PAC5220
Power Application Controller
Figure 12-2. Typical Gate Driver Connections
DRBx
V
P
V
IN
DRHx
DRSx
(To loads/inductors.)
DRLx
PAC5220
Table 12-1. Power Driver Resources by Part Numbers
LOW-SIDE GATE
HIGH-SIDE GATE DRIVER
DRIVER
OPEN-DRAIN DRIVER
PART
SOURCE /
SINK
CURRENT
SOURCE/
SINK
CURRENT
NUMBER
MAX
SUPPLY
DRLx
DRHx
OHIx
PAC5220
3
1A/1A
3
52V
1A/1A
2 (40V/ 40mA)
The ASPD includes built-in configurable fault protection for the internal gate drivers.
12.3.1. Low-Side Gate Driver
The DRLx low-side gate driver drives the gate of an external MOSFET or IGBT switch between the low-level
VSSP power ground rail and high-level VP supply rail. The DRLx output pin has sink and source output current
capability of 1A. Each low-side gate driver is controlled by a microcontroller port signal with 4 configurable levels
of propagation delay.
12.3.2. High-Side Gate Driver
The DRHx high-side gate driver drives the gate of an external MOSFET or IGBT switch between its low-level
DRSx driver source rail and its high-level DRBx bootstrap rail. The DRSx pin can go up to 52V steady state. The
DRHx output pin has sink and source output current capability of 1A. The DRBx bootstrap pin can have a
maximum operating voltage of 16V relative to the DRSx pin, and up to 64V steady state. The DRSx pin is
designed to tolerate momentary switching negative spikes down to -5V without affecting the DRHx output state.
Each high-side gate driver is controlled by a microcontroller port signal with 4 configurable levels of propagation
delay.
For bootstrapped high-side operation, connect an appropriate capacitor between DRBx and DRSx and a
properly rated bootstrap diode from VP to DRBx. To operate the DRHx output as a low-side gate driver, connect
its DRBx pin to VP and its DRSx pin to VSSP
.
12.3.3. High-Side Switching Transients
Typical high-side switching transients are shown in Figure 12-3(a). To ensure functionality and reliability, the
DRSx and DRBx pins must not exceed the peak and undershoot limit values shown. This should be verified by
probing the DRBx and DRSx pins directly relative to VSS pin. A small resistor and diode clamp for the DRSx pin
can be used to make sure that the pin voltage stays within the negative limit value. In addition, the high-side
slew rate dV/dt must be kept within ±5V/ns for DRSx. This can be achieved by adding a resistor-diode pair in
series, and an optional capacitor in parallel with the power switch gate. The parallel capacitor also provides a
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Rev 1.11‒June 15, 2017