Due to the strong drive strength of the UCC21738-Q1, careful considerations must be taken in PCB
design. Below are some key points:
- The driver should be placed as close as possible to the power semiconductor to
reduce the parasitic inductance of the gate loop on the PCB traces.
- The decoupling capacitors of the input and output power supplies should be
placed as close as possible to the power supply pins. The peak current generated
at each switching transient can cause high dI/dt and voltage spike on the
parasitic inductance of the PCB traces.
- The driver COM pin should be connected to the Kelvin connection of the SiC
MOSFET source or IGBT emitter. If the power device does not have a split Kelvin
source or emitter, the COM pin should be connected as close as possible to the
source or emitter terminal of the power device package to separate the gate loop
from the high power switching loop.
- Use a ground plane on the input side to shield the input signals. The input
signals can be distorted by the high frequency noise generated by the output
side switching transients. The ground plane provides a low-inductance filter for
the return current flow.
- If the gate driver is used for the low-side switch, which the COM pin is
connected to the dc bus negative, use the ground plane on the output side to
shield the output signals from the noise generated by the switch node; if the
gate driver is used for the high-side switch, which the COM pin is connected to
the switch node, use of the ground plane is not recommended.
- If the ground plane is not used on the output side, separate the return path of
the OC and AIN ground loop from the gate loop ground which has large peak source
and sink currents.
- No PCB trace or copper is allowed under the gate driver. A PCB cutout is
recommended to avoid any noise coupling between the input and output side which
can contaminate the isolation barrier.