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Analysis and design of a modular sol...
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Al-Atrash, Hussam J.
Analysis and design of a modular solar-fed fault-tolerant power system with maximum power point tracking.
紀錄類型:
書目-電子資源 : 單行本
正題名/作者:
Analysis and design of a modular solar-fed fault-tolerant power system with maximum power point tracking./
作者:
Al-Atrash, Hussam J.
面頁冊數:
143 p.
附註:
Source: Masters Abstracts International, Volume: 44-02, page: 0983.
Contained By:
Masters Abstracts International44-02.
標題:
Engineering, Electronics and Electrical. -
電子資源:
http://pqdd.sinica.edu.tw/twdaoapp/servlet/advanced?query=1428809
ISBN:
9780542304156
Analysis and design of a modular solar-fed fault-tolerant power system with maximum power point tracking.
Al-Atrash, Hussam J.
Analysis and design of a modular solar-fed fault-tolerant power system with maximum power point tracking.
- 143 p.
Source: Masters Abstracts International, Volume: 44-02, page: 0983.
Thesis (M.S.)--University of Central Florida, 2005.
Solar power is becoming ever more popular in a variety of applications. It is particularly attractive because of its abundance, renewability, and environment friendliness. Solar powered spacecraft systems have ever-expanding loads with stringent power regulation specifications. Moreover, they require a light and compact design of their power system. These constraints make the optimization of power harvest from solar arrays a critical task.
ISBN: 9780542304156Subjects--Topical Terms:
170927
Engineering, Electronics and Electrical.
Analysis and design of a modular solar-fed fault-tolerant power system with maximum power point tracking.
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Analysis and design of a modular solar-fed fault-tolerant power system with maximum power point tracking.
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Source: Masters Abstracts International, Volume: 44-02, page: 0983.
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Adviser: Issa Batarseh.
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Thesis (M.S.)--University of Central Florida, 2005.
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Solar power is becoming ever more popular in a variety of applications. It is particularly attractive because of its abundance, renewability, and environment friendliness. Solar powered spacecraft systems have ever-expanding loads with stringent power regulation specifications. Moreover, they require a light and compact design of their power system. These constraints make the optimization of power harvest from solar arrays a critical task.
520
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Florida Power Electronics Center (FPEC) at UCF set to develop a modular fault-tolerant power system architecture for space applications. This architecture provides a number of very attractive features including Maximum Power Point Tracking (MPPT) and uniform power stress distribution across the system.
520
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MPPT is a control technique that leads the system to operate its solar sources at the point where they provide maximum power. This point constantly moves following changes in ambient operating conditions. A digital controller is setup to locate it in real time while optimizing other operating parameters. This control scheme can increase the energy yield of the system by up to 45%, and thus significantly reduces the size and weight of the designed system.
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The modularity of the system makes it easy to prototype and expand. It boosts its reliability and allows on-line reconfiguration and maintenance, thus reducing down-time upon faults.
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This thesis targets the analysis and optimization of this architecture. A new modeling technique is introduced for MPPT in practical environments, and a novel digital power stress distribution scheme is proposed in order to properly distribute peak and thermal stress and improve reliability.
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A 2kW four-channel prototype of the system was built and tested. Experimental results confirm the theoretical improvements, and promise great success in the field.
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