If the continuous time system transfer function H(s) is stable, then the resulting discrete time transfer function H(z) using bilinear transform H (2) = H (s),- is also stable no matter what sampling interval Tone may choose. True False Using bilinear transform, the discrete time frequency response H(e) obtained by sampling a continuous time system response with sampling interval Thas the nonlinearly compressed relation in frequency given by H(e) = H(s)\, jtan ()* True False
If the continuous time system transfer function H(s) is stable, then the resulting discrete time transfer function H(z) using bilinear transform H (2) = H (s),- is also stable no matter what sampling interval Tone may choose. True False Using bilinear transform, the discrete time frequency response H(e) obtained by sampling a continuous time system response with sampling interval Thas the nonlinearly compressed relation in frequency given by H(e) = H(s)\, jtan ()* True False
Introductory Circuit Analysis (13th Edition)
13th Edition
ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
Chapter1: Introduction
Section: Chapter Questions
Problem 1P: Visit your local library (at school or home) and describe the extent to which it provides literature...
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3) A control system has the actuator with the unit impulse response h(t) 2e^-2t u(t). The system uses unit (negative) feedback with a proportional gain of 10. The closed loop transfer function of the system is ??
Transcribed Image Text:If the continuous time system transfer function H(s) is stable, then the resulting discrete time transfer function H(z) using bilinear transform
H (2) = H (s),-
is also stable no matter what sampling interval Tone may choose.
True
False
Transcribed Image Text:Using bilinear transform, the discrete time frequency response H(e) obtained by sampling a continuous time system response with sampling interval Thas the nonlinearly
compressed relation in frequency given by
H(e) =
H(s)\, jtan ()*
True
False
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