Lecture
Linear Phase Filters: Step Response and Characteristics
Related lectures (35)
Active Filters: Second-order and High-order Realizations
Covers the design and implementation of active filters, focusing on second-order and high-order realizations.
Feedback Amplifiers: Stability Analysis
Covers stability analysis of feedback amplifiers and Butterworth and Chebyshev filter design.
Filters Fundamentals: Chebyshev Polynomials and Filter Design
Covers Chebyshev polynomials, all-pole filter design, RLC filters, and active-RC and OTA-C filter implementations.
Analog Filters: General Synthesis and Transfer Functions
Explores analog filters, rational transfer functions, and stability analysis of causal systems.
Frequency Response of LTI Systems
Explores LTI systems, impulse response, convolution, system properties, and frequency response, including low-pass and band-pass filters.
Signals, Instruments, and Systems: System Properties and Transforms
Introduces system properties, Laplace Transform, and analog filters for signal analysis.
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.
Frequency Response and Filters: Signals & Systems I
Explores frequency response, ideal filters, and linear phase in signals & systems.
Signals & Systems I: Reconstruction and Gibbs Phenomenon
Explores signal reconstruction, Gibbs phenomenon, error evaluation, and frequency filtering.
Signals & Systems I: Filter Equations and Poles
Explores rational transfer functions, filter equations, poles, zeros, and impulse response in signal processing.