HAL54x
DATA SHEET
Hall-Effect Sensor Family
– ideal sensor for applications in extreme automotive
and industrial environments
Release Note: Revision bars indicate significant
changes to the previous edition.
– EMC corresponding to ISO 7637
1.2. Family Overview
1. Introduction
The types differ according to the magnetic flux density
values for the magnetic switching points and the tem-
perature behavior of the magnetic switching points.
The HAL54x family consists of different Hall switches
produced in CMOS technology. All sensors include a
temperature-compensated Hall plate with active offset
compensation, a comparator, and an open-drain out-
put transistor. The comparator compares the actual
magnetic flux through the Hall plate (Hall voltage) with
the fixed reference values (switching points). Accord-
ingly, the output transistor is switched on or off.
Type
Switching
Behavior
Sensitivity
see
Page
542
543
546
548
latching
unipolar
unipolar
unipolar
high
19
21
23
25
In addition to the HAL50x/51x family, the HAL54x fea-
tures a power-on and undervoltage reset.
low
high
The sensors of this family differ in the switching behav-
ior and the switching points.
medium
The active offset compensation leads to constant mag-
netic characteristics over supply voltage and tempera-
ture range. In addition, the magnetic parameters are
robust against mechanical stress effects.
Latching Sensors:
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.
The sensors are designed for industrial and automo-
tive applications and operate with supply voltages
from 4.3 V to 24 V in the ambient temperature range
from −40°C up to 150°C.
All sensors are available in the SMD-package
SOT89B-1 and in the leaded versions TO92UA-1 and
TO92UA-2.
Unipolar Sensors:
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.
1.1. Features
– switching offset compensation at typically 62 kHz
– operates from 4.3 V to 24 V supply voltage
– overvoltage protection at all pins
– reverse-voltage protection at VDD-pin
– magnetic characteristics are robust against
mechanical stress effects
– short-circuit protected open-drain output by thermal
shut down
– operates with static magnetic fields and dynamic
magnetic fields up to 10 kHz
– constant switching points over a wide supply volt-
age range
– the decrease of magnetic flux density caused by ris-
ing temperature in the sensor system is compen-
sated by a built-in negative temperature coefficient
of the magnetic characteristics
4
Feb. 12, 2009; DSH000023_003EN
Micronas