D. V. Ghodke scite author profile

Abstract-AC-to-DC converters based on one-cycle control exhibit instability in current control at light load conditions as well as when they are operating in the inverting mode. In this paper, a modified one-cycle controller for bidirectional ac-to-dc converter is proposed. A fictitious current component in phase with the utility voltage is synthesized. The sum of this current component and the actual load current is compared with the sawtooth waveform to generate the gating pulses for the switches. This modification not only renders stability to the converter at light load conditions and the inverting mode of operations but also enables the converter to seamlessly transfer its operation from the rectifying mode to the inverting mode and vice versa. Detailed simulation studies are carried out to verify the effectiveness of the proposed scheme. To validate the viability of the scheme, detailed experimental studies are carried out on a 2-kW laboratory prototype.Index Terms-Bidirectional ac-to-dc converter, high-powerfactor converter, improved light load stability, one-cycle control (OCC).

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One-Cycle-Controlled Bidirectional AC-to-DC Converter With Constant Power Factor

Ghodke

Sreeraj

Chatterjee

et al. 2009

IEEE Trans. Ind. Electron.

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Abstract-Grid-connected unity-power-factor converters based on one-cycle control (OCC) do not require the service of phaselocked loop or any other synchronization circuits for interfacing with the utility. As a result, these schemes are becoming increasingly popular. However, as the power handled by the converter increases, the power factor deteriorates. To understand quantitatively the cause of poor power factor while negotiating high power loads, large signal models for these schemes are developed. Having understood the cause for poor power factor operation, a modified-OCC-based converter is proposed. This scheme has high power factor while supplying high power loads. Detailed simulation studies are carried out to verify the efficacy of the scheme. In order to confirm the viability of the scheme, detailed experimental studies are carried out on a 3-kW laboratory prototype.Index Terms-AC-DC power conversion, one-cycle controller, power-factor correction, single-and three-phase rectifier.

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Modified one-cycle controlled load compensator

Chatterjee

Ghodke

Chandra

et al. 2011

IET Power Electron.

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Three-Phase Three Level, Soft Switched, Phase Shifted PWM DC–DC Converter for High Power Applications

Ghodke

Chatterjee

Fernandes

2008

IEEE Trans. Power Electron.

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D. V. Ghodke

Modified One-Cycle Controlled Bidirectional High-Power-Factor AC-to-DC Converter

One-Cycle-Controlled Bidirectional AC-to-DC Converter With Constant Power Factor

Modified one-cycle controlled load compensator

Three-Phase Three Level, Soft Switched, Phase Shifted PWM DC–DC Converter for High Power Applications

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