农业科技与装备
農業科技與裝備
농업과기여장비
AGRICULTURAL SCIENCE & TECHNOLOGY AND EQUIPMENT
2014年
1期
52-54
,共3页
顾振宇%付立思%吴硕
顧振宇%付立思%吳碩
고진우%부립사%오석
光伏系统%最大功率跟踪%仿真%直流微网%控制
光伏繫統%最大功率跟蹤%倣真%直流微網%控製
광복계통%최대공솔근종%방진%직류미망%공제
photovoltaic system%maximum power point tracking%simulation%DC microgrid%control
根据光伏发电的原理和数学模型,设计一个由光伏组成的直流微网。光伏发电部分能够实现变步长最大功率跟踪,结合双向整流器提出G光伏直流微网并网的控制策略,并利用MATLAB仿真验证控制策略的可行性,为光伏发电技术的发展提供理论依据。
根據光伏髮電的原理和數學模型,設計一箇由光伏組成的直流微網。光伏髮電部分能夠實現變步長最大功率跟蹤,結閤雙嚮整流器提齣G光伏直流微網併網的控製策略,併利用MATLAB倣真驗證控製策略的可行性,為光伏髮電技術的髮展提供理論依據。
근거광복발전적원리화수학모형,설계일개유광복조성적직류미망。광복발전부분능구실현변보장최대공솔근종,결합쌍향정류기제출G광복직류미망병망적공제책략,병이용MATLAB방진험증공제책략적가행성,위광복발전기술적발전제공이론의거。
A DC microgrid of photovoltaic component was designed according to the principle and mathematical model of photovoltaic power generation. Photovoltaic parts can realize the variable step size of maximum power point tracking, and the control strategy of G photovoltaic DC microgrid connection was put forward combined with bidirectional rectifier. MATLAB simulation was adopted to verify the feasibility of the control strategy in a bid to provide a theoretical basis for the development of photovoltaic power generation technol-ogy.
