Analysis of a self-oscillating mixer based on a slow wave-structure

Pontón Lobete, María Isabel; Ramírez Terán, Franco Ariel; Sancho Lucio, Sergio Miguel; Suárez Rodríguez, Almudena

doi:10.23919/EuMC54642.2022.9924455

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Identificadores

URI: https://hdl.handle.net/10902/27602

DOI: 10.23919/EuMC54642.2022.9924455

ISBN: 978-2-87487-069-9

Fecha

2022

Derechos

Publicado en

52nd European Microwave Conference (EuMC), Milán, Italia, 2022, 131-134

Editorial

Institute of Electrical and Electronics Engineers Inc.

Enlace a la publicación

https://doi.org/10.23919/EuMC54642.2022.9924455

Palabras clave

Self-oscillating mixer

Phase noise

Stability

Bifurcation

Resumen/Abstract

This work presents a self-oscillating mixer (SOM) based on a slow-wave structure for phase-noise reduction. Emphasis is placed on the analysis/optimization methods, which include aspects such as conversion gain, nonlinear distortion, and operation boundaries. In a first stage, the parameters of the slowwave structure are optimized to obtain a low phase-noise spectral density. As an example, a structure based on a unit cell containing a Schiffman section is considered. Then, the SOM behavior is addressed through an analytical model that should enable an understanding of its main operation characteristics. A practical FET-based circuit at 2.3 GHz is simulated with some novel harmonic-balance techniques and experimentally characterized.

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