IC-MH Datasheet, PDF(13/23 Page) IC-Haus GmbH – 12 BIT ANGULAR HALL ENCODER

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IC-MH Datasheet, PDF (13/23 Pages) IC-Haus GmbH – 12 BIT ANGULAR HALL ENCODER

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iC-MH

12 BIT ANGULAR HALL ENCODER

reference (1.24 V), with VOSR (0.5 V) used to gener-

ate the range of the offset settings. Bias current IBM

determines the internal current setting of the analog

circuitry. In order to compensate for variations in this

current and thus discrepancies in the characteristics

of the individual iC-MH devices (due to ï¬uctuations in

production, for example), this can be set within a range

of -40% to +35% using register parameter CIBM. The

nominal value of 200 ÂµA is measured as a short-circuit

current at pin B to ground.

Test mode Digital CLK

If, due to external circuitry, it is not possible to mea-

sure IBM directly, by way of an alternative clock signal

CLKD at pin A can be calibrated to a nominal 1 MHz

in this test mode via register value CIBM.

Rev B1, Page 13/23

C021107-4

iC-MH

VNA

Test Mode: Analog REF

VREF

IBM

VBG

VOSR

~ 2.5 V

~ 1.24 V

~ 0.5 V

~ 200 ÂµA

Figure 10: Setting bias current IBM in test mode

Analog REF

Calibration procedure

The calibration procedure described in the following

applies to the optional setting of the internal analog

sine and cosine signals and the mechanical adjust-

ment of the magnet and iC-MH in relation to one an-

other.

Vsin

+2 V

BIAS SETTING

The BIAS setting compensates for possible manufac-

-2 V

turing tolerances in the iC-MH devices. A magnetic

ï¬eld does not need to be present for this setting which

can thus be made either prior to or during the assem-

bly of magnet and iC-MH.

Î±

+2 V

Vcos

If the optional setup process is not used, register CIBM

should be set to an average value of 0x8 (which is

equivalent to a change of 0%). As described in the

previous section, by altering the value in register CIBM

in test mode Analog REF current IBM is set to 200 ÂµA

or, alternatively, in test mode Digital CLK signal CLKD

is set to 1 MHz.

MECHANICAL ADJUSTMENT

iC-MH can be adjusted in relation to the magnet in test

modes Analog SIN and Analog COS, in which the Hall

signals of the individual Hall sensors can be observed

while the magnet rotates.

In test mode Analog SIN the output signals of the sine

Hall sensors which are diagonally opposite one an-

other are visible at pins A, B, Z and U. iC-MH and the

magnet are then adjusted in such a way that differen-

tial signals VPSIN and VNSIN have the same amplitude

and a phase shift of 180Â°. The same applies to test

mode Analog COS, where differential signals VPCOS

and VNCOS are calibrated in the same manner.

-2 V

C141107-1

Figure 11: Ideal Lissajous curve

CALIBRATION USING ANALOG SIGNALS

In test mode Analog OUT as shown in Figure 5 the in-

ternal signals which are transmitted to the sine/digital

converter can be tapped with high impedance. With

a rotating magnet it is then possible to portray the dif-

ferential signals VSIN and VCOS as an x-y graph (Lis-

sajous curve) with the help of an oscilloscope. In an

ideal setup the sine and cosine analog values describe

a perfect circle as a Lissajous curve, as illustrated by

Figure 11.

At room temperature and with the amplitude control

switched off (ENAC = 0) a rough GAING setting is se-

lected so that at an average ï¬ne gain of GAINF = 0x20

(a gain factor of ca. 4.5) the Hall signal amplitudes are

as close to 1 V as possible. The amplitude can then

be set more accurately by varying GAINF. Variations in

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