Title :
High-spectral-purity microwave oscillator: design using conventional air-dielectric cavity
Author :
Gupta, A. Sen ; Howe, D.A. ; Nelson, C. ; Hati, A. ; Walls, F.L. ; Nava, J.F.
Author_Institution :
Nat. Phys. Lab., New Delhi, India
Abstract :
We report exceptionally low PM and AM noise levels from a microwave oscillator that uses a conventional air-dielectric cavity resonator as a frequency discriminator. Our approach is to increase the discriminator´s intrinsic signal-to-noise ratio by use of a high-power carrier signal to interrogate an optimally coupled cavity, while the high-level of the carrier is suppressed before the phase detector. We developed and tested an accurate model of the expected PM noise that indicates, among other things, that a conventional air-dielectric resonator of moderate Q will exhibit less discriminator noise in this approach than do more esoteric and expensive dielectric resonators tuned to a high-order, high-Q mode and driven at the dielectric´s optimum power.
Keywords :
cavity resonators; dielectric resonators; discriminators; microwave oscillators; phase detectors; phase noise; AM noise level; PM noise level; YFe5O12; YIG; air-dielectric cavity resonator; dielectrics optimum power; discriminator noise; frequency discriminator; high power carrier signal; high spectral purity microwave oscillator; phase detector; signal to noise ratio; Detectors; Dielectrics; Microwave oscillators; NIST; Noise level; Phase detection; Phase noise; Resonance; Resonant frequency; Temperature sensors;
Conference_Titel :
Frequency Control Symposium and PDA Exhibition Jointly with the 17th European Frequency and Time Forum, 2003. Proceedings of the 2003 IEEE International
Print_ISBN :
0-7803-7688-9
DOI :
10.1109/FREQ.2003.1275129
