This paper presents the design, implementation and characterization of two Dielectric Resonator Oscillators (DRO) at 7.61 GHz. The circuits consist of a negative resistance monolithic bipole coupled in a series feedback configuration with a ceramic dielectric resonator. The two circuits exploit different sizes for the active device. The adopted monolithic process is a commercially available GaInP HBT with very good low frequency noise performance. The measured phase noise performance of the two circuits are -120dBc/Hz and -135dBc/Hz @ 10KHz from the carrier respectively, which represent to the authors' knowledge state-of-the-art performance for this technology and resonator type. These excellent results have been obtained by means of a proper large signal design technique and exploiting the predictive capability of a non-linear cyclostationary noise model, which proves its excellent predictive capability for these very low phase noise levels.
Florian C., Traverso P. A., Vannini G., Filicori F. (2007). Design of Low Phase Noise Dielectric Resonator Oscillators with GaInP HBT devices exploiting a Non-Linear Noise Model. Piscataway : IEEE / Institute of Electrical and Electronics Engineers [10.1109/MWSYM.2007.380563].
Design of Low Phase Noise Dielectric Resonator Oscillators with GaInP HBT devices exploiting a Non-Linear Noise Model
FLORIAN, CORRADO;TRAVERSO, PIER ANDREA;FILICORI, FABIO
2007
Abstract
This paper presents the design, implementation and characterization of two Dielectric Resonator Oscillators (DRO) at 7.61 GHz. The circuits consist of a negative resistance monolithic bipole coupled in a series feedback configuration with a ceramic dielectric resonator. The two circuits exploit different sizes for the active device. The adopted monolithic process is a commercially available GaInP HBT with very good low frequency noise performance. The measured phase noise performance of the two circuits are -120dBc/Hz and -135dBc/Hz @ 10KHz from the carrier respectively, which represent to the authors' knowledge state-of-the-art performance for this technology and resonator type. These excellent results have been obtained by means of a proper large signal design technique and exploiting the predictive capability of a non-linear cyclostationary noise model, which proves its excellent predictive capability for these very low phase noise levels.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
