The Formation of a Chip Scale Atomic Clock Ensemble Using Software Defined Radios

Christopher Flood;Penina Axelrad;Joanna Hinks
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Abstract

Low size, weight, and power (SWaP) clocks are expected to play a key role in new positioning, navigation, and timing (PNT) systems, providing augmentations or alternatives to conventional global navigation satellite systems (GNSS). Distributing high-quality PNT services from payloads with more limited resources than GNSS satellites requires signal generation from low SWaP hardware. This paper describes stable signal synthesis based on a low cost clock ensemble using software defined radio (SDR) metrology techniques and clock ensemble algorithms. First, the capacity to accurately characterize the stability of different clocks using the SDR is demonstrated. Experimental results then establish the ability to steer an oven controlled crystal oscillator (OCXO), initially to a single reference clock signal, and then to the implicit ensemble mean (IEM) of three chip scale atomic clocks (CSACs). This steered output signal has noise comparable to the short term stability of the OCXO and long term stability similar to the best clock in the ensemble.
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用软件定义无线电形成芯片级原子钟集成
低尺寸、重量和功耗(SWaP)时钟有望在新的定位、导航和授时(PNT)系统中发挥关键作用,为传统的全球导航卫星系统(GNSS)提供增强或替代方案。利用比GNSS卫星资源更有限的有效载荷分配高质量的PNT服务,需要使用低SWaP硬件产生信号。本文介绍了基于软件定义无线电(SDR)计量技术和时钟集成算法的低成本时钟集成的稳定信号合成。首先,证明了利用SDR精确表征不同时钟稳定性的能力。实验结果建立了将烤箱控制晶体振荡器(OCXO)转向单个参考时钟信号的能力,然后转向三个芯片级原子钟(CSACs)的隐式集成平均值(IEM)的能力。这种转向输出信号具有可与OCXO的短期稳定性相媲美的噪声和与集成中最好的时钟相似的长期稳定性。
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