Below is the zero and poles plot of a system. What is the magnitude response of this system? Pole...
no need for pole-zero plot
7. Determine the system function, magnitude response, and phase response of the fol- lowing systems and use the pole-zero pattern to explain the shape of their magnitude response (a) y[n] = 1(x(n]-x(n-1), ln -2
I (K Pole-Zero Plot #1 Pole-Eero Plot 15 L. Pole-Zero Plot IMI 4z1 15 Prde-Zero Plot #5 Pole-Zero Plat #6 Tine Index (n) Problem P-10.20. Match a pole-zero plot (1-6) to each of the impulse response plots (J-N) shown above (Figure P-10.20 from p. 464) Note: Beach Board causes the magnitude Impulse Response Plot number order to be in random order Pole-Zero Plot #1 Pole-Zero Plot #2 Pole-Zero Plot #3 1, hin] Plot (N) hin] Plot (K) h[n] Plot (M)...
2. Consider a second IIR filter a. Determine the system function H(z), pole-zero location (patterns), and plot the pole-zero pattern. b. Determine the analytical expression for frequency response, magnitude, and phase response. c. Choose b so that the maximum magnitude response is equal to 1. d. Plot the pole-zero pattern and the magnitude of the frequency response as a function of normal frequency.
2. Consider a second IIR filter a. Determine the system function H(z), pole-zero location (patterns), and plot...
III.(6 pts.) A system is defined the following pole zero plot, where H(0)-10. a) Find the step response of the system.< Note: step response, not impulse response. b) (+3) Find the output, y(). when the input is x()-8(0)-e) H(O) 10 -1 -2
III.(6 pts.) A system is defined the following pole zero plot, where H(0)-10. a) Find the step response of the system.
Pole-zero plot of a 4" order system is shown below: note that there are no finite zeros. Which poles me be selected as dominant poles if a 20 order system approximation is considered, and what will be t resulting 24 order system's transfer function. Im j -10 Re -1 х j Lütfen birini seçin: 1 os=-10+j, s=-10-j, and s- +10s +101 1 Os=0, 5=-1, and s(s+1)(s? +10s +101) 1 os 0,5-1, and s(s+1) 1 OS=-10+, s=-1, and (s +1)(s +10-...
please show steps and formulas.
Plot the magnitude of the and the pole- zero plot frequency response given below. using Hcz) Hcz) = (1-ovci :) 1-0 72 (Porto
1. Pole-zero placement. We wish to design a stable and causal second-order discrete-time (DT) filter (i.e., having two poles and two zeros, including those at 0 and oo) using pole-zero placement. (a) [5 pts] Where might you place the poles and zeros to achieve the following magnitude frequency response? Sketch the pole-zero plot in the complex z-plane. -Π -Tt/2 0 (b) [3 pts] Give an expression for the transfer function H(z). Justify your answer. (c) [2 pts] Write an expression...
3. Determine which bode plot and unit step response belongs frequencies on the bode plot. to the given pole-zero map. Determine the corner Pole-Zere Map 1.5 1,4 05 o.5 1.5 1 -O.5 0.5 .2 Real Aais (seconds
3. Determine which bode plot and unit step response belongs frequencies on the bode plot. to the given pole-zero map. Determine the corner Pole-Zere Map 1.5 1,4 05 o.5 1.5 1 -O.5 0.5 .2 Real Aais (seconds
Question 2: Poles and zeros, and how they affect the transient response modes This question tests your understanding of the effects of nearby poles and ze- ros to the response mode of a specified pole (or conjugate pair). You should also understand what a pole-zero-gain plot is and how it is specified by, and specifies a transfer function A unit impulse function is applied to the system described by the transfer function G(8) = K (8+) (s + 1)(8 +2)...
Signals and System: MATLAB code provided?
Begin with the MATLAB script named lab4.m as follows. You will modify this example code to cover each of the parts of this lab. You must always carefully document and include appropriate comments in any MATLAB code. & starting point for Lab#4 % LAPLACE TRANSFORM %---------- clear all; close all; -------------------- s = tf('s'); sys = 1/(5+1); & define H(s) for a dynamic system named sys ---------------- figure(1); bode (sys); % plot magnitude and...