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Lecture
Filter Theory: Introduction and Methods
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Related lectures (32)
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Filters Fundamentals: Chebyshev Approximation
Explores the fundamentals of Chebyshev approximation in filters, covering polynomials, pole locations, order determination, and design procedures.
Active Filters: Second-order and High-order Realizations
Covers the design and implementation of active filters, focusing on second-order and high-order realizations.
Filters Fundamentals: Chebyshev Polynomials and Filter Design
Covers Chebyshev polynomials, all-pole filter design, RLC filters, and active-RC and OTA-C filter implementations.
Feedback Amplifiers: Stability Analysis
Covers stability analysis of feedback amplifiers and Butterworth and Chebyshev filter design.
Switched-Capacitor Filters: Design and Synthesis
Covers the design and synthesis of switched-capacitor filters focusing on cascade and ladder filter designs.
Digital Filtering: Butterworth Filter Design
Explores digital Butterworth filter design, covering scaling, stable poles, and filter application.
High-order Filters: LC Ladder Filters
Explores the design and simulation of high-order LC ladder filters using active-RC circuits and impedance normalization techniques.
AmpliOp Response and Filter Design
Covers the design of active filters based on operational amplifiers and impedance analysis.
Observers: Convergence Mechanism
Explores the convergence mechanism in observers, emphasizing noise elimination and filter design.
Digital Filters Synthesis: Bilinear Transformation and Frequency Response
Explores the synthesis of digital filters from analog filters using the bilinear transformation method and Chebyshev's criterion.
