Data Sheet
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20
FAN3226 / FAN3227 / FAN3228 / FAN3229 — Dual 2-A High-Speed, Low-Side Gate Drivers
FAN3226 / FAN3227 / FAN3228 / FAN3229 D l 2 A Hi h Sd L Sid G t D i
Truth Table of Logic Operation
The FAN3228/FAN3229 truth table indicates the
operational states using the dual-input configuration. In
a non-inverting driver configuration, the IN- pin should
be a logic low signal. If the IN- pin is connected to logic
high, a disable function is realized, and the driver output
remains low regardless of the state of the IN+ pin.
IN+
IN-
OUT
0
0
0
0
1
0
1
0
1
1
1
0
In the non-inverting driver configuration in Figure 51, the
IN- pin is tied to ground and the input signal (PWM) is
applied to IN+ pin. The IN- pin can be connected to logic
high to disable the driver and the output remains low ,
regardless of the state of the IN+ pin.
VDD
GND
IN-
IN+
OUT
PWM
FAN3228/9
Figure 51. Dual-Input Driver Enabled,
Non-Inverting Configuration
In the inverting driver application in Figure 52, the IN+
pin is tied high. Pulling the IN+ pin to GND forces the
output low , regardless of the state of the IN- pin.
VDD
GND
IN-
IN+
OUT
PWM
FAN3228/9
Figure 52. Dual-Input Driver Enabled,
Inverting Configuration
Operational Waveforms
At pow er-up, the driver output remains low until the V
DD
voltage reaches the turn-on threshold. The magnitude of
the OUT pulses rises w ith V
DD
until steady-state V
DD
is
reached. The non-inverting operation illustrated in
Figure 53 show s that the output remains low until the
UVLO threshold is reached, the output is in-phase w ith
the input.
VDD
IN+
IN-
OUT
Turn-on threshold
Figure 53. Non-Inverting Startup Waveforms
For the inverting configuration of Figure 52, startup
waveforms are show n in Figure 54. With IN+ tied to V
DD
and the input signal applied to IN–, the OUT pulses are
inverted w ith respect to the input. At pow er-up, the
inverted output remains low until the V
DD
voltage
reaches the turn-on threshold, then it follow s the input
w ith inverted phase.
VDD
IN+
(VDD)
IN-
OUT
Turn-on threshold
Figure 54. Inverting Startup Waveforms