A causal LTID system is characterized by the following difference equation: y[n] - y[n-1] + 0.16 y[n-2] = x[n]]| %3D (e). Realize the system using the DFII form. (f). Determine the impulse response h[n] for the LTID system. Also, if x[n] = (1/4) n u[n], what is the zero-state response for the input x[n]? (g). If x[n] = cos(n+n/3), what is the output for the input x[n]? %3!
A causal LTID system is characterized by the following difference equation: y[n] - y[n-1] + 0.16 y[n-2] = x[n]]| %3D (e). Realize the system using the DFII form. (f). Determine the impulse response h[n] for the LTID system. Also, if x[n] = (1/4) n u[n], what is the zero-state response for the input x[n]? (g). If x[n] = cos(n+n/3), what is the output for the input x[n]? %3!
Introductory Circuit Analysis (13th Edition)
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Publisher:Robert L. Boylestad
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![A causal LTID system is characterized by the following difference equation: y[n] - y[n-1] + 0.16 y[n-2] = x[n]|
(e). Realize the system using the DFII form.
(f). Determine the impulse response h[n] for the LTID system. Also, if x[n] = (1/4) n u[n], what is the zero-state
response for the input x[n]?
(g). If x[n] = cos(nn+n/3), what is the output for the input x[n]?](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F57ce60b2-40c7-4038-bf1a-7d9ea160e6bf%2Ff91296e6-1384-4b00-a66d-3492c4be281d%2Fte4q6g7_processed.png&w=3840&q=75)
Transcribed Image Text:A causal LTID system is characterized by the following difference equation: y[n] - y[n-1] + 0.16 y[n-2] = x[n]|
(e). Realize the system using the DFII form.
(f). Determine the impulse response h[n] for the LTID system. Also, if x[n] = (1/4) n u[n], what is the zero-state
response for the input x[n]?
(g). If x[n] = cos(nn+n/3), what is the output for the input x[n]?
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