HAL535
16
Micronas
4.2. HAL535
The HAL535 is a latching sensor (see Fig. 4–5).
The output turns low with the magnetic south pole on
the branded side of the package and turns high with
the magnetic north pole on the branded side. The out-
put does not change if the magnetic field is removed.
For changing the output state, the opposite magnetic
field polarity must be applied.
For correct functioning in the application, the sensor
requires both magnetic polarities (north and south) on
the branded side of the package.
Magnetic Features:
– switching type: latching
– low sensitivity
– typical B
ON
: 13.5 mT at room temperature
– typical B
OFF
:
13.5 mT at room temperature
– operates with static magnetic fields and dynamic
magnetic fields up to 10 kHz
– typical temperature coefficient of magnetic switching
points is
1000 ppm/K
Applications
The HAL535 is the optimal sensor for applications with
alternating magnetic signals such as:
– multipole magnet applications,
– rotating speed measurement,
– commutation of brushless DC motors, and
– window lifter.
Fig. 4–5:
Definition of magnetic switching points for
the HAL535
Magnetic Characteristics
at T
J
=
40
°
C to +170
°
C, V
DD
= 3.8 V to 24 V,
Typical Characteristics for V
DD
= 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.
The hysteresis is the difference between the switching points B
HYS
= B
ON
B
OFF
The magnetic offset is the mean value of the switching points B
OFFSET
= (B
ON
+ B
OFF
) / 2
B
OFF
B
ON
0
V
OL
V
O
Output Voltage
B
B
HYS
Parameter
On point B
ON
Off point B
OFF
Hysteresis B
HYS
Magnetic Offset
Unit
T
J
Min.
Typ.
Max.
Min.
Typ.
Max.
Min.
Typ.
Max.
Min.
Typ.
Max.
40
°
C
12
15
18
18
15
12
25
30
35
0
mT
25
°
C
11
13.8
17
17
13.8
11
23
27.6
32
0
mT
100
°
C
9
13
17
17
13
9
20
26
31.5
0
mT
140
°
C
7
12.5
17
17
12.5
7
18
25
31
0
mT
170
°
C
6
12
18
18
12
6
17
24
31
0
mT