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引用次数: 9
摘要
本文演示了第一个仅使用单个电感的7比谐振开关电容(SC)变换器,实现了CMOS中报道的最宽谐振工作范围。介绍了一种频率缩放的齿轮系SC拓扑结构,通过消除现有技术所需的级间去耦,可以通过一个电感器以任意二进制比对所有飞行电容器进行软充电。提出了齿轮比调制来控制谐振q因子,因此调节器可以从谐振变换器优雅地过渡到全电容SC,实现> 24000倍输出电流范围。在相同的封装面积下,该变换器的效率比共制SC变换器和3电平降压变换器分别提高了14.4%和12%,同时在0.18 μm体积下的峰值效率为73.3%,电流密度为0.14 a /mm2。
A single-inductor 7+7 ratio reconfigurable resonant switched-capacitor DC-DC converter with 0.1-to-1.5V output voltage range
This paper demonstrates the first 7-ratio resonant switched capacitor (SC) converter using only a single inductor, realizing the widest resonant operating range reported in CMOS. A frequency-scaled gear train SC topology is introduced that enables soft-charging of all flying capacitors through one inductor at any arbitrary binary ratio by eliminating the inter-stage decoupling required in prior-art. Gear ratio modulation is proposed to control the resonance Q-factor, and hence the regulator can be gracefully transitioned from a resonant converter to a fully-capacitive SC, enabling > 24,000x output current range. For the same footprint, the converter achieves up to 14.4% and 12% efficiency improvements over co-fabricated SC and 3-level buck converters, respectively, while operating with a peak efficiency of 73.3% and current density of 0.14 A/mm2 in 0.18 μm bulk.
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