(LAPLACE TRANSFORM)
(Laplace Transform Properties)
 
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5. If x(t) is left sided, and if the line Re{s} = O_0 is in the ROC, then all values of s for which Re{s} < O_0 will also be in the ROC.
 
5. If x(t) is left sided, and if the line Re{s} = O_0 is in the ROC, then all values of s for which Re{s} < O_0 will also be in the ROC.
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6. If x(t) is two sided, and if the line Re{s} = O_0 is in the ROC, then the ROC will consist of a strip in the s-plane that includes the line RE{s} = O_0.
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7. If the Laplace transform X(s) of x(t) is rational, then its ROC is bounded by poles or extends to infinity.  In addition, no poles of X(s) are contained in the ROC.
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8. If the Laplace transform X(s) of x(t) is rational, then if x(t) is right sided, the ROC is the region in the s-plane to the right of the rightmost pole.  If x(t) is left sided, the ROC is the region in the s-plane to the left of the leftmost pole.

Latest revision as of 13:44, 24 November 2008

Laplace Transform Properties

1. Region of Convergions of X(s) can consist of strips parallel to the jw-axis in the s-plane.

2. For rational Laplace Transforms, the ROC does not contain any poles.

3. If x(t) is of finite duration and is absolutely integrable, then the ROC is the entire s-plane.

4. If x(t) is right sided, and if the line Re{s} = O_0 is in the ROC, then all values of s for which Re{s} > O_0 will also be in the ROC.

5. If x(t) is left sided, and if the line Re{s} = O_0 is in the ROC, then all values of s for which Re{s} < O_0 will also be in the ROC.

6. If x(t) is two sided, and if the line Re{s} = O_0 is in the ROC, then the ROC will consist of a strip in the s-plane that includes the line RE{s} = O_0.

7. If the Laplace transform X(s) of x(t) is rational, then its ROC is bounded by poles or extends to infinity. In addition, no poles of X(s) are contained in the ROC.

8. If the Laplace transform X(s) of x(t) is rational, then if x(t) is right sided, the ROC is the region in the s-plane to the right of the rightmost pole. If x(t) is left sided, the ROC is the region in the s-plane to the left of the leftmost pole.

Alumni Liaison

has a message for current ECE438 students.

Sean Hu, ECE PhD 2009