Jun-Gu Kim scite author profile

An interleaved active clamp flyback inverter using a synchronous rectifier for a photovoltaic AC module system is proposed. In a conventional single flyback inverter for the photovoltaic AC module system, this inverter has drawbacks of a conduction losses of each switch, transformer copper and high ripple current of capacitor. To overcome these problems, two flyback converter modules with interleaved pulse-width modulation (PWM) are connected in parallel at the input and output sides reducing the ripple current on the input and output capacitors and decrease the current stress on the transformer windings. Thus, the transformer copper losses and the conduction losses on the switches are reduced. Also, reliability and life of capacitor are increased due to reducing the ripple current of input and output capacitors. In order to verify these, theoretical analysis and simulation are performed. Index Terms-interleaved, synchronous rectifier, flyback inverter, photovoltaic(PV), AC module system

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Flyback inverter using voltage sensorless MPPT for AC module systems

Kim

et al. 2010

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New approach for identifying boundary characteristics using transmissibility

Joo

Min

Kim

et al. 2017

Journal of Sound and Vibration

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Jun-Gu Kim

A Real Maximum Power Point Tracking Method for Mismatching Compensation in PV Array Under Partially Shaded Conditions

An Islanding Detection Method for a Grid-Connected System Based on the Goertzel Algorithm

A New Control Strategy for Improving Weighted Efficiency in Photovoltaic AC Module-Type Interleaved Flyback Inverters

Improved non-isolated high voltage gain boost converter using coupled inductors

High-efficiency bidirectional soft switching DC-DC converter

Interleaved active clamp flyback inverter using a synchronous rectifier for a photovoltaic AC module system

Flyback inverter using voltage sensorless MPPT for AC module systems

New approach for identifying boundary characteristics using transmissibility

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