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Dual-Path Three-Level Buck Converter With Loop-Free Autocalibration for Flying Capacitor Self-Balancing

Woojoong Jung, Se-Un Shin, Sung‐Wan Hong, Sung-Min Yoo, Tae‐Hwang Kong, Jun‐Hyeok Yang, Sang-Ho Kim, Michael Choi, Jongshin Shin, Hyung‐Min Lee

2020IEEE Transactions on Power Electronics45 citationsDOI

Abstract

This letter proposes a loop-free autocalibration technique for self-balancing of flying capacitors in a three-level dc-dc buck converter. The proposed converter utilizes a dual-path power stage with balancing switches that adaptively short flying capacitors at de-energizing phases. Thus, the dual-path three-level converter ensures that flying capacitor voltages are self-balanced at half the input voltage without using additional feedback calibration loops, leading to robust operation and competitive efficiencies. The prototype was fabricated in the 0.13-μm CMOS BCD process and adopted two flying capacitors of 4.7 μF each and an inductor of 10 μH with a dc resistance of 128 mΩ. When an 8-V input was converted to a 3-V output voltage with a load current of 400 mA, the measured efficiency was 88.6% at 800 kHz switching while flying capacitors are automatically balanced.

Topics & Concepts

CapacitorInductorBuck converterVoltageElectrical engineeringSwitched capacitorĆuk converterDual loopLoop (graph theory)Buck–boost converterFilter capacitorComputer scienceElectronic engineeringEngineeringMathematicsCombinatoricsAdvanced DC-DC ConvertersMultilevel Inverters and ConvertersSilicon Carbide Semiconductor Technologies
Dual-Path Three-Level Buck Converter With Loop-Free Autocalibration for Flying Capacitor Self-Balancing | Litcius