SLVSH95 July 2024 TPS546C25
ADVANCE INFORMATION
When the operation mode is set to DCM, the device automatically reduces the switching frequency at light-load conditions to maintain high efficiency. This section describes the operation in detail.
As the output current decreases from heavy load condition, the inductor current also decreases until the rippled valley of the inductor current touches zero level. Zero level is the boundary between the continuous-conduction and discontinuous-conduction modes. The synchronous MOSFET turns off when this zero inductor current is detected. As the load current decreases further, the converter runs into discontinuous-conduction mode (DCM). The on-time is maintained to a level approximately the same as during continuous-conduction mode operation so that discharging the output capacitor with a smaller load current to the level of the reference voltage requires more time. The transition point to the light-load operation IOUT(LL) (for example: the threshold between continuous- and discontinuous-conduction mode) is calculated as shown in below equation.
Where
The reduced switchng frequency at load currents less than IOUT(LL) when in DCM are given by:
The output voltage peak to peak ripple increases in load load operation, reaching upto 4× the continuous conduction ripple voltage at no load.
TI recommends using low ESR capacitors (such as ceramic capacitor) for skip-mode.