Sinusoidal Drive, Phasor Notations, Cascaded Systems, Intro to Bode Plot 
Sinusoidal Drive, Phasor Notations, Cascaded Systems, Intro to Bode Plot by Caltech
Video Lecture 31 of 38
Not yet rated
Views: 311
Date Added: August 21, 2017

Lecture Description

Sinusoidal Drive, Phasor Notations, Cascaded Systems, Intro to Bode Plot


Course Index

  1. Circuits Fundamentals: Definitions, graph properties, current & voltage, power & energy
  2. Circuits Fundamental: Passivity and Activity, KCL and KVL, Ideal Sources
  3. Circuits Fundamentals: Resistance, Ohm's law, linearity, time-variance, diode circuits.
  4. Nodal Analysis: ground, Y-Matrix, node voltage & stimulus vectors, Linear algebra, determinant
  5. Nodal Analysis: Examples, dependent sources, existence of a solution
  6. Nodal Analysis Continued: Nodal analysis, dependent sources, with voltage sources, super nodes
  7. Mesh Analysis & Diode Circuits: Mesh analysis, 3D networks, super mesh, diode circuit design
  8. Circuit Theorems: Superposition, Thévenin, Norton, Source Transformation, Network Equivalence
  9. Circuit Theorems: Source Transportation, Substitution Theorem, Maximum Power Transfer, Y-Delta
  10. Active circuits: Op-Amp, Feedback, Asymptotic Equality, Inverting and non-inverting amplifiers
  11. Singularity Functions: Introduction, Unit Step, Pulse, and Dirac Delta (Impulse) Functions
  12. Linear Systems: Dirac Delta, Sifting Property, Impulse Response, LTI, Convolution
  13. Linear Systems: Convolution, Examples of System Response, Convolution Examples
  14. Time-Domain Response: Capacitors and Inductors, RC Response, General 1st-Order System
  15. Time Domain Response: RC Step and Impulse Response
  16. Heaviside Operator: Introduction, basic examples
  17. Heaviside Operator: Low-Pass Operator, High-Pass Operator, Solving Differential Equations
  18. Heaviside Operator: Circuit Examples
  19. Heaviside Operator: Nodal Analysis Examples, Order of System, Oscilloscope Probe
  20. Impulse Response of 2nd Order System: Complex Numbers, Real Poles, Underdamped and Over-damped
  21. Heaviside Operator: Partial Fraction Expansion (PFE), Example
  22. Heaviside Operator: PFE with Multiple Roots, Example
  23. Heaviside Operator: Operator Catalog, Solving differential equation directly, Examples.
  24. Heaviside Operator: Time Delay, Convolution, Example
  25. Heaviside Operator: Operator Catalog Review, Convolution Example
  26. Heaviside Operator: Initial Conditions
  27. System Function: Forced and Natural Response, Poles and Zeros, Time Domain View, Laplace Xform
  28. Stability: Definition, Criterion, Poles Location, South-Hurwitz Method
  29. Laplace Transform Summary: Definition, Properties
  30. Intro to Network Synthesis, Complex Impedance,
  31. Sinusoidal Drive, Phasor Notations, Cascaded Systems, Intro to Bode Plot
  32. Bode Plot: Properties, Poles and Zeros, Resonance (2nd Order Peaking)
  33. Fourier Series and Fourier Transform. Intro, Basic Derivation
  34. Fourier Transform: Spectrum, Time and Frequency Duality, Impulse, Sinc, Box
  35. Fourier Transform: Modulation
  36. Fourier Transform: Sampling
  37. Time and Transfer Constants: Brief Introduction
  38. Course Brief Final Summary

Course Description

Topics include: fundamentals of circuits and network theory, circuit elements, linear circuits, terminals and port presentation, time-domain response, nodal and mesh analysis, sinusoidal response, introductory frequency domain analysis, transfer functions, poles and zeros, time and transfer constants, network theorems, introduction to state-space.


There are no comments. Be the first to post one.
  Post comment as a guest user.
Click to login or register:
Your name:
Your email:
(will not appear)
Your comment:
(max. 1000 characters)
Are you human? (Sorry)