: Implementation of HB for efficient steady-state analysis of free-running and synchronized oscillators.
: Modeling of globally coupled systems for applications like beam steering.
: Integration of envelope methods to simulate the slow-varying dynamics of autonomous circuits, such as the start-up of oscillations. Analysis and Design of Autonomous Microwave Cir...
: Features to detect and analyze Hopf, saddle-node, and period-doubling bifurcations that define the limits of stable operation.
: Automated routines to optimize for specific design goals, including: Maximizing output power and efficiency. Presetting oscillation frequency. Reducing transient duration for faster signal acquisition. 4. Specialized Autonomous Structures : Implementation of HB for efficient steady-state analysis
: Integrated analysis of circuits that simultaneously perform frequency generation and conversion. 5. Stabilization and Circuit Control
: Tools for calculating the phase noise spectrum of free-running, injection-locked, and coupled oscillators. : Features to detect and analyze Hopf, saddle-node,
: Features for implementing stabilization loops to reduce phase noise and improve spectral purity.