摘要
基于法拉第电磁感应定律的感应式磁力仪是用于测量低频磁场的空间探测仪器,通常具有在轨FFT频谱分析功能,可直接获得波动磁场的频率及幅度等信息.利用FFT方法对截断信号进行计算时,非整周期采样会产生频谱泄露和栅栏效应,即频谱信息产生偏差,从而影响实时监测磁场变化的准确性.全相位FFT与常规FFT相比,具有相位不变性和良好的抑制频谱泄露能力.采用基于全相位FFT的时移相位差方法(apFFT/apFFT)校正在研的某卫星感应式磁力仪直接采集的波形数据.仿真和实验结果表明,apFFT/apFFT方法可有效提高感应式磁力仪低频磁场测量的频谱准确性.研究工作为提高感应式磁力仪科学数据的应用水平奠定了基础,并为下一代星载感应式磁力仪在轨频谱分析提供了一种可能的新方法.
Induction magnetometer, based on Faraday's law, is used to measure the magnetic field changes with low frequency in space. It usually has the function of on-orbit FFT spectrum analysis, which can obtain the information of magnetic field fluctuation directly, such as frequency and ampli- tude. However, when using FFT to process the truncated signal, non-complete period sampling will cause spectrum leakage and fence effect. Namely the spectrum information will generate deviations, which affects the accuracy of real-time monitoring of magnetic field changes. Compared with tradi- tional FFT, the all-phase FFT with phase invariability can effectively prevent spectrum leakage. In this paper, an all-phase time-shift phase difference method (apFFT/apFFT) is used to correct the waveform data of a satellite induction magnetometer. Simulation and experimental results indicate that this method can improve the measurement accuracy. This study also provides a method about on-orbit spectrum analysis for the next generation of spaceborne induction magnetometer.
出处
《空间科学学报》
CAS
CSCD
北大核心
2016年第3期366-372,共7页
Chinese Journal of Space Science
基金
国家自然科学基金项目(41274190
41104121)
国家重点基础研究发展计划项目共同资助