Please help with all parts. A discrete-time is modeled by the difference equation below.-y[n] + zyn − 1] = x[n— 1]-where x[n] is an input and the output is y[n].For [n] = cos(n)+2sin(n),1. determine the frequency response of this system by considering the output of the system toinputs of the form x[n] = en2. determine the exponential Fourier series coefficients of the input x[n].3. determine the exponential Fourier series coefficients of the output y[n].

Given that A discrete-time system is modeled by the difference equation…

Answered: A discrete-time is modeled by the…

Introductory Circuit Analysis (13th Edition)

13th Edition

ISBN:9780133923605

Author:Robert L. Boylestad

Publisher:Robert L. Boylestad

Chapter1: Introduction

Section: Chapter Questions

Problem 1P: Visit your local library (at school or home) and describe the extent to which it provides literature...

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Can you check if its correct: Draw and label the Frequency Response Plot of "GAIN vs Frequency" specifying the GAIN at: a. f = .1Fc --> gain = 9.95 b. f = Fc --> gain = 7.071 c. f = 10Fc --> gain = 0.995
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Discuss a procedure on how to convert a transfer function to state-space representation using phase variables and vise-versa.
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Problem #1. The parameters for the circuit below are V₁=00, and VBE (on)= 0.7 V. www-H R$ Rc RL STEF RE V+=5 V V = -5 V Low-Frequency Analysis: Clearly draw the small signal low-frequency model (with the Hybrid-) and derive an equation for the break frequency (Hint: Find the Thevenin resistance seen by the capacitor).
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Given the circuit shown in Figure (Q4). a) Find an expression for the transfer function of the circuit. b) Present an expression for the frequency of the transmission zero, w, R1 R2 C2 ww- Vo Figure (Q4)
Consider the following sampled signal x[n]. What is the cyclic frequency in the sampled signal if the signal was sampled with a sampling frequency of 40 Hz? x[n] = 1 + 2cos((pi/4)n +(pi/3))
Find yzi (n), Yzs (n) and the total solution of the difference equation for the input signal x(n) = 2u(n): y(n) + y(n – 1) – 2y(n - 2) = x(n) y(-1) = 1 y(-2) = -1
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Q.4: Choose the suitable choice for the following sentences. 1. At any resonant circuit the input impedance is ....... a. XL. b. RT. c. XC. 2. The locus of inductive load is a vector in the …... quadrant. a. 4th. b. 2nd. c. 3rd. 3. For non-sinusoidal input signal, the power dissipated in a resistance is equal to ............ a. 2I2R. b. Iav2R. c. Ieff2R. 4. Applying Kirchhoff's laws to RL & RC transient circuits produces Equations of type:a. Time-Depend. b. Time-Variable. c. Differential. 5. The Differential Equations applied RL & RC transient circuits are:a. Third-order b. Second-order c. First-order 6. Electrical energy is stored in ........ a. Inductance. b. Capacitance. c. Both-of-them. 7. .......... is obtained in parallel resonance circuit. a. Vmax. b. Imax. c. Pmax. 8. The total impedance angle is ............ on the frequency of the harmonic.a. Dependent. b. Independent. c. Both-of-them. 9. In transient circuit, the capacitor behaves as ................ when the switch…

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