电力系统自动化
電力繫統自動化
전력계통자동화
Automation of Electric Power Systems
2015年
18期
101-107
,共7页
吴冬春%阚加荣%吴云亚%谢少军%薛迎成%姚志垒
吳鼕春%闞加榮%吳雲亞%謝少軍%薛迎成%姚誌壘
오동춘%감가영%오운아%사소군%설영성%요지루
光伏系统%并网逆变器%低频电流纹波%LCL-T 谐振网络%不对称半桥变换器
光伏繫統%併網逆變器%低頻電流紋波%LCL-T 諧振網絡%不對稱半橋變換器
광복계통%병망역변기%저빈전류문파%LCL-T 해진망락%불대칭반교변환기
photovoltaic system%grid-connected inverter%low-frequency current ripple%LCL-T resonant network%asymmetrical half-bridge converter
光伏发电系统对光伏电池输出电流低频纹波有严格的要求,而普通光伏并网逆变器通常增加滤波器容量或复杂的控制策略实现输入低频电流纹波抑制。将 LCL-T 谐振网络引入光伏并网逆变器,在变换器开关频率等于谐振频率时,可由谐振网络特性有效抑制光伏电池输出电流中的低频纹波。分析了光伏并网系统中电流、电压与各元件参数之间的关系,提出了相关元件参数的设计规则,并提出了相应的控制策略。实验结果表明,所提逆变器能够很好地抑制光伏电池输出电流中的低频纹波,且具有较高的效率。
光伏髮電繫統對光伏電池輸齣電流低頻紋波有嚴格的要求,而普通光伏併網逆變器通常增加濾波器容量或複雜的控製策略實現輸入低頻電流紋波抑製。將 LCL-T 諧振網絡引入光伏併網逆變器,在變換器開關頻率等于諧振頻率時,可由諧振網絡特性有效抑製光伏電池輸齣電流中的低頻紋波。分析瞭光伏併網繫統中電流、電壓與各元件參數之間的關繫,提齣瞭相關元件參數的設計規則,併提齣瞭相應的控製策略。實驗結果錶明,所提逆變器能夠很好地抑製光伏電池輸齣電流中的低頻紋波,且具有較高的效率。
광복발전계통대광복전지수출전류저빈문파유엄격적요구,이보통광복병망역변기통상증가려파기용량혹복잡적공제책략실현수입저빈전류문파억제。장 LCL-T 해진망락인입광복병망역변기,재변환기개관빈솔등우해진빈솔시,가유해진망락특성유효억제광복전지수출전류중적저빈문파。분석료광복병망계통중전류、전압여각원건삼수지간적관계,제출료상관원건삼수적설계규칙,병제출료상응적공제책략。실험결과표명,소제역변기능구흔호지억제광복전지수출전류중적저빈문파,차구유교고적효솔。
The low-frequency current ripple(LFCR) in output current of photovoltaic cells has to satisfy strict requirements of the photovoltaic generation system.A commonly used method of restraining LFCR is using a bigger filter or a complicated control strategy in an ordinary photovoltaic grid-connected inverter.The LCL-T resonant network is introduced into the photovoltaic grid-connected inverter.The LFCR can be effectively suppressed with the intrinsic characteristics of the LCL-T resonant network when the switching frequency of the converter is equal to the resonant frequency.The currents and voltages of the proposed inverter are derived and design guidance for component parameters and corresponding control strategy are proposed.The experimental results have verified that the LFCR can be well suppressed and the proposed inverter has high conversion efficiency.
