Modules / Lectures


Sl.No Chapter Name MP4 Download
11.1 - Course Introduction and MotivationDownload
21.2 - Kirchoff's Current and Voltage Laws, and the Incidence Matrix Download
31.3 - Power Conservation and Tellegen's TheoremDownload
41.4 - Intuition behind Tellegen's TheoremDownload
51.5 - Tellegen's Theorem and reciprocity in linear resistive networks Download
61.6 - Why is reciprocity useful in practice?Download
71.7 - Inter-reciprocity in linear time-invariant networksDownload
82.1 - Inter-reciprocity in linear time-invariant networks (contd)Download
92.2 - Inter-reciprocity in networks with ideal operational amplifiersDownload
102.3 - Review of Modified Nodal Analysis (MNA) of linear networksDownload
112.4 - MNA stamps of controlled sources - the VCCS & VCVSDownload
122.5 - MNA stamps of controlled sources - the CCCS & CCVSDownload
132.6 - Inter-reciprocity in linear networks - using the MNA stamp approachDownload
143.1 - The Adjoint NetworkDownload
153.2 - MNA stamp of an ideal opampDownload
163.3 - Properties of circuits with multiple ideal opampsDownload
173.4 - Introduction to Analog Active FiltersDownload
183.5 - Magnitude approximation principlesDownload
193.6 - The maximally flat (Butterworth) approximationDownload
203.7 - The Butterworth Approximation (contd)Download
213.8 - Connection between magnitude response and pole locations in an all-pole filterDownload
223.9 - Cascade-of-biquads, realization of stray-insensitive first-order sectionDownload
234.1 - Opamp-RC biquadratic sectionsDownload
244.2 - Active-RC biquads and Impedance scalingDownload
254.3 - Opamp-RC biquadratic sections (contd)Download
264.4 - High-order filters using cascade of biquads, Dynamic range scaling in opamp-RC filtersDownload
275.1 - The finite gain-bandwidth model of nonideal opampsDownload
285.2 - Effect of finite opamp bandwidth on an active-RC integratorDownload
295.3 - Effect of finite opamp bandwidth on an active-RC biquadDownload
305.4 - Visualization and mitigation of the effect of Q-enhancementDownload
316.1 - Transconductance-Capacitance integratorsDownload
326.2 - Introduction to noise in electrical networksDownload
336.3 - Noise processed by a linear time-invariant systemDownload
346.4 - kT/C noise in a sample-and-hold circuitDownload
356.5 - Noise in RLC networksDownload
366.6 - Total integrated noise in RLC NetworksDownload
377.1 - Bode's Noise Theorem - Frequency domainDownload
387.2 - Input referred noise in electrical networks - part 1Download
397.3 - Input referred noise in electrical networks - part 2Download
407.4 - Input referred noise and the noise factorDownload
417.5 - Noise Factor ExamplesDownload
428.1 - Introduction to distributed networks, the ideal transmission lineDownload
438.2 - Solving the wave equation in an ideal transmission lineDownload
448.3 - Transmisson line circuit analysis : The short circuited and open circuited lineDownload
458.4 - Transmission line circuit analysis, the reflection coefficient, open and short-circuited linesDownload
468.5 - Transmission line driven by a source, power in a transmission lineDownload
479.1 - The Smith chartDownload
489.2 - The need for scattering parametersDownload
499.3 - Scattering Parameters : IntroductionDownload
509.4 - Example scattering matrix calculationsDownload
519.5 - Scattering matrices propertiesDownload
529.6 -Measuring the S-parameters of a one-portDownload
5310.1 - The one-port vector network analyzerDownload
5410.2 - The two-port vector network analyzerDownload
5510.3 - Weak nonlinearity in electronic circuits, second-order harmonic distortion, HD2 and IM2Download
5610.4 - Weak nonlinearity in electronic circuits, second-order intermodulation distortionDownload
5711.1 - Gain compression and third-order harmonic distortionDownload
5811.2 - Third-order intermodulation distortionDownload
5911. 3 - Weak nonlinearities in circuits: Intuition behind the method of current injectionDownload
6011. 4 - Weak nonlinearities in circuits: Calculating nonlinear componentsDownload
6112.1 - Current-injection analysis of distortion in a negative feedback systemDownload
6212.2 - Current-injection analysis of distortion in a negative feedback system (contd)Download
6312.3 - Course summary and recapDownload

Sl.No Chapter Name English
11.1 - Course Introduction and MotivationPDF unavailable
21.2 - Kirchoff's Current and Voltage Laws, and the Incidence Matrix PDF unavailable
31.3 - Power Conservation and Tellegen's TheoremPDF unavailable
41.4 - Intuition behind Tellegen's TheoremPDF unavailable
51.5 - Tellegen's Theorem and reciprocity in linear resistive networks PDF unavailable
61.6 - Why is reciprocity useful in practice?PDF unavailable
71.7 - Inter-reciprocity in linear time-invariant networksPDF unavailable
82.1 - Inter-reciprocity in linear time-invariant networks (contd)PDF unavailable
92.2 - Inter-reciprocity in networks with ideal operational amplifiersPDF unavailable
102.3 - Review of Modified Nodal Analysis (MNA) of linear networksPDF unavailable
112.4 - MNA stamps of controlled sources - the VCCS & VCVSPDF unavailable
122.5 - MNA stamps of controlled sources - the CCCS & CCVSPDF unavailable
132.6 - Inter-reciprocity in linear networks - using the MNA stamp approachPDF unavailable
143.1 - The Adjoint NetworkPDF unavailable
153.2 - MNA stamp of an ideal opampPDF unavailable
163.3 - Properties of circuits with multiple ideal opampsPDF unavailable
173.4 - Introduction to Analog Active FiltersPDF unavailable
183.5 - Magnitude approximation principlesPDF unavailable
193.6 - The maximally flat (Butterworth) approximationPDF unavailable
203.7 - The Butterworth Approximation (contd)PDF unavailable
213.8 - Connection between magnitude response and pole locations in an all-pole filterPDF unavailable
223.9 - Cascade-of-biquads, realization of stray-insensitive first-order sectionPDF unavailable
234.1 - Opamp-RC biquadratic sectionsPDF unavailable
244.2 - Active-RC biquads and Impedance scalingPDF unavailable
254.3 - Opamp-RC biquadratic sections (contd)PDF unavailable
264.4 - High-order filters using cascade of biquads, Dynamic range scaling in opamp-RC filtersPDF unavailable
275.1 - The finite gain-bandwidth model of nonideal opampsPDF unavailable
285.2 - Effect of finite opamp bandwidth on an active-RC integratorPDF unavailable
295.3 - Effect of finite opamp bandwidth on an active-RC biquadPDF unavailable
305.4 - Visualization and mitigation of the effect of Q-enhancementPDF unavailable
316.1 - Transconductance-Capacitance integratorsPDF unavailable
326.2 - Introduction to noise in electrical networksPDF unavailable
336.3 - Noise processed by a linear time-invariant systemPDF unavailable
346.4 - kT/C noise in a sample-and-hold circuitPDF unavailable
356.5 - Noise in RLC networksPDF unavailable
366.6 - Total integrated noise in RLC NetworksPDF unavailable
377.1 - Bode's Noise Theorem - Frequency domainPDF unavailable
387.2 - Input referred noise in electrical networks - part 1PDF unavailable
397.3 - Input referred noise in electrical networks - part 2PDF unavailable
407.4 - Input referred noise and the noise factorPDF unavailable
417.5 - Noise Factor ExamplesPDF unavailable
428.1 - Introduction to distributed networks, the ideal transmission linePDF unavailable
438.2 - Solving the wave equation in an ideal transmission linePDF unavailable
448.3 - Transmisson line circuit analysis : The short circuited and open circuited linePDF unavailable
458.4 - Transmission line circuit analysis, the reflection coefficient, open and short-circuited linesPDF unavailable
468.5 - Transmission line driven by a source, power in a transmission linePDF unavailable
479.1 - The Smith chartPDF unavailable
489.2 - The need for scattering parametersPDF unavailable
499.3 - Scattering Parameters : IntroductionPDF unavailable
509.4 - Example scattering matrix calculationsPDF unavailable
519.5 - Scattering matrices propertiesPDF unavailable
529.6 -Measuring the S-parameters of a one-portPDF unavailable
5310.1 - The one-port vector network analyzerPDF unavailable
5410.2 - The two-port vector network analyzerPDF unavailable
5510.3 - Weak nonlinearity in electronic circuits, second-order harmonic distortion, HD2 and IM2PDF unavailable
5610.4 - Weak nonlinearity in electronic circuits, second-order intermodulation distortionPDF unavailable
5711.1 - Gain compression and third-order harmonic distortionPDF unavailable
5811.2 - Third-order intermodulation distortionPDF unavailable
5911. 3 - Weak nonlinearities in circuits: Intuition behind the method of current injectionPDF unavailable
6011. 4 - Weak nonlinearities in circuits: Calculating nonlinear componentsPDF unavailable
6112.1 - Current-injection analysis of distortion in a negative feedback systemPDF unavailable
6212.2 - Current-injection analysis of distortion in a negative feedback system (contd)PDF unavailable
6312.3 - Course summary and recapPDF unavailable


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