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Main Authors: Yin, Liwei, Shu, Yongjiang, Zhang, Heng, Dai, Yuefei, Lu, Xiaopeng, Lian, Yunlong, Wang, Zhonghua, Ding, Yong
Format: Preprint
Published: 2024
Subjects:
Online Access:https://arxiv.org/abs/2402.03817
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author Yin, Liwei
Shu, Yongjiang
Zhang, Heng
Dai, Yuefei
Lu, Xiaopeng
Lian, Yunlong
Wang, Zhonghua
Ding, Yong
author_facet Yin, Liwei
Shu, Yongjiang
Zhang, Heng
Dai, Yuefei
Lu, Xiaopeng
Lian, Yunlong
Wang, Zhonghua
Ding, Yong
contents Reasonable vibration reduction design is an important way to achieve low phase noise index of airborne frequency source output signal. Aiming at the problem of phase noise deterioration of an airborne frequency source under random condition, this paper proposes to improve the vibration reduction mode crystal oscillator and reduce the distance between the barycenter of frequency source and crystal oscillator vibration based on the analysis of the relationship between the frequency source and the phase noise of output signal. Experimental results show that the active noise control system achieves 62dB phase noise compensation under the random vibration of 0.04-0.1g*g/Hz amplitude range and 5-2000 Hz frequency range.
format Preprint
id arxiv_https___arxiv_org_abs_2402_03817
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Improvement of Frequency Source Phase Noise Reduction Design under Vibration Condition
Yin, Liwei
Shu, Yongjiang
Zhang, Heng
Dai, Yuefei
Lu, Xiaopeng
Lian, Yunlong
Wang, Zhonghua
Ding, Yong
Systems and Control
D.3.2
B.6.2
Reasonable vibration reduction design is an important way to achieve low phase noise index of airborne frequency source output signal. Aiming at the problem of phase noise deterioration of an airborne frequency source under random condition, this paper proposes to improve the vibration reduction mode crystal oscillator and reduce the distance between the barycenter of frequency source and crystal oscillator vibration based on the analysis of the relationship between the frequency source and the phase noise of output signal. Experimental results show that the active noise control system achieves 62dB phase noise compensation under the random vibration of 0.04-0.1g*g/Hz amplitude range and 5-2000 Hz frequency range.
title Improvement of Frequency Source Phase Noise Reduction Design under Vibration Condition
topic Systems and Control
D.3.2
B.6.2
url https://arxiv.org/abs/2402.03817