.1.)~~<br>~~|.1~~<br>~~|~~|40<br>~~|1LLP?~~<br>~~|.~~<br>~~1.1.)~~<br>~~1~~<br>~~|~~|09 Page<br>**09-H**<br>~~|.~~<br>~~oc~~<br>~~|e~~<br>~~&~~|
|**E32**~~**-**~~**C91N 2M**<br>=~~o~~me |<br>c~~o~~omm|<br>w~~n~~a||−40 to 70°C<br>|<br>|<br>|<br>|<br>|~~||~~|0.98N · m<br>~~|~~<br>~~|~~<br>~~||~~|6.2+0.5<br> 0 dia.<br>~~|~~<br>~~|~~<br>~~||~~|R4<br>1<br>|<br>|0<br>1~~1.1.)~~<br>|<br>|29.4N<br>~~1.1.)~~<br>~~|~~<br>|Polyethylene<br>~~1.1.)~~<br>~~|~~<br><br>~~|~~|Plastic<br>~~1.1.)~~<br>~~|.~~<br>~~|~~<br><br>~~||~~|White line on<br>emitter cable<br>~~1.1.)~~<br>~~|. 1~~<br>~~|~~<br><br>~~|~~<br>~~|~~|36<br>~~1.1.)~~<br>~~1~~<br>~~|~~<br><br>~~|~~|09 Page<br>**09-B**<br>99 Page<br>**99-F**<br>~~|e~~<br>~~&~~<br>~~Lo~~|
|**E32**~~**-**~~**D11 2M**<br>c~~o~~omm |<br>w~~n~~a|<br>~~s~~me<br>||−40 to 70°C<br>|<br>|<br>|~~||~~<br>|<br>||0.98N · m<br>~~|~~<br>~~||~~<br>~~|~~|6.2+0.5<br> 0 dia.<br>~~|~~<br>~~||1.)~~<br>~~1LL?~~|R4<br>|<br>~~1.)~~<br>~~1LL?~~|10<br>|<br>~~1.)~~<br>~~1LL?~~|29.4N<br>~~|~~<br>~~1.)~~<br>~~1LL?~~|PVC<br>~~|~~<br>~~1.)~~<br>~~|~~<br>~~1LL?~~<br>~~LL~~|Plastic<br>~~|~~<br>~~1.)~~<br>~~||~~<br>~~1LL?~~<br>~~LL~~|None<br>~~|~~<br>~~1.)~~<br>~~|~~<br>~~|~~<br>~~1LL?~~<br>~~LL|.~~|50<br>~~|~~<br>~~1.)~~<br>~~|~~<br>~~1LL?~~<br>~~|.~~|43 Page<br>**43-E**<br>~~&~~<br>~~Lo~~<br>~~|.~~<br>~~eo~~|
|**E32**~~**-**~~**D11R 2M**<br>w~~n~~a |<br>~~s~~me<br>|<br>=~~e~~um||−40 to 70°C<br>| ~~||~~<br>|<br>|<br>|<br>||0.98N · m<br>~~||~~<br>~~|~~<br>~~|~~|6.2+0.5<br> 0 dia.<br>~~||~~<br>~~1LL?~~<br>~~|~~|R1<br><br>~~1LL?~~<br>~~|~~)|0<br><br>~~1LL?~~<br>)~~11.~~|29.4N<br><br>~~1LL?~~<br>~~11.~~|PVC<br><br>~~|~~<br>~~1LL?~~<br>~~LL~~<br>~~11.|||~~|Plastic<br><br>~~| |~~<br>~~1LL?~~<br>~~LL~~<br>~~|||~~|None<br><br>~~|~~<br>~~|~~<br>~~1LL?~~<br>~~LL|.~~<br>~~|||~~|50<br><br>~~|~~<br>~~1LL?~~<br>~~|.~~<br>~~|||~~|09 Page<br>**09-G**<br>~~Lo~~<br>~~|.~~<br>~~eo~~<br>~~|e~~|
|**E32**~~**-**~~**D11U 2M**<br>~~s~~me<br>|<br>=~~e~~um|<br>s~~e~~em||−40 to 70°C<br>|<br>|<br>|<br>|<br>|<br>||0.98N · m<br>~~|~~<br>~~|~~<br>~~||~~|6.2+0.5<br> 0 dia.<br>~~1LL?~~<br>~~|~~<br>~~||~~|R4<br>~~1LL?~~<br>~~|~~)<br>~~||~~|10<br>~~1LL?~~<br>)~~11.~~<br>|29.4N<br>~~1LL?~~<br>~~11.~~<br>|Fluororesin<br>~~1LL?~~<br>~~LL~~<br>~~11.|||~~<br>|Plastic<br>~~1LL?~~<br>~~LL~~<br>~~|||~~<br><br>~~|.~~|None<br>~~1LL?~~<br>~~LL |.~~<br>~~|||~~<br><br>~~|.~~|60<br>~~1LL?~~<br>~~|.~~<br>~~|||~~<br>|39 Page<br>**39-I**<br>~~|.~~<br>~~eo~~<br>~~|e~~<br>~~11S~~|
|**E32**~~**-**~~**D12F 2M**<br>=~~e~~um |<br>s~~e~~em|<br>=u~~a~~we||−40 to 70°C<br>|<br>|<br>|<br>|<br>|<br>||0.78N · m<br>~~| ~~<br>~~||~~<br>~~|~~|6.5+0.5<br> 0 dia.<br> ~~|~~<br>~~||~~<br>~~11.)~~|R40<br>~~|~~)<br>~~||111.)~~<br>~~11.)~~|10<br>) ~~11.~~<br>~~111.)~~<br>~~11.)~~|29.4N<br>~~11.~~<br>~~111.)~~<br>~~11.)~~|Fluororesin<br>~~11. |||~~<br>~~111.)~~<br>~~11.)||~~|Plastic<br>~~|||~~<br>~~111.)~~<br>~~|.~~<br>~~||~~|None<br>~~|||~~<br>~~111.)~~<br>~~|.~~<br>~~||||~~|190<br>~~|||~~<br>~~111.)~~<br>~~||~~|39 Page<br>**39-H**<br>~~|e~~<br>~~11S~~<br>~~||o~~|
|**E32**~~**-**~~**D15XR 2M**<br>s~~e~~em |<br>=u~~a~~we|<br>~~s~~me||−40 to 70°C<br>|<br>| <br>|<br>|<br>|<br>||0.15N · m<br> ~~||~~<br>~~|~~<br>~~|~~|−<br>~~||~~<br>~~11.)~~<br>~~1?~~|R1<br>~~||~~<br>~~11.)~~<br>~~1?~~|0<br><br>~~11.)~~<br>~~1?~~|29.4N<br><br>~~11.)~~<br>~~1?~~|PVC<br><br>~~11.)||~~<br>~~1?~~<br>~~|~~|Plastic<br><br>~~|.~~<br>~~||~~<br>~~1?~~<br>~~||~~|None<br><br>~~|.~~<br>~~||||~~<br>~~1?~~<br>~~||,~~|60<br><br>~~||~~<br>~~1?~~<br>~~|,~~|15 Page<br>**15-E**<br>~~11S~~<br>~~||o~~<br>~~|,~~<br>~~oe~~|
|**E32**~~**-**~~**D15YR 2M**<br>=u~~a~~we |<br>~~s~~me|<br>m~~e~~ee||−40 to 70°C<br>|<br>|<br>|<br>|<br>|<br>||0.15N · m<br>~~| ~~<br>~~|~~<br>~~|~~|−<br> ~~11.)~~<br>~~1?~~<br>~~|~~|R1<br>~~11.)~~<br>~~1?~~<br>~~111.1111~~|0<br>~~11.)~~<br>~~1?~~<br>~~111.1111~~|29.4N<br>~~11.)~~<br>~~1?~~<br>~~111.1111~~|PVC<br>~~11.) ||~~<br>~~1?~~<br>~~|~~<br>~~111.1111~~|Plastic<br>~~||~~<br>~~1?~~<br>~~||~~<br>~~111.1111~~|None<br>~~|| ||~~<br>~~1?~~<br>~~||,~~<br>~~111.1111~~|60<br>~~||~~<br>~~1?~~<br>~~|,~~<br>~~111.1111~~|15 Page<br>**15-F**<br>~~|| o~~<br>~~|,~~<br>~~oe~~<br>~~111.1111~~|
|**E32**~~**-**~~**D15ZR 2M**<br>~~s~~me |<br>m~~e~~ee|<br>~~=~~m||−40 to 70°C<br>|<br>|<br>|<br>|<br>|<br>||0.15N · m<br>~~|~~<br>~~|~~<br>~~|~~|−<br>~~1?~~<br>~~|~~<br>~~|).~~|R1<br>~~1?~~<br>~~111.1111~~<br>~~|).~~|0<br>~~1?~~<br>~~111.1111~~<br>~~|).~~|29.4N<br>~~1?~~<br>~~111.1111~~<br>~~|).1.~~|PVC<br>~~1?~~<br>~~|~~<br>~~111.1111~~<br>~~1.|||~~|Plastic<br>~~1?~~<br>~~| |~~<br>~~111.1111~~<br>~~|||~~|None<br>~~1?~~<br>~~| |,~~<br>~~111.1111~~<br>~~|||~~|60<br>~~1?~~<br>~~|,~~<br>~~111.1111~~<br>~~|||~~|15 Page<br>**15-G**<br>~~|,~~<br>~~oe~~<br>~~111.1111~~<br>~~12~~|
|**E32**~~**-**~~**D16 2M**<br>m~~e~~ee |<br>~~=~~m|<br>«~~a~~=a||−40 to 70°C<br>|<br>|<br>|<br>|<br>||0.53N · m<br>~~|~~<br>~~|~~<br>|−<br>~~|~~<br>~~|).~~<br>|R4<br>~~111.1111~~<br>~~|).~~<br>|10<br>~~111.1111~~<br>~~|).~~<br>|29.4N<br>~~111.1111~~<br>~~|).1.~~<br>|PVC<br>~~111.1111~~<br>~~1.|||~~<br><br>~~|~~|Plastic<br>~~111.1111~~<br>~~|||~~<br><br>~~||~~|None<br>~~111.1111~~<br>~~|||~~<br><br>~~||~~|70<br>~~111.1111~~<br>~~|||~~<br><br>~~|~~|25 Page<br>**25-E**<br>~~111.1111~~<br>~~12~~<br>~~Lo~~|
|**E32**~~**-**~~**D21 2M**<br>~~=~~m |<br>«~~a~~=a|<br>~~n~~e|<br>~~a~~|−40 to 70°C<br>|<br>|<br>|~~|||...~~<br>|<br>||0.78N · m<br>~~| ~~<br>~~|||...~~<br>~~|~~|3.2+0.5<br> 0 dia.<br>*4<br> ~~|).~~<br>~~|||...~~<br>~~|~~|R4<br>~~|).~~<br>~~|||...~~<br>~~|~~|10<br>~~|).~~<br>~~|||...~~<br>~~||)~~|9.8N<br>~~|). 1.~~<br>~~|||...~~<br>~~|)~~|PVC<br>~~1. |||~~<br>~~|||...~~<br>~~|~~<br>~~|)~~<br>||Plastic<br>~~|||~~<br>~~|||...~~<br>~~||~~<br>~~|)~~<br>|||None<br>~~|||~~<br>~~|||...~~<br>~~||~~<br>~~|)~~<br>|~~|~~|20<br>~~|||~~<br>~~|||...~~<br>~~|~~<br>~~|)~~<br>~~|~~|43 Page<br>**43-B**<br>~~12~~<br>~~Lo~~<br>~~Lo~~|
|**E32**~~**-**~~**D211R 2M**<br>«~~a~~=a |<br>~~n~~e|<br>~~a~~|−40 to 70°C<br>|<br>|<br>||0.78N · m<br><br>~~|~~|4.2+0.5<br> 0 dia.<br><br>~~|~~|R1<br><br>~~|~~|0<br><br>~~||)~~|9.8N<br><br>~~|)~~|Polyethylene<br><br>~~|~~<br>~~|)~~<br>||Plastic<br><br>~~| |~~<br>~~|)~~<br>|||None<br><br>~~| |~~<br>~~|)~~<br>|~~|~~|40<br><br>~~|~~<br>~~|)~~<br>~~|~~|09 Page<br>**09-F**<br>~~Lo~~<br>~~Lo~~|
|**E32**~~**-**~~**D21B 2M**<br>~~n~~e |<br>~~a~~<br>~~mene|~~<br>|−40 to 70°C<br>|<br>|<br>~~||~~<br>|0.78N · m<br>~~|~~<br>~~|~~|4.2+0.5<br> 0 dia.<br>~~|~~<br>~~|~~|R4<br>~~|~~<br>~~|~~)|10<br>~~||)~~<br>)1|9.8N<br>~~|)~~<br>~~1~~|PVC<br>~~|)~~<br>|<br>~~1.)~~|Plastic<br>~~|)~~<br>||<br>~~.)|.~~|None<br>~~|)~~<br>|~~|~~<br>~~|.~~|40<br>~~|)~~<br>~~|~~|43 Page<br>**43-D**<br>~~Lo~~<br>112|
|**E32**~~**-**~~**D21N 2M**<br>~~a~~<br>~~mene|~~<br>~~mene|~~|−40 to 70°C<br>~~||~~<br>~~|~~<br>~~|~~|0.78N · m<br>~~|~~<br>~~||~~|4.2+0.5<br> 0 dia.<br>~~|~~<br>~~||~~|R2<br>~~|~~)<br>~~||~~|0<br>)1<br>|9.8N<br>~~1~~<br>|Polyethylene<br>|<br>~~1.)~~<br>|Plastic<br>| |<br>~~.)|.~~<br>|None<br>| ~~|~~<br>~~|.~~<br>|30<br>~~|~~<br>|99 Page<br>**99-E**<br>~~Lo~~<br>112|
|**E32**~~**-**~~**D21R 2M**<br>~~mene|~~<br>~~mene|~~<br>~~mmm|~~|−40 to 70°C<br>~~||~~<br>~~|~~<br>~~|~~<br>~~|~~<br>~~|~~|0.78N · m<br>~~|~~<br>~~||~~<br>~~|~~|3.2+0.5<br> 0 dia.<br>*4<br>~~|~~<br>~~||~~<br>~~|~~|R1<br>~~|~~)<br>~~||~~1<br>~~11~~|0<br>)1<br>1~~11.111~~<br>~~11~~|9.8N<br>~~1~~<br>~~11.111~~<br>~~111~~|Polyethylene<br>~~1.)~~<br>~~11.111~~<br>~~1~~.|||Plastic<br>~~.)|.~~<br>~~11.111~~<br>|||None<br>~~|.~~<br>~~11.111~~<br>||~~|.~~|20<br>~~11.111~~<br>~~|.|~~|09 Page<br>**09-C**<br>112<br>|S<br>~~|©~~|
|**E32**~~**-**~~**D21**~~**-**~~**S3 2M**<br>~~mene |~~<br>~~mene |~~<br>~~mmm|~~<br>~~comm|~~|−40 to 70°C<br>~~| |~~<br>~~|~~<br>~~| ~~<br>~~|~~<br>~~|~~<br>~~|~~<br>~~|~~|0.78N · m<br>~~| ~~<br> ~~||~~<br>~~|~~<br>||4.2+0.5<br> 0 dia.<br> ~~|~~<br>~~||~~<br>~~|~~<br>||R10<br>~~|~~)<br>~~||~~<br>~~11~~<br>~~|~~|10<br>) 1 <br><br>~~11~~<br>~~|~~|9.8N<br> ~~1~~<br><br>~~111~~<br>~~|~~|Polyethylene<br>~~1.)~~<br><br>~~1~~.||<br>~~|~~|Plastic<br>~~.) |.~~<br><br>||<br>~~|~~|None<br>~~|.~~<br><br>||~~|.~~<br>~~[|~~|50<br><br>~~|.|~~<br>~~[|~~<br>~~|~~|19 Page<br>**19-J**<br>112<br>~~|©~~<br>~~8~~|
|**E32**~~**-**~~**D221B 2M**<br>~~mmm |~~<br>~~comm|~~<br>c~~o~~mm||−40 to 70°C<br>~~|~~<br>~~|~~<br>~~|~~<br>~~|~~<br>|<br>||0.29N · m<br>~~|~~<br>|<br>||3.2+0.5<br> 0 dia.<br>~~| ~~<br>|<br>||R4<br> ~~11~~<br>~~|~~<br>||10<br>~~11~~<br>~~|~~<br>||9.8N<br>~~11 1~~<br>~~|~~<br>||PVC<br>~~1~~. ||<br>~~|~~<br>||Plastic<br>||<br>~~|~~<br>[||None<br>||~~|.~~<br>~~[|~~<br>[|<br>[||40<br>~~|.|~~<br>~~[|~~<br>~~|~~<br>[|<br>||13 Page<br>**13-D**<br>43 Page<br>**43-C**<br>~~| ©~~<br>~~8~~<br>&|
|**E32**~~**-**~~**D22B 2M**<br>~~comm |~~<br>c~~o~~mm||−40 to 70°C<br>~~|~~<br>~~|~~<br>|<br>||0.2N · m<br>|<br>||1.7+0.5<br> 0 dia.<br>|<br>||R4<br>~~|~~<br>||10<br>~~|~~<br>||9.8N<br>~~|~~<br>||PVC<br>~~|~~<br>||Plastic<br>~~|~~<br>[||None<br>~~[|~~<br>[|<br>[||30<br>~~[|~~<br>~~|~~<br>[|<br>||13 Page<br>**13-A**<br>43 Page<br>**43-A**<br>~~8~~<br>&|



**58** 

**Installation Information** 

**59** 

~~_~~ 

**Threaded** 

**Cylindrical** 

**Flat** 

**Sleeved** 

**Small Spot** 

**High Power** 

**Narrow view** 

**BGS** 

**Retroreflective Limitedreflective Chemicalresistant, Bending Heatresistant** 

**Retroreflective** 

**Limitedreflective** 

**Chemicalresistant, Oil-resistant** 

**Area Detection** 

**FPD, Semi, Solar** oo **Installation Information** ~~i~~ 

|**Models**|**Installation**<br>~~|~~<br>~~LLL~~|**Installation**<br>~~|~~<br>~~LLL~~|**Installation**<br>~~|~~<br>~~LLL~~|**Cable**<br>~~|~~<br>~~LLL~~|**Cable**<br>~~|~~<br>~~LLL~~|**Cable**<br>~~|~~<br>~~LLL~~|**Cable**<br>~~|~~<br>~~LLL~~|**Cable**<br>~~|~~<br>~~LLL~~|**Cable**<br>~~|~~<br>~~LLL~~|**Weight**<br>**(packed**<br>**state) (g)**<br>**Emitter/receiver**<br>~~LLL~~|**Demensions**<br>**Page**<br>**No.**|
|---|---|---|---|---|---|---|---|---|---|---|---|
||**Ambient**<br>**temperature**<br>~~|~~<br>~~LLL~~|**Tightening**<br>**torque**<br>~~|~~<br>~~LLL~~|**Mounting**<br>**hole**<br>~~|~~<br>~~LLL~~|**Bending**<br>**radius**<br>~~|~~<br>~~LLL~~|**Unbendable**<br>**length*1**<br>~~|~~<br>~~LLL~~|**Tensile**<br>**strength**<br>~~|~~<br>~~LLL~~|**Sheath**<br>**material**<br>~~|~~<br>~~LLL~~|**Core**<br>**material**<br>~~|~~<br>~~LLL~~|**Emitter/receiver**<br>**differentiation**<br>~~|~~<br>~~LLL~~|||
|**E32**~~**-**~~**D22R 2M**|−40 to 70°C<br>~~LLL~~|0.29N · m<br>~~LLL~~|3.2+0.5<br> 0 dia.<br>~~LLL~~|R1<br>~~LLL~~|0<br>~~LLL~~|9.8N<br>~~LLL~~|Polyethylene<br>~~LLL~~|Plastic<br>~~LLL~~|None<br>~~LLL~~|40<br>~~LLL~~|13 Page<br>**13-C**|
|**E32**~~**-**~~**D22**~~**-**~~**S1 2M**|−40 to 70°C|0.29N · m|4.2+0.5<br> 0 dia.|R10|10|9.8N|Polyethylene|Plastic|None|45|19 Page<br>**19-I**|
|**E32**~~**-**~~**D24R 2M**|−40 to 70°C|0.29N · m|3.2+0.5<br> 0 dia.|R1|0|9.8N|Polyethylene|Plastic|None|40|19 Page<br>**19-A**|
|**E32**~~**-**~~**D24**~~**-**~~**S2 2M**|−40 to 70°C|0.29N · m|5+0.5<br> 0 dia.|R25|10|19.6N|Polyethylene|Plastic|None|55|19 Page<br>**19-B**|
|**E32**~~**-**~~**D25XB 2M**|−40 to 70°C|0.15N · m|−|R4|10|9.8N|PVC|Plastic|None|40|43 Page<br>**43-F**|
|**E32**~~**-**~~**D25**~~**-**~~**S3 2M**|−40 to 70°C|0.29N · m|−|R10|10|9.8N|Polyethylene|Plastic|None|50|19 Page<br>**19-L**|
|**E32**~~**-**~~**D31**~~**-**~~**S1 0**~~**.**~~**5M**|−40 to 70°C|0.78N · m|3.2+0.5<br> 0 dia.<br>*2|R4|10|9.8N|Polyolefin|Plastic|None|35|19 Page<br>**19-G**|
|**E32**~~**-**~~**D32L 2M**|−40 to 70°C|0.29N · m|3.2+0.5<br> 0 dia.|R25|10|29.4N|Polyethylene|Plastic|Yellow dotted<br>line on emitter<br>cable|50|13 Page<br>**13-E**|
|**E32**~~**-**~~**D32**~~**-**~~**S1 0**~~**.**~~**5M**|−40 to 70°C|0.29N · m|3.2+0.5<br> 0 dia.|R4|10|9.8N|Polyolefin|Plastic|None|35|19 Page<br>**19-F**|
|**E32**~~**-**~~**D33 2M**|−40 to 70°C|0.29N · m|3.2+0.5<br> 0 dia.|R25|10|9.8N|Polyethylene|Plastic|None|40|13 Page<br>**13-F**<br>19 Page<br>**19-E**|
|**E32**~~**-**~~**D331 2M**|−40 to 70°C|0.29N · m|2.2+0.5<br> 0 dia.|R4|10|9.8N|Polyethylene|Plastic|None|30|19 Page<br>**19-D**|
|**E32**~~**-**~~**D36P1 2M**|−40 to 70°C|0.78N · m|−|R4|10|29.4N|Polyethylene|Plastic|None|60|49 Page<br>**49-E**|
|**E32**~~**-**~~**D36T 2M**|−40 to 70°C|−|−|R4|10|29.4N|Polyethylene|Plastic|None|190|51 Page<br>**51-C**|
|**E32**~~**-**~~**D43M 1M**|−40 to 70°C|0.29N · m|1.7+0.5<br> 0 dia.|R4|10|9.8N|Polyethylene|Plastic|None|30|13 Page<br>**13-B**<br>19 Page<br>**19-C**|
|**E32**~~**-**~~**D51 2M**|−40 to 150°C<br>*3|0.98N · m|6.2+0.5<br> 0 dia.|R35|10|29.4N|Fluororesin|Plastic|None|60|47 Page<br>**47-B**|
|**E32**~~**-**~~**D51R 2M**|−40 to 100°C<br>*4|0.98N · m|6.2+0.5<br> 0 dia.|R2|0|29.4N|Polyurethane|Plastic|None|60|47 Page<br>**47-A**|
|**E32**~~**-**~~**D61**~~**-**~~**S 2M**|−60 to 350°C<br>*5|0.98N · m|6.2+0.5<br> 0 dia.|R25|10|29.4N|SUS|Glass|None|190|47 Page<br>**47-G**|
|**E32**~~**-**~~**D611**~~**-**~~**S 2M**|−60 to 350°C<br>*5|0.98N · m|4.2+0.5<br> 0 dia.|R25|10|29.4N|SUS|Glass|None|170|47 Page<br>**47-F**|
|**E32**~~**-**~~**D73**~~**-**~~**S 2M**|−40 to 400°C<br>*5|0.78N · m|4.2+0.5<br> 0 dia.|R25|10|29.4N|SUS|Glass|None|170|47 Page<br>**47-H**|
|**E32**~~**-**~~**D81R**~~**-**~~**S 2M**|−40 to 200°C<br>*5|0.78N · m|6.2+0.5<br> 0 dia.|R10|10|9.8N|Fluororesin|Glass|None|70|47 Page<br>**47-C**|
|**E32**~~**-**~~**D82F1 4M**|−40 to 200°C|0.29N · m|6.5+0.5<br> 0 dia.|R25|10|29.4N|Fluororesin|Plastic|None|450|51 Page<br>**51-D**|
|**E32**~~**-**~~**DC200BR 2M**|−40 to 70°C|0.98N · m|6.2+0.5<br> 0 dia.|R1|0|29.4N|PVC|Plastic|None|60|19 Page<br>**19-K**|
|**E32**~~**-**~~**DC200F4R 2M**|−40 to 70°C|0.78N · m|3.2+0.5<br> 0 dia.<br>*2|R1|0|9.8N|Polyethylene|Plastic|None|40|19 Page<br>**19-H**|
|**E32**~~**-**~~**G16 2M**|−40 to 70°C|0.53N · m|−|R5|0 *6|29.4N|Polyethylene|Plastic|−|51|49 Page<br>**49-D**|
|**E32**~~**-**~~**L11FP 2M**|−10 to 60°C|0.78N · m|−|R40|10|9.8N|Fluororesin|Plastic|None|310|39 Page<br>**39-F**<br>55 Page<br>**55-G**|
|**E32**~~**-**~~**L11FS 2M**|−10 to 85°C|0.78N · m|−|R40|10|9.8N|Fluororesin|Plastic|None|310|39 Page<br>**39-G**<br>55 Page<br>**55-H**|
|**E32**~~**-**~~**L15 2M**<br>~~E32-LI6-N~~|−40 to 70°C<br>~~|~~|0.53N · m<br>||−<br>~~tet~~|R25<br>~~tet~~|10<br>~~tet~~|29.4N<br>~~tety~~|Polyethylene<br>~~yt~~|Plastic<br>~~ytfl~~|White tube on<br>emitter cable<br>~~flltt~~|60<br>~~ltt~~|21 Page<br>**21-F**<br>~~ltt~~|
|**E32**~~**-**~~**L16**~~**-**~~**N 2M**<br>~~E32-LI6-N~~<br>2M<br>~~==f[~~<br>~~coum~~|−40 to 70°C<br>~~|~~<br>~~f[~~|0.29N · m<br>|<br>|−<br>~~tet~~<br>|R25<br>~~tet~~<br>|10<br>~~tet~~<br>|29.4N<br>~~tety~~<br>|Polyethylene<br>~~yt~~<br><br>~~Ll~~|Plastic<br>~~ytfl~~<br><br>~~Ll~~|None<br>~~flltt~~<br><br>~~Ll~~|60<br>~~ltt~~<br>|33 Page<br>**33-A**<br>37 Page<br>**37-B**<br>55 Page<br>**55-A**<br>~~ltt~~<br>Cc)<br>~~Co~~<br>~~es~~|
|**E32**~~**-**~~**L24S 2M**<br>~~E32-LI6-N~~<br>~~==f[~~<br>~~coum~~<br>||−40 to 70°C<br>~~|~~<br>~~f[[>To~~<br>|<br>||0.29N · m<br>| <br>~~[>To~~<br>~~|~~|−<br> ~~tet~~<br>~~[>To~~<br>~~|~~|R10<br>~~tet~~<br>~~[>To~~<br>~~|~~|10<br>~~tet~~<br>~~[>To~~<br>~~|~~|9.8N<br>~~tet y~~<br>~~[>To~~<br>~~|~~|Polyethylene<br>~~yt~~<br>~~[>To~~<br>~~Ll~~<br>~~|~~|Plastic<br>~~yt fl~~<br>~~[>To~~<br>~~Ll~~<br>~~|~~|None<br>~~fl ltt~~<br>~~[>To~~<br>~~Ll~~<br>~~|~~|40<br>~~ltt~~<br>~~[>To~~<br>~~|~~|33 Page<br>**33-B**<br>37 Page<br>**37-A**<br>~~ltt~~<br>~~Co~~<br>~~es~~<br>~~8~~|
|**E32**~~**-**~~**L25L 2M**<br>~~== f[~~<br>~~coum~~<br>|<br>s~~o~~r=||−40 to 105°C<br>*4<br>~~f[~~<br>|<br>|<br>=|<br>||0.29N · m<br><br>~~|~~<br>~~|~~|−<br><br>~~|~~<br>~~|~~|R10<br><br>~~|~~<br>~~|~~|10<br><br>~~|~~<br>~~|~~|9.8N<br><br>~~|~~<br>~~|~~|Polyethylene<br><br>~~Ll~~<br>~~|~~<br>~~|~~|Plastic<br><br>~~Ll~~<br>~~|~~<br>~~|~~|None<br><br>~~Ll~~<br>~~|~~<br>~~|~~|40<br><br>~~|~~<br>~~|~~|33 Page<br>**33-C**<br>37 Page<br>**37-E**<br>~~es ~~<br>~~8~~<br>~~oo~~|
|**E32**~~**-**~~**L25T 2M**<br>|<br>s~~o~~r=||−40 to 70°C<br>|<br>|<br>=|<br>||−<br>~~|~~<br>~~|~~|−<br>~~|~~<br>~~|~~|R10<br>~~|~~<br>~~|~~|10<br>~~|~~<br>~~|~~|9.8N<br>~~|~~<br>~~|~~|Polyethylene<br>~~|~~<br>~~|~~|Plastic<br>~~|~~<br>~~|~~|None<br>~~|~~<br>~~|~~|40<br>~~|~~<br>~~|~~|51 Page<br>**51-B**<br>~~8~~<br>~~oo~~|
|**E32**~~**-**~~**LD11 2M**<br>s~~o~~r =||−40 to 70°C<br>=|<br>||0.98N · m<br>~~|~~|−<br>~~|~~|R25<br>~~|~~|10<br>~~|~~|29.4N<br>~~|~~|Polyethylene<br>~~|~~|Plastic<br>~~|~~|None<br>~~|~~|40<br>~~|~~|09 Page<br>**09-I**<br>~~oo~~|
|**E32**~~**-**~~**LD11N 2M**|−40 to 70°C|0.98N · m|6.2+0.5<br> 0 dia.|R2|0|29.4N|Polyethylene|Plastic|None|40|99 Page<br>**99-C**|
|**E32**~~**-**~~**LD11R 2M**|−40 to 70°C|0.98N · m|−|R1|0|29.4N|Polyethylene|Plastic|None|40|09 Page<br>**09-I**|



**Liquid-level** 

**Vacuum** 

*1 Unbendable length of cable from fiber head. Do not bend the cable for at least 20 mm from where the cable inserts into the Fiber Amplifier Unit. 

*2 For embedded mounting, prepare a hole with a diameter of 2.6 mm. 

*3 For continuous operation, use the Fiber Unit between −40 to 130°C. 

*4 For continuous operation, use the Fiber Unit between −40 to 90°C. 

- *5 The heat-resistant rating is not the same for all parts of the Fiber Unit. Refer to the dimensions diagrams for details. *6 The bending radius of the protective cover (PVC, 25 mm) is 10 mm min. 

**59** 

**Installation Information** 

**60** 

**Threaded Cylindrical Flat Sleeved** 

**Vacuum E32** ~~**-**~~ **T21** ~~**-** ——_~~ **FPD,** ~~_ E&2-T21-S1~~ **Semi,Solar E32** ~~**-**~~ **T223R 2M Installation E32** ~~**-**~~ **T22B 2M Information** ~~Mees~~ **E32** ~~**-**~~ **T22S 2M E32** ~~**-**~~ **T24E 2M E32** ~~**-**~~ **T24R 2M E32** ~~**-**~~ **T24S 2M** ~~come~~ **E32** ~~**-**~~ **T24SR 2M** ~~come~~ **E32** ~~**-**~~ **T25XB 2M** ~ 

**Small Spot** ~~——~~ **High Power Narrow view** 

**BGS** 

**Retroreflective Limitedreflective Chemicalresistant, Oil-resistant Bending Heatresistant** 

**Area Detection** 

**Liquid-level** 

|**Models**|**Installation**<br>~~a~~<br>~~TLL~~|**Installation**<br>~~a~~<br>~~TLL~~|**Installation**<br>~~a~~<br>~~TLL~~|**Cable**<br>~~TLL~~|**Cable**<br>~~TLL~~|**Cable**<br>~~TLL~~|**Cable**<br>~~TLL~~|**Cable**<br>~~TLL~~|**Cable**<br>~~TLL~~|**Weight**<br>**(packed**<br>**state) (g)**<br>**Emitter/receiver**<br>~~TLL~~|**Demensions**<br>**Page**<br>**No.**|
|---|---|---|---|---|---|---|---|---|---|---|---|
||**Ambient**<br>**temperature**<br>~~a~~<br>~~TLL~~|**Tightening**<br>**torque**<br>~~a~~<br>~~TLL~~|**Mounting**<br>**hole**<br>~~TLL~~|**Bending**<br>**radius**<br>~~TLL~~|**Unbendable**<br>**length*1**<br>~~TLL~~|**Tensile**<br>**strength**<br>~~TLL~~|**Sheath**<br>**material**<br>~~TLL~~|**Core**<br>**material**<br>~~TLL~~|**Emitter/receiver**<br>**differentiation**<br>~~TLL~~|||
|**E32**~~**-**~~**LR11NP 2M**|−40 to 70°C<br>*2<br>~~TLL~~|0.98N · m<br>~~TLL~~|6.2+0.5<br> 0 dia.<br>~~TLL~~|R2<br>~~TLL~~|0<br>~~TLL~~|29.4N<br>~~TLL~~|Polyethylene<br>~~TLL~~|Plastic<br>~~TLL~~|None<br>~~TLL~~|40<br>~~TLL~~|35 Page<br>**35-A**<br>99 Page<br>**99-G**|
|**E32**~~**-**~~**LT11 2M**|−40 to 70°C|0.78N · m|−|R25|10|29.4N|Polyethylene|Plastic|None|40|07 Page<br>**07-C**<br>25 Page<br>**25-C**|
|**E32**~~**-**~~**LT11N 2M**|−40 to 70°C|0.78N · m|4.2+0.5<br> 0 dia.|R2|0|29.4N|Polyethylene|Plastic|None|40|25 Page<br>**25-A**<br>99 Page<br>**99-A**|
|**E32**~~**-**~~**LT11R 2M**|−40 to 70°C|0.78N · m|−|R1|0|29.4N|Polyethylene|Plastic|None|40|07 Page<br>**07-C**<br>25 Page<br>**25-C**|
|**E32**~~**-**~~**LT35Z 2M**|−40 to 70°C|0.15N · m|−|R1|0|9.8N|Polyethylene|Plastic|None|25|15 Page<br>**15-D**|
|**E32**~~**-**~~**R16 2M**|−25 to 55°C|0.54N · m|−|R25|10|29.4N|Polyethylene|Plastic|None|220<br>(E39-R1 included.)|35 Page<br>**35-B**|
|**E32**~~**-**~~**R21 2M**|−40 to 70°C|0.39N · m|6.2+0.5<br> 0 dia.|R10|10|9.8N|Polyethylene|Plastic|None|70<br> (E39-R3 included.)|35 Page<br>**35-C**|
|**E32**~~**-**~~**T10V 2M**|−25 to 70°C|0.3N · m|−|R25|10|29.4N|Fluororesin|Plastic|None|170|53 Page<br>**53-D**|
|**E32**~~**-**~~**T11 2M**|−40 to 70°C|0.78N · m|4.2+0.5<br> 0 dia.|R4|10|29.4N|PVC|Plastic|None|40|41 Page<br>**41-C**|
|**E32**~~**-**~~**T11F 2M**|−40 to 70°C|0.29N · m|−|R4|10|29.4N|Fluororesin|Plastic|None|60|39 Page<br>**39-C**|
|**E32**~~**-**~~**T11N 2M**|−40 to 70°C|0.78N · m|4.2+0.5<br> 0 dia.|R1|0|29.4N|PVC|Plastic|None|70|07 Page<br>**07-A**|
|**E32**~~**-**~~**T11NF 2M**<br>~~ESTHINFSaM~~|−25 to 70°C<br>~~a~~|12N · m<br>~~a~~|8.5+0.5<br> 0 dia.<br>~~ee~~|R1<br>~~ee~~|0<br>~~ee~~|29.4N<br>~~ee~~|Fluororesin|Plastic<br>~~ee~~|None<br>~~ee~~|80<br>~~ee~~|39 Page<br>**39-A**<br>~~—~~|
|**E32**~~**-**~~**T11NFS 2M**<br>~~ESTHINFSaM~~|−25 to 70°C<br>~~a~~|0.78N · m<br>~~a~~|4.2+0.5<br> 0 dia.<br>~~ee~~|R1<br>~~ee~~|0<br>~~ee~~|29.4N<br>~~ee~~|Fluororesin|Plastic<br>~~ee~~|None<br>~~ee~~|70<br>~~ee~~|39 Page<br>**39-A2**<br>~~—~~|
|**E32**~~**-**~~**T11R 2M**<br>~~ES THINFS aM ~~|−40 to 70°C<br> ~~a~~|0.78N · m<br>~~a ~~|4.2+0.5<br> 0 dia.<br> ~~ee~~|R1<br>~~ee~~|0<br>~~ee ~~|29.4N<br> ~~ee~~|PVC|Plastic<br>~~ee~~|None<br>~~ee~~|50<br>~~ee~~|07 Page<br>**07-B**<br>~~—~~|
|**E32**~~**-**~~**T12F 2M**|−40 to 70°C|0.78N · m|5.5+0.5<br> 0 dia.|R40|10|29.4N|Fluororesin|Plastic|None|210|39 Page<br>**39-B**|
|**E32**~~**-**~~**T12R 2M**|−40 to 70°C|0.29N · m|3.2+0.5<br> 0 dia.|R1|0|29.4N|PVC|Plastic|None|60|11 Page<br>**11-C**|
|**E32**~~**-**~~**T14 2M**|−40 to 70°C|0.49N · m|−|R25|10|29.4N|Polyethylene|Plastic|None|60|25 Page<br>**25-D**|
|**E32**~~**-**~~**T14F 2M**|−40 to 70°C|0.78N · m|5.5+0.5<br> 0 dia.|R40|10|29.4N|Fluororesin|Plastic|None|220|39 Page<br>**39-D**|
|**E32**~~**-**~~**T14LR 2M**|−40 to 70°C|0.29N · m|3.2+0.5<br> 0 dia.|R1|0|29.4N|PVC|Plastic|None|60|11 Page<br>**11-D**|
|**E32**~~**-**~~**T15XR 2M**|−40 to 70°C|0.15N · m|−|R1|0|29.4N|PVC|Plastic|None|60|15 Page<br>**15-A**|
|**E32**~~**-**~~**T15YR 2M**|−40 to 70°C|0.15N · m|−|R1|0|29.4N|PVC|Plastic|None|60|15 Page<br>**15-B**|
|**E32**~~**-**~~**T15ZR 2M**|−40 to 70°C|0.15N · m|−|R1|0|29.4N|PVC|Plastic|None|60|15 Page<br>**15-C**|
|**E32**~~**-**~~**T16JR 2M**|−40 to 70°C|0.29N · m|−|R1|0|9.8N|PVC|Plastic|None|60|49 Page<br>**49-B**|
|**E32**~~**-**~~**T16PR 2M**|−40 to 70°C|0.29N · m|−|R1|0|9.8N|PVC|Plastic|None|60|49 Page<br>**49-A**|
|**E32**~~**-**~~**T16WR 2M**|−25 to 55°C|0.29N · m|−|R1|0|9.8N|PVC|Plastic|None|60|49 Page<br>**49-C**|
|**E32**~~**-**~~**T17L 10M**|−40 to 70°C|0.78N · m|14.5+1<br> 0 dia.|R25|10|29.4N|Polyethylene|Plastic|None|240|25 Page<br>**25-B**|
|**E32**~~**-**~~**T21 2M**<br>~~E&2-T21-S1aM~~|−40 to 70°C<br>~~a~~|0.78N · m<br>~~ee~~|3.2+0.5<br> 0 dia.<br>*3<br>~~ee~~|R4<br>~~ee~~|10<br>~~ee~~|9.8N<br>~~ee~~|PVC<br>~~ee~~|Plastic<br>~~ee~~|None<br>~~ee~~|30<br>~~ee~~|41 Page<br>**41-B**<br>~~ee~~<br>~~—~~|
|**E32**~~**-**~~**T21**~~**-**~~**S1 2M**<br>~~E&2-T21-S1aM~~|−40 to 70°C<br>~~a~~|0.78N · m<br>~~ee~~|3.2+0.5<br> 0 dia.<br>*3<br>~~ee~~|R10<br>~~ee~~|10<br>~~ee~~|9.8N<br>~~ee~~|Polyethylene<br>~~ee~~|Plastic<br>~~ee~~|None<br>~~ee~~|45<br>~~ee~~|17 Page<br>**17-D**<br>~~ee~~<br>~~—~~|
|**E32**~~**-**~~**T223R 2M**<br>~~E&2-T21-S1 aM ~~<br>~~Meesess~~|−40 to 70°C<br> ~~a~~<br>~~Ft~~|0.20N · m<br>~~ee~~<br>~~Ft~~|1.2+0.5<br> 0 dia.<br>~~ee ~~<br>~~Ft~~|R1<br> ~~ee ~~<br>~~ET~~|20<br> ~~ee ~~<br>~~ET~~|9.8N<br> ~~ee ~~<br>~~ET~~|Polyethylene<br> ~~ee~~|Plastic<br>~~ee~~|None<br>~~ee ~~|40<br> ~~ee~~|11 Page<br>**11-A**<br>~~ee~~<br>~~—~~|
|**E32**~~**-**~~**T22B 2M**<br>~~Meesess~~|−40 to 70°C<br>~~Ft~~|0.20N · m<br>~~Ft~~|1.7+0.5<br> 0 dia.<br>~~Ft~~|R4<br>~~ET~~|10<br>~~ET~~|9.8N<br>~~ET~~|PVC|Plastic|None|40|11 Page<br>**11-B**<br>41 Page<br>**41-A**|
|**E32**~~**-**~~**T22S 2M**<br>~~Meesess~~|−40 to 70°C<br>~~Ft~~|0.29N · m<br>~~Ft~~|3.2+0.5<br> 0 dia.<br>~~Ft ~~|R10<br> ~~ET~~|10<br>~~ET~~|29.4N<br>~~ET~~|PVC|Plastic|None|60|31 Page<br>**31-F**|
|**E32**~~**-**~~**T24E 2M**|−40 to 70°C|0.29N · m|2.7+0.5<br> 0 dia.|R10|10|9.8N|Polyethylene|Plastic|None|40|17 Page<br>**17-B**|
|**E32**~~**-**~~**T24R 2M**<br>~~come~~<br>~~|~~|−40 to 70°C<br>~~|~~<br>~~|~~|0.29N · m<br>~~|~~|2.2+0.5<br> 0 dia.<br>~~{|~~|R1<br>~~{|~~<br>~~|~~|0<br>~~|~~|9.8N<br>~~|~~|Polyethylene<br>~~|~~|Plastic<br>~~[|~~|None<br>~~[|~~<br>~~|~~|40<br>~~|~~|17 Page<br>**17-A**<br>~~&~~|
|**E32**~~**-**~~**T24S 2M**<br>~~come~~<br>~~|~~<br>~~come~~<br>||−40 to 70°C<br>~~|~~<br>~~|~~<br>~~|~~|0.29N · m<br>~~|~~<br>~~|~~|−<br>~~{|~~<br>~~{|~~|R10<br>~~{|~~<br>~~|~~<br>~~{|~~<br>~~|~~|10<br>~~|~~<br>~~|~~|29.4N<br>~~|~~<br>~~|~~|PVC<br>~~|~~<br>~~|~~|Plastic<br>~~[|~~<br>~~[|~~|None<br>~~[|~~<br>~~|~~<br>~~[|~~<br>~~|~~|60<br>~~|~~<br>~~|~~|31 Page<br>**31-E**<br>57 Page<br>**57-E**<br>~~&~~<br>~~&~~|
|**E32**~~**-**~~**T24SR 2M**<br>~~come~~<br>~~|~~<br>~~come~~<br>||−40 to 70°C<br>~~|~~<br>~~|~~<br>~~|~~|0.29N · m<br>~~|~~<br>~~|~~|−<br>~~{|~~<br>~~{|~~|R1<br>~~{|~~<br>~~|~~<br>~~{|~~<br>~~|~~|0<br>~~|~~<br>~~|~~|9.8N<br>~~|~~<br>~~|~~|PVC<br>~~|~~<br>~~|~~|Plastic<br>~~[|~~<br>~~[|~~|None<br>~~[|~~<br>~~|~~<br>~~[|~~<br>~~|~~|60<br>~~|~~<br>~~|~~|31 Page<br>**31-D**<br>57 Page<br>**57-D**<br>~~&~~<br>~~&~~|
|**E32**~~**-**~~**T25XB 2M**<br>~~come~~<br>|<br>~~=~~|−40 to 70°C<br>~~|~~<br>~~=~~|0.15N · m<br>~~|~~<br>~~=~~|−<br>~~{|~~<br>~~=~~|R4<br>~~{|~~<br>~~|~~<br>~~=~~|10<br>~~|~~<br>~~=~~|9.8N<br>~~|~~<br>~~=~~|PVC<br>~~|~~<br>~~=~~|Plastic<br>~~[|~~<br>~~=~~|None<br>~~[|~~<br>~~|~~<br>~~=~~|40<br>~~|~~<br>~~=~~|41 Page<br>**41-D**<br>~~&~~<br>~~=~~|



**60** 

**Installation Information** 

**61** 

**Heatresistant Area Detection Liquid-level Vacuum** 

**Vacuum FPD, Semi,** _ **Solar Installation Information** |] 

|**Models**|**Installation**|**Installation**|**Installation**|**Cable**<br>~~_~~|**Cable**<br>~~_~~|**Cable**<br>~~_~~|**Cable**<br>~~_~~|**Cable**<br>~~_~~|**Cable**<br>~~_~~|**Weight**<br>**(packed**<br>**state) (g)**<br>**Emitter/receiver**<br>~~_~~|**Demensions**<br>**Page**<br>**No.**|
|---|---|---|---|---|---|---|---|---|---|---|---|
||**Ambient**<br>**temperature**|**Tightening**<br>**torque**|**Mounting**<br>**hole**|**Bending**<br>**radius**|**Unbendable**<br>**length*1**|**Tensile**<br>**strength**|**Sheath**<br>**material**|**Core**<br>**material**|**Emitter/receiver**<br>**differentiation**<br>~~_~~|||
|**E32**~~**-**~~**T33 1M**<br>~~a~~|−40 to 70°C|0.29N · m<br>~~Ol~~|3.2+0.5<br> 0 dia.<br>~~Ol~~|R10<br>~~Ol~~|10|9.8N|Polyethylene|Plastic|None<br>~~_~~|40<br>~~_~~|17 Page<br>**17-C**<br>~~=~~|
|**E32**~~**-**~~**T51 2M**<br>~~a~~|−40 to 150°C<br>*2|0.78N · m<br>~~Ol~~|4.2+0.5<br> 0 dia.<br>~~Ol~~|R35<br>~~Ol~~|10|29.4N|Fluororesin|Plastic|None|70|45 Page<br>**45-B**<br>~~=~~|
|**E32**~~**-**~~**T51F 2M**|−40 to 150°C<br>*2|0.78N · m|5.5+0.5<br> 0 dia.|R40|10|29.4N|Fluororesin|Plastic|None|220|39 Page<br>**39-E**|
|**E32**~~**-**~~**T51R 2M**|−40 to 100°C<br>*3|0.78N · m|4.2+0.5<br> 0 dia.|R2|0|29.4N|Polyurethane|Plastic|None|60|45 Page<br>**45-A**|
|**E32**~~**-**~~**T51V 1M**|−25 to 120°C|0.29N · m|4.2+0.5<br> 0 dia.|R30|10|29.4N|Fluororesin|Glass|None|160|53 Page<br>**53-A**|
|**E32**~~**-**~~**T61**~~**-**~~**S 2M**|−60 to 350°C<br>*4|0.78N · m|4.2+0.5<br> 0 dia.|R25|10|29.4N|SUS|Glass|None|200|45 Page<br>**45-D**|
|**E32**~~**-**~~**T81R**~~**-**~~**S 2M**<br>somovme||−40 to 200°C<br>*4<br>|of|0.78N · m<br>of<br>||4.2+0.5<br> 0 dia.<br>~~T~~|R10<br>~~T~~t|10<br>t<br>||9.8N<br>ft|Fluororesin<br>ftot|Glass<br>otTU|None<br>TU|60<br>UP|45 Page<br>**45-C**<br>UP|
|**E32**~~**-**~~**T84SV 1M**<br>somovme||−25 to 200°C<br>|of|0.29N · m<br>of<br>||4.5+0.5<br> 0 dia.<br>~~T~~|R25<br>~~T~~t|10<br>t<br>||29.4N<br>ft|SUS<br>ftot|Glass<br>otTU|None<br>TU|190<br>UP|53 Page<br>**53-C**<br>UP|
|**E32**~~**-**~~**TC200BR 2M**<br>somovme |<br>~~e~~e<br>c~~o~~m<br>||−40 to 70°C<br>| of<br>~~O~~<br>|of|0.78N · m<br>of<br>|<br>~~O~~<br>of<br>||4.2+0.5<br> 0 dia.<br>~~T~~<br>~~O~~<br>P|R1<br>~~T~~t<br>~~O~~<br>Pt|0<br>t<br>|<br>~~O~~<br>tft|29.4N<br>ft<br>~~OO~~<br>ftff|PVC<br>ft ot<br>~~O~~<br>ff|Plastic<br>ot TU<br>~~O~~<br>ff|None<br>TU<br>~~O~~|60<br>UP<br>~~O~~|17 Page<br>**17-E**<br>UP|
|**E32**~~**-**~~**VF1**<br>c~~o~~m<br>|<br>swe<br>||−25 to 70°C<br>|of<br>|o~~t~~|−<br>of<br>|<br>~~t~~<br>||−<br>P<br>~~cP~~|−<br>Pt<br>~~cP TE~~|−<br>tft<br>~~TE~~|−<br>ftff<br>~~TEPr~~|−<br>ff<br>~~Pr~~|−<br>ff<br>~~Pr~~|−|240|53 Page<br>**53-F**<br>~~DQ~~|
|**E32**~~**-**~~**VF4**<br>c~~o~~m<br>|<br>swe<br>||−25 to 70°C<br>| of<br>|o~~t~~|−<br>of<br>|<br>~~t~~<br>||−<br>P<br>~~cP~~|−<br>Pt<br>~~cP TE~~|−<br>t ft<br>~~TE~~|−<br>ftff<br>~~TEPr~~|−<br>ff<br>~~Pr~~|−<br>ff<br>~~Pr~~|−|280|53 Page<br>**53-E**<br>~~DQ~~|
|**E39**~~**-**~~**F1**<br>swe<br>|<br>E30-~~F~~4<br>e~~re~~||−40 to 200°C<br>| o~~t~~<br>|<br>||−<br>~~t~~<br>|<br>~~|~~|−<br>~~cP~~<br>~~Jt~~|−<br>~~cP TE~~<br>~~Jt~~|−<br>~~TE~~<br>~~Jttf}~~|−<br>~~TE Pr~~<br>~~tf}~~|−<br>~~Pr~~<br>~~tf}ff~~|−<br>~~Pr~~<br>~~ff~~|−<br>~~ff~~<br>~~ft~~|2<br>~~ft~~|26 Page<br>**26-A**<br>27 Page<br>**27-A** to<br>**27-C**<br>28 Page<br>**28-A**<br>29 Page<br>**29-A** to<br>**29-C**<br>~~DQ~~<br>=><br>oo <br>~~ts~~|
|**E39**~~**-**~~**F1**~~**-**~~**33**<br>e~~re~~||−40 to 200°C<br>|<br>||−<br>~~|~~|−<br>~~Jt~~|−<br>~~Jt~~|−<br>~~Jttf}~~|−<br>~~tf}~~|−<br>~~tf}ff~~|−<br>~~ff~~|−<br>~~ff~~<br>~~ft~~|3<br>~~ft~~|28 Page<br>**28-D**<br>~~ts~~|
|**E39**~~**-**~~**F11**<br>e~~re~~ |<br>~~a~~|−<br>|<br>||−<br>~~|~~|−<br>~~Jt~~|−<br>~~Jt~~|−<br>~~Jt tf}~~|−<br>~~tf}~~|−<br>~~tf} ff~~|−<br>~~ff~~|−<br>~~ff~~<br>~~ft~~|30<br>~~ft~~|−<br>~~ts~~|
|**E39**~~**-**~~**F16**<br>E30~~-~~F16|−40 to 350°C|−|−|−|−|−|−|−|−|15|26 Page<br>**26-B**<br>27 Page<br>**27-D** to<br>**27-F**<br>28 Page<br>**28-B**<br>29 Page<br>**29-D** to<br>**29-F** ,<br>**29-K**<br>Qo<br>re)<br>Co<br>SF<br>ore)|
|**E39**~~**-**~~**F17**<br>c~~c~~|−25 to 70°C<br>~~nO~~|−<br>~~nO~~|−<br>~~nO~~|−<br>~~nO~~|−<br>~~nO~~|−<br>~~nO~~|−<br>~~nO~~|−<br>~~nO~~|−<br>~~nO~~|10<br>~~nO~~|21 Page<br>**21-B**|
|**E39**~~**-**~~**F18**<br>c~~c~~ <br>£30-F18<br>e~~w~~<br>||−40 to 70°C<br> ~~nO~~<br>|<br>f~~t~~|−<br>~~nO~~<br>~~t~~<br>~~|~~|−<br>~~nO~~<br>~~tt~~|−<br>~~nO~~<br>~~tt~~|−<br>~~nO~~<br>~~tttt~~|−<br>~~nO~~<br>~~tt~~|−<br>~~nO~~<br>~~ttof~~|−<br>~~nO~~<br>~~offf~~|−<br>~~nO~~<br>~~ff~~|5<br>~~nO~~|23 Page<br>**23-G** ,<br>**23-H**<br>COC<br>~~fs~~|
|**E39**~~**-**~~**F1V**<br>e~~w~~<br>||−25 to 120°C<br>|<br>f~~t~~|−<br>~~t~~<br>~~|~~|−<br>~~tt~~|−<br>~~tt~~|−<br>~~tttt~~|−<br>~~tt~~|−<br>~~ttof~~|−<br>~~offf~~|−<br>~~ff~~|3|53 Page<br>**53-B**<br>~~fs~~|
|**E39**~~**-**~~**F2**<br>e~~w~~<br>|<br>E39-F2|−40 to 200°C<br>|<br>f~~t~~|−<br>~~t~~<br>~~|~~|−<br>~~tt~~|−<br>~~tt~~|−<br>~~tt tt~~|−<br>~~tt~~|−<br>~~tt of~~|−<br>~~of ff~~|−<br>~~ff~~|2|26 Page<br>**26-C**<br>27 Page<br>**27-G** ,<br>**27-H**<br>28 Page<br>**28-C**<br>29 Page<br>**29-G** to<br>**29-I**<br>~~fs~~<br>OQ<br>CO<br>xe|
|**E39**~~**-**~~**F32A 1M**<br>~~S~~e|−40 to 150°C|−|−|R30|−|−|−|−|−|70|43 Page<br>**43-G**|
|**E39**~~**-**~~**F32C 1M**<br>c~~o~~mm||−40 to 150°C<br>|o~~f~~|−<br>~~f~~<br>~~|~~|−<br>~~tt~~|R30<br>~~tt~~|−<br>~~tttf~~|−<br>~~tf~~|−<br>~~tfof~~|−<br>~~offT~~|−<br>~~fT~~|110<br>~~fT~~|41 Page<br>**41-E**<br>43 Page<br>**43-G**|
|**E39**~~**-**~~**F32D 1M**<br>c~~o~~mm||−40 to 150°C<br>|o~~f~~|−<br>~~f~~<br>~~|~~|−<br>~~tt~~|R30<br>~~tt~~|−<br>~~tttf~~|−<br>~~tf~~|−<br>~~tfof~~|−<br>~~offT~~|−<br>~~fT~~|80<br>~~fT~~|43 Page<br>**43-G**|
|**E39**~~**-**~~**F3A**<br>c~~o~~mm |<br>~~a~~|−40 to 70°C<br>| o~~f~~<br>~~OO~~|−<br>~~f~~<br>~~|~~<br>~~OO~~|−<br>~~tt~~<br>~~OO~~|−<br>~~tt~~<br>~~OO~~|−<br>~~tt tf~~|−<br>~~tf~~|−<br>~~tf of~~|−<br>~~of fT~~|−<br>~~fT~~|2<br>~~fT~~|21 Page<br>**21-A**|
|**E39**~~**-**~~**F3A**~~**-**~~**5**<br>E39~~-~~FSA~~-~~5|−40 to 70°C|−|−|−|−|−|−|−|−|1|23 Page<br>**23-A** ,<br>**23-B** ,<br>**23-C**|
|**E39**~~**-**~~**F3B**<br>E39~~-~~F3B<br>E39~~-~~F3C|−25 to 55°C|−|−|−|−|−|−|−|−|2|23 Page<br>**23-D** ,<br>**23-E** ,<br>**23-F**|
|**E39**~~**-**~~**F3C**<br>E39~~-~~F3C<br>e~~m~~<br>||−25 to 55°C<br>|<br>f~~t~~|−<br>~~t~~<br>~~|~~|−<br>~~tt~~|−<br>~~tt~~|−<br>~~tttf~~|−<br>~~tf~~|−<br>~~tfof~~|−<br>~~offf~~|−<br>~~ff~~|1|21 Page<br>**21-C** ,<br>**21-D**<br>~~fs~~|
|**E39**~~**-**~~**R1**<br>E39~~-~~F3C<br>e~~m~~<br>|<br>e~~o~~<br>||−25 to 55°C<br>|<br>f~~t~~<br>|<br>||−<br>~~t~~<br>~~|~~<br>~~|~~|−<br>~~tt~~<br>~~tt~~|−<br>~~tt~~<br>~~tt~~|−<br>~~tttf~~<br>~~tttt~~|−<br>~~tf~~<br>~~tt~~|−<br>~~tfof~~<br>~~tt~~<br>~~ft~~|−<br>~~offf~~<br>~~ft~~<br>~~|~~|−<br>~~ff~~<br>~~ft~~|20<br>~~ft~~|35 Page<br>**35-B**<br>~~fs~~<br>~~fs~~|
|**E39**~~**-**~~**R3**<br>e~~m~~<br>|<br>e~~o~~<br>||−25 to 55°C<br>|<br>f~~t~~<br>|<br>||−<br>~~t~~<br>~~|~~<br>~~|~~|−<br>~~tt~~<br>~~tt~~|−<br>~~tt~~<br>~~tt~~|−<br>~~tt tf~~<br>~~tttt~~|−<br>~~tf~~<br>~~tt~~|−<br>~~tf of~~<br>~~tt~~<br>~~ft~~|−<br>~~of ff~~<br>~~ft~~<br>~~|~~|−<br>~~ff~~<br>~~ft~~|20<br>~~ft~~|35 Page<br>**35-C**<br>~~fs~~<br>~~fs~~|
|**E39**~~**-**~~**RP1**<br>e~~o~~<br>|<br>e~~w~~e<br>||−40 to 60°C<br>|<br>|<br>|of|−<br>~~|~~<br>f<br>||−<br>~~tt~~<br>ttt|−<br>~~tt~~<br>ttt|−<br>~~tt tt~~<br>ttt|−<br>~~tt~~<br>tttfo}|−<br>~~tt~~<br>~~ft~~<br>fo}|−<br>~~ft~~<br>~~|~~<br>fo}|−<br>~~ft~~<br>|25<br>~~ft~~<br>|35 Page<br>**35-A**<br>99 Page<br>**99-G**<br>~~fs~~|
|**E39**~~**-**~~**RP37**<br>e~~w~~e<br>||−25 to 55°C<br>|of|−<br>f<br>||−<br>ttt|−<br>ttt|−<br>ttt|−<br>tttfo}|−<br>fo}|−<br>fo}~~ft~~|−<br>~~ft~~|4<br>~~ft~~|−|
|**E39**~~**-**~~**RSP1**<br>e~~w~~e<br>|<br>~~e~~n|−25 to 55°C<br>| of|−<br>f<br>||−<br>ttt|−<br>ttt|−<br>ttt|−<br>ttt fo}|−<br>fo}|−<br>fo}|−<br>|4<br>|−|



*1 Unbendable length of cable from fiber head. Do not bend the cable for at least 20 mm from where the cable inserts into the Fiber Amplifier Unit. 

*2 For continuous operation, use the Fiber Unit between −40 to 130°C. 

- *3 For continuous operation, use the Fiber Unit between −40 to 90°C. 

- *4 The heat-resistant rating is not the same for all parts of the Fiber Unit. Refer to the dimensions diagrams for details. 

**61** 

**Fiber Amplifiers, Communications Unit and Accessories** 

**62 Main Features Smart Fiber Amplifier Units E3NX-FA Series NEW A Smart Fiber Amplifier Unit with Ultra-stable Detection and Ultra-easy Setup Threaded Expanded Application Response Capabilities Advanced Basic Performance Cylindrical** Improvements in the sensing distance and minimum sensing object **Flat 1.5 TimesTimes** the Sensing Distance* **1/10th Sleeved 6 m 0.3 μm dia.μm dia.** For E32-LT11 Fiber Unit with a fiber length of 3.5 m **Small Spot Achieve Easy Detection in Many Applications High Power Advanced Smart Tuning Narrow** Just press the           button once with a workpiece and once without **TUNE view** a workpiece to automatically set the optimum incident level and threshold. Consistent settings are achieved for all users with this ultra-easy procedure. **BGS ×1/2000** . ~~-~~ **Press the           button TUNETUNE** , **Automatic Setting of onceonce with a workpiece and  without a workpiece Optimum Values Retroonce without a workpiece reflective Threshold**[[+]] **[[Incident ]] Level ST Limited-** 5000 9999 **reflective** ; Set to the intermediate Incident level , ~~_ a~~ value between the adjustment with and **Chemical-** incident levels with and without a workpiece without a workpiece. **resistant, Oil-resistant Bending HeatSensor Communications Units for E3NX-FA resistant Area E3NW Series NEW Detection Liquid-level The Next-generation E3NW Vacuum Sensor Network Units** ~~—_—~~ **FPD, Revolutionize On-site Sensing Semi, Solar** The Sensor Communications Unit with a master function and the Distri **Installation** with slave functions enable N-Smart Sensors communic **ation Information** Controller Master **Sensor Communications Units** Open Network _ | | - | ) EtherCAT. <~ for ” i pu J «: =a a Slaves **Distributed Sensor Units** Network between Units 

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Improvements in the sensing distance and minimum sensing object **have increased the range of application for stable de** tection. 

**1.5 TimesTimes** the Sensing Distance* **1/10th** the Minimum Sensing Object* 

**0.3 μm dia.μm dia.** Typical example of actual measurements with E32-D11R Fiber Unit. 

*[Compared to E3X-HD.] 

## **Optimum Light Intensity Adjustment from Transparent Objects to Black Workpieces** 

The incident level is optimized to enable stable detection even for saturated or insufficient incident levels. 

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Light Intensity Adjustment Range of 40,000 Times<br>×1/2000 ×1 ×20<br>Press the           button TUNETUNE Automatic Setting of<br>onceonce  with a workpiece and  without a workpiece Optimum Values Excessive Incident Level<br>Threshold  [[+]] [[Incident ]] Level Incident light reduced. Incident light increased.<br>5000 ST 9999<br>Set to the intermediate  Incident level  , ><br>a value between the  adjustment with and  2<br>incident levels with and  without a workpiece<br>without a workpiece. 4 =<br>**----- End of picture text -----**<br>


## **Sensor Communications Units for E3NX-FA** 

## **The Next-generation E3NW Sensor Network Units Revolutionize On-site Sensing** 

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The Sensor Communications Unit with a master function and the Distri **bu** ted Sensor Units with slave functions enable N-Smart Sensors communic **ation over open ne** tworks. 

## **Greatly Reduced Machine Manufacturing Costs** 

**There is no** need to change the current distributed installation to **introduce a n** etwork without increasing costs. 

## **Greatly Reduced Machine Commissioning Time** 

**All of the setting** s can be made at the same time from a Touch Panel. 

## **Greatly Improved Machine Productivity** 

Realtime monitoring lets you perform maintenance before malfunctions occur. 

**62** 

**Fiber Amplifiers, Communications Unit and Accessories** 

**63** 

**Threaded Cylindrical Flat Sleeved** : **Small Spot High Power Narrow view BGS** oe. **Retroreflective Limitedreflective Chemical-** / **resistant, Oil-resistant Bending Heatresistant Area Detection Liquid-level Vacuum** 

**Installation Information** 

## **Smart Fiber Amplifier Units** 

~~**-**~~ **E3X HD Series** 

**Affordable Amplifier Units with Simple Operation and Stable Detection Capabilities** 

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**Sensor Communications Units for E3X-HD** ~~**- -**~~ **E3X ECT / E3X CRT** (EBW ~~E~~ CT / EX ~~C~~ RT **Sensor Communications Units for CompoNet and EtherCAT** 

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## **<Fiber Amplifier Unit Comparison>** 

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E3NX-FA Series E3X-HD Series<br>ne sn 2<br>Output 1 or 2 outputs (depending on the model) 1 output<br>External input Supported or not supported (depending on the model) Not supported<br>Fiber  30 μs (32 μs)/250 μs/1 ms/16 ms 50 μs (55 μs)/250 μs/1 ms/16 ms<br>Response time<br>Amplifier  (Default: 250 μs) (Default: 250 μs)<br>Unit<br>E32-T11R 3,000 mm 2,000 mm<br>specifications Sensing distance<br>(Giga-power mode) E32-D11R 1,260 mm 840 mm<br>Minimum sensing E32-T11R 2 μm dia. 5 μm dia.<br>object<br>EtherCAT (E3NW-ECT) EtherCAT (E3X-ECT)<br>Communications method<br>Sensor  CompoNet (E3NW-CRT) CompoNet (E3X-CRT)<br> (Sensor Communications Unit model)<br>Communications  CC-Link (E3NW-CCL)<br>Unit<br>Fiber Sensor (E3NX-FA0/FA10/FA40/FAH0) Fiber Sensor (E3X-HD0)<br>application Applicable Sensors Laser Sensors (E3NC-LA0, E3NC-SA0) Laser Photoelectric Sensor (E3C-LDA0)<br>Contact-Type Sensor (E9NC-TA0) * Proximity Sensor (E2C-EDA0)<br>Ordering Information 64 Page 80 Page<br>Page<br>Ratings and Specifications 66 Page 82 Page<br>listings<br>Dimensions 70 Page 82 Page<br>SS eee<br>* E3NW-CRT Sensor Communications Units (CompoNet) cannot be used.<br>Note.  The sensing distances for the E3NX-FA are values for E3NX-FA@ devices. The distance for E3NX-FAH@ infrared models varies.<br>**----- End of picture text -----**<br>


**FPD, Semi, Solar** 

**Fiber Amplifier Unit Accessories 65, 81 Page** | Fiber Amplifier Unit Accessories C) 

**63** 

**Fiber Amplifiers, Communications Unit and Accessories** 

**64** 

**Flat Sleeved Small Spot High Power Narrow view BGS Retroreflective Limitedreflective** : ~~a~~ **Chemicalresistant, Oil-resistant Bending Heatresistant** 

**Installation Information** = _ _ 

## **E3NX-FA Fiber Amplifier Units and Related Products** 

## **Fiber Amplifier Units E3NX-FA Series** 

**Threaded Cylindrical** 

**Area Detection** 

**Liquid-level Vacuum** 

**FPD, Semi, Solar** 

|**Type**|**Appearance**|**Connecting method**|**Inputs/**<br>**outputs**|**Models**|**Models**|**Models**|**Ratings and**<br>**Specifications **|**Dimensions**|
|---|---|---|---|---|---|---|---|---|
|||||**NPN output**|**PNP output**||||
|Standard<br>models||Pre-wired (2 m)|1 output|**E3NX**~~**-**~~**FA11  2M**|**E3NX**~~**-**~~**FA41  2M**||Page 66|Page 70<br>**70-A**|
|||||**E3NX**~~**-**~~**FA11**~~**-**~~**5  2M**<br>*1|~~**-**~~<br>~~**-**~~||||
|||Wire-saving Connector|1 output|**E3NX**~~**-**~~**FA6**|**E3NX**~~**-**~~**FA8**|||Page 70<br>**70-B**|
|Advanced<br>models||Pre-wired (2 m)|2 outputs<br>+<br>1 input|**E3NX**~~**-**~~**FA21  2M**|**E3NX**~~**-**~~**FA51  2M**|||Page 70<br>**70-A**|
|||Wire-saving Connector<br>~~|~~|1 output<br>+<br>1 input<br>~~||~~|**E3NX**~~**-**~~**FA7**<br>~~ESNX-FATTW~~|**E3NX**~~**-**~~**FA9**<br>~~ESNX-FACTW~~|||Page 70<br>**70-B**<br>~~OO~~|
||||2 outputs<br>~~||~~|**E3NX**~~**-**~~**FA7TW**<br>~~ESNX-FATTW~~|**E3NX**~~**-**~~**FA9TW**<br>~~ESNX-FACTW~~||||
||~~aa~~<br>~~et~~|M8 Connector<br>~~|~~<br>~~a~~<br>~~et~~|1 output<br>+<br>1 input<br>~~| | ~~|**E3NX**~~**-**~~**FA24**<br> ~~ESNX-FATTW~~|**E3NX**~~**-**~~**FA54**<br>~~ESNX-FACTW~~|||Page 71<br>**71-A**<br>~~OO~~<br>Cc»<br>~~—~~|
||||2 outputs<br>~~a~~<br>~~et~~|~~**-**~~<br>~~**-**~~<br>ESN~~X~~FANI20M<br>~~—~~|**E3NX**~~**-**~~**FA54TW**<br>ESNX~~C~~RAKAT2<br>~~—_~~||||
|Infrared models|~~aa~~<br>~~et~~|Pre-wired (2 m)<br>~~a~~<br>~~et~~|1 output<br>~~a~~<br>~~et~~|**E3NX**~~**-**~~**FAH11  2M**<br>ESN~~X~~FANI20M<br>~~—~~|**E3NX**~~**-**~~**FAH41  2M**<br>ESNX~~C~~RAKAT2<br>~~—_~~|||Page 70<br>**70-A**<br>Cc»<br>~~—~~|
||~~aa~~<br>~~et~~|Wire-saving Connector<br>~~a~~<br>~~et~~|1 output<br>~~a~~ <br>~~et~~|**E3NX**~~**-**~~**FAH6**<br> ESN~~X~~FANI 20M<br>~~—~~|**E3NX**~~**-**~~**FAH8**<br>ESNX~~C~~RAKAT2<br>~~—_~~|||Page 70<br>**70-B**<br>Cc»<br>~~—~~|
|Analog output<br>models|~~et~~|Pre-wired (2 m)<br>~~et~~|2 output<br>~~et~~|**E3NX**~~**-**~~**FA11AN  2M**<br>~~—~~|**E3NX**~~**-**~~**FA41AN  2M**<br> ~~—_~~||Page 68|Page 70<br>**70-A**<br>~~—~~|
|Model for<br>Sensor<br>Communications<br>Unit<br>*2||Connector for Sensor<br>Communications Unit||**E3NX**~~**-**~~**FA0**||||Page 71<br>**71-B**|
|||||**E3NX**~~**-**~~**FAH0**|||||
|||Connector for Sensor<br>Communications Unit<br>Pre-wired (2 m)|1 output|**E3NX**~~**-**~~**FA10  2M**||**E3NX**~~**-**~~**FA40  2M**||Page 71<br>**71-B**|



*1. This type can prevent mutual interference for two units in the SHS2 mode. *2. A Sensor Communications Unit is required if you want to use the Fiber Amplifier Unit on a network. 

**Note.** The sensing distances for E3NX-FA in this catalog are values for E3NX-FA □ models. The distances for E3NX-FAH □ infrared models are different. 

## **Sensor Communications Unit** 

## **Sensor Communications Unit** 

|**Communication**<br>**method**|**Appearance**|**Applicable Fiber**<br>**Amplifier Model**|**Model**<br>~~pee~~<br>~~|~~|**Ratings and**<br>**Specifications**<br>~~pee~~<br>~~|~~|**Dimensions**<br>fe|
|---|---|---|---|---|---|
|EtherCAT||E3NX-FA0<br>E3NX-FA10<br>E3NX-FA40<br>E3NX-FAH0|**E3NW**~~**-**~~**ECT**<br>~~pee~~<br>~~|~~|Page 78<br>~~pee~~<br>~~|~~|Page 79<br>**79-A**<br>fe|
|CompoNet|||**E3NW**~~**-**~~**CRT**<br>*2<br>~~|~~|*1<br>~~|~~|*1<br>fe|
|CC-Link|||**E3NW**~~**-**~~**CCL**<br>~~|~~|||



*1.  For details, refer to your OMRON website. *2.  E3NX-FAH0 can not be connected. 

**64** 

**Fiber Amplifiers, Communications Unit and Accessories** 

**65** 

**Vacuum FPD, Semi, Solar Installation Information** ~~—~~ 

## **Distributed Sensor Unit** 

Note. The Distributed Sensor Unit can be connected to any of the Sensor **Appearance Applicable Fiber Model Ratings and Dimensions** Communications Units. **Amplifier Model Specifications** Use the following DS-Bus communication cable (recommended) when connecting a sensor communications unit and a distributed sensor unit. E3NX-FA0 **E3NW** ~~**-**~~ **DS** Page 78 Page 79 **Item Manufacturer Model 79-B** Communication cable BANDO DENSEN Co., Ltd. ESVC 0.5X2C, black f ~~oe car~~ 

**Connector cover for Sensor Communications Unit and Distributed Sensor Unit (provided)** Order a Cover when required, e.g., if you lose the covers. 

**Model** 

**E39** ~~**-**~~ **G27** 

**Threaded** 

## **Accessories (sold separately)** 

## **Wire-saving connectors  (Required for models for Wire-saving Connectors.)** 

**Cylindrical** 

Connectors are not provided with the Fiber Amplifier Unit and must be ordered separately.  * Protective stickers: provided. 

|**Type**|**Appearance**|**Cable length**<br>**conductors**|**Number of**<br>**conductors**|**Number of**<br>**conductors**<br>**Applicable Fiber**<br>**Amplifier Units**|**Models**|**Ratings, Specifications**<br>**and Dimensions**|
|---|---|---|---|---|---|---|
|Master Connector||2 m<br>~~a~~<br>~~a~~<br>~~oe~~|4|E3NX-FA7<br>E3NX-FA7TW<br>E3NX-FA9<br>E3NX-FA9TW<br>~~a~~|**E3X**~~**-**~~**CN21**|Page 90<br>**90-A**|
|Slave Connector|||2<br>~~a~~||**E3X**~~**-**~~**CN22**|Page 90<br>**90-B**|
|Master Connector|||3<br>~~a~~<br>~~a~~<br>~~oe~~|E3NX-FA6<br>E3NX-FA8<br>E3NX-FAH6<br>E3NX-FAH8<br>~~a~~<br>~~a~~<br>~~oe~~|**E3X**~~**-**~~**CN11**|Page 90<br>**90-A**<br>~~C~~<br>~~Co~~|
|Slave Connector|||1<br>~~a~~<br>~~oe~~||**E3X**~~**-**~~**CN12**|Page 90<br>**90-B**<br>~~C~~<br>~~Co~~|



## **Sensor I/O Connectors (Required for models with M8 Connectors.)** 

Connectors are not provided with the Fiber Amplifier Unit and must be ordered separately. * Protective stickers: provided. 

|**Appearance**|**Cable length Number of**<br>**conductors**|**Number of**<br>**conductors**|**Models**|**Ratings and**<br>**Specifications**|**Dimensions**|
|---|---|---|---|---|---|
|Straight|2 m<br>~~—~~|4|**XS3F**~~**-**~~**M421**~~**-**~~**402**~~**-**~~**A**|Page 90|Page 90<br>**90-C**<br>Page 90<br>**90-D**|
||5 m<br>~~—~~||**XS3F**~~**-**~~**M421**~~**-**~~**405**~~**-**~~**A**|||
|L-shaped|2 m||**XS3F**~~**-**~~**M422**~~**-**~~**402**~~**-**~~**A**|||
||2 m<br>5 m||**XS3FM422402A**<br>**XS3F**~~**-**~~**M422**~~**-**~~**405**~~**-**~~**A**|||



## **Mounting Bracket** 

A Mounting Bracket is not provided with the Fiber Amplifier Unit and must be ordered separately as required. 

**Appearance Model Quantity Dimensions** Page 91 **E39** ~~**-**~~ **L143** 1 **91-A DIN Track** A Din Track is not provided with the Fiber Amplifier Unit and must be ordered separately as required. **Appearance Type Models Quantity Dimensions** Shallow type, total length: 1 m **PFP** ~~**-**~~ **100N** Page 91 i= ~~rs~~ Shallow type,total length: 0.5 m **PFP** ~~**-**~~ **50N** 1 **91-B** EF ~~me~~ Deep type,total length: 1 m **PFP** ~~**-**~~ **100N2** Page 91 ~~LS~~ **91-C** ~~ee~~ **End Plate Cover** Two End Plates are provided with the Sensor Communications Unit. End Plates are not provided with the Fiber Amplifier Unit and must be ordered separately as required. 

## **DIN Track** 

## **End Plate** 

Attach these Covers to Amplifier Units. 

Order a Cover when required, e.g., if you lose the covers. 

**Appearance Model Quantity Appearance Model Quantity Dimensions** Page 91 **E39** ~~**-**~~ **G25 FOR E3NX** ~~**-**~~ **FA** 1 **PFP** ~~**-**~~ **M** 1 **91-D** 

**Flat** 

**Sleeved** 

**Small Spot High Power** a 

**Narrow view** 

**BGS** 

**Retroreflective** 

**Limitedreflective** 

**Chemicalresistant, Oil-resistant** 

**Bending** 

**Heatresistant** 

**Area Detection Liquid-level Vacuum** 

**Liquid-level** 

**65** 

|**Fiber Amplifiers, Communications Unit and Accessories**<br>**E3NX-FA**<br>**66**<br>~~i~~<br>~~|.~~||
|---|---|
|**Fiber Sensor**<br>**Features**<br>**Type**<br>**Standard models**<br>**Advanced models**<br>**Infrared models**<br>**Ratings and Specifi cations**<br>**Standard models/ Advanced models/ Infrared models**<br>~~»~~|**Infrared models**|
|**Selection**<br>**Guide**<br>**Fiber Units**<br>**NPN output**<br>**E3NX-FA11**<br>**E3NX-FA6**<br>**E3NX-FA11-5*1 E3NX-FA21**<br>**E3NX-FA7**<br>**E3NX-FA7TW E3NX-FA24**<br>**---**<br>**E3NX-FAH11 **<br>**PNP output**<br>**E3NX-FA41**<br>**E3NX-FA8**<br>**---**<br>**E3NX-FA51**<br>**E3NX-FA9**<br>**E3NX-FA9TW E3NX-FA54 E3NX-FA54TW E3NX-FAH41 **<br>**Item**<br>**Connecting**<br>**method**<br>**Pre-wired**<br>**Wire-saving**<br>**Connector**<br>**Pre-wired**<br>**Pre-wired**<br>**Wire-saving Connector**<br>**M8 Connector**<br>**Pre-wired**<br>**Inputs/**<br>**outputs**<br>**Outputs**<br>1 output<br>2 outputs<br>1 output<br>2 outputs<br>1 output<br>2 outputs<br>1 outputs<br>**External inputs**<br>---<br>1 input<br>1 input<br>---<br>1 input<br>---<br>---<br>**Light source (wavelength)**<br>Red, 4-element LED(625 nm)<br>Infrared LED<br>**Power supply voltage**<br>10 to 30 VDC, including10% ripple(p-p)<br>At Power supply voltage of 24 VDC<br>Standard Models:<br>_ ~~eee~~|**E3NX-FAH6**<br> **E3NX-FAH8**<br>**Wire-saving**<br>**Connector**<br>Infrared LED(870nm)|
|**Threaded**<br>**Cylindrical**<br>**Standard Installation**<br>**Power consumption*2**<br>Normal mode<br>: 840 mW max. (Current consumption at 35 mA max.)<br>Eco function ON : 650 mW max. (Current consumption at 27 mA max.)<br>Eco function LO : 750 mW max. (Current consumption at 31 mA max.)<br>Advanced Models or Model for Sensor Communications Unit:<br>Normal mode<br>: 920 mW max. (Current consumption at 38 mA max.)<br>Eco function ON : 680 mW max. (Current consumption at 28 mA max.)<br>:||
|**Flat**<br>**Sleeved**<br>**Small Spot**<br>**High Power**<br>**Retro-**<br>**reflective**<br>**Limited-**<br>**reflective**<br>**Narrow**<br>**view**<br>**BGS**<br>**Chemical-**<br>**resistant,**<br>**Oil-resistant**<br>**Bending**<br>**Heat-**<br>**resistant**<br>**Area**<br>**Detection**<br>**Liquid-level**<br>**Vacuum**<br>**FPD,**<br>**Semi,**<br>**Solar**<br>**Installation**<br>**Information**<br>**Saving Space**<br>**Transparent Objects**<br>**Beam Improvements**<br>**Applications**<br>**Environmental Immunity**<br>*1. This type can prevent mutual interference for two units in the SHS2 mode.<br>*2. At Power supply voltage of 10 to 30 VDC<br>Standard Models:<br>Normal mode<br>: 990 mW max. (Current consumption: 33 mA max. at 30 VDC, 65 mA max. at 10 VDC)<br>Eco function ON : 780 mW max. (Current consumption: 26 mA max. at 30 VDC, 42 mA max. at 10 VDC)<br>Eco function LO : 840 mW max. (Current consumption: 28 mA max. at 30 VDC, 45 mA max. at 10 VDC)<br>Advanced Models:<br>Normal mode<br>: 1,020 mW max. (Current consumption: 34 mA max. at 30 VDC, 67 mA max. at 10 VDC)<br>Eco function ON : 810 mW max. (Current consumption: 27 mA max. at 30 VDC, 44 mA max. at 10 VDC)<br>Eco function LO : 800 mW max. (Current consumption at 33 mA max.)<br>Infrared models:<br>Normal mode<br>: 1,080 mW max. (Current consumption at 45 mA max.)<br>Eco function ON : 920 mW max. (Current consumption at 38 mA max.)<br>Eco function LO : 1020 mW max.(Current consumption at 42 mA max.)<br>**Control output**<br>Load power supply voltage: 30 VDC max., open-collector output (depends on the NPN/PNP output format)<br>Load current: Groups of 1 to 3 Amplifi er Units: 100 mA max., Groups of 4 to 30 Amplifi er Units: 20 mA max.<br>(Residual voltage: At load current of less than 10 mA: 1 V max.,<br>At load current of 10 to 100 mA: 2 V max.)<br>OFF current: 0.1 mA max.<br>**External inputs**<br>---<br>Refer to*3.<br>---<br>Refer to*3.<br>---<br>**Indicators**<br>7-segment displays (Sub digital display: green, Main digital display: white)<br>Display direction: Switchable between normal and reversed.<br>OUT indicator (orange), L/D indicator (orange), ST indicator (blue), DPC indicator (green),<br>and OUT selection indicator(orange, onlyon models with 2 outputs)<br>**Protection circuits**<br>Power supplyreversepolarity protection, output short-circuitprotection, and output reve rsepolarity protection<br>**Response**<br>**time**<br>**Super-high-**<br>**speed mode**<br>**(SHS)**<br>Operate or reset for model with 1 output: 30μs (Super High Speed mode (SHS2) of E3NX-FA11-5 is 60 ms each), with 2 outputs: 32μs<br>**High-speed**<br>**mode(HS)**<br>Operate or reset: 250 ms<br>**Standard**<br>**mode(Stnd)**<br>Operate or reset: 1 ms<br>**Giga-power**<br>**mode(GIGA)**<br>Operate or reset: 16 ms<br>**Sensitivity adjustment**<br>Smart Tuning (2-point tuning, full auto tuning, position tuning, maximum sensitivity tuning, power tuning, or<br>percentage tuning (-99% to 99%))or manual adjustment<br>**Maximum connectable Units** 30<br>**No. of Units**<br>**for mutual**<br>**interference**<br>**prevention**<br>***4**<br>**Super-high-**<br>**speed mode**<br>**(SHS)**<br>0<br>Note: 2 units when the detection mode is set to Super High Speed mode (SHS2), and for other models, the mutual interference prevention<br>function is disabled.<br>**High-speed**<br>**mode(HS)**<br>10<br>**Standard**<br>**mode(Stnd)**<br>10<br>**Giga-power**<br>**mode(GIGA)**<br>10<br>:<br>}<br>~~-:7~~<br>~~E~~||
|**Technical**<br>**Guide and**<br>**Precautions**<br>**Fiber Amplifiers,**<br>**Communications**<br>**Unit, and**<br>**Accessories**<br>Eco function LO : 870 mW max. (Current consumption: 29 mA max. at 30 VDC, 48 mA max. at 10 VDC)<br>Infrared models:<br>Normal mode<br>: 1,260 mW max. (Current consumption: 42 mA max. at 30 VDC, 80 mA max. at 10 VDC)<br>Eco function ON : 1,050 mW max. (Current consumption: 35 mA max. at 30 VDC, 60 mA max. at 10 VDC)<br>Eco function LO : 1,140 mW max. (Current consumption: 38 mA max. at 30 VDC, 70 mA max. at 10 VDC)<br>*3. The following details apply to the input.<br>Contact input(relayor switch)<br>Non-contact input(transistor)<br>Input time *3-1<br>NPN<br>ON: Shorted to 0 V (Sourcing current: 1 mA max.).<br>OFF: Open or shorted to Vcc.<br>ON: 1.5 V max. (Sourcing current: 1 mA max.)<br>OFF: Vcc - 1.5 V to Vcc(Leakage current: 0.1 mA max.)<br>ON: 9 ms min.<br>OFF: 20 ms min.<br>PNP<br>ON: Shorted to Vcc (Sinking current: 3 mA max.).<br>OFF: Open or shorted to 0 V.<br>ON: Vcc - 1.5 V to Vcc (Sinking current: 3 mA max.)<br>OFF: 1.5 V max.(Leakage current: 0.1 mA max.)<br>*3-1. Input time is 25 ms (ON)/(OFF) only when (in tUnE) or (in PtUn) input is selected.<br>*4. The tuning will not change the number of units. The least unit count among the mutual interference prevention units of E3NX and E3NC.<br>~~7~~<br>~~ ~~——_——~~<br>~~ae~~||
|**Model Index**<br>**66**<br>Check the mutual interference prevention unit count and response speed of each model.<br>-<br>a<br>omron||



**Fiber Amplifiers, Communications Unit and Accessories** 

**67** 

**Threaded** a **Cylindrical** : **Flat Sleeved** ; **Small Spot High Power Narrow view BGS Retroreflective Limitedreflective Chemicalresistant, Oil-resistant Bending Heatresistant** 

**Vacuum FPD, Semi, Solar Installation Information** ~~—~~ 

**==> picture [479 x 601] intentionally omitted <==**

**----- Start of picture text -----**<br>
a Type  a Standard models Advanced models Infrared models<br>NPN output E3NX-FA11 E3NX-FA6 E3NX-FA11-5 *1 E3NX-FA21 E3NX-FA7 E3NX-FA7TW E3NX-FA24 --- E3NX-FAH11 E3NX-FAH6<br>poss PNP output E3NX-FA41 E3NX-FA8 --- E3NX-FA51 E3NX-FA9 E3NX-FA9TW E3NX-FA54 E3NX-FA54TW E3NX-FAH41 E3NX-FAH8<br>Item Connecting method Pre-wired Wire-saving Connector Pre-wired Pre-wired Wire-saving Connector M8 Connector Pre-wired Wire-saving Connector<br>Automatic power  | | | ft [ff]<br>Always enabled.<br>| control (APC)<br>Dynamic power  Provided<br>| control (DPC)<br>Timer Select from timer disabled, OFF-delay, ON-delay, one-shot, or ON-delay + OFF-delay timer: 1 to 9,999 ms<br>| Zero reset Negative values can be displayed. (Threshold value is shifted.)<br>Resetting<br>settings *5 Select from initial reset (factory defaults) or user reset (saved settings).<br>Eco mode *6 Select from OFF (digital display lit), Eco ON (digital display not lit), and Eco LO (digital display dimmed).<br>|<br>Bank switching Select from banks 1 to 4.<br>||a Power tuning Select from ON, OFF or Execution on power-up. Select from ON or OFF.<br>Select from normal<br>Output 1 Select from normal detection mode, area detection mode or differential detection mode. detection mode or area<br>detection mode.<br>Select from  Select from  Select from<br>normal  normal  normal<br>detection  detection  detection<br>Functions mode, alarm  mode, alarm  mode, alarm<br>Output 2 --- output  --- output  --- output  ---<br>mode, error  mode, error  mode, error<br>output mode  output mode  output mode<br>or differential  or differential  or differential<br>detection  detection  detection<br>mode. mode. mode.<br>Select from<br>input OFF,<br>tuning,<br>Select from input OFF,  power<br>tuning, power tuning,  tuning,<br>External input --- emission OFF, Sensor  --- emission  ---<br>OFF, zero reset, or bank  OFF, Sensor<br>switching. OFF, zero<br>reset,<br>or bank<br>switching.<br>Hysteresis width Select from standard setting or user setting. For a user setting, the hysteresis width can be set from 0 to 9,999.<br>Ambient illumination<br>(Receiver side) Incandescent lamp: 20,000 lx max., Sunlight: 30,000 lx max.<br>Operating:<br>Groups of 1 or 2 Amplifier Units: -25 to 55°C,<br>Ambient temperature  Groups of 3 to 10 Amplifier Units: -25 to 50°C,<br>range *7 Groups of 11 to 16 Amplifier Units: -25 to 45°C,<br>Groups of 17 to 30 Amplifier Units: -25 to 40°C<br>Storage: -30 to 70°C (with no icing or condensation)<br>Ambient humidity range Operating and storage: 35 to 85% (with no condensation) within the surrounding air temperature range shown above<br>Altitude 2,000 m max.<br>Installation environment Pollution degree 3<br>Insulation resistance 20 M W  min. (at 500 VDC)<br>Dielectric strength 1,000 VAC at 50/60 Hz for 1 min<br>Vibration resistance<br>(destruction) 10 to 55 Hz with a 1.5-mm double amplitude for 2 hours each in X, Y, and Z directions<br>Shock resistance  500 m/s2 for 3 times each in X, Y, and Z directions<br>(destruction)<br>Weight (packed state/ Approx. 115 g/ Approx. 60g/ Approx. 115 g/ Approx. 115 g/ Approx. 115 g/ Approx. 60g/<br>Sensor only) approx. 75 g approx. 20g approx. 75 g approx. 75 g Approx. 60g/approx. 20g Approx. 65 g/approx. 25 g approx. 75 g approx. 20g<br>Case Polycarbonate (PC)<br>| pot |<br>Materials Cover Polycarbonate (PC)<br>|<br>Cable PVC<br>|<br>Accessories Instruction Manual<br>**----- End of picture text -----**<br>


**Heatresistant Area Detection** 

**Liquid-level** 

*5. The bank is not reset by the user reset function or saved by the user save function. 

- *6. Eco LO is supported for Amplifier Units manufactured in July 2014 or later. 

- *7. When the number of connected units is 11 or more, the ambient temperature is less than 50°C. 

**67** 

**Fiber Amplifiers, Communications Unit and Accessories** 

**68** 

## **Analog output models/ Model for Sensor Communications Unit** 

|**Item**|**Item**|**Type**|**Analog output models**|**Model for Sensor Communications Unit**|**Model for Sensor Communications Unit**|**Model for Sensor Communications Unit**|
|---|---|---|---|---|---|---|
|||**NPN output**|**E3NX-FA11AN**|**E3NX-FA10**|**E3NX-FA0**|**E3NX-FAH0**|
|||**PNP output**|**E3NX-FA41AN**|**E3NX-FA40**|||
|||**Connecting**<br>**method**|**Pre-wired**|**Connector for Sensor**<br>**Communications Unit**<br>**Pre-wired**|**Connector for Sensor Communications Unit**||
|**Inputs/**<br>**outputs**|**Outputs**||2 outputs|1 output|---*1||
||**External inputs**||---|---|||
|**Light source(wavelength)**|||Red, 4-element LED(625 nm)|||Infrared LED(870nm)|
|**Power supply voltage**|||10 to 30 VDC, including 10%<br>ripple(p-p)|Supplied from the connector through the communication units.|||
|**Power consumption*2**|||At Power supply voltage of 24 VDC<br>Normal mode : 960 mW max.<br>(Current consumption at 40 mA<br>max.)<br>Eco function ON: 770 mW max.<br>(Current consumption at 32 mA<br>max.)<br>Eco function LO : 870 mW max.<br>(Current consumption at 36 mA<br>max.)|At Power supply voltage of 24 VDC<br>Normal mode : 920 mW max.<br>(Current consumption at 38 mA max.)<br>Eco function ON: 680 mW max.<br>(Current consumption at 26 mA max.)<br>Eco function LO : 800 mW max.<br>(Current consumption at 33 mA max.)||At Power supply voltage of 24 VDC<br>Normal mode : 1,080 mW max.<br>(Current consumption at 45 mA<br>max.)<br>Eco function ON: 920 mW max.<br>(Current consumption at 38 mA<br>max.)<br>Eco function LO : 1,020 mW max.<br>(Current consumption at 42 mA<br>max.)|
|**Control output**|||Load power supply voltage:<br>30 VDC max., open-collector output<br>(depends on the NPN/PNP output format)<br>Load current: Groups of 1 to 3 Amplifier Units: 100 mA max.,<br>Groups of 4 to 30 Amplifier Units:20 mA max.<br>(Residual voltage: At load current of less than 10 mA: 1 V max.<br>At load current of 10 to 100 mA: 2 V max.)<br>OFF current: 0.1 mA max.||---||
|**Analog output**<br>**(reference value)**<br>~~1~~|||Voltage output: 1-5 VDC<br>(10 kWor more connected load),<br>temperature characteristics:<br>0.3% F.S. / °C<br>~~1~~|or more connected load),<br>---<br>~~1~~|||
|**Indicators**<br>~~1~~|||7-segment displays (Sub digital display: green, Main digital display: white)<br>Display direction: Switchable between normal and reversed.<br>OUT indicator (orange), L/D indicator (orange), ST indicator (blue), DPC indicator (green),<br>and OUT selection indicator (orange, only on models with 2 outputs)<br>~~1~~||||
|**Protection circuits**<br>~~1~~|||Power supply reverse polarity protection,<br>output short-circuit protection, and output reverse polarity<br>protection<br>~~1~~||Power supply reverse polarity protection and output short-circuit<br>protection||
|**Control**<br>**output**<br>**Response**<br>**time**<br>~~1~~|**Super-high-speed**<br>**mode(SHS)**<br>~~1~~||Operate or reset: 80ms<br>~~1~~|Operate or reset: 32ms<br>~~1~~|||
||**High-speed mode**<br>**(HS)**<br>~~1~~||Operate or reset: 250ms<br>~~1~~|Operate or reset: 250ms<br>~~1~~|||
||**Response**<br>**Standard mode**<br>**(Stnd)**<br>~~1~~||Operate or reset: 1 ms<br>~~1~~|Operate or reset: 1 ms<br>~~1~~|||
||**Giga-power mode**<br>**(GIGA)**<br>~~1~~||Operate or reset: 16 ms<br>~~1~~|Operate or reset: 16 ms<br>~~1~~|||
|**Sensitivity adjustment**<br>~~1~~<br>~~Le~~|||Smart Tuning (2-point tuning, full auto tuning, position tuning, maximum sensitivity tuning, power tuning,<br>percentage tuning (-99% to 99%))or manual adjustment<br>~~1~~<br>~~Le~~||||
|**Maximum connectable Units**<br>~~Le~~|||30<br>~~Le~~|16<br>~~Le~~|With E3NW-ECT: 30 units<br>(When connected to an OMRON NJ-series Controller.)<br>With E3NW-CRT: 16 units<br>(Note: E3NX-FAH0 can not be connected.)<br>With E3NW-CCL: 16 units||
|**No. of Units**<br>**for mutual**<br>**interference**<br>**prevention**<br>***3**<br>~~Le~~|**Super-high-speed**<br>**mode(SHS)**<br>~~Le~~||0 (The mutual interference prevention function is disabled if the detection mode is set to super-high-speed mode.)<br>~~Le~~||||
||**High-speed mode**<br>**(HS)**<br>~~Le~~||10<br>~~Le~~||||
||**Standard mode**<br>**(Stnd)**<br>~~Le~~||10<br>~~Le~~||||
||**Giga-power mode**<br>**(GIGA)**<br>~~Le~~||10<br>~~Le~~||||



**Area Sensitivity adjustment** percentage tuning (-99% to 99%)) or manual adjustment **Detection Liquid-level Maximum connectable Units** 30 16 **Vacuum Super-high-speed mode (SHS) FPD, No. of Units Semi, for mutual High-speed mode** 10 **Solar interference (HS) Standard mode prevention** 10 **Installation *3 (Stnd) Information Giga-power mode** 10 ~~Le~~ **(GIGA)** 

**68** 

**Fiber Amplifiers, Communications Unit and Accessories** 

**69** 

—_— **Threaded Cylindrical** : **Flat Sleeved** } **Small Spot High Power Narrow view BGS** —| **Retroreflective Limitedreflective Chemicalresistant, Oil-resistant Bending Heatresistant Area Detection** OO e **Liquid-level** ~~e~~ **Vacuum FPD, Semi,** —= **Solar** . **Installation Information** 

|**Item**<br>~~FP~~|**Item**<br>~~FP~~|**Type**<br>~~ee~~<br>~~SS~~|**Analog output models**<br>~~ee~~<br>~~SS~~|**Model for Sensor Communications Unit**<br>~~SS~~<br>~~ee~~|**Model for Sensor Communications Unit**<br>~~SS~~<br>~~ee~~|**Model for Sensor Communications Unit**<br>~~SS~~<br>~~ee~~|
|---|---|---|---|---|---|---|
|||**NPN output**<br>~~ee~~<br>~~SS~~|**E3NX-FA11AN**<br>~~ee~~<br>~~SS~~|**E3NX-FA10**<br>~~SS~~|**E3NX-FA0**<br>~~ee~~|**E3NX-FAH0**|
|||**PNP output**<br>~~SS~~<br>~~FP~~<br>~~|~~|**E3NX-FA41AN**<br>~~SS~~<br>~~eT~~|**E3NX-FA40**<br>~~SS~~<br>~~eT~~|||
|||**Connecting**<br>**method**<br>~~SS~~<br>~~FP~~<br>~~|~~|**Pre-wired**<br>~~SS~~<br>~~eT~~|**Connector for Sensor**<br>**Communications Unit**<br>**Pre-wired**<br>~~SS~~<br>~~eT~~|**Connector for Sensor Communications Unit**<br>~~ee~~||
|**Functions**<br>~~|~~<br>~~|~~<br>~~||~~<br>~~|~~<br>»)|**Automatic power**<br>**control(APC)**<br>~~FP~~<br>~~|~~<br>~~a~~||Always enabled.<br>~~eT~~||||
||**Dynamic power**<br>**control(DPC)**<br>~~a~~<br>~~a~~<br>~~|~~||Provided||||
||**Timer**<br>~~a~~<br>~~|sd~~<br>~~|~~||Select from timer disabled, OFF-delay, ON-delay, one-shot, or ON-delay+ OFF-delaytimer: 1 to 9,999 ms||||
||**Zero reset**<br>~~|sd~~<br>~~|~~<br>~~a~~||Negative values can be displayed.(Threshold value is shifted.)||||
||**Resetting settings**<br>***4** <br>~~|~~<br>~~a~~<br>~~||~~||**Resetting settings**<br> Select from initial reset (factory defaults) or user reset (saved settings).||||
||**Eco mode**<br>~~a~~<br>~~||~~<br>~~sd~~||Select from OFF(digital displaylit), Eco ON(digital displaynot lit), and Eco LO(digital displaydimmed).<br>~~sd~~||||
||**Bank switching**<br>~~a~~<br>~~||~~<br>~~sd~~||Select from banks 1 to 4.<br>~~sd~~||||
||**Sensor OFF**<br>**setting**<br>~~a~~<br>~~||~~<br>~~sda~~<br>~~|~~||---<br>~~sda~~||Select from ON or OFF.<br>~~a~~|---|
||**Power tuning**<br>~~a~~<br>~~|~~||Select from ON or OFF.<br>~~a~~||||
||**Output 1**<br>~~a~~<br>~~|~~<br>»)||Select from normal detection mode, area detection mode or differential detection mode(E3NX-FA10/40 only).<br>~~a~~<br>~~ii~~<br>~~ee~~||||
||**Output 2**<br>~~a~~<br>»)||Select from Analog scaling<br>or Analog offset.<br>~~a~~<br>~~ii~~|---<br>~~a~~<br>~~ee~~|Select from normal detection mode,<br>alarm output mode, error output mode<br>or differential detection mode(E3NX-FA0 only).<br>~~a~~||
||**Hysteresis width**<br>»)||Select from standard settingor user setting. For a user setting, the hysteresis width can be set from 0 to 9,999.<br>~~ii~~<br>~~ee~~||||
|**Ambient illumination**<br>**(Receiver side)**<br>»)|||Incandescent lamp: 20,000 lx max., Sunlight: 30,000 lx max.<br>~~ii~~<br>~~ee~~||||
|**Ambient temperature range**<br>***5**<br>»)|||Operating:<br>Groups of 1 or 2 Amplifier<br>Units: -25 to 55°C,<br>Groups of 3 to 10 Amplifier<br>Units: -25 to 50°C,<br>Groups of 11 to 16 Amplifier<br>Units: -25 to 45°C,<br>Groups of 17 to 30 Amplifier<br>Units: -25 to 40°C<br>Storage: -30 to 70°C<br>(with no icingor condensation)<br> ~~ii~~|Operating:<br>Groups of 1 or 2 Amplifier<br>Units: 0 to 55°C,<br>Groups of 3 to 10 Amplifier<br>Units: 0 to 50°C,<br>Groups of 11 to 16 Amplifier<br>Units: 0 to 45°C<br>Storage: -30 to 70°C<br>(with no icing or condensation)<br>~~ee~~|Operating:<br>Groups of 1 or 2 Amplifier Units: 0 to 55°C,<br>Groups of 3 to 10 Amplifier Units: 0 to 50°C,<br>Groups of 11 to 16 Amplifier Units: 0 to 45°C,<br>Groups of 17 to 30 Amplifier Units: 0 to 40°C<br>Storage: -30 to 70°C (with no icing or condensation)||
|**Ambient humidity range**|||Operatingand storage: 35 to 85%(with no condensation)within the surroundingair temperature range shown above||||
|**Altitude**|||2,000 m max.||||
|**Installation environment**|||Pollution degree 3||||
|**Insulation resistance**|||20 MWmin. (at 500 VDC)||||
|**Dielectric strength**|||1,000 VAC at 50/60 Hz for 1 min||||
|**Vibration resistance**<br>**(destruction)**<br>~~a~~|||10 to 55 Hz with a 1.5-mm double amplitude for 2 hours each in X, Y, and Z directions<br>~~a~~||||
|**Shock resistance**<br>**(destruction)**<br>~~a~~|||500 m/s<br>2for 3 times each in X, Y,<br>and Z directions<br>~~a~~|for 3 times each in X, Y,<br>150 m/s<br>2for 3 times each in X, Y, and Z directions|||
|**Weight**<br>**(packed state/Sensor only)**<br>~~a~~<br>||||Approx. 115 g/approx. 75 g<br>~~a~~<br>~~a~~|Approx. 95 g/approx. 45 g|Approx. 65 g/approx. 25 g|Approx. 65 g/approx. 25 g|
|**Materials**<br>|<br>~~|~~<br>~~|~~|**Case**<br>|<br>~~|~~||Polycarbonate(PC)<br>~~a~~||||
||**Cover**<br>|<br>~~|~~<br>~~|~~||Polycarbonate(PC)<br>~~a~~||||
||**Cable**<br>|<br>~~|~~<br>~~|~~||PVC<br>~~a~~||||
|**Accessories**<br>|<br>~~|~~|||Instruction Manual<br>~~a~~||||



*4. The bank is not reset by the user reset function or saved by the user save function. 

*5. When the number of connected units is 11 or more, the ambient temperature is less than 50°C. 

**69** 

Tolerance class IT16 applies to demmensions in this date sheet unless otherwise specified. 

**FPD, Semi, Solar** ~~oe~~ **Installation Information** 

**70** _ **Threaded Cylindrical Flat Sleeved Small Spot High Power** ~~_~~ **Narrow view BGS** Oo **Retroreflective Limitedreflective** : **Chemicalresistant, Oil-resistant Bending Heatresistant Area Detection Liquid-level Vacuum** 

## **Fiber Amplifiers, Communications Unit and Accessories** 

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## **Dimensions** 

## **Pre-wired Amplifier Units** 

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70-A E3NX-FA @ 1(-5)<br>E3NX-FAH @ 1 E3NX-FA11(-5)/FA41/FAH@1/FA@1AN E3NX-FA21/FA51 *Cable Specifications<br>E3NX-FA @ AN OUT2 selection  L/D  Model diameterOuter  conductorsNo. of  Others<br>L/D indicator DPC indicator ST indicator indicator indicator E3NX-FA11(-5)<br>21.7 27.1 21 27.8 ST DPC indicator EE33NX-FA41NX-FAH@1 4.0 dia. 3 Insulator dia.: 0.9 mmConductor cross-section: 0.2 mm [2]<br>OUT2 indicator indicator E3NX-FA@1AN 4 Standard cable length: 2 m<br>OUT1 indicator p EE33NX-FA21NX-FA51 4.0 dia. 5 Minimum bending radius: 12 mm<br>OUT indicator OUT1 selection indicator<br>Threshold level  Incident level  Threshold level (green, digital) Incident level (white, digital)<br>(green, digital) (white, digital)<br>10 10 Mounted to DIN Track With Mounting Braket Attached<br>| 5.1 147.1  147.1 (max. value with cover open) 5.1 71.8 71.8<br>2 { tl 170°  (max. value with cover open)<br>104.8<br>(max. value  i048 || | _<br>with cover  Two,<br>open) A E A 2.4-dia.fiber unit  33.5 gq — - 33.5 Kg<br>4.5 holes (16.5) (16.5)<br>(37)<br>(37) 3.4 * 12.7 3.4 * 12.7<br>5.7 Fiber Attachment (E39-F9) attached Siz 20.5 ( 37.9) 71.8 (20.3) Optical communications Two, 3.2 dia. (mounting holes) i 20.5 o (9.4) 16 4.3E39-L143 Mounting Bracket(soOptical communicationsld separately, SUS304)<br>PFP-@N DIN Track  4.4<br>(sold separately) Mounting Holes 3.4<br>Two, M3 holes<br>a 16 qr (29.9) 16 ikea<br>Amplifier Units with Wire-saving Connectors<br>70-B E3NX-FA6<br>Cc)<br>E3NX-FA7(TW)<br>E3NX-FA8<br>E3NX-FA6/FA7(TW)/FA8<br>E3NX-FA9(TW) /FA9(TW)/FAH6/FAH8 E3NX-FA7TW/FA9TW<br>E3NX-FAH6 DPC indicator ST indicator OUT2 selection indicator L/D indicator<br>E3NX-FAH8 L/D indicator 21.7 27.1 21 27.8 DPC indicator *Cable SpecificationsModel Outer diameter No. of conductors<br>ST indicator<br>OUT2 indicator E3X-CN12 2.6 dia. 1<br>E3X-CN22 2<br>OUT1 indicator E3X-CN11 4.0 dia. 3<br>OUT indicator OUT1 selection indicator E3X-CN21 4<br>Threshold level Incident level  Threshold level<br>(green, digital) (white, digital) (green, digital) Incident level (white, digital)<br>10 10 Mounted to DIN Track With Mounting Braket Attached<br>La 5.1 147.1 147.1  (max. value with cover open) 5.1 ( (75.3) 75.3)<br>2 { It 170°  (max. value with cover open)<br>104.8<br>104.8 ly _<br>(max. value<br>with cover open) Two, 2.4-dia. — a — ——— ===a ° — a— > ————}<br>fiber unit  33.5 33.5<br>4.5 holes (16.5) (16.5)<br>(37) 3.4 (37) 3.4<br>* (13) * (13)<br>5.7 With Fiber Attachment  20.5 Optical communications Two, 3.2 dia.  4.3 Wire-saving Connector (sold separately)<br>(E39-F9) attached (37.9) (23.8) (mounting holes)<br>(75.3) Wire-saving Connector (sold separately) 20.5 (9.4) 16 Optical communications<br>PFP-@N DIN Track<br>(sold separately) 4.4 3.4 E39-L143 Mounting Bracket(sold separately, SUS304)<br>Mounting Holes<br>Two, M3 holes<br>(29.9) 16<br>16<br>**----- End of picture text -----**<br>


**70** 

**71** 

**Installation Information** 

## **Fiber Amplifiers, Communications Unit and Accessories** 

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Amplifier Units with M8 Connector<br>Cc) 71-A E3NX-FA24<br>E3NX-FA54<br>E3NX-FA54TW<br>E3NX-FA24/FA54 E3NX-FA54TW<br>Connector pin<br>L/D indicator a) DPC indicator ST indicator OUT2 selection indicator Cl) L/D indicatorDPC indicator arrangement po<br>21.7 27.1 21 27.8 2 4<br>4.2 OUT2 indicator ST indicator<br>a l o ig on<br>6.9 OUT1 indicator<br>OUT indicator 5.2 OUT1 selection indicator Incident level<br>Threshold level (green, digital) Incident level  Threshold level  (white, digital) 1 3<br>(white, digital) (green, digital)<br>Threaded<br>10 Mounted to DIN Track With Mounting Bracket Attached<br>5.1 147.1 (max. value with cover open) 5.1 71.8<br>170°  (max. value with cover open) Cylindrical<br>104.8 104.8 147.1 71.8 :<br>(max. value  Ty _ _—<br>with cover  Flat<br>open) Two,<br>2.4-dia. 33.5<br>4.5 fiber unit holes<br>(37) (5.7) 3.4 [(16.5)] 12.7 4.9 Sleeved<br>ry (mm DO 1 rl ih<br>5.7 4.8 20.5 M8 Connector  3.4 20.5 (9.4) 16 4.3 Small Spot<br>_ (37.9) (20.3) Two, 3.2 dia.  (37.9) I (20.5)<br>| |71.8 71.8  i (mounting holes) z it |<br>E39-L143 Mounting Bracket (sold separately, SUS304) High Power<br>PFP-   N DIN Track<br>(sold separately) Optical communications 4.4<br>|| 3.4 Narrow<br>Mounting Holes og Tie oar ar view<br>Two, M3 holes<br>(29.9) 16<br>A 16 f BGS<br>Retro-<br>reflective<br>Amplifier Unit with Connector for Sensor Communications Unit Limited-<br>> 71-B E3NX-FA0/FA10/FA40 reflective ;<br>OUT2 selection indicator L/D indicator DPC indicator Chemical-resistant,resistant,<br>OUT2 indicator ST indicator Oil-resistant<br>21 27.8<br>Bending<br>OUT1 indicator<br>Heat-<br>OUT1 selection indicator resistant<br>Threshold level (green, digital) Incident level (white, digital)<br>Mounted to DIN Track Area<br>13.8 Detection<br>E3NX-FA0/FAH0 E3NX-FA10/FA40<br>11.5 CD) Co) ee<br>10 5.1 140 140  (max. value with cover open) 5.1 140 (max. value with cover open) Liquid-level<br>10 152° (max. value with cover open) —y 140 152° (max. value with cover open)<br>Vacuum<br>104.8<br>(max. value with cover  104.8 I I Two, 2.4-dia. Ne A ee Semi,FPD,FPD,<br>open)4.5 fiber unit holes (37)33.5(16.5) 26 (37)33.5(5.7) (9) 26 Solar<br>el les 3.4 ri (29.9) 93.5 3.4 sm (29.9) Installation<br>Information<br>5.7 With Fiber Attachment  20.5 Optical communications With Fiber Attachment  20.5 Optical<br>(E39-F9) attached (37.9) (39.3) (E39-F9) attached (37.9) (45.4) communications<br>PFP-@N DIN Track  90.8 PFP- , @N DIN Track  101.4 96.9 96.9<br>(sold separately) (sold separately)<br>90.8 =| _<br>Selection  Guide<br>Fiber Units<br>Standard Installation<br>Saving Space<br>Beam Improvements<br>Transparent Objects<br>Environmental Immunity<br>Applications<br>Fiber Amplifiers,  Communications  Unit, and  Accessories<br>**----- End of picture text -----**<br>


po **Threaded Cylindrical** : ~~_—~~ **Flat Sleeved Small Spot High Power Narrow view BGS Retroreflective Limitedreflective** ; **Chemical-resistant,resistant, Oil-resistant Bending Heatresistant Area** ~~ee~~ **Detection Liquid-level Vacuum** ~~ee~~ **Semi,FPD,FPD, Solar** 

**71** 

**72 Threaded Cylindrical Flat Sleeved** ~~———~~ **Small Spot High Power Narrow view BGS Retroreflective Limitedreflective** ~~_~~ **Chemicalresistant,** ~~_~~ **Oil-resistant Bending** ~~oe~~ **Heatresistant Area Detection Liquid-level Vacuum FPD, Semi, Solar Installation Information** _ 

## **Fiber Amplifiers, Communications Unit and Accessories** 

## **I/O Circuit Diagrams** 

## **NPN Output** 

|**Models**|**Models**<br>**Operation**<br>**mode**|**Operation**<br>**Timing chart**|**L/D**<br>**indicators**|**Output circuit**|
|---|---|---|---|---|
|**E3NX-FA11**<br>**E3NX-FA6**<br>**E3NX-FA11-5**<br>**E3NX-FAH11**<br>**E3NX-FAH6**|**E3NX-FA11**<br>**E3NX-FA6**<br>**E3NX-FA11-5**<br>**E3NX-FAH11**<br>**E3NX-FAH6**<br>Light-ON<br>Dark-ON|Incident light<br>No incident light<br>Lit<br>Not lit<br>ON<br>OFF<br>Set<br>Reset<br>OUT indicator<br>(orange)<br>Output<br>transistor<br>Load<br>(e.g., relay)<br>(Between brown and<br>black leads)|lit.<br>**L**|Photoelectric<br>Sensor<br>main<br>circuit<br>Load<br>Brown<br>Control output<br>Black<br>Blue<br>10 to 30<br>VDC<br>OUT indicator (orange)<br>Display|
|||Incident light<br>No incident light<br>Lit<br>Not lit<br>ON<br>OFF<br>Set<br>Reset<br>OUT indicator<br>(orange)<br>Output<br>transistor<br>Load<br>(e.g., relay)<br>(Between brown and<br>black leads)|lit.<br>**D**||
|**E3NX-FA21**|**E3NX-FA21**<br>Light-ON<br>Dark-ON|Incident light<br>No incident light<br>Lit<br>Not lit<br>ON<br>OFF<br>Set<br>Reset<br>(Between brown and black<br>(orange) leads)<br>ch1/<br>ch2<br>OUT indicator<br>(orange)<br>Output<br>transistor<br>Load<br>(e.g., relay)|lit.<br>**L**|Photoelectric<br>Sensor<br>main<br>circuit<br>Load<br>Load<br>OUT2 indicator<br>(orange)<br>Brown<br>Black<br>Control output<br>ch1<br>Control output<br>ch2<br>External<br>intput<br>Orange<br>Blue<br>Pink<br>10 to 30<br>VDC<br>OUT1 indicator<br>(orange)<br>Display<br>ea<br>~~p~~ec<br>|e<br>~~yh~~ re I<br>|<br>| [TTT yt|
|||(orange) leads)<br>Incident light<br>No incident light<br>Lit<br>Not lit<br>ON<br>OFF<br>Set<br>Reset<br>(Between brown and black<br>(orange) leads)<br>ch1/<br>ch2<br>OUT indicator<br>(orange)<br>Output<br>transistor<br>Load<br>(e.g., relay)|lit.<br>**D**||
|**E3NX-FA7**<br>**E3NX-FA24**|**E3NX-FA7**<br>**E3NX-FA24**<br>Light-ON<br>Dark-ON|Incident light<br>No incident light<br>Lit<br>Not lit<br>ON<br>OFF<br>Set<br>Reset<br>OUT indicator<br>(orange)<br>Output<br>transistor<br>Load<br>(e.g., relay)|lit.<br>**L**|Photoelectric<br>Sensor<br>main<br>circuit<br>Load<br>Brown<br>Black<br>Control output<br>External<br>intput<br>Blue<br>Orange<br>10 to 30<br>VDC<br>OUT indicator (orange)<br>Display<br>M8 Connector Pin Arrangement<br>1<br>2<br>4<br>3<br>1<br>2<br>4<br>3<br>Ee ~~LA~~L<br>|<br>OO|
|||Reset<br>(e.g., relay)<br>(Between brown and<br>black leads)<br>Incident light<br>No incident light<br>Lit<br>Not lit<br>ON<br>OFF<br>Set<br>Reset<br>OUT indicator<br>(orange)<br>Output<br>transistor<br>Load<br>(e.g., relay)<br>(Between brown and<br>black leads)|lit.<br>**D**||
|**E3NX-FA7TW**|**E3NX-FA7TW**<br>Light-ON<br>Dark-ON|Incident light<br>No incident light<br>Lit<br>Not lit<br>ON<br>OFF<br>Set<br>Reset<br>(Between brown and black<br>(orange) leads)<br>ch1/<br>ch2<br>OUT indicator<br>(orange)<br>Output<br>transistor<br>Load<br>(e.g., relay)|lit.<br>**L**|Photoelectric<br>Sensor<br>main<br>circuit<br>Load<br>Load<br>OUT2 indicator<br>(orange)<br>Brown<br>Black<br>Control output<br>ch1<br>Control output<br>ch2<br>Orange<br>Blue<br>10 to 30<br>VDC<br>OUT1 indicator<br>(orange)<br>Display<br>emi~~l~~ie<br>|<br>0|
|||(orange) leads)<br>Incident light<br>No incident light<br>Lit<br>Not lit<br>ON<br>OFF<br>Set<br>Reset<br>(Between brown and black<br>(orange) leads)<br>ch1/<br>ch2<br>OUT indicator<br>(orange)<br>Output<br>transistor<br>Load<br>(e.g., relay)|lit.<br>**D**||
|**E3NX-FA11AN**|Light-ON|Incident light<br>No incident light<br>Lit<br>Not lit<br>ON<br>OFF<br>Operate<br>Reset<br>OUT indicator<br>(orange)<br>Output<br>transistor<br>Load<br>(e.g., relay)<br>(Between brown and<br>black leads)|lit.<br>**L**|Load<br>Control output<br>10 to<br>30 VDC<br>Load 10k<br>min.<br>Brown<br>Black<br>Blue<br>Orange<br>OUT indicator (orange)<br>Display<br>Photoelectric<br>sensor main<br>circuit<br>Analog<br>output<br>~~ne~~<br>~~:~~<br>~~|~~|
||**E3NX-FA11AN**<br>Dark-ON|black leads)<br>Incident light<br>No incident light<br>Lit<br>Not lit<br>ON<br>OFF<br>Operate<br>Reset<br>OUT indicator<br>(orange)<br>Output<br>transistor<br>Load<br>(e.g., relay)<br>(Between brown and<br>black leads)|lit.<br>**D**||



**72** 

**73** 

**Threaded Cylindrical Flat Sleeved Small Spot High Power Narrow view BGS Retroreflective Limitedreflective** a **Chemicalresistant, Oil-resistant Bending Heatresistant Area Detection Liquid-level Vacuum** 

**Vacuum FPD, Semi, Solar Installation Information** ~~—~~ 

## **Fiber Amplifiers, Communications Unit and Accessories** 

## **PNP Output** 

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Models Operation  Timing chart L/D Output circuit<br>mode indicators<br>Incident light<br>No incident light<br>OUT indicator Lit<br>(orange) Not lit<br>Light-ON Outputtransistor OFFON L lit. Display OUT indicator (orange) Brown<br>Load Set<br>E3NX-FA41 (e.g., relay) Reset (Between blue and<br>E3NX-FA8 2a black leads) PhotoelectricSensor Black Control output  10 to 30<br>E3NX-FAH41E3NX-FAH8 No incident lightIncident light maincircuit Load VDC<br>OUT indicator Lit<br>Dark-ON (orange)Output Not litON D lit. Blue<br>transistor OFF<br>Load Set<br>(e.g., relay) Reset<br>(Between blue and<br>black leads)<br>ch1/ Incident light<br>ch2 No incident light<br>OUT indicator Lit<br>Light-ON (orange)Outputtransistor Not litOFFON L lit. Display OUT1 indicator (orange) OUT2 indicator (orange) Brown<br>Load Set External<br>(e.g., relay) Reset Pink intput<br>(Between blue and black Photoelectric Control output<br> (orange) leads) Sensor Black ch1 10 to 30<br>E3NX-FA51 ch1/ch2 No incident lightIncident light maincircuit OrangeControl output ch2 Load VDC<br>OUT indicator Lit Load<br>(orange) Not lit Blue<br>Dark-ON Output ON D lit.<br>transistor OFF<br>Load Set<br>(e.g., relay) Reset<br>(Between blue and black<br> (orange) leads)<br>Incident light<br>No incident light Display OUT indicator (orange) Brown<br>OUT indicator Lit 1<br>(orange) Not lit External<br>Light-ON Output ON L lit. ‘g] 4 (te? 2 Orange intput<br>transistor OFF Photoelectric Control<br>E3NX-FA9 Load(e.g., relay) ResetSet (Between blue andblack leads) = Sensormaincircuit 4 Black  output  Load 10 to 30 VDC<br>E3NX-FA54 Incident light 3 Blue<br>No incident light<br>OUT indicator Lit<br>(orange) Not lit<br>Dark-ON Outputtransistor OFFON D lit.  M8 Connector Pin Arrangement 2 4<br>Load Set 1 3<br>(e.g., relay) Reset<br>(Between blue and<br>black leads)<br>ch1/ Incident light<br>ch2OUT indicatorNo incident lightLit Display OUT1 indicator (orange) OUT2 indicator (orange) 1 Brown<br>(orange) Not lit<br>Light-ON Output ON L lit.<br>transistor OFF Photoelectric Control output<br>E3NX-FA9TW Load(e.g., relay) ResetSet (Between blue and black (orange) leads) pPox so Sensormaincircuit nt 24 BlackOrangeControl output ch1ch2 — Load 10 to 30 VDC<br>E3NX-FA54TW ch1/ch2 No incident lightIncident light 3 Blue Load<br>OUT indicator Lit<br>(orange) Not lit<br>Dark-ON Outputtransistor OFFON D lit. |  M8 Connector Pin Arrangement 2 4<br>Load Set 1 3<br>(e.g., relay) Reset<br>(Between blue and black<br> (orange) leads)<br>Incident light<br>No incident light<br>OUT indicator Lit<br>(orange) Not lit<br>Light-ON Output ON L lit. Display OUT indicator (orange) Brown<br>transistor OFF<br>Load Operate<br>(e.g., relay) Reset (Between blue and black leads) Photoelectric  Orange Analog output  10 to<br>E3NX-FA41AN sensor main  30 VDC<br>Incident light circuit Black Control output<br>No incident light<br>OUT indicator Lit Load Load 10k min.<br>(orange) Not lit Blue<br>Dark-ON Output ON D lit.<br>transistor OFF<br>Load Operate<br>(e.g., relay) Reset<br>(Between blue and<br>black leads)<br>**----- End of picture text -----**<br>


**73** 

**74 Fiber Amplifiers, Communications Unit and Accessories E3NX-FA Plug (Sensor I/O Connector)** Terminal number Wire color **Wire color Connection pin Application** 4 2 1 Brown Brown 1 Power supply (+V) 3 1 23 WhiteBlue White 2 External input / Output 4 Black Blue 3 Power supply (0 V) — ~~eS~~ XS3F-M421-402-A XS3F-M422-402-A Black 4 Output XS3F-M421-405-A XS3F-M422-405-A **Nomenclature E3NX-FA11/FA41/FA6/FA8/FA7/FA9/ E3NX-FA21/FA51/FA7TW/FA9TW/FA54TW/ Threaded FA24/FA54/FA11-5/FAH11/FAH41/ FA10/FA40/FA0/FAH0 FAH6/FAH8/FA11AN/FA41AN [L/D Indicator] Cylindrical [L/D Indicator]** Indicates the setting status: Light-ON (L) or Dark-ON (D).Light-ON (L) or Dark-ON (D). **[DPC Indicator]** Turns ON when Dynamic Power Control is effective.Power Control is effective. **[    L/D Button]** Use to switch between Indicates the setting status: Light-ON (L) or Dark-ON (D).Light-ON (L) or Dark-ON (D). **[DPC Indicator]** Turns ON when Dynamic Power Control is effective.Control is effective. **Flat [OUT Indicator]** Turns ON when the output is ON.the output is ON. **[ST Indicator]** Turns ON when Smart Tuning is in progress.Tuning is in progress. Light-ON (L)and Dark-ON (D).and Dark-ON (D). **[OUT1 Indicator/OUT2 Indicator]OUT2 Indicator]** Turns ON when OUT1 or OUT2 is ON. *OUT2 is ON.  [ST Indicator]** Turns ON when Smart Tuning is in progress.Tuning is in progress. **Sleeved Small Spot [     Tune Button]** € Incident Level ~~a~~ Threshold Level Incident Level **[    MODE Button]** Oo Executes Smart Tuning. Threshold Level White digital o Green digital White digital display Use to switch between Green digital display display **High Power** display Detection Mode and ~~a~~ **Narrow [     Tune Button]** (S) Executes Smart Tuning. Setting Mode. **[OUT1 Selection Indicator/OUT2 Selection Indicator]** The indicator for the selected output channel is lit. * view** Used to fine-tune the threshold or change set values. change set values. **BGS** * Only OUT1 turns ON for output. Only OUT1 turns ON for output. **Retro-reflectivereflective Operating Procedures LimitedBasic Settings reflective** ~~,~~ **Output switching (2)2)) Enhance Durability of the Fiber Head agy of the Fiber Head ag of the Fiber Head aggainst Dust and Dirt Chemicalresistant, 1.** Press      button. **[[Maximum Sensitivity Tuning]]** ~~a~~ **Oil-resistant** L/D **1.** Through-beam: **Bending** Set to “Dark ON" to turn the output ON o ~~e~~ Workpiece a as shown below. with a workpiece in the detection area. Release the button when [ full fullulllll] is displayed. **Heat-** [L/D Indicator] turns           ON. **D** Through-beam: Workpiece is present full **resistant** Reflective: Workpiece Set to “Light ON" to turn the output ON **Area** with a workpiece in the detection area. The green digital display changes [1pnt] Workpiece **Detection** [L/D Indicator] turns          ON. @w **L** Release the button when [ ful [ ful fululll] is displayed. ~~oe~~ Lp ~~va~~ Reflective: Workpiece is absent **Liquid-level Smart Tuning [Easy Sensitivity Setting]** ! Incident light level setting: ad **(1) Detect for Workpiece Presence/Absence** The incident level in Step 1 is adjusted to "0". Threshold setting: **Vacuum** 

**Vacuum FPD, Semi, Solar Installation Information** ~~= =~~ _ 

## **Fiber Amplifiers, Communications Unit and Accessories** 

**==> picture [483 x 147] intentionally omitted <==**

**----- Start of picture text -----**<br>
[L/D Indicator]<br>[L/D Indicator] [DPC Indicator] Indicates the setting status: Light-ON (L) or Dark-ON (D).Light-ON (L) or Dark-ON (D). [DPC Indicator] [    L/D Button]<br>Indicates the setting status: Light-ON (L) or Dark-ON (D).Light-ON (L) or Dark-ON (D).   Turns ON when Dynamic Power Control is effective.Power Control is effective. [    L/D Button] Use to switch between    Turns ON when Dynamic Power Control is effective.Control is effective. Use to switch between Light-ON (L)<br>[OUT Indicator] Turns ON when the output is ON.the output is ON. [ST Indicator] Light-ON (L)and Dark-ON (D).and Dark-ON (D). [OUT1 Indicator/OUT2 Indicator]OUT2 Indicator] Turns ON when OUT1 or OUT2 is ON. *OUT2 is ON. ** [ST Indicator] and Dark-ON (D).<br>  Turns ON when Smart Tuning is in progress.Tuning is in progress.   Turns ON when Smart Tuning is in progress.Tuning is in progress.<br>[     Tune Button] € Incident Level<br>Threshold Level Incident Level [    MODE Button] Oo Executes Smart Tuning. Threshold Level White digital  [    MODE Button] o<br>Green digital  White digital display Use to switch between  Green digital display display Use to switch between<br>display Detection Mode and  Detection Mode and Setting Mode,<br>[     Tune Button] (S) Setting Mode. and use to switch between OUT1<br>Executes Smart Tuning. [OUT1 Selection Indicator/OUT2 Selection Indicator] The indicator for the selected output channel is lit. *** and OUT2. (2 outputs)<br>Used to fine-tune the threshold or change set values.<br>change set values. Used to fine-tune the threshold or<br>**----- End of picture text -----**<br>


- ~~a~~ **Narrow [     Tune Button]** (S) Executes Smart Tuning. **[OUT1 Selection Indicator/OUT2 Selection Indicator]** The indicator for the selected output channel is lit. *** and OUT2. (2 outputs) **view** Used to fine-tune the threshold or change set values. Used to fine-tune the threshold or change set values. 

- **BGS** * Only OUT1 turns ON for output. Only OUT1 turns ON for output. **Retro-reflectivereflective Operating Procedures** ~~a~~ **perating Procedureserating Proceduresg Procedures Procedures LimitedBasic Settings reflective** 

- ~~,~~ 

**(2)2)) Enhance Durability of the Fiber Head agy of the Fiber Head ag of the Fiber Head aggainst Dust and Dirt[[Maximum Sensitivity Tuning]] 1.** Hold      button for 3 seconds or longer with/without workpiece as shown below. a Release the button when [ full fullulllll] is displayed. Through-beam: Workpiece is present full 0 Hold for 3 seconds or longer The green digital display changes [1pnt] [ full] Workpiece Release the button when [ ful [ ful fululll] is displayed. ~~va~~ — Reflective: Workpiece is absent **Setting is Completed** ! Incident light level setting: ad The incident level in Step 1 is adjusted to "0". Threshold setting: The value is set to approx. 7% of the incident light level of 1. However, the Sensor becomes more susceptible to the influence of background objects. 

~~a~~ 

## **[2-point Tuning]** 

**1.** Press      button with a workpiece in the detection area. TUNE 1pnt9999 ~~C~~ S **2.** Press     button again without a workpiece in the detection area. TUNE Release the button when [2pnt] is displayed. + ~~C~~ ig 2pnt2500 eee **Setting is Completed** Incident light level setting: The larger incident level of the Step 1 and 2 values is adjusted to the power tuning level. Threshold setting: Set to the middle between the Step 1 and 2 incident light levels. 

**(3) Adjust for Moving Workpiece without Stopping Line[Full Auto Tuning]** ~~a~~ **1.** Hold the     button without the presence of a workpiece, and pass the workpiece through while [1pnt] [ full] [ aut,] is displayed in green digital. f“ (Keep holding the     button while the workpiece g 

“ (Keep holding the     button while the workpiece g passes through, and hold 7 seconds or longer until [aut,] is displayed in green digital. After the workpiece passes through, release your finger from the      button.) ‘ a aut,1500 Hold for 7 seconds or longer Workpiecet a **Setting is Completed** 

Step 1 and Step 2 can be reversed. 

Incident light level setting: Adjust the max. incident light level on Step 1 as the power tuning level. Threshold setting: Set to the middle between max. and min. incident light levels on Step 1. 

**74** 

**Fiber Amplifiers, Communications Unit and Accessories** 

**75** ~~=~~ S **Threaded Cylindrical Flat Sleeved Small Spot** ~~OO~~ **High Power Narrow** ~~—~~ **view** ~~ee~~ **BGS Retroreflective Limitedreflective** : **Chemicalresistant, Oil-resistant** ~~—~~ **Bending** ~~—~~ **Heatresistant** 

**==> picture [483 x 245] intentionally omitted <==**

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Basic Settings<br>(4) Determine Workpiece Position Channel switching<br>   Models with 2 Outputs: E3NX-FA21,E3NX-FA51,E3NX-FA7TW, E3NX-FA9TW<br>[Position Tuning]   and E3NX-FA54TW<br>1. Turn ON power tuning in SET mode. Refer to  The OUT selection indicators and the settings will change.<br>“Detailed Settings”<br>1. Press      button for 1 second.<br>2. Press       button without a workpiece in the area.<br>2. The OUT selection indicators (OUT1/OUT2) switch.<br>a 1pnt 7 9999 ] [Output 1] - OUT selection indicator (OUT1)<br><i » a OB)<br>3. Place the workpiece at the desired position and hold      button. Press the MODE button for<br>[Output 2] OUT selection indicator (OUT2) 1 second in detection mode.<br> p,59999<br>eae “fn Hold for 3 seconds or longer (J Bisse sss GB)<br>In the detailed settings, the OUT selection indicators will each light<br>The green digital display changes [2pnt] [p,s]. whenever the output (OUT1/OUT2) is set.<br>Setting is Completed<br>Incident light level setting: The Step 3 incident level is adjusted to half the power tuning level. Minute Adjustment of Threshold Level<br>Threshold setting: Set to the same value as the Step 3 incident level.<br>1. Press           button to adjust the threshold level.<br>(5) Detect Transparent or Small Workpiece The threshold level becomes higher. The threshold level becomes lower.<br>(Set Threshold by incident light level percentage)t Threshold by incident light level percentage)eshold by incident light level percentage)hold by incident light level percentage)old by incident light level percentage)ld by incident light level percentage)d by incident light level percentage) by incident light level percentage)y incident light level percentage) incident light level percentage)cident light level percentage)ident light level percentage)dent light level percentage)nt light level percentage)ght level percentage)ht level percentage)evel percentage)vel percentage)el percentage)l percentage)percentage)rcentage)centage)ntage)age)<br>[Percentage Tuning]<br>Hold the key for high-speed level adjustment.<br>**----- End of picture text -----**<br>


- **(5) Detect Transparent or Small Workpiece (Set Threshold by incident light level percentage)t Threshold by incident light level percentage)eshold by incident light level percentage)hold by incident light level percentage)old by incident light level percentage)ld by incident light level percentage)d by incident light level percentage) by incident light level percentage)y incident light level percentage) incident light level percentage)cident light level percentage)ident light level percentage)dent light level percentage)nt light level percentage)ght level percentage)ht level percentage)evel percentage)vel percentage)el percentage)l percentage)percentage)rcentage)centage)ntage)age)** 

**==> picture [237 x 271] intentionally omitted <==**

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1. Turn ON Percentage Tuning in SET mode.<br>Refer to<br>“Detailed Settings”<br>2. Press button without a workpiece in the area.<br>&<br>per1500<br>Ae ee<br>Hold for 1 sec. or longer<br>e a<br>Incident light level setting:The Step 2 incident light level is adjusted to the power tuning level.Threshold setting: -» Setting is Completed<br>The Step 2 incident light level is adjusted to the power tuning level.Threshold setting:<br>Threshold setting:<br>Set to the value obtained by [Incident Level at Step 2 × (1 + Percentage Tuning Level)].<br>No Smart Tuning other than Power Tuning can be used if<br>Percentage Tuning is set.<br>ic]<br>(6) Restore from the Incident Level Changed due to Dust and Dirtged due to Dust and Dirted due to Dust and Dirt<br>[[Power Tuning]]<br>1. Hold     and      buttons for 1 second or longer without a workpiece<br>in the area.<br>Aa<br>ptun15001500<br>en el<br>Hold both for 1 sec. or longer<br>4 ns or longer<br>Incident light level setting: The Step 1 incident level is adjusted to the power tuning level. md Setting is Completed<br>Threshold setting: Not changed.<br>Perform the procedure with a workpiece in the area for reflective model setting.<br>If the setting is made after position tuning, set both the<br>through-beam model and reflective model with a workpiece.<br>**----- End of picture text -----**<br>


## **Convenient Setting Features** 

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(1) Stable Detection Regardless of Incident Level Change due to Dust and Dirt<br>**----- End of picture text -----**<br>


> **[DPC Function (Use of the function with Through-beam ] model or Retro-reflective model is recommended)** 

**==> picture [525 x 441] intentionally omitted <==**

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Incident light level setting:The Step 2 incident light level is adjusted to the power tuning level.Threshold setting: -» Setting is Completed 1. ney Perform Smart Tuning.Refer to "Smart Tuning"Refer to "Power Tuning" The DPC indicator turns ON when the DPC function is effective. ee BGS<br>Set to the value obtained by [Incident Level at Step 2 × (1 + Percentage Tuning Level)]. 2. Set the DPC function ON in SET<br>No Smart Tuning other than Power Tuning can be used if  mode. Retro-<br>ic] Percentage Tuning is set. te Refer to “Detailed Settings” . il reflective<br>Displayed incident Light Level Stabilizes the displayed incident  Limited-<br>Restore from the Incident Level Changed due to Dust and Dirtged due to Dust and Dirted due to Dust and Dirt Incident  level by correcting internal incident level changes. reflective<br>Light  UU. Gltgess<br>[[Power Tuning]] Level The displayed incident<br>level decreases and the  Chemical-<br>1. Hold     and      buttons for 1 second or longer without a workpiece  Threshold Internal Incident  DPC indicator starts  resistant,<br>Aa in the area. Level maa—s Light Level blinking when incident level correction is not  Oil-resistant<br>en el ptun15001500 Time possible. — Bending<br>(2) Reset Settings<br>4 ns Hold both for 1 sec. or longer [Setting Reset] — Heat-<br>Setting is Completed Initializes all the settings by returning them to the factory defaults. resistant<br>Incident light level setting: The Step 1 incident level is adjusted to the power tuning level. md 1. Hold      button and then hold      button for 3 seconds or longer. eS<br>Threshold setting: Not changed. Area<br>Perform the procedure with a workpiece in the area for reflective model setting. aS) Bo  rst Detection<br>If the setting is made after position tuning, set both the  Hold both for 3 sec.<br>through-beam model and reflective model with a workpiece. or longer Liquid-level<br>2. Select [rst] in            and press       button.<br>- Refer to " • Smart Tuning Error " for error displays. UP/DOWN a MODE —<br>3. Select [rst         ] in            and press       button. Vacuum<br>aa vont UP/DOWN a MODE<br>[[Smart Tunin][g][ Error]][[g][ Error]][[ Error]] (3) Save or Read Settings FPD,<br>Error / Display / Cause Error Origin Tuning Type Remedy Semi,<br>Near Error • Change the detection function mode 1. Hold       button and then hold       button for 3 seconds or longer. Solar<br>2-point Tuning   to a slower response time mode.  §@ TUNE g L/D —<br>Full Auto Tuning • Reduce the distance between the  Installation<br>The light level difference  • Place the Fiber Head closer to the emitter and receiver. (Through-beam) [User Save Function] [User Reset Function] Information<br>between Points 1 and 2  sensing object. (Reflective) Saves the current settings. Reads out the saved settings.<br>are extremely small.<br>Over Error All • Use a thin-diameter fiber.• Widen the emitter and receiver  2. Select [ saVe] in            and UP/DOWN 2. Select [ rst] in            and UP/DOWN<br>• Distance the Fiber Head from the distance. (Through-beam) press       button. g@ MODE press       button.MODE<br>Incident light level is too high.Low Error Tuning other than Maximum  • Reduce the distance between the • Place the Fiber Head closer to the emitter and receiver. (Through-beam)sensing object. (Reflective) 3. and press       button.Select [ saVe 3 MODEyes] in            UP/DOWN 3. and press       button.Select [ rstMODEuser] in            UP/DOWN<br>Incident light level is  Sensitivity Tuning sensing object. (Reflective) (4) Prevent Mistake-operation<br>too low.<br>° [Key Lock Function]<br>Refer to " Detailed Settings " to change the power tuning level.<br>Disables all button operations. [              ] is displayed when the l\c an<br>wa 3<br>button is pressed.<br>l\c<br>Enable/Cancel<br>(This procedure) Hold both for 3 sec.<br>or longer<br>* Press either of UP/DOWN. Ph t<br>Fiber Amplifiers,  Communications  Unit, and<br>Technical  Guide and  Precautions<br>Model Index<br>**----- End of picture text -----**<br>


**Chemicalresistant, Oil-resistant** ~~—~~ **Bending** ~~—~~ **Heat-** ~~eS~~ **resistant Area Detection Liquid-level** ~~—~~ **Vacuum** 

**Vacuum FPD, Semi, Solar** ~~—~~ **Installation Information** ZZ 

## **[[Smart Tunin][g][ Error]][[g][ Error]][[ Error]]** 

**75** 

**Fiber Amplifiers, Communications Unit and Accessories** 

**76 Threaded** ~~oe~~ **Cylindrical** ~~a~~ **Flat Sleeved** ~~—~~ **Small Spot** ~~—_—_~~ **High Power Narrow view** ~~a~~ **BGS Retroreflective Limitedreflective Chemicalresistant, Oil-resistant Bending Heatresistant Area Detection** ~~a ee~~ **Liquid-level Vacuum FPD, Semi, Solar Installation Information** ~~a~~ _ 

## **Convenient Setting Features** 

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||||||||||||||||||||||
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
|Convenient Setting Features|Detailed Settings|
|The OUT selection|
|(5) Reset Incident Light Level to "0"|Hold|button for 3 seconds or longer to enter SET mode.|indicators shows items for|
|MODE|output 1 or output 2|
|e|[Zero Reset Function]|SET mode provides the function settings described|individually for each output.|
|Changes the incident light level to "0".|hereafter. The initial display shown after transition from|ae|a|l|e|
|The threshould level is also shifted accordingly.|one function to another represents the factory default.|
|The|lower|limit|of|the|threshold|is|-1,999.|
|Enable|Cancel|Function Setting|Description|
|2000   0|6000|4000|
|A|
|1. Function|
|Hold both for 3 sec. or longer|Hold both for 3 sec. or longer|Selection|Changing Functions to Set in|
|SET mode|
|func|dflt|
|(6) Producing an Output When the Incident Level Is|7|8|[[,ptdflt]: Functions 1. to  16. can be set.]: Functions 1. to 5. can be set|
|within an Area|func|
|e|[Area Detection Mode]|2. Detection|Changing Light Level and|
|1.|Hi|Function|(Incident Light Level Example)|Response Time|
|[Area Detection Mode]. Press|Select [SET Mode] - [OUT1 M|ode|] -|button for|KA|(a)|hs 500|Detection Function|||Response Time|Light Level|
|(a)|HS High-speed mode|1(Standard)|
|at least 3 seconds to leave the SET mode.|Lo|—uU|8)|(b)|L_|stnd 500|_|(b)|STND Standard mode|—_|1ms|1 time|
|2.|Press|MODE|button in [Detection Mode]|control outputLight-ON|OFFON|LL|(c)|4000|(d)(c)|GIGA Giga modeSHS Super-high-speed mode*|16ms|0.25 times8 times|
|to display OUT1 HIGH and OUT 1|Dark-ON|ON|Smart Tuning is canceled if the|
|LOW. “HIGH” and “LOW” will appear|control output|OFF|(d)|shs|125|detection mode is changed.|
|on the green digital display.|* The communication and mutual|
|interference prevention functions are|
|3.|Press|button for the high and low thresholds to execute|disabled when the detection mode is|
|@TUNE|set to super-high-speed mode.|
|smart tuning.|The response time for models with 2|
|Percentage Tuning: The thresholds are set as follows:|outputs|is 32|us|
|The incident light level in SET mode|
|Q|High: Incident level from step 3 + Incident level from step 3 × Percentage tuning level|@|is a reference value.|
|cxeck!|Low:|Incident|level|from|step|3|-|Incident|level|from|step|3|x|Percentage|tuning|level|CHECK!|It may be changed when switched|
|to detection mode.|
|(7) Monitoring the Incident Level for Sensing Objects|
|Passing at High Speed|3. DPC  Function|Stable Detection Regardless of Incident Light Level Change|
|1.|[Change Finder]|Select [SET Mode]|.|[Digital Display]|ic]|The maximum value and minimum value|,ff|UP/DOWN|me|Refer to “Convenient Setting Features”|
|to set [d|sp cfdr].|are displayed with Light-ON and Dark-ON|MODE|,n|
|respectively.|Setting Output Timer|
|4. Timer|(Settings are displayed for both outputs for models with 2 outputs.)|
|2.|Press|button for 3 seconds or longer to leave the SET mode.|Function|Off-delay Timer|Incident light|
|3.4.|Send a workpiece past the Fiber Unit.The maximum and minimum incident levels will be displayed for 0.5 seconds when the workpiece passes.2000Before Passing|a|9999|Immediately After Passing2000|1000|t,MODEff|----(a)(b)|,ffd,|n-d|UP/DOWN10|10|(a)(b)|Delays the output ON after detection.|On-delay Timer|Holds the output ON for detection by PLC when the detection time is too|short.|No incident lightNo incident lightIncident lightD-OND-ONL-ONL-ONOFFOFFOFFOFFONONONON|=|TT|TT|
|(c)|sh\t|10|One-shot Timer|Incident light|
|(8) D|[Solution Viewer]|etermining If the Workpiece|Can Be Detected|(d)|,n,f----|(c)|Keeps the output ON for a specified time regardless of the workpiece size variations.|No incident lightD-ONL-ON|OFFOFFONON|T|T|
|1.|To clear the setting, press Press  together for 3 seconds or longer to set  [s,lu|,n]. button and|button|q|button|Incident level|“assing|time(ms|threshold|or|us)|(d)|ON/OFF-delay Timer|Sets both ON-delay and OFF-delay timers.|No incident lightIncident lightD-ONL-ON|OFFOFFONON|—|TaTa|TbTb|
|A timer value can be set after pressing|
|and|button together for 3 seconds|
|a)=|MODE|@|MODE button when a timer menu (other|
|or longer to set [s,lu|,ff].|display than “----”) is displayed.|
|2.|Send a workpiece past the Fiber Unit.|Use|button to set the time.|
|UP/DOWN|
|3.|Displaying the Passing Time and Difference in Incident Levels.|(1 to 9999 ms in 1 ms steps; the|
|initial value: 10 ms)|
|4.|Press|button and|button together for 3 seconds or longer|
|Changing the Target Incident|
|to leave SET mode.|5. Power|Light Level (Power Tuning Level)|
|C—|=.|0m|ia|0|_|=|toon-|Far|-f—|500m|—ld|=r|63|__—|fon-&|Pr|Tuning  Level|Use tuning level.UP/DOWN|button to set the power|
|Passing time and Incident level|Passing time and Incident level|p-lV9999|[100 to 9999 in 1 steps; the initial|
|value: 9999]|
|MODE|Refer to “Convenient Setting Features”|
|Function|
|-|A|Selection:|
|[|dflt]|
|Function Selection: [,pt]|
|6.BANK|Saving Settings in Each Bank|
|Switching|
|1|
|BANK1|UP/DOWN|
|MODE|2|3|4|
|A|BANK2|BANK3|BANK4|

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**76** 

**Fiber Amplifiers, Communications Unit and Accessories** 

**77** 

**==> picture [547 x 731] intentionally omitted <==**

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| Function Setting Description G Function Setting e) Description<br>7. Power  A Setting ON or OFF Incident  B<br> Tuning Level Adjustment when<br> ON/OFF  Tuning 13.Digital<br> Setting   Display Changing Digital Display in<br>RUN Mode for Specific Purpose<br>Power Tuning ON SettingptunMODE ,nPower Tuning OFF Settingptun ,ffUP/DOWN ao MODE std e (a) | UP/DOWNper (a) Checking a Margin Against ThresholdThreshold2000 150pLight LevelRatio The ratio of the incident light level to the threshold is displayed in white digital figures.<br>a) 2) r r<br>(b) p-b Setting Threshold using a Small or<br>8. Percentage  Detecting Transparent or  Fast Moving Workpiece<br> Tuning Small Workpiece (c) bar Peak Light  Bottom  Holds and displays the minimum value of the<br> per @ MODE ,ff per = UP/DOWN,n then use  percentage tuning level.(Press −99% to 99% in 1% steps; the initial MODE button in [UP/DOWN  button to set the per ,n] menu,  (d)(e) e (b) Setting for Intuitive Analog DisplayLevel8000 g 2000Light Level interruption.peak of the light incidentof the bottom of the lightand the maximum value  ™ Threaded<br>|] value: −10%) ( f ) cfdr (c) 120%Threshold100% 80% Displays the current level in the 80 to 120% range against the  Cylindrical :<br>3 Refer to “Smart Tuning” threshold value (100%). =<br>9. Output 1  Adjusting Optical Axis<br>Mode ,ut  std UP/DOWN Changing the Output Mode for Output 1 (d) Peak Light Level3500 3000Light Level Holds the peak incident light level and displays it in green digital figures. Flat<br>Normal Detection Mode ,ut “  area 2 — Checking the Channel No. in Group Mounting — Sleeved<br>a) MODE Area Detection Mode (e) Ch. No. 3000Light Level Checking the Channel No. in Group Mounting. —<br>10.Output 2  Changing the Output Mode  Small Spot<br>Mode for Output 2 Checking the Light Level of Fast Moving<br>Normal Detection Mode,ut  std,ut le alrmUP/DOWN Alarm Output Mode:Press  alarm output level with MODE button and then set the UP/DOWN  button.  ( f ) — WorkpieceThereshold2000Light level when the workpiece passes9999 Light level when the workpiece passes is displayed in white digital figures for 0.5 seconds. High Power<br>MODE Alarm Output Mode (0 to 100 P in 1-P increments, default: 50 P)  Narrow<br>ON-delay of 300 ms is applied. view<br>= ,ut err Error Output Mode:An output is made when a DPC error,  14. Inverted  Mounting Amplifier in Inverted<br>Error Output Mode EEPROM error, or Load short circuit detection error occurs. Display Direction BGS<br>11.External Input Changing the Type of External Input reV ,ff — UP/DOWN © Inverts the display upside down.The digital display shows the threshold e e<br>value in green, and light incident level<br>,ff 2 UP/DOWN The closed-circuit input time for tuning is the same as the key input time. G MODE   V, in white. reflectiveRetro-<br>Input-OFF First point Second point<br>@ MODE Tuning Pa tune 2-point Tuning Less than 3 seconds Less than 3 seconds 15. Eco  Saving Power Consumption reflectiveLimited-<br>Power TuningIaser OFF fa lptun, | ff Maximum SensitivitFull Auto Tuningy Tuning Less than 7 seconds3 seconds min. 7.0 s or longer ── Function a ec\ n ,ff UP/DOWN ECo onIndicators (Green and White digital displays) turn OFF in approx. 10 seconds after a key operation. — Chemical-resistant,<br>Zero Reset a 0rst Position Tuning Less than 3 seconds 3 seconds or longer a) MODE L ec\ __ ,n ECo LoIndicators (Green and White digital  — Oil-resistant<br>When Sensor OFF is set, Emission BANK SwitchingOFF : 1,ON : 2Sensor OFF oe sbank,ff Power/percentage tuningZero reset 25 ms min.3 secondsLess thanEnable 3 secondsCancelmin.─ 16. Hysteresis  width [ ec\ l, Changing the Hysteresis Width displays) turn ON with low brightness in approx. 10 seconds after a key operation.The hysteresis width is set to a default value. resistantBendingHeat-<br>OFF and Output OFF are set by an external input signal. In addition, the  ee Enable/Cancel of Zero reset is the  The hysteresis width is set so that the judgement output is stable near the threshold  _ Area<br>setting is retained on power-up when  timing when input is turned off. 4 hstd  32 8 UP/DOWN value. Detection<br>Sensor OFF is set. Sensor OFF can be  Standard Setting<br>12.Batch Tuning released from an externally input signal. Tuning Multiple Amplifiers  @ MODE User Setting(Displayed for User Setting ~-], husr 32 Be sure to check the stability ofoutputs as there is a possibility of Liquid-level<br>Settings at Once models with  husr 37 chattering.<br>allt ,ff UP/DOWN When a setting other than OFF is  2 outputs.) Press  button with [husr]  Vacuum<br>7 8 selected, the percentage tuning setting  MODE<br>Batch tuning function OFF 7 MODE Batch percent tuningBatch power percent tuning = alltallt ppeperr is displayed continuously.When using the batch tuning function, set tuning for the external input (11). displayed and then set the hysteresis width with(0 to 9999)UP/DOWN  button. Semi,SolarFPD,<br>17.  Using the  Turning ON and OFF Writing to  Installation<br>External  EEPROM Information<br>Input to  The settings thathave been changed<br>Write to  by an external input with [,ff]<br>B EEPROM   will not be overwritten to prevent<br>EEPROM from reaching its lifespan<br> ,n UP/DOWN (1,000,000 writings).<br>ON<br>Gg MODE OFF ( 4S ,ff<br>y A<br>Selection  Guide<br>Fiber Units<br>Standard Installation<br>Saving Space<br>Beam Improvements<br>Transparent Objects<br>Environmental Immunity<br>Applications<br>Fiber Amplifiers,  Communications  Unit, and  Accessories<br>Technical  Guide and  Precautions<br>Model Index<br>**----- End of picture text -----**<br>


**77** 

**Fiber Amplifiers, Communications Unit and Accessories** 

**78 Threaded Cylindrical** : ~~—_——~~ **Flat Sleeved** : ~~—_——~~ **Small Spot High Power Narrow view BGS Retroreflective Limitedreflective Chemicalresistant, Oil-resistant Bending Heatresistant Area Detection Liquid-level Vacuum** 

**FPD, Semi, Solar Installation Information** 

## **Ratings and Specifications** 

|**Item**<br>**Models**|**E3NW-ECT**|**E3NW-DS**|
|---|---|---|
|**Connectable Sensor Amplifier Units**|N-Smart<br>Smart Fiber Amplifier Unit:<br>Smart Fiber Amplifier Unit (Infrared models):<br>Color Fiber Amplifier Unit:<br>Smart Laser Amplifier Unit:<br>Smart Laser Amplifier Unit (CMOS type):<br>Contact-Type Smart Amplifier Unit:<br>E3NX-FA0/FA10/FA40<br>E3NX-FAH0<br>E3NX-CA0*1<br>E3NC-LA0<br>E3NC-SA0<br>E9NC-TA0*2||
|**Power supply voltage**|24VDC (20.4 to 26.4 VDC)||
|**Power and current consumption**|2.4 W max. (Not including the power supplied to Sensor.)<br>100 mA max.  (Not including the current supplied to Sensor.)|2 W max. (Not including the power supplied to Sensor.)<br>80 mA max.  (Not including the current supplied to Sensor.)|
|**Indicators**|L/A IN Indicator (Green), L/A OUT Indicator (Green),<br>PWR Indicator (Green), RUN Indicator (Green), ERROR<br>Indicator (Red),and SS (Sensor Status) indicator (Green/Red)<br>~~3Storage:-30to70°C (with no icing or~~|RUN Indicator (Green),<br>and SS (Sensor Status) indicator (Green/Red)<br>~~orcondensation)~~|
|**Vibration resistance (destruction)**|10 to 60 Hz with a 0.7-mm double amplitude, 60 to 150 Hz 50 m/s2for 1.5 hours each in X, Y, and Z directions<br>~~3Storage:-30to70°C (with no icing orcondensation)~~||
|**Shock resistance(destruction)**|Destruction: 150 m/s2for 3 times each in X, Y, and Z directions<br>~~3Storage:-30to70°C (with no icing orcondensation)~~||
|**Ambient temperature range**|Operating: 0 to 55°C,*<br>~~3Storage:-30to70°C (with no icing orcondensation)~~<br>~~20MQmin.(at500VDC)~~||
|**Ambient humidity range**|Operating and storage: 25% to 85% (with no condensation)<br>~~3Storage:-30to70°C (with no icing orcondensation)~~<br>~~20MQmin.(at500VDC)~~||
|**Maximum connectable Sensors**|30*4<br>~~20MQmin.(at500VDC)~~|10|
|**Maximum connectable**<br>**Distributed Sensor units**|8<br>~~20MQmin.(at500VDC)~~||
|**Insulation resistance**|~~20MQmin.(at500VDC)~~||
|**Dielectric strength**|500 VAC 50/60Hz 1 min<br>~~20MQ min. (at500VDC)~~||
|**Mounting method**|35-mm DIN track-mounting||
|**Weight (packed state/unit only)**|Approx. 185 g/Approx. 95 g|Approx. 160 g/Approx. 40 g|
|**Materials**|Polycarbonate||
|**Accessories**|Power supply connector,Communications connector for E3NW-DS,<br>DIN Track End Plates(2)and Instruction manual|Power supply/communications connector,<br>DIN Track End Plates(2), Ferrite cores(2)and Instruction manual|



- *1. The E3NX-CA0 is supported for firmware version 1.06 or higher (Sensor Communications Units manufactured in June 2016 or later). 

- *2. The E9NC-TA0 is supported for firmware version 1.03 or higher (Sensor Communications Units manufactured in July 2014 or later). 

- *3. Temperature Limitations Based on Number of Connected Amplifier Units: 

Groups of 1 or 2 Amplifiers: 0 to 55°C, Groups of 3 to 10 Amplifiers: 0 to 50°C, Groups of 11 to 16 Amplifiers: 0 to 45°C, Groups of 17 to 30 Amplifiers: 0 to 40°C 

- *4. A maximum total of 30 Sensors can be connected to a Sensor Communications Unit and Distributed Sensor Units. 

## **Communications Specifications** 

|**Item**|**Specifications**|
|---|---|
|**Protocol**|EtherCAT|
|**Modulation**|Baseband|
|**Baud rate**|100 Mbps|
|**Physical layer**|100Base-TX (IEEE802.3u)|
|**Topology**|Daisy chain|
|**Communications media**|STP category 5 or higher|
|**Communications distance**|100 m max. between nodes|
|**Noise immunity**|Compliant with IEC 61000-4-4, 1 kV min.|
|**Node address setting method**|Set the decimal rotary switches or software*1|
|**Node address range**|000 to 192*2|



*1. The software setting is used when the node address setting switches are set to 0. 

- *2. The range depend on the EtherCAT master that is used. Refer to the E3NW-ECT EtherCAT Sensor Communications Unit Operation Manual for details. 

CompoNet-compatible and CC-Link-compatible products are also available. Refer to your OMRON website for details. 

**78** 

**79** 

**Threaded** = — **Cylindrical Flat Sleeved** : **Small Spot High Power Narrow** — **view** _ **BGS Retroreflective Limitedreflective Chemicalresistant, Oil-resistant Bending** a **Heatresistant** 

**Bending** a **Heatresistant Area Detection Liquid-level** : **Vacuum FPD,** a **Semi, Solar Installation Information** ~~—~~ 

## **Fiber Amplifiers, Communications Unit and Accessories** 

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(Unit: mm)<br>Dimensions Tolerance class IT16 applies to demmensions in this date sheet unless otherwise specified.pplies to demmensions in this date sheet unless otherwise specified.lies to demmensions in this date sheet unless otherwise specified.pecified.ecified.<br>Sensor Communications Unit<br>Input communications  Output communications<br>— 79-A E3NW-ECT connector connector<br>4i 41<br>18 (36.7)<br>15.4<br>32.2<br>‘€ ; 64.5 1 & 60.9 1 # (49.8)<br>86.6<br>102.5<br>09 =) me<br>105.1<br>i t ||<br>Ea He r e 10 a] |<br>10<br>PFP-  [] N DIN Track<br>(sold separately)<br>38.8<br>(43) 13.5 9.5 Connector cover (provided)(E39-G27)  32.5<br>N e aa ==<br>Communications Connector (provided)<br>(FK-MCP 1,5/2-STF-3,5 AU)<br>Power Supply Connector (provided)<br>(FK-MCP 1,5/2-STF-3,5 AU)<br>**----- End of picture text -----**<br>


## **Dimensions** 

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Tolerance class IT16 applies to demmensions in this date sheet unless otherwise specified.pplies to demmensions in this date sheet unless otherwise specified.lies to demmensions in this date sheet unless otherwise specified.pecified.ecified.<br>**----- End of picture text -----**<br>


## **Distributed Sensor Unit** 

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20<br>79-B E3NW-DS<br>(34.3)<br>25.4<br>49 (42.9)<br>S| = 69 0<br>95.7<br>pa<br>Connector cover (provided) DIN Track<br>Connector: Provided. (E39-G27)   30.4 (sold separately)<br>(FK-MCP 1,5/4-STF-3,5 AU) ed) 2 (44.5) (PFP-    N)<br>**----- End of picture text -----**<br>


**79** 

**Fiber Amplifiers, Communications Unit and Accessories** 

**80** 

**Threaded Cylindrical Flat Sleeved Small Spot High Power Narrow view BGS** 

**High Power** 

**Retroreflective Limitedreflective Chemicalresistant, Oil-resistant Bending Heatresistant Area Detection Liquid-level Vacuum FPD, Semi,** . **Solar Installation Information** 

## **E3X-HD Fiber Amplifier Units and Related Products** 

## **Fiber Amplifier Units E3X-HD Series** 

**Cylindrical** 

**Small Spot** 

**==> picture [475 x 233] intentionally omitted <==**

**----- Start of picture text -----**<br>
Type Appearance Connecting method Models Ratings and  Dimensions<br>NPN output PNP output Specifications<br>Pre-wired (2 m) E3X - HD11  2M E3X - HD41  2M Page 82<br>82-A<br>6) |--f<br>Standard models Wire-saving Connector E3X - HD6 E3X - HD8 Page 83 83-A<br>@<br>Page 82<br>M8 Connector E3X - HD14 E3X - HD44 Page 83<br>83-B<br>, Ae<br>Model for<br>Sensor  Connector for Sensor  Page 83<br>Communications  Communications Unit E3X - HD0 83-C<br>Unit<br>**----- End of picture text -----**<br>


## **Sensor Communications Unit** 

|**Communication**<br>**method**|**Appearance**|**Applicable Fiber**<br>**Amplifier Model**|**Models**|**Ratings and**<br>**Specifications**|**Dimensions**|
|---|---|---|---|---|---|
|CompoNet||E3X-HD0|**E3X**~~**-**~~**CRT**|Page 88|Page 89<br>**89-A**|
|EtherCAT|||**E3X**~~**-**~~**ECT**||Page 89<br>**89-B**|



**80** 

**Fiber Amplifiers, Communications Unit and Accessories** 

**81** 

## **Accessories (sold separately)** 

## **Wire-saving connectors  (Required for models for Wire-saving Connectors.)** 

Connectors are not provided with the Fiber Amplifier Unit and must be ordered separately.  * Protective stickers: provided. 

|**Type**|**Appearance**|**Cable**<br>**length**<br>**Number of**<br>**conductors**<br>~~pp~~|**Number of**<br>**conductors**<br>~~pp~~|**Models**<br>~~ppom~~|**Ratings and**<br>**Specifications**<br>~~om~~|**Dimensions**|
|---|---|---|---|---|---|---|
|Master Connector||2m<br>~~pp~~|3<br>~~pp~~|**E3X-CN11**<br>~~ppom~~|Page 90<br>~~om~~|Page 90<br>**90-A**|
|Slave Connector|||1<br>~~pp~~|**E3X-CN12**<br>~~pp om~~||Page 90<br>**90-B**|



**Threaded** 

**Cylindrical** 

## **Sensor I/O Connectors (Required for models with M8 Connectors.)** 

**Flat** 

Connectors are not provided with the Fiber Amplifier Unit and must be ordered separately. * Protective stickers: provided. 

|**Appearance**|**Cable length **|**Number of**<br>**conductors**|**Models**|**Ratings and**<br>**Specifications**|**Dimensions**|
|---|---|---|---|---|---|
|Straight|2m|4|**XS3F-M421-402-A**|Page 90|Page 90<br>**90-C**|
||5m||**XS3F-M421-405-A**|||
|L-shaped<br>(B~~Z~~ ~~A~~<br>~~>|~~|2m||**XS3F-M422-402-A**||Page 90<br>**90-D**|
||5m<br>~~||~~||**XS3F-M422-405-A**|||



## **Mounting Bracket** 

A Mounting Bracket is not provided with the Fiber Amplifier Unit and must be ordered separately as required. 

|**Appearance**|**Model**<br>**E39-L143**|**Quantity**<br>1|**Dimensions**<br>Page 91<br>**91-A**|
|---|---|---|---|



**Sleeved** 

**Small Spot** 

**High Power** 

**Narrow view BGS** 

**Retroreflective Limitedreflective** 

**Chemicalresistant, Oil-resistant** 

**Bending** 

**Heatresistant** 

## **DIN Track** 

A Din Track is not provided with the Fiber Amplifier Unit and must be ordered separately as required. 

|**Appearance**<br>ye|**Type**<br>~~ee~~<br>|**Models**<br>~~ee~~<br>~~ee~~<br>|**Quantity**<br>~~ee~~|**Dimensions**|
|---|---|---|---|---|
|ye ~~||~~<br>e.<br>Zz|Shallow type,<br>total length: 1 m<br>~~ee~~<br>|**PFP-100N**<br>~~ee~~<br>~~ee~~<br>|1<br>~~ee~~|Page 91<br>**91-B**<br>~~=~~|
||g<br>Shallow type,<br>total length: 0.5 m<br>~~ee ~~<br>~~||~~|**PFP-50N**<br> ~~ee~~<br>~~ee~~<br>~~em~~|||
||Deep type,<br>total length: 1 m<br>~~|| ~~|**PFP-100N2**<br> ~~em~~||Page 91<br>**91-C**<br>~~=~~|



## **End Plate** 

Two End Plates are provided with the Sensor Communications Unit. 

End Plates are not provided with the Fiber Amplifier Unit and must be ordered separately as required. 

|**Appearance**|**Model**<br>**PFP-M**|**Quantity**<br>1|**Dimensions**<br>Page 91<br>**91-D**|
|---|---|---|---|



**Area Detection Liquid-level Vacuum FPD,** oe **Semi, Solar** 

**Installation Information 81** omRon a 

**Fiber Amplifiers, Communications Unit and Accessories** 

**82** _ **Threaded Cylindrical** : **Flat Sleeved** : **Small Spot High Power Narrow view BGS Retroreflective Limited-** ~~——~~ **reflectiveChemicalresistant, Oil-resistant Bending Heatresistant Area Detection Liquid-level** ~~——~~ **Vacuum FPD, Semi, Solar Installation Information** m 

## **Ratings and Specifications** 

|**Item**<br>~~a~~<br>~~a~~<br>~~a~~|**Item**<br>~~a~~<br>~~a~~<br>~~a~~|**Type**<br>~~a~~|**Standard**|**Standard**|**Standard**|**Model for Sensor Communications Unit***1|
|---|---|---|---|---|---|---|
|||**NPN output**<br>~~a~~<br>~~a~~|**E3X-HD11**|**E3X-HD6**|**E3X-HD14**|**E3X-HD0**<br>~~pT~~|
|||**PNP output**<br>~~a~~<br>~~a~~|**E3X-HD41**<br>~~pT~~|**E3X-HD8**<br>~~pT~~|**E3X-HD44**<br>~~pT~~||
|||**Connecting method**<br>~~a~~|**Connecting method**<br>**Pre-wired**<br>~~pT~~|**Wire-saving Connector***2<br>~~pT~~|**M8 Connector**<br>~~pT~~|**Connector for Sensor Communications Unit**<br>~~pT~~|
|**Light source (wavelength)**|||Red, 4-element LED (625 nm)<br>~~pT~~||||
|**Power supply voltage**|||12 to 24 VDC ±10%,ripple(P-P)10% max.<br>~~pT~~|||Supplied from the connector through the Sensor Communications Unit<br>~~pT~~|
|**Power**<br>**consumption**|**Normal mode**<br>~~J~~||720 mW max. (Current consumption: 30 mA max. at 24 VDC, 60 mA max. at 12 DVC)<br>~~pT~~<br>~~J~~||||
||**Eco ON**<br>~~J~~<br>~~J~~||530 mW max. (Current consumption: 22 mA max. at 24 VDC, 44 mA max. at 12 VDC)<br>~~pT~~<br>~~J~~<br>~~J~~||||
||**Eco LO**<br>~~J~~<br>~~a~~||640 mW max.(Current consumption: 26 mA max. at 24 VDC,53 mA max. at 12 VDC)<br>~~J~~<br>~~a~~|||--<br>~~J~~<br>~~a~~|
|**Control output**<br>~~a~~<br>~~|~~|||Load power supply voltage: 26.4 VDC max., open-collector output<br>Load current: Groups of 1 to 3 Amplifier Units: 100mA max.,<br>Groups of 4 to 16 Amplifier Units: 20mA max.<br>Residual voltage: At load current of less than 10 mA: 1 V max.,<br>At load current of 10 to 100 mA: 2 V max.<br>OFF current: 0.1mA max.<br>~~a~~|||--<br>~~a~~|
|**Protection circuits**<br>~~|~~|||Power supply reverse polarity protection, output short-circuit protection and<br>output reverse polarityprotection|||Power supply reverse polarity protection<br>and output short-circuit protection|
|**Response**<br>**time**<br>~~|~~<br>~~|~~|**Super-high-speed**<br>**mode(SHS) ***4<br>~~|~~||NPN outputs: Operate or reset: 50 μs<br>PNP outputs: Operate or reset: 55 μs|||--|
||**High-speed mode(HS)**<br>~~|~~<br>~~|~~||Operate or reset: 250 μs (default setting)||||
||**Standard mode(Stnd)**<br>~~|~~<br>~~|~~||Operate or reset: 1 ms||||
||**Giga-power mode (GIGA)**<br>~~|~~||**Giga-power mode (GIGA)**<br>Operate or reset: 16 ms||||
|**Maximum connectable Units**<br>~~|~~|||16 units|||with E3X-CRT: 16 units<br>with E3X-ECT: 30 units*3|
|**Mutual interferenceprevention**<br>~~|~~|||Possible for up to 10 units (optical communications sync)*4||||
|**Autopower control(APC)**<br>~~|~~|||Always ON||||
|**Other functions**|||Power tuning,differential detection,DPC,timer(OFF-delay,ON-delay,or one-shot),zero reset,resettingsettings,and Eco mode||||
|**Ambient Illumination(Receiver side)**|||Incandescent lamp: 20,000 lx max.,Sunlight: 30,000 lx max.||||
|**Ambient temperature range**|||Operating:<br>Groups of 1 to 2 Amplifier  Units: −25 to 55°C,<br>Groups of 3 to 10 Amplifier  Units: −25 to 50°C,<br>Groups of 11 to 16 Amplifier  Units: −25 to 45°C<br>Storage: −30 to 70°C (with no icing or condensation)|||Operating:<br>Groups of 1 to 2 Amplifier  Units: 0 to 55°C,<br>Groups of 3 to 10 Amplifier  Units: 0 to 50°C,<br>Groups of 11 to 16 Amplifier  Units: 0 to 45°C,<br>Groups of 17 to 30 Amplifier  Units: 0 to 40°C<br>Storage: −30 to 70°C (with no icing or condensation)|
|**Ambient humidity range**|||Operatingand storage: 35% to 85%(with no condensation)||||
|**Insulation resistance**|||20 MΩ min.(at 500 VDC)||||
|**Dielectric strength**|||1,000 VAC at 50/60 Hz for 1 min||||
|**Vibration resistance (destruction)**|||10 to 55 Hz with a 1.5-mm double amplitude for 2 hours each in X, Y, and<br>Z directions|||10 to 150 Hz with a 0.7-mm double amplitude<br>for 80 minutes each in X, Y, and Z directions|
|**Shock resistance (destruction)**|||500 m/s2for 3 times each in X,Y,and Z directions|||150 m/s2for 3 times each in X, Y, and Z directions|
|**Degree ofprotection**|||IEC 60529 IP50(with Protective Cover attached)<br>~~pT~~|||~~--~~<br>~~pT~~|
|**Weight (packed state/unit only)**|||Approx. 105g/Approx. 65g<br>~~D~~|Approx. 60g/Approx. 20g<br>~~D~~~~**e**~~|Approx. 70g/Approx. 25g<br>~~**e**~~|Approx. 65g/Approx. 25g<br>~~**e**~~|
|**Materials**<br>~~|~~|**Case**<br>~~a e~~||Polycarbonate(PC)<br>~~D~~~~**e**~~<br>~~e~~|||Heat-resistant ABS (connector: PBT)<br>~~**e**~~|
||**Cover**<br>~~a e~~<br>~~|~~||Polycarbonate (PC)<br>~~D~~~~**e**~~<br>~~e~~<br>||||
||**Cable**<br>~~|Po~~||PVC<br>~~Po~~||||
|**Accessories**|||Instruction Manual||||



*1.The E3X-ECT EtherCAT Sensor Communications Unit and the E3X-CRT CompoNet Sensor Communications Unit can be used. 

*2. Use either the E3X-CN11 (master connector, 3 conductors) or the E3X-CN12 (slave connector, 1 conductor). 

- *3. When connected to an OMRON NJ-series Controller. 

*4. The communications function and matual interference prevention function are disabled when the detection mode is set to Super-high-speed mode (SHS). When including E3X-DA-S with activated power tuning the maximum number of mutual interference prevention is up to 6. When including E3X-MDA with activated power tuning the maximum number of mutual interference prevention is up to 5. E3X-DA@-S Series in this catalog have been discontinued at the end of March 2017 and end of March 2019. E3X-MDA Series will be accepted until the end of August 2021. 

## **Dimensions** 

(Unit: mm) 

Tolerance class IT16 applies to demmensions in this date sheet unless otherwise specified. 

## **Pre-wired Amplifier Units** 

**==> picture [486 x 232] intentionally omitted <==**

**----- Start of picture text -----**<br>
©) 82-A E3X-HD11 DPC indicator<br>E3X-HD41 L/D indicator ST indicator<br>21.7 27.1<br>Threshold level OUT indicator Incident level red digital display Vinyl-insulated round cable, 4 dia., 3 conductors(conductor cross-section: 0.2 mmstandard cable length: 2 m [2] , insulation diameter: 1.1 mm),<br>green digital display Minimum bending radius: 12 mm<br>10<br>DIN track mounting With Mounting Braket Attached<br>5.1 146.9<br>170° (max. value with cover open) Note:  When using E39-L143 Mounting<br>Brackets, there will be small gaps<br>104.8 5.1 between the Amplifier Units if they are mounted side by side.<br>(max. value F; . SL<br> with cover  104.8 — | |<br>open) th Two, 33.5 (16.5) | = 49.2 33.5 (16.5) ( =<br>4.5 2.4 dia. 3.4 3.4<br>ech v= H ET ss i 12.7 =a ; 12.7<br>5.65 -a eS 20.5 (37.9) (20.3) Optical communications i Two, 3.2 dia. Holes 20.5 (9.4) 16 4.3 Optical communications<br>71.8 71.8<br>- a PFP-    N DIN Track o Mouting Holes 718 PM E39-L143 Mounting Bracket(sold separately, SUS304)<br>(sold separately) Two-M3 3.4 4.4<br>Fiber Attachment (E39-F9) attached<br>10.3<br>16<br>29.9 16<br>**----- End of picture text -----**<br>


**82** 

**83** 

So 

## **Fiber Amplifiers, Communications Unit and Accessories** 

**==> picture [192 x 49] intentionally omitted <==**

**----- Start of picture text -----**<br>
Amplifier Units with Wire-saving Connectors<br>83-A E3X-HD6<br>E3X-HD8<br>—<br>**----- End of picture text -----**<br>


**==> picture [520 x 413] intentionally omitted <==**

**----- Start of picture text -----**<br>
DPC indicator<br>L/D indicator ST indicator<br>PZ 21.7 27.1<br>OUT indicator Incident level<br>Threshold level  red digital display<br>green digital display<br>10 10<br>DIN track mounting With Mounting Braket Attached<br>5.1 146.9<br>Note:  When using E39-L143 Mounting<br>| ‘. 170°(max. value with cover open) 146.9 between the Amplifier Units if they Brackets, there will be small gaps  Threaded<br>(max. value104.8 5.1 are mounted side by side.<br> with cover<br>open) Cylindrical<br>4.5 Two,2.4 dia. 33.5 (16.5) A* 49.2 33.5 (16.5) A*<br>3.4 3.4 Flat<br>(13) (13)<br>Optical<br>5.65 20.5(37.9) (20.3) Two, 3.2 dia.Holes 20.5 (9.4) 16 4.3 communications Sleeved<br>71.8 71.8 PFP-    N oO  DIN Track ' 71.8 71.8 —___<br>(sold separately) E39-L143 Mounting Bracket<br>Fiber Attachment (E39-F9) attached Mouting Holes 3.4 4.4(sold separately, SUS304) Small Spot<br>Two-M3<br>10.3 High Power<br>' C G 16 SS 29.9 16<br>* The cable diameters are as follows: Narrow<br>view<br>E3X-CN11 (3 conductors) 4.0 dia.<br>:——— E3X-CN12 (1 conductor) 2.6 dia. BGS<br>Amplifier Units with M8 Connectors<br>E3X-HD14 Retro-<br>3 reflective<br>E3X-HD44<br>M8 connector Limited-<br>reflective<br>12.7 Chemical-<br>resistant,<br>11.2 The dimensions are the same as the E3X-HD6/8,  Oil-resistant<br>except for the connector.<br>Bending<br>hon —_<br>Selection<br>Fiber Units<br>**----- End of picture text -----**<br>


**==> picture [153 x 35] intentionally omitted <==**

**----- Start of picture text -----**<br>
Amplifier Units with M8 Connectors<br>83-B E3X-HD14<br>><br>E3X-HD44<br>**----- End of picture text -----**<br>


**Limitedreflective Chemicalresistant, Oil-resistant Bending** ~~—_~~ **Heatresistant Area Detection Liquid-level Vacuum FPD, Semi,** ~~_——~~ **Solar** | **Installation Information** 

**Amplifier Unit with Connector for Sensor Communications Unit 83-C E3X-HD0** a 

**==> picture [271 x 262] intentionally omitted <==**

**----- Start of picture text -----**<br>
DPC indicator<br>L/D indicator ST indicator<br>21.7 27.1<br>OUT indicator Incident level<br>Threshold level  red digital display<br>green digital display<br>13.8 13.8 DIN track mounting<br>11.5<br>10<br>100°(max. value with cover open)<br>103.5<br>(max. value104.8 5.1 71.8<br> with cover<br>open)<br>is t f<br>- Two, = = Ai)<br>4.5 2.4 dia. 33.5 (16.5)<br>5 | 33.5 3.4 I (| sill 9.9<br>5.65 20.5 3.4<br>(37.9) (39.3)<br>==) | —_ =t zi 90.8 t<br>Optical communications<br>PFP-    N DIN Track (sold separately) oO<br>Fiber Attachment (E39-F9) attached<br>**----- End of picture text -----**<br>


**83** 

**84** 

_ **Threaded Cylindrical** : **Flat Sleeved Small Spot High Power** ~~_~~ **Narrow view BGS** 

**Retroreflective Limitedreflective** : **Chemicalresistant, Oil-resistant Bending Heatresistant Area Detection Liquid-level Vacuum FPD, Semi, Solar Installation Information 84** 

## **Fiber Amplifiers, Communications Unit and Accessories** 

## **I/O Circuit Diagrams** 

## **NPN Output** 

**==> picture [478 x 361] intentionally omitted <==**

**----- Start of picture text -----**<br>
|||||||||||||
|---|---|---|---|---|---|---|---|---|---|---|---|
|Models|Operation|Timing chart|L/D|Output circuit|
|mode|indicators|
|Incident light|
|OUT indicator(orange)No incident lightNot litLit|Display|OUT indicator (orange)|1|Brown|
|Light-ON|Output|ON|L|lit.|‘|a|6|——|’|Black|Load|
|E3X-HD11|transistorLoad(e.g., relay)|ResetOFFSet|(Between brown and black leads)|pa|PhotoelectricSensormaincircuit|4|Control output|12 to 24 VDC|
|E3X-HD6E3X-HD14|ESX-FID6|Incident light|1|e|t|
|OUT indicatorNo incident lightLit|3|Blue|
|(orange)|Not lit|
|Dark-ON|Output transistor|OFFON|D|lit.|M8 Connector Pin Arrangement|2|4|
|Load|Set|1|3|
|(e.g., relay)|Reset|Note: Pin 2 is not used.|
|(Between brown and|
|black leads)|||OO|
|PNP Output|
|Models|Operation|Timing chart|L/D|Output circuit|
|mode|indicators|
|Incident light|
|OUT indicatorNo incident lightLit|Display|OUT indicator (orange)|1|Brown|
|(orange)|Not lit|
|Light-ON|Output|ON|L|lit.|
|transistorLoad(e.g., relay)|ResetOFFSet|Ll|PhotoelectricSensormain|]|4|Black|Control output|12 to 24 VDC|
|E3X-HD41|(Between blue and|circuit|
|black leads)|Load|
|E3X-HD8|
|E3X-HD44|No incident lightIncident light|3|Blue|
|OUT indicator|Lit|
|(orange)|Not lit|
|Dark-ON|Output|ON|D|lit.|
|transistor|OFF|M8 Connector Pin Arrangement|2|4|
|Load|Set|one)|1|3|
|(e.g., relay)|Reset|Note: Pin 2 is not used.|
|(Between blue and|
|black leads)|
|nny|7.|

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


## **PNP Output** 

## **Plug (Sensor I/O Connector)** 

**ON delay OFF delay One-shot** Terminal number Wire color Incident light Incident light Incident light 4 2 1 Brown No incident light T No incident light T No incident light T 3 1 23 WhiteBlue ON ON ON 4 Black Light-ON OFF ~~4~~ Light-ON OFF ~~&~~ Light-ON OFF ~~= ©85>~~ T T T ON ON ON XS3F-M421-402-A XS3F-M422-402-A Dark-ON Dark-ON Dark-ON XS3F-M421-405-A XS3F-M422-405-A OFF OFF OFF **Wire color Connection pin Application Note:** Timing Charts for Timer Settings (T: Set Time) Brown 1 Power supply (+V) White 2 --Blue 3 Power supply (0 V) Black 4 Output **Note:** Pin 2 is not used. 

**Note:** Timing Charts for Timer Settings (T: Set Time) 

## **Nomenclature** 

**[L/D Indicator]** Indicates the setting status: Light-ON (L) or Dark-ON (D). 

**[DPC Indicator]** 

Turns ON when Dynamic Power Control is effective. 

**[    L/D Button]** Use to switch between Light-ON (L) and Dark-ON (D). 

**[OUT Indicator] [ST Indicator]** Turns ON when Turns ON when Smart Tuning the output is ON. is in progress. 

Threshold Level Incident Level **[    MODE Button]** Green digital display Red digital display Use to switch between Detection Mode and Setting Mode. **[     TUNE Button]** @ [+-UP/DOWN Button] Automatically sets the emitter Used to fine-tune the threshold power and set values. or change set values. 

**Fiber Amplifiers, Communications Unit and Accessories** 

**85** 

_ 

**==> picture [484 x 208] intentionally omitted <==**

**----- Start of picture text -----**<br>
Operating Procedures<br>Basic Settings<br>ee Output switching (4) Determine Workpiece Position<br>1. Press      button. ig L/D PF on [Position Tuning]<br>Through-beam:  1. Press       button without a workpiece in the area.<br>Set to “Dark ON" to turn the output ON  IPE] Workpiece g TUNE<br>with a workpiece in the detection area.<br>[L/D Indicator] turns           ON. D st1pnt<br>Reflective:  » Workpiece 4 qe Gal<br>——_ if<br>Set to “Light ON" to turn the output ON<br>with a workpiece in the detection area. 2. Place the workpiece at the desired position and hold       button.<br>[L/D Indicator] turns          ON. L TUNE<br>Smart Tuning [Easy Sensitivity Setting] st p,5<br>(1) Detect for Workpiece Presence/Absence1) Detect for Workpiece Presence/Absence) Detect for Workpiece Presence/Absence Detect for Workpiece Presence/Absence Hold for 3 seconds or longer<br>OS [[2-point Tuning]] —— vf<br>The red digital display changes [2pnt]   [p,s].<br>1. Press       button with a workpiece in the detection area. Setting is Completed<br>8 TUNE ee = ~<br>**----- End of picture text -----**<br>


**Threaded** 

**==> picture [233 x 144] intentionally omitted <==**

**----- Start of picture text -----**<br>
Smart Tuning [Easy Sensitivity Setting]<br>OS (1) Detect for Workpiece Presence/Absence1) Detect for Workpiece Presence/Absence) Detect for Workpiece Presence/Absence Detect for Workpiece Presence/Absence [[2-point Tuning]] piece Presence/Absenceiece Presence/Absence<br>1. Press       button with a workpiece in the detection area.<br>8 TUNE ee<br>i<br>Oe<br>2. Press      button again without a workpiece in the detection<br>TUNE<br>area.<br>— -—s Setting is Completed<br>**----- End of picture text -----**<br>


**Cylindrical** ~~—~~ **Flat Sleeved** ~~——-~~ **Small Spot High Power Narrow view BGS Retroreflective Limitedreflective Chemicalresistant, Oil-resistant Bending** ~~oe~~ **Heatresistant Area Detection** ~~a OOa~~ **Liquid-level Vacuum** 

Incident light level setting: 

The Step 2 incident level is adjusted to half the power tuning level. Threshold setting:Set to the same value as the Step 2 incident level. 

## **(5) Detect Transparent or Small Workpiece** 

## **(Set Threshold by incident light level percentage)** 

## **[Percentage Tuning]** 

**==> picture [210 x 81] intentionally omitted <==**

**----- Start of picture text -----**<br>
1. Turn ON Percentage Tuning in SET mode.<br>Refer to<br>nel "Detailed Settings".<br>2. Press       button without a workpiece in the area.<br>TUNE<br>st per<br>Setting is Completed<br>**----- End of picture text -----**<br>


Incident light level setting:The larger incident level of the Step 1 and 2 values is adjusted to the power tuning level. TUNE Threshold setting:Set to the middle between the Step 1 and 2 incident light levels. Step 1 and Step 2 can be reversed. 

## **(2) Enhance Durability of the Fiber Head against Dust and Stain[[Maximum Sensitivity Tuning]]** 

Incident light level setting: 

> **[[Maximum Sensitivity Tuning]]** The Step 2 incident light level is adjusted to the power tuning level. **reflective** Threshold setting:Set to the value obtained by [Incident Level at **1.** Hold       button for 3 seconds or longer with/without workpiece ~~)S~~ Step 2 × Percentage Tuning Level + Incident Level at Step 2]. **Limited-** ~~a~~ TUNE **reflective** as shown below. Release the button when [ st full] is displayed. No Smart Tuning other than Power Tuning can be used if Percentage **Chemical-** Through-beam: Workpiece is present Tuning is set. **resistant, Oil-resistant** 

> **[Smart Tunin][g][ Error] Error / Display / Cause Error Origin Tuning Type Remedy Bending** 

> Workpiece ~~7~~ Hold for 3 seconds or longer Near Error • Change the detection function mode a The red digital display changes [1pnt] ; [ full] 2-point TuningFull Auto TuningFull Auto Tuning • Reduce the distance between the to a slower response time mode.to a slower response time mode. ~~oe~~ **Heat-** 

> Reflective: Workpiece is absent **Setting is Completed** The light level differencebetween Points 1 and 2 between Points 1 and 2 Positioning Tuning • Place the Fiber Head closer to the light emitting and light receiving surfaces. (Through-beam)light emitting and light receiving surfaces. (Through-beam)surfaces. (Through-beam) **resistant** Incident light level setting: are extremely small. sensing object. (Reflective)g object. (Reflective) object. (Reflective)ject. (Reflective)ect. (Reflective)(Reflective)Reflective)) **Area** i The incident level in Step 1 is adjusted to "0".Threshold setting: ” Over Error All • Enhance the power tuning level.• Use a thin-diameter fiber.• Widen the emitter and receiver • Use a thin-diameter fiber.• Widen the emitter and receiver • Widen the emitter and receiver ~~OOa~~ **Detection** $$ The value is set to approx. 7% of the incident Incident light level is • Distance the Fiber Head from the distance (Through-beam) **Liquid-level** light level of 1. too high. sensing object(Reflective) If the incident light level of 1 is smaller during long distance detection, the minimum value by which an output is correctly turned ON will be set. Low Error • Decrease the power tuning level. **Vacuum** 

**==> picture [218 x 175] intentionally omitted <==**

**----- Start of picture text -----**<br>
Error / Display / Cause Error Origin Tuning Type Remedy<br>Near Error • Change the detection function mode<br>2-point TuningFull Auto TuningFull Auto Tuning • Reduce the distance between the to a slower response time mode.to a slower response time mode.<br>The light level differencebetween Points 1 and 2 between Points 1 and 2  Positioning Tuning • Place the Fiber Head closer to the light emitting and light receiving surfaces. (Through-beam)light emitting and light receiving surfaces. (Through-beam)surfaces. (Through-beam)<br>are extremely small. sensing object. (Reflective)g object. (Reflective) object. (Reflective)ject. (Reflective)ect. (Reflective)(Reflective)Reflective))<br>Over Error All<br>• Enhance the power tuning level.• Use a thin-diameter fiber.• Widen the emitter and receiver • Use a thin-diameter fiber.• Widen the emitter and receiver • Widen the emitter and receiver<br>distance (Through-beam)<br>Incident light level is  • Distance the Fiber Head from the distance (Through-beam)<br>too high. sensing object(Reflective)<br>Low Error • Decrease the power tuning level.<br>Tuning other than  • Reduce the distance between the light<br>Maximum Sensitivity emitting and light receiving surfaces.<br>Incident light level is too low. Tuning • Place the Fiber Head closer to the (Through-beam)<br>sensing object. (Reflective)<br>The adjustment range of smart tuning is approx. 20 to 1/100 times.<br>When selecting giga mode as detection function, the range will be approx.<br>2 to 1/100 times due to the large initial value.<br>**----- End of picture text -----**<br>


**Vacuum FPD, Semi, Solar** 

## **(3) Adjust for Moving Workpiece without Stopping Line** 

## **[Full Auto Tuning]** 

**1.** Hold the       button without the presence of a workpiece, and 

**Installation Information** 

> TUNE pass the workpiece through while [1pnt] [ full] [ aut,] is displayed in red digital. (Keep holding the      button while the 

TUNE 

Refer to "Detailed Settings" to change the power tuning level. 

workpiece passes through, and hold 7 seconds or longer until [ aut,] is displayed in red digital. After the workpiece passes through, release your finger from the      button.) TUNE * Workpiece o ~~r~~ ee Hold for 7 seconds or longer Tl **Setting is Completed** 

## **Minute Adjustment of Threshold Level** 

**1.** Press          button to adjust the threshold level. UP/DOWN 

The threshold level becomes higher. The threshold level becomes lower. 

Hold the key for high-speed level adjustment. 

Incident light level setting: Adjust the max. incident light level on Step 1 as the power tuning level. Threshold setting: 

Set to the middle between max. and min. incident light levels on Step 1. 

**85** 

**Fiber Amplifiers, Communications Unit and Accessories** 

**86** ~~_~~ _ **Threaded** ~~—~~ **Cylindrical Flat Sleeved Small Spot High Power Narrow view BGS Retroreflective Limitedreflective** : **Chemicalresistant, Oil-resistant Bending Heatresistant Area Detection Liquid-level Vacuum FPD, Semi, Solar** ~~_~~ **Installation Information** 

## **Convenient Setting Features** 

**(1) Restore from the Incident Level Changed due to Dust and Dirt** 

**==> picture [215 x 85] intentionally omitted <==**

**----- Start of picture text -----**<br>
[Power Tuning]<br>1. Hold       and       buttons for 1 second or longer without a<br>TUNE MODE<br>workpiece in the area.<br>  st ptun<br>eee<br>Hold both for 1 sec. or longer<br>IP oe —_b<br>= Setting is Completed<br>Incident light level setting:<br>**----- End of picture text -----**<br>


The Step 1 incident level is adjusted to the power tuning level. Threshold setting: Not changed. If the value is low, it will be set to the minimum value in which an output is turned ON/OFF correctly. 

Perform the procedure with a workpiece in the area for reflective model setting. If the setting is made after position tuning, set both the through-beam model and reflective model with a workpiece. 

Refer to “ Smart Tuning Error" for error displays. 

**(4) Save or Read Settings** ~~a~~ **1.** Hold       button and then hold       button for 3 seconds or longer. TUNE L/D | **[User Save Function][User Reset Function]** Saves the current settings. Reads out the saved settings. **2.** ~~a~~ Select [ saVe] in            and **2.** Select [ rst] in            and UP/DOWN UP/DOWN press       button. press       button. @ MODE Q MODE **3.** Select [ saVe yes] in **3.** Select [ rst user] in UP/DOWN UP/DOWN and press       button. @ MODE and press       button. @ MODE Caution is required; the output is inverted if       button is ic} pressed first. ce) L/D 

## **(5) Prevent Mistake-operation** 

## **[Key Lock Function]** 

Disables all button operations. [              ] is displayed when the button is pressed. 

## **(2) Stable Detection Regardless of Incident Level Change due to Dust and Dirt** 

> **[DPC Function (Use of the function with Through-beam ] model or Retro-reflective model is recommended)** 

**1.** Perform Smart Tuning. 

**==> picture [148 x 20] intentionally omitted <==**

**----- Start of picture text -----**<br>
The DPC indicator turns ON<br>Refer to "Smart Tuning" when the DPC function is<br>Refer to "Power Tuning" effective.<br>**----- End of picture text -----**<br>


**2.** Set the DPC function ON in SET mode. Refer to “Detailed Settings”. 

- Steps 1 and 2 can be reversed. 

- The DPC function will be disabled when a smart tuning error occurs, differential function with maximum sensitivity tuning is performed, or the first incident light level of the positioning tuning is low. 

- The incident light level is corrected to the power tuning level to maintain stable threshold and incident light levels. This provides stable detection regardless of the incident level changes caused by dirty sensor head, position error, or temperature changes. 

|Incident<br>Light<br>Level<br>Threshold<br>Level||Displayed incident Light Level|Displayed incident Light Level|Displayed incident Light Level|Displayed incident Light Level|Stabilizes the displayed incident<br>level by correcting internal<br>incident level changes.<br>Time<br>The displayed incident<br>level decreases and the<br>DPC indicator starts<br>blinking when incident<br>level correction is not<br>possible.<br>Internal<br>Incident Light<br>Level|
|---|---|---|---|---|---|---|



**Enable/Cancel** 

**(This procedure)** 

Hold both for 3 sec. or longer * Press either of UP/DOWN. 

## **(6) Reset Incident Light Level to "0"** 

## **[Zero Reset Function]** 

Changes the incident light level to "0". The threshold level is also shifted accordingly. 

## **Enable** 

**==> picture [69 x 89] intentionally omitted <==**

**----- Start of picture text -----**<br>
-1999   0<br>Hold both for 3<br>sec. or longer<br>bo<br>2000 4000<br>Hold both for 3<br>sec. or longer<br>**----- End of picture text -----**<br>


## **Cancel** 

The zero reset function is canceled when either of the DPC function/differential function/Smart Tuning is performed. 

## **(3) Reset Settings** 

## **[Setting Reset]** 

Initializes all the settings by returning them to the factory defaults. 

**1.** Hold       button and then hold       button for 3 seconds or longer. 2B TUNE q L/D rst Hold both for 3 sec. or longer —_ ~~—~~ " 

**2.** Select [rst] in            and press       button. 

UP/DOWN 2 MODE 

**3.** Select [rst         ] in            and press       button. 

UP/DOWN MODE 

**Item Initial Value** Threshold Value 55 Control Output L-ON * Settings for other functions are returned to the detailed setting initial values. User-saved settings are retained. Smart Tuning is canceled. 

Caution is required; the output is inverted if       button is pressed first. L/D 

**86** 

**Fiber Amplifiers, Communications Unit and Accessories** 

**87** 

**VacuumSemi,FPD,** ~~=~~ **FPD, Semi,FPD,** ~~i~~ **Solar Installation Information** Ss 

## **Detailed Settings** ~~CO~~ 

**==> picture [578 x 727] intentionally omitted <==**

**----- Start of picture text -----**<br>
Hold       button for 3 seconds or longer to enter SET mode. g MODE I Function Setting Description<br>SET mode provides the function settings described hereafter. The initial display  B<br>shown after transition from one function to another represents the factory default.<br>7. Differential  Detecting Incident Light Level<br>EO Function Setting Description Function I Change<br>,ff Detects if the absolute value of the<br>A UP/DOWN incident light level change of the set<br>: re | response time is larger than the  _<br>1. Function  Selection Changing Functions to Set in SET Mode @ MODE threshold value. The display shows the change of the incident light level of the<br>set response time in red.<br>dflt UP/DOWN [dflt]: Functions 1. to 5. can be set 1 Differential  Response<br>[,pt]: Functions 1. to  10. can be set. Setting Time<br>fae, _<br>MODE 2 1<br>2<br>2. Detection  Changing Light Level and  3 3 1 ms Threaded<br> Function (Incident Light Level Example) Response Time 4 10 ms<br>(a)   hs a) MODE  500(b) (. stnd 500UP/DOWN (a) STNDHSHigh-speed mode Detection Function Response Time (Standard) Light Level 1 45 Use            button to specify the response time.When the differential function is UP/DOWN5 100 ms — Cylindrical<br>(d)(c) shs6000125 (b)(c) Standard modeGIGAGiga mode rt 16 ms1 ms 12 times1 time enabled, the detection function setting is disabled.Smart tunings except power tuning are disabled. — SleevedFlat<br>SHS NPN The adjustment range of power tuning<br>(d) Super-high-speed mode* ee PNP 0.25 times is approx. 1 to 1/100 times. —<br>Smart Tuning is canceled if the<br>detection mode is changed. 8. Digital  Changing Digital Display in  Small Spot<br>* The communication and mutual   Display RUN Mode for Specific Purpose<br> interference prevention functions are  disabled when the detection mode is  set to super-high-speed mode. war std UP/DOWN High Power<br>SA The incident light level in SET mode is a reference value. c) MODE a Narrow<br>| It may be changed when switched to detection mode. (a) per Checking a Margin Against ThresholdThreshold Light Level The ratio of the incident  view<br>3. DPC  Function Stable Detection Regardless of Incident Light Level Change (b) p-b (a) nl 2000 150pRatio light level to the threshold is displayed in red digital figures. ed —ee BGS<br>,ff UP/DOWN Refer to “Convenient  (c) bar Setting Threshold using a Small or Fast Moving Workpiece Retro-<br>Setting Features” reflective<br>a MODE ,n (d)(e) [ase PERL (b) Peak Light Level8000 2000BottomLight Level Holds and displays the minimum value of the peak of the light incidentof the bottom of the lightand the maximum value  — reflectiveLimited-<br>4. Timer  Setting Output Timer interruption. —<br> Function t,ffMODE ----(a)(b) ,ffd, n-d UP/DOWN10 10 (a)(b) Delays the output ON after detection. On-delay TimerOff-delay Timer Holds the output ON for detection by PLC when the detection time is too short. No incident lightNo incident lightIncident lightIncident lightD-OND-ONL-ONL-ONOFFOFFOFFOFFONONONON TT TT (d)(c) Setting for Intuitive Analog DisplayAdjusting Optical Axis120%Peak Light Level3500Threshold100%3000Light Level80% Holds the peak incident light level and displays it in green digital figures.Displays the current level in the 80 to 120% range against the threshold value (100%). Oil-resistantChemical-resistant,resistantBendingHeat-<br>(c) 10 One-shot Timer Incident light<br>(c) Keeps the output ON for a specified time regardless of  No incident lightL-ON OFFON T T Checking the Channel No. in Group Mounting Area<br>the workpiece size variations.  D-ON OFFON Ch. No. Light Level Checking the Channel  Detection<br>A timer value can be set after pressing (e) 3000 No. in Group Mounting.<br>      button when a timer menu (other MODE (ee ee Liquid-level<br>display than “----”) is displayed. a<br>Use            button to set the time. (1 to 9999 ms in 1 ms steps; the initial value: 10 ms)UP/DOWN 9. Inverted  Display   reV ,ff UP/DOWN Mounting Amplifier in Inverted Direction Inverts the display upside down.The digital display shows the threshold  = VacuumSemi,FPD,<br>42 value in red, and light incident level in  Solar<br>5. Power  Tuning  Changing the Target Incident Light Level (Power Tuning Level) a MODE   V, green. i<br> Level Installation<br>p-lV9999 Use            button to set the power tuning level.[100 to UP/DOWN9999 in 1 steps; the initial  10. Eco Function Saving Power Consumption Eco on Ss Information<br>Function Selection: [ dflt] 5 MODE value:  : 9999] lia ,ff UP/DOWN Indicators (Green and Red digital displays) turn OFF in approx. 10 seconds after a<br>A Refer to “Convenient  key operation.<br>Function Selection: [,pt] it Setting Features” a MODE ,n Eco LoIndicators (Green and Red digital displays)<br>U A l, turn ON with low brightness in approx.<br>10 seconds after a key operation.<br>6. Percentage  Detecting Transparent or<br> Tuning Small Workpiece<br>Press       button in [per ,n] menu,<br> per ,ff UP/DOWN then use            button to set the MODE<br>a MODE  per ,n percentage tuning level.( 99% to 99% in 1% steps; the initial UP/DOWN<br>value: 10%)<br>B Refer to “Smart Tuning”<br>Selection  Guide<br>Fiber Units<br>Standard Installation<br>Saving Space<br>Beam Improvements<br>Transparent Objects<br>Environmental Immunity<br>Applications<br>Fiber Amplifiers,  Communications  Unit, and  Accessories<br>Technical  Guide and  Precautions<br>Model Index<br>**----- End of picture text -----**<br>


**87** 

**Fiber Amplifiers, Communications Unit and Accessories** 

|**Fiber Amplifiers, Communications Unit and Accessories**||
|---|---|
|**Fiber Amplifiers, Communications Unit and Accessories**<br>**E3X-CRTand ECT**<br>**88**||
|**Fiber Sensor**<br>**Features**<br>**Selection**<br>**Guide**<br>**Ratings and Specifications**<br>**E3X-CRT**<br>**Item**<br>**Communication method**<br>**Communicationspower supply voltage**<br>**Connectable Sensors**<br>**Specifications**<br>Fiber Sensors:<br>E3X-HD0<br>Laser Sensor Head with Separate Digital Amplifier: E3C-LDA0<br>Proximity Sensor with Separate Amplifier:<br>E2C-EDA0<br>CompoNet Communications<br>14 to 26.4 VDC (Communications Unit draws power from the communications power supply.)<br>~~_~~<br>~~a~~<br>~~>~~||
|**Fiber Units**<br>**Functions**<br>**Indicators**<br>2.4 W max. (Not including the power supplied to Sensor.)<br>100 mA max. at 24 VDC(Not includingthe current supplied to Sensor.)<br>I/O communications, message communications, and Sensor error output<br>MS Indicator(Green/Red), NS indicator(Green/Red), and SS(Sensor Status)indicator(Green/Red)<br>**Power and current consumption**||
|**Threaded**<br>**Cylindrical**<br>**Standard Installation**<br>**Dielectric strength**<br>**Insulation resistance**<br>**Vibration resistance**<br>**Shock resistance**<br>10 to 150 Hz with double amplitude of 0.7 mm, or 50 m/s2<br>80 min each in X, Y, and Z directions<br>150 m/s2<br>3 times  each in X, Y, and Z directions<br>500 VAC  50/60Hz  1 min<br>20MΩ min.||
|**Flat**<br>**Sleeved**<br>**Saving Space**<br>**Ambient operating humidity**<br>**Storage temperature**<br>**Storage humidity**<br>**Ambient operating temperature**<br>0 to 55°C  (with no icing or condensation)<br>*The temperature is limited by the number of connected Fiber Amplifier Units.<br>25% to 85% (with no icing or condensation)<br>−30 to 70°C (with no icing or condensation)<br>25% to 85% (with no condensation)<br>~~7~~||
|**Small Spot**<br>**High Power**<br>**Retro-**<br>**reflective**<br>**Limited-**<br>**reflective**<br>**Narrow**<br>**view**<br>**BGS**<br>**Transparent Objects**<br>**Beam Improvements**<br>**Mounting method**<br>**Weight (packed state/unit only)**<br>**Accessories**<br>35-mm DIN track-mounting<br>Approx. 220 g/Approx. 95 g<br>Connector cover, DIN track End Plates and Instruction manual<br>**Note.**The E3X-CRT has two operating modes: I/O mode 1 and I/O mode 2.<br>The following table gives the differences between these modes.<br>* Temperature Limitations Based on Number of Connected Fiber Amplifier Units:<br>Groups of 1 to 2 Amplifier Units:<br>0 to 55°C,<br>Groups of 3 to 10 Amplifier Units: 0 to 50°C,<br>Groups of 11 to 16 Amplifier Units: 0 to 45°C<br>**I/O**<br>**classification**<br>**Number of**<br>**allocatedpoints**<br>**Maximum number**<br>**of interconnected**<br>**I/O mode 1**<br>**I/O mode 2**<br>Input Unit<br>I/O Unit<br>15<br>16<br>Input: 32<br>Input: 64<br>Output: 64<br>**Read the User’s Manual for precautions**<br>**on using this Unit. (E412)**<br>~~|~~<br>~~SS~~||
|**Chemical-**<br>**resistant,**<br>**Oil-resistant**<br>**Bending**<br>**Heat-**<br>**resistant**<br>**Environmental Immunity**<br>**E3X-ECT**<br>**Item**<br>**Communication method**<br>**Power supply voltage**<br>**Connectable Sensors**<br>**Specifications**<br>Fiber Sensor<br>E3X-HD0<br>Laser Sensor Head with Separate Digital Amplifier:  E3C-LDA0<br>Proximity Sensor with Separate Amplifier:<br>E2C-EDA0<br>EtherCAT<br>20.4 to 26.4 VDC<br>~~|~~||
|**Area**<br>**Detection**<br>**Liquid-level**<br>**Vacuum**<br>**FPD,**<br>**Semi,**<br>**Solar**<br>**Installation**<br>**Information**<br>**Applications**<br>**Fiber Amplifiers,**<br>**Communications**<br>**Unit, and**<br>**Accessories**<br>**Dielectric strength**<br>**Insulation resistance**<br>**Ambient operating humidity**<br>**Storage temperature**<br>**Storage humidity**<br>**Mounting method**<br>**Ambient operating temperature**<br>**Power and current consumption**<br>**Functions**<br>**Indicators**<br>**Vibration resistance**<br>**Shock resistance**<br>2.4 W max. (Not including power the supplied to Sensor.)<br>100 mA max. at 24 VDC(Not includingthe current supplied to Sensor.)<br>DC (synchronous) mode, Free run mode, PDO communications,*1<br>SDO communications,Sensor error output<br>L/A IN indicator (Yellow), L/A OUT indicator (Yellow), PWR indicator (Green), RUN indicator (Green),<br>ERROR indicator(Red), and SS(Sensor Status)indicator(Green/Red)<br>10 to 150 Hz with double amplitude of 0.7 mm, or 50 m/s2<br>80 min each in X, Y, and Z directions<br>150 m/s2<br>3 times each in X, Y, and Z directions<br>0 to 55°C (with no icing or condensation)<br>*The temperature is limited by the number of connected Fiber Amplifier Units.<br>500 VAC 50/60 Hz 1 min<br>20MΩ min.<br>25% to 85% (with no condensation)<br>−30 to 70°C (with no icing or condensation)<br>25% to 85% (with no condensation)<br>35-mm DIN track-mounting<br>~~|~~<br>—||
|**Model Index**<br>**Technical**<br>**Guide and**<br>**Precautions**<br>**Weight (packed state/unit only)**<br>**Accessories**<br>Approx. 220 g/Approx. 95 g<br>Power supply connector, connector cover, DIN track End Plates and Instruction manual<br>*1. Data Size Assignable to the PDO (Process Data Object):<br>There is a maximum data size that can be assigned. The maximum size is 36 bytes.<br>*2. Temperature Limitations Based on Number of Connected Fiber Amplifier Units:<br>Groups of 1 to 2 Amplifier Units:<br>0 to 55°C,<br>Groups of 3 to 10 Amplifier Units: 0 to 50°C,<br>Groups of 11 to 16 Amplifier Units: 0 to 45°C,<br>Groups of 17 to 30 Amplifier Units: 0 to 40°C<br>**Read the User’s Manual for precautions**<br>**on using this Unit. (E413)**<br>><br>~~—~~||



**88** 

> **Fiber Amplifiers, Communications Unit and Accessories 89 E3X-CRT and ECT** ~~—— eS~~ (Unit: mm) **Dimensions** Tolerance class IT16 applies to demmensions in this date sheet unless otherwise specified. 

> **89-A E3X-CRT** 41 3.4 31.9 ~~ee~~ (49.5) — 76.4 102.5 (53) ~~iis~~ § 

> Communications ~~Ae E~~ 32.4 DIN Track (sold separately) ~~N~~ ff Connector 10.5 (36.3) (PFP-   N) **Threaded** (24) 18.8 **Cylindrical** “ ~~pS~~ i **Flat** ~~:~~ **89-B E3X-ECT Sleeved** ~~(36.3)~~ Communications 41 Communications (30.7) Connector ~~18~~ Connector 26.8 **Small Spot** (IN) (OUT) 12.8 

> 31.9 **High Power** (49.5) **Narrow** ~~,~~ **view** 102.5 ~~an me~~ . **BGS** (53) **Retro-** ~~en TH~~ **reflective** Power supply connector: Provided. (FK-MCP 1,5/2-STF-3,5 AU) 32.4 DIN Track (sold separately)(PFP-   N) **Limitedreflective** 

> (31.7) **Chemicalresistant,** ~~i~~ **Oil-resistant Bending Heatresistant Area Detection** 

**Liquid-level** 

**Vacuum FPD, Semi, Solar Installation Information** 

**89** 

**90** >» 

**Threaded** ~~—_————~~ **Cylindrical Flat Sleeved Small Spot High Power Narrow view BGS Retroreflective Limitedreflective Chemicalresistant, Oil-resistant Bending Heatresistant Area Detection** ~~ee~~ **Liquid-level Vacuum** 

**FPD, Semi, Solar Installation Information** ~~—~~ _ 

## **Fiber Amplifiers, Communications Unit and Accessories** 

|**Item**<br>~~|~~|**Item**<br>~~|~~|**Type**<br>~~a~~|**Master Connector**|**Master Connector**|**Slave Connector**|**Slave Connector**|
|---|---|---|---|---|---|---|
|||**Models**<br>**Type**<br>~~a~~<br>~~|~~<br>~~|~~|**E3X-CN21**<br>**E3X-CN11**<br>**E3X-CN22**<br>**Master Connector**<br>~~eaconas~~<br>~~ESX-CNi~~<br>~~ESK-CN22~~||**E3X-CN22**<br>**E3X-CN12**<br>**Slave Connector**<br>~~ESK-CN22~~<br>~~ESX-CNI2~~||
|**Number of conductors**<br>~~|~~<br>~~|~~<br>~~Pe~~|||4<br>~~eaconas~~<br>~~Pe~~|3<br>2<br>~~ESX-CNi~~<br>~~ESK-CN22~~|~~ESK-CN22~~|1<br>~~ESX-CNI2~~|
|**Diameter of cable**<br>~~Pe~~|||4 dia.<br>~~Pe~~|||2.6 dia.|
|**Rated current**<br>~~Pe~~|||~~Pe~~<br>2.5A||||
|**Rated voltage**|||50VDC<br>20mQmax.(20MVDCmax.,100mAmax.)||||
|**Contact resistance**|||20 mQ max. (20 MVDC max., 100 mA max.)<br>(The above figure is for connection to theAmplifier Unit and the adjacent Connector.<br>It does not include the conductor resistance of the cable.)||||
|**Number of insertions**|||Destruction: 50times (forconnection totheAmplifier Unitand the adjacent Connector)||||
|**Material**|**Housing**<br>~~|~~||~~Polybutylene terephthalate (PBT)~~||||
||**Contact**<br>~~| ~~<br>~~|~~||~~Polybutylene terephthalate (PBT)~~<br>~~Phosphor bronze/gold-platednickel~~||||
|**Weight(packed state)**<br>~~| ~~|||~~Phosphor bronze/gold-plated nickel~~<br>Approx. 55 g|||Approx. 25 g|



|**Models**<br>**Item**|**Models**|**XS3F-M42    -40    -A**<br>~~xS9F-M620)40L1-A~~|
|---|---|---|
|**Models**<br>**Item**<br>**Number of conductors**||**XS3F-M42    -40    -A**<br>4<br>~~xS9F-M620)40L1-A~~|
|**Diameter of cable**||4 dia.<br>~~1A~~|
|**Rated current**||~~1A~~|
|**Rated voltage**||~~1A~~<br>125VDC|
|**Contact resistance**||40mQ max.<br>~~(20 mVDCmax.,100 mA max.)~~|
|**Number of insertions**||~~(20 mVDC max., 100 mA max.)~~<br>Destruction: 200 times|



## **Dimensions** 

## **Wire-saving Connectors (for Models with Wire-saving Connectors)** 

## **Master Connector** 

**==> picture [478 x 468] intentionally omitted <==**

**----- Start of picture text -----**<br>
50<br>90-A E3X-CN21  0<br>Edge of amplifier<br>E3X-CN11 (7)<br>See note<br>~~<br>S e Note: E3X-CN21 : 4 dia. cable/ 4 conductors / Standard length: 2m<br>TTT ae (Conductor cross section: 0.2 mm 2 (AWG24), Insulator diameter: 1.1 mm)<br>re E8X-CN11 : 4 dia. cable/ 3 conductors / Standard length: 2m<br>(Conductor cross section: 0.2 mm 2 (AWG24), Insulator diameter: 1.1 mm)<br>Slave Connector<br>90-B E3X-CN22 +50 0<br>E3X-CN12 rn (7)<br>|<br>Co) a: e r p 2,000<br>See note<br>a \:<br>| _———<br>TTT E—— a Note: E3X-CN22 : 4 dia. (Conductorcable/cross 2 conductorssection: 0.2/ Standardmm 2 (AWG24),length: Insulator2m diameter: 1.1 mm)<br>‘SLL eee E3X-CN12: 2.6 dia. cable / 1 conductor / Standard length: 2m<br>(Conductor cross section: 0.2 mm 2 (AWG24), Insulator diameter: 1.1 mm)<br>Sensor I/O Connectors (for Models with M8 Connectors)<br>90-C XS3F-M421-402-A 2.15 M8 12.9 4 dia.<br>XS3F-M421-405-A 4 2<br>9 dia.<br>1.95 0.5 3 1<br>21.5 30 5<br>3.4 31.4 50<br>fe L ae<br>90-D XS3F-M422-402-A L 50<br>XS3F-M422-405-A 23.1 30 5<br>20.5<br>4 dia.<br>9<br>OO dia. —————————<br>3.4 Models Cable length L (m)<br>2.15 MZ | 0.5 XS3F-M42    -402-A XSSF-M4201-402-A 2<br>[| 1.95 XSSF-M4201-405-A XS3F-M42    -405-A 5<br>**----- End of picture text -----**<br>


**90** 

**Fiber Amplifiers, Communications Unit and Accessories** 

**91** 

**==> picture [562 x 757] intentionally omitted <==**

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Mounting Brackets<br>91-A E39-L143<br>Ee<br>34.8<br>22<br>(10.3) 2.5 1 6 3<br>Mounting Holes<br>5.3 7.3 Two-M3<br>ge . JES —_<br>26.8 7<br>e f See Two-3.2 dia. a y , 16 [±0.1]<br>3 16 3<br>Four-R1.7<br>= ||<br>10.3 10 max. t  7 r AG AA 3.4<br>1 Threaded<br>3.4 1<br>Cylindrical<br>Material: Stainless steel (SUS304) :<br>DIN track<br>Flat<br>91-B PFP-100N<br>PFP-50N<br>7.3 [±0.15] Sleeved<br>7 4.5 :<br>35 [±0.3] 27 [±0.15]<br>Small Spot<br>eS Se) 1 5 25 10 25 monn) 25 10 25 (See note)15 (5)  FO 1 |<br>(See note) Note: igures in parenthesses are for the PFP-50N. High Power<br>Narrow<br>view<br>CO 91-C PFP-100N2<br>16 BGS<br>4.5<br>== aan 35 [±0.3] 27 24 29.2 —— Retro-<br>reflective<br>1 5 25 10 25 25 10 25 1 5 1 1.5 Limited-<br>a = |6§ reflective<br>ee ee “+<br>Chemical-<br>resistant,<br>Oil-resistant<br>End Plate Bending<br>~ 91-D PFP-M<br>50 Heat-<br>11.5 M4 × 8panhead screw resistant<br>Oo<br>10 Area<br>Detection<br>SB 2S<br>Liquid-level<br>M4 spring washer<br>Vacuum<br>4.8 — > 6.2<br>10<br>1 FPD,<br>1.3 Semi,<br>b es 1.8 Solar .<br>L ! 35.5 1.8 a<br>35.3 Installation<br>Information<br>Material: Iron, zinc plating a<br>Fiber Sensor  Features<br>Selection  Guide<br>Fiber Units<br>Standard Installation<br>Saving Space<br>Beam Improvements<br>Transparent Objects<br>Environmental Immunity<br>Applications<br>Fiber Amplifiers,  Communications  Unit, and  Accessories<br>Technical  Guide and  Precautions<br>Model Index<br>**----- End of picture text -----**<br>


**91** 

**Technical Guide** 

**92** 

**FPD, Semi, Solar Installation Information** ~~_~~ 

**Reference Information for Fiber Units Influence of Fiber Cable Length** ~~_ OOo~~ The sensing distance listed in the Fiber Units specifications are based on the fiber cable lengths found in the suffix of the model number. The sensing distance will change if the fiber cable is cut or extended. The following graph shows the percentage change of the various fiber cable length, where 100% is the sensing distance for a fiber cable with a length of 2 m. Use this as a guideline for installation distances. Keep in mind that extending the cable with a fiber connector will result in even shorter sensing distances than the value given in the graph. 120 100 ~~PAD ET TT ET~~ 80 ~~—— PT[NEE]~~ **Threaded** 60 ~~PLL[TPMT] EE~~ 40 ~~PT TE |~~ | ~~PR~~ **Cylindrical** : 20 ~~TT — PT TET[TE]~~ **Flat** 00 1 2 3 4 5 6 7 8 9 10 11 * The 100% value is for a fiber cable with a length of 2 m Fiber Cable Length (m) (same for Through-beam and Reflective Models). **Sleeved** : PIT ET TT ETT **Reflective Models: Sensing Distance Ratios by Workpiece Materials Small Spot** The following graph shows the percentage change of the various workpieces, where 100% is the sensing distance for white paper, the standard sensing object. Refer to the value of the material that looks like your workpiece. **High Power** 120 **Narrow** 100 **view** 80 **BGS** 60 **Retro-** 40 **reflective** 20 **Limitedreflective** 0 White Glass SUS304 Bakelite Green Anodized paper t0.7 rubber mat aluminum * White paper is 100%. **Chemical-** Material (black) **resistant, Oil-resistant Types of Fiber Cables Bending** This section describes the features of different types of fiber cables. (This is given in the Fiber Unit specifications as either Flexible or Bend-resistant for the cable bending radius, and Coaxial for the **Heatresistant** appearance. If no difinition is given, a standard cable is used.) **Area •[[Flexible Fibers]] •[[Break-resistant Fibers]] Detection** The flexible fiber has a small bending radius for easy routing This fiber is resistant to repeated bends for use on moving **Liquid-level** without easily breaking. parts. It is easy to use because the cable can be bent without significantly reducing light intensity. **Vacuum** Structure which has a ~ **FPD,** Core cladding around a large Structure where the multiple **Semi,** Cladding number of ultrafine fine fibers has been independent. **Solar** cores. | Wt 6 6 ~~4 > —<~~ 6 

The following graph shows the percentage change of the various fiber cable length, where 100% is the sensing distance for a fiber cable with a length of 2 m. 

**==> picture [467 x 179] intentionally omitted <==**

**----- Start of picture text -----**<br>
• [[Flexible Fibers]] • [[Break-resistant Fibers]]<br>The flexible fiber has a small bending radius for easy routing  This fiber is resistant to repeated bends for use on moving<br>without easily breaking. parts.<br>It is easy to use because the cable can be bent without<br>significantly reducing light intensity.<br>Structure which has a  ~<br>Core cladding around a large  Structure where the multiple<br>Cladding number of ultrafine  fine fibers has been independent.<br>cores.<br>Wt 6 6 4 > —< 6<br>• [Standard Fibers]<br>This fiber have a large bending radius compared with<br>bend-resistant or flexible fiber.<br>Use this fiber where the bending radius is large, or on<br>non-moving parts.<br>Structure only of one fiber<br>**----- End of picture text -----**<br>


## **•[Coaxial Reflective Fibers]** 

These fibers are suitable for sensing small objects at close range. 

Emitter fiber 

Receiver fibers 

The receiver fibers are arranged around the emitter fiber. 

**92** 

**Technical Guide** 

**93** 

**High Power** 

**Narrow view** 

**Retroreflective Limited-** 

**Chemicalresistant, Oil-resistant** 

**Heatresistant** 

**Installation Information** 

## **Q&A** 

|Fiber Units<br>**Category**<br>PE|**Question**<br>How do I interpret the optical axis diameter in<br>the Fiber Unit specifications?<br>PE|**Answer**<br>The optical axis diameter is the beam size that the<br>Through-beam Fiber Unit uses for detection.<br>If you are detecting objects larger than the optical axis<br>diameter, you can expect stable detection performance<br>because the object will block all of the beams of light that are<br>used for detection.<br>The incident level may fluctuate, however, if the workpiece<br>passes the beam at high speed.<br>In this case, it is best to select a Fiber Unit with a smaller<br>optical axis diameter, or change the response time of the Fiber<br>Amplifier Unit to High-speed mode or to Super-high-speed<br>mode setting.<br>Beam spread<br>of 60°<br>Optical<br>axis<br>diameter|
|---|---|---|
||Are there any differences between the Fiber<br>Units that are used for emitter and receiver?|With Through-beam Fiber Units, there is no difference between<br>emitter fibers and receiver fibers.<br>With Reflective Fiber Units, the emitter fibers and receiver<br>fibers are different on Coaxial Reflective Models.<br>Emitter fiber cables have identification marks. Refer to the<br>individual dimensions diagrams of Fiber Units for details.|
||What size must the hole be to mount a<br>Threaded or Cylindrical Fiber Unit?|Refer to the recommended mounting hole dimensions given<br>on pages 58 to 61.|
||Are Fiber Cables available in different lengths?<br>~~ee~~|Some models are available with either 5-m or 10-m cable.<br>Ask your OMRON representative for details.<br>~~ee~~|
||What is the aperture angle?<br>~~ee~~|The aperture angle is the angle at which the emitter beam<br>spreads out.<br>Aperture angle<br>~~ee~~|
||Are these Fiber Units CE certified?<br>~~ee~~|Fiber Units do not have any electrical components and<br>therefore are exempt from CE certification.<br>~~ee~~|
||Can these Fiber Units be used in<br>explosionproof areas?|Explosion-proof certification has not been obtained.<br>Depending on the country in which the Fiber Units are used<br>and how they are used, certification may be required.<br>Check the relevant laws and regulations before use.|
||What the Fiber Units with built-in lenses?|These highly recommended Fiber Units have built-in lenses<br>that achieve stable detection with high-power beams.|
|Fiber Amplifier<br>Units|Can the Fiber Amplifier Units be linked with<br>other models?|The E3X-HD Series can be connected only with the<br>E3X-DA-S and MDA Series. (E3X-DA@-S Series in this<br>catalog have been discontinued at the end of March 2017 and<br>end of March 2019. E3X-MDA Series will be accepted until<br>the end of August 2021.)|
||Can the Fiber Amplifier Unit be operated from a<br>mobile console?|Mobile consoles cannot be used with either the E3NX-FA<br>Series or the E3X-HD Series.|
||Can a Sensor Communications Unit be used?|If you use E3NX-FA0 Amplifier Units, you can use the<br>E3NW-ECT(EtherCAT), E3NW-CRT(CompoNet) or E3NW-CCL<br>(CC-Link).<br>If you use E3X-HD0 Amplifier Units, you can use the E3X-CRT<br>(CompoNet) or E3X-ECT (EtherCAT).|



**Threaded** 

**Cylindrical** 

**Flat** 

**Sleeved** 

**Small Spot** 

**BGS** 

**Bending** 

**Area Detection** 

**Liquid-level** 

**Vacuum FPD, Semi, Solar** 

**93** 

**Safety Precautions** 

**94** 

**Threaded Cylindrical Flat Sleeved** : ~~—~~ **Small Spot High Power Narrow view BGS** 

**Retroreflective Limitedreflective Chemicalresistant, Oil-resistant Bending Heatresistant Area Detection Liquid-level Vacuum FPD, Semi, Solar Installation Information** > 

For common precautions, refer to www.ia.omron.com 

## **Fiber Amplifier Unit** 

## **Warning** 

**This product is not designed or rated for ensuring safety of persons either directly or indirectly. Do not use it for such purposes.** 

**Do not use the product with voltage in excess of the rated voltage. Excess voltage may result in malfunction or fire.** 

**Never use the product with AC power supply. Otherwise, explosion may result.** 

## **Precautions for Safe Use** 

The following precautions must be observed to ensure safe operation of the product. Doing so may cause damage or fire. 

- (1) Do not install the product in the following locations. 

- Locations subject to direct sunlight 

- Locations subject to condensation due to high humidity 

- Locations subject to corrosive gas 

- Locations subject to vibration or mechanical shocks exceeding the rated values 

- Locations subject to exposure to water, oil, chemicals 

- Locations subject to stream 

- Locations subjected to strong magnetic field or electric field 

- (2) Do not use the product in environments subject to flammable or explosive gases. 

- (3) Do not use the product in any atmosphere or environment that exceeds the ratings. 

- (4) To secure the safety of operation and maintenance, do not install the product close to high-voltage devices and power devices. 

- (5) High-Voltage lines and power lines must be wired separately from this product. Wiring them together or placing them in the same duct may cause induction, resulting in malfunction or damage. 

- (6) Do not apply load exceeding the ratings. Otherwise, damage or fire may result. 

- (7) Do not short the load. Otherwise, damage or fire may result. 

- (8) Connect the load correctly. 

- (9) Do not miswire such as the polarity of the power supply. 

- (10) To use this device as connecting with each other, be sure to connect with the same power supply and turn ON the power simultaneously. Using a separate power supply will influence the functions when connecting the devices to use them. 

- (11) Do not use the product if the case is damaged. 

- (12) Burn injury may occur. The product surface temperature rises depending on application conditions, such as the ambient temperature and the power supply voltage. Attention must be paid during operation or cleaning. 

- (13) When setting the Sensor, be sure to check safety, such as by stopping the equipment. 

- (14) Be sure to turn off the power supply before connecting or disconnecting wires. 

- (15) Do not attempt to disassemble, repair, or modify the product Unit in any way. 

- (16) When disposing of the product, treat it as industrial waste. 

## **Precautions for Correct Use** 

- (1) Be sure to mount the unit to the DIN track until it clicks. 

- (2) When using Amplifier Units with Wire-saving Connectors, attach the protective stickers (provided with E3X-CN-series Connectors) on the unused power pins to prevent electrical shock and short circuiting. When using Amplifier Units with Connectors for Communications Units, attach the protective caps (provided with Sensor Communications Unit). 

**Amplifier Unit with Amplifier Unit with Connector Wire-saving Connector for Communications Unit** 

Protective Sticker Power Supply Protective Cap Connecting Terminal ca Ue yE 

(3) <E3NX-FA series> 

The length for the cable extension must be 30 m or less (or less than 10 m for S-mark certified models). 

Be sure to use a cable of at least 0.3 mm[2] for extension. 

The power voltage must be 24 to 30 V when connecting amplifier units with extension cable and wire-saving connector. <E3X-HD series> 

The length for the cable extension must be 100 m or less. Be sure to use a cable of at least 0.3 mm[2] for extension. 

- (4) Do not apply the forces on the cord exceeding the following limits: Pull: 40N; torque: 0.1N·m; pressure: 20N; bending: 29.4N 

- (5) Do not apply excessive force such as tension, compression or torsion to the Amplifier Unit with the Fiber Unit fixed to the Amplifier Unit. 

- (6) Always keep the protective cover in place when using the Amplifier Unit. Not doing so may cause malfunction. 

- (7) It may take time until the received light intensity and measured value become stable immediately after the power is turned on depending on use environment. 

- (8) The product is ready to operate 200 ms after the power supply is turned ON. 

- (9) The Mobile Console E3X-MC11, E3X-MC11-SV2 and E3X-MC11-S cannot be connected. 

- (10) Mutual interference prevention on the E3NX-FA Series does not function among the E3X-HD, E3X-DA-S, E3X-DA-N, E3X-SD, or E3X-NA Fiber Amplifier Units. 

   - Mutual interference prevention on the E3X-HD Series does not function among the E3NX-FA, E3X-DA-N, E3X-SD, or E3X-NA Fiber Amplifier Units. 

Mutual interference prevention on the E3X-HD Series does function among the E3X-DA-S and E3X-MDA Fiber Amplifier Units. 

   - (11) If the unit receives excessive sensor light, the mutual interference prevention function may not work properly, resulting in malfunction of the unit. In such case, increase the threshold. 

   - (12) The E3NW-ECT Sensor Communications Unit can be used with the E3NX-FA0, but the E3X-DRT21-S, E3X-CRT, and E3X-ECT Sensor Communications Units cannot be used. The E3X-CRT and E3X-ECT Sensor Communications Unit can be used with the E3X-HD0, but the E3X-DRT21-S and E3NW-ECT Sensor Communications Units cannot be used. 

   - (13) If you notice an abnormal condition such as a strange odor, extreme heating of the unit, or smoke immediately stop using the product, turn off the power, and consult your dealer. 

   - (14) Do not use thinner, benzine, acetone, and lamp oil for cleaning. 

- (17) Do not use the Sensor in water, rain, or outdoors. 

**94** 

**Safety Precautions** 

**95** 

**Threaded** 

**Flat** 

**High Power Narrow view BGS Retroreflective Limitedreflective Chemicalresistant, Oil-resistant Bending Heatresistant Area Detection Liquid-level Vacuum FPD, Semi, Solar** | **Installation Information** 

## **Mounting the Fiber Amplifier Units** 

## **Mounting on DIN Track** 

**1.** Let the hook on the Amplifier Unit's Fiber Unit connection side catch the track and push the unit until it clicks. 

Fiber Unit Connection Side Hook 

## **Removing from DIN Track** 

**==> picture [47 x 7] intentionally omitted <==**

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2 1<br>**----- End of picture text -----**<br>


**1.** Push the unit in the direction 1. 

**2.** Lift it up in the direction 2. Refer to “I/O Circuit Diagrams” or 

ey check the side of the unit for wire color and role indications. 

## **Mounting Amplifier Units in Group (Wire-saving Connector Type Models)** 

**1.** Mount the Fiber Amplifier units one at a time onto the DIN track K <8 **2** and push them until they click. 

**2.** Slide the Fiber Amplifier units in the direction 2. 

**3.** Use End Plates (PFP-M: separately sold) at the both ends of the grouped Fiber Amplifier units to i prevent them from separating due **3 4** to vibration or other cause. 

**4.** Tighten the screw on the End Plates using a driver. Tighten the screw while pressing the End Plate. 

   - Under environments such as vibration, use an end plates even with a single Fiber Amplifier Unit. 

   - The maximum numbers of connectable Amplifier Units are given in the following table. 

|||**number of mutual**<br>**interference**<br>**Maximum**<br>**number of**<br>**interconnected**|**Maximum**<br>**number of mutual**<br>**interference**<br>**prevention**|
|---|---|---|---|
|**E3NX-FA series***||30|10|
|**E3X-HD series standard models***<br>**(E3X-HD11/HD41/HD6/HD8)**||16|10|
|**E3X-HD0**|**With E3X-ECT**|30|10|
||**With E3X-CRT**|16|10|



- If Units are to be connected, the ambient temperature will change with the number of Units that are connected. Check the Ratings and Characteristics specifications. 

- Always turn OFF the power before connecting or disconnecting Units. 

- The mutual interference prevention function cannot be used 

- if the detection mode is set to super-high-speed mode (SHS). 

## **Mounting Fiber Units** 

## **Use Fiber Cutter** 

Cut a thin fiber as follows. 

For standard fibers, insert to the desired cutting position and cut. 

**==> picture [228 x 214] intentionally omitted <==**

**----- Start of picture text -----**<br>
The fiber is  Thin Fiber Attachment<br>(1) shipped looselytightened as shown in the a 1 1.7 mm (E39-F9) f Loosely tighten.<br>figure at the 25 mm 10 m m<br>right<br>Adjust the fiber<br>to the desired<br>(2)<br>length and fully<br>___=<br>tighten.<br>Fiber Cutter<br>Insert the Fiber E39-F4<br>(3) Unit into E39-F4<br>and cut it. Thin-diameter<br>sy Fiber Unit Hole × 2<br>Standard Fiber<br>Unit Hole<br>(dia. 2.2 mm) × 3<br>About 0.5 mm<br>Finished state.<br>(4) Insertion direction<br>(Correctly cut end)<br>Note: The insertion direction into the Fiber<br>Amplifier Unit is shown in the above figure. =<br>**----- End of picture text -----**<br>


## **Mount Fiber Unit** 

**1.** Open the protective cover. 

- Lock Lever Lock 

- **2.** Raise the lock lever. **4** Release ProtectiveCover **2 1** 

- **3.** Insert the Fiber Unit in the ~~BP Ss~~ 

- fiber unit hole to the bottom. **3** 

- **4.** Return the lock lever to the Fiber Unit 

- original position and fix the Fiber Unit. • When mounting a coaxial reflective Fiber Unit, insert Single Core Multi Core 

- Q the single-core Fiber Unit =p Me ( to the upper hole (Emitter side) and the multi-core Fiber Unit to the lower hole (Receiver side). The cables for the Single-core Fiber Units (Emitters) have identification marks. Refer to the dimensions diagrams for details. 

- • When removing the Fiber Unit, follow the above steps in reverse order. To maintain the characteristics of the Fiber Unit, make sure the 

- CHECK! lock is released before removing the Fiber Unit. :::) lee ; 

   - Fiber Unit to the lower hole (Receiver side). The cables for the Single-core Fiber Units (Emitters) have identification marks. Refer to the dimensions diagrams for details. 

**Cylindrical** 

**Sleeved** 

**Small Spot** 

**High Power** 

**Liquid-level** 

**95** 

**Safety Precautions** 

**96** 

**Fiber Units Warning** ~~——————~~ **This product is not designed or rated for ensuring safety of persons either directly or indirectly. Do not use it for such purposes. Precautions for Correct Use** Do not use the Fiber Unit in atmospheres or environments that **Threaded** exceed product ratings. • **[Mounting] Cylindrical** 2 **Tightening Force** Refer to pages 58 to 61 for the tightening torque to apply when **Flat** mounting a Fiber Unit. **Sleeved <Threaded Models> <Cylindrical Models>** Set screw Mounting Toothed washer (flat head or sunken head) panel (M3 max.) **Small Spot** Use a proper-sized wrench for the nut. **High Power** Nuts + ~~5~~ (Provided.) **Narrow view <Chemical and Oil-resistant Models> BGS** The following method is recommended for mounting Fiber Units with fluororesin-covered sensing heads (E32-T F and E32-D F) to **Retro-** prevent from cracking the fluororesin case. **reflective** If you use a set screw to secure the Fiber Unit, tighten it with care **Limited-** to prevent from cracking the case. **reflective Chemical-** Sensing head of Fiber Unit **resistant, Oil-resistant Bending Heatresistant Connections Area** •  Do not subject the Fiber Unit to excessive force, such as tensionDo not subject the Fiber Unit to excessive force, such as tension **Detection** or compression. Refer to pages 58 to 61 for tensile strengths. **Liquid-level** •  Make sure any bend in the Fiber Unit is larger than the allowableMake sure any bend in the Fiber Unit is larger than the allowable bending radius. **Vacuum** Refer to pages 58 to 61 for bending radius ratings and length of unbendable sections at the base of the Fiber Unit. sections at the base of the Fiber Unit. **FPD,** •  Do not compress or place heavy loads on the fibers. **Semi, Solar** Fiber Units Nylon wireholder **Installation Information** Ss •  The method shown below is an effective way to prevent the Fiber Unit from breaking due to vibration. Forming one-turn loop will reduce vibration Tape » 

## **Sleeve Bender (E39-F11)** 

Do not use the Fiber Unit in atmospheres or environments that exceed product ratings. 

Refer to pages 58 to 61 for the tightening torque to apply when mounting a Fiber Unit. 

- The bending radius of the stainless steel tube should be as large as possible. The smaller the bending radius is, the shorter the sensing distance will be. 1.2 mm dia. max. 

•  Insert the tip of the stainless 1.3 mm dia.min. R10 mm steel tube in the Sleeve Bender R12.5 mm and slowly bend the tube R7.5 mm R5 mm along the curve of the Sleeve Fiber tip Bender. position mark Stainless steel tube 90° max. ~~1~~ 0 m ~~m~~ 10 mm Do not bend here. ~~_-®~~ 

**Heat-resistant Fiber Units (E32-D51(R) and E32-T51(R))** The fibers of these Units cannot be extended using the E39-F10 Fiber Connector. 

## **E32-T14** 

These Units may enter the light-ON state if there are reflective objects at the end of the lenses. 

If reflection is a problem, attach the black stickers provided to the ends of the lenses. 

## **E32-T16PR** 

The following method is recommended for mounting Fiber Units with fluororesin-covered sensing heads (E32-T F and E32-D F) to prevent from cracking the fluororesin case. 

If you use a set screw to secure the Fiber Unit, tighten it with care to prevent from cracking the case. 

**==> picture [32 x 6] intentionally omitted <==**

**----- Start of picture text -----**<br>
Sensing head<br>**----- End of picture text -----**<br>


**==> picture [28 x 5] intentionally omitted <==**

**----- Start of picture text -----**<br>
Provided slit<br>**----- End of picture text -----**<br>


To use the provided slit, peel off the backing sheet, align the slit with the edges of the sensing surface, and attach it to the sensing head. Use the slit in applications where saturation occurs (i.e., changes in incident level cannot be detected) due to short sensing distances. 

## **Vacuum-resistant Fiber Units (E32-    V)** 

Although the Flanges, the Fiber Units on the vacuum side, and the Lens Units have been cleaned, as an extra precaution, clean these with alcohol before using them in high-vacuum environments to ensure that they are properly degreased. 

## **Liquid-level Detection Fiber Unit (E32-D82F1)** 

- Do not subject the Fiber Unit to excessive force, such as tensionDo not subject the Fiber Unit to excessive force, such as tension or compression. 

- Make sure any bend in the Fiber Unit is larger than the allowableMake sure any bend in the Fiber Unit is larger than the allowable bending radius. 

- Refer to pages 58 to 61 for bending radius ratings and length of unbendable sections at the base of the Fiber Unit. sections at the base of the Fiber Unit. 

- Secure the Fiber Unit using the unbendable section. Otherwise, the liquid-level detection position may be displaced. 

## **Liquid-level Detection Fiber Units (Tube-mounting Models)** 

   - Make sure that the tube is not deformed when using a band to secure the Fiber Unit. 

- The method shown below is an effective way to prevent the Fiber Unit from breaking due to vibration. 

**96** 

**Safety Precautions** 

**97** 

**Threaded** 

**Threaded Cylindrical** : ———— **Flat Sleeved Small Spot** S ~~E~~ **High Power** a **Narrow view BGS Retroreflective Limitedreflective** , **Chemicalresistant, Oil-resistant Bending Heatresistant** 

**Area Detection Liquid-level Vacuum FPD, Semi, Solar** 

## **•[ Adjustment]** 

## **Detection Position for Liquid-level Detection Fiber Unit** 

## **(E32-D82F1)** 

The liquid-level detection position is 5.2 ±2 mm from the end of the Liquid-level detection position fluororesin section. (Refer to the 5.2 ±2 mm diagram on the right.) (from the end of the fluororesin section) The liquid-level detection position varies with the surface tension of the liquid and the degree of wetness at the Fiber Unit’s detection position. 

## **•[ Other Precautions]** 

## **Liquid-level Detection Fiber Unit (E32-D82F1)** 

- Operation may become unstable in the following cases: 

1. Bubbles stick to the cone of the sensing head. 

2. Solute deposits on the cone of the sensing head. 

3. The liquid has a high viscosity. 

- There are some liquids, such as milky white liquids, for which detection is not possible. 

- Do not let the end of the fluororesin section bump into other objects. 

- Damage to or deformation of the sensing head may cause unstable operation. 

- The product shall be used in the following conditions. 

- Ambient pressure: -50 to +500 kPa 

- To use one-point teach mode (without object) 

- Please carry out teaching where the detecting head is sunk into liquid. The sensitivity is set to 10% upper to the incident level in the liquid. This setting method is effective in high degree of viscosity, because it becomes stable to the fluctuation of incident level when the liquid drops from the tip. 

- To use two-point teach mode (with/without object) 

- Please teach where the detecting head is pulled up from liquid 

- and next teach where it is sunk into liquid. This setting method is effective to a liquid which is easy to bubble at high temperature. 

- Don't use maximum sensitivity mode because a liquid may be undetectable. 

## **Chemical and Oil-resistant, Liquid-level Detection Fiber Unit (E32-D82F1)** 

Fluororesin shows strong chemical-resistant properties but is permeable if exposed to atmospheres with gaseous chemicals or water vapors, resulting in failure or damage. Confirm applicability sufficiently before using the Fiber Unit in these environments. 

## **Accessories** 

## **Use of E39-R3 Reflector Provided with E32-R21** 

1. Use detergent to remove any dust or oil from the surfaces where tape is applied. Adhesive tape will not be attached properly if oil or dust remains on the surface. 

2. The E39-R3 cannot be used in areas that are exposed to oil or chemicals. 

**Mounting method of Disconnection-resistant Protective Spiral Tubes (E39-F32** @ **)** 

- 1.Insert the Fiber Unit into the Protective Spiral Tube from the head connector (threaded). Protective Fiber Unit Spiral Tube 

- 2. Push the fiber into the Protective 7X Spiral Tube. The tube must be straight so that the fiber enters Protective Spiral Tube Fiber Unit without twisting. Turn the Protective Spiral Tube, not the fiber. 

3. Secure the Protective Spiral Tube to the mounting panel with the Mounting panel ~~\~~ Hexagonal nuts S **Small Spot** ~~E~~ provided nuts. **High Power** 

JW Fiber Unit a 

Protective Toothed washers **Narrow** Spiral Tube **view** 

4. Use the provided saddle to secure Saddle **BGS** 

the end cap of the Protective Spiral Tube Tube. 

(To secure the Protective Spiral **Retroreflective** 

Tube at a position other than the End cap end cap, apply tape to the tube so **Limitedreflective** 

that the portion becomes thicker in , diameter.) **Chemical-** 

## **Attaching the E39-F10 Fiber Connector** 

Attach the Fiber Connecter as shown in the following figures. 

1. Insert the Fiber Unit in the retention clip. 

2. Insert the retention clip into the splice. 

**==> picture [205 x 78] intentionally omitted <==**

**----- Start of picture text -----**<br>
1 2<br>Splice Fiber Unit<br>Fiber Unit<br>Retention clip<br>Retention clip<br>/ /~<br>Fiber Unit Fiber Unit<br>**----- End of picture text -----**<br>


- The Fiber Units should be as close as possible when they are connected. 

- The sensing distance is reduced by approximately 25% when Fiber Units are extended by the connector. 

**Installation Information** 

- Only 2.2-mm-diameter fibers can be connected. 

**97** 

**New Product Information (New Products: Indicated by        in the following table.)** 

**Vacuum FPD, Semi, Solar Installation Information** ~~a~~ _ 

**98 Threaded Cylindrical Flat Sleeved** / **Small Spot High Power Narrow view view BGS Retroreflective** ~~—~~ **Limitedreflective Chemicalresistant,Oil-resistant Oil-resistant Bending Heatresistant Area Detection** ~~a~~ **Liquid-level Vacuum** 

- You can easily mount these Fiber Units by making a hole in the bracket and tightening just one nut. 

•  The cable follows the wall, so extra space is not required, and the cable will not get caught on other objects. 

**==> picture [180 x 59] intentionally omitted <==**

**----- Start of picture text -----**<br>
Cable remains<br>out of the way.<br>Yi I ~<br>Tightened Tighten nut<br>with two nuts. at only one place.<br>**----- End of picture text -----**<br>


- 

A Fiber Unit with Build-in Lens is the new standard in fiber units. We recommend this new standard Fiber Unit that achieves stable detection with a high-power beam. 

You don’ t have to worry about the lens falling off and getting lost. Through-beam Flat Fiber Units are also available. (→ 14 page) 

## **Specifications** 

## **Through-beam Fiber Units** 

**==> picture [531 x 319] intentionally omitted <==**

**----- Start of picture text -----**<br>
|||||||||||||||||||||
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
|Small Spot|Sensing distance (mm)|Optical axis|
|Aperture|Bending|diameter|99 Page|
|angle|Size|Appearance (mm)|radius|E3X-HD|E3NX-FA|(minimum|Models|Dimensions|
|High Power|of cable|sensing|No.|
|GIGA|HS|Other modes|GIGA|HS|Other modes|object)|
|Narrow view|Approx.15°|14.4|M4|Flexible,R2|2,3004,000*|ST  :SHS:|3,500920|3,4504,000*|ST  :SHS:|4,000920*|0.03 dia.)(0.1 dia./2.3 dia.|E32|-|LT11N 2M|99|-|A|
|M4|Buildinf|Ro|[||IP50|NEW|
|BGS|
|Approx.|14.7|Flexible,|2,000|ST  :|1,000|3,000|ST  :|1,500|(5 μm dia./1 dia.|E32|-|T11N 2M|99|-|B|
|Retro-|60°|M4|R1|700|SHS:|280|1,050|SHS:|280|2 μm dia.)|
|reflective|[||IP67|
|—|
|Limited-|Reflective Fiber Units|
|reflective|
|Sensing distance (mm)|Optical axis|
|Chemical-|Aperture|Bending|diameter|99 Page|
|resistant,Oil-resistant|angle|Size|Appearance (mm)|of cableradius|E3X-HD|E3NX-FA|(minimum sensing|Models|DimensionsNo.|
|GIGA|HS|Other modes|GIGA|HS|Other modes|object)|
|Bending|15.8|
|Heat-|Approx.15°|M6|a|M6|240|840|ST  :SHS:|350100|360|1,260|ST  :SHS:|520100|0.03 dia.)(0.1 dia./|E32|-|LD11N 2M|99|-|C|
|resistant|Buildin|[||IP50|——|
|a=|Coaxial|18.5|290|ST  :|130|440|ST  :|190|
|Area|M3|a|Flexible,|E32|-|C21N 2M|99|-|D|
|a|Detection|M3|[||IP67|R2|90|SHS:|39|130|SHS:|39|(5 μm dia./|NEW|
|13.5|2 μm dia.)|
|Liquid-level|Approx.|M4|840|ST  :|350|1,260|ST  :|520|E32|-|D21N 2M|99|-|E|
|60°|—|M4|a|[||IP67|240|SHS:|100|360|SHS:|100|NEW|
|Vacuum|Coaxial|24|
|FPD,|M6|é|Flexible,R4|780|ST  :|350|1,170|ST  :|520|(5 μm dia./2 μm dia.)|E32|-|C91N 2M|99|-|F|
|Semi,|M6|IP67|220|SHS:|100|340|SHS:|100|—|
|Solar|[||NEW|

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


## **Retro-reflective Fiber Units (With M.S.R. Function)** 

**==> picture [477 x 93] intentionally omitted <==**

**----- Start of picture text -----**<br>
||||||||||||||||||||||
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
|Sensing distance (mm)|Optical axis|
|Aperture|Size|Appearance (mm)|Bendingradius|E3X-HD|E3NX-FA|(minimum diameter|Models|Dimensions99 Page|
|angle|of cable|sensing|No.|
|GIGA|HS|Other modes|GIGA|HS|Other modes|object)|
|44|
|8.5|=!|1,350|2,020|
|Approx.15°|M6|15.8|Al|M6|80|Flexible,R2|1,000|ST  :SHS:|1,200550|1,500|ST  :SHS:|1,800550|E32E39|||--|LR11NP 2MRP1+|&|99|-|G|
|NEW|
|Buildin|[||IP50|

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


- The optical fiber is 2 m long on each side, so the sensing distance is 4,000 mm. 

- **Note 1.** The following mode names and response times apply to the modes given in the Sensing distance column. 

   - [E3X-HD] GIGA: Giga-power mode (16 ms), HS: High-speed mode (250 μs), ST: Standard mode (1 ms), and SHS: Super-high-speed mode (NPN output: 50 μs, PNP output: 55 μs) 

   - [E3NX-FA] GIGA: Giga-power mode (16 ms), HS: High-speed mode (250 μs), ST: Standard mode (1 ms), and SHS: Super-high-speed mode (30 μs) 

   **2.** The values for the minimum sensing object are reference values that indicate values obtained in standard mode with the sensing distance and sensitivity set to the optimum values. The first value is for the E3X-HD and the second value is for the E3NX-FA. 

   **3.** 

- The sensing distances for Reflective Sensors are for white paper. (The sensing distances for the E32-LD11N 2M are for glossy white paper). 

**4.** With Retro-reflective Models, objects with a high reflection factor may cause the Fiber Sensor to detect reflected light as incident light. Also, stable detection may not be possible for transparent objects. Check suitability beforehand. 

**98** 

**Standard Installation** 

**99** 

**Threaded Cylindrical** : **Flat Sleeved Small Spot** a **High Power Narrow view BGS Retroreflective Limitedreflective** : **Chemicalresistant,** ee **Oil-resistant Bending** a **Heatresistant Area Detection Liquid-level Vacuum** 

**Vacuum FPD, Semi, Solar** 

**Installation Information** 

## **Dimensions** 

Installation Information → 58, 59, 60, 61 Page 

## **Through-beam Fiber Units** 

**==> picture [445 x 374] intentionally omitted <==**

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99-A E32-LT11N 2M  (Free Cutting) 99-B E32-T11N 2M  (Free Cutting)<br>CD Cc)<br>(8.1) 2,000 8.4 dia. Model display tube 2.2 dia.<br>(45) 5.5<br>4.4<br>14.4 10 Toothed washer (Nickel-plated iron) 4.7 2,000<br>M4×0.7  Hexagonal nut Opposite side: 7, Thickness: 2.4 (Nickel-plated brass)(Trivalent chrome-plated zinc alloy) Sensing surface 14.7 10 3 M4×0.7 (45)  (Trivalent chrome-plated zinc alloy) M4 nuts (Nickel-plated brass)Washer (Nickel-plated iron)<br>— 1 dia. —— M2.6×0.45 provided (4 of each)<br>3.2 Sensing surface 2.3 dia.<br>(Methacrylate resin) Model display tube 2.2 dia.<br>—<br>— =<br>Reflective Fiber Units<br>99-C E32-LD11N 2M  (Free Cutting) 99-E E32-D21N 2M  (Free Cutting)<br>(11.5) 2,000 (8.1) (45) 2,000<br>(45) 3.5<br>C 4.8 O Cc» 13.5 10 Toothed washer (Nickel-plated iron) Fiber attachment (E39-F9W13) provided *<br>15.8 11 HexaToothed washer gonal nut Opp(osite side: 10Nickel-plated iron, Thickness: 2.4 ) (Nickel-plated brass) 3 dia. 3 Hexa M4×0.7  gonal nut O(Trivalent chrome-pposite side: 7plated zinc allo, Thickness: 2.4 y) (Nickel-plated brass)<br>M6×0.75  (Trivalent chrome-plated zinc alloy) 3.2 Model display tube 2.2 dia.<br>2.35 5 Sensing surface Two, 1.5 dia(Methacrylate resin) Model display tube 4.5<br>Sensing surface Two, 1 dia<br>10 (Methacrylate resin) Two, 1.3 dia. 4 13<br>Two, 2.2 dia. *  Applicable Fiber Amplifier Units: E3NX-FA, E3NX-CA, and E3X-HD.Use the enclosed E39-F9-7 Fiber Attachment for other models, such as the<br>99 - D E32-C21N 2M  (Free Cutting) E3X-SD, E3X-NA, and other models that have an 8-mm space between the emitter and receiver fiber insertion holes.<br>(8.1) 2,000 = 99-F E32-C91N 2M  (Free Cutting)<br>(45) 9.75<br>(5.6)<br>18.5 6 Toothed washer (Nickel-plated iron) Fiber attachment (E39-F9W13) provided * 9.75<br>12.5 Hexagonal nut Opposite side: 5.5, Thickness: 1.7 (Nickel-plated brass) 9.75<br>M3×0.5  (Trivalent chrome-plated zinc alloy) 2,000 (standard length)<br>(45)<br>0.5 dia. 6<br>2.4 emitter fibers Model display tube Two, 1.3 dia. 2.2 dia. 24 Toothed washer (nickel-plated iron)<br>7 4.5 18 3 Hexagonal nut, Opposite side:10, Thickness: 2.4 (Nickel-plated brass)<br>Nine, 0.25 dia. Sensing head,  M6 × 0.75  (Nickel-plated brass)<br>receiver fibers 4 2.5 dia.<br>13<br>Note:  There is a white line on the emitter fiber. 1 dia. emitter fiber (PMMA) Model display tube Optical fibers: Two, 2.2 dia.<br>*  Applicable Fiber Amplifier Units: E3NX-FA, E3NX-CA, and E3X-HD.<br>Use the enclosed E39-F9-7 Fiber Attachment for other models, such as the<br>E3X-SD, E3X-NA, and other models that have an 8-mm space between the emitter and receiver fiber insertion holes. r i Sixteen 0.265-dia. receiver fibers<br>Note:  There is a white line on the emitter fiber.<br>7<br>7<br>7<br>7<br>**----- End of picture text -----**<br>


## **Retro-reflective Fiber Units (With M.S.R. Function)** 

**==> picture [419 x 113] intentionally omitted <==**

**----- Start of picture text -----**<br>
99 - G E32-LR11NP 2M  (Free Cutting)  E39-RP1 44 8.5<br>3<br>(11.5) 2,000 +<br>(45)<br>4.8 0.2<br>15.8 11 Toothed washer (Nickel-plated iron)<br>Hexagonal nut Opposite side: 10, Thickness: 2.4 (Nickel-plated brass)<br>M6×0.75  (Trivalent chrome-plated zinc alloy) 80 72 63.6<br>5 Sensing surface Two, 1.5 dia<br>2.35 (optical filters) Model display tube<br>10 Material: <Reflective surface><br>  Methacrylate resin<br>Two, 2.2 dia. Two, 3.5 dia  <Back> ABS<br>**----- End of picture text -----**<br>


Two, 2.2 dia. 

## **- Reference Information for Model Selection -** ~~[~~ oT 

## **Features of Coaxial Reflective Type** 

## **Transparent Object Detection** 

These Fiber Units offer better detection of small objects at close distances (of 2 mm or less) than Standard Reflective Fiber Units. They also detect glossy surfaces more reliably than Standard Reflective Fiber Units, even if the surface is tilted. 

Retro-reflective Models are ideal for detection (of 2 mm or less) than Standard Reflective Fiber Units. of transparent objects. They also detect glossy surfaces more reliably than Standard Reflective Fiber Units, → 35 Page: Performance Comparison of even if the surface is tilted. Transparent Object Detection The receiver fibers are arranged around Emitter  Fiber Receiver Fibers ~~(6)~~ the emitter fiber as shown below. 

**What Is “Flexible” Fiber?** ~~—~~ The flexible fiber has a small bending radius for easy routing without easily breaking. It is easy to use because the cable can be bent without significantly reducing light intensity. 

**And** & **Long-distance Sensing Applications with the E32-T11N** Structure which A separate Lens Unit can be attached Cores has a cladding to extend the sensing distance. around a large Cladding number of ultrafine → 26 Page cores. 

**99** 

**Model Index** 

**==> picture [546 x 792] intentionally omitted <==**

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||||||||||||||||||||||||||||||
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
|100|Model Index|
|Selection by Model|
|Models|Specifica-tions|Dimensions|Models|Specifica-tions|Dimensions|Models|Specifica-tions|Dimensions|Models|Specifica-tions|Dimensions|
|E32|-|A||__||E32-D331 2M|[||P.18|P.19|19|-D|E32-T16JR 2M||||P.48|P.49|49|-|B|E39|-|L||||
|E32-A01 5M|P.50|P.51|51|-|A|E32-D36P1 2M|P.48|P.49|49|-|E|E32-T16PR 2M|P.48|P.49|49|-|A|E39-L143|P.91|91|-|A|
|_|||_||_||=|
|E32-A03 2M|P.30|P.31|31|-|A|E32-D36T 2M|P.50|P.51|51|-|C|E32-T16WR 2M|P.48|P.49|49|-|C|E3NW|
|P.56|P.57|57|-|A|E32-D43M 1M|-_|P.12|P.13|13|-|B|E32-T17L 10M|-_|P.24|P.25|25|-|B|E3NW-DS|P.78|P.79|79|-|B|
|E32-A03-1 2M|P.30|P.31|31|-|B|P.18|P.19|19|-C|E32-T21 2M|P.40|P.41|41|-|B|E3NW-ECT|P.78|P.79|79|-|A|
|P.56|P.57|57|-|B|E32-D51 2M|P.46|P.47|47|-|B|E32-T21-S1 2M|P.16|P.17|17|-|D|E3NX|-|FA|
|E32-A04 2M|P.30|P.31|31|-|C|E32-D51R 2M|P.46|P.47|47|-|A|E32-T223R 2M|P.10|P.11|11|-|A|E3NX-FA0|P.68|P.71|71|-|B|
|P.56|P.57|57|-|C|E32-D61-S 2M|P.46|P.47|47|-|G|E32-T22B 2M|P.10|P.11|11|-|B|E3NX-FA10 2M|P.68|P.71|71|-|B|
|E32-A08 2M|P.36|P.37|37|-|C|E32-D611-S 2M|P.46|P.47|47|-|F|P.40|P.41|41|-|A|E3NX-FA11 2M|P.66|P.70|70|-|A|
|P.54|P.55|55|-|B|E32-D73-S 2M|a|P.46|P.47|47|-|H|E32-T22S 2M|P.30|P.31|31|-|F|E3NX-FA11-5 2M|P.66|P.70|70|-|A|
|E32-A08H2 2M|P.46|P.47|47|-|D|E32-D81R-S 2M|P.46|P.47|47|-|C|E32-T24E 2M|P.16|P.17|17|-|B|E3NX-FA11AN 2M|P.68|P.70|70|-|A|
|Threaded|P.54|P.55|55|-|C|E32-D82F1 4M|7|P.50|P.51|51|-|D|E32-T24R 2M|_|P.16|P.17|17|-|A|E3NX-FA21 2M|||P.66|P.70|70|-|A|
|E32-A09 2M|P.36|P.37|37|-|F|E32-DC200BR 2M|P.18|P.19|19|-|K|E32-T24S 2M|P.30|P.31|31|-|E|E3NX-FA24|P.66|P.71|71|-|A|
|P.54|P.55|55|-|E|E32-DC200F4R 2M|_|P.18|P.19|19|-|H|P.56|P.57|57|-|E|E3NX-FA40 2M|||P.68|P.71|71|-|B|
|Cylindrical|E32-A09H2 2M|P.46|P.47|47|-|E|E32|-|G|E32-T24SR 2M|P.30|P.31|31|-|D|E3NX-FA41 2M|[||P.66|P.70|70|-|A|
|P.54|P.55|55|-|F|E32-G16 2M|P.48|P.49|49|-|D|P.56|P.57|57|-|D|E3NX-FA41AN 2M|P.68|P.70|70|-|A|
|Flat|E32-A12 2M|P.36|P.37|37|-|D|E32|-|L|E32-T25XB 2M|P.40|P.41|41|-|D|E3NX-FA51 2M|P.66|P.70|70|-|A|
|P.54|P.55|55|-|D|E32-L11FP 2M|P.38|P.39|39|-|F|E32-T33 1M|P.16|P.17|17|-|C|E3NX-FA54|P.66|P.71|71|-|A|
|Sleeved|E32|-|C|P.54|P.55|55|-|G|E32-T51 2M|P.44|P.45|45|-|B|E3NX-FA54TW|P.66|P.71|71|-|A|
|E32-C21N 2M|P.98|P.99|99|-D|E32-L11FS 2M|P.38|P.39|39|-|G|a|(P.28)|(P.29)|E3NX-FA6|P.66|P.70|70|-|B|
|(P.20, 22)|(P.21, 23)|P.54|P.55|55|-|H|E32-T51F 2M|_|P.38|P.39|39|-|E|E3NX-FA7|P.66|P.70|70|-|B|
|Small Spot|E32-C31 2M|P.08|P.09|09|-D|E32-L15 2M|||P.20|P.21|21|-|F|E32-T51R 2M|P.44|P.45|45|-|A|E3NX-FA7TW|-r|P.66|_|P.70|70|-|B|
|(P.20, 22)|(P.21, 23)|E32-L16-N 2M|P.32|P.33|33|-|A|(P.28)|(P.29)|E3NX-FA8|P.66|P.70|70|-|B|
|High Power|E32-C31M 1M|P.08|P.09|09|-|E|P.36|P.37|37|-|B|E32-T51V 1M|P.52|P.53|53|-|A|E3NX-FA9|P.66|P.70|70|-|B|
|E32-C31N 2M|P.08|P.09|09|-|A|P.54|P.55|55|-|A|E32-T61-S 2M|P.44|P.45|45|-|D|E3NX-FA9TW|P.66|P.70|70|-|B|
|——|Narrow|E32-C41 1M||||P.22|P.23|23|-|A|E32-L24S 2M|P.32|P.33|33|-|B|(P.28)|(P.29)|E3NX-FAH0||_||P.68|P.71|71|-|B|
|view|
|a|23|-|D|P.36|P.37|37|-|A|E32-T81R-S 2M|P.44|P.45|45|-|C|E3NX-FAH11 2M||||P.66|P.70|70|-|A|
|E32-C42 1M|P.20|P.21|21|-|A|E32-L25L 2M|P.32|P.33|33|-|C|(P.28)|(P.29)|E3NX-FAH41 2M|P.66|P.70|70|-|A|
|BGS|
|—|21|-|B|P.36|P.37|37|-|E|E32-T84SV 1M|_|P.52|P.53|53|-|C|E3NX-FAH6|_|P.66|P.70|70|-|B|
|E32-C42S 1M|P.20|P.21|21|-|E|E32-L25T 2M|P.50|P.51|51|-|B|E32-TC200BR 2M|P.16|P.17|17|-|E|E3NX-FAH8|P.66|P.70|70|-|B|
|Retro-|
|reflective|E32-CC200 2M||_||P.08|P.09|09|-|H|E32-LD11 2M|||P.08|P.09|09|-|I|E32|-|V|_|E3X|-|CN|_|
|||(P.22)|||(P.23)|E32-LD11N 2M|_|P.98|P.99|99|-|C|E32-VF1|_|P.52|P.53|53|-F|E3X-CN11|=|P.90|P.90|90|-|A|
|Limited-reflective|E32-C91N 2M|P.08|P.09|09|-|B|E32-LD11R 2M|P.08|P.09|09|-|I|E32-VF4|P.52|P.53|53|-E|E3X-CN12|P.90|P.90|90|-B|
|P.98|P.99|99|-|F|E32-LR11NP 2M|P.34|P.35|35|-|A|E39|-|F|E3X-CN21|P.90|P.90|90|-|A|
|Chemical-|E32|-|D|P.98|P.99|99|-|G|E39-F1|P.26, 28|P.26|26|-|A|E3X-CN22|P.90|P.90|90|-B|
|resistant,Oil-resistant|E32-D11 2M|P.42|P.43|43|-|E|E32-LT11 2M|P.06|P.07|07|-|C|E39-F1-33||||P.28|P.28|28|-|D|E3X|-|CRT|_|
|E32-D11R 2M|P.08|P.09|09|-|G|P.24|P.25|25|-|C|E39-F11|P.17|E3X-CRT|P.88|P.89|89|-|A|
|Bending|E32-D11U 2M|_|P.38|P.39|39|-|I|E32-LT11N 2M|P.24|P.25|25|-|A|E39-F16|;|P.26, 28|||P.26|—|26|-|B|E3X|-|ECT|_|
|E32-D12F 2M|P.38|P.39|39|-|H|P.98|P.99|99|-|A|E39-F17|P.20|P.21|21|-|B|E3X-ECT|P.88|P.89|89|-B|
|Heat-|
|oe|resistant|E32-D15XR 2M|-__|P.14|P.15|15|-|E|E32-LT11R 2M|P.06|P.07|07|-|C|E39-F18|_|P.22|P.23|23|-|G|E3X|-|HD|_|
|E32-D15YR 2M|P.14|P.15|15|-|F|P.24|P.25|25|-|C|23|-|H|E3X-HD0|P.82|P.83|83|-C|
|Area|E32-D15ZR 2M|_|P.14|P.15|15|-|G|E32-LT35Z 2M|_|P.14|P.15|15|-|D|E39-F1V|_|P.52|P.53|53|-|B|E3X-HD11 2M|_|P.82|P.82|82|-A|
|a|Detection|E32-D16 2M|||P.24|P.25|25|-|E|E32|-|R|E39-F2|_|P.26, 28|P.26|26|-|C|E3X-HD14|_|P.82|P.83|83|-|B|
|Liquid-level|E32-D21 2ME32-D211R 2M|=|P.42P.08|P.43P.09|4309|--F|B|E32-R16 2ME32-R21 2M|_|P.34P.34|P.35P.35|3535|--|BC|E39-F32A 1ME39-F32C 1M|_|P.42P.40|P.43P.41|4341|--|GE|E3X-HD41 2ME3X-HD44|-_|P.82P.82|P.82P.83|8382|--A|B|
|E32-D21B 2M|_|P.42|P.43|43|-|D|E32|-|T|P.42|P.43|43|-|G|E3X-HD6|a|P.82|P.83|83|-A|
|Vacuum|E32-D21N 2M|P.98|P.99|99|-|E|E32-T10V 2M|P.52|P.53|53|-|D|E39-F32D 1M|P.42|P.43|43|-|G|E3X-HD8|P.82|P.83|83|-A|
|FPD,|E32-D21R 2M|_||P.08|P.09|09|-C|E32-T11 2M||||P.40|P.41|41|-|C|E39-F3A|__|P.20|P.21|21|-|A|PFP|_|
|Semi,|E32-D21-S3 2M|P.18|P.19|19|-|J|(P.26)|(P.27)|E39-F3A-5|P.22|P.23|23|-|A|PFP-100N|P.91|91|-B|
|Solar|
|E32-D221B 2M|P.12|P.13|13|-|D|E32-T11F 2M|P.38|P.39|39|-|C|23|-|B|PFP-100N2|P.91|91|-C|
|Installation|P.42|P.43|43|-|C|E32-T11N 2M|P.06|P.07|07|-|A|23|-|C|PFP-50N|P.91|91|-B|
|SS|Information|E32-D22B 2M||]|P.12|P.13|13|-|A|(P.26)|(P.27)|E39-F3B|P.22|P.23|23|-|D|PFP-M|[—||P.91|91|-D|
|P.42|P.43|43|-|A|E32-T11NF 2M|P.38|P.39|39|-|A|23|-|E|XS3F|
|E32-D22R 2M|b—|P.12|||P.13|@o|13|-|C|E32-T11NFS 2M|||P.38|P.39|39|-|A2|23|-|F|XS3F-M421-402-A|=]||_||P.90|P.90|90|-C|
|E32-D22-S1 2M||_|P.18|P.19|19|-|I|E32-T11R 2M||||P.06|P.07|07|-|B|E39-F3C|P.20|P.21|21|-|C|XS3F-M421-405-A|_|P.90|P.90|90|-C|
|E32-D24R 2M|P.18|P.19|19|-|A|(P.24)|(P.25, 26)|21|-|D|XS3F-M422-402-A|P.90|P.90|90|-D|
|E32-D24-S2 2M|—_|P.18|P.19|19|-|B|E32-T12F 2M|P.38|P.39|39|-|B|E39|-|R|XS3F-M422-405-A|_|P.90|P.90|90|-D|
|E32-D25XB 2M||]|P.42|P.43|43|-|F|E32-T12R 2M|=|P.10|P.11|11|-|C|E39-R1|P.35|35|-|B|_|
|E32-D25-S3 2M|=|P.18|P.19|19|-|L|E32-T14 2M|-_|P.24|P.25|25|-|D|E39-R3|=|P.35|35|-|C|
|E32-D31-S1 0.5M||||P.18|P.19|19|-|G|E32-T14F 2M||||P.38|P.39|39|-D|E39-RP1|||P.34|—|||P.35|35|-|A|
|E32-D32L 2M||||P.12|P.13|13|-|E|E32-T14LR 2M||||P.10|P.11|11|-|D|P.98|P.99|99|-|G|
|E32-D32-S1 0.5M|P.18|P.19|19|-|F|E32-T15XR 2M|P.14|P.15|15|-|A|E39-RP37|P.35|
||_|||_||Fp|
|E32-D33 2M|P.12|P.13|13|-|F|E32-T15YR 2M|P.14|P.15|15|-|B|E39-RSP1|P.35|
|P.18|P.19|19|-|E|E32-T15ZR 2M|_|P.14|P.15|15|-|C|

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**100** 

**101** 

## **MEMO** 

**101** 

**102** 

## **MEMO** 

**102** 

## **Terms and Conditions Agreement** 

## **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. 

## **Warranties.** 

(a) Exclusive Warranty. Omron’s exclusive warranty is that the Products will be free from defects in materials and workmanship for a period of twelve months from the date of sale by Omron (or such other period expressed in writing by Omron). Omron disclaims all other warranties, express or implied. (b) Limitations. OMRON MAKES NO WARRANTY OR REPRESENTATION, EXPRESS OR IMPLIED, ABOUT NON-INFRINGEMENT, MERCHANTABILITY OR FITNESS FOR A PARTICULAR PURPOSE OF THE PRODUCTS. BUYER ACKNOWLEDGES THAT IT ALONE HAS DETERMINED THAT THE PRODUCTS WILL SUITABLY MEET THE REQUIREMENTS OF THEIR INTENDED USE. 

Omron further disclaims all warranties and responsibility of any type for claims or expenses based on infringement by the Products or otherwise of any intellectual property right. (c) Buyer Remedy. Omron’s sole obligation hereunder shall be, at Omron’s election, to (i) replace (in the form originally shipped with Buyer responsible for labor charges for removal or replacement thereof) the non-complying Product, (ii) repair the non-complying Product, or (iii) repay or credit Buyer an amount equal to the purchase price of the non-complying Product; provided that in no event shall Omron be responsible for warranty, repair, indemnity or any other claims or expenses 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. Return of any Products by Buyer must be approved in writing by Omron before shipment. Omron Companies shall not be liable for the suitability or unsuitability or the results from the use of Products 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. 

See http://www.omron.com/global/ or contact your Omron representative for published information. 

## **Limitation on Liability; Etc.** 

OMRON COMPANIES SHALL NOT BE LIABLE FOR SPECIAL, INDIRECT, INCIDENTAL, OR CONSEQUENTIAL DAMAGES, LOSS OF PROFITS OR PRODUCTION OR COMMERCIAL LOSS IN ANY WAY CONNECTED WITH THE PRODUCTS, WHETHER SUCH CLAIM IS BASED IN CONTRACT, WARRANTY, NEGLIGENCE OR STRICT LIABILITY. 

Further, in no event shall liability of Omron Companies exceed the individual price of the Product on which liability is asserted. 

## **Suitability of Use.** 

Omron Companies shall not be responsible for conformity with any standards, codes or regulations which apply to the combination of the Product in the Buyer’s application or use of the Product. At Buyer’s request, Omron will provide applicable third party certification documents identifying ratings and limitations of use which apply to the Product. This information by itself is not sufficient for a complete determination of the suitability of the Product in combination with the end product, machine, system, or other application or use. Buyer shall be solely responsible for determining appropriateness of the particular Product with respect to Buyer’s application, product or system. Buyer shall take application responsibility in all cases. 

NEVER USE THE PRODUCT FOR AN APPLICATION INVOLVING SERIOUS RISK TO LIFE OR PROPERTY OR IN LARGE QUANTITIES WITHOUT ENSURING THAT THE SYSTEM AS A WHOLE HAS BEEN DESIGNED TO ADDRESS THE RISKS, AND THAT THE OMRON PRODUCT(S) IS PROPERLY RATED AND INSTALLED FOR THE INTENDED USE WITHIN THE OVERALL EQUIPMENT OR SYSTEM. 

## **Programmable Products.** 

Omron Companies shall not be responsible for the user’s programming of a programmable Product, or any consequence thereof. 

## **Performance Data.** 

Data presented in Omron Company websites, catalogs and other materials 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 user must correlate it to actual application requirements. Actual performance is subject to the Omron’s Warranty and Limitations of Liability. 

## **Change in Specifications.** 

Product specifications and accessories may be changed at any time based on improvements and other reasons. It is our practice to change part numbers when published ratings or features are changed, or when significant construction changes are made. However, some specifications of the Product may be changed without any notice. When in doubt, special part numbers may be assigned to fix or establish key specifications for your application. Please consult with your Omron’s representative at any time to confirm actual specifications of purchased Product. 

## **Errors and Omissions.** 

Information presented by Omron Companies has been checked and is believed to be accurate; however, no responsibility is assumed for clerical, typographical or proofreading errors or omissions. 

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Introduction to the  The IoT platform that enables you to see,<br>N-Smart Series complete a lineup, and deliver<br>**----- End of picture text -----**<br>


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Introduction to the  The IoT platform that enables you to see,  Winner of the<br>N-Smart Series complete a lineup, and deliver —— Good Design Award<br>E3NX-CA E3NC<br>Color Fiber Amplifier Units  Smart Laser<br>E3NX-FA Stable Detection with  Cat. No.  Y216 Sensors<br>Fiber Amplifier Units the No. 1 Performance* High Color Discrimination Capability Cat. No.  E427<br>Cat. No.  E426 From Minute Workpieces to<br>4 Ss “Ua Le Long-distance Detection J<br>N-Smart Amplifier Units<br>Easy application with consistent operating procedures. E9NC-T<br>Contact-Type<br>E3NX-MA Smart Sensors<br>Smart Fiber Amplifier Units  Cat. No.  E433<br>(2-channel models)<br>Cat. No.  E466 Handles Advanced<br>Measurement Applications<br> £ Space-saving and  Presence N-Smart Detection Measurement a |<br>high performance<br>E2NC<br>Smart Proximity<br>E3NW  Sensors<br>Sensor Communications  > Applications with Many Sensors: A a Cat. No.  E473<br>More convenience and even lower costs<br>Units High-precision sensitivity<br>Cat. No.  E428 with a network. setting is easy.<br>EtherCAT.~~<br>E9NC-AA/VA<br>IoT Status Monitoring Amplifiers<br>Cat. No.  E474<br>CCink A © <a f<br>Various condition-monitoring<br>sensors are connected.<br>**----- End of picture text -----**<br>


* For performance (sensing distance and minimum sensing object) based on November 2017 OMRON investigation. 

## | **NEW Introducing New Fiber Sensor Products** 

**Oil resistant types E32-T11NF** @ = **38 Page** Build- 

**E3NX-FA Series** Smart Fiber Amplifier Units **62 Page** + **E3NX-FA** Addition of Infrared models, Analog output Co) **Cat. No.** E426 models and Communications models with wired outputs. a omron 

Oil-resistant Fiber Units **E32-T11NF** @ **(http://www.ia.omron.com/)** 

**EtherCAT® is a registered trademark and patented technology, licensed by Beckhoff Automation GmbH, Germany. CompoNet is a registered trademark of the ODVA.** 

**CC-Link is a registered trademark of Mitsubishi Electric Corporation. The trademark is managed by the CC-Link Partner Association.** 

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OMRON Corporation      Industrial Automation Company<br>Kyoto, JAPAN<br> Contact:  www.ia.omron.com<br>**----- End of picture text -----**<br>


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Authorized Distributor:<br>**----- End of picture text -----**<br>


_**Regional Headquarters**_ **OMRON EUROPE B.V. OMRON ELECTRONICS LLC Sensor Business Unit** 2895 Greenspoint Parkway, Suite 200 Carl-Benz-Str. 4, D-71154 Nufringen, Germany Hoffman Estates, IL 60169 U.S.A. Tel: (49) 7032-811-0/Fax: (49) 7032-811-199 Tel: (1) 847-843-7900/Fax: (1) 847-843-7787 © OMRON Corporation 2012-2021  All Rights Reserved. **OMRON ASIA PACIFIC PTE. LTD. OMRON (CHINA) CO., LTD.** In the interest of product improvement, No. 438A Alexandra Road # 05-05/08 (Lobby 2), Room 2211, Bank of China Tower, specifications are subject to change without notice. Alexandra Technopark, 200 Yin Cheng Zhong Road, Singapore 119967 PuDong New Area, Shanghai, 200120, China **CSM_17_12** Tel: (65) 6835-3011/Fax: (65) 6835-2711 Tel: (86) 21-5037-2222/Fax: (86) 21-5037-2200 **Cat. No. E418-E1-12** 0721 (0212)