Circuits and Systems with Prof. Ali Hajimiri

Video Lectures

Displaying all 38 video lectures.
Lecture 1
Circuits Fundamentals: Definitions, graph properties, current & voltage, power & energy
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Circuits Fundamentals: Definitions, graph properties, current & voltage, power & energy
Circuits fundamentals derived from EM, definitions, circuit conditions, graphs (nodes, meshes, and branches), current, voltage, power and energy flow.


160927
Lecture 2
Circuits Fundamental: Passivity and Activity, KCL and KVL, Ideal Sources
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Circuits Fundamental: Passivity and Activity, KCL and KVL, Ideal Sources
Passivity and Activity, KCL and KVL, Ideal Sources
Lecture 3
Circuits Fundamentals: Resistance, Ohm's law, linearity, time-variance, diode circuits.
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Circuits Fundamentals: Resistance, Ohm's law, linearity, time-variance, diode circuits.
Resistance, Ohm's law, linearity, diodes, ideal diode circuits, time-variance
Lecture 4
Nodal Analysis: ground, Y-Matrix, node voltage & stimulus vectors, Linear algebra, determinant
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Nodal Analysis: ground, Y-Matrix, node voltage & stimulus vectors, Linear algebra, determinant
Nodal Analysis: Y-Matrix, Stimuli and Node Voltage Vectors, determination of Y-matrix by inspection, Linear Algebra Problem, Matrix Inversion, Linear Transformations, Meaning of Determinant
Lecture 5
Nodal Analysis: Examples, dependent sources, existence of a solution
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Nodal Analysis: Examples, dependent sources, existence of a solution
Nodal Analysis Continued. Examples, Dependent Sources, Existence of a solution.
Lecture 6
Nodal Analysis Continued: Nodal analysis, dependent sources, with voltage sources, super nodes
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Nodal Analysis Continued: Nodal analysis, dependent sources, with voltage sources, super nodes
Nodal analysis, dependent sources, with voltage sources, super nodes


20161006090742
Lecture 7
Mesh Analysis & Diode Circuits: Mesh analysis, 3D networks, super mesh, diode circuit design
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Mesh Analysis & Diode Circuits: Mesh analysis, 3D networks, super mesh, diode circuit design
Mesh analysis, planner circuits, super mesh, diode circuit design


20161006100656EE44
Lecture 8
Circuit Theorems: Superposition, Thévenin, Norton, Source Transformation, Network Equivalence
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Circuit Theorems: Superposition, Thévenin, Norton, Source Transformation, Network Equivalence
Circuit Theorems: Superposition, Thévenin, Norton, Source Transformation, Network Equivalence


20161011091610EE44
Lecture 9
Circuit Theorems: Source Transportation, Substitution Theorem, Maximum Power Transfer, Y-Delta
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Circuit Theorems: Source Transportation, Substitution Theorem, Maximum Power Transfer, Y-Delta
20161011101556EE44
Lecture 10
Active circuits: Op-Amp, Feedback, Asymptotic Equality, Inverting and non-inverting amplifiers
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Active circuits: Op-Amp, Feedback, Asymptotic Equality, Inverting and non-inverting amplifiers
Active circuits, Intro. to Operational Amplifier (Op-Amp), Intro to Feedback, Intro. to Asymptotic Equality, Inverting and non-inverting amplifiers, voltage summation

20161013090634EE44
Lecture 11
Singularity Functions: Introduction, Unit Step, Pulse, and Dirac Delta (Impulse) Functions
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Singularity Functions: Introduction, Unit Step, Pulse, and Dirac Delta (Impulse) Functions
Fundamental Theorem of Calculus, Introduction to singularity functions, Unit step function, Dirac Delta Function

20161013102242EE44
Lecture 12
Linear Systems: Dirac Delta, Sifting Property, Impulse Response, LTI, Convolution
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Linear Systems: Dirac Delta, Sifting Property, Impulse Response, LTI, Convolution
Linear system Response: Singularity Functions, Dirac Delta, Sifting Property, Impulse Response, Linear, Time-Invanance, LTI, Superposition Integral, Convolution


20161018090404EE44
Lecture 13
Linear Systems: Convolution, Examples of System Response, Convolution Examples
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Linear Systems: Convolution, Examples of System Response, Convolution Examples
Linear Systems: Convolution, Examples of System Response, Convolution Examples


20161018101040EE44
Lecture 14
Time-Domain Response: Capacitors and Inductors, RC Response, General 1st-Order System
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Time-Domain Response: Capacitors and Inductors, RC Response, General 1st-Order System
Time domain Response: Capacitors and Inductors, RC Time-Domain Response, General First-Order System Response, Switched RC Circuit,


20161020090714EE44
Lecture 15
Time Domain Response: RC Step and Impulse Response
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Time Domain Response: RC Step and Impulse Response
20161020102244EE44
Lecture 16
Heaviside Operator: Introduction, basic examples
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Heaviside Operator: Introduction, basic examples
Heaviside operator: Introduction, basic examples


20161020104650EE44
Lecture 17
Heaviside Operator: Low-Pass Operator, High-Pass Operator, Solving Differential Equations
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Heaviside Operator: Low-Pass Operator, High-Pass Operator, Solving Differential Equations
Heaviside Operator: Low-Pass Operator, High-Pass Operator, Solving Differential Equations


20161025091918EE44
Lecture 18
Heaviside Operator: Circuit Examples
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Heaviside Operator: Circuit Examples
Heaviside Operator: Circuit Examples


20161025103418EE44
Lecture 19
Heaviside Operator: Nodal Analysis Examples, Order of System, Oscilloscope Probe
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Heaviside Operator: Nodal Analysis Examples, Order of System, Oscilloscope Probe
Heaviside Operator: Nodal Analysis Examples, Oder of System, Oscilloscope Probe


20161027091328EE44
Lecture 20
Impulse Response of 2nd Order System: Complex Numbers, Real Poles, Underdamped and Over-damped
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Impulse Response of 2nd Order System: Complex Numbers, Real Poles, Underdamped and Over-damped
020. Impulse Response of 2nd Order System: Complex Numbers, Real Poles, Underdamped and Over-damped Response, real and complex conjugate roots


20161027101738EE44
Lecture 21
Heaviside Operator: Partial Fraction Expansion (PFE), Example
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Heaviside Operator: Partial Fraction Expansion (PFE), Example
Heaviside Operator: Partial Fraction Expansion (PFE), Example


20161103092414EE44v2
Lecture 22
Heaviside Operator: PFE with Multiple Roots, Example
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Heaviside Operator: PFE with Multiple Roots, Example
Heaviside Operator: Partial Fraction Expansion (PFE) with Multiple Roots, Example


20161103102358EE44
Lecture 23
Heaviside Operator: Operator Catalog, Solving differential equation directly, Examples.
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Heaviside Operator: Operator Catalog, Solving differential equation directly, Examples.
Heaviside Operator: Operator Catalog, Solving differential equation directly, Examples.


20161108101620EE44
Lecture 24
Heaviside Operator: Time Delay, Convolution, Example
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Heaviside Operator: Time Delay, Convolution, Example
Heaviside Operator: Time Delay, Convolution, Example


20161108114820EE44
Lecture 25
Heaviside Operator: Operator Catalog Review, Convolution Example
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Heaviside Operator: Operator Catalog Review, Convolution Example
Heaviside Operator: Operator Catalog Review, Convolution Example


20161110100946EE44
Lecture 26
Heaviside Operator: Initial Conditions
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Heaviside Operator: Initial Conditions
Heaviside Operator: Initial Conditions


20161110102808EE44
Lecture 27
System Function: Forced and Natural Response, Poles and Zeros, Time Domain View, Laplace Xform
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System Function: Forced and Natural Response, Poles and Zeros, Time Domain View, Laplace Xform
System Function: Forced and Natural Response, Poles and Zeros, Time Domain View, Intro to Laplace Transform


20161110110604EE44
Lecture 28
Stability: Definition, Criterion, Poles Location, South-Hurwitz Method
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Stability: Definition, Criterion, Poles Location, South-Hurwitz Method
Stability: Definition, Criterion, Poles Location, South-Hurwitz Method


20161115101138EE44
Lecture 29
Laplace Transform Summary: Definition, Properties
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Laplace Transform Summary: Definition, Properties
029. Laplace Transform Summary: Definition, Properties, differentiation and integration, Laplace transform of elementary functions.


20161115111706EE44
Lecture 30
Intro to Network Synthesis, Complex Impedance,
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Intro to Network Synthesis, Complex Impedance,
Complex Impedance, Intro to Network Synthesis


20161117101708EE44
Lecture 31
Sinusoidal Drive, Phasor Notations, Cascaded Systems, Intro to Bode Plot
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Sinusoidal Drive, Phasor Notations, Cascaded Systems, Intro to Bode Plot
Sinusoidal Drive, Phasor Notations, Cascaded Systems, Intro to Bode Plot


20161117111034EE44
Lecture 32
Bode Plot: Properties, Poles and Zeros, Resonance (2nd Order Peaking)
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Bode Plot: Properties, Poles and Zeros, Resonance (2nd Order Peaking)
Bode Plot: Properties, Poles and Zeros, Resonance (2nd Order Peaking)


20161122101002EE44
Lecture 33
Fourier Series and Fourier Transform. Intro, Basic Derivation
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Fourier Series and Fourier Transform. Intro, Basic Derivation
Fourier Series and Fourier Transform. Intro, Basic Derivation


20161122112648EE44
Lecture 34
Fourier Transform: Spectrum, Time and Frequency Duality, Impulse, Sinc, Box
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Fourier Transform: Spectrum, Time and Frequency Duality, Impulse, Sinc, Box
Fourier Transform: Detailed Derivation, Spectrum, Impulse, Sinc Function, Brickwall


20161129101206EE44
Lecture 35
Fourier Transform: Modulation
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Fourier Transform: Modulation
Fourier Transform: Modulation


20161129111748EE44
Lecture 36
Fourier Transform: Sampling
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Fourier Transform: Sampling
036. Fourier Transform: Sampling: Impulse Train, Nyquist Limit, Sample and Hold


20161201100824EE44
Lecture 37
Time and Transfer Constants: Brief Introduction
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Time and Transfer Constants: Brief Introduction
Time and Transfer Constants: Brief Introduction
For more detailed discussions see videos :137-148
The reference paper for this can be found at:
http://chic.caltech.edu/wp-content/uploads/2014/02/Final-Pap...


20161201111108EE44
Lecture 38
Course Brief Final Summary
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Course Brief Final Summary
Course Brief Final Summary


20161201113544EE44