DC and AC Analysis of Transistor , Feedback amplifiers
Welcome to this comprehensive course on Electronic Devices and Circuits, designed to provide you with both clarity in fundamentals and confidence in applications. Whether you are a beginner stepping into electronics or a learner aiming to strengthen your foundation, this course will guide you through the most essential concepts with a clear, structured approach.
What you’ll learn
- Understand and analyze the characteristics of BJT and MOSFET devices, including their structure, operation, biasing techniques.
- Design and evaluate single-stage and multistage transistor amplifiers BJT and MOSFET using small-signal models, with emphasis on gain, input, output impedance,.
- Apply feedback principles in amplifier design by studying different feedback topologies and their effects on stability, gain, bandwidth, and distortion..
- Design and analyze practical oscillator circuits RC, Wein Bridge, Hartley, Colpitts, and Crystal and determine conditions for sustained oscillations..
Course Content
- Transistor Characteristics –> 7 lectures • 1hr 35min.
- Analysis of Transistor Amplifiers –> 14 lectures • 2hr 38min.
- Feedback Amplifiers –> 5 lectures • 38min.
Requirements
Welcome to this comprehensive course on Electronic Devices and Circuits, designed to provide you with both clarity in fundamentals and confidence in applications. Whether you are a beginner stepping into electronics or a learner aiming to strengthen your foundation, this course will guide you through the most essential concepts with a clear, structured approach.
In Session 1, we begin with the DC characteristics of transistors, where you will understand how biasing establishes a stable operating point and ensures reliable circuit performance. This strong foundation is essential before moving into dynamic circuit behavior.
In Session 2, we explore the small-signal AC analysis of transistors. You will learn how signals are amplified, how gain is controlled, and how real-world circuits are designed to balance efficiency and performance. This session bridges theory with practical applications, giving you a deeper appreciation of amplifier design.
In Session 3, the course concludes with an insightful journey into feedback amplifiers. Here, you will discover how feedback enhances stability, reduces distortion, and improves precision in electronic systems.
By the end of this course, you will not only master these fundamental topics but also develop the confidence to analyze and design circuits that form the backbone of modern electronics.