Designers must pay close attention to
PCB layout to achieve optimum performance for the UCC5350-Q1. Some key guidelines are:
- Component placement:
- Low-ESR and low-ESL
capacitors must be connected close to the device between the
VCC1 and GND1 pins and between the VCC2 and
VEE2 pins to bypass noise and to support high peak
currents when turning on the external power transistor.
- To avoid large negative
transients on the VEE2 pins connected to the switch node, the
parasitic inductances between the source of the top transistor and the
source of the bottom transistor must be minimized.
- Grounding considerations:
- Limiting the high peak
currents that charge and discharge the transistor gates to a minimal
physical area is essential. This limitation decreases the loop
inductance and minimizes noise on the gate terminals of the transistors.
The gate driver must be placed as close as possible to the
transistors.
- High-voltage considerations:
- To ensure isolation
performance between the primary and secondary side, avoid placing any
PCB traces or copper below the driver device. A PCB cutout or groove is
recommended in order to prevent contamination that may compromise the
isolation performance.
- Thermal considerations:
- A large amount of power
may be dissipated by the UCC5350-Q1 if the driving
voltage is high, the load is heavy, or the switching frequency is high
(for more information, see Section 9.2.2.3). Proper PCB layout can help dissipate heat from the device to the
PCB and minimize junction-to-board thermal impedance
(θJB).
- Increasing the PCB copper
connecting to the VCC2 and VEE2 pins is
recommended, with priority on maximizing the connection to
VEE2. However, the previously mentioned high-voltage PCB
considerations must be maintained.
- If the system has
multiple layers, TI also recommends connecting the VCC2 and
VEE2 pins to internal ground or power planes through
multiple vias of adequate size. These vias should be located close to
the IC pins to maximize thermal conductivity. However, keep in mind that
no traces or coppers from different high voltage planes are
overlapping.