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| IC-MSB_17 Datasheet, PDF (25/32 Pages) IC-Haus GmbH – SIN/COS SIGNAL CONDITIONER | |||
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iC-MSBSAFETY, iC-MSB2
SIN/COS SIGNAL CONDITIONER WITH 1Vpp DRIVER
Rev F3, Page 25/32
Offset Calibration CH1, CH2
In order to calibrate the offset the reference source
must first be selected using VOS12. Two fixed voltages
and two dependent sources are available for this pur-
pose. The fixed voltage sources should be selected for
external sensors which provide stable, self-regulating
signals.
So that photosensors can be operated in optical en-
coders iC-MSB tracks changes in offset voltages via
the signal-dependent source VDC when used in con-
junction with the controlled sensor current source for
LED supply (pin ACO). The VDC potential automatically
tracks higher DC photocurrents. To this end intermedi-
ate potentials VDC1 and VDC2 must be adjusted to a
minimal AC ripple using the selectable k factor.
The calibration range for the CH1/CH2 offset is depen-
dent on the selected VOS12 source and is set using
OR1 and OR2. Both sine and cosine signals are then
calibrated using factors OF1 and OF2. The calibration
target is reached when the DC fraction of the differential
signals PCHx versus NCHx is zero.
OR1
OR2
Code
0x0
0x1
0x2
0x3
Adr 0x09, bit 0; Adr 0x08, bit 7
Adr 0x0A, bit 5:4
Range
x1
x2
x6
x12
Table 35: Offset Range CH1, CH2
The feedback of pin voltage V(ACO) fulfills the same
task as source VDC when MR bridge sensors are sup-
plied by the controlled current source or by supply
VDDS.
VOS12
Code
0x0
0x1, 0x2
0x3
Notes
Adr 0x0E, bit 5:4
Type of source
Feedback of ACO pin voltage: V(ACO)/20
for sensor supply-dependent diff. voltage signals
for Wheatstone sensor bridges
to measure VDDS
Fixed reference: V05 of 500 mV, V025 of 250 mV
for single-ended current or voltage signals
for single-ended or differential stabilized signals
(regulated sensor or waveform generator)
Self-tracking sources VDC1, VDC2 (125...250 mV)
for differential current signals
for differential voltage signals*
*) Requires BIASEX = 11 and the sensorâs reference
level connected to input X2 (see Elec. Char. No.
205 for acceptable input voltage).
Table 33: Offset Reference Source CH1, CH2
VDC1
VDC2
Code
0x000
0x001
...
0x200
...
0x3FF
Notes
Adr 0x07, bit 4:0; Adr 0x06, bit 7:3
Adr 0x08, bit 6:0; Adr 0x07, bit 7:5
VDCi = (1 â k) · VPi + k · VNi
k = 1/3
k = 0.3337
k = 1/3 + 1/3 · Code/1023
k = 0.5000 (center setting)
...
k = 2/3
Adjustment is required only if VOS12 = 0x3
OF1
OF2
Code
0x000
0x001
...
0x3FF
Adr 0xA, bit 3:0; Adr 0x9, bit 7:1
Adr 0xC, bit 0; Adr 0xB, bit 7:0; Adr 0xA, bit 7:6
Factor
Code
Factor
0
0x400
0
0.00098
0x401
â 0.00098
+ Code / 1023
...
â (Code - 1024)
/ 1023
1
0x7FF
â1
Table 36: Offset Factors CH1, CH2
Phase Correction CH1 vs. CH2
The phase shift between CH1 and CH2 can be adjusted
using parameter PH12. Following phase calibration
other calibration parameters may have to be adjusted
again (those as amplitude compensation, intermediate
potentials and offset voltages).
PH12
Code
0x000
0x001
...
0x1FF
Adr 0xD, bit 2:0; Adr 0xC, bit 7:1
Correction angle Code
Correction angle
0°
0x200
0°
+ 0.0204 °
0x201
â 0.0204 °
+ 10.42 ° ·
...
PH12 /511
â 10.42 ° ·
(PH12 - 512) /511
+ 10.42 °
0x3FF
â 10.42 °
Table 37: Phase Correction CH1 vs. CH2
Table 34: Intermediate Voltages CH1, CH2
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