Dive deeper into stabilizing high frequency amplifier designs. This bootcamp guides you through modern linear and nonlinear stability analysis with demonstrations and step-by-step guidance you can start applying in your lab today. By the end of this course, you will be able to confidently design RF and microwave amplifiers that stay stable; even at challenging mmWave frequencies.
Audience
This Electronic Design Automation (EDA) bootcamp is ideal for RF and microwave engineers or anyone looking to gain a deeper understanding of amplifier stability and high-frequency circuit design.
Learn
Explore RF amp stability challenges, why K-factor falls short, and how to choose the best design method using Keysight ADS tools.
Learn loop gain, Laplace, Cauchy’s principle, and Nyquist criterion to analyze and ensure stability in high-frequency amplifier design.
Learn how gain and coupling affect amplifier stability and how to prevent oscillations using negative feedback and compensation techniques.
Understand how gain and coupling influence amplifier stability—and how to prevent oscillations using negative feedback and compensation methods.
Explore modern stability tools like NDF and True Return Ratio to effectively analyze and ensure high-frequency amplifier stability.
Discover advanced stability tools like NDF and True Return Ratio to accurately analyze and maintain stability in high-frequency amplifier designs.
Explore the unique challenges of mmWave amplifier design and learn techniques to overcome instability at these high frequencies.
Learn to design stable high-frequency and mmWave amplifiers using feedback, compensation, and measurement-based simulation models.
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