Title :
A Miniature YIG Tuned Oscillator/Frequency Divider Achieves Octave Tuning Bandwidth with Ultra Low Phase Noise in S, C, X and Ku Bands
Author :
Sweet, Allen A. ; Parrott, Ron
Author_Institution :
Vida Products Inc., Santa Rosa, CA
Abstract :
Traditional YIG tuned oscillators use negative resistance type circuits and large magnetic structure to produce excellent phase noise with octave plus tuning ranges, but at the expense of size and weight. This paper describes a revolutionary approach to YIG tuned oscillator design which makes use of a unique combination of a miniaturized magnetic structure, and a GaAs HBT ring oscillator circuit topology, working through a YIG tuned filter to produce octave tuning ranges in X and Ku bands with phase noise less than -125 dBC per Hz at 100 KHz. To cover S and C bands, a digital IC frequency divider is used to divide the output frequency by an integer N. Phase noise is shown to improve by a factor 20Log(N). For N=4, and F0=12 GHz, at an output frequency of 3 GHz, the measured phase noise is -137 dBC per Hz at 100 KHz
Keywords :
III-V semiconductors; bipolar transistor circuits; frequency dividers; gallium arsenide; heterojunction bipolar transistors; microwave integrated circuits; microwave oscillators; network topology; phase noise; yttrium compounds; 12 GHz; 3 GHz; GaAs; GaAs HBT; Y3Fe5O12; YIG tuned filter; YIG tuned oscillator; digital IC frequency divider; magnetic structure; microwave oscillators; octave tuning bandwidth; ring oscillator circuit topology; ultra low phase noise; Bandwidth; Circuit optimization; Frequency conversion; Gallium arsenide; Magnetic circuits; Magnetic separation; Phase noise; Ring oscillators; Tuned circuits; Tuning;
Conference_Titel :
European Microwave Integrated Circuits Conference, 2006. The 1st
Conference_Location :
Manchester
Print_ISBN :
2-9600551-8-7
DOI :
10.1109/EMICC.2006.282780
