For all applications, a ceramic decoupling capacitor of 0.01 μF or greater is recommended between the IN terminal and GND terminal. For hot-plug applications, where input power-path inductance is negligible, this capacitor can be eliminated or minimized.
The optimal placement of the decoupling capacitor is closest to the IN and GND terminals of the device. Care must be taken to minimize the loop area formed by the bypass-capacitor connection, the IN terminal, and the GND terminal of the IC. See Figure 63 for a PCB layout example.
High current-carrying power-path connections must be as short as possible and must be sized to carry at least twice the full-load current.
The GND terminal must be tied to the PCB ground plane at the terminal of the IC. The PCB ground must be a copper plane or island on the board.
Locate the following support components close to their connection pins:
RILM
CdVdT
Resistor network for the EN/UVLO pin
Resistor network for the OVLO pin for TPS25693x variants
Pull-down resistor on the OVCSEL pin for TPS25692x variants
Connect the other end of the component to the GND pin of the device with shortest trace length. The trace routing from the RILM, CdVdT and ROVCSEL (for TPS25962x variants) components to the device pins must be as short as possible to reduce parasitic effects on the current limit, soft-start timing and overvoltage clamp response. These traces must not have any coupling to switching signals on the board.
Protection devices such as TVS, snubbers, capacitors, or diodes must be placed physically close to the device they are intended to protect. These protection devices must be routed with short traces to reduce inductance. For example, a protection Schottky diode is recommended to address negative transients due to switching of inductive loads, and it must be physically close to the OUT pins.
Obtaining acceptable performance with alternate layout schemes is possible. The Layout Example shown in Figure 63 has been shown to produce good results and is intended as a guideline.