IC-MHL200 Datasheet, PDF(18/33 Page) IC-Haus GmbH – 12-BIT LINEAR / ROTARY POSITION HALL ENCODER

English

English German Russian Spanish Italian Polish Chinese Japanese Korean French Portuguese	Language :

IC-MHL200 Datasheet, PDF (18/33 Pages) IC-Haus GmbH – 12-BIT LINEAR / ROTARY POSITION HALL ENCODER

◁

iC-MHL200

12-BIT LINEAR / ROTARY POSITION HALL ENCODER

TEST: Modes for Signal Calibration

Rev C1, Page 18/33

For signal calibration iC-MHL200 has several test set-

tings which make internal reference quantities and the

amplified Hall voltages of the individual sensors acces-

sible at external pins A, B, Z and U for measurement

purposes. This enables the settings of the offset (VOSS,

VOSC), gain (GAING, GAINF) and amplitude ratio of

the cosine to the sine signal (GCC) to be directly ob-

served on the oscilloscope.

HALL SENSORS

NCOS PSIN PCOS NSIN

HPSP

HPSN

HNSP

HNSN

VH,PSIN

VH,NSIN

Test mode can be triggered by connecting pin VZAP

to VPD and programming the TEST register (address

0x0E). The individual test modes are listed in the fol-

lowing table:

Output signals in test mode

Mode

TEST Pin A Pin B Pin Z Pin U

Normal

0x00 A

Analog SIN 0x20 HPSP HPSN HNSP HNSN

Analog COS 0x21 HPCP HPCN HNCP HNCN

Analog OUT 0x22 PSIN NSIN PCOS NCOS

Analog REF 0x43 VREF IBM VBG VOSR

Digital CLK 0xC0 CLKD

iC-MHL200

C080911-1

Test Mode: Analog SIN

VNA

Figure 11: Output signals of the sine Hall sensors in

test mode Analog SIN

HALL SENSORS

NCOS PSIN PCOS NSIN

HPCP

HPCN

HNCP

HNCN

VH,PCOS

VH,NCOS

Table 14: Test modes and available output signals

The output voltages are provided as differential signals

with an average voltage of 2.5 V. The gain is determined

by register values GAING and GAINF and should be

set so that output amplitudes from the sine and cosine

signals of about 1 V are visible.

Test Modes Analog SIN And Analog COS

In these test modes it is possible to measure the sig-

nals from the individual Hall sensors independent of

one another. The name of the signal is derived from

the sensor name and position. HPSP, for example, is

the (amplified) Hall voltage of sensor PSIN at the posi-

tive signal path; similarly, HNCN is the Hall voltage of

sensor NCOS at the negative signal path. The effec-

tive Hall voltage is accrued from the differential voltage

between the positive and negative signal paths of the

respective sensor.

Test Mode Analog OUT

In this test mode the sensor signals are available at the

outputs as they would be when present internally for

further processing on the interpolator. The interpolation

accuracy which can be obtained is determined by the

quality of signals Vsin and Vcos and can be influenced in

this particular test mode by the calibration of the offset,

gain and amplitude ratio.

iC-MHL200

C080911-2

Test Mode: Analog COS

VNA

Figure 12: Output signals of the cosine Hall sensors

in test mode Analog COS

HALL SENSORS

NCOS PSIN PCOS NSIN

PSIN

NSIN

VSIN

PCOS

NCOS

VCOS

iC-MHL200

C080911-23

Test Mode: Analog OUT

VNA

Figure 13: Differential sine and cosine signals in test

mode Analog OUT

Test Mode Analog REF

In this mode various internal reference voltages are

provided. VREF is equivalent to half the supply voltage

(typically 2.5 V) and is used as a reference voltage for

the Hall sensor signals. VBG is the internal bandgap

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

▷