Isolated DC to Single-Phase AC Converter with Active Power Decoupling Capability Using Coupled Inductor

Active power decoupling (APD) method has been studied to enhance the lifetime of residential photovoltaic (PV) power generation systems. In single-phase inverter, the DC voltage has a ripple due to the propagation of the 2nd power pulsation from the fundamental voltage and current. The APD method suppresses the DC voltage ripple by compensating for the power pulsation. However, a single-phase grid voltage contains harmonic components and power pulsation from these harmonics, which can propagate to the DC side. Conventional APD control compensates for the 2nd power pulsation only from the fundamental components, and thus cannot suppress the DC voltage ripple caused by the harmonic components. Therefore, this paper proposes control strategies for APD method that can compensate for the power pulsation caused by both fundamental and harmonic components. Furthermore, the effectiveness of the APD control is verified using a 400 W power conditioning system.

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Isolated DC to Single-Phase AC Converter with Active Power Decoupling Capability Using Coupled Inductor

Cited by 2 publications

References 18 publications

Boost Operation of a Dual-Active-Bridge AC-DC Converter with an Active Energy Buffer

Boost Operation of a Dual-Active-Bridge AC-DC Converter with an Active Energy Buffer

Active Power Decoupling Control for Single-phase Power Conditioning Systems Focusing on Harmonic Voltage

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