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引用次数: 0
摘要
作为负载点(PoL)应用中的一种常用拓扑结构,多相降压变换器总是面临更快的负载瞬态响应和更小的电感纹波电流之间的权衡问题,在许多文献中采用耦合电感来解决这一问题。本文旨在对应用于5 V DC - PoL四相降压变换器的四足集成间接耦合电感进行建模和分析。通过等效稳态电感模型进行定量分析。利用有限元仿真中提取的参数,研究了电感器在不同占空比下的工作情况。然后使用高度紧凑的转换器原型验证了结果。最后,对样机的效率性能进行了测试,以检验集成电感在工业上的实用价值。
Modeling and Analysis of Coupling Effect in Four Legged Core for Multi-phase Buck Converter
As a popular topology in point of load (PoL) application, multiphase buck converter always faces a trade-off problem between faster load-transient response and smaller inductor ripple current, which is solved by the coupled inductor in a number of literatures. This paper is aimed at modeling and analysis for a four-legged integrated indirect coupled inductor applied in a four-phase buck converter for 5 V DC to PoL application. The quantitative analysis is conducted through an equivalent steady-state inductance model. Inductor operation is investigated under different duty cycle in the circuit simulation using parameters extracted from FEM simulation. The result is then verified using a highly compact converter prototype. Finally, efficiency performance of the prototype is tested for seeing the integrated inductor practical value in industry.
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