电力系统保护与控制
電力繫統保護與控製
전력계통보호여공제
POWER SYSTM PROTECTION AND CONTROL
2013年
15期
120-125
,共6页
电压不平衡%自适应观测器%锁相环%正负序分量%风电变流器
電壓不平衡%自適應觀測器%鎖相環%正負序分量%風電變流器
전압불평형%자괄응관측기%쇄상배%정부서분량%풍전변류기
unbalanced grid voltage%adaptive observer%phase-locked loop%positive and negative sequences%wind energy converter
电网不平衡条件下,传统软件锁相环已经不能准确跟踪电网电压的频率和相位信息,且无法直接得到电网电压的正负序分量。针对传统软件锁相环的缺陷,提出了一种静止坐标系下基于自适应观测器的软件锁相环算法。算法设计了电网电压角频率的自适应观测器模型,通过定义Lyapunov函数,推导出电网角频率的自适应律,并设计了使得观测器稳定的增益矩阵。该算法不仅可以观测到电网的频率、相位等信息,同时可以得到电网电压正负序分量。仿真和实验结果表明,基于自适应观测器的锁相环具有检测精度高、动态效果好等优点,当电网处于各种不平衡条件时更能显示其优越性,可为风电网侧变流器的算法改进提供有效的控制基准。
電網不平衡條件下,傳統軟件鎖相環已經不能準確跟蹤電網電壓的頻率和相位信息,且無法直接得到電網電壓的正負序分量。針對傳統軟件鎖相環的缺陷,提齣瞭一種靜止坐標繫下基于自適應觀測器的軟件鎖相環算法。算法設計瞭電網電壓角頻率的自適應觀測器模型,通過定義Lyapunov函數,推導齣電網角頻率的自適應律,併設計瞭使得觀測器穩定的增益矩陣。該算法不僅可以觀測到電網的頻率、相位等信息,同時可以得到電網電壓正負序分量。倣真和實驗結果錶明,基于自適應觀測器的鎖相環具有檢測精度高、動態效果好等優點,噹電網處于各種不平衡條件時更能顯示其優越性,可為風電網側變流器的算法改進提供有效的控製基準。
전망불평형조건하,전통연건쇄상배이경불능준학근종전망전압적빈솔화상위신식,차무법직접득도전망전압적정부서분량。침대전통연건쇄상배적결함,제출료일충정지좌표계하기우자괄응관측기적연건쇄상배산법。산법설계료전망전압각빈솔적자괄응관측기모형,통과정의Lyapunov함수,추도출전망각빈솔적자괄응률,병설계료사득관측기은정적증익구진。해산법불부가이관측도전망적빈솔、상위등신식,동시가이득도전망전압정부서분량。방진화실험결과표명,기우자괄응관측기적쇄상배구유검측정도고、동태효과호등우점,당전망처우각충불평형조건시경능현시기우월성,가위풍전망측변류기적산법개진제공유효적공제기준。
Under the condition of unbalance grid voltage, traditional phase-locked loop (PLL) is incapable to track the frequency and phase of the voltage, and fails to get the positive and negative sequence components of the grid voltage directly. To solve this problem, a PLL algorithm based on adaptive observer in the fixed reference coordinates is presented. The adaptive observer model and gain matrix for grid angular frequency estimation is designed. By means of Lyapunov function definition, the adaptive law for the grid angular frequency is deduced. The proposed PLL algorithm not only can observe the frequency and phase angle of the grid voltage, but also can get the positive and negative sequences signals. Simulation and experimental results prove that PLL based on the adaptive observer has advantage of high precision, fast dynamic response and so on. Its advantages are more prominent in the unbalance conditions, so it can provide a reliable control foundation for the improvement of wind energy converter.
