Title :
The effect of varactor nonlinearity on the phase noise of completely integrated VCOs
Author :
Rogers, John W M ; Macedo, José A. ; Plett, Calvin
Author_Institution :
SiGe Microsyst., Ottawa, Ont., Canada
Abstract :
This work discusses variations in phase noise over the tuning range of a completely integrated 1.9-GHz differential voltage-controlled oscillator (VCO) fabricated in a 0.5-/spl mu/m bipolar process with 25-GHz f/sub t/. The design had a phase noise of -103 dBc/Hz at 100 kHz offset at the top of the tuning range, but the noise performance degraded to -96 dBc/Hz at 100 kHz at the bottom of the tuning range. It was determined that nonlinearities of the on-chip varactors, which led to excessively high VCO gain at the bottom of the tuning range, were primarily responsible for this degradation in performance. The VCO has a power output of -5 dBm per side. Calculations predict phase noise with only a small error and provide design insight for minimizing this effect. The oscillator core drew 6.4 mA and the output buffer circuitry drew 6 mA, both from a 3.3-V supply.
Keywords :
MMIC oscillators; UHF integrated circuits; UHF oscillators; bipolar analog integrated circuits; circuit tuning; integrated circuit noise; phase noise; varactors; voltage-controlled oscillators; 0.5 micron; 1.9 GHz; 3.3 V; 6 mA; 6.4 mA; VCO gain; bipolar process; differential VCO; integrated VCOs; monolithic VCO; noise performance degradation; onchip varactors; phase noise; tuning range; varactor nonlinearity; voltage-controlled oscillator; Circuit optimization; Degradation; Frequency; Inductance; Inductors; Linearity; Phase noise; Tuning; Varactors; Voltage-controlled oscillators;
Journal_Title :
Solid-State Circuits, IEEE Journal of
