(c)A discrete time system can be represented by the following transfer functionmodel:Y(z)= G(z).U(z)Derive the following convolutional model:y(k) = E8(i)u(k –i)i=0where g(i) is the ith sample of the discrete impulse response of G(z).

The given transfer function is, YzUz=Gz By inverse z-transformation, The output is yk Input is uk…

Answered: (c) A discrete time system can be…

Introductory Circuit Analysis (13th Edition)

13th Edition

ISBN:9780133923605

Author:Robert L. Boylestad

Publisher:Robert L. Boylestad

Chapter1: Introduction

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Problem 4: An LTID system has an impulse response function given by h, [n] = 8[n + 2] – 8[n – 2]. A second LTID system has an impulse response function given by h2[n] = n(u[n + 4] – u[n – 4]). a. Sketch the functions h,[n] and h2[n] over the interval (-10
Hello Sir.Good Evening. I have a question in my home work related Control System Lesson. The following below is my question.Please advise, Thank you so much.
The impulse response of the circuit shown in Figure (a) is known to be h(t) = u(t). (a) Find the transfer function H(s) for this circuit and use that to find the output signal v,(t) when v,(t) = 20cos(10t)u(t). (b) Find the output signal in steady-state when v,(t) = 20cos(10t + 30°). (c) Use Convolution Integral to find the output of this circuit when the input is the pulse shown in Figure (b). Plot v,(t). vſt) v,(t) Circuit volt) 1 2 h(t)=u(t) (a) (b)

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(c) A discrete time system can be represented by the following transfer function model: Y(z) = G(z). U (z) Derive the following convolutional model: y(k) = E8(i)u(k-i) i=0 where g(i) is the ith sample of the discrete impulse response of G(z).