1. Consider a discrete-time linear time invariant system with impulse response h[n] = 8[n] + 26[n – 1] + 38[n – 2]. %3D | a) Plot h[n]. b) Find and plot the system response y[n] when the input is x[n] = 8[n + 1] – 28[n] + d[n – 1] . c) Find and plot the step response s[n]. d) Find an input-output relationship of the system.
1. Consider a discrete-time linear time invariant system with impulse response h[n] = 8[n] + 26[n – 1] + 38[n – 2]. %3D | a) Plot h[n]. b) Find and plot the system response y[n] when the input is x[n] = 8[n + 1] – 28[n] + d[n – 1] . c) Find and plot the step response s[n]. d) Find an input-output relationship of the system.
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Author:Robert L. Boylestad
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![1. Consider a discrete-time linear time invariant system with impulse response
h[n] = 8[n] + 28[n – 1] + 38[n – 2].
|
a) Plot h[n].
b) Find and plot the system response y[n] when the input is
x[n] = 8[n + 1] – 28[n] + d[n – 1] .
c) Find and plot the step response s[n].
d) Find an input-output relationship of the system.](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F47d4d836-8adb-47b6-bf40-af69e9f4d095%2F976ecca5-9c98-4096-8cb6-d1f48c7d93d6%2Fopt3uc_processed.jpeg&w=3840&q=75)
Transcribed Image Text:1. Consider a discrete-time linear time invariant system with impulse response
h[n] = 8[n] + 28[n – 1] + 38[n – 2].
|
a) Plot h[n].
b) Find and plot the system response y[n] when the input is
x[n] = 8[n + 1] – 28[n] + d[n – 1] .
c) Find and plot the step response s[n].
d) Find an input-output relationship of the system.
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