Consider the cascade of two DT LTI systems, shown in Figure 1 below. X[n]n[n] h₂ [n] y[n] Figure 1: DT LTI system for Problem 2. Here, h[n]u[n-5] and h₂[n]=1 for 0≤n≤4 and is zero-valued otherwise i) Determine the analytic impulse response h[n] for the overall system and ii) sketch the overall impulse response h[n] (remember that DT signals are plotted as stem plots in the discrete-time domain).
Consider the cascade of two DT LTI systems, shown in Figure 1 below. X[n]n[n] h₂ [n] y[n] Figure 1: DT LTI system for Problem 2. Here, h[n]u[n-5] and h₂[n]=1 for 0≤n≤4 and is zero-valued otherwise i) Determine the analytic impulse response h[n] for the overall system and ii) sketch the overall impulse response h[n] (remember that DT signals are plotted as stem plots in the discrete-time domain).
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![Consider the cascade of two DT LTI systems, shown in Figure 1 below.
X[n] h₁ [n]
|h₂ [n]
y[n]
Figure 1: DT LTI system for Problem 2.
Here, h[n]u[n-5] and h₂[n]=1 for 0≤n≤4 and is zero-valued otherwise.
i) Determine the analytic impulse response h[n] for the overall system and
ii) sketch the overall impulse response h[n] (remember that DT signals are
plotted as stem plots in the discrete-time domain).](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2Fe7f5a21f-e066-4d0f-98d2-748fb125ec3f%2F66384b3e-c93c-46e0-b7cf-068b66754664%2F7cx1ham_processed.jpeg&w=3840&q=75)
Transcribed Image Text:Consider the cascade of two DT LTI systems, shown in Figure 1 below.
X[n] h₁ [n]
|h₂ [n]
y[n]
Figure 1: DT LTI system for Problem 2.
Here, h[n]u[n-5] and h₂[n]=1 for 0≤n≤4 and is zero-valued otherwise.
i) Determine the analytic impulse response h[n] for the overall system and
ii) sketch the overall impulse response h[n] (remember that DT signals are
plotted as stem plots in the discrete-time domain).
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