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An up-to-date resource covering electronics, microelectronics, and current-tunable oscillators In Electronics and Oscillators for Sinusoids and Current-Tunable Chaos, renowned researcher Dr. Banlue Srisuchinwong delivers a comprehensive exploration of sinusoid and chaos oscillators. Beginning with a general overview of electronic fundamentals and the techniques of circuit analysis, the author goes on to describe filters and amplifiers, foundational concepts in semiconductors, diodes, transistors, and transistor-based amplifiers, and the basic building blocks for integrated circuits. The book explains the fundamentals of RC and LC sinusoidal oscillators, current-tunable approaches to circuit-based oscillators for sinusoidal oscillations, and chaotic oscillations. Readers will also find rigorous discussions of bipolar junction transistors, MOS field-effect transistors, current mirrors, and differential amplifiers. Simple jerk and simple hyperjerk chaotic circuits are explained at length. Electronics and Oscillators for Sinusoids and Current-Tunable Chaos provides necessary information about the four different types of current-tunable oscillators in a single volume. The author also includes: A thorough introduction to the fundamentals of electronics and the techniques of circuit analysis, including superposition, Thevenin's Theorem, Norton's Theorem, and maximum power transfer Explorations of passive filters in the time and frequency domains and op-amp-based amplifiers, including the four types of basic amplifiers and the features of an operational amplifier Practical discussions of op-amp-based active filters, as well as in-depth treatments of the fundamentals of semiconductors and diodes and diode circuits Perfect for researchers in electronic and microelectronic oscillators, chaos in circuits and systems, and nonlinear dynamics, Electronics and Oscillators for Sinusoids and Current-Tunable Chaos is also a must-read resource for graduate and senior undergraduate students in programs involving electronics and microelectronics, circuits, systems, and nonlinear dynamics.