SS732/SS632
Hall Latch - High Sensitivity
DC Operating Parameters T = -40 C to 150 C, V
= 2.5V to 24V (unless otherwise specified)
A
DD
Parameter
South po
North po
Test Conditions(SO)
OUT(SO)
Test Conditions(UA)
OUT(UA)
B <
B >
l
e
H
i
gh
L
o
w
BRP
BOP
BRP
B
>
B <
l
e
L
o
w
H
i
gh
BOP
Output behaviour versus magnetic pole
Application Information
It is strongly recommended that an external bypass capacitor be connected (in close proximity to the Hall sensor) between the
supply(VDD Pin) and ground(GND Pin) of the device to reduce both external noise and noise generated by the chopper stabilization
technique. As is shown in the two figures in next page, a 0.1μF capacitor is typical.
For reverse voltage protection, it is recommended to connect a resistor or a diode in series with the V
resistor, three points are important:
pin. When using a
DD
- the resistor has to limit the reverse current to 50mA maximum (V
/ R1 ≤ 50mA)
CC
- the resulting device supply voltage V
DD
has to be higher than V
min (V
= V
CC
– R1*I
)
DD
DD
DD
2/R1)
- the resistor has to withstand the power dissipated in reverse voltage condition (P = VCC
D
Using a diode, a reverse current cannot flow and the voltage drop is almost constant (≈0.7V).
Therefore, a 100Ω/0.25W resistor for 5V application and a diode for higher supply voltage are recommended. Both solutions
provide the required reverse voltage protection.
When a weak power supply is used or when the device is intended to be used in noisy environment, it is recommended that
figure 13.3 from the Application Information section is used.
The low-pass filter formed by R1 and C1 and the Zener diode Z1 bypass the disturbances or voltage spikes occurring on the device
supply voltage V . The diode D1 provides additional reverse voltage protection.
DD
Automotive and Severe Environment
Protection Circuit
Typical Three-Wire Application Circuit
R1:100
VDD
C1
VDD
R2
C2
R2
C2
C1
D1
OUT
OUT
S732
S732
Z1
GND
GND
The S732 have been optimized for commutation applications in 5V and 12V brushless DC motors. The follow figure is the typical
application circuit for 3 phase brushless DC motors.
6
V2.00 May.1, 2012
SECELECTRONICS [ SEC Electronics Inc. ]
