Posts Tagged ‘Circuits and Electronics Lectures’

Circuits and Electronics Lectures (Videos)

This video lecture course by Prof. Anant Agarwal of MIT is designed to serve as a first course in an undergraduate electrical engineering, or electronics engineering or computer science curriculum. This course introduces the fundamentals of the lumped circuit abstraction. Topics covered include: resistive elements and networks; independent and dependent sources; switches and MOS transistors; digital abstraction; amplifiers; energy storage elements; dynamics of first- and second-order networks; design in the time and frequency domains; and analog and digital circuits and applications. Design and lab exercises are also significant components of the course.

Lecture-1 : Introduction and Lumped Circuit Abstraction. (Link)

Lecture-2 : Basic Circuit Analysis Method (KVL and KCL Method). (Link)

Lecture-3 : Superposition, Thevenin and Norton. (Link)

Lecture-4 : The Digital Abstraction. (Link)

Lecture-5 : Inside the Digital Gate. (Link)

Lecture-6 : Nonlinear Analysis. (Link)

Lecture-7 : Incremental Analysis. (Link)

Lecture-8 : Dependent Sources and Amplifiers. (Link)

Lecture-9 : MOSFET Amplifier Large Signal Analysis Part 1. (Link)

Lecture-10 : MOSFET Amplifier Large Signal Analysis Part 2. (Link)

Lecture-11 : Amplifiers – Small Signal Model. (Link)

Lecture-12 : Small Signal Circuits. (Link)
Lecture-13 : Capacitors and First-Order Systems. (Link)
Lecture-14 : Digital Circuit Speed. (Link)
Lecture-15 : State and Memory. (Link)
Lecture-16 : Second-Order Systems Part 1. (Link)
Lecture-17 : Second-Order Systems Part 2. (Link)
Lecture-18 : Sinusoidal Steady State. (Link)
Lecture-19 : The Impedance Model. (Link)
Lecture-20 : Filters. (Link)
Lecture-21 : The Operational Amplifier Abstraction. (Link)
Lecture-22 : Operational Amplifier Circuits. (Link)
Lecture-23 : Op Amps Positive Feedback. (Link)
Lecture-24 : Energy and Power. (Link)
Lecture-25 : Energy, CMOS. (Link)
Lecture-26 : Violating the Abstraction Barrier. (Link)