基于PWM控制的两级电流型多相倍压器

APCCAS 2008 - 2008 IEEE Asia Pacific Conference on Circuits and Systems Pub Date : 2008-11-01 DOI:10.1109/APCCAS.2008.4746272

Yuen-Haw Chang

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引用次数: 2

摘要

为了实现低功耗升压DC-DC转换，提出了一种基于脉宽调制(PWM)控制的闭环开关电容(SC)两级电流型多相倍压器(MPVD)。基于sc的变换器不需要磁性元件，例如电感和变压器，因此集成电路制造将有希望用于VLSI应用。这种电流模MPVD可以用最少的泵浦电容获得较高的电压增益，从而节省了制造面积。此外，通过将电流源与PWM控制相结合，实现了闭环MPVD，不仅提高了对不同期望输出的调节能力，而且增强了输出对源噪声的鲁棒性。在这里，一些理论分析包括状态空间平均模型，稳态/暂态分析，功率效率和系统稳定性。最后，利用OrCAD对闭环电流模MPVD进行了仿真，结果表明了所提方案的有效性。

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Two-stage current-mode multiphase voltage doubler based on PWM control

A closed-loop switched-capacitor-based (SC) two-stage current-mode multiphase voltage doubler (MPVD) is proposed based on pulse-width-modulation (PWM) control to achieve low-power step-up DC-DC conversion. The SC-based converter needs no magnetic element, e.g. inductor and transformer, so I.C. fabrication will be promising for VLSI applications. This current-mode MPVD can obtain the high voltage gain just by using the least number of pumping capacitors, so it will save the fabrication areas more. Besides, by combining with a current source and PWM control, a closed-loop MPVD is realized not only to enhance regulation capability for different desired outputs, but also to reinforce output robustness against source noises. Here, some theoretical analysis includes state-space averaging model, steady-state/transient analysis, power efficiency, and system stability. Finally, the closed-loop current-mode MPVD is simulated by OrCAD, and the results are illustrated to show the efficacy of the proposed scheme.

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