Switching Sequence Synthesis for Minimizing RMS Current in a Single-Inductor-Multi-Output Converter

2019 IEEE Applied Power Electronics Conference and Exposition (APEC) Pub Date : 2019-03-17 DOI:10.1109/APEC.2019.8722226

S. Maji, K. Hariharan, S. Kapat

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Abstract

Single-inductor-multiple-output (SIMO) DC-DC converters offer a compact power management solution in low power applications for simultaneously powering multiple DC loads. While using a time-interleaved PWM control technique, there exist multiple feasible switching sequences in a SIMO converter. The primary research focus in the recent past remains in minimizing the cross regulation and coupling effects. However, there has been a little emphasis on the design of the switching sequence for minimizing the RMS inductor current in order to minimize the conduction losses. This paper is aimed in finding a suitable switching sequence for the reduction in the RMS value of the inductor current iL in a SIMO converter. The primary objectives are to (i) find the practically feasible switching sequences, (ii) identify the sequence with the lowest RMS value of iL at a given operating condition, and (iii) develop an optimal algorithm for dynamically varying operating conditions. A prototype of dual-output buck converter is made. A three-output simulated and a two-output experimental case studies are considered, and analytical predictions are found to be consistent with the results.

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在单电感-多输出变换器中最小有效值电流的开关序列合成

单电感多输出(SIMO) DC-DC转换器为低功耗应用提供了紧凑的电源管理解决方案，可同时为多个直流负载供电。当采用时间交错PWM控制技术时，SIMO变换器中存在多个可行的开关序列。近年来的主要研究重点仍然是最小化交叉调节和耦合效应。然而，为了最小化导通损耗，对于最小化RMS电感电流的开关顺序的设计一直有一点强调。本文旨在寻找一种合适的开关顺序来降低SIMO变换器中电感电流iL的均方根值。主要目标是(i)找到实际可行的切换序列，(ii)确定给定操作条件下iL的RMS值最低的序列，以及(iii)开发动态变化操作条件的最佳算法。制作了一种双输出降压变换器样机。考虑了三个输出的模拟和两个输出的实验案例研究，并发现分析预测与结果一致。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2019 IEEE Applied Power Electronics Conference and Exposition (APEC)

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