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Grid Voltage Sensorless Model Predictive Control for a Single-Phase T-Type Rectifier With an Active Power Decoupling Circuit

Sertaç Bayhan

2021IEEE Access17 citationsDOIOpen Access PDF

Abstract

This paper proposes grid voltage sensorless model predictive control for a single-phase T-type rectifier with an active power decoupling circuit. The proposed sensorless technique is based on a model reference adaptive system (MRAS) and tested under distorted grid conditions. This study also examines the relationship among the ripple energy, the dc-link capacitor, and the active power decoupling circuit capacitor. The developed control technique is proposed to ensure the following objectives; (1) sensorless grid voltage estimation; (2) the second-order ripple power elimination; (3) reference current generation based on power equilibrium; (4) ensuring unity power factor under all operating conditions; and (5) capacitor voltage balance. The developed control structure offers simplicity and it is cost-effective due to the absence of a grid voltage sensor. An experimental prototype is established, and the main results, including the steady-state and dynamic performances, are presented to validate the effectiveness of the proposed control.

Topics & Concepts

Decoupling (probability)RippleControl theory (sociology)Computer sciencePower factorAC powerCapacitorModel predictive controlVoltageDecoupling capacitorEngineeringElectrical engineeringControl engineeringControl (management)Artificial intelligenceMicrogrid Control and OptimizationAdvanced DC-DC ConvertersMultilevel Inverters and Converters