Understand the operation and characteristics of rectifiers, filters, and regulated power supplies. Analyze and design single-stage and multistage transistor amplifiers. Study power amplifier classifications and their efficiency. Explore the principles and types of feedback amplifiers and their impact on circuit performance. Examine the theory, conditions, and design of various oscillators. Learn the working and applications of astable, monostable, and bistable multivibrators. Understand the function of Schmitt triggers, clipping, and clamping circuits. Develop analytical and practical skills in designing analog electronic circuits.
This course provides a comprehensive understanding of analog electronic circuits essential for signal processing and system design. It covers the theory and operation of rectifiers, filters, and regulated power supplies used in DC conversion and stabilization. Students learn the principles of transistor amplifiers, multistage and power amplifiers, and explore feedback techniques to improve gain stability, bandwidth, and distortion control. The course further introduces oscillators, explaining conditions for sustained oscillations and analyzing different types such as Hartley, Colpitt’s, and Wien Bridge oscillators. Finally, the study of multivibrators, including astable, monostable, and bistable configurations, along with Schmitt triggers, clipping, and clamping circuits, equips students with practical knowledge for waveform generation and shaping applications in analog systems.
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To strive for academic excellence and impart quality education with emphasis on Electronics and Communication Engineering. - To inculcate the habit of executing effective implementation and rectification of Electronics Engineering problems in the minds of all concerned, which they can apply in their professional life in future.
