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光伏系统的最大功率点跟踪

摘要第5-6页
ABSTRACT第6页
1 INTRODUCTION第9-15页
    1.1 RESEARCH BACKGROUND AND SIGNIFICANCE第9-12页
    1.2 CURRENT RESEARCH ABROAD AND ITS LIMITATIONS第12-13页
    1.3 THESIS CONTENT第13-14页
    1.4 INNOVATION第14-15页
2 GENERAL OVERVIEW ON FAULT IN PHOTOVOLTAICS第15-27页
    2.1 MAIN THEORY IN SOLAR EQUIPMENT PRODUCING ELECTRIC ENERGY第15-16页
    2.2 ANALYSIS OF SOLAR PANEL SYSTEMS第16-21页
        2.2.1 Three Best Models of PV第17-19页
        2.2.2 The Inverters Role in Photovoltaic system第19-20页
        2.2.3 The Solar Power in Practice第20-21页
    2.3 MAIN PROBLEMS PRESENTED IN PHOTOVOLTAIC SYSTEMS第21-24页
    2.4 ANALYSIS OF FAULT DETECTION APPROACHES第24-25页
    2.5 CONCLUSION第25-27页
3 MAXIMUM POWER POINT TRACKING UNDER PARTIAL SHADING第27-38页
    3.1 INTRODUCTION TO MPPT-PHOTOVOLTAIC WITHOUT PARTIAL SHADING第27-30页
        3.1.1 MPPT Under Isolation based Artificial Intelligent Methods第27-29页
        3.1.2 Intelligent MPPT based Programmable Gate Array (FPGA)第29-30页
    3.2 THE TWO HIGH ALGORITHMS IN MPPT UNDER NORMAL ISOLATION第30-32页
    3.3 PARTIAL SHADING CONDITION第32-34页
    3.4 MAXIMUM POWER POINT TRACKING (MPPT) FOR SHADING APPLICATION第34-37页
        3.4.1 The Artificial Intelligent Techniques for MPPT under PSC第34-36页
        3.4.2 Relative Techniques between MPPT and PSC第36-37页
    3.5 CONCLUSION第37-38页
4 THE PROPOSED MAXIMUM POWER POINT TRACKING ALGORITHMIN PV PARTIAL SHADING CONDITIONS第38-49页
    4.1 PROBLEM FORMULATION AND EXISTING METHOD LIMITATION第38-43页
        4.1.1 Problem Formulation第38-40页
        4.1.2 Existing Method Limitation第40-43页
    4.2 ADOPTION OF COMPUTATIONAL DUTY CYCLE OF DC-DC CONVERTER第43-44页
    4.3 THE PROPOSED ALGORITHM第44-48页
        4.3.1 MPPT GP Tracking Condition scheme第44-45页
        4.3.2 Flow Chart of Proposed P&O Tracking GP Algorithm第45-48页
    4.4 CONCLUSION第48-49页
5 EXPERIMENTAL EVALUATIONS第49-54页
    5.1 CONCLUSION第53-54页
6 GENERAL CONCLUSIONS & FUTURES WORKS第54-55页
    6.1 GENERAL CONCLUSIONS第54页
    6.2 FUTURE WORKS第54-55页
REFERENCES第55-59页
ACKNOWLEDGMENT第59页

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