Omron sensors. E3NX-FA.

Smart Fiber Amplifier Units
E3NX-FA

The Advanced Fiber Amplifier Units That Handles On-site Needs

Fiber Amplifier Units

Type Connecting
method
Appearance Inputs/outputs Model
NPN output PNP output
Standard models Pre-wired (2 m) 3161_lu_1_1 1 output E3NX-FA11 2M E3NX-FA41 2M
Wire-saving Connector 3161_lu_1_2 1 output E3NX-FA6 E3NX-FA8
Advanced models Pre-wired (2 m) 3161_lu_1_3 2 outputs + 1 input E3NX-FA21 2M E3NX-FA51 2M
Wire-saving Connector 3161_lu_1_4 1 output + 1 input E3NX-FA7 E3NX-FA9
2 outputs E3NX-FA7TW E3NX-FA9TW
M8 Connector 3161_lu_1_5 1 output + 1 input E3NX-FA24 E3NX-FA54
2 outputs --- E3NX-FA54TW
Model for Sensor
Communications
Unit *
Connector for Sensor
Communications Unit
3161_lu_1_6 --- E3NX-FA0
* A Sensor Communications Unit is required if you want to use the Fiber Amplifier Unit on a network.

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 are provided.

Type
Appearance Cable
length
No. of
conductors
Model Applicable Fiber Amplifier Units
Master Connector 3161_lu_2_1 2 m 4 E3X-CN21 E3NX-FA7
E3NX-FA7TW
E3NX-FA9
E3NX-FA9TW
Slave Connector 3161_lu_2_2 2 E3X-CN22
Master Connector 3161_lu_2_3 3 E3X-CN11 E3NX-FA6
E3NX-FA8
Slave Connector 3161_lu_2_4 1 E3X-CN12

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

Connectors are not provided with the Fiber Amplifier Unit and must be ordered separately.

Size
Cable Appearance Cable type Model
M8 Standard cable Straight 3161_lu_3_1 2m 4-wire XS3F-M421-402-A
5m XS3F-M421-405-A
L-shaped 3161_lu_3_2 2m XS3F-M422-402-A
5m XS3F-M422-405-A

Mounting Bracket

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

Appearance
Model Quantity
3161_lu_4_1 E39-L143 1

DIN Track

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

Appearance
Type Model Quantity
3161_lu_5_1 Shallow type, total length: 1 m PFP-100N 1
Shallow type, total length: 0.5 m PFP-50N
Deep type, total length: 1 m PFP-100N2

End Plate

Two End Plates are provided with the Sensor Communications Unit.
End Plates are not provided with the Fiber Amplifier Unit. They must be ordered separately as required.

Appearance
Model Quantity
3161_lu_6_1 PFP-M 1

Cover

Attach these Covers to Amplifier Units.
Order a Cover when required, e.g., if you lose the covers.

Appearance
Model Quantity
3161_lu_8_1 E39-G25 FOR E3NX-FA 1

Related Products

Sensor Communications Units

Type Appearance Model
Sensor Communications Unit for EtherCAT 3161_lu_7_1 E3NW-ECT
Sensor Communications Unit for CompoNet 3161_lu_7_2 E3NW-CRT
Sensor Communications Unit for CC-Link 3161_lu_7_3 E3NW-CCL
Distributed Sensor Unit * 3161_lu_7_4 E3NW-DS
Refer to your OMRON website for details.
* The Distributed Sensor Unit can be connected to any of the Sensor Communications Units.
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.

Type
Standard models
NPN output E3NX-FA11 E3NX-FA6
PNP output E3NX-FA41 E3NX-FA8
Connecting method Pre-wired Wire-saving Connector
Inputs/
outputs
Outputs 1 output
External inputs ---
Light source (wavelength) Red, 4-element LED (625 nm)
Power supply voltage 10 to 30 VDC, including 10% ripple (p-p)
Power consumption *2 At Power supply voltage of 24 VDC
Standard Models:
Normal mode: 840 mW max. (Current consumption at 35 mA max.)
Eco function ON: 650 mW max. (Current consumption at 27 mA max.)
Eco function LO: 750 mW max. (Current consumption at 31 mA max.)

Advanced Models or Model for Sensor Communications Unit:
Normal mode: 920 mW max. (Current consumption at 38 mA max.)
Eco function ON: 680 mW max. (Current consumption at 28 mA max.)
Eco function LO: 800 mW max. (Current consumption at 33 mA max.)
Control output Load power supply voltage: 30 VDC max., open-collector output
Load current: Groups of 1 to 3 Amplifier Units: 100 mA max., Groups of 4
to 30 Amplifier Units: 20 mA max.
(Residual voltage:
At load current of less than 10 mA: 1 V max.
At load current of 10 to 100 mA: 2 V max.)
OFF current: 0.1 mA max.
External inputs ---
Indicators 7-segment displays (Sub digital display: green, Main digital display: white)
Display direction: Switchable between normal and reversed.
OUT indicator (orange), L/D indicator (orange), ST indicator (blue), DPC
indicator (green), and OUT selection indicator (orange, only on models
with 2 outputs)
Protection circuits Power supply reverse polarity protection, output short-circuit protection,
and output reverse polarity protection
Response
time
Super-high-speed mode
(SHS) *4
Operate or reset for model with 1 output: 30 μs, with 2 outputs: 32 μs
High-speed mode (HS) Operate or reset: 250 μs
Standard mode (Stnd) Operate or reset: 1 ms
Giga-power mode (GIGA) Operate or reset: 16 ms
Sensitivity adjustment Smart Tuning (2-point tuning, full auto tuning, position tuning, maximum
sensitivity tuning, power tuning, or percentage tuning (-99% to 99%)) or
manual adjustment
Maximum connectable Units 30
No. of
Units for
mutual
interference
prevention
Super-high-speed mode
(SHS) *4
0
High-speed mode (HS) 10
Standard mode (Stnd) 10
Giga-power mode (GIGA) 10
Functions Automatic power control
(APC)
Always enabled.
Dynamic power control
(DPC)
Provided
Timer Select from timer disabled, OFF-delay, ON-delay, one-shot, or ON-delay
+ OFF-delay timer: 1 to 9,999 ms
Zero reset Negative values can be displayed. (Threshold value is shifted.)
Resetting settings *6 Select from initial reset (factory defaults) or user reset (saved settings).
Eco mode *7 Select from OFF (digital display lit), Eco ON (digital display not lit), and
Eco LO (digital display dimmed).
Bank switching Select from banks 1 to 4.
Power tuning Select from ON or OFF.
Output 1 Select from normal detection mode or area detection mode.
Output 2 ---
External input ---
Hysteresis width Select from standard setting or user setting. For a user setting, the
hysteresis width can be set from 0 to 9,999.
Ambient illumination (Receiver side) Incandescent lamp: 20,000 lx max., Sunlight: 30,000 lx max.
Ambient temperature range ∗8 Operating:
Groups of 1 or 2 Amplifier Units: -25 to 55°C,
Groups of 3 to 10 Amplifier Units: -25 to 50°C,
Groups of 11 to 16 Amplifier Units: -25 to 45°C,
Groups of 17 to 30 Amplifier Units: -25 to 40°C
Storage: -30 to 70°C (with no icing or condensation)
Ambient humidity range Operating and storage: 35 to 85% (with no condensation)
within the surrounding air temperature range shown above
Altitude 2,000 m max.
Installation environment Pollution degree 3 (as per IEC 60947-1)
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
Z directions
Shock resistance (destruction) 500 m/s2 for 3 times each in X, Y, and Z directions
Weight (packed state/Sensor only) Approx. 115 g/approx. 75 g Approx. 60g/approx. 20g
Materials Case Polycarbonate (PC)
Cover Polycarbonate (PC)
Cable PVC
Accessories Instruction Manual
Type Advanced models Model for
Sensor Commu-
nications Unit
NPN output E3NX-FA21 E3NX-
FA7
E3NX-
FA7TW
E3NX-
FA24
--- E3NX-FA0
PNP output E3NX-FA51 E3NX-
FA9
E3NX-
FA9TW
E3NX-
FA54
E3NX-
FA54TW
Connecting method Pre-wired Wire-saving Connector M8 Connector Connector for
Sensor Commu-
nications Unit
Inputs/
outputs
Outputs 2 outputs 1 output 2 outputs 1 output 2 outputs --- *1
External inputs 1 input 1 input --- 1 input ---
Light source (wavelength) Red, 4-element LED (625 nm)
Power supply voltage 10 to 30 VDC, including 10% ripple (p-p) Supplied from the
connector through
the Sensor
Communications
Unit
Power consumption *2 At Power supply voltage of 24 VDC
Standard Models:
Normal mode: 840 mW max. (Current consumption at 35 mA max.)
Eco function ON: 650 mW max. (Current consumption at 27 mA max.)
Eco function LO: 750 mW max. (Current consumption at 31 mA max.)

Advanced Models or Model for Sensor Communications Unit:
Normal mode: 920 mW max. (Current consumption at 38 mA max.)
Eco function ON: 680 mW max. (Current consumption at 28 mA max.)
Eco function LO: 800 mW max. (Current consumption at 33 mA max.)
Control output Load power supply voltage: 30 VDC max., open-collector output
Load current:
Groups of 1 to 3 Amplifier Units: 100 mA max.,
Groups of 4 to 30 Amplifier Units: 20 mA max.
(Residual voltage:
At load current of less than 10 mA: 1 V max.
At load current of 10 to 100 mA: 2 V max.)
OFF current: 0.1 mA max.
---
External inputs Refer to *3. --- Refer to
*3.
---
Indicators 7-segment displays (Sub digital display: green, Main digital display: white)
Display direction: Switchable between normal and reversed.
OUT indicator (orange), L/D indicator (orange), ST indicator (blue), DPC indicator
(green), and OUT selection indicator (orange, only on models with 2 outputs)
Protection circuits Power supply reverse polarity protection, output short-circuit
protection, and output reverse polarity protection
Power supply
reverse polarity
protection and
output short-
circuit protection
Response
time
Super-high-
speed mode
(SHS) *4
Operate or reset for model with 1 output: 30 μs, with 2 outputs: 32 μs
High-speed mode
(HS)
Operate or reset: 250 μs
Standard mode
(Stnd)
Operate or reset: 1 ms
Giga-power mode
(GIGA)
Operate or reset: 16 ms
Sensitivity adjustment Smart Tuning (2-point tuning, full auto tuning, position tuning, maximum sensitivity
tuning, power tuning, or percentage tuning (-99% to 99%)) or manual adjustment
Maximum connectable Units 30 With E3NW-ECT:
30 units *5
With E3NW-CRT:
16 units
With E3NW-CCL:
16 units
No. of
Units for
mutual in-
terference
prevention
Super-high-
speed mode
(SHS) *4
0
High-speed mode
(HS)
10
Standard mode
(Stnd)
10
Giga-power mode
(GIGA)
10
Functions Automatic power
control (APC)
Always enabled.
Dynamic power
control (DPC)
Provided
Timer Select from timer disabled, OFF-delay, ON-delay, one-shot, or ON-delay + OFF-delay
timer: 1 to 9,999 ms
Zero reset Negative values can be displayed. (Threshold value is shifted.)
Resetting
settings *6
Select from initial reset (factory defaults) or user reset (saved settings).
Eco mode *7 Select from OFF (digital display lit), Eco ON (digital display not lit), and Eco LO (digital
display dimmed).
Bank switching Select from banks 1 to 4.
Power tuning Select from ON or OFF.
Output 1 Select from normal detection mode or area detection mode.
Output 2 Select from
normal
detection
mode, alarm
output mode,
or error
output mode
--- Select from
normal
detection
mode, alarm
output mode,
or error
output mode
--- Select from normal detection
mode, alarm output mode, or
error output mode.
External input Select from input OFF,
tuning, power tuning,
emission OFF, zero
reset, or bank switching.
--- Select
from input
OFF,
tuning,
power
tuning,
emission
OFF, zero
reset, or
bank
switching.
---
Hysteresis width Select from standard setting or user setting. For a user setting, the hysteresis width
can be set from 0 to 9,999.
Ambient illumination
(Receiver side)
Incandescent lamp: 20,000 lx max., Sunlight: 30,000 lx max.
Ambient temperature range ∗8 Operating:
Groups of 1 or 2 Amplifier Units: -25 to 55°C,
Groups of 3 to 10 Amplifier Units: -25 to 50°C,
Groups of 11 to 16 Amplifier Units: -25 to 45°C,
Groups of 17 to 30 Amplifier Units: -25 to 40°C
Storage: -30 to 70°C (with no icing or condensation)
Operating:
Groups of 1 or 2
Amplifier Units:
0 to 55°C,
Groups of 3 to 10
Amplifier Units:
0 to 50°C,
Groups of 11 to 16
Amplifier Units:
0 to 45°C,
Groups of 17 to 30
Amplifier Units:
0 to 40°C
Storage:
-30 to 70°C
(with no icing or
condensation)
Ambient humidity range Operating and storage: 35 to 85% (with no condensation)
within the surrounding air temperature range shown above
Altitude 2,000 m max.
Installation environment Pollution degree 3 (as per IEC 60947-1)
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 Z directions
Shock resistance
(destruction)
500 m/s2 for 3 times each in X, Y, and Z directions 150 m/s2 for 3
times each in X, Y,
and Z directions
Weight
(packed state/Sensor only)
Approx. 115 g/
approx. 75 g
Approx. 60g/
approx. 20g
Approx. 65 g/approx. 25 g
Materials Case Polycarbonate (PC)
Cover Polycarbonate (PC)
Cable PVC
Accessories Instruction Manual
*1. Two sensor outputs are allocated in the programmable logic controller PLC I/O table.
PLC operation via Communications Unit enables reading detected values and changing settings.
*2. At Power supply voltage of 10 to 30 VDC
Standard Models:
Normal mode : 990 mW max. (Current consumption: 33 mA max. at 30 VDC, 65 mA max. at 10 VDC)
Eco function ON : 780 mW max. (Current consumption: 26 mA max. at 30 VDC, 42 mA max. at 10 VDC)
Eco function LO : 840 mW max. (Current consumption: 28 mA max. at 30 VDC, 45 mA max. at 10 VDC)
Advanced Models:
Normal mode : 1,020 mW max. (Current consumption: 34 mA max. at 30 VDC, 67 mA max. at 10 VDC)
Eco function ON : 810 mW max. (Current consumption: 27 mA max. at 30 VDC, 44 mA max. at 10 VDC)
Eco function LO : 870 mW max. (Current consumption: 29 mA max. at 30 VDC, 48 mA max. at 10 VDC)
*3. The following details apply to the input.
Contact input (relay or switch) Non-contact input (transistor) Input time*3-1
NPN ON: Shorted to 0 V (Sourcing current: 1 mA
max.).
OFF: Open or shorted to Vcc.
ON: 1.5 V max. (Sourcing current: 1 mA max.)
OFF: Vcc - 1.5 V to Vcc (Leakage current: 0.1
mA max.)
ON: 9 ms min.
OFF: 20 ms min.
PNP ON: Shorted to Vcc (Sinking current: 3 mA
max.).
OFF: Open or shorted to 0 V.
ON: Vcc - 1.5 V to Vcc (Sinking current: 3 mA
max.)
OFF: 1.5 V max. (Leakage current: 0.1 mA max.)
*3-1.Input time is 25 ms (ON)/(OFF) only when (in tUnE) or (in PtUn) input is selected.
*4. The mutual interference prevention function is disabled if the detection mode is set to super-high-speed mode.
*5. When connected to an OMRON NJ-series Controller.
*6. The bank is not reset by the user reset function or saved by the user save function.
*7. Eco LO is supported for Amplifier Units manufactured in July 2014 or later.
*8. When the number of connected units is 11 or more, the ambient temperature is less than 50°C.

Sensing Distances

Threaded Models

Sensing
method
Sensing
direction
Size Model Sensing distance (mm)
Giga mode Standard mode High-speed
mode
Super-high-
speed mode
Through-beam Right-angle M4 E32-T11N 2M 3,000 1,500 1,050 280
E32-LT11N 2M 4,000*1 4,000*1 3,450 920
Straight E32-T11R 2M 3,000 1,500 1,050 280
E32-LT11 2M 4,000*1 4,000*1 4,000*1 1,080
E32-LT11R 2M 4,000*1 4,000*1 3,450 920
Reflective Right-angle M3 E32-C31N 2M 160 75 69 14
E32-C21N 2M 440 190 130 39
M4 E32-D21N 2M 1,260 520 360 100
M6 E32-C11N 2M 1,170 520 480 100
E32-LD11N 2M 1,260 520 360 100
Straight M3 E32-D21R 2M 210 90 60 16
E32-C31 2M 490 220 150 44
E32-C31M 1M
M4 E32-D211R 2M 210 90 60 16
M6 E32-D11R 2M 1,260 520 360 100
E32-CC200 2M 2,100 900 600 180
E32-LD11 2M 1,290 540 370 110
E32-LD11R 2M 1,260 520 360 100

Cylindrical Models

Sensing
method
Size Sensing
direction
Model Sensing distance (mm)
Giga mode Standard
mode
High-speed
mode
Super-high-
speed mode
Through-
beam
1 dia. Top-view E32-T223R 2M 670 370 220 60
1.5 dia. E32-T22B 2M 1,020 600 330 90
3 dia. E32-T12R 2M 3,000 1,500 1,050 280
Side-view E32-T14LR 2M 1,120 670 390 100
Reflective 1.5 dia. Top-view E32-D22B 2M 210 90 60 16
1.5 dia. + 0.5 dia. E32-D43M 1M 42 18 12 4
3 dia. E32-D22R 2M 210 90 60 16
E32-D221B 2M 450 210 130 40
E32-D32L 2M 1,050 450 300 90
3 dia. + 0.8 dia. E32-D33 2M 100 45 30 8

Flat Models

Sensing
method
Sensing direction Model Sensing distance (mm)
Giga mode Standard
mode
High-speed
mode
Super-high-
speed mode
Through-beam Top-view E32-T15XR 2M 3,000 1,500 1,050 280
Side-view E32-T15YR 2M 1,120 670 390 100
Flat-view E32-T15ZR 2M
Reflective Top-view E32-D15XR 2M 1,260 520 360 100
Side-view E32-D15YR 2M 300 150 78 24
Flat-view E32-D15ZR 2M

Sleeve Models

Sensing
method
Sensing direction Model Sensing distance (mm)
Giga mode Standard
mode
High-speed
mode
Super-high-
speed mode
Through-beam Side-view E32-T24R 2M 250 150 75 20
E32-T24E 2M 670 370 220 60
Top-view E32-T33 1M 220 130 75 20
E32-T21-S1 2M 760 450 250 68
E32-TC200BR 2M 3,000 1,500 1,050 280
Reflective Side-view E32-D24R 2M 100 45 30 8
E32-D24-S2 2M 180 79 67 14
Top-view E32-D43M 1M 42 18 12 4
E32-D331 2M 21 9 6 2
E32-D33 2M 100 45 30 8
E32-D32-S1 0.5M 94 40 27 7
E32-D31-S1 0.5M
E32-DC200F4R 2M 210 90 60 16
E32-D22-S1 2M 370 160 100 30
E32-D21-S3 2M
E32-DC200BR 2M 1,260 520 360 100
E32-D25-S3 2M 370 160 100 30

Small-spot, Reflective Models

Type Spot
diameter
Center
distance
(mm)
Models Sensing distance (mm)
Giga
mode
Standard
mode
High-speed
mode
Super-high-
speed mode
Variable
spot
0.1 to 0.6 dia. 6 to 15 E32-C42 1M + E39-F3A Spot diameter of 0.1 to 0.6 mm at 6 to 15 mm.
0.3 to 1.6 dia. 10 to 30 E32-C42 1M + E39-F17 Spot diameter of 0.3 to 1.6 mm at 10 to 30 mm.
Parallel
light
4 dia. 0 to 20 E32-C31 2M + E39-F3C Spot diameter of 4 mm max. at 0 to 20 mm.
E32-C31N 2M + E39-F3C
Integrated
lens
0.1 dia. 5 E32-C42S 1M Spot diameter of 0.1 mm at 5 mm.
6 dia. 50 E32-L15 2M Spot diameter of 6 mm at 50 mm.
Small-
spot
0.1 dia. 7 E32-C41 1M + E39-F3A-5 Spot diameter of 0.1 mm at 7 mm.
0.5 dia. E32-C31 2M + E39-F3A-5 Spot diameter of 0.5 mm at 7 mm.
E32-C31N 2M + E39-F3A-5
0.2 dia. 17 E32-C41 1M + E39-F3B Spot diameter of 0.2 mm at 17 mm.
0.5 dia. E32-C31 2M + E39-F3B Spot diameter of 0.5 mm at 17 mm.
E32-C31N 2M + E39-F3B
3 dia. 50 E32-CC200 2M + E39-F18 Spot diameter of 3 mm at 50 mm.
E32-C11N 2M + E39-F18

High-power Beam Models

Type Sensing
direction
Center
distance
(mm)
Models Sensing distance (mm)
Giga
mode
Standard
mode
High-
speed
mode
Super-
high-
speed
mode
Through-beam
models with
integrated
lens
Right-angle 15° E32-LT11N 2M 4,000*2 4,000*2 3,450 920
Top-view 10° E32-T17L 10M 20,000 *1 20,000 *1 20,000 *1 8,000
15° E32-LT11 2M 4,000 *2 4,000 *2 4,000 *2 1,080
E32-LT11R 2M 4,000 *2 4,000 *2 3,450 920
Side-view 30° E32-T14 2M 4,000 *2 4,000 *2 4,000 *2 1,800
Through-beam
models with
lenses
Right-angle 12° E32-T11N 2M + E39-F1 4,000 *2 4,000 *2 4,000 *2 2,000
E32-T11N 2M + E39-F16 4,000 *2 4,000 *2 4,000 *2 3,600
Top-view 12° E32-T11R 2M + E39-F1 4,000 *2 4,000 *2 4,000 *2 2,000
E32-T11R 2M + E39-F16 4,000 *2 4,000 *2 4,000 *2 3,600
Side-view 60° E32-T11R 2M + E39-F2 2,170 1,200 750 200
Top-view 12° E32-T11 2M + E39-F1 4,000 *2 4,000 *2 4,000 *2 1,860
E32-T11 2M + E39-F16 4,000 *2 4,000 *2 4,000 *2 4,000 *2
Side-view 60° E32-T11 2M + E39-F2 3,450 1,980 1,290 320
Top-view 12° E32-T51R 2M + E39-F1 4,000 *2 4,000 *2 4,000 *2 1,500
E32-T51R 2M + E39-F16 4,000 *2 4,000 *2 4,000 *2 4,000 *2
Side-view 60° E32-T51R 2M + E39-F2 2,100 1,080 750 200
Top-view 12° E32-T81R-S 2M + E39-F1 4,000 *2 4,000 *2 4,000 *2 1,000
E32-T81R-S 2M + E39-F16 4,000 *2 4,000 *2 4,000 *2 1,800
Side-view 60° E32-T81R-S 2M + E39-F2 1,500 820 540 140
Top-view 12° E32-T61-S 2M + E39-F1 4,000 *2 4,000 *2 4,000 *2 1,800
E32-T61-S 2M + E39-F16 4,000 *2 4,000 *2 4,000 *2 3,100
Side-view 60° E32-T61-S 2M + E39-F2 2,520 1,350 900 240
Top-view 12° E32-T51 2M + E39-F1-33 4,000 *2 4,000 *2 3,450 1,400
E32-T51 2M + E39-F16 4,000 *2 4,000 *2 4,000 *2 4,000 *2
Reflective
models with
integrated lens
Top-view E32-D16 2M 40 to
4,000 *2
40 to
2,100
40 to
1,350
40 to 480
*1. The fiber length is 10 m on each side, so the sensing distance is given as 20,000 mm.
*2. The fiber length is 2 m on each side, so the sensing distance is given as 4,000 mm.

Narrow View Models

Sensing
method
Sensing
direction
Aperture
angle
Model Sensing distance (mm)
Giga mode Standard
mode
High-speed
mode
Super-high-
speed mode
Through-beam Side-view 1.5° E32-A03 2M 4,000 *1 2,670 1,800 500
E32-A03-1 2M
3.4° E32-A04 2M 1,920 1,020 670 200
E32-T24SR 2M 4,000 *1 3,300 2,190 580
E32-T24S 2M 4,000 *1 3,900 2,610 700
E32-T22S 2M 4,000 *1 4,000 *1 3,750 1,000
*1. The fiber length is 2 m on each side, so the sensing distance is given as 4,000 mm.

Models for Detection without Background Interference

Sensing
method
Sensing
direction
Model Sensing distance (mm)
Giga mode Standard mode High-speed
mode
Super-high-speed
mode
Limited-
reflective
Flat-view E32-L16-N 2M 0 to 15 0 to 12
E32-L24S 2M 0 to 4
Side-view E32-L25L 2M 5.4 to 9 (center 7.2)

Transparent Object Detection (Retro-reflective Models)

Sensing
method
Feature Size Models Sensing distance (mm)
Giga mode Standard
mode
High-speed
mode
Super-high-
speed mode
Retro-
reflective
Film detection M3 E32-C31 2M + E39-F3R +
E39-RP37
370 300 ---
Square --- E32-R16 5M 150 to 1,500
Threaded M6 E32-R21 2M 10 to 370 10 to 250
Hex-shaped E32-LR11NP 2M +
E39-RP1
2,020 1,800 1,500 550

Transparent Object Detection (Limited-reflective Models)

Sensing
method
Feature Sensing
direction
Model Sensing distance (mm)
Giga
mode
Standard
mode
High-speed
mode
Super-high-
speed mode
Limited-
reflective
Small size Flat-view E32-L24S 2M 0 to 4
Standard E32-L16-N 2M 0 to 15 0 to 12
Glass substrate
alignment, 70°C
E32-A08 2M 10 to 20 ---
Standard/long-distance E32-A12 2M 12 to 30 ---
Side-view form Side-view E32-L25L 2M 5.4 to 9 (center 7.2)
Glass substrate
mapping, 70°C
Top-view E32-A09 2M 15 to 38 ---

Chemical-resistant, Oil-resistant Models

Sensing
method
Type Sensing
direction
Model Sensing distance (mm)
Giga mode Standard
mode
High-speed
mode
Super-high-
speed mode
Through-
beam
Oil-resistant Right-angle E32-T11NF 2M 4,000 *1 4,000 *1 4,000 *1 2,200
Chemical/
oil-resistant
Top-view E32-T12F 2M 4,000 *1 4,000 *1 4,000 *1 1,600
E32-T11F 2M 4,000 *1 4,000 *1 3,900 1,000
Side-view E32-T14F 2M 2,100 1,200 750 200
Chemical/
oil-resistant at
150°C
Top-view E32-T51F 2M 4,000 *1 4,000 *1 2,700 700
Reflective Semiconductors:
Cleaning,
developing, and
etching; 60°C
Top-view E32-L11FP 5M 8 to 20 mm from tip of lens (Recommended sensing
distance: 11 mm),
19 to 31 mm from center of mounting hole A
(Recommended sensing distance: 22 mm)
Semiconductors:
Resist stripping;
85°C
E32-L11FS 5M 8 to 20 mm from tip of lens (Recommended sensing
distance: 11 mm),
32 to 44 mm from center of mounting hole A
(Recommended sensing distance: 35 mm)
Chemical/
oil-resistant
E32-D12F 2M --- *2 280 190 60
Chemical-
resistant cable
E32-D11U 2M 1,260 520 360 100
*1. The fiber length is 2 m on each side, so the sensing distance is given as 4,000 mm.
*2. Even if there is no sensing object, the Sensor will detect light that is reflected by the fluororesin.

Bending-resistant Models

Sensing
method
Size Model Sensing distance (mm)
Giga mode Standard mode High-speed
mode
Super-high-speed
mode
Through-beam 1.5 dia. E32-T22B 2M 1,020 600 330 90
M3 E32-T21 2M
M4 E32-T11 2M 3,750 2,020 1,350 360
Square 32-T25XB 2M 750 450 250 70
Reflective 1.5 dia. E32-D22B 2M 210 90 60 16
M3 E32-D21 2M
3 dia. E32-D221B 2M 450 210 130 40
M4 E32-D21B 2M
M6 E32-D11 2M 1,260 520 360 100
Square E32-D25XB 2M 360 150 90 30

Heat-resistant Models

Sensing
method
Heat-resistant
temperature
Model Sensing distance (mm)
Giga mode Standard mode High-speed
mode
Super-high-
speed mode
Through-beam 100°C E32-T51R 2M 2,400 1,200 840 225
150°C E32-T51 2M 4,000 *1 2,250 1,500 400
200°C E32-T81R-S 2M 1,500 820 540 140
350°C E32-T61-S 2M 2,520 1,350 900 240
Reflective 100°C E32-D51R 2M 1,000 420 280 80
150°C E32-D51 2M 1,680 670 480 144
200°C E32-D81R-S 2M 630 270 180 54
300°C E32-A08H2 2M 10 to 20 ---
E32-A09H2 2M 20 to 30 (center 25) ---
350°C E32-D611-S 2M 630 270 180 54
E32-D61-S 2M
400°C E32-D73-S 2M 420 180 120 36
*1. The fiber length is 2 m on each side, so the sensing distance is given as 4,000 mm.

Area Detection Models

Sensing
method
Type Sensing width Model Sensing distance (mm)
Giga mode Standard
mode
High-speed
mode
Super-high-
speed mode
Through-beam Area 11 mm E32-T16PR 2M 4,000 *1 2,550 1,680 440
E32-T16JR 2M 4,000 *1 2,250 1,440 380
30 mm E32-T16WR 2M 4,000 *1 3,900 2,550 680
Reflective Array 11 mm E32-D36P1 2M 1,050 450 300 90
*1. The fiber length is 2 m on each side, so the sensing distance is given as 4,000 mm.

Liquid-level Detection Models

Sensing
method
Tube
diameter
Feature Model Sensing distance (mm)
Giga mode Standard
mode
High-speed
mode
Super-high-
speed mode
Tube-
mounting
3.2, 6.4, or
9.5 dia
Stable
residual
quantity
detection
E32-A01 5M Applicable tube: Transparent tube with a diameter of 3.2,
6.4, or 9.5 mm, Recommended wall thickness: 1 mm
8 to 10 dia Mounting at
multiple
levels
E32-L25T 2M Applicable tube: Transparent tube with a diameter of 8 to
10 mm, Recommended wall thickness: 1 mm
No
restrictions
Large tubes E32-D36T 5M Applicable tube: Transparent tube (no restrictions on
diameter)
Liquid contact
(heat-resistant
up to 200°C)
--- --- E32-D82F1 4M Liquid-contact type

Vacuum-resistant Models

Sensing
method
Heat-resistant
temperature
Model Sensing distance (mm)
Giga mode Standard
mode
High-speed
mode
Super-high-
speed mode
Through-beam 120 °C E32-T51V 1M 1,080 600 390 100
E32-T51V 1M + E39-F1V 2,000 *1 2,000 *1 2,000 *1 520
200 °C E32-T84SV 1M 2,000*1 1,420 960 260
*1. The fiber length is 1 m on each side, so the sensing distance is given as 2,000 mm.

Models for FPD, Semiconductors, and Solar Cells

Sensing
method
Application Operating
temperature
Model Sensing distance (mm)
Giga mode Standard
mode
High-speed
mode
Super-high-
speed mode
Limited-
reflective
Glass presence
detection
70°C E32-L16-N 2M 0 to 15 0 to 12
E32-A08 2M 10 to 20 ---
Glass substrate
alignment
300°C E32-A08H2 3M
70°C E32-A12 2M 12 to 30 ---
Glass substrate
mapping
E32-A09 2M 15 to 38 ---
300°C E32-A09H2 2M 20 to 30 (center 25) ---
Wet processes:
Cleaning, Resist
developing and
etching
60°C E32-L11FP 5M 8 to 20 mm from tip of lens (Recommended sensing
distance: 11 mm),
19 to 31 mm from center of mounting hole A
(Recommended sensing distance: 22 mm)
Wet process:
Resist stripping
85°C E32-L11FS 5M 8 to 20 mm from tip of lens (Recommended sensing
distance: 11 mm),
32 to 44 mm from center of mounting hole A
(Recommended sensing distance: 35 mm)
Through-
beam
Wafer mapping 70°C E32-A03 2M 4,000 *1 2,670 1,800 500
E32-A03-1 2M
E32-A04 2M 1,920 1,020 670 200
E32-T24SR 2M 4,000 *1 3,300 2,190 580
E32-T24S 2M 4,000 *1 3,900 2,610 700
*1. The fiber length is 2 m on each side, so the sensing distance is given as 4,000 mm.

Fiber Amplifier Units

Pre-wired Amplifier Units
E3NX-FA11
E3NX-FA21
E3NX-FA41
E3NX-FA51

E3NX-FA Dimensions 3
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Amplifier Units with Wire-saving Connectors
E3NX-FA6
E3NX-FA7
E3NX-FA7TW
E3NX-FA8
E3NX-FA9
E3NX-FA9TW

E3NX-FA Dimensions 4
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Amplifier Units with M8 Connectors
E3NX-FA24
E3NX-FA54
E3NX-FA54TW

E3NX-FA Dimensions 5
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Amplifier Unit with Connector for Sensor Communications Unit
E3NX-FA0

E3NX-FA Dimensions 6

Accessories (Sold Separately)

Wire-saving Connectors

Master Connector
E3X-CN11
E3X-CN21

E3NX-FA Dimensions 9
* E3X-CN11: 4-dia. cable with 3 conductors, Standard cable length: 2 m (Conductor cross-section: 0.2 mm2 (AWG24),
Insulator diameter: 1.1 mm)
E3X-CN21: 4-dia. cable with 4 conductors, Standard cable length: 2 m (Conductor cross-section: 0.2 mm2 (AWG24),
Insulator diameter: 1.1 mm)

Slave Connector
E3X-CN12
E3X-CN22

E3NX-FA Dimensions 10
* E3X-CN12: 2.6-dia. cable with 1 conductor, Standard cable length: 2 m (Conductor cross-section: 0.2 mm2 (AWG24),
Insulator diameter: 1.1 mm)
E3X-CN22: 4-dia. cable with 2 conductors, Standard cable length: 2 m (Conductor cross-section: 0.2 mm2 (AWG24),
Insulator diameter: 1.1 mm)

Sensor I/O Connectors

Straight
XS3F-M421-40[]-A

E3NX-FA Dimensions 12

L-shaped
XS3F-M422-40[]-A

E3NX-FA Dimensions 13

Mounting Bracket
E39-L143

E3NX-FA Dimensions 14
Material: Stainless steel (SUS304)

DIN Track
PFP-100N
PFP-50N

E3NX-FA Dimensions 15
Material: Aluminum
* Dimensions in parentheses are for the PFP-50N.

PFP-100N2

E3NX-FA Dimensions 16
Material: Aluminum

End Plate
PFP-M

E3NX-FA Dimensions 17
Materials: Iron, zinc plating