Phase-Shedding Control Scheme for Wide Voltage Range Operation of Extended-Duty-Ratio Boost Converter

Ankul Gupta, R. Ayyanar, S. Chakraborty
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引用次数: 1

Abstract

In this paper, a phase shedding control scheme for extended-duty-ratio (EDR) boost converter is proposed to achieve wide input and output voltage range operation of the converter. EDR converters can achieve very high gain, for example above 20 for a 4-phase converter, but have limitations on the lowest allowable gain. The proposed scheme allows operation at gain as low as unity while retaining the main benefits of EDR boost such as low voltage stress across switches. The phase shedding control can be optimized based on the application requirements. In this paper, the phase shedding control is optimized for low device voltage stress over wide input and output voltage range operation. The converter control implementation is discussed in detail. The control scheme is verified with a 4-phase EDR boost converter with input voltage varying between 20 V–40 V and output voltage ranging between 50 V–400 V. Experimental results of closed loop operation with adaptive PI controller are presented and the phase shedding scheme is verified by showing the transition from one configuration to another based on the converters varying gain.
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扩展占空比升压变换器宽电压范围工作的减相控制方案
本文提出了一种扩展占空比(EDR)升压变换器的减相控制方案,以实现变换器的宽输入输出电压范围工作。EDR变换器可以实现非常高的增益,例如4相变换器可以达到20以上,但对最低允许增益有限制。所提出的方案允许在低至1的增益下运行,同时保留EDR升压的主要优点,如开关间的低电压应力。可根据应用要求对脱相控制进行优化。本文针对宽输入、宽输出电压范围下器件电压应力低的特点,对断相控制进行了优化。详细讨论了变换器的控制实现。采用输入电压在20 V - 40 V之间,输出电压在50 V - 400 V之间的4相EDR升压变换器对控制方案进行了验证。给出了自适应PI控制器闭环运行的实验结果,并通过显示基于变换器增益变化的一种结构到另一种结构的转换来验证减相方案。
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