Describing voltage and current relationships in electric circuits are often precisely analogous with the resultant equations when dealing with mathematical behavior of fluid-flow and heat-flow systems ...

When designing circuits, most analog engineers rely largely on experience and trial-and-error methods, eschewing much of the matrix algebra they learned in college ...

Analyzing failures in printed circuit boards (PCBs) is critical to ensure the functionality and reliability of electronic devices. A synopsis of the methods and techniques utilized in PCB failure ...

Analog circuit design optimisation encompasses a suite of computational strategies aimed at automating and accelerating the sizing and biasing of components to meet stringent performance ...

How to use statistical tools for component tolerance analysis. A look at methods such as Monte Carlo and Gaussian distribution. Simulating a dc-dc converter in LTspice to model closed-loop voltage ...

A variety of linear models are available to represent common active electronic devices such as transistors and vacuum tubes. Devices operating under large-signal conditions often require nonlinear ...

After completion of this course, you will gain advanced analytical skills that will enable you to quickly gain insights into converter models and translate these insights into converter designs. Prior ...