一种基于温度的动态电流共享迟滞Buck变换器

Long Zhang, Hong-Chong Wu, Ching-Hwa Cheng, Don-Gey Liu, M. Shiau, Weidian Lai, Ziwei Zheng
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引用次数: 0

摘要

在本研究中,采用了基于温度的均流策略,而不是负载的平等共享,以提高不间断电源系统(UPS)的可靠性。根据UPS中每个电源模块的温度,最好降低UPS中较热电源模块的输出电流比。在这个设计中,我们通过UMC 0.25μm CMOS技术实现了我们的调节电路,输入范围从3V到4.2V,调节输出为1.1V。每相的额定输出电流为100mA。我们还采用了电流模式误差校正电路,基于相同温度下每相的平均电流来提高均流性能。根据我们的仿真结果,在我们的系统中,在相同温度下,电源模块的均流误差可以限制在±5%以内。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
A Temperature-Based Hysteresis Buck Converter for Dynamic Current Sharing
In this study, a temperature-based current sharing strategy rather than equal sharing for loads was applied to promote the reliability of uninterruptible power systems (UPS). According to the temperature of each power supply module in a UPS, it would be better to reduce the output current ratio for a hotter supply module in the UPS. In this design, we implemented our regulation circuits by the UMC 0.25-μm CMOS technology with an input range from 3 V to 4.2 V and the regulated output at 1.1 V. The rated output current was 100 mA for each phase. We also employed a current-mode error-correction circuit to improve the current sharing performance based on the averaged current of each phase at the same temperature. According to our simulation results, the current sharing error can be restricted within ± 5% for the supply modules at the same temperature in our system.
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