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Single‐active switch high‐voltage gain DC–DC converter using a non‐coupled inductor

Amirreza Mizani, Sajad Arab Ansari, Abbas Shoulaie, Jonathan N. Davidson, Martin P. Foster

2021IET Power Electronics24 citationsDOIOpen Access PDF

Abstract

Abstract A single‐active switch high‐voltage gain non‐coupled inductor DC–DC converter is presented. The introduced converter achieves high step‐up gain without using any coupled inductors or transformers, provides high efficiency, and has a simple control system. The converter also achieves low voltage stress on the switch and diodes without clamping circuits, reducing cost, conduction losses, and complexity. The input current of the introduced converter is continuous with low ripple, and is therefore suitable for renewable energy applications in which the fast dynamic response of the converter is necessary. The principle of operation and design considerations of the introduced converter are investigated. A 200 W prototype circuit with 40 kHz switching frequency, 40 V input voltage, and 250 V output voltage is implemented. The prototype operates at 93.2% efficiency, with voltage and current error of less than 4% compared to theoretical values.

Topics & Concepts

InductorBoost converterĆuk converterIntegrating ADCForward converterBuck–boost converterFlyback converterBuck converterRippleElectronic engineeringNegative impedance converterVoltageElectrical engineeringTransformerClamperComputer scienceEngineeringAdvanced DC-DC ConvertersMultilevel Inverters and ConvertersSilicon Carbide Semiconductor Technologies
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