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B-55
Z510
Z510
Sensors: Z510-SW2T, Z510-SW6, and Z510-SW17
Note: 1.
The minimum light intensity at the edges of the beam is defined as 1/e
2
(13.5%) of the intensity at the center of the beam. Some light will
scatter beyond this beam region and the measurement may be affected if the immediate vicinity around the workpiece is highly reflective.
2.
This is the error with respect to the theoretical line of the displacement output when measuring the standard OMRON quartz glass. The
linearity may vary depending on the workpiece being used.
3.
This is the error with respect to the theoretical line of the displacement output when measuring a standard OMRON stainless-steel block.
The linearity may vary depending on the workpiece being used.
4.
This is the error with respect to the theoretical line of the displacement output when mea-
suring the standard OMRON white alumina ceramic. The linearity may vary depending on
the workpiece being used.
5.
This is the displacement output’s peak-to-peak displacement conversion value. These fig-
ures are for measurement of the standard OMRON quartz glass (mirror reflection) or stan-
dard OMRON stainless-steel block (diffuse reflection) at the center of the measurement
region. The resolution performance characteristics may not be met when operating in a
magnetic field.
6.
These figures are for Sensors connected to a Z510-WC10E or Z510-WC15E and averaged over 16 measurements. The averaged data
was transmitted to a PC through an RS-232C connection for storage and processing.
7.
This is the displacement output’s peak-to-peak displacement conversion value. (These figures are for measurement of the standard OM-
RON white alumina ceramic at the center of the measurement region.)
The resolution performance characteristics may not be met when operating in a strong magnetic field.
8.
These figures are for Sensors connected to a Z510-WC10E or Z510-WC15E and averaged over 64 measurements. The averaged data
was transmitted to a PC through an RS-232C connection for storage and calculations.
9.
This is the value measured when the gap between the Sensor and workpiece (white alumina ceramic) is fixed with an aluminum jig.
Sensor model
Z510-SW2T
Z510-SW6
Z510-SW17
Measurement mode
Mirror reflection Diffuse
reflection
Diffuse
reflection
Mirror reflection Diffuse
reflection
Mirror reflection
Measurement distance at center
20 mm (16 mm with
beam cover mount-
ed)
5.2 mm
50 mm
44 mm
100 mm
94 mm
Measurement range
±
0.8 mm
±
5 mm
±
4 mm
±
20 mm
±
16 mm
Light source
Visible semiconductor laser
(Wavelength: 670 nm, 15 mW
max., class 3B)
Visible semiconductor laser
(Wavelength: 658 nm, 15 mW max., class 3B)
Beam dimensions (See note 1.)
20
µ
m
×
4 mm typical at the ref-
erence distance
(2-mm measurement region)
30
µ
m
×
24 mm typical at the ref-
erence distance
(6-mm measurement region)
60
µ
m
×
45 mm typical at the ref-
erence distance
(17-mm measurement region)
Linearity
±
0.1% F.S.
(See note 2.)
±
0.1% F.S.
(See note 3.)
±
0.1% F.S. (See note 4.)
Resolution
0.25
µ
m (See notes 5 and 6.)
0.3
µ
m (See notes 7 and 8.)
1
µ
m (See notes 7 and 8.)
Sampling period
9.94 ms
LED indicator (Laser indicator)
Lit when the laser is ON.
Temperature characteristic
(See note 9.)
0.01% F.S./
°
C
Environmen-
tal resistance
Degree of protec-
tion
IP64
IP66
Ambient operat-
ing illumination
Illumination at light-receiver surface: 3,000 lx max. (incandescent light)
Ambient tempera-
ture
Operating: 0 to 50
°
C (with no icing or condensation)
Storage: -15 to 60
°
C (with no icing or condensation)
Ambient humidity Operating and storage: 35% to 85% (with no condensation)
Vibration (de-
struction)
10 to 150 Hz (double amplitude of 0.35 mm) for 8 minutes each in the X, Y, and Z directions
Materials
Controller: Die-cast aluminum
Cable sheathing: Heat-resistant PVC
Connector: Zinc alloy and brass
Cable length
0.5 m
Minimum bending radius
68 mm
Weight
Approx. 350 g
Approx. 600 g
±
0.1% max.
80 mm
120 mm
Distance
120 mm
80 mm
Z510-SW17
Digital output
F502-EN2-04.book Seite 55 Dienstag, 26. Juli 2005 5:48 17