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HAL54X Datasheet, PDF (21/28 Pages) Micronas – Hall-Effect Sensor Family
DATA SHEET
HAL 543
4.2. HAL543
The HAL543 is the most insensitive unipolar sensor of
this family (see Fig. 4–4).
The output turns low with the magnetic south pole on
the branded side of the package and turns high if the
magnetic field is removed. The sensor does not
respond to the magnetic north pole on the branded
side.
Magnetic Features:
– switching type: unipolar
– low sensitivity
– typical BON: 27 mT at room temperature
– typical BOFF: 21 mT at room temperature
– operates with static magnetic fields and dynamic
magnetic fields up to 10 kHz
– points is −1000 ppm/K
Applications
The HAL543 is the optimal sensor for applications with
unipolar magnetic signals and large magnetic ampli-
tude at the sensor position such as:
– position and end-point detection,
– contactless solution to replace microswitches,
– rotating speed measurement.
Output Voltage
VO
BHYS
VOL
0
BOFF
BON
B
Fig. 4–4: Definition of magnetic switching points for
the HAL543
Magnetic Characteristics at TJ = −40 °C to +140 °C, VDD = 4.3V to 24 V,
Typical Characteristics for VDD = 12 V
Magnetic flux density values of switching points.
Positive flux density values refer to the magnetic south pole at the branded side of the package.
Parameter
TJ
−40 °C
On point BON
Min. Typ. Max.
21
27
33
Off point BOFF
Min. Typ. Max.
15
21
27
Hysteresis BHYS
Min. Typ. Max.
4
6
8
Magnetic Offset
Min. Typ. Max.
−
24
−
Unit
mT
25 °C 21
27
33
15
21
27
4
6
8
18
24
30
mT
100 °C 21
27
33
15
21
27
4
6
8
−
24
−
mT
140 °C 21
27
33
15
21
27
4
5.5
8
−
24
−
mT
The hysteresis is the difference between the switching points BHYS = BON − BOFF
The magnetic offset is the mean value of the switching points BOFFSET = (BON + BOFF) / 2
Micronas
Feb. 12, 2009; DSH000023_003EN
21