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1. A Modulation Strategy to Operate Multilevel Multiphase Diode-Clamped and Active-Clamped DC–AC Converters at Low Frequency Modulation Indices With DC-Link Capacitor Voltage Balance

Author

A. Calle-Prado, Sergio Busquets-Monge, Salvador Alepuz, Alber Filba-Martinez, Universitat Politècnica de Catalunya. Departament d'Enginyeria Electrònica, and Universitat Politècnica de Catalunya. GREP - Grup de Recerca en Electrònica de Potència

Subjects

Engineering, Pulse-frequency modulation, 020209 energy, pulsewidth modulation (PWM), 02 engineering and technology, Power factor, Delta-sigma modulation, Amplitude modulation, multilevel, Control theory, 0202 electrical engineering, electronic engineering, information engineering, Convertidors de corrent elèctric, Active-clamped, Electrical and Electronic Engineering, business.industry, dc–ac conversion, 020208 electrical & electronic engineering, virtual vector, Enginyeria electrònica [Àrees temàtiques de la UPC], Fundamental frequency, capacitor voltage balance, Converters, Electric current converters, Modulation, diode clamped, business, Pulse-width modulation

Abstract

© 2017 IEEE. Personal use of this ma terial is permitted. Permission from IEEE must be obtained for al l other uses, in any current or future media, including reprinting /republishing this material for advertising or promotional purposes, creating new collective works, f or resale or redistribution to se rvers or lists, or reuse of any copyrighted compone nt of this work in other works This paper proposes a modulation strategy for multilevel multiphase diode-clamped dc–ac converters (also applicable to other functionally equivalent topologies) able to keep the dc-link capacitor voltages balanced under passive front ends, low frequency modulation indices (i.e., low number of switching transitions per fundamental cycle), any value of the amplitude modulation index, and any ac-side displacement power factor. A suitable phase voltage pattern with minimum number of switching transitions is presented for the n-level three-phase case. Subsequently, it is extended to higher number of switching transitions per fundamental cycle and to higher number of phases. Simulation results with three, four, and five levels; three and five phases; and several frequency-modulation-index values are presented to validate the proposed modulation strategy. Experimental results obtained with a four-level three-phase dc–ac converter prototype are also provided. The proposed modulation strategy enables the use of this type of converters in applications where the ac fundamental frequency may be close to the switching frequency, such as in high-power systems and variable-speed motor drives.

Published

2017