电网技术
電網技術
전망기술
POWER SYSTEM TECHNOLOGY
2012年
3期
127-133
,共7页
高玮%何正友%张姝%麦瑞坤
高瑋%何正友%張姝%麥瑞坤
고위%하정우%장주%맥서곤
幅频测量%自适应陷波器%时间尺度%离散化
幅頻測量%自適應陷波器%時間呎度%離散化
폭빈측량%자괄응함파기%시간척도%리산화
KEY WORDS: measurement of frequency and amplitude%adaptive notch filter (ANF)%time scaling%discretization
现有电力信号幅频测量算法在动态条件下的测量精度和响应时间方面还有待改善,为此提出了基于时间尺度变换的自适应陷波器(adaptivenotchfilter,ANF)算法进行幅频测量。该算法对时间进行尺度变换,得到新时间尺度下的ANF动态方程,能够消除频率参数和滤波器之间的非线性耦合,将状态估计方程等价为线性时不变系统,并进行离散化处理。该算法能够有效消除谐波和噪声干扰,快速准确地测量动态变化的幅值和频率。算例结果验证了该方法的有效性,可满足在线测量的要求。
現有電力信號幅頻測量算法在動態條件下的測量精度和響應時間方麵還有待改善,為此提齣瞭基于時間呎度變換的自適應陷波器(adaptivenotchfilter,ANF)算法進行幅頻測量。該算法對時間進行呎度變換,得到新時間呎度下的ANF動態方程,能夠消除頻率參數和濾波器之間的非線性耦閤,將狀態估計方程等價為線性時不變繫統,併進行離散化處理。該算法能夠有效消除諧波和譟聲榦擾,快速準確地測量動態變化的幅值和頻率。算例結果驗證瞭該方法的有效性,可滿足在線測量的要求。
현유전력신호폭빈측량산법재동태조건하적측량정도화향응시간방면환유대개선,위차제출료기우시간척도변환적자괄응함파기(adaptivenotchfilter,ANF)산법진행폭빈측량。해산법대시간진행척도변환,득도신시간척도하적ANF동태방정,능구소제빈솔삼수화려파기지간적비선성우합,장상태고계방정등개위선성시불변계통,병진행리산화처리。해산법능구유효소제해파화조성간우,쾌속준학지측량동태변화적폭치화빈솔。산례결과험증료해방법적유효성,가만족재선측량적요구。
The measurement accuracy and response time of existing amplitude and frequency measurement algorithms for electric power signals are to be improved, so an adaptive notch filter (ANF) algorithm based on time scale transformation is proposed to measure the frequencies and amplitudes. The proposed algorithm performs time scale transformation and a dynamic ANF equation under new time scale is obtained. The obtained dynamic ANF equation can eliminate nonlinear coupling between frequency parameter and filter, and can make the state estimation equation equivalent to a linear time-invariant system and carry out discretization process. The proposed algorithm can effectively eliminate the interferences from noise and harmonics and measure dynamically varying amplitudes and frequencies of power signals rapidly and accurately. Results of case study show that the proposed method is effective and can meet the demand of on-line measurement.