Abstract

This article presents three variants of the Pulse Width Modulation (PWM) for the Double Square Multiphase type Conventional Matrix Converters (DSM-CMC) supplying loads with the open-end winding. The first variant of PWM offers the ability to obtain zero value of the common-mode voltage at the load’s terminals and applies only six switches within the modulation period. The second proposal archives for less Total Harmonic Distortion (THD) of the generated load voltage. The third variant of modulation concerns maximizing the voltage transfer ratio, minimizing the number of switching, and the common-mode voltage cancellation. The discussed modulations are based on the concept of sinusoidal voltage quadrature signals, which can be an effective alternative to the classic space-vector approach. In the proposed approach, the geometrical arrangement of basic vectors needed to synthesize output voltages is built from the less number of vectors, which is equal to the number of the matrix converter’s terminals. The PWM duty cycle computation is performed using only a second-order determinant of the voltages coordinate matrix without using trigonometric functions. A new approach to the PWM duty cycles computing and the load voltage synthesis by 5 × 5 and 12 × 12 topologies has been verified using the PSIM simulation software.

Highlights

  • A fully controlled bidirectional semiconductor switch is an element of the Conventional Matrix Converter (CMC) which offers a direct AC–AC voltages conversion with additional input power factor control functionality

  • This type of converter, in comparison with the more established Voltage Source Inverter (VSI), has certain individual features that determine the innovation of such a solution [1,2,3]

  • The Double Square Multiphase type Conventional Matrix Converters (DSM-CMC) converter consists of two square-type matrix converters, CMCP and CMCN, connected to load terminals as shown in Figure 1, where the simplified diagram of the circuit is depicted

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Summary

A New Approach to the PWM

Keywords: square-type matrix converters; pulse width modulation; multiphase systems Publisher’s Note: MDPI stays neutral with regard to jurisdictional claims in published maps and institutional affiliations. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC BY) license (https:// 4.0/).

Introduction
The Principle of an Output Voltage Synthesis in DSM-CMC Converter
Case of 5 Phases
Case of 12 Phases
The Concept of Gating Signals Generation
The PWM Variant 2—An Output Voltage Synthesis with Less Harmonic Distortion
The PWM Variant 3—An Output Voltage Synthesis with Maximum Voltage Transfer
Findings
Summary and Conclusions

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