Title :
Switched-Capacitor-Cell-Based Voltage Multipliers and DC–AC Inverters
Author :
Zou, Ke ; Scott, Mark J. ; Wang, Jin
Author_Institution :
Dept. of Electr. & Comput. Eng., Ohio State Univ., Columbus, OH, USA
Abstract :
In this paper, several modular converter topologies based on a switched-capacitor-cell concept are introduced for high-power applications. Two types of switched-capacitor cells, including the full cell and the half-cell, are discussed. The full cell can be used for dc-ac inversion, and the half-cell is utilized in both dc-dc and dc-ac applications. A rotational charging scheme is adopted for the half-cell-based dc-dc voltage multiplier to eliminate the large output capacitor that exists in many traditional switched-capacitor topologies. A soft-switching scheme, which does not require extra components, is adopted to reduce the switching loss and electromagnetic interference. A variable switching frequency control scheme is proposed to realize soft switching for dc-ac inverters. The experimental results on a 2-kW prototype are presented to verify the proposed topologies.
Keywords :
DC-AC power convertors; DC-DC power convertors; electromagnetic interference; frequency control; interference suppression; invertors; switched capacitor networks; switching convertors; time-varying systems; voltage multipliers; DC-AC inverters; dc-ac inversion; dc-dc inverters; electromagnetic interference; half-cell-based dc-dc voltage multiplier; modular converter topology; power 2 kW; rotational charging scheme; soft-switching scheme; switched-capacitor-cell-based voltage multipliers; switching loss; variable switching frequency control scheme; Capacitors; Electromagnetic interference; Inverters; Prototypes; Switches; Switching frequency; Topology; Soft switching; switched-capacitor converters; variable frequency control;
Journal_Title :
Industry Applications, IEEE Transactions on
DOI :
10.1109/TIA.2012.2209620
