Tianshi Xie, Jianglin Zhu, Tom Byrd, D. Maksimović, Hanh-Phuc Le
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引用次数: 2
摘要
由于无源元件在决定电源管理解决方案的总体占地面积方面起着至关重要的作用,为了减小无源元件[1]-[5]的尺寸,人们已经在新的转换器拓扑、工作原理和封装技术上投入了大量的努力。为了实现这些目标,可以提高有效开关频率[3]-[5],或者使用混合转换器拓扑和/或谐振操作来更好地利用电感和电容器进行功率传输。优先考虑近距离和低寄生性的包装也特别令人感兴趣。从[6]的初步离散电路实现开始,本工作努力实现基于新的集成混合转换器拓扑和操作,高开关频率和先进封装的高密度目标,这些共同使纳米亨利级电感器的使用成为可能。该原型是在3.23 mm2的1P6M 0.13 μ m BCD工艺(模具显微图)中制造的。
A 0.66 W/mm2 Power Density, 92.4% Peak Efficiency Hybrid Converter with nH-Scale Inductors for 12 V System
As passive components play a critical role in determining the overall footprint of power management solutions, significant efforts have been put into new converter topologies, operating principles, and packaging techniques aimed at reducing the size of passive components [1]–[5]. To achieve these goals, one can increase the effective switching frequency [3]–[5], or use hybrid converter topologies and/or resonant operation to better utilize inductors and capacitors for power transfer. Packaging that prioritizes close proximity and low parasitics is also of particular interest [5]. Starting from the preliminary discrete-circuit implementation in [6], this work strives to achieve the high-density goals based on a new integrated hybrid converter topology and operation, high switching frequency, and advanced packaging, which collectively enable the use of nano-Henry scale inductors. The prototype is fabricated in 3.23 mm2 of a 1P6M 0.13 µm BCD process (Die micrograph).
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