Title :
A bi-directional interferometric frequency discriminator for low noise microwave applications
Author :
Hartnett, J.G. ; Tobar, M.E. ; Ivanov, E.N.
Author_Institution :
Dept. of Phys., Western Australia Univ., Nedlands, WA, Australia
Abstract :
New interferometric frequency discriminators (FD) for frequency stabilization of microwave oscillators are examined. Alternative topologies to the standard interferometric readout are presented. The new readouts are arranged in a bi-directional configuration. In this configuration, microwaves pass in both directions through each arm of the interferometer. The coupling to the resonator is adjusted to maximize the frequency discriminator sensitivity. The sensitivity is compared with that for the conventional interferometric FD and found to be 6 dB greater. No circulator is required within the interferometer, thus eliminating its phase noise contribution.
Keywords :
Dielectric resonator oscillators; Discriminators; Frequency stability; Microwave measurement; Microwave oscillators; Microwave phase shifters; Radiowave interferometers; attenuator; bidirectional configuration; dark port; discriminator sensitivity; frequency stabilization; interferometric frequency discriminator; low noise microwave applications; microwave oscillators; optimal configuration; phase noise contribution elimination; phase shifter; resonator coupling; sapphire resonator; transfer functions; voltage-frequency conversion ratios; 1f noise; Bidirectional control; Frequency; Microwave oscillators; Noise reduction; Phase noise; Phase shifting interferometry; Radiofrequency amplifiers; Temperature sensors; Transfer functions;
Conference_Titel :
Precision Electromagnetic Measurements Digest, 2000 Conference on
Conference_Location :
Sydney, NSW, Australia
Print_ISBN :
0-7803-5744-2
DOI :
10.1109/CPEM.2000.850870
