IC-MHA_14 Datasheet, PDF(7/10 Page) IC-Haus GmbH

English

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

IC-MHA_14 Datasheet, PDF (7/10 Pages) IC-Haus GmbH – ANALOG ANGULAR HALL SENSOR

◁

iC-MHA

ANALOG ANGULAR HALL SENSOR

SENSOR PRINCIPLE

preliminary

Rev B2, Page 7/10

+Bz

-Bz

C151107-1

Figure 2: Sensor principle

In conjunction with a rotating permanent magnet, the

iC-MHA module can be used to create a complete en-

coder system. A diametrically magnetized, cylindri-

cal permanent magnet made of neodymium iron boron

(NdFeB) or samarium cobalt (SmCo) generates op-

timum sensor signals. The diameter of the magnet

should be in the range of 3 to 6 mm.

The iC-MHA has four Hall sensors adapted for angle

determination and to convert the magnetic ï¬eld into

a measurable Hall voltage. Only the z-component of

the magnetic ï¬eld is evaluated, whereby the ï¬eld lines

pass through two opposing Hall sensors in the oppo-

site direction. Figure 2 shows an example of ï¬eld vec-

tors. The arrangement of the Hall sensors is selected

so that the mounting of the magnets relative to iC-MHA

is extremely tolerant. Two Hall sensors combined pro-

vide a differential Hall signal. When the magnet is ro-

tated around the longitudinal axis, sine and cosine out-

put voltages are produced which can be used to deter-

mine angles.

Position of the Hall sensors and the analog sensor signal

The Hall sensors are placed in the center of the QFN28

package at 90â¦ to one another and arranged in a circle

with a diameter of 2 mm as shown in Figure 3.

Pin 1 Mark

28 27 26 25 24 23 22

(top view)

2 PSIN

6 NCOS

PCOS 20

NSIN 16

8 9 10 11 12 13 14

C040907-2

Figure 3: Position of the Hall sensors

In order to calculate the angle position of a diametri-

cally polarized magnet placed above the device a dif-

ference in signal is formed between opposite pairs of

Hall sensors, resulting in the sine being VSIN = VPSIN -

VNSIN and the cosine VCOS = VPCOS - VNCOS. The zero

angle position of the magnet is marked by the resulting

cosine voltage value being at a maximum and the sine

voltage value at zero.

This is the case when the south pole of the magnet is

exactly above the PCOS sensor and the north pole is

above sensor NCOS, as shown in Figure 4. Sensors

PSIN and NSIN are placed along the pole boundary so

that neither generate a Hall signal.

When a magnetic south pole comes close to the sur-

face of the package the resulting magnetic ï¬eld has a

positive component in the +z direction (i.e. from the top

of the package) and the individual Hall sensors each

generate their own positive signal voltage.

When the magnet is rotated counterclockwise the

poles then also cover the PSIN and NSIN sensors, re-

sulting in the sine and cosine signals shown in Figure

5 being produced.

▷