![]() Illustrates how to design transistor microwave amplifiers, oscillators, detectors, mixers, switches, phase shifters, and integrated circuits at RF and microwave frequencies. Low-frequency electronics-Amply treated, making an easy transition to RF microwaves principles.New technical terms-Precisely defined as they are introduced. Shift of emphasis-From rigorous mathematical solutions of Maxwell's equations to graphical and conceptual analysis.Provides workable considerations in the design of practical active circuits: amplifiers, oscillators, etc. ![]() Presentation of classical laws and principles of electricity and magnetism.Makes the process more vivid allowing for a deeper understanding of the scientific principles at work. Presentation of a series of scientific postulates and axioms-Lays the foundation for any physical science.Often treated separately, these subjects are inter-related conceptually and graphically. Provides a scientific framework for learning RF and microwaves easily and effectively.
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