NOC:Analog Circuits (2017)


Lecture 1 - Module 1 - Introduction


Lecture 2 - Module 2 - Poles and zeros


Lecture 3 - Module 3 - OP-AMPs


Lecture 4 - Module 4 - Application of Op-Amps


Lecture 5 - Module 5 - Inverting amplifier and Non Inverting amplifier


Lecture 6 - Module 1 - Non Idealities in Op-AMP (Finite Gain, Finite Bandwidth and Slew Rate)


Lecture 7 - Module 2 - Non Idealities in Op-AMP (Offset Voltage and Bias Current)


Lecture 8 - Module 3 - Bode Plot


Lecture 9 - Module 4 - Frequency Response


Lecture 10 - Module 1 - Frequency Response (High Frequency Response)


Lecture 11 - Module 2 - Frequency Response example


Lecture 12 - Module 3 - Feedback


Lecture 13 - Module 4 - Effects of Feedback


Lecture 14 - Tutorial 1 and 2


Lecture 15 - Module 1 - Effect of feedback and stability


Lecture 16 - Module 2 - Stability


Lecture 17 - Module 3 - Stability and pole location


Lecture 18 - Module 4 - Stability and Pole location continuation


Lecture 19 - Tutorial 3


Lecture 20 - Module 1 - Gain Margin – An example


Lecture 21 - Module 2 - Frequency Compensation


Lecture 22 - Module 3 - Filters


Lecture 23 - Module 4 - Filter prototypes


Lecture 24 - Tutorial 4


Lecture 25 - Tutorial 5


Lecture 26 - Tutorial 6


Lecture 27 - Module 1 - Chebyshev Prototype, Filter transformation


Lecture 28 - Module 2 - Filter Transformations (Continued....)


Lecture 29 - Module 3 - Active Filters


Lecture 30 - Module 4 - Non Linear Applications of OPAMPS


Lecture 31 - Module 5 - Limiter, Diodes


Lecture 32 - Module 1 - Oscillators


Lecture 33 - Module 2 - Oscillator Amplitude Control , Quadrature Oscillator


Lecture 34 - Module 3 - Multivibators


Lecture 35 - Module 4 - Multivibrators (Continued...)


Lecture 36 - Module 5 - Monostable Multivibator


Lecture 37 - Module 1 - Zener Effect, Rectifiers


Lecture 38 - Module 2 - Rectifiers


Lecture 39 - Module 3 - Clamper, Peak Rectifier, Super diodes


Lecture 40 - Module 4 - BJT DC Circuits


Lecture 41 - Module 5 - Current Mirror