The buck converter has emerged as a critical element in modern power electronics, offering highly efficient voltage step‐down conversion for a wide array of applications. Recent advances have focused ...

A DC-DC Converter with fixed compensation parameters cannot perform well if load dynamics vary widely. A better approach is adaptive control, which can handle a broad range of parameter variations ...

Control loops for power converters are complex and rely on the converter’s operation within a window of defined conditions. However, when converters operate outside these defined conditions, they can ...

Linear Technology’s LTC3119 is an efficient, monolithic buck-boost converter that operates with inputs from 2.5 to 18 V (Fig. 1), making it well-suited to operate from one- to four-cell Li-ion ...

A general approach for optimizing dynamic response for buck converters is presented. The basic theory to stabilize a buck converter with different types of compensation networks is introduced in ...

Halo Microelectronics is aiming at portable systems with dynamic voltage scaling with a pair of 3A synchronous buck converter that can be programmed on-the-fly over I2C for output voltage and output ...