Using the impulse-invariant design method, design a discrete-time system to approximate the continuous-time systems with these transfer functions at the sampling rates specified. Compare the impulse and unit-step (or sequence) responses of the continuous-time and discrete-time systems. 712s 712s (a) H«(s) =- fs= 20 Hz (b) H«(s) = 2 s² + 46s + 240´ fs= 200 Hz s² + 46s + 240'
Using the impulse-invariant design method, design a discrete-time system to approximate the continuous-time systems with these transfer functions at the sampling rates specified. Compare the impulse and unit-step (or sequence) responses of the continuous-time and discrete-time systems. 712s 712s (a) H«(s) =- fs= 20 Hz (b) H«(s) = 2 s² + 46s + 240´ fs= 200 Hz s² + 46s + 240'
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Transcribed Image Text:Impulse-Invariant and Step-Invariant Filter Design
14. Using the impulse-invariant design method, design a discrete-time system to
approximate the continuous-time systems with these transfer functions at the
sampling rates specified. Compare the impulse and unit-step (or sequence)
responses of the continuous-time and discrete-time systems.
712s
712s
(a) H«(s)=
fs= 20 Hz (b) H«(s)=
fs= 200 Hz
%3D
s2 + 46s + 240'
s2 +46s + 240´
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