Various types of onboard atomic clocks such as rubidium, cesium and hydrogen have different frequency accuracies and frequency drift rate characteristics. A passive hydrogen maser (PHM) has the advantage of low-frequency drift over a long period, which is suitable for long-term autonomous satellite time keeping. The third generation of Beidou Satellite Navigation System (BDS3) is equipped with PHMs which have been independently developed by China for their IGSO and MEO experimental satellites. Including Galileo, it is the second global satellite navigation system that uses PHM as a frequency standard for navigation signals. We briefly introduce the PHM design at the Shanghai Astronomical Observatory (SHAO) and detailed performance evaluation of in-orbit PHMs. Using the high-precision clock values obtained by satellite-ground and inter-satellite measurement and communication systems, we analyze the frequency stability, clock prediction accuracy and clock rate variation characteristics of the BDS3 experimental satellites. The results show that the in-orbit PHM frequency stability of the BDS3 is approximately 6 10 15 at 1-day intervals, which is better than those of other types of onboard atomic clocks. The BDS3 PHM 2-, 10-h and 7-day clock prediction precision values are 0.26, 0.4 and 2.2 ns, respectively, which are better than those of the BDS3 rubidium clock and most of the GPS Block IIF and Galileo clocks. The BDS3 PHM 15-day clock rate variation is 1.83 10 14 ss, which indicates an extremely small frequency drift. The 15-day long-term stability results show that the BDS3 PHM in-orbit stability is roughly the same as the ground performance test. The PHM is expected to provide a highly stable time and frequency standard in the autonomous navigation case. p>

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Tang LWang JCui BZhu HGe MSchuh H(2023)Multi-GNSS precise point positioning with predicted orbits and clocksGPS Solutions10.1007/s10291-023-01499-127:4Online publication date: 5-Jul-2023
https://dl.acm.org/doi/10.1007/s10291-023-01499-1
Zhou WGao WPan JHu XZhou SShao RYuan Y(2023)Analysis of preliminary results from distributed autonomous timekeeping on Beidou-3 satellitesGPS Solutions10.1007/s10291-023-01422-827:2Online publication date: 2-Mar-2023
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Ge YCao XLyu DHe ZYe FXiao GShen F(2023)An investigation of PPP time transfer via BDS-3 PPP-B2b serviceGPS Solutions10.1007/s10291-023-01402-y27:2Online publication date: 26-Jan-2023
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Performance of the BDS3 experimental satellite passive hydrogen maser
1. Applied computing
  1. Physical sciences and engineering
2. Hardware
  1. Communication hardware, interfaces and storage
    1. Signal processing systems

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GPS Solutions Volume 22, Issue 2

Apr 2018

300 pages

ISSN:1080-5370

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Berlin, Heidelberg

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Published: 01 April 2018

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Tang LWang JCui BZhu HGe MSchuh H(2023)Multi-GNSS precise point positioning with predicted orbits and clocksGPS Solutions10.1007/s10291-023-01499-127:4Online publication date: 5-Jul-2023
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