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DONG Shao-feng, DU Bao-qiang, ZHOU Wei. New design of high-precision oven controlled crystal oscillator[J]. JOURNAL OF BEIJING INSTITUTE OF TECHNOLOGY, 2012, 21(3): 362-369.

Citation:

DONG Shao-feng, DU Bao-qiang, ZHOU Wei. New design of high-precision oven controlled crystal oscillator[J].JOURNAL OF BEIJING INSTITUTE OF TECHNOLOGY, 2012, 21(3): 362-369.

DONG Shao-feng, DU Bao-qiang, ZHOU Wei. New design of high-precision oven controlled crystal oscillator[J]. JOURNAL OF BEIJING INSTITUTE OF TECHNOLOGY, 2012, 21(3): 362-369.

Citation:

DONG Shao-feng, DU Bao-qiang, ZHOU Wei. New design of high-precision oven controlled crystal oscillator[J].JOURNAL OF BEIJING INSTITUTE OF TECHNOLOGY, 2012, 21(3): 362-369.

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New design of high-precision oven controlled crystal oscillator

1.
Department of Measurement and Instrument, Xidian University, Xi'an 710071, China
2.
Department of Measurement and Instrument, Xidian University, Xi'an 710071, China;School of Electric and Information Engineering, Zhengzhou University of Light Industry, Zhengzhou 450002, China

Received Date:2012-01-31

Abstract

Abstract

Combining oven controlled technique, digital compensation, high-resolution frequency difference measurement and self-calibration technique, a new design method of precise oven controlled crystal oscillator (OCXO) is proposed. Fine compensation is made in the vicinity of the crystal temperature inflection point by using the non-real-time temperature compensation strategy, and self-calibration system is integrated in the crystal. The method improves the digital compensated phase noise, simplifies the traditional OCXO development system, reduces the cost and shortens the developing cycle. Experiment results show that with a standard reference signal and self-calibration updated data, the oscillator can work stable and achieve its best performence. The performance index of crystal oscillator had an improvement with one to two orders of magnitude on the basis of original technical index. The method is widely used in the improvement of high-end crystal oscillator and atomic clock.
- crystal oscillator,
- temperature compensation,
- non-real-time control,
- frequency difference measurement,
- self-calibration

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References (10)

References

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[6]	Achenbach R, Feuerstack-Raible M, Hiller F, et al. A digitally temperature-compensated crystal oscillator [J]. IEEE Journal of Solid-State Circuits, 2000,35(10):1502-1506.
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[8]	Li Minqiang, Huang Xianhe, Hang Tan,et al. A novel microcomputer temperature-compensating method for an overtone crystal oscillator[J]. IEEE Trans on Ultrasonics, Ferroelectrics and Frequency Control,2005,52(11):1919-1922.
[9]	Zhou Hui, Zhou Wei, Qu Bayi, et al. A rubidium frequency standard based on unreal time control approach[C]//IEEE/EIA International Frequency Control Symposium and Exhibition. New York: IEEE, 2005(5):594-597.
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沈阳化工大学材料科学与工程学院沈阳 110142

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