A 2.3GHz Fully Integrated DC-DC Converter based on Electromagnetically Coupled Class-D LC Oscillators achieving 78.1% Efficiency in 22nm FDSOI CMOS
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Date
2021
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Journal Article
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Abstract
This letter introduces a fully integrated DC-DC converter based on electromagnetically coupled class-D LC oscillators featuring on-chip stacked 8-shaped transformers in a 22nm FDSOI CMOS process. The GHz-range resonant frequency of the proposed converter enables high integration of the passive components, achieving up to 3.2W/mm2 power density. The on-chip 8-shaped stacked transformers reach 16.9 quality factor and 0.91 coupling coefficient, demonstrating 78.1% converter efficiency. Furthermore, the twisted nature of the 8-shaped transformers introduces a magnetic field cancellation mechanism that minimizes the parasitic coupling between the transformers, saving 25% area in one single converter unit and 47% in the converter array, with respect a spiral transformer implementation. In addition, the field intensity is reduced by 27dB outside of the transformer borders compared with a spiral implementation, which helps to mitigate issues such as parasitic magnetic coupling with neighbouring circuits and EMI.
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published
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4
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218 - 221
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IEEE
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09647 - Jang, Taekwang / Jang, Taekwang