Datasheet
Page 4/6
Ordering specifications
Versions for General Engineering
Operating voltage Ub
1: Ub = 24 V (18 ... 30 V)
2: Ub = 5 V (4.5 ... 5.5 V)
FR C 84
0
1
6 3 6
12 1
02 2
Output signal Ub = 24 V
1: 0,1 ... 10 V (only one-channel)
2: 4 ... 20 mA (only one-channel)
Output signal Ub = 5 V
1: 0.25 ... 4.75 V ratiometric to Ub
2: 0.5 ... 4.5 V ratiometric to Ub
Output characteristics
1: rising CW
2: rising CCW
3: Crossed output channel 1 rising / channel 2 falling CW
Electrical connections
201: round cable 4-pol., 0.5 m shielded
202: round cable 4-pol., 1 m shielded
206: round cable 4-pol., 3 m shielded
210: round cable 4-pol., 5 m shielded
220: round cable 4-pol., 10 m shielded
501: M12 connector with round cable, length = 0.21 m, shielded
Number of channels
6: one-channel
7: redundant (two-channel) only at Ub=5V
Measuring range
03: angle 0° ... 30° min.
...
06, 12, 18, 24, 36
...
36: angle 0° ... 360° max.
Mechanical version
4801: Elongated hole mounting for fixation and adjustment
4802: Round hole mounting
Series
-
-
- -
Lateral magnet offset
Generally a lateral magnet offset of the sensor and position marker produces an additional linearity error.
This depends on the strength of the lateral magnet offset and the used position marker.
Working distance A / magnet constant Z-RFC-P07: A = 0 ... 1.5 mm / magnet constant = 1.85°/mm
2
/ max. radial offset: ±1,5 mm
Z-RFC-P08: A = 0 ... 4 mm / magnet constant = 0.8 °/mm
2
/ max. radial offset: ± 3 mm
Calculation linearity error The maximum error which is caused by lateral
offset between sensor and position marker can
be approximated as follows:
Error [°] = magnet constant x ( offset [mm] )
2
Example: Z-RFC-P02:
magnet constant = 0.8 °/mm
2
; offset =0.5 mm
Error [°] = 0.8°/mm
2
x (0.5 mm)
2
= 0.2°
other cable lengths and assembled connectors on request
Preferred types printed in bold:
• delivery time up to 25 pcs. within 10 working days
• no low volume surcharge
Versatz
radial offset