电测与仪表
電測與儀錶
전측여의표
ELECTRICAL MEASUREMENT & INSTRUMENTATION
2013年
10期
98-101
,共4页
霍尔效应%磁场%通电螺线管
霍爾效應%磁場%通電螺線管
곽이효응%자장%통전라선관
Hall-effect%magnetic field%power solenoid
设计了用霍尔效应法测量磁场的实验方法。测量电路以霍尔元件5303为核心器件,通过改变霍尔元件的输入参数及测量位置,验证了霍尔效应理论及所测磁场的特性。实验表明,该方法可有效测量通电长直螺线管中的磁场分布,从实验角度验证霍尔效应理论。
設計瞭用霍爾效應法測量磁場的實驗方法。測量電路以霍爾元件5303為覈心器件,通過改變霍爾元件的輸入參數及測量位置,驗證瞭霍爾效應理論及所測磁場的特性。實驗錶明,該方法可有效測量通電長直螺線管中的磁場分佈,從實驗角度驗證霍爾效應理論。
설계료용곽이효응법측량자장적실험방법。측량전로이곽이원건5303위핵심기건,통과개변곽이원건적수입삼수급측량위치,험증료곽이효응이론급소측자장적특성。실험표명,해방법가유효측량통전장직라선관중적자장분포,종실험각도험증곽이효응이론。
This paper designed a magnetic field measurement method using Hall-effect, which selected the Hall element 5303 as the key electronic component; and verified the Hall-effect theory and the characteristic of the measured magnetic field by changing the input parameters of the Hall element and the measure point. The experiment proved that this method can measure the magnetic field distribution of the power solenoid effectively and verify the Hall-effect theory from the experimental point.