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A multi-step-based maximum power tracking control method for photovoltaic power generation systems

A technology of maximum power tracking and photovoltaic power generation system, applied in the field of solar photovoltaic power generation, it can solve the problems of dead zone, increase the amount of calculation, slow dynamic tracking speed, etc., to reduce system oscillation, improve speed and stable accuracy, fast and stable tracking Effect

Active Publication Date: 2016-06-29
SOUTH CHINA UNIV OF TECH +1
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  • Abstract
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  • Claims
  • Application Information

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Problems solved by technology

AVariableStepSizeINCMPPTMethodforPVSystems (Fangrui, L., et al., AVariableStepSizeINCMPPTMethodforPVSystems.IEEETransactionsonIndustrialElectronics, 2008.55 (7): p.2622-2628.) discusses a variable step size conductance incremental method, and provides a variable step size step size formula, but The tracking effect of this method is not very good in the case of drastic changes in external conditions, the working area of ​​variable step size is very small, the system has been working in the state of fixed step size, and the steady-state power loss is large; the system works in the state of variable step size, dynamic Tracking speed is slow, that is, there is a "dead zone" problem
ANovelImprovedVariableStep-SizeIncremental-ResistanceMPPTMethodforPVSystems (Mei, Q., et al., ANovelImprovedVariableStep-SizeIncremental-ResistanceMPPTMethodforPVSystems.IEEETransactionsonIndustrialElectronics, 2011.58(6):p.2427-2434.) Discussed a new variable step conductance incremental method A step-size demarcation method and a step-size setting formula, but the step-size demarcation method has a large amount of calculation (multiple derivation operations are required), and the step-size demarcation formula fails to make full use of the demarcation function, which also increases the amount of calculation, giving The implementation of this method brings some difficulties

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  • A multi-step-based maximum power tracking control method for photovoltaic power generation systems
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Embodiment Construction

[0021] The present invention will be described in further detail below with reference to the embodiments and the accompanying drawings, but the embodiments of the present invention are not limited thereto. If there are any unspecified processes or symbols in the following, those skilled in the art can refer to the prior art.

[0022] Such as figure 1 , a multi-step-based maximum power tracking control method for photovoltaic power generation systems, including the following steps:

[0023] The first step, according to the photovoltaic cell parameters provided by the photovoltaic cell manufacturer: the open circuit voltage V of the photovoltaic cell under standard conditions oc , Under standard conditions, the maximum power point voltage of photovoltaic cells V m , to calculate the relationship between the initial step size when the system works on the left and right sides of the maximum power point, the ratio of the two is equal to V m / (V oc -V m ); refer to the calculat...

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Abstract

The invention discloses a multi-step size based photovoltaic power generation system maximum power tracking control method. The multi-step size based photovoltaic power generation system maximum power tracking control method comprises the steps of firstly setting an initial disturbance step size; utilizing a function M=V*abs (dP / dV) to conduct demarcation on a photovoltaic cell P-V curve, taking step size d1 in a left-side region of a maximum power point when a value of a function dM / dV is greater than 0; taking step size d1*M / P when the value of the function dM / dV is smaller than 0; taking step size d2 in a right-side region of the maximum power point when a value of the function M is greater than power P; taking step size d2*M / P when the value of the function is smaller than the power P; The multi-step size based photovoltaic power generation system maximum power tracking control method is simple and practical, and the proportional relation of an initial fixed step size can be determined by utilizing photovoltaic cell panel parameters provided by a manufacturer. The problem that steady accuracy and dynamic tracking speed cannot be simultaneously considered in most of maximum power tracking controls is solved by means of the method.

Description

technical field [0001] The invention belongs to the technical field of solar photovoltaic power generation, in particular to a multi-step-based maximum power tracking control method for a photovoltaic power generation system. Background technique [0002] Solar energy resources are abundant, easy to obtain, clean and non-polluting. It is an important renewable energy source and has been widely used in recent years. As a kind of solar power generation, photovoltaic power generation has gradually become the main form of solar energy utilization. Compared with traditional power generation methods, photovoltaic power generation has the advantages of simple structure, high reliability, zero emission, no noise, small size, and long life. [0003] The efficiency of the photovoltaic power generation system is one of the most important indicators of the photovoltaic system. Tracking the high power point of the photovoltaic system is an important way to improve the efficiency of the ...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): G05F1/67
CPCY02E10/56
Inventor 杨苹许志荣周东宝李鹏雷金勇
Owner SOUTH CHINA UNIV OF TECH
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