Long-term frequency aging for unpowered space-class oscillators

Bloch, M.; Ho, Joseph X.; Mancini, O.; Terracciano, Luigi; Mallette, Leo A.

doi:10.1109/tuffc.2009.1290

Cited by 3 publications

(1 citation statement)

References 12 publications

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“…They affect the frequency drift in different periods. This peculiarity of crystal oscillator causes the diversity in the way the crystal oscillator shows its aging characteristics [13,14] in different phases. Therefore, try to find the aging drift rule of crystal oscillator straight from its representation is rather complicated.…”

Section: The Construction Of Aging Modelsmentioning

confidence: 99%

Construction of Aging Model and Compensation Based on Nonlinear Time Series Analysis

Zhang¹,

Zhang²

2017

Proceedings of the 2017 2nd International Conference on Materials Science, Machinery and Energy Engineering (MSMEE 2017)

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Abstract.To solve the frequency aging problem of high-precision quartz crystal oscillator has been one of the most written topics in the international frequency control field. Aging prediction is a significant approach to the process of the long-term aging indicator problem. Aiming at the aging issue of the crystal oscillator, in this paper, we take the SC cut 10MHz OCXO as the aging experimental subject, construct a model by time series analysis method, fit the aging process of the crystal oscillator, predict the development trend, and compensate the accuracy of the crystal oscillator's frequency output with predicted result. The experimental results demonstrate that this model is well-performed in describing the frequency aging process of the quartz oscillator and predicting the frequency aging. Furthermore, verified by simulation, the effect of compensation is evident. The indicator, daily aging rate of crystal oscillator after compensation could reach the level of 10-11.

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Section: The Construction Of Aging Modelsmentioning

confidence: 99%

Construction of Aging Model and Compensation Based on Nonlinear Time Series Analysis

Zhang¹,

Zhang²

2017

Proceedings of the 2017 2nd International Conference on Materials Science, Machinery and Energy Engineering (MSMEE 2017)

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Low‐noise Amplifier and Frequency Converter

2021

Satellite Communications Payload and System

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Intelligent aging compensation scheme for oven-controlled crystal oscillators of batch production based on statistical distribution

Miao

Zhang

et al. 2021

Review of Scientific Instruments

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The aging of crystal oscillators is an inherent and irreversible process. There is often thought to be no need for special processing if the aging rate varies within an allowable range and the crystal oscillator works properly. However, the impact of aging can be aggravated over the course of lengthy operation. This paper proposes an intelligent compensation scheme for the aging of batch OCXOs (oven-controlled crystal oscillators) based on a statistical distribution, analyzes the aging data of OCXOs in the same batch, selects the typical samples, acquires the best aging prediction curves after assessing different models, and efficiently compensates for every qualified product for aging using this model. The results of experiments exhibited good compensation effects, with an improvement of one to two orders of magnitude in the aging indicators of the compensated OCXOs compared with the original without compensation.

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Long-term frequency aging for unpowered space-class oscillators

Cited by 3 publications

References 12 publications

Construction of Aging Model and Compensation Based on Nonlinear Time Series Analysis

Construction of Aging Model and Compensation Based on Nonlinear Time Series Analysis

Low‐noise Amplifier and Frequency Converter

Intelligent aging compensation scheme for oven-controlled crystal oscillators of batch production based on statistical distribution

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