期刊
IEEE TRANSACTIONS ON INDUSTRY APPLICATIONS
卷 54, 期 3, 页码 2449-2458出版社
IEEE-INST ELECTRICAL ELECTRONICS ENGINEERS INC
DOI: 10.1109/TIA.2018.2791972
关键词
Active clamp; high-gain boost; photovoltaic (PV) and micro-inverter; soft-switching SIBC (SSSIBC); switched inductor boost converter (SIBC); switched inductor (SI); zero current switching (ZCS); zero voltage switching (ZVS); zero voltage transition (ZVT)
This paper proposes a new high-gain soft-switching dc-dc topology based on a switched inductor boost converter (SIBC). A conventional SIBC as a high gain boost topology has the issues of high conduction loss in switching diodes and high switching loss in the main switches. Also, it has severe electromagnetic interference (EMI) issue due to high-frequency ringing formed by parasitic inductance and diode junction capacitors. The new topology is derived with the objective of achieving zero voltage switching (ZVS) turn ON of the main switch. Instead of adding extra active clamp zero voltage transition (ZVT) path at the switching node, the proposed topology augments the auxiliary ZVT path to the switching diode path. This is achieved by replacing the switching diodes with synchronous switches. The new topology can achieve soft switching for all the switches and alleviate the EMI issue. All the diodes achieve zero current switching (ZCS) turn OFF without reverse recovery. Auxiliary switches have ZCS turn ON and ZVS turn OFF, and the main switches have ZVS turn ON. The soft switching SIBC also reduces the conduction loss in the switching diodes. A numerical simulation in PLECS and a prototype hardware are built corresponding to a micro-inverter application with 100 kHz switching frequency. Peak power conversion efficiency of 94.76% is achieved in the hardware prototype with Si devices.
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