| URN |
etd-0211115-073147 |
Statistics |
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|
| Author |
Wei-hsun Chu |
| Author's Email Address |
No Public. |
| Department |
Institute of Electrical Engineering |
| Year |
2014 |
Semester |
1 |
| Degree |
Master |
Type of Document |
Master's Thesis |
| Language |
zh-TW.Big5 Chinese |
Page Count |
82 |
| Title |
Design and Implementation of a Solar Charger with a Maximum Power Point Tracking Method |
| Keyword |
Solar BatteryˇBSolar ConverterˇBMaximum Power Poin
Solar BatteryˇBSolar ConverterˇBMaximum Power Poin
|
| Abstract |
The application of solar energy has been attention by the world's scientists due to their inexhaustible supply. Solar system is mainly composed of two parts, namely the solar cell and the power converter. At present, the high cost and low efficiency of solar cells is the main reason for not universal, therefore the development of the power converter has become the core of the solar system. This paper aims to develop a new maximum power point tracking rules. In order to confirm the maximum power point tracking can be achieved; we apply the MATLAB / Simulink and DSP-IC33FJ64GS606 chip to execute simulation test. The system is divided into the solar panel circuit, solar battery charging circuit, amplifier circuit and maximum power point tracking rules. First, we use single-pulse mode to detect the maximum power point tracking, it is improved by the incremental conductance method; Secondly, using boost and buck circuit let the battery charge and discharge. In the future The system can be developed into an independent solar power system with low power consumption and maximum tracking capabilities. |
| Advisor Committee |
Yi-Jen Wang - advisor
none - co-chair
none - chair
|
| Files |
indicate access worldwide |
| Date of Defense |
2015-01-18 |
Date of Submission |
2015-02-11 |
