A control algorithm of maximum power point track for a photovoltaic system

Yu Kuei Chiu; Yi-Nung Chung; Hao Ren Wang; Chin Chung Yu; Iong Zong Chen

A control algorithm of maximum power point track for a photovoltaic system

Yu Kuei Chiu, Yi-Nung Chung, Hao Ren Wang, Chin Chung Yu, Iong Zong Chen

Department of Electrical Engineering

Research output: Contribution to journal › Article

1 Citation (Scopus)

Abstract

This research develops a control algorithm, for automatic tracking themaximum power point for a, photovoltaic system,. In this paper, we use a,control algorithm, to combine two methods denoted, perturbation and, observation(P&O) and, three-point weighting (TPW). This tracking system, enablesphotovoltaic modules to achieve maximum efficiency under a variety of solarirradiation and temperature conditions. In order to verify the performance ofthis development, we design an experimental system, circuit. According to thepractical experiment, the system will produce fast, accurate and effectivetracking results. ICIC International

Original language	English
Pages (from-to)	799-804
Number of pages	6
Journal	ICIC Express Letters
Volume	3
Issue number	3
Publication status	Published - 2009 Sep 1

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All Science Journal Classification (ASJC) codes

Control and Systems Engineering
Computer Science(all)

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Chiu, Y. K., Chung, Y-N., Wang, H. R., Yu, C. C., & Chen, I. Z. (2009). A control algorithm of maximum power point track for a photovoltaic system. ICIC Express Letters, 3(3), 799-804.

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abstract = "This research develops a control algorithm, for automatic tracking themaximum power point for a, photovoltaic system,. In this paper, we use a,control algorithm, to combine two methods denoted, perturbation and, observation(P&O) and, three-point weighting (TPW). This tracking system, enablesphotovoltaic modules to achieve maximum efficiency under a variety of solarirradiation and temperature conditions. In order to verify the performance ofthis development, we design an experimental system, circuit. According to thepractical experiment, the system will produce fast, accurate and effectivetracking results. ICIC International",

author = "Chiu, {Yu Kuei} and Yi-Nung Chung and Wang, {Hao Ren} and Yu, {Chin Chung} and Chen, {Iong Zong}",

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AU - Chiu, Yu Kuei

AU - Chung, Yi-Nung

AU - Wang, Hao Ren

AU - Yu, Chin Chung

AU - Chen, Iong Zong

PY - 2009/9/1

Y1 - 2009/9/1

N2 - This research develops a control algorithm, for automatic tracking themaximum power point for a, photovoltaic system,. In this paper, we use a,control algorithm, to combine two methods denoted, perturbation and, observation(P&O) and, three-point weighting (TPW). This tracking system, enablesphotovoltaic modules to achieve maximum efficiency under a variety of solarirradiation and temperature conditions. In order to verify the performance ofthis development, we design an experimental system, circuit. According to thepractical experiment, the system will produce fast, accurate and effectivetracking results. ICIC International

AB - This research develops a control algorithm, for automatic tracking themaximum power point for a, photovoltaic system,. In this paper, we use a,control algorithm, to combine two methods denoted, perturbation and, observation(P&O) and, three-point weighting (TPW). This tracking system, enablesphotovoltaic modules to achieve maximum efficiency under a variety of solarirradiation and temperature conditions. In order to verify the performance ofthis development, we design an experimental system, circuit. According to thepractical experiment, the system will produce fast, accurate and effectivetracking results. ICIC International

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A control algorithm of maximum power point track for a photovoltaic system

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