电测与仪表
電測與儀錶
전측여의표
ELECTRICAL MEASUREMENT & INSTRUMENTATION
2015年
14期
11-15
,共5页
常鲜戎%陈新超%季国庆%邓燕山
常鮮戎%陳新超%季國慶%鄧燕山
상선융%진신초%계국경%산연산
DSTATCOM%直流侧电容电压%超调%阶梯式升压%简易模糊PI控制
DSTATCOM%直流側電容電壓%超調%階梯式升壓%簡易模糊PI控製
DSTATCOM%직류측전용전압%초조%계제식승압%간역모호PI공제
DSTATCOM%DC-side capacitor voltage%overshoot%ladder type boost%simple fuzzy PI control
直流侧电容电压的稳定是配电网静止同步补偿器( DSTATCOM)能够正常工作的前提条件。针对传统控制方法在直流侧电压建立过程中存在较大超调量和启动电流涌流的问题,从浮动调节直流侧电压参考值角度出发,设计一种简易模糊PI控制器,实现了DSTATCOM的阶梯渐变式无超调升压。该新型方法既解决了传统常规PI控制器对模型精确性要求较高、易引起超调和抗干扰能力差的问题,又有效地减少了一般模糊控制带来的时间延迟。对所提出的简易模糊PI控制策略进行MATLAB仿真,并制作一台容量为10 kVA的DSTAT-COM实验样机,通过仿真和实验验证了该新型直流侧电压控制策略的有效性和可行性。
直流側電容電壓的穩定是配電網靜止同步補償器( DSTATCOM)能夠正常工作的前提條件。針對傳統控製方法在直流側電壓建立過程中存在較大超調量和啟動電流湧流的問題,從浮動調節直流側電壓參攷值角度齣髮,設計一種簡易模糊PI控製器,實現瞭DSTATCOM的階梯漸變式無超調升壓。該新型方法既解決瞭傳統常規PI控製器對模型精確性要求較高、易引起超調和抗榦擾能力差的問題,又有效地減少瞭一般模糊控製帶來的時間延遲。對所提齣的簡易模糊PI控製策略進行MATLAB倣真,併製作一檯容量為10 kVA的DSTAT-COM實驗樣機,通過倣真和實驗驗證瞭該新型直流側電壓控製策略的有效性和可行性。
직류측전용전압적은정시배전망정지동보보상기( DSTATCOM)능구정상공작적전제조건。침대전통공제방법재직류측전압건립과정중존재교대초조량화계동전류용류적문제,종부동조절직류측전압삼고치각도출발,설계일충간역모호PI공제기,실현료DSTATCOM적계제점변식무초조승압。해신형방법기해결료전통상규PI공제기대모형정학성요구교고、역인기초조화항간우능력차적문제,우유효지감소료일반모호공제대래적시간연지。대소제출적간역모호PI공제책략진행MATLAB방진,병제작일태용량위10 kVA적DSTAT-COM실험양궤,통과방진화실험험증료해신형직류측전압공제책략적유효성화가행성。
The stability of DC-side capacitor voltage is the prerequisite that distribution static synchronous compensator ( DSTATCOM) can work properly.In order to solve the problems of the traditional control method which includes large amounts of overshoot and starting current during the establishment of DC-side voltage,a simple fuzzy PI controller is designed.The controller is from the angle of regulating DC-side voltage reference value,and achieves the effect of ladder type non-overshoot boost of DSTATCOM.The new method not only resolves the problems of the conventional PI controller which requests the higher precision of models,and easily leads to overshoot and the poor ability to resist dis-turbance,but also reduces latency time brought by the general fuzzy control effectively.The proposed simple fuzzy con-trol strategy is verify by MATLAB and a self-made 10kVA DSTATCOM experimental prototype,and the results prove the effectiveness and feasibility of the new DC-side control strategy.