This article deals with the basis of the theory of linear electrical circuits with localized constants. The topology of circuits (notion of nodes, meshes and branches) and the nature of the signals ...

The course deals with the analysis and construction of analog electronics. Transfer functions, Fourier, Laplace, Bode-plot, and Nyquist diagrams are essential topics. Analytical methods and simulators ...

Abstract: Engineers using linear and non-linear circuit theory based CAD and making the transition to field-solvers. Experienced users of field-solvers seeking a better understanding of their ...

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 ...

The aim of the course is to provide insights and understanding of complex static and dynamic behavior of circuits consisting or bipolar and MOS transistors. Topics will include: global properties of ...

Abstract: The need for communication between design engineers and those engaged in research on feedback control systems has been felt by many people. This article stresses this as well as the problems ...

Sponsored by: Texas Instruments. Op amps solve most problems in analog circuit design—if you know how to use them. Here are some resources to help expand your op-amp knowledge base. Whenever you need ...

Figure 1: Comparison between conventional and PT-symmetry-based wireless power transfer schemes as the source–receiver resonant coupling rate κ varies as a function of transfer distance d. Figure 3: ...