电力系统保护与控制
電力繫統保護與控製
전력계통보호여공제
POWER SYSTM PROTECTION AND CONTROL
2014年
23期
95-101
,共7页
全相位快速傅里叶变换%时移相位差%目标函数%拟牛顿法%谐波/间谐波检测
全相位快速傅裏葉變換%時移相位差%目標函數%擬牛頓法%諧波/間諧波檢測
전상위쾌속부리협변환%시이상위차%목표함수%의우돈법%해파/간해파검측
all-phase FFT%time-shift phase difference%objective function%quasi-Newton method%harmonic/inter-harmonic detection
为了提高电能质量,准确测量电网中的谐波和间谐波频率、幅度和相位,给出一种高精度的电网谐波和间谐波检测的组合优化算法。首先,利用双窗全相位快速傅里叶变换时移相位差频谱校正法,检测出谐波和间谐波的频率值;再构建谐波和间谐波信号幅值和相角参数的目标函数,设定初始值和迭代精度,由拟牛顿优化算法对目标函数进行迭代运算,检测出相应的谐波和间谐波信号的幅值和相位角。利用该方法对复杂间谐波信号进行检测,仿真实验结果表明,基于双窗全相位快速傅里叶变换时移相位差频谱校正法和拟牛顿法的组合算法实现了间谐波幅值、频率和相位三个特征的较高精度检测。且该算法具有较高的抗噪声干扰能力。
為瞭提高電能質量,準確測量電網中的諧波和間諧波頻率、幅度和相位,給齣一種高精度的電網諧波和間諧波檢測的組閤優化算法。首先,利用雙窗全相位快速傅裏葉變換時移相位差頻譜校正法,檢測齣諧波和間諧波的頻率值;再構建諧波和間諧波信號幅值和相角參數的目標函數,設定初始值和迭代精度,由擬牛頓優化算法對目標函數進行迭代運算,檢測齣相應的諧波和間諧波信號的幅值和相位角。利用該方法對複雜間諧波信號進行檢測,倣真實驗結果錶明,基于雙窗全相位快速傅裏葉變換時移相位差頻譜校正法和擬牛頓法的組閤算法實現瞭間諧波幅值、頻率和相位三箇特徵的較高精度檢測。且該算法具有較高的抗譟聲榦擾能力。
위료제고전능질량,준학측량전망중적해파화간해파빈솔、폭도화상위,급출일충고정도적전망해파화간해파검측적조합우화산법。수선,이용쌍창전상위쾌속부리협변환시이상위차빈보교정법,검측출해파화간해파적빈솔치;재구건해파화간해파신호폭치화상각삼수적목표함수,설정초시치화질대정도,유의우돈우화산법대목표함수진행질대운산,검측출상응적해파화간해파신호적폭치화상위각。이용해방법대복잡간해파신호진행검측,방진실험결과표명,기우쌍창전상위쾌속부리협변환시이상위차빈보교정법화의우돈법적조합산법실현료간해파폭치、빈솔화상위삼개특정적교고정도검측。차해산법구유교고적항조성간우능력。
In order to improve power quality and accurately measure the frequency values, amplitudes and phases of harmonic and inter-harmonic signal in power grid, a high precision combinational optimization algorithm for measuring electric grid harmonics and inter-harmonics is presented. Firstly, double window all-phase FFT time-shift phase difference spectrum correction method is used to detect the frequency values of harmonic and inter-harmonic signal. Then the objective function of the parameters of amplitude and phase angle is built. The initial value and iterative precision are set. Iterative calculation is performed to target function by quasi-Newton optimization algorithm. Finally the corresponding amplitudes and phase angles are estimated. Using the method to detect the complex inter-harmonic signal, the simulation experimental results show that the algorithm based on the combinational optimization algorithm of double window all-phase FFT time-shift phase difference spectrum correction and quasi-Newton optimization algorithm has realized the higher precision detection of inter-harmonic signal frequency, amplitude and phase three characteristics. And the algorithm has a higher ability to resist noise.