Using N-push principle for the microwave transistor oscillators design
DOI:
https://doi.org/10.20535/RADAP.2009.38.123-129Keywords:
microwave generator, phase noiseAbstract
The features and advantages of the N-push microwave transistor oscillators design are discussed.
References
Yen S., Chu T. An N-harmonic Oscillator Using An N-push Coupled Oscillator Array with Voltage-clambing Circuits//IEEE MTT-S Int. Microwave Symp. Digest. - 2003. - P.1175-1179.
Chang H., Cao X., Mistra U., York R. Phase Noise in Coupled Oscillatotrs: Theory and Experiment // IEEE Trans. MTT. - 1997. - V.45. - №5. - P. 604-614.
Schott M., Ruhnert H., Lenk F., Hilsenbeck J., Wurfl J. 38 GHz Push-Push GaAs-HBT MMIC Oscillator // IEEE MTT-S Int. Microwave Symp. Digest. - 2002. - P. 839-842.
Kudszus S., Haydl W., Tessmann A., Bronner W., Schlectweg M. Push-Push Oscsllators for 94 and 140 GHz Applications Using Standard Pseudomorphic GaAs HEMTs // IEEE MTT-S Int. Microwave Symp. Digest. - 2001. - P.1571-1574.
Wang T., Liu R, Chang H., Lu L. A 22-GHz Push-Push Oscіllator Using Micro-machined Inductors // IEEE Microw. Wireless Compon. Lett.-2005. - V.15. - № 12. - P.859-861.
Wang T., Liu R. A 30-GHz Low-Phase-Noise 0.35-μm CMOS Push-Push Oscsllator Using Micromachined Inductors // IEEE MTT-S Int. Microw. Symp. Dig. 2006. P.569-572.
Wanner R., Schafer H., Lachner R. A Fully Integrated 70 GHz Low Phase Noise Push-Push Oscsllator // IEEE MTT-S Int. Microwave Symp. Digest . - 2005. - P. 1523-1526.
Sinnesdichler F. Hydrid Millimeter-Wave Push-Push Oscillators Using Silicon-Germanium HBTs // IEEE Trans. MTT. - 2003. - V.51. - №2. - P. 422-430.
Xiao H., Tanaka T., Aikawa M. A Low Phase Noise Ku-Band Push-Push Oscіllator Using Slot Ring Resonator // IEEE MTT-S Int. Microwave Symp. Dig. - 2004. - P.1333-1336.
Xiao H., Tanaka T., Aikawa M. A Ka-Band Quadruple-Push Oscillator // IEEE MTT-S Int. Microwave Symp. Digest. - 2003. - P.889-892.
Hyun A., Kim H., Park J., Kim J., Lee J. K-Band Hair-pin ResonatorOscillators // IEEE MTT-S Int. Microwave Symp. Digest. - 1999. - P.1-4.
Hwang C., Lee J., Kim J. Simple K-band MMIC VCO Utilizing a Miniaturized Hairpin Resonator and a Three-Terminal p-HEMT Varactor With Low Phase Noise and High Out-put Power Properties // IEEE Microw. Wireless Compon. Lett. - 2003. - № 6. - P.229-231.
Choi J., Mortazawi A. Design of Push-Push and Triple-Push Oscillators for Reducing 1/f Noise Upconversion // IEEE Trans. MTT.-2005. - V.53. - №11. - P.3407-3413.
Baeyens Y. Highly Efficient Harmonically Tuned InP D-HBT Push-Push Oscillators Operating up to 287 GHz // IEEE MTT-S Int.Microw.Symp.Digiest. - 2007. - P.341-344.
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