: Techniques for stabilizing power amplifiers and multifunction MMIC chips where autonomous behavior is unwanted.
: Implementation of HB for efficient steady-state analysis of free-running and synchronized oscillators.
: Dedicated tools for identifying and eliminating undesired behaviors like spurious oscillations and chaotic regimes. 3. Noise and Performance Characterization Analysis and Design of Autonomous Microwave Cir...
Developing features for —based on the authoritative work by Almudena Suárez —requires a focus on nonlinear simulation, stability analysis, and noise characterization.
: Tools for calculating the phase noise spectrum of free-running, injection-locked, and coupled oscillators. and coupled oscillators.
: Integrated analysis of circuits that simultaneously perform frequency generation and conversion. 5. Stabilization and Circuit Control
: Algorithms to distinguish between stable oscillations and non-physical mathematical solutions using frequency-domain methods. Analysis and Design of Autonomous Microwave Cir...
: Modeling of globally coupled systems for applications like beam steering.