Brahim Metidji scite author profile

This paper presents a novel unity power factor fuzzy battery charger conception based on Ultra Sparse Matrix Rectifier (USMR). The advantages of the proposed converter are low harmonic distortion in absorbed currents and nearly unity power factor over a wide operating output power range. Its circuit has only three switching components and low-energy conversion loss. This reduces the cost and enhances the system's efficiency for high voltage battery. Thus, the proposed fuzzy logic controller improves the line power quality and delivers admissible output power to the battery.Experimental results based on a 24-V battery charger are proposed to validate the proposed approach and to demonstrate its performance. The stability and performance of the battery charger is then verified by the constant current (CC) and constant voltage (CV) charge. The fuzzy control and space vector modulation (SVM) algorithms are implemented with the Digital Signal Processor (DSP).

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Phase Current Reconstruction Using a Single Current Sensor of Three-Phase AC Motors Fed by SVM-Controlled Direct Matrix Converters

Metidji

Taib

Baghli

et al. 2013

IEEE Trans. Ind. Electron.

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Novel Single Current Sensor Topology for Venturini Controlled Direct Matrix Converters

Metidji

Taib

Baghli

et al. 2013

IEEE Trans. Power Electron.

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Brahim Metidji

Feedback linearization based sensorless direct torque control using stator flux MRAS-sliding mode observer for induction motor drive

Low-Cost Direct Torque Control Algorithm for Induction Motor Without AC Phase Current Sensors

Design and Implementation of a Unity Power Factor Fuzzy Battery Charger using an Ultrasparse Matrix Rectifier

Phase Current Reconstruction Using a Single Current Sensor of Three-Phase AC Motors Fed by SVM-Controlled Direct Matrix Converters

Novel Single Current Sensor Topology for Venturini Controlled Direct Matrix Converters

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