Paper Title
Power Factor Correction Converters for 3ΓΈ Transmission Networks with Multistate Switching Cells
Abstract
This paper presents a three-phase multilevel power factor correction (PFC) rectifier employing multistate
switching cells. A generalized converter structure is presented based on the connection of switching networks of Vienna-type
rectifier topologies through multi inter phase transformers (MIPTs). The resulting rectifier presents the intrinsic benefits to
the employed building blocks and the ones added by a modular construction that enables the reduction of passive
components and overall losses. The operation of the PFC rectifier is described, including appropriate modulation and control
strategies. Design guidelines for the magnetic components are derived for the MIPTs, boost inductors, and power
semiconductor devices. Finally, a lab prototype is used to present experimental results. This prototype is rated at 7.5 k Wand
uses a modular structure to assemble a four legs per phase rectifier. Efficiency above 98% from 40% load and IEC61000-3-
2requirements are observed.
Index Terms- High efficiency, high power density, multistate switching cells, power factor correction, PWM rectifiers.