Gianpaolo Lisi scite author profile

Abstract-One of the major drawbacks of photovoltaic (PV) systems is represented by the effect of module mismatching and of partial shading of the PV field. Distributed maximum power point tracking (DMPPT) is a very promising technique that allows the increase of efficiency and reliability of such systems. Modeling and designing a PV system with DMPPT is remarkably more complex than implementing a standard MPPT technique. In this paper, a DMPPT system for PV arrays is proposed and analyzed. A dc and small-signal ac model is derived to analyze steady-state behavior, as well as dynamics and stability, of the whole system. Finally, simulation results are reported and discussed.

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Modeling and Control of Series–Series Compensated Inductive Power Transfer System

Zahid

Dalala

Zheng

et al. 2015

IEEE J. Emerg. Sel. Topics Power Electron.

187

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High efficiency DC-DC converter with twin-bus for dimmable LED lighting

Lai

Lisi³

et al. 2010

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A novel twin-bus converter using n + 1 active switches is proposed for the n-string LEDs to be dimmable from true zero to the rated current level. With the proposed twin-bus structure, the n-switches that perform the current-loop regulation can operate at very high frequency because of significantly reduced voltage stresses, while achieving high efficiency over a wide load range. With operating frequency exceeding 1 MHz in the test case, the proposed LED driver demonstrates ultra compact size inductor and fast slew rates of the LED current. The dimming controlled switch, however, can operate at a low frequency to ensure high-efficiency operation without light flicker. The detailed power stage operating principle and control scheme of the individual string current for the presented converter are described. Experimental results of a 3-string 50-W LED driver hardware prototype show that the independent string current can be regulated from zero to the desired 350 mA for dimming control. A peak efficiency of 98.3% was achieved with 1.08 MHz switching frequency.Index Terms--High efficiency, DC-DC converter, light emitting diode, Dimmable LED drive, offline LED lighting 978-1-4244-5287-3/10/$26.00 ©2010 IEEE

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High-efficiency inverter with H6-type configuration for photovoltaic non-isolated ac module applications

Lai

Qian

et al. 2010

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A novel, high-efficiency inverter using MOSFETs for all active switches is presented for photovoltaic, non-isolated, ac module applications. The proposed H6-type configuration features high efficiency over a wide load range, low ground leakage current, no need for split capacitors, and low output accurrent distortion. The detailed power stage operating principles, PWM scheme, and novel bootstrap power supply for the proposed inverter are described. Experimental results of a 300 W hardware prototype show that not only are MOSFET body diode reverse-recovery and ground leakage current issues alleviated in the proposed inverter, but also that 98.3% maximum efficiency and 98.1% European Union efficiency are achieved.

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High-Efficiency Contactless Power Transfer System for Electric Vehicle Battery Charging Application

Zheng

Lai

Chen

et al. 2015

IEEE J. Emerg. Sel. Topics Power Electron.

150

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Gianpaolo Lisi

Distributed maximum power point tracking of photovoltaic arrays: Novel approach and system analysis

Modeling and Control of Series–Series Compensated Inductive Power Transfer System

High efficiency DC-DC converter with twin-bus for dimmable LED lighting

High-efficiency inverter with H6-type configuration for photovoltaic non-isolated ac module applications

High-Efficiency Contactless Power Transfer System for Electric Vehicle Battery Charging Application

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