Title :
Design of push-push and triple-push oscillators for reducing 1/f noise upconversion
Author :
Choi, Jonghoon ; Mortazawi, Amir
Author_Institution :
Electr. Eng. & Comput. Sci. Dept., Univ. of Michigan, Ann Arbor, MI, USA
Abstract :
In this paper, 1/f noise upconversion in push-push and triple-push oscillators is studied, and the design requirements for minimizing 1/f noise upconversion are presented. In push-push oscillators, the presence of the large second harmonic components may degrade the waveform symmetry of the oscillation waveforms, leading to the significant 1/f noise upconversion. To minimize 1/f noise upconversion in push-push oscillators, the phases of Fourier coefficients of all harmonics need to be equal. In triple-push oscillators, the waveform symmetry can easily be achieved by eliminating all even harmonic components. The experimental results show that around 15-dB phase-noise improvement at 100-kHz offset frequency can be obtained by satisfying the waveform symmetry condition in push-push and triple-push oscillators.
Keywords :
1/f noise; Fourier analysis; microwave oscillators; phase noise; 1/f noise upconversion; FET oscillator; Fourier coefficient; field-effect transistor oscillator; microwave oscillator; oscillation waveform; oscillator noise; phase noise; push-push oscillator design; second harmonic component; triple-push oscillator design; waveform symmetry; Frequency; HEMTs; Low-frequency noise; MESFETs; MODFETs; Microwave FETs; Microwave devices; Microwave oscillators; Noise reduction; Phase noise; Field-effect transistor (FET) oscillators; microwave oscillators; oscillator noise; phase noise;
Journal_Title :
Microwave Theory and Techniques, IEEE Transactions on
DOI :
10.1109/TMTT.2005.858382
