Abstract: A switching frequency dithering method, a switching circuit and a DC-DC converter. A switching frequency in the switching frequency dithering method dithers up and down at a third switching frequency or between randomly generated target switching frequencies. The embodiments further provide a switching circuit and a DC-DC converter, which can be used to control a clock signal and optimize comprehensive system performance such as improving system efficiency, reducing noise and ripple, suppressing switching harmonics, and reducing electromagnetic radiation.
Abstract: A DC-DC converter, where a first terminal of the first-phase charge pump conversion branch and a first terminal of the second-phase charge pump conversion branch are respectively connected to an output terminal of the power input circuit, a second terminal of the first-phase charge pump conversion branch and a second terminal of the second-phase charge pump conversion branch are respectively connected to an input terminal of the power output circuit, the first-phase charge pump conversion branch and the second-phase charge pump conversion branch are respectively connected to the control circuit and are separately controlled by the control circuit, and the control circuit generates control signals of the first-phase charge pump conversion branch and the second-phase charge pump conversion branch based on feedback signals output by the converter. This converter can provide higher voltage conversion efficiency and implement flexible operating mode switching.