Effect of negative temperatures on starting and phase noise of very high-frequency cristal oscillators

350 rub

Journal Radioengineering №4 for 2019 г.

Article in number:

Type of article: scientific article

DOI: 10.18127/j00338486-201904-07

UDC: 621.373.52

Keywords: Crystal oscillator local oscillator phase noise power spectrum coherent.

Authors:

E.A. Silaev – Head of Sector, PJSC «Radiofizika» (Moscow) E-mail: evgeniysilaev@hotmail.com

Abstract:

This paper introduces the results of experimental study low temperature minus 80°C impact on frequency, power, phase noise power spectral density of VHF XO about 250 MHz.

This paper introduces the results of experimental study of low temperature impact on frequency, power and phase noise power spectral density of VHF crystal oscillator. The test phase noise data of OXO-244 MHz and OXO-249 MHz models at the switching on time at minus 80°C is of some interest.

Pages: 54-59

References

Silaev E.A. Vliyanie nizkikh temperatur na fazovye shumy vysokochastotnogo kvartsevogo generatora. Radiotekhnika. 2015. № 10. S. 33−36.
Silaev E.A. Formirovanie spektralno-chistogo signala v elektronike i metrologii. Metrologiya i izmeritelnaya tekhnika v svyazi. 1998. № 2. S. 33−36.
Silaev E.A., Bogomolov D.V. Low noise ovenized quartz oscillator. Proc. of 52d IEEE Int. Freq. Contr. Symp. May 1998. P. 349−352.
Pat. na poleznuyu model RF RU 110 211 U1. 10.11.2011. Vysokochastotnyi kvartsevyi generator. Silaev E.A., Guskov Yu.S.
Pat. na izobretenie RF RU 2 439 775 C1. 10.01.2012. Vysokochastotnyi kvartsevyi generator. Guskov Yu.S., Silaev E.A.
Patent na izobretenie RF RU 2 498 499 C1. 10.11.13. Vysokochastotnyi mnogokvartsevyi generator. Guskov Yu.S., Silaev E.A.
Butler F. Series resonant crystal oscillator. Wireless Word. June 1946. P. 157−160.
Romanyuk V.A., Yar Zar Khtun. Vliyanie ogranicheniya amplitudy kolebanii v avtogeneratore na vybor tipa rezonatora. Izvestiya VUZov. Elektronika. 2014. № 1(105). S. 40−44.
Patent US 6,549,083 B2. 15.04.2003. High frequency crystal oscillator outputting a harmonic component. Kanazawa N. et al.
Dobrovolskii A.A. Vysokochastotnye pretsizionnye maloshumyashchie kvartsevye generatory (sovremennye promyshlennye tipy – ikh postroenie i osnovnye kharakteristiki). Elektronnye komponenty. 2003. № 8. S. 79−81.
Patent US 6,762,651 B2. 13.07.2004. High frequency crystal oscillator and high frequency signal generating method. Takeo O.
Patent of Japan 2004-015389. 15.01.2004. High frequency oscillation circuit. Kurosawa S.
Sakamoto K., Kubo K., Ono K. Development of ultra low noise VHF OCXO with excellent temperature stability. Proc. of the 2008 IEEE Int. Freq. Contr. Symp. Joinly with the 22nd European Freq. and Time Forum. June 2008. P. 565−568.
Pascall OCXO & OCXOF. Ultra low noise VHF crystal oscillators. www.pascall.co.uk.
Molchanov E.G., Ochkov D.S., Silaev E.A., Formalnov I.S. Eksperimentalnye dannye i teoreticheskie otsenki parazitnogo nabega fazy signala geterodina X-diapazona. Radiotekhnika. 2014. № 12. S. 83−94.

Date of receipt: 14 марта 2017 г.