Parameter, Conditions, Data sheet – Diodes AH49H User Manual

Data Sheet

LINEAR HALL EFFECT IC AH49H

Jun. 2013 Rev. 1.2 BCD Semiconductor Manufacturing Limited

Electrical Characteristics

V

CC

=3.3V, T

A

=25°C, unless otherwise specified.

Parameter Symbol

Conditions

Min Typ

Max

Unit

Supply Current

I

CC

1.2

2

3.2

mA

Quiescent Output
Voltage

V

NULL

B=0

(Gauss)

1.45

1.7

1.85

V

Output Voltage
Sensitivity

V

SEN

B=±600

(Gauss)

0.33

mV/Gauss

Output Voltage Span

V

OUT S

0.85

to

2.6

V

Output Resistor

R

OUT

30

50

70

Ω

Linear Magnetic Range

B

±3000

Gauss

Output Noise

Bandwidth=10Hz
to 10kHz

90

μV

Transferring Characteristics (V

CC

=3.3V)

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

For TO-92S-3 package, if a south magnetic pole
approaches the front face (the side with marking ID)
of the Hall effect sensor, the circuit will drive the
output voltage higher. In contrary, a north magnetic
pole will drive the output voltage lower. The
variations of voltage level up or down are
symmetrical. Because the SOT-23-3 is reversed
packaging with TO-92S-3, so the magnetic
performance is also reversed. Therefore, if the
reversed magnetic pole approaches the front face, the
output is the same as TO-92S-3 package. Greatest
magnetic sensitivity is obtained with a supply voltage
of 8V, 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 a next-level

amplifier for further amplifying if the changing

frequency of the magnetic field is high.

Figure 4. Transferring Characteristic of AH49H

North Pole

South Pole

For TO-92S-3 For SOT-23-3

Figure 5. Magnetic Characteristic of AH49H