Linear hall-effect ic ah49e data sheet, Transfer characteristics (v – Diodes AH49E User Manual

LINEAR HALL-EFFECT IC AH49E

Data Sheet

6

Aug. 2010 Rev. 1. 3

BCD Semiconductor Manufacturing Limited

Transfer Characteristics (V

CC

=5V)

When there is no outside magnetic field (B=0GS), the
quiescent output voltage is one-half the supply voltage
in general.

For TO-92S package, if a south magnetic pole
approches to the front face (the side with marking ID)
of the Hall effect sensor, the circuit will drive the
output voltage higher. Contrary, a north magnetic pole
will drive the output voltage lower. The variations of
voltage level up or down are symmetrical. Due to
SOT-23-3 is reversed packaging with TO-92S, so the
magnetic performance is also reversed. Therefor, if
the reversed magnetic pole approches to the front face
(the side with marking ID), the output is the same as
TO-92S package.
.
Greatest magnetic sensitivity is obtained with a supply
voltage of 6V, but at the cost of increased supply
current and a slight loss of output symmetry. So, it is
not recommended to work in such condition unless the
output voltage magnitude is a main issue. The output
signal can be capacitively coupled to an amplifier for

boosting further if the changing frequency of the
magnetic field is high.

1000

-1000

500

-500

0

1.0 V

2.5 V

4.0 V

Typical

Output

Voltage

V

B (Gauss)

Figure 4. The Transfer Characteristics of AH49E

South Pole

North Pole

TO-92S Package

SOT-23-3 Package