用于空间光学时钟的有源振动隔离器

IF 0.4 4区 工程技术 Q4 ENGINEERING, MULTIDISCIPLINARY
Wei Li, Qing Li, Keda He, Lei Liu
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引用次数: 0

摘要

摘要 空间光学钟是未来空间科学实验的重要设备。空间光学时钟的超稳定光学基准腔不可避免地需要微克(μg)级的微振动。然而,现有的空间光学钟主动隔振器研究仍处于实验室开发阶段,其隔振控制算法仍依赖于高性能的商用实时控制器,难以满足空间光学钟隔振器的应用要求。本文在前人工作的基础上,介绍了一种满足空间光学时钟实验要求的主动隔振器的研制情况。在 DSP 嵌入式隔振控制器的基础上,设计了一种抗饱和控制算法,解决了鲁棒控制器阶数高、计算资源大、参数调试难等问题。进一步开发了主动隔振实验系统,实验结果验证了所开发的主动隔振器和抗饱和控制算法的有效性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

An Active Vibration Isolator for the Space Optical Clock

An Active Vibration Isolator for the Space Optical Clock

An Active Vibration Isolator for the Space Optical Clock

Space optical clock is an important device for future space science experiments. Inevitably, the micro-vibration level in the order of micro-g (μg) is required for ultra-stable optical reference cavity of space optical clock. However, the existing research on active vibration isolators of space optical clock is still in the laboratory development stage, and their vibration isolation control algorithms still rely on high-performance commercial real-time controllers, making it difficult to meet the application requirements for isolators of space optical clock. On the basis of the previous work, this paper describes the development an active vibration isolator that meets the experimental requirements of the space optical clock. Based on the DSP embedded vibration isolation controller, an anti-saturation control algorithm is designed, which solves the problems of high order of robust controllers, large computing resources and difficult parameter debugging. The active vibration isolation experimental system is further developed, and the experimental results validate the effectiveness of the developed active vibration isolator and anti-saturation control algorithm.

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来源期刊
Instruments and Experimental Techniques
Instruments and Experimental Techniques 工程技术-工程:综合
CiteScore
1.20
自引率
33.30%
发文量
113
审稿时长
4-8 weeks
期刊介绍: Instruments and Experimental Techniques is an international peer reviewed journal that publishes reviews describing advanced methods for physical measurements and techniques and original articles that present techniques for physical measurements, principles of operation, design, methods of application, and analysis of the operation of physical instruments used in all fields of experimental physics and when conducting measurements using physical methods and instruments in astronomy, natural sciences, chemistry, biology, medicine, and ecology.
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