Title :
A novel winding-coupled buck converter for high-frequency, high-step-down DC-DC conversion
Author :
Yao, Kaiwei ; Qiu, Yang ; Xu, Ming ; Lee, Fred C.
Author_Institution :
Monolithic Power Syst., Los Gatos, CA, USA
Abstract :
This paper analyzes the fundamental limitations of the buck converter for high-frequency, high-step-down dc-dc conversion. Further modification with additional coupled windings in the buck converter yields a novel topology, which significantly improves the efficiency without compromising the transient response. An integrated magnetic structure is proposed for these windings so that the same magnetic cores used in the buck converter can be used here as well. Furthermore, it is easy to implement a lossless clamp circuit to limit the device voltage stress and to recover inductor leakage energy. This new topology is applied for a 12V-to-1.5V/25A voltage regulator module (VRM) design. At a switching frequency of 2MHz, over 80% full-load efficiency is achieved, which is 8% higher than that of the conventional buck converter.
Keywords :
DC-DC power convertors; inductors; magnetic cores; magnetic structure; switching convertors; transient response; voltage regulators; 12 to 1.5 V; 2 MHz; 25 A; DC-DC conversion; VRM; coupled inductor; device voltage stress; full-load efficiency; inductor leakage energy; integrated magnetic structure; loss less clamp circuit; magnetic cores; switching frequency; transient response; voltage regulator module; winding-coupled buck converter; Buck converters; Circuit topology; Clamps; Inductors; Integrated circuit yield; Magnetic analysis; Magnetic cores; Stress; Transient response; Voltage; Coupled inductor; VRM; high-frequency dc–dc converter; lossless clamp circuit;
Journal_Title :
Power Electronics, IEEE Transactions on
DOI :
10.1109/TPEL.2005.854022
