Laplace Transform (1)

1. Laplace Transform (1) Hany Ferdinando Dept. of Electrical Eng. Petra Christian University

2. Overview • Introduction • Laplace Transform • Convergence of Laplace Transform • Properties of Laplace Transform • Using table • Inverse of Laplace Transform Laplace Transform (1) - Hany Ferdinando

3. Introduction • It was discovered by Pierre-Simon Laplace, French Mathematician (1749-1827) Laplace Transform (1) - Hany Ferdinando

4. Introduction • It transforms signal/system from time-domain to s-domain for continuous-time LTI system • It is analogous to Z Transform in discrete-time LTI system • It is similar to Fourier Transform, but ‘jw’ is substituted by s Laplace Transform (1) - Hany Ferdinando

5. Introduction • Laplace Transform is continuous sum of exponential function of the form est, where s = s + jw is complex frequency • Therefore, Fourier can be viewed as a special case in which s = jw Laplace Transform (1) - Hany Ferdinando

6. Laplace Transform Laplace Transform (1) - Hany Ferdinando

7. Laplace Transform • For h(t) = e-at, find H(s) • What is your assumption in finishing the integration? • If you do not have that assumption, then what you can do? • Is it important to have that assumption? Laplace Transform (1) - Hany Ferdinando

8. Convergence… The two-sided Laplace Transform exists if is finite Therefore, is finite Laplace Transform (1) - Hany Ferdinando

9. Convergence… Suppose there exists a real positive numberRso that for some realaandbwe know that f(t) <Reat for t > 0, and f(t) < Rebt for t > 0 Laplace Transform (1) - Hany Ferdinando

10. Convergence… Laplace Transform (1) - Hany Ferdinando

11. Convergence… • How did you make your assumption in order to solve the equation? • Can you solve it without that assumption? The negative portion converges fors < bwhile the positive one converges fors > a Laplace Transform (1) - Hany Ferdinando

12. Region of Convergence (RoC) Laplace Transform (1) - Hany Ferdinando

13. Region of Convergence (RoC) Laplace Transform (1) - Hany Ferdinando

14. Region of Convergence (RoC) Laplace Transform (1) - Hany Ferdinando

15. Region of Convergence (RoC) Laplace Transform (1) - Hany Ferdinando

16. Properties • Linearity • Scaling • Time shift • Frequency shift Laplace Transform (1) - Hany Ferdinando

17. Properties • Time convolution • Frequency convolution • Time differentiation Laplace Transform (1) - Hany Ferdinando

18. Properties • Time integration • Frequency differentation Laplace Transform (1) - Hany Ferdinando

19. Properties • One-sided time differentiation • One-sided time integration Laplace Transform (1) - Hany Ferdinando

20. Using Standard Table • Use table from books both for transform and for its inverse • No RoC is needed • Find the general form of the equation • Properties of Laplace transform are helpful • You use that table also to find the inverse Laplace Transform (1) - Hany Ferdinando

21. Exercise Laplace Transform (1) - Hany Ferdinando

22. Next… The Laplace Transform is already discussed. It transforms continuous-time LTI system from time-domain to s-domain. There are two types, one-sided (unilateral) and two-sided Next, we will study the application of Laplace Transform in Electrical Engineering. Read the Electric Circuit handout to prepare yourself! • Signals and Linear Systems by Alan V. Oppenheim, chapter 9, p 603-616 • Signals and System by Robert A. Gabel, chapter 6, p 373-394 Laplace Transform (1) - Hany Ferdinando