改進型恒溫晶振三次方補償電路的研究與設計
2020年電子技術應用第9期
譚傳武,劉紅梅
湖南鐵道職業技術學院 電務技術學院,湖南 株洲412001
摘要: 通信系統中收發同步離不開精確的時鐘頻率源,時鐘頻率源的精確與否直接影響系統的可靠性,而AT切晶體是頻率源的重要組成部分,其頻率與溫度呈現三次函數的變化關系,導致其不適應較寬溫度范圍的應用場景。為克服溫度對頻率的直接影響,設計了一種用于溫度補償的三次函數發生電路,包括基準源、一次方電壓產生電路、三次方產生電路及相加電路,在工作時能與AT切晶體產生的負溫度系數相抵消。仿真結果表明,基準源電路恒定輸出1.8 V,三次方電路輸出波峰1.65 V、波谷0.85 V,加和后經調整的補償電路產生波形波峰2.04 V、波谷1.74 V,很好地抑制了來自溫度變化引起的頻率誤差,解決了振蕩器輸出頻率隨溫度變化的問題。
中圖分類號: TN433
文獻標識碼: A
DOI:10.16157/j.issn.0258-7998.200258
中文引用格式: 譚傳武,劉紅梅. 改進型恒溫晶振三次方補償電路的研究與設計[J].電子技術應用,2020,46(9):51-56.
英文引用格式: Tan Chuanwu,Liu Hongmei. Design of cubic compensation circuit for constant temperature crystal oscillator[J]. Application of Electronic Technique,2020,46(9):51-56.
文獻標識碼: A
DOI:10.16157/j.issn.0258-7998.200258
中文引用格式: 譚傳武,劉紅梅. 改進型恒溫晶振三次方補償電路的研究與設計[J].電子技術應用,2020,46(9):51-56.
英文引用格式: Tan Chuanwu,Liu Hongmei. Design of cubic compensation circuit for constant temperature crystal oscillator[J]. Application of Electronic Technique,2020,46(9):51-56.
Design of cubic compensation circuit for constant temperature crystal oscillator
Tan Chuanwu,Liu Hongmei
Department of Communication and Signal,Hunan Railway Professional Technology College,Zhuzhou 412001,China
Abstract: In the communication system, the receiving and transmitting synchronization can not be separated from the accurate clock frequency source. The accuracy of the clock frequency source directly affects the reliability of the system. AT cut crystal is an important part of the frequency source. Its frequency and temperature show a cubic function relationship, which makes it not suitable for a wide range of temperature application scenarios. In order to overcome the direct influence of temperature on frequency, this paper designs a kind of cubic function generating circuit for temperature compensation, including reference source, primary voltage generating circuit, cubic generating circuit and adding circuit, which can cancel the negative temperature coefficient produced by AT cut crystal in operation. The simulation results show that the reference circuit has a constant output of 1.856 V, the third-order circuit has a peak of 1.65 V and a trough of 0.85 V, and the added compensation circuit has a peak of 2.04 V and a trough of 1.74 V. The frequency error caused by the temperature change is well suppressed, and the problem that the output frequency of the oscillator changes with the temperature is solved.
Key words : temperature compensation;VCO;cubic function;band gap reference;frequency source
0 引言
隨著5G及物聯網技術的飛速發展,智能終端體積越來越小且數量越來越多[1-2],終端與基站之間通過無線電波完成信息交互,而精準的時鐘頻率源是通信的必備條件[3-4]。石英晶體振蕩器的頻率準確度會受溫度等因素的影響,市場上主流的振蕩器選用的是AT切型[5],其隨溫度變化頻率漂移可達10 ppm到50 ppm,AT切在室溫存在零偏移點[6]。南開大學吳佳等采用7組差分對設計了高精度的三次方函數發生器[7],在±0.5×10-6且補償溫度范圍擴大至-40~+85 ℃,此方法提高了精度但是功耗增加,不利于小型化的物聯網場景;西安電子科技大學的劉宇計了一種超高頻率穩定度的模擬溫度補償晶體(ATCXO)振蕩器電路[8],可提供高精度的頻率源,但是溫度范圍受限,不適應溫度極端的物聯網場景;華中科技大學肖鵬采用MOS可變電容設計了一款溫度補償晶體振蕩器(TCXO)芯片[9],壓控范圍可達±180 ppm,但頻率調整范圍受限。
本文綜合以上設計的優缺點,改進了可變電容設計的補償電路,利用CMOS工藝設計了一種用于TCXO振蕩器中的功耗低、溫度范圍-40~+120 ℃的補償電路,能抵消AT切晶體中隨溫度引起的頻率變化,可用在恒溫晶振中進行頻率補償。
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作者信息:
譚傳武,劉紅梅
(湖南鐵道職業技術學院 電務技術學院,湖南 株洲412001)
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