Abstract:
A Grid-tied inverter utilizing wide bandgap devices can achieve higher switching frequency resulting in a power filter with reduced size and weight. However, the increase...Show MoreMetadata
Abstract:
A Grid-tied inverter utilizing wide bandgap devices can achieve higher switching frequency resulting in a power filter with reduced size and weight. However, the increased switching frequency may lead to more switching harmonics entering the electromagnetic interference (EMI) frequency range, which will increase the size of EMI filter. Interleaving paralleled converters can cancel some of the switching harmonics and reduce the size of EMI filter. However, nonideal interleaving will deteriorate the harmonic canceling effect. In this research, the nonideal effects are found to be from the small mismatch of the pulsewidth of the interleaving legs and the mismatch of the impedance between the interleaving legs. A modulation method is proposed to completely eliminate the pulsewidth mismatch. Compared with other solutions, the proposed method does not require the information of filter parameters, neither gate driver synchronization, and nor a special function block of the digital controller. The proposed modulation was implemented on a 150 MHz digital signal processor and a 100 MHz field-programmable gate array, and was experimentally verified on a 100 kW parallel coupled SiC PV inverter prototype.
Published in: IEEE Transactions on Power Electronics ( Volume: 34, Issue: 1, January 2019)