摘要
We present a new digital phase lock technology to achieve the frequency control and transformation through high precision multi-cycle group synchronization between signals without the frequency transformation circuit. In the case of digital sampling, the passing zero point of the phase of the controlled signal has the phase step characteristic, the phase step of the passing zero point is monotonic continuous with high resolution in the phase lock process, and using the border effect of digital fuzzy area, the gate can synchronize with the two signals, the quantization error is reduced. This technique is quite different from the existing methods of frequency transformation and frequency synthesis, the phase change characteristic between the periodic signals with different nominal is used. The phase change has the periodic phenomenon, and it has the high resolution step value. With the application of the physical law, the noise is reduced because of simplifying frequency transformation circuits, and the phase is locked with high precision. The regular phase change between frequency signals is only used for frequency measurement, and the change has evident randomness, but this randomness is greatly reduced in frequency control, and the certainty of the process result is clear. The experiment shows that the short term frequency stability can reach 10-12/s orders of magnitude.
We present a new digital phase lock technology to achieve the frequency control and transformation through high precision multi-cycle group synchronization between signals without the frequency transformation circuit. In the case of digital sampling, the passing zero point of the phase of the controlled signal has the phase step characteristic, the phase step of the passing zero point is monotonic continuous with high resolution in the phase lock process, and using the border effect of digital fuzzy area, the gate can synchronize with the two signals, the quantization error is reduced. This technique is quite different from the existing methods of frequency transformation and frequency synthesis, the phase change characteristic between the periodic signals with different nominal is used. The phase change has the periodic phenomenon, and it has the high resolution step value. With the application of the physical law, the noise is reduced because of simplifying frequency transformation circuits, and the phase is locked with high precision. The regular phase change between frequency signals is only used for frequency measurement, and the change has evident randomness, but this randomness is greatly reduced in frequency control, and the certainty of the process result is clear. The experiment shows that the short term frequency stability can reach 10-12/s orders of magnitude.
作者
贾兆旻
杨旭海
孙保琪
周晓平
向波
窦新宇
Zhao-Min Jia Xu-Hai Yang Bao-Qi Sun Xiao-Ping Zhou Bo Xiang Xin-Yu Dou(National Time Service Centre, Chinese Academy of Sciences, Xi'an 710600 School of Astronomy and Space Science, University of Chinese Academy of Sciences, Beijing 100049 Key Laboratory of Precise Positioning and Timing Technology, Chinese Academy of Sciences, Xi'an 710600 Intelligence and Information Engineering College, Tangshan University, Tangshan 063020 China Academy of Space Technology (Xi'an), Xi'an 710000)
基金
Supported by the National Natural Science Foundation of China under Grant No 11173026
the International GNSS Monitoring and Assessment System(iGMAS)of National Time Service Centre
