电工电能新技术
電工電能新技術
전공전능신기술
ADVANCED TECHNOLOGY OF ELECTRICAL ENGINEERING AND ENERGY
2014年
5期
51-57
,共7页
何瑞文%王奕%蔡泽祥%谢琼香%李佳曼
何瑞文%王奕%蔡澤祥%謝瓊香%李佳曼
하서문%왕혁%채택상%사경향%리가만
电流互感器%空心线圈%传变特性%线性度%频率特性%暂态特性
電流互感器%空心線圈%傳變特性%線性度%頻率特性%暫態特性
전류호감기%공심선권%전변특성%선성도%빈솔특성%잠태특성
current transformer%air-core coil%transfer characteristics%linearity%frequency characteristics%transi-ent characteristics
为了精确评估空心线圈电流互感器的传变特性,设计了空心线圈电流互感器精确度、饱和特性、频率特性和暂态特性的测试方案,根据互感器的结构模块设置测试点,研究各单元部件和整机的特性。提出采用“额定准确低限值一次电流”下的“总谐波畸变率”指标,评价空心线圈电流互感器在小电流时的输出波形质量。实验结果表明,空心线圈电流互感器大电流时线性度好,小电流时易受干扰的影响,互感器频带受限于传感线圈参数和信号处理电路的相频特性,对故障暂态电流和励磁涌流的传变误差主要来源于衰减直流分量的测量误差。研究方法为厂家产品设计和改良、相关测试标准的改善提供参考。
為瞭精確評估空心線圈電流互感器的傳變特性,設計瞭空心線圈電流互感器精確度、飽和特性、頻率特性和暫態特性的測試方案,根據互感器的結構模塊設置測試點,研究各單元部件和整機的特性。提齣採用“額定準確低限值一次電流”下的“總諧波畸變率”指標,評價空心線圈電流互感器在小電流時的輸齣波形質量。實驗結果錶明,空心線圈電流互感器大電流時線性度好,小電流時易受榦擾的影響,互感器頻帶受限于傳感線圈參數和信號處理電路的相頻特性,對故障暫態電流和勵磁湧流的傳變誤差主要來源于衰減直流分量的測量誤差。研究方法為廠傢產品設計和改良、相關測試標準的改善提供參攷。
위료정학평고공심선권전류호감기적전변특성,설계료공심선권전류호감기정학도、포화특성、빈솔특성화잠태특성적측시방안,근거호감기적결구모괴설치측시점,연구각단원부건화정궤적특성。제출채용“액정준학저한치일차전류”하적“총해파기변솔”지표,평개공심선권전류호감기재소전류시적수출파형질량。실험결과표명,공심선권전류호감기대전류시선성도호,소전류시역수간우적영향,호감기빈대수한우전감선권삼수화신호처리전로적상빈특성,대고장잠태전류화려자용류적전변오차주요래원우쇠감직류분량적측량오차。연구방법위엄가산품설계화개량、상관측시표준적개선제공삼고。
For accurately assessing the transfer characteristics of the air?core current transformer, the test scheme is designed on its accuracy, saturation, frequency and transient characteristics. The test points are set according to structure module of the transformer, and the characteristics of the each unit and the whole machine are studied. The index of‘total harmonic distortion rate’ under the‘rated accurate low limit primary current’ is proposed so as to evaluate its output waveform’ s quality when the current is small. The experimental results show that the air?core current transformer has good linearity when current is strong and is susceptible to interference with the small cur?rent, the frequency band of current transformer is limited by the sensing coil parameters and phase frequency char?acteristic of signal processing circuit, and the transmission errors of transient current and excitation inrush current come from the measurement error of decaying DC component mainly. The research method can provide verification for the improvement of manufacturer’ s product design and related test standards.