Lecture Slides for Signals and Systems (Edition 3.0)This document constitutes a detailed set of lecture slides on signals and systems, covering both the continuous-time and discrete-time cases. Some of the topics considered include: signal properties, elementary signals, system properties, linear time-invariant systems, convolution, Fourier series, Fourier transform, Laplace transform, z transform, complex analysis, and partial fraction expansions. |
Common terms and phrases
amplitude BIBO stable bilateral capacitor causal complex constants complex exponential complex numbers complex sinusoids conjugate symmetric Consider a LTI Continuous-Time convergence Creative Commons CTFS CTFT Differentiation Discrete-Time DTFS DTFT DTFT If x(n eigensequences expression finite Fourier series coefficient frequency domain frequency response frequency spectrum function F fundamental frequency given H commutes H denote impulse response inductor interconnection invalid as ROCs known License Licensor linear combination LTI system magnitude spectrum memoryless N-periodic nonzero notation operator output Parseval's Relation partial fraction expansion Passband periodic function periodic sequence phase spectrum polar form pole polynomial rational function Re(s real constant real exponential real number real sinusoid response h sampling scaling Section series coefficient sequence shifting signal Spectra Stopband Symmetry system function system H system with impulse system with input Time-Domain unilateral Laplace transform unilateral z transform unit-step Value Theorem z transform zero