5
E3F2
Engineering Data (Typical)
Operating Range (typical)
Through-beam Models (axial)
E
3
F2-7
@
4-
@
Retro-reflective Models (axial)
E
3
F2-R4
@
4
@
-
@
(polarizing)
Retro-reflective Models (radial)
E
3
F2-R2R
@
41-
@
(polarizing)
and reflectors
Diffuse-reflective Models (axial)
E
3
F2-DS10
@
4-
@
(wide-beam type)
Diffuse-reflective Models (axial)
E
3
F2-DS
3
0
@
4-
@
Diffuse-reflective Models (radial)
E
3
F2-DS
3
0
@
41-
@
Diffuse-reflective Models (axial)
E
3
F2-D1
@
4-
@
0
0
1
2
3
4
5
6
7
8
9
Distance X (m)
- 250
- 200
- 150
- 100
- 50
50
100
150
200
250
Distance Y
(mm)
X
Y
Reflector
Typical sensing distance
E
39
-RS
3
E
39
-R1S
E
39
-R40
E
39
-R7
E
39
-R8
0.5
1
1.5
2
2.5
3
0
0
50
100
–50
–100
Distance Y
(mm)
Distance X (m)
4
3
.5
typical sensing distances:
E
3
9-R1: 2.4 m
E
3
9-R7: 2.7 m
E
3
9-R8:
3
.1 m
X
Y
Reflector
20
40
60
80
100
120
0
0
5
10
15
–5
–10
–15
Distance Y
(mm)
Distance X (mm)
140
white paper
(50 x 50 mm)
X
Y
Object
100
200
3
00
400
500
600
0
0
10
20
3
0
40
–10
–20
–
3
0
–40
Distance Y
(mm)
Distance X (mm)
Sensing distance adjustable
between 0 and 550 mm
Sensitivity adjusted to maximum
Sensitivity adjusted to 400 mm
white paper
(100 x 100 mm)
X
Y
Object
100
200
3
00
400
500
0
0
10
20
3
0
40
–10
–20
–
3
0
–40
Distance Y
(mm)
Distance X (mm)
Sensitivity adjusted to
3
90 mm
White paper (90% reflectivity)
Sensing object:
100 x 100 mm
X
Y
Object
100
80
60
40
20
0
-20
-40
-60
-80
-100
0 200
400
600
800
1000
1200
1400
1600
Distance X (mm)
Distance Y
(mm)
Sensing object:
3
00 x
3
00 mm
X
Y
Object