A Novel Control Technique for Single-Inductor Multiple-Output DC-DC Buck Converters

2006 IEEE International Conference on Industrial Technology Pub Date : 2006-12-01 DOI:10.1109/ICIT.2006.372361

P. Patra, S. Samanta, A. Patra, S. Chattopadhyay

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引用次数: 10

Abstract

This paper presents the design of a single-inductor regulated multiple-output (SIMO) buck converter with interleaved switched capacitor outputs. A small signal analysis of the buck converter using state space averaging technique is carried out. A compensating network and novel control logic are designed to minimize effects of cross regulation and load transient in the three-coupled outputs. In view of the significant advantages of current-mode control over voltage-mode the main switch of this multiple-output converter is made current-controlled. Interestingly, sub-harmonic oscillations start occurring at a much lower duty cycle than 0.5 in multiple-output current controlled converters. Our work focuses on the cause of instability and the minimum duty ratio beyond which sub-harmonic oscillations occur. Lastly, the expression of a slope-compensating ramp, required to eliminate sub-harmonic oscillations, has been derived for multiple-output converters. The transistor level design of the above has been designed and simulated in cadence analog environment in a 0.5 mu process. The simulation results are in conformity with the evaluated stabilizing ramp to eliminate sub-harmonic oscillations.

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一种新的单电感多输出DC-DC降压变换器控制技术

本文设计了一种具有交错开关电容输出的单电感调节多输出(SIMO)降压变换器。利用状态空间平均技术对降压变换器进行了小信号分析。设计了补偿网络和新颖的控制逻辑，以最大限度地减少三耦合输出中的交叉调节和负载暂态的影响。鉴于电流模式控制相对于电压模式控制的显著优点，该多输出变换器的主开关采用电流控制。有趣的是，在多输出电流控制转换器中，次谐波振荡开始发生在远低于0.5的占空比。我们的工作重点是不稳定的原因和最小占空比，超过该占空比，发生次谐波振荡。最后，推导了多输出变换器消除次谐波振荡所需的斜率补偿斜坡的表达式。上述晶体管电平设计已在0.5亩的节奏模拟环境中进行了设计和仿真。仿真结果与所评估的消除次谐波振荡的稳定斜坡一致。

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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2006 IEEE International Conference on Industrial Technology

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