Abstract
An impulse commutated current-fed three-phase dc/dc converter is proposed. It is a three inductor current divider topology that reduces current stress of the components. The proposed converter attains zero current switching (ZCS) of the semiconductor devices via impulse commutation utilizing the circuit paracitics. The devices' voltage is clamped at V0/n. Voltage clamping and zero current commutation of devices are load independent. Load voltage is regulated employing variable frequency modulation. Current-fed topology with inherent boost ability simplifies the transformer design by reducing the required turns ratio. Rectifier diodes also commutate with ZCS without ringing and eliminate the need of secondary snubber. A comprehensive study of the proposed converter together with the experimental results obtained from a laboratory prototype of 1 kW have been presented to validate the claims and to evaluate the converter's performance. Proposed converter is suitable for low voltage high current applications requiring high voltage gain. It inherently offers short circuit protection.
Original language | English |
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Article number | 07293176 |
Journal | IEEE Transactions on Industry Applications |
Volume | 2015 |
DOIs | |
State | Published - 2015 |
Externally published | Yes |
Keywords
- Current-fed converter
- Impulse commutation
- Variable frequency modulation
- Zero current switching