Yushi Liu, Ashish Kumar, Jie Lu, D. Maksimović, K. Afridi
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引用次数: 14
摘要
本文介绍了一种利用阻抗控制网络(ICN)变换器结构设计高频谐振dc-dc变换器的新方法。这种设计方法保证了转换器整个工作范围内所有晶体管的零电压开关(ZVS)和近零电流开关(ZCS)。与以前的ICN转换器设计技术相比,新方法不需要频率调整来实现ZVS。此外,它使用严格的分析方法来最小化ZVS所需的相位滞后,从而确保接近zcs的运行。通过1 mhz 90 w ICN谐振变换器的原型验证了所提出设计方法的优势,该变换器的输入电压范围为36 V至60 V,输出电压为1.8 V。该原型ICN谐振变换器采用堆叠逆变器结构,进一步提高了性能。
New design methdology for megahertz-frequency resonant dc-dc converters using impedance control network architecture
This paper introduces a new design methodology for high-frequency resonant dc-dc converters utilizing the recently proposed impedance control network (ICN) converter architecture. This design methodology guarantees zero voltage switching (ZVS) and near zero current switching (ZCS) of all transistors across the entire operating range of the converter. As compared to previous ICN converter design techniques, the new methodology does not require frequency adjustment to achieve ZVS. In addition, it uses a rigorous analytical approach to minimize the phase lag required for ZVS, thus ensuring near-ZCS operation. The advantages gained from the proposed design methodology are validated using a prototype 1-MHz 90-W ICN resonant converter designed to operate over an input voltage range of 36 V to 60 V and output voltage of 1.8 V. This prototype ICN resonant converter employs a stacked inverter structure to further enhance performance.
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