Maximum Power Point Tracking Based on Sliding Mode Control

Nimrod Vázquez; Yuz Azaf; Ilse Cervantes; Eslí Vázquez; Claudia Hernández

doi:10.1155/2015/380684

Maximum Power Point Tracking Based on Sliding Mode Control

Nimrod Vázquez, Yuz Azaf, Ilse Cervantes, Eslí Vázquez, Claudia Hernández

Research output: Contribution to journal › Article › peer-review

16 Scopus citations

Abstract

Solar panels, which have become a good choice, are used to generate and supply electricity in commercial and residential applications. This generated power starts with the solar cells, which have a complex relationship between solar irradiation, temperature, and output power. For this reason a tracking of the maximum power point is required. Traditionally, this has been made by considering just current and voltage conditions at the photovoltaic panel; however, temperature also influences the process. In this paper the voltage, current, and temperature in the PV system are considered to be a part of a sliding surface for the proposed maximum power point tracking; this means a sliding mode controller is applied. Obtained results gave a good dynamic response, as a difference from traditional schemes, which are only based on computational algorithms. A traditional algorithm based on MPPT was added in order to assure a low steady state error.

Original language	English
Article number	380684
Journal	International Journal of Photoenergy
Volume	2015
DOIs	https://doi.org/10.1155/2015/380684
State	Published - 2015
Externally published	Yes

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title = "Maximum Power Point Tracking Based on Sliding Mode Control",

abstract = "Solar panels, which have become a good choice, are used to generate and supply electricity in commercial and residential applications. This generated power starts with the solar cells, which have a complex relationship between solar irradiation, temperature, and output power. For this reason a tracking of the maximum power point is required. Traditionally, this has been made by considering just current and voltage conditions at the photovoltaic panel; however, temperature also influences the process. In this paper the voltage, current, and temperature in the PV system are considered to be a part of a sliding surface for the proposed maximum power point tracking; this means a sliding mode controller is applied. Obtained results gave a good dynamic response, as a difference from traditional schemes, which are only based on computational algorithms. A traditional algorithm based on MPPT was added in order to assure a low steady state error.",

author = "Nimrod V{\'a}zquez and Yuz Azaf and Ilse Cervantes and Esl{\'i} V{\'a}zquez and Claudia Hern{\'a}ndez",

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doi = "10.1155/2015/380684",

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T1 - Maximum Power Point Tracking Based on Sliding Mode Control

AU - Vázquez, Nimrod

AU - Azaf, Yuz

AU - Cervantes, Ilse

AU - Vázquez, Eslí

AU - Hernández, Claudia

PY - 2015

Y1 - 2015

N2 - Solar panels, which have become a good choice, are used to generate and supply electricity in commercial and residential applications. This generated power starts with the solar cells, which have a complex relationship between solar irradiation, temperature, and output power. For this reason a tracking of the maximum power point is required. Traditionally, this has been made by considering just current and voltage conditions at the photovoltaic panel; however, temperature also influences the process. In this paper the voltage, current, and temperature in the PV system are considered to be a part of a sliding surface for the proposed maximum power point tracking; this means a sliding mode controller is applied. Obtained results gave a good dynamic response, as a difference from traditional schemes, which are only based on computational algorithms. A traditional algorithm based on MPPT was added in order to assure a low steady state error.

AB - Solar panels, which have become a good choice, are used to generate and supply electricity in commercial and residential applications. This generated power starts with the solar cells, which have a complex relationship between solar irradiation, temperature, and output power. For this reason a tracking of the maximum power point is required. Traditionally, this has been made by considering just current and voltage conditions at the photovoltaic panel; however, temperature also influences the process. In this paper the voltage, current, and temperature in the PV system are considered to be a part of a sliding surface for the proposed maximum power point tracking; this means a sliding mode controller is applied. Obtained results gave a good dynamic response, as a difference from traditional schemes, which are only based on computational algorithms. A traditional algorithm based on MPPT was added in order to assure a low steady state error.

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DO - 10.1155/2015/380684

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VL - 2015

JO - International Journal of Photoenergy

JF - International Journal of Photoenergy

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Maximum Power Point Tracking Based on Sliding Mode Control

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