Lecture 19 - Introduction to noise in electrical networks (contd), the idea of node Lecture 18 - Introduction to noise in electrical networks. Lecture 17 - The idea of Dynamic Range in active filters - impedance scaling and its Of the parallel RLC and series RLC circuits with their Gm-C counterparts. Lecture 16 - Cascade of biquads realization of high order low pass filters, equivalence Gyrator, a second order transconductor capacitor filter. Lecture 15 - Emulation of an inductor with a capacitor and controlled sources, the Lecture 14 - The Richards Transformation, RC-CR transformation Pass-to-Band Pass, Low Pass-to-High Pass and Low Pass-to-Band Stop transformations Lecture 13 - Driving point impedance of LC networks (contd), Low Pass-to-Low Pass, Low Impedance of lossless LC networks- Tellegens theorem and positive real functions. Lecture 12 - Frequency (reactance) transformations (contd) - properties of the driving Lecture 11 - Introduction to frequency transformations. Lecture 10 - Network sensitivity - low sensitivity of doubly terminated ladders Lecture 9 - Synthesis of doubly terminated LC ladders with finite zeros of transmission. Lecture 8 - Synthesis of doubly terminated LC ladders (contd). Lecture 7 - Synthesis of doubly terminated all-pole LC ladders filters Lecture 6 - The Inverse Chebyshev approximation (contd). Lecture 5 - The Chebyshev approximation (contd), the Inverse Chebyshev approximation Lecture 4 - The Chebyshev approximation (contd) Lecture 2 - The Butterworth approximation for free ebooks.Lecture 1 - Course overview and introduction. Video Lectures on "Active Filter Design" by Dr.Shanthi Pavan, IIT Madrasįor more videos. Noise in Degenerated Transconductors, The Folded Cascode and Noise Analysis Lecture 35 - Stabilizing filter bandwidth over process and temperature - the resistor servo loop, master-slave loops,Turning the filter into a VCO to estimate center frequency, example of a practical precision fixed-gm bias circuit,Introduction to accurate measurement and characterization techniques for active filters,Introduction to Active-RC filters,Active-RC filters (contd), the use of an OTA instead of an opamp, swing and noise considerations, single stage OTAs,Multistage OTAs for use in CMOS Active-RC filters,The Miller compensated opamp in active-RC filters, noise considerations,noise in active-RC filters,Distortion and Intermodulation in filters, miscellaneous discussion on fixed gm-bias circuits Lecture 33 - Linearizing the Differential Pair, Resistive Degeneration, Single-ended Versus Differential Filters, Introducing the Differential-pair Based Fully Differential Transconductor, the Need for Common-mode Feedback,Common-mode Feedback (continued) Common-mode Feedback (continued), examples of Common-mode Detectors,Stability of the Common-mode Feedback Loop,Common-mode Positive Feedback in Gyrators,Common-mode Positive Feedback in Gyrators (contd), Noise in the Differential Pair,Noise in the Differential Pair (contd), Linearity of the Differential Pair, Cascoding to Improve Output Impedance,Noise in Cascodes, Layout Considerations and Multi-finger Transistors. Lecture 21 - Biquad Ordering,Active Ladder Emulation / Leapfrog Filters, Effect of Transconductor nonidelaities (parasitic capacitance/output resistance),Effect of Transconductor Nonidealities (contd) - parasitic poles,Viewing the Gm-C biquad as a Double Integrator Loop, Revisiting the Effect of Finite Gain of the Transconductors, Network sensitivity - low sensitivity of doubly terminated ladders,Introduction to frequency transformations,Frequency (reactance) transformations (contd) - properties of the driving impedance of lossless LC networks- Tellegen's theorem and positive real functions,Driving point impedance of LC networks (contd), Low Pass-to-Low Pass, Low Pass-to-Band Pass, Low Pass-to-High Pass and Low Pass-to-Band Stop transformations,The Richard's Transformation, RC-CR transformation,Emulation of an inductor with a capacitor and controlled sources, the gyrator, a second order transconductor capacitor filter.Ĭascade of biquads realization of high order low pass filters, equivalence of the parallel RLC and series RLC circuits with their Gm-C counterparts,The idea of Dynamic Range in active filters - impedance scaling and its effect on dynamic range,Introduction to noise in electrical networks,Introduction to noise in electrical networks (contd), the idea of node scaling,Dynamic range scaling in active filters. Course overview and introduction,The Butterworth approximation,The Chebyshev approximation,The Chebyshev approximation (contd),The Chebyshev approximation (contd), the Inverse Chebyshev approximation,The Inverse Chebyshev approximation (contd),Synthesis of doubly terminated all-pole LC ladders filters,Synthesis of doubly terminated LC ladders (contd),Synthesis of doubly terminated LC ladders with finite zeros of transmission.
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