Signals and Systems EE235 Lecture 23 Leo Lam © 2010-2012.

Slides:



Advertisements
Similar presentations
Signals and Systems Fall 2003 Lecture #5 18 September Complex Exponentials as Eigenfunctions of LTI Systems 2. Fourier Series representation of.
Advertisements

Leo Lam © Signals and Systems EE235 Leo Lam.
Lecture 7: Basis Functions & Fourier Series
Leo Lam © Signals and Systems EE235 Lecture 16.
Leo Lam © Signals and Systems EE235. Transformers Leo Lam ©
Leo Lam © Signals and Systems EE235. Fourier Transform: Leo Lam © Fourier Formulas: Inverse Fourier Transform: Fourier Transform:
Lecture 8: Fourier Series and Fourier Transform
Lecture 14: Laplace Transform Properties
Lecture 8 Topics Fourier Transforms –As the limit of Fourier Series –Spectra –Convergence of Fourier Transforms –Fourier Transform: Synthesis equation.
Lecture 12: Laplace Transform
Leo Lam © Signals and Systems EE235. Leo Lam © Speed of light.
Leo Lam © Signals and Systems EE235. Leo Lam © Fourier Transform Q: What did the Fourier transform of the arbitrary signal say to.
Leo Lam © Signals and Systems EE235 Lecture 27.
Leo Lam © Signals and Systems EE235 Lecture 23.
Leo Lam © Signals and Systems EE235. So stable Leo Lam ©
Leo Lam © Signals and Systems EE235 Leo Lam.
Leo Lam © Signals and Systems EE235. Leo Lam © x squared equals 9 x squared plus 1 equals y Find value of y.
Leo Lam © Signals and Systems EE235. Leo Lam © Fourier Transform Q: What did the Fourier transform of the arbitrary signal say to.
Leo Lam © Signals and Systems EE235 Leo Lam © Stanford The Stanford Linear Accelerator Center was known as SLAC, until the big earthquake,
CISE315 SaS, L171/16 Lecture 8: Basis Functions & Fourier Series 3. Basis functions: Concept of basis function. Fourier series representation of time functions.
ECE 8443 – Pattern Recognition ECE 3163 – Signals and Systems Objectives: Derivation Transform Pairs Response of LTI Systems Transforms of Periodic Signals.
Chapter 17 The Fourier Series
Leo Lam © Signals and Systems EE235. Leo Lam © Today’s menu Fourier Series (Exponential form) Fourier Transform!
Leo Lam © Signals and Systems EE235 Lecture 21.
Fourier Series. Introduction Decompose a periodic input signal into primitive periodic components. A periodic sequence T2T3T t f(t)f(t)
EE104: Lecture 5 Outline Review of Last Lecture Introduction to Fourier Transforms Fourier Transform from Fourier Series Fourier Transform Pair and Signal.
Leo Lam © Signals and Systems EE235. Leo Lam © Today’s menu Happy May! Chocolates! Fourier Series Vote!
Course Outline (Tentative) Fundamental Concepts of Signals and Systems Signals Systems Linear Time-Invariant (LTI) Systems Convolution integral and sum.
1. 2 Ship encountering the superposition of 3 waves.
Leo Lam © Signals and Systems EE235 Lecture 21.
Leo Lam © Signals and Systems EE235. Leo Lam © Stanford The Stanford Linear Accelerator Center was known as SLAC, until the big earthquake,
Leo Lam © Signals and Systems EE235 Leo Lam.
Leo Lam © Signals and Systems EE235 Lecture 20.
EE313 Linear Systems and Signals Fall 2010 Initial conversion of content to PowerPoint by Dr. Wade C. Schwartzkopf Prof. Brian L. Evans Dept. of Electrical.
Leo Lam © Signals and Systems EE235 Leo Lam.
Leo Lam © Signals and Systems EE235 Lecture 21.
Leo Lam © Signals and Systems EE235 Lecture 22.
Leo Lam © Signals and Systems EE235 Lecture 25.
ECE 8443 – Pattern Recognition EE 3512 – Signals: Continuous and Discrete Objectives: Eigenfunctions Fourier Series of CT Signals Trigonometric Fourier.
Leo Lam © Signals and Systems EE235. Leo Lam © Exceptional.
Leo Lam © Signals and Systems EE235 Leo Lam.
Leo Lam © Signals and Systems EE235 Leo Lam.
Leo Lam © Signals and Systems EE235 Leo Lam.
1 Roadmap SignalSystem Input Signal Output Signal characteristics Given input and system information, solve for the response Solving differential equation.
ECE 8443 – Pattern Recognition ECE 3163 – Signals and Systems Objectives: Eigenfunctions Fourier Series of CT Signals Trigonometric Fourier Series Dirichlet.
Leo Lam © Signals and Systems EE235 Lecture 25.
1 EE2003 Circuit Theory Chapter 17 The Fourier Series Copyright © The McGraw-Hill Companies, Inc. Permission required for reproduction or display.
بسم الله الرحمن الرحيم University of Khartoum Department of Electrical and Electronic Engineering Third Year – 2015 Dr. Iman AbuelMaaly Abdelrahman
Leo Lam © Signals and Systems EE235 Lecture 26.
Fourier Series 1 Chapter 4:. TOPIC: 2 Fourier series definition Fourier coefficients The effect of symmetry on Fourier series coefficients Alternative.
Math for CS Fourier Transforms
Convergence of Fourier series It is known that a periodic signal x(t) has a Fourier series representation if it satisfies the following Dirichlet conditions:
Chapter 17 The Fourier Series
Lecture 7: Basis Functions & Fourier Series
Continuous-Time Signal Analysis
Signals and Systems EE235 Lecture 26 Leo Lam ©
UNIT II Analysis of Continuous Time signal
Fourier Transform September 27, 2000 EE 64, Section 1 ©Michael R. Gustafson II Pratt School of Engineering.
Signals and Systems EE235 Leo Lam ©
Signals and Systems EE235 Lecture 21 Leo Lam ©
Signals and Systems EE235 Leo Lam ©
Fourier Analysis.
Signals and Systems EE235 Leo Lam ©
3.Fourier Series Representation of Periodic Signal
Signals & Systems (CNET - 221) Chapter-5 Fourier Transform
Signals and Systems EE235 Lecture 23 Leo Lam ©
Signals and Systems EE235 Leo Lam ©
4. The Continuous time Fourier Transform
Signals and Systems EE235 Leo Lam ©
Signals and Systems Lecture 11
Presentation transcript:

Signals and Systems EE235 Lecture 23 Leo Lam © 2010-2012

Today’s menu Fourier Series Example Fourier Transform Leo Lam © 2010-2012

Motivation Leo Lam © 2010-2012

Fourier Series: Quick exercise Given: Find its exponential Fourier Series: (Find the coefficients dn and w0) 4 Leo Lam © 2010-2012

Fourier Series: Fun examples Rectified sinusoids Find its exponential Fourier Series: t f(t) =|sin(t)| Expand as exp., combine, integrate 5 Leo Lam © 2010-2012

Fourier Series: Circuit Application Rectified sinusoids Now we know: Circuit is an LTI system: Find y(t) Remember: + - sin(t) full wave rectifier y(t) f(t) Where did this come from? Find H(s)! S 6 Leo Lam © 2010-2012

Fourier Series: Circuit Application Finding H(s) for the LTI system: est is an eigenfunction, so Therefore: So: Shows how much an exponential gets amplified at different frequency s 7 Leo Lam © 2010-2012

Fourier Series: Circuit Application Rectified sinusoids Now we know: LTI system: Transfer function: To frequency: + - sin(t) full wave rectifier y(t) f(t) 8 Leo Lam © 2010-2012

Fourier Series: Circuit Application Rectified sinusoids Now we know: LTI system: Transfer function: System response: + - sin(t) full wave rectifier y(t) f(t) 9 Leo Lam © 2010-2012

Summary Fourier Series circuit example Leo Lam © 2010-2012

Fourier Series: Dirichlet Conditon Condition for periodic signal f(t) to exist has exponential series: Weak Dirichlet: Strong Dirichlet (converging series): f(t) must have finite maxima, minima, and discontinuities in a period All physical periodic signals converge Weak Dirichlet: Otherwise you can’t solve for the coefficients! 11 Leo Lam © 2010-2012

End of Fourier Series We have accomplished: Next: Fourier Transform 12 Introduced signal orthogonality Fourier Series derivation Approx. periodic signals: Fourier Series Properties Next: Fourier Transform 12 Leo Lam © 2010-2012

Fourier Transform: Introduction Fourier Series: Periodic Signal Fourier Transform: extends to all signals Recall time-scaling: 13 Leo Lam © 2010-2012

Fourier Transform: Recall time-scaling: 14 Fourier Spectra for T, Fourier Spectra for T, for 2T, 14 Leo Lam © 2010-2012

Fourier Transform: Non-periodic signal: infinite period T 15 Fourier Spectra for T, for 2T, 15 Leo Lam © 2010-2012

Fourier Transform: Fourier Formulas: For any arbitrary practical signal And its “coefficients” (Fourier Transform): F(w) is complex Rigorous math derivation in Ch. 4 (not required reading, but recommended) Time domain to Frequency domain Weak Dirichlet: Otherwise you can’t solve for the coefficients! 16 Leo Lam © 2010-2012

Fourier Transform: Fourier Formulas compared: 17 Fourier transform Fourier transform coefficients: Fourier transform (arbitrary signals) Fourier series (Periodic signals): Fourier series coefficients: and 17 Leo Lam © 2010-2012

Fourier Transform (example): Find the Fourier Transform of What does it look like? If a <0, blows up phase varies with  magnitude varies with  18 Leo Lam © 2010-2012

Feedback: Privacy Policy Feedback
Do Not Sell My Personal Information
About project: SlidePlayer Terms of Service

© 2025 SlidePlayer.com. Inc. All rights reserved.