Abstract
This paper presents a reduced component count five-level inverter topology based on the stacked cell approach to multilevel inverters. The proposed topology utilizes the fundamental properties of three-phase voltages to reduce the number of switches and flying capacitors to cut size, weight and costs while facilitating higher reliability, simpler wiring and lesser electromagnetic interference. The operational aspects of the topology such as circuit structure, modulation and capacitor balancing are explained, followed by an account of device stresses and reliability. A discussion of certain additional features such as fault tolerant operation, loss steering and common-mode elimination addresses the usefulness of the topology in practical situations. A comparison of the proposed topology with existing methods in terms of several parameters is then used to highlight its merits and features. Finally, experimental results obtained using an induction motor drive incorporating the topology are given, so as to validate the feasibility of the proposed approach.
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