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改进的模拟温补晶振宽温补偿方法

韩艳菊 杨科 郑鸿耀

韩艳菊, 杨科, 郑鸿耀等 . 改进的模拟温补晶振宽温补偿方法[J]. 北京航空航天大学学报, 2015, 41(12): 2250-2255. doi: 10.13700/j.bh.1001-5965.2015.0003
引用本文: 韩艳菊, 杨科, 郑鸿耀等 . 改进的模拟温补晶振宽温补偿方法[J]. 北京航空航天大学学报, 2015, 41(12): 2250-2255. doi: 10.13700/j.bh.1001-5965.2015.0003
HAN Yanju, YANG Ke, ZHENG Hongyaoet al. Modified wide temperature compensation method for analog TCXO[J]. Journal of Beijing University of Aeronautics and Astronautics, 2015, 41(12): 2250-2255. doi: 10.13700/j.bh.1001-5965.2015.0003(in Chinese)
Citation: HAN Yanju, YANG Ke, ZHENG Hongyaoet al. Modified wide temperature compensation method for analog TCXO[J]. Journal of Beijing University of Aeronautics and Astronautics, 2015, 41(12): 2250-2255. doi: 10.13700/j.bh.1001-5965.2015.0003(in Chinese)

改进的模拟温补晶振宽温补偿方法

doi: 10.13700/j.bh.1001-5965.2015.0003
详细信息
    作者简介:

    韩艳菊(1976-),女,山东德州人,博士研究生,sdhanyj@sina.com

    通讯作者:

    杨科(1966-),男,北京人,高级工程师,Yangke6612@126.com,主要研究方向为晶体振荡器.

  • 中图分类号: TN711

Modified wide temperature compensation method for analog TCXO

  • 摘要: 当要求模拟温补晶体振荡器(TCXO)在宽温范围内频率温度稳定性优于±1×10-6时,使用传统补偿方法通常一次成功率低.通过对温补精度影响因素的分析,得出温补网络中热敏电阻测试方法和计算模型误差较大.因此,提出一种改进的宽温补偿方法.首先,参考热敏电阻在宽温范围内在线测试,获得实际数据;然后,待使用热敏电阻依据参考热敏电阻测试数据进行比例建模,得到各温度对应电阻值;最后,将建模后的待使用热敏电阻代入温补网络计算程序,采用遗传算法优化计算网络参数.通过与传统方法的对比试验,表明该方法建模的热敏电阻与实际测试值更接近,温补网络计算程序更灵活,温补一次成功率提高到约90%以上.

     

  • [1] GJB 1648A—2011.晶体振荡器通用规范[S].北京:总装备部军标出版发行部,2011:47. GJB 1648A—2011.General specification for crystal oscillators[S].Beijing:General Armament Department Military Standard Publishing Department,2011:47(in Chinese).
    [2] John R V.Introduction to quartz frequency standards,AD-A248503[R].NJ:US Army LABCOM ETDL,1992:22-28.
    [3] 吴剑强.小型超宽温度范围模拟温补晶振[J].湖南大学学报,1993,20(6):34-38. Wu J Q.The miniature temperature compensation crystal oscillator for ultra-wide range of temperature[J].Journal of Hunan University,1993,20(6):34-38(in Chinese).
    [4] 靳宝安,袁桃利,贾玉霞.晶振温补网络研究[J].陕西科技大学学报,2005,23(3):81-85. Jin B A,Yuan T L,Jia Y X.Analyse and research on the temperature compensate net of crystal oscillator[J].Journal of Shaanxi University of Science & Technology,2005,23(3):81-85(in Chinese).
    [5] 邓敏,陈卫.宽温高稳定度的温度补偿技术[J].电讯技术,2008,48(6):44-46. Deng M,Chen W.Temperature compensation technology with wide temperature and high frequency stability[J].Telecommunication Engineering,2008,48(6):44-46(in Chinese).
    [6] 李建文,祖兵.高准确度宽温石英晶振热敏网络温度补偿[J].传感器技术,2004,23(5):68-71. Li J W,Zu B.Temperature compensation to quartz crystal oscillator by thermistor net with high accuracy within wide temperature scope[J].Journal of Transducer Technology,2004,23(5):68-71(in Chinese).
    [7] 黄显核.最佳逼近法在晶体频温曲线拟合和TCXO中的应用[J].压电与声光,2005,27(4):452-454. Huang X H.Application of the best approximation algorithms on frequency-temperature curve fit and TCXO[J].Piezoelectrics and Acoustooptics,2005,27(4):452-454(in Chinese).
    [8] Mi Z,Wei X C.A 0.1 ppm successive approximation frequency-temperature compensation method for temperature compensated crystal oscillators (TCXO)[C]//Proceedings of 2009 World Congress on Computer Science and Information Engineering.Piscataway,NJ:IEEE Press,2009:493-498.
    [9] Wei F,Xian H H,Feng T,et al.An improved microcontroller compensated low phase noise overtone TCXO[C]//Proceedings of 2009 IEEE International Frequency Control Symposium and the 22nd European Frequency and Time forum. Piscataway,NJ:IEEE Press,2009:974-977.
    [10] 孙敏,黎敏强,陈中平,等.一种宽温高精度温补晶振的研制[J].电子技术,2013,26(8):90-92. Sun M,Li M Q,Chen Z P,et al.A high precision temperature compensated crystal oscillator in wide temperature range[J].Electronic Science and Technology,2013,26(8):90-92(in Chinese).
    [11] 江玉洁,陈辰,伏全海,等.一种全集成化的温补晶体振荡器[J].宇航计测技术,2003,23(3):52-57. Jiang Y J,Chen C,Fu Q H,et al.A full-integrated temperature compensated crystal oscillator[J].Journal of Astronautic Metrology and Measurement,2003,23(3):52-57(in Chinese).
    [12] 尹红斌.基于模拟-数字相结合的新型温补晶振的产业化设计[D].西安:西安电子科技大学,2007. Yin H B.Industrialized research of temperature compensated crystal based on analog-digital method[D].Xi'an:Xi'an Eletronic Science and Technology University,2007(in Chinese).
    [13] 王艳,黄显核,阎立群,等.高精度低噪声集成温度补偿晶体振荡器[J].压电与声光,2010,32(6):909-911. Wang Y,Huang X H,Yan L Q,et al.An integrated temperature compensated crystal oscillator with high-precision and low-noise[J].Piezoelectrics and Acoustooptics,2010,32(6):909-911(in Chinese).
    [14] Asad A A.Phase noise and jitter in CMOS ring oscillators[J].IEEE Journal of Solid-State Circuits,2006,41(8):1803-1816.
    [15] Behzad R.A study of phase noise in CMOS oscillators[J].IEEE Journal of Solid-State Circuits,1996,31(3):331-343.
    [16] 韩艳菊,杨科,郑鸿耀.一种用于模拟温度补偿晶体振荡器的温度补偿方法:中国,201310739925.3[P].2013-12-30. Han Y J,Yang K,Zheng H Y.A temperature compensation method for analog temperature compensated crystal oscillator:China,201310739925.3[P].2013-12-30(in Chinese).
    [17] 赵声衡,赵英.晶体振荡器[M].北京:科学出版社,2008:316-322. Zhao S H,Zhao Y.Crystal oscillator[M].Beijing:Science Press,2008:316-322(in Chinese).
    [18] 孙艳丰,郑加齐,王德兴,等.基于遗传算法的约束优化方法评述[J].北方交通大学学报,2000,24(6):14-19. Sun Y F,Zheng J Q,Wang D X,et al.A survey of constraint optimization method based on genetic algorithm[J].Journal of Northern Jiaotong University,2000,24(6):14-19(in Chinese).
    [19] 吕善伟,韩艳菊,王伟.遗传算法综合阵列的幅度和相位方向图[J].北京航空航天大学学报,2005,31(9):1014-1017. Lü S W,Han Y J,Wang W.Synthesis of the array's amplitude and phase pattern using genetic algorithm[J].Journal of Beijing University of Aeronautics and Astronautics,2005,31(9):1014-1017(in Chinese).
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出版历程
  • 收稿日期:  2015-01-04
  • 修回日期:  2015-02-12
  • 网络出版日期:  2015-12-20

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