IEEE Open Journal of Power Electronics (Jan 2023)
Optimal Common-Mode Voltage Injection for Phase-Modular Three-Phase PFC Rectifiers Minimizing Energy Buffering Requirement
Abstract
Realizing an isolated three-phase Power Factor Correction (PFC) ac-dc converter as a phase-modular system, i.e., by star-connecting three single-phase PFC rectifier front-ends with individual isolated dc-dc converter stages generating a common dc output voltage advantageously facilitates the use of standard single-phase converter modules. Further the low dc-link voltage level of typically $400 \,{\rm {V}}$ (for a grid with $230 \,{\rm {V}}_{\rm{rms}}$ line-to-neutral voltage) allows to employ high performance $600 \,{\rm {V}}$ power semiconductors. The main drawback of this concept, however, is the fact that the time-varying single-phase input power only sums to a constant three-phase output power at the isolated dc output, such that large dc-link capacitor values are required in each module (in the range of several $100 \,{\mu }{\rm{F}}$ for a $6 \,{\rm{kW}}$ system), thereby limiting the achievable power density. It is known from literature that the dc-link energy buffering requirement $ {\Delta} {E}_{\rm{dc}}$ can be reduced by means of a third-harmonic common-mode (CM) voltage injection modulation and this article identifies the optimal CM voltage waveform with respect to minimizing $ {\Delta} {E}_{\rm{dc}}$, i.e., reducing $ {\Delta} {E}_{\rm{dc}}$ to the theoretical minimum by combining a brute-force evaluation of the time-domain CM voltage waveform with phase-symmetry considerations. Additionally, converter operation with minimum dc-link voltage and/or dc-link capacitor values is analyzed and a saturable grid current controller allowing operation of the PFC rectifier front-ends with the optimal CM voltage waveform is investigated. Experimental results with a $6 \,{\rm{kW}}$ prototype system yield a reduction in $ {\Delta} {E}_{\rm{dc}}$ by up to $42{\%}$ (compared to conventional sinusoidal modulation), which closely matches the theoretical prediction. Also, PFC rectifier operation with a dc-link voltage level as low as $285 \,{\rm {V}}$ (i.e., below the $325 \,{\rm {V}}_\mathrm{pk}$ grid line-to-neutral voltage amplitude) and with ultra-low dc-link capacitor values is demonstrated.
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