Carlo Concari scite author profile

This paper presents a single-phase transformerless grid-connected photovoltaic converter based on two cascaded full bridges with different dc-link voltages. The converter can synthesize up to nine voltage levels with a single dc bus, since one of the full bridges is supplied by a flying capacitor. The multilevel output reduces harmonic distortion and electromagnetic interference. A suitable switching strategy is employed to regulate the flying-capacitor voltage, improve the efficiency (most devices switch at the grid frequency), and minimize the common-mode leakage current with the help of a novel dedicated circuit (transient circuit). Simulations and experiments confirm the feasibility and good performance of the proposed converter

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Recent advances in single‐phase transformerless photovoltaic inverters

Barater

Lorenzani

Concari

et al. 2016

IET Renewable Power Generation

135

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Photovoltaic (PV) power systems have been in the spotlight of scientific research for years. However, this technology is still undergoing developments, and several new architectures are proposed each year. This study describes the main challenges facing grid-connected PV systems without galvanic isolation, then carries out a review of the state-of-the-art of single-phase systems. The converter topology review is focused on the match between the different types of converters and the different PV panel technologies, determined by the common-mode voltage between the PV string terminals and the ground. The ground leakage current, due to time variations of this voltage, is a source of electric safety and electromagnetic interference (EMI)-related problems, and its amplitude is constrained by international standards. The basic principles of operation of the different solutions are described, along with their strengths and drawbacks. Conversion efficiency is evaluated qualitatively comparing the semiconductor power losses. Finally, the future trends regarding semiconductor devices, PV panels and international regulations for single-phase grid-connected equipment are discussed, and indications on how these might steer future research efforts in PV converters are inferred

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H8 Inverter for Common-Mode Voltage Reduction in Electric Drives

Concari

Barater

Buticchi

et al. 2016

IEEE Trans. on Ind. Applicat.

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This paper presents a modified two-level three-phase inverter for the reduction of the leakage current. With respect to a traditional two-level inverter, the proposed solution reduces the common-mode voltage, both in amplitude and frequency. Between the DC source and the traditional three-phase bridge, two active DC-decoupling devices and a voltage-clamping network have been added. A dedicated control strategy was developed adopting a modified Space Vector PWM modulation, oriented to the reduction of the common-mode voltage. Simulations showing the good performance of the solution are presented. A preliminary prototype was developed and experimental results are presented.

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Vibrations, currents and stray flux signals to asses induction motors rotor conditions

Bellini

Concari

Franceschini

et al. 2006

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Induction machine current space vector features to effectively discern and quantify rotor faults and external torque ripple

Concari

Franceschini

Tassoni

2012

IET Electr. Power Appl.

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Carlo Concari

A Nine-Level Grid-Connected Converter Topology for Single-Phase Transformerless PV Systems

Recent advances in single‐phase transformerless photovoltaic inverters

H8 Inverter for Common-Mode Voltage Reduction in Electric Drives

Vibrations, currents and stray flux signals to asses induction motors rotor conditions

Induction machine current space vector features to effectively discern and quantify rotor faults and external torque ripple

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