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Unequal Duty-Ratio Feedforward Control to Extend Balanced-Currents Input Voltage Range for Series-Capacitor-Based Boost PFC Converter

Hung‐Chi Chen, Yin-Chun Lan

2022IEEE Transactions on Industrial Electronics22 citationsDOI

Abstract

In this letter, the series-capacitor-based boost power factor correction (PFC) converter (or called the voltage doubler PFC converter) is studied. It possesses the voltage doubler and intrinsic current balancing characteristics only when their equal duty ratios are larger than 0.5. Thus, for PFC application, the balanced-currents input voltage should be smaller than the quarter (1/4) output dc voltage. To extend the balanced-currents input voltage range, the unequal duty-ratio feedforward control is proposed in this letter. For the case of dc output voltage 400 V, the maximum input voltage with balanced inductor currents increased from 100 V (the quarter output dc voltage) to 200 V. The proposed control method is implemented in the field programmable gate array chip to evaluate its performance.

Topics & Concepts

Voltage doublerDuty cycleVoltage dividerBoost converterControl theory (sociology)CapacitorFeed forwardInductorVoltageDropout voltageVoltage regulationPower factorIntegrating ADCElectrical engineeringForward converterEngineeringComputer scienceControl (management)Artificial intelligenceControl engineeringAdvanced DC-DC ConvertersMultilevel Inverters and ConvertersMicrogrid Control and Optimization
Unequal Duty-Ratio Feedforward Control to Extend Balanced-Currents Input Voltage Range for Series-Capacitor-Based Boost PFC Converter | Litcius