Sónia Pinto scite author profile

This paper presents a direct power control (DPC) for three-phase matrix converters operating as unified power flow controllers (UPFCs). Matrix converters (MCs) allow the direct ac/ac power conversion without dc energy storage links; therefore, the MC-based UPFC (MC-UPFC) has reduced volume and cost, reduced capacitor power losses, together with higher reliability. Theoretical principles of direct power control (DPC) based on sliding mode control techniques are established for an MC-UPFC dynamic model including the input filter. As a result, line active and reactive power, together with ac supply reactive power, can be directly controlled by selecting an appropriate matrix converter switching state guaranteeing good steady-state and dynamic responses. Experimental results of DPC controllers for MC-UPFC show decoupled active and reactive power control, zero steady-state tracking error, and fast response times. Compared to an MC-UPFC using active and reactive power linear controllers based on a modified Venturini high-frequency PWM modulator, the experimental results of the advanced DPC-MC guarantee faster responses without overshoot and no steady-state error, presenting no crosscoupling in dynamic and steady-state responses.

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Sliding mode direct control of matrix converters

Pinto¹,

Silva²

2007

IET Electr. Power Appl.

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Linear and Sliding-Mode Control Design for Matrix Converter-Based Unified Power Flow Controllers

Monteiro

Silva

Pinto

et al. 2014

IEEE Trans. Power Electron.

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New approach in back-to-back m -level diode-clamped multilevel converter modelling and direct current bus voltages balancing

Chaves¹,

Margato²,

Silva³

et al. 2010

IET Power Electron.

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Sónia Pinto

Matrix Converter-Based Unified Power-Flow Controllers: Advanced Direct Power Control Method

Sliding mode direct control of matrix converters

Linear and Sliding-Mode Control Design for Matrix Converter-Based Unified Power Flow Controllers

New approach in back-to-back m -level diode-clamped multilevel converter modelling and direct current bus voltages balancing

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