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Lecture
Filters Fundamentals: Chebyshev Approximation
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Related lectures (32)
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Signals, Instruments, and Systems: System Properties and Transforms
Introduces system properties, Laplace Transform, and analog filters for signal analysis.
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.
Continuous-Time Filters: MOSFET-C Filters
Covers different types of continuous-time filters, focusing on MOSFET-C filters and linearization techniques.
AC Circuits: Impedances, Filters, and Power Analysis
Explores AC circuits, impedance analysis, filters, and power factors in depth.
Feedback and Stability
Explores negative feedback in analog circuits, focusing on desensitizing gain, reducing distortion, controlling noise, and extending bandwidth.
Analysis of Circuits with Dependent Sources
Explores the analysis of circuits with dependent sources, node-voltage analysis, Thévenin equivalent circuits, and OPAMP fundamentals.
Band-Pass Filters: Design and Application
Explores band-pass filter design, impedance characteristics, and practical circuit realization for heart activity measurement.
Digital Filters: Structure and Implementation
Explores digital filters, their implementation, characteristics, and realizations, with examples for illustration.
Digital Filtering Fundamentals
Introduces fundamental notions in digital filtering, covering 2D filtering approaches, linear filters, stability, FIR and IIR filters, frequency domain filtering, and Gaussian filters.
Linear Phase Filters: Step Response and Characteristics
Explores linear phase filters, rise time, Gaussian filters, and rational transfer functions.
