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Fully Integrated Buck Converter with 78% Efficiency at 365mW Output Power Enabled by Switched-Inductor Capacitor Topology and Inductor Current Reduction Technique.

, , , , , and . ISSCC, page 152-154. IEEE, (2019)

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A Wide Output Voltage Range Single-Input-Multi-Output Hybrid DC-DC Converter Achieving 87.5% Peak Efficiency With a Fast Response Time and Low Cross Regulation for DVFS Applications., , , , , and . CICC, page 1-4. IEEE, (2020)A Dual-Output Step-Down Switched-Capacitor Voltage Regulator With a Flying Capacitor Crossing Technique for Enhanced Power Efficiency., , , , , , and . IEEE Trans. Very Large Scale Integr. Syst., 27 (12): 2861-2871 (2019)Analog-Assisted Digital Capacitorless Low-Dropout Regulator Supporting Wide Load Range., , , , , , , and . IEEE Trans. Ind. Electron., 66 (3): 1799-1808 (2019)A Sub-1V Analog-Assisted Inverter-Based Digital Low-Dropout Regulator with a Fast Response Time at 25mA/100ps and 99.4% Current Efficiency., , , , , , and . CICC, page 1-4. IEEE, (2019)Fully Integrated Buck Converter with 78% Efficiency at 365mW Output Power Enabled by Switched-Inductor Capacitor Topology and Inductor Current Reduction Technique., , , , , and . ISSCC, page 152-154. IEEE, (2019)An Inductor-First Single-Inductor Multiple-Output Hybrid DC-DC Converter With Integrated Flying Capacitor for SoC Applications., , , , , , and . IEEE Trans. Circuits Syst. I Regul. Pap., 69 (12): 4823-4836 (2022)Design of Multi-Output Switched-Capacitor Voltage Regulator via Machine Learning., , , , , , and . DATE, page 502-507. IEEE, (2020)